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if(g.tag===19)jU(g,I,A);else if(g.child!==null){g.child.return=g,g=g.child;continue}if(g===A)break A;for(;g.sibling===null;){if(g.return===null||g.return===A)break A;g=g.return}g.sibling.return=g.return,g=g.sibling}C&=1}if(Mg(qg,C),!(A.mode&1))A.memoizedState=null;else switch(B){case"forwards":for(I=A.child,B=null;I!==null;)g=I.alternate,g!==null&&Sl(g)===null&&(B=I),I=I.sibling;I=B,I===null?(B=A.child,A.child=null):(B=I.sibling,I.sibling=null),YS(A,!1,B,I,i);break;case"backwards":for(I=null,B=A.child,A.child=null;B!==null;){if(g=B.alternate,g!==null&&Sl(g)===null){A.child=B;break}g=B.sibling,B.sibling=I,I=B,B=g}YS(A,!0,I,null,i);break;case"together":YS(A,!1,null,null,void 0);break;default:A.memoizedState=null}return A.child}function bD(g,A){!(A.mode&1)&&g!==null&&(g.alternate=null,A.alternate=null,A.flags|=2)}function NQ(g,A,I){if(g!==null&&(A.dependencies=g.dependencies),Le|=A.lanes,!(I&A.childLanes))return null;if(g!==null&&A.child!==g.child)throw Error(LA(153));if(A.child!==null){for(g=A.child,I=yE(g,g.pendingProps),A.child=I,I.return=A;g.sibling!==null;)g=g.sibling,I=I.sibling=yE(g,g.pendingProps),I.return=A;I.sibling=null}return A.child}function Lm(g,A,I){switch(A.tag){case 3:iK(A),yo();break;case 5:RF(A);break;case 1:lB(A.type)&&sl(A);break;case 4:ok(A,A.stateNode.containerInfo);break;case 10:var C=A.type._context,B=A.memoizedProps.value;Mg(ll,C._currentValue),C._currentValue=B;break;case 13:if(C=A.memoizedState,C!==null)return C.dehydrated!==null?(Mg(qg,qg.current&1),A.flags|=128,null):I&A.child.childLanes?QK(g,A,I):(Mg(qg,qg.current&1),g=NQ(g,A,I),g!==null?g.sibling:null);Mg(qg,qg.current&1);break;case 19:if(C=(I&A.childLanes)!==0,g.flags&128){if(C)return EK(g,A,I);A.flags|=128}if(B=A.memoizedState,B!==null&&(B.rendering=null,B.tail=null,B.lastEffect=null),Mg(qg,qg.current),C)break;return null;case 22:case 23:return A.lanes=0,CK(g,A,I)}return NQ(g,A,I)}var eK,FG,tK,oK;eK=function(g,A){for(var I=A.child;I!==null;){if(I.tag===5||I.tag===6)g.appendChild(I.stateNode);else if(I.tag!==4&&I.child!==null){I.child.return=I,I=I.child;continue}if(I===A)break;for(;I.sibling===null;){if(I.return===null||I.return===A)return;I=I.return}I.sibling.return=I.return,I=I.sibling}};FG=function(){};tK=function(g,A,I,C){var B=g.memoizedProps;if(B!==C){g=A.stateNode,Se(Pi.current);var i=null;switch(I){case"input":B=Xw(g,B),C=Xw(g,C),i=[];break;case"select":B=Lg({},B,{value:void 0}),C=Lg({},C,{value:void 0}),i=[];break;case"textarea":B=IG(g,B),C=IG(g,C),i=[];break;default:typeof B.onClick!="function"&&typeof C.onClick=="function"&&(g.onclick=nl)}CG(I,C);var Q;I=null;for(n in B)if(!C.hasOwnProperty(n)&&B.hasOwnProperty(n)&&B[n]!=null)if(n==="style"){var E=B[n];for(Q in E)E.hasOwnProperty(Q)&&(I||(I={}),I[Q]="")}else n!=="dangerouslySetInnerHTML"&&n!=="children"&&n!=="suppressContentEditableWarning"&&n!=="suppressHydrationWarning"&&n!=="autoFocus"&&(Da.hasOwnProperty(n)?i||(i=[]):(i=i||[]).push(n,null));for(n in C){var e=C[n];if(E=B!=null?B[n]:void 0,C.hasOwnProperty(n)&&e!==E&&(e!=null||E!=null))if(n==="style")if(E){for(Q in E)!E.hasOwnProperty(Q)||e&&e.hasOwnProperty(Q)||(I||(I={}),I[Q]="");for(Q in e)e.hasOwnProperty(Q)&&E[Q]!==e[Q]&&(I||(I={}),I[Q]=e[Q])}else I||(i||(i=[]),i.push(n,I)),I=e;else n==="dangerouslySetInnerHTML"?(e=e?e.__html:void 0,E=E?E.__html:void 0,e!=null&&E!==e&&(i=i||[]).push(n,e)):n==="children"?typeof e!="string"&&typeof e!="number"||(i=i||[]).push(n,""+e):n!=="suppressContentEditableWarning"&&n!=="suppressHydrationWarning"&&(Da.hasOwnProperty(n)?(e!=null&&n==="onScroll"&&ug("scroll",g),i||E===e||(i=[])):(i=i||[]).push(n,e))}I&&(i=i||[]).push("style",I);var n=i;(A.updateQueue=n)&&(A.flags|=4)}};oK=function(g,A,I,C){I!==C&&(A.flags|=4)};function 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C=A.stateNode,Mo(),pg(DB),pg(_C),ak(),C.pendingContext&&(C.context=C.pendingContext,C.pendingContext=null),(g===null||g.child===null)&&(pr(A)?A.flags|=4:g===null||g.memoizedState.isDehydrated&&!(A.flags&256)||(A.flags|=1024,wi!==null&&(LG(wi),wi=null))),FG(g,A),HC(A),null;case 5:nk(A);var B=Se(da.current);if(I=A.type,g!==null&&A.stateNode!=null)tK(g,A,I,C,B),g.ref!==A.ref&&(A.flags|=512,A.flags|=2097152);else{if(!C){if(A.stateNode===null)throw Error(LA(166));return HC(A),null}if(g=Se(Pi.current),pr(A)){C=A.stateNode,I=A.type;var i=A.memoizedProps;switch(C[bi]=A,C[ua]=i,g=(A.mode&1)!==0,I){case"dialog":ug("cancel",C),ug("close",C);break;case"iframe":case"object":case"embed":ug("load",C);break;case"video":case"audio":for(B=0;B<Zn.length;B++)ug(Zn[B],C);break;case"source":ug("error",C);break;case"img":case"image":case"link":ug("error",C),ug("load",C);break;case"details":ug("toggle",C);break;case"input":iU(C,i),ug("invalid",C);break;case"select":C._wrapperState={wasMultiple:!!i.multiple},ug("invalid",C);break;case"textarea":EU(C,i),ug("invalid",C)}CG(I,i),B=null;for(var Q in i)if(i.hasOwnProperty(Q)){var E=i[Q];Q==="children"?typeof E=="string"?C.textContent!==E&&(i.suppressHydrationWarning!==!0&&dr(C.textContent,E,g),B=["children",E]):typeof E=="number"&&C.textContent!==""+E&&(i.suppressHydrationWarning!==!0&&dr(C.textContent,E,g),B=["children",""+E]):Da.hasOwnProperty(Q)&&E!=null&&Q==="onScroll"&&ug("scroll",C)}switch(I){case"input":Sr(C),QU(C,i,!0);break;case"textarea":Sr(C),eU(C);break;case"select":case"option":break;default:typeof i.onClick=="function"&&(C.onclick=nl)}C=B,A.updateQueue=C,C!==null&&(A.flags|=4)}else{Q=B.nodeType===9?B:B.ownerDocument,g==="http://www.w3.org/1999/xhtml"&&(g=LN(I)),g==="http://www.w3.org/1999/xhtml"?I==="script"?(g=Q.createElement("div"),g.innerHTML="<script><\/script>",g=g.removeChild(g.firstChild)):typeof C.is=="string"?g=Q.createElement(I,{is:C.is}):(g=Q.createElement(I),I==="select"&&(Q=g,C.multiple?Q.multiple=!0:C.size&&(Q.size=C.size))):g=Q.createElementNS(g,I),g[bi]=A,g[ua]=C,eK(g,A,!1,!1),A.stateNode=g;A:{switch(Q=BG(I,C),I){case"dialog":ug("cancel",g),ug("close",g),B=C;break;case"iframe":case"object":case"embed":ug("load",g),B=C;break;case"video":case"audio":for(B=0;B<Zn.length;B++)ug(Zn[B],g);B=C;break;case"source":ug("error",g),B=C;break;case"img":case"image":case"link":ug("error",g),ug("load",g),B=C;break;case"details":ug("toggle",g),B=C;break;case"input":iU(g,C),B=Xw(g,C),ug("invalid",g);break;case"option":B=C;break;case"select":g._wrapperState={wasMultiple:!!C.multiple},B=Lg({},C,{value:void 0}),ug("invalid",g);break;case"textarea":EU(g,C),B=IG(g,C),ug("invalid",g);break;default:B=C}CG(I,B),E=B;for(i in E)if(E.hasOwnProperty(i)){var e=E[i];i==="style"?xN(g,e):i==="dangerouslySetInnerHTML"?(e=e?e.__html:void 0,e!=null&&HN(g,e)):i==="children"?typeof e=="string"?(I!=="textarea"||e!=="")&&la(g,e):typeof e=="number"&&la(g,""+e):i!=="suppressContentEditableWarning"&&i!=="suppressHydrationWarning"&&i!=="autoFocus"&&(Da.hasOwnProperty(i)?e!=null&&i==="onScroll"&&ug("scroll",g):e!=null&&vy(g,i,e,Q))}switch(I){case"input":Sr(g),QU(g,C,!1);break;case"textarea":Sr(g),eU(g);break;case"option":C.value!=null&&g.setAttribute("value",""+uE(C.value));break;case"select":g.multiple=!!C.multiple,i=C.value,i!=null?oo(g,!!C.multiple,i,!1):C.defaultValue!=null&&oo(g,!!C.multiple,C.defaultValue,!0);break;default:typeof B.onClick=="function"&&(g.onclick=nl)}switch(I){case"button":case"input":case"select":case"textarea":C=!!C.autoFocus;break A;case"img":C=!0;break A;default:C=!1}}C&&(A.flags|=4)}A.ref!==null&&(A.flags|=512,A.flags|=2097152)}return HC(A),null;case 6:if(g&&A.stateNode!=null)oK(g,A,g.memoizedProps,C);else{if(typeof C!="string"&&A.stateNode===null)throw Error(LA(166));if(I=Se(da.current),Se(Pi.current),pr(A)){if(C=A.stateNode,I=A.memoizedProps,C[bi]=A,(i=C.nodeValue!==I)&&(g=FB,g!==null))switch(g.tag){case 3:dr(C.nodeValue,I,(g.mode&1)!==0);break;case 5:g.memoizedProps.suppressHydrationWarning!==!0&&dr(C.nodeValue,I,(g.mode&1)!==0)}i&&(A.flags|=4)}else C=(I.nodeType===9?I:I.ownerDocument).createTextNode(C),C[bi]=A,A.stateNode=C}return HC(A),null;case 13:if(pg(qg),C=A.memoizedState,g===null||g.memoizedState!==null&&g.memoizedState.dehydrated!==null){if(Kg&&NB!==null&&A.mode&1&&!(A.flags&128))pF(),yo(),A.flags|=98560,i=!1;else if(i=pr(A),C!==null&&C.dehydrated!==null){if(g===null){if(!i)throw Error(LA(318));if(i=A.memoizedState,i=i!==null?i.dehydrated:null,!i)throw Error(LA(317));i[bi]=A}else yo(),!(A.flags&128)&&(A.memoizedState=null),A.flags|=4;HC(A),i=!1}else wi!==null&&(LG(wi),wi=null),i=!0;if(!i)return A.flags&65536?A:null}return A.flags&128?(A.lanes=I,A):(C=C!==null,C!==(g!==null&&g.memoizedState!==null)&&C&&(A.child.flags|=8192,A.mode&1&&(g===null||qg.current&1?tC===0&&(tC=3):Mk())),A.updateQueue!==null&&(A.flags|=4),HC(A),null);case 4:return Mo(),FG(g,A),g===null&&ka(A.stateNode.containerInfo),HC(A),null;case 10:return Ek(A.type._context),HC(A),null;case 17:return lB(A.type)&&al(),HC(A),null;case 19:if(pg(qg),i=A.memoizedState,i===null)return HC(A),null;if(C=(A.flags&128)!==0,Q=i.rendering,Q===null)if(C)Mn(i,!1);else{if(tC!==0||g!==null&&g.flags&128)for(g=A.child;g!==null;){if(Q=Sl(g),Q!==null){for(A.flags|=128,Mn(i,!1),C=Q.updateQueue,C!==null&&(A.updateQueue=C,A.flags|=4),A.subtreeFlags=0,C=I,I=A.child;I!==null;)i=I,g=C,i.flags&=14680066,Q=i.alternate,Q===null?(i.childLanes=0,i.lanes=g,i.child=null,i.subtreeFlags=0,i.memoizedProps=null,i.memoizedState=null,i.updateQueue=null,i.dependencies=null,i.stateNode=null):(i.childLanes=Q.childLanes,i.lanes=Q.lanes,i.child=Q.child,i.subtreeFlags=0,i.deletions=null,i.memoizedProps=Q.memoizedProps,i.memoizedState=Q.memoizedState,i.updateQueue=Q.updateQueue,i.type=Q.type,g=Q.dependencies,i.dependencies=g===null?null:{lanes:g.lanes,firstContext:g.firstContext}),I=I.sibling;return Mg(qg,qg.current&1|2),A.child}g=g.sibling}i.tail!==null&&Wg()>Uo&&(A.flags|=128,C=!0,Mn(i,!1),A.lanes=4194304)}else{if(!C)if(g=Sl(Q),g!==null){if(A.flags|=128,C=!0,I=g.updateQueue,I!==null&&(A.updateQueue=I,A.flags|=4),Mn(i,!0),i.tail===null&&i.tailMode==="hidden"&&!Q.alternate&&!Kg)return HC(A),null}else 2*Wg()-i.renderingStartTime>Uo&&I!==1073741824&&(A.flags|=128,C=!0,Mn(i,!1),A.lanes=4194304);i.isBackwards?(Q.sibling=A.child,A.child=Q):(I=i.last,I!==null?I.sibling=Q:A.child=Q,i.last=Q)}return i.tail!==null?(A=i.tail,i.rendering=A,i.tail=A.sibling,i.renderingStartTime=Wg(),A.sibling=null,I=qg.current,Mg(qg,C?I&1|2:I&1),A):(HC(A),null);case 22:case 23:return kk(),C=A.memoizedState!==null,g!==null&&g.memoizedState!==null!==C&&(A.flags|=8192),C&&A.mode&1?uB&1073741824&&(HC(A),A.subtreeFlags&6&&(A.flags|=8192)):HC(A),null;case 24:return null;case 25:return null}throw Error(LA(156,A.tag))}function Tm(g,A){switch(Ck(A),A.tag){case 1:return lB(A.type)&&al(),g=A.flags,g&65536?(A.flags=g&-65537|128,A):null;case 3:return Mo(),pg(DB),pg(_C),ak(),g=A.flags,g&65536&&!(g&128)?(A.flags=g&-65537|128,A):null;case 5:return nk(A),null;case 13:if(pg(qg),g=A.memoizedState,g!==null&&g.dehydrated!==null){if(A.alternate===null)throw Error(LA(340));yo()}return g=A.flags,g&65536?(A.flags=g&-65537|128,A):null;case 19:return pg(qg),null;case 4:return Mo(),null;case 10:return Ek(A.type._context),null;case 22:case 23:return kk(),null;case 24:return null;default:return null}}var Kr=!1,OC=!1,xm=typeof WeakSet=="function"?WeakSet:Set,iI=null;function Bo(g,A){var I=g.ref;if(I!==null)if(typeof I=="function")try{I(null)}catch(C){Og(g,A,C)}else I.current=null}function KG(g,A,I){try{I()}catch(C){Og(g,A,C)}}var zU=!1;function vm(g,A){if(rG=el,g=DF(),Ik(g)){if("selectionStart"in g)var I={start:g.selectionStart,end:g.selectionEnd};else A:{I=(I=g.ownerDocument)&&I.defaultView||window;var 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this.x=Math.max(A,Math.min(I,this.x)),this.y=Math.max(A,Math.min(I,this.y)),this}clampLength(A,I){const C=this.length();return this.divideScalar(C||1).multiplyScalar(Math.max(A,Math.min(I,C)))}floor(){return this.x=Math.floor(this.x),this.y=Math.floor(this.y),this}ceil(){return this.x=Math.ceil(this.x),this.y=Math.ceil(this.y),this}round(){return this.x=Math.round(this.x),this.y=Math.round(this.y),this}roundToZero(){return this.x=Math.trunc(this.x),this.y=Math.trunc(this.y),this}negate(){return this.x=-this.x,this.y=-this.y,this}dot(A){return this.x*A.x+this.y*A.y}cross(A){return this.x*A.y-this.y*A.x}lengthSq(){return this.x*this.x+this.y*this.y}length(){return Math.sqrt(this.x*this.x+this.y*this.y)}manhattanLength(){return Math.abs(this.x)+Math.abs(this.y)}normalize(){return this.divideScalar(this.length()||1)}angle(){return Math.atan2(-this.y,-this.x)+Math.PI}angleTo(A){const I=Math.sqrt(this.lengthSq()*A.lengthSq());if(I===0)return Math.PI/2;const C=this.dot(A)/I;return Math.acos(bg(C,-1,1))}distanceTo(A){return Math.sqrt(this.distanceToSquared(A))}distanceToSquared(A){const I=this.x-A.x,C=this.y-A.y;return I*I+C*C}manhattanDistanceTo(A){return Math.abs(this.x-A.x)+Math.abs(this.y-A.y)}setLength(A){return this.normalize().multiplyScalar(A)}lerp(A,I){return this.x+=(A.x-this.x)*I,this.y+=(A.y-this.y)*I,this}lerpVectors(A,I,C){return this.x=A.x+(I.x-A.x)*C,this.y=A.y+(I.y-A.y)*C,this}equals(A){return A.x===this.x&&A.y===this.y}fromArray(A,I=0){return this.x=A[I],this.y=A[I+1],this}toArray(A=[],I=0){return A[I]=this.x,A[I+1]=this.y,A}fromBufferAttribute(A,I){return this.x=A.getX(I),this.y=A.getY(I),this}rotateAround(A,I){const C=Math.cos(I),B=Math.sin(I),i=this.x-A.x,Q=this.y-A.y;return this.x=i*C-Q*B+A.x,this.y=i*B+Q*C+A.y,this}random(){return this.x=Math.random(),this.y=Math.random(),this}*[Symbol.iterator](){yield this.x,yield this.y}}class YI{constructor(A,I,C,B,i,Q,E,e,n){YI.prototype.isMatrix3=!0,this.elements=[1,0,0,0,1,0,0,0,1],A!==void 0&&this.set(A,I,C,B,i,Q,E,e,n)}set(A,I,C,B,i,Q,E,e,n){const a=this.elements;return a[0]=A,a[1]=B,a[2]=E,a[3]=I,a[4]=i,a[5]=e,a[6]=C,a[7]=Q,a[8]=n,this}identity(){return this.set(1,0,0,0,1,0,0,0,1),this}copy(A){const I=this.elements,C=A.elements;return I[0]=C[0],I[1]=C[1],I[2]=C[2],I[3]=C[3],I[4]=C[4],I[5]=C[5],I[6]=C[6],I[7]=C[7],I[8]=C[8],this}extractBasis(A,I,C){return A.setFromMatrix3Column(this,0),I.setFromMatrix3Column(this,1),C.setFromMatrix3Column(this,2),this}setFromMatrix4(A){const I=A.elements;return this.set(I[0],I[4],I[8],I[1],I[5],I[9],I[2],I[6],I[10]),this}multiply(A){return this.multiplyMatrices(this,A)}premultiply(A){return this.multiplyMatrices(A,this)}multiplyMatrices(A,I){const C=A.elements,B=I.elements,i=this.elements,Q=C[0],E=C[3],e=C[6],n=C[1],a=C[4],s=C[7],r=C[2],D=C[5],c=C[8],y=B[0],S=B[3],l=B[6],w=B[1],k=B[4],U=B[7],f=B[2],F=B[5],J=B[8];return i[0]=Q*y+E*w+e*f,i[3]=Q*S+E*k+e*F,i[6]=Q*l+E*U+e*J,i[1]=n*y+a*w+s*f,i[4]=n*S+a*k+s*F,i[7]=n*l+a*U+s*J,i[2]=r*y+D*w+c*f,i[5]=r*S+D*k+c*F,i[8]=r*l+D*U+c*J,this}multiplyScalar(A){const I=this.elements;return I[0]*=A,I[3]*=A,I[6]*=A,I[1]*=A,I[4]*=A,I[7]*=A,I[2]*=A,I[5]*=A,I[8]*=A,this}determinant(){const A=this.elements,I=A[0],C=A[1],B=A[2],i=A[3],Q=A[4],E=A[5],e=A[6],n=A[7],a=A[8];return I*Q*a-I*E*n-C*i*a+C*E*e+B*i*n-B*Q*e}invert(){const A=this.elements,I=A[0],C=A[1],B=A[2],i=A[3],Q=A[4],E=A[5],e=A[6],n=A[7],a=A[8],s=a*Q-E*n,r=E*e-a*i,D=n*i-Q*e,c=I*s+C*r+B*D;if(c===0)return this.set(0,0,0,0,0,0,0,0,0);const y=1/c;return A[0]=s*y,A[1]=(B*n-a*C)*y,A[2]=(E*C-B*Q)*y,A[3]=r*y,A[4]=(a*I-B*e)*y,A[5]=(B*i-E*I)*y,A[6]=D*y,A[7]=(C*e-n*I)*y,A[8]=(Q*I-C*i)*y,this}transpose(){let A;const I=this.elements;return A=I[1],I[1]=I[3],I[3]=A,A=I[2],I[2]=I[6],I[6]=A,A=I[5],I[5]=I[7],I[7]=A,this}getNormalMatrix(A){return this.setFromMatrix4(A).invert().transpose()}transposeIntoArray(A){const I=this.elements;return A[0]=I[0],A[1]=I[3],A[2]=I[6],A[3]=I[1],A[4]=I[4],A[5]=I[7],A[6]=I[2],A[7]=I[5],A[8]=I[8],this}setUvTransform(A,I,C,B,i,Q,E){const e=Math.cos(i),n=Math.sin(i);return this.set(C*e,C*n,-C*(e*Q+n*E)+Q+A,-B*n,B*e,-B*(-n*Q+e*E)+E+I,0,0,1),this}scale(A,I){return this.premultiply(HS.makeScale(A,I)),this}rotate(A){return this.premultiply(HS.makeRotation(-A)),this}translate(A,I){return this.premultiply(HS.makeTranslation(A,I)),this}makeTranslation(A,I){return A.isVector2?this.set(1,0,A.x,0,1,A.y,0,0,1):this.set(1,0,A,0,1,I,0,0,1),this}makeRotation(A){const I=Math.cos(A),C=Math.sin(A);return this.set(I,-C,0,C,I,0,0,0,1),this}makeScale(A,I){return this.set(A,0,0,0,I,0,0,0,1),this}equals(A){const I=this.elements,C=A.elements;for(let B=0;B<9;B++)if(I[B]!==C[B])return!1;return!0}fromArray(A,I=0){for(let C=0;C<9;C++)this.elements[C]=A[C+I];return this}toArray(A=[],I=0){const C=this.elements;return A[I]=C[0],A[I+1]=C[1],A[I+2]=C[2],A[I+3]=C[3],A[I+4]=C[4],A[I+5]=C[5],A[I+6]=C[6],A[I+7]=C[7],A[I+8]=C[8],A}clone(){return new this.constructor().fromArray(this.elements)}}const HS=new YI;function RJ(g){for(let A=g.length-1;A>=0;--A)if(g[A]>=65535)return!0;return!1}const zL={Int8Array,Uint8Array,Uint8ClampedArray,Int16Array,Uint16Array,Int32Array,Uint32Array,Float32Array,Float64Array};function Qo(g,A){return new zL[g](A)}function xa(g){return document.createElementNS("http://www.w3.org/1999/xhtml",g)}function fJ(){const g=xa("canvas");return g.style.display="block",g}const td={};function Ok(g){g in td||(td[g]=!0,console.warn(g))}function XL(g,A,I){return new Promise(function(C,B){function i(){switch(g.clientWaitSync(A,g.SYNC_FLUSH_COMMANDS_BIT,0)){case g.WAIT_FAILED:B();break;case g.TIMEOUT_EXPIRED:setTimeout(i,I);break;default:C()}}setTimeout(i,I)})}const od=new YI().set(.8224621,.177538,0,.0331941,.9668058,0,.0170827,.0723974,.9105199),nd=new YI().set(1.2249401,-.2249404,0,-.0420569,1.0420571,0,-.0196376,-.0786361,1.0982735),fr={[ii]:{transfer:Ya,primaries:ma,toReference:g=>g,fromReference:g=>g},[UB]:{transfer:yg,primaries:ma,toReference:g=>g.convertSRGBToLinear(),fromReference:g=>g.convertLinearToSRGB()},[es]:{transfer:Ya,primaries:La,toReference:g=>g.applyMatrix3(nd),fromReference:g=>g.applyMatrix3(od)},[Dh]:{transfer:yg,primaries:La,toReference:g=>g.convertSRGBToLinear().applyMatrix3(nd),fromReference:g=>g.applyMatrix3(od).convertLinearToSRGB()}},$L=new Set([ii,es]),ag={enabled:!0,_workingColorSpace:ii,get workingColorSpace(){return this._workingColorSpace},set workingColorSpace(g){if(!$L.has(g))throw new Error(`Unsupported working color space, "${g}".`);this._workingColorSpace=g},convert:function(g,A,I){if(this.enabled===!1||A===I||!A||!I)return g;const C=fr[A].toReference,B=fr[I].fromReference;return B(C(g))},fromWorkingColorSpace:function(g,A){return this.convert(g,this._workingColorSpace,A)},toWorkingColorSpace:function(g,A){return this.convert(g,A,this._workingColorSpace)},getPrimaries:function(g){return fr[g].primaries},getTransfer:function(g){return g===hQ?Ya:fr[g].transfer}};function ho(g){return g<.04045?g*.0773993808:Math.pow(g*.9478672986+.0521327014,2.4)}function TS(g){return g<.0031308?g*12.92:1.055*Math.pow(g,.41666)-.055}let yt;class qJ{static getDataURL(A){if(/^data:/i.test(A.src)||typeof HTMLCanvasElement>"u")return A.src;let I;if(A instanceof HTMLCanvasElement)I=A;else{yt===void 0&&(yt=xa("canvas")),yt.width=A.width,yt.height=A.height;const C=yt.getContext("2d");A instanceof ImageData?C.putImageData(A,0,0):C.drawImage(A,0,0,A.width,A.height),I=yt}return I.width>2048||I.height>2048?(console.warn("THREE.ImageUtils.getDataURL: Image converted to jpg for performance reasons",A),I.toDataURL("image/jpeg",.6)):I.toDataURL("image/png")}static sRGBToLinear(A){if(typeof HTMLImageElement<"u"&&A instanceof HTMLImageElement||typeof HTMLCanvasElement<"u"&&A instanceof HTMLCanvasElement||typeof ImageBitmap<"u"&&A instanceof ImageBitmap){const I=xa("canvas");I.width=A.width,I.height=A.height;const C=I.getContext("2d");C.drawImage(A,0,0,A.width,A.height);const B=C.getImageData(0,0,A.width,A.height),i=B.data;for(let Q=0;Q<i.length;Q++)i[Q]=ho(i[Q]/255)*255;return C.putImageData(B,0,0),I}else if(A.data){const I=A.data.slice(0);for(let C=0;C<I.length;C++)I instanceof Uint8Array||I instanceof Uint8ClampedArray?I[C]=Math.floor(ho(I[C]/255)*255):I[C]=ho(I[C]);return{data:I,width:A.width,height:A.height}}else return console.warn("THREE.ImageUtils.sRGBToLinear(): Unsupported image type. No color space conversion applied."),A}}let AH=0;class ke{constructor(A=null){this.isSource=!0,Object.defineProperty(this,"id",{value:AH++}),this.uuid=KB(),this.data=A,this.dataReady=!0,this.version=0}set needsUpdate(A){A===!0&&this.version++}toJSON(A){const I=A===void 0||typeof A=="string";if(!I&&A.images[this.uuid]!==void 0)return A.images[this.uuid];const C={uuid:this.uuid,url:""},B=this.data;if(B!==null){let i;if(Array.isArray(B)){i=[];for(let Q=0,E=B.length;Q<E;Q++)B[Q].isDataTexture?i.push(xS(B[Q].image)):i.push(xS(B[Q]))}else i=xS(B);C.url=i}return I||(A.images[this.uuid]=C),C}}function xS(g){return typeof HTMLImageElement<"u"&&g instanceof HTMLImageElement||typeof HTMLCanvasElement<"u"&&g instanceof HTMLCanvasElement||typeof ImageBitmap<"u"&&g instanceof ImageBitmap?qJ.getDataURL(g):g.data?{data:Array.from(g.data),width:g.width,height:g.height,type:g.data.constructor.name}:(console.warn("THREE.Texture: Unable to serialize Texture."),{})}let IH=0;class Ig extends mQ{constructor(A=Ig.DEFAULT_IMAGE,I=Ig.DEFAULT_MAPPING,C=Vg,B=Vg,i=tg,Q=Ii,E=CC,e=RB,n=Ig.DEFAULT_ANISOTROPY,a=hQ){super(),this.isTexture=!0,Object.defineProperty(this,"id",{value:IH++}),this.uuid=KB(),this.name="",this.source=new ke(A),this.mipmaps=[],this.mapping=I,this.channel=0,this.wrapS=C,this.wrapT=B,this.magFilter=i,this.minFilter=Q,this.anisotropy=n,this.format=E,this.internalFormat=null,this.type=e,this.offset=new pA(0,0),this.repeat=new pA(1,1),this.center=new pA(0,0),this.rotation=0,this.matrixAutoUpdate=!0,this.matrix=new YI,this.generateMipmaps=!0,this.premultiplyAlpha=!1,this.flipY=!0,this.unpackAlignment=4,this.colorSpace=a,this.userData={},this.version=0,this.onUpdate=null,this.isRenderTargetTexture=!1,this.pmremVersion=0}get image(){return this.source.data}set image(A=null){this.source.data=A}updateMatrix(){this.matrix.setUvTransform(this.offset.x,this.offset.y,this.repeat.x,this.repeat.y,this.rotation,this.center.x,this.center.y)}clone(){return new this.constructor().copy(this)}copy(A){return this.name=A.name,this.source=A.source,this.mipmaps=A.mipmaps.slice(0),this.mapping=A.mapping,this.channel=A.channel,this.wrapS=A.wrapS,this.wrapT=A.wrapT,this.magFilter=A.magFilter,this.minFilter=A.minFilter,this.anisotropy=A.anisotropy,this.format=A.format,this.internalFormat=A.internalFormat,this.type=A.type,this.offset.copy(A.offset),this.repeat.copy(A.repeat),this.center.copy(A.center),this.rotation=A.rotation,this.matrixAutoUpdate=A.matrixAutoUpdate,this.matrix.copy(A.matrix),this.generateMipmaps=A.generateMipmaps,this.premultiplyAlpha=A.premultiplyAlpha,this.flipY=A.flipY,this.unpackAlignment=A.unpackAlignment,this.colorSpace=A.colorSpace,this.userData=JSON.parse(JSON.stringify(A.userData)),this.needsUpdate=!0,this}toJSON(A){const I=A===void 0||typeof A=="string";if(!I&&A.textures[this.uuid]!==void 0)return A.textures[this.uuid];const C={metadata:{version:4.6,type:"Texture",generator:"Texture.toJSON"},uuid:this.uuid,name:this.name,image:this.source.toJSON(A).uuid,mapping:this.mapping,channel:this.channel,repeat:[this.repeat.x,this.repeat.y],offset:[this.offset.x,this.offset.y],center:[this.center.x,this.center.y],rotation:this.rotation,wrap:[this.wrapS,this.wrapT],format:this.format,internalFormat:this.internalFormat,type:this.type,colorSpace:this.colorSpace,minFilter:this.minFilter,magFilter:this.magFilter,anisotropy:this.anisotropy,flipY:this.flipY,generateMipmaps:this.generateMipmaps,premultiplyAlpha:this.premultiplyAlpha,unpackAlignment:this.unpackAlignment};return Object.keys(this.userData).length>0&&(C.userData=this.userData),I||(A.textures[this.uuid]=C),C}dispose(){this.dispatchEvent({type:"dispose"})}transformUv(A){if(this.mapping!==dE)return A;if(A.applyMatrix3(this.matrix),A.x<0||A.x>1)switch(this.wrapS){case FQ:A.x=A.x-Math.floor(A.x);break;case Vg:A.x=A.x<0?0:1;break;case No:Math.abs(Math.floor(A.x)%2)===1?A.x=Math.ceil(A.x)-A.x:A.x=A.x-Math.floor(A.x);break}if(A.y<0||A.y>1)switch(this.wrapT){case FQ:A.y=A.y-Math.floor(A.y);break;case Vg:A.y=A.y<0?0:1;break;case No:Math.abs(Math.floor(A.y)%2)===1?A.y=Math.ceil(A.y)-A.y:A.y=A.y-Math.floor(A.y);break}return this.flipY&&(A.y=1-A.y),A}set needsUpdate(A){A===!0&&(this.version++,this.source.needsUpdate=!0)}set needsPMREMUpdate(A){A===!0&&this.pmremVersion++}}Ig.DEFAULT_IMAGE=null;Ig.DEFAULT_MAPPING=dE;Ig.DEFAULT_ANISOTROPY=1;class Dg{constructor(A=0,I=0,C=0,B=1){Dg.prototype.isVector4=!0,this.x=A,this.y=I,this.z=C,this.w=B}get width(){return this.z}set width(A){this.z=A}get height(){return this.w}set height(A){this.w=A}set(A,I,C,B){return this.x=A,this.y=I,this.z=C,this.w=B,this}setScalar(A){return this.x=A,this.y=A,this.z=A,this.w=A,this}setX(A){return this.x=A,this}setY(A){return this.y=A,this}setZ(A){return this.z=A,this}setW(A){return this.w=A,this}setComponent(A,I){switch(A){case 0:this.x=I;break;case 1:this.y=I;break;case 2:this.z=I;break;case 3:this.w=I;break;default:throw new Error("index is out of range: "+A)}return this}getComponent(A){switch(A){case 0:return this.x;case 1:return this.y;case 2:return this.z;case 3:return this.w;default:throw new Error("index is out of range: "+A)}}clone(){return new this.constructor(this.x,this.y,this.z,this.w)}copy(A){return this.x=A.x,this.y=A.y,this.z=A.z,this.w=A.w!==void 0?A.w:1,this}add(A){return this.x+=A.x,this.y+=A.y,this.z+=A.z,this.w+=A.w,this}addScalar(A){return this.x+=A,this.y+=A,this.z+=A,this.w+=A,this}addVectors(A,I){return this.x=A.x+I.x,this.y=A.y+I.y,this.z=A.z+I.z,this.w=A.w+I.w,this}addScaledVector(A,I){return this.x+=A.x*I,this.y+=A.y*I,this.z+=A.z*I,this.w+=A.w*I,this}sub(A){return this.x-=A.x,this.y-=A.y,this.z-=A.z,this.w-=A.w,this}subScalar(A){return this.x-=A,this.y-=A,this.z-=A,this.w-=A,this}subVectors(A,I){return this.x=A.x-I.x,this.y=A.y-I.y,this.z=A.z-I.z,this.w=A.w-I.w,this}multiply(A){return this.x*=A.x,this.y*=A.y,this.z*=A.z,this.w*=A.w,this}multiplyScalar(A){return this.x*=A,this.y*=A,this.z*=A,this.w*=A,this}applyMatrix4(A){const I=this.x,C=this.y,B=this.z,i=this.w,Q=A.elements;return this.x=Q[0]*I+Q[4]*C+Q[8]*B+Q[12]*i,this.y=Q[1]*I+Q[5]*C+Q[9]*B+Q[13]*i,this.z=Q[2]*I+Q[6]*C+Q[10]*B+Q[14]*i,this.w=Q[3]*I+Q[7]*C+Q[11]*B+Q[15]*i,this}divideScalar(A){return this.multiplyScalar(1/A)}setAxisAngleFromQuaternion(A){this.w=2*Math.acos(A.w);const I=Math.sqrt(1-A.w*A.w);return I<1e-4?(this.x=1,this.y=0,this.z=0):(this.x=A.x/I,this.y=A.y/I,this.z=A.z/I),this}setAxisAngleFromRotationMatrix(A){let I,C,B,i;const e=A.elements,n=e[0],a=e[4],s=e[8],r=e[1],D=e[5],c=e[9],y=e[2],S=e[6],l=e[10];if(Math.abs(a-r)<.01&&Math.abs(s-y)<.01&&Math.abs(c-S)<.01){if(Math.abs(a+r)<.1&&Math.abs(s+y)<.1&&Math.abs(c+S)<.1&&Math.abs(n+D+l-3)<.1)return this.set(1,0,0,0),this;I=Math.PI;const k=(n+1)/2,U=(D+1)/2,f=(l+1)/2,F=(a+r)/4,J=(s+y)/4,q=(c+S)/4;return k>U&&k>f?k<.01?(C=0,B=.707106781,i=.707106781):(C=Math.sqrt(k),B=F/C,i=J/C):U>f?U<.01?(C=.707106781,B=0,i=.707106781):(B=Math.sqrt(U),C=F/B,i=q/B):f<.01?(C=.707106781,B=.707106781,i=0):(i=Math.sqrt(f),C=J/i,B=q/i),this.set(C,B,i,I),this}let w=Math.sqrt((S-c)*(S-c)+(s-y)*(s-y)+(r-a)*(r-a));return Math.abs(w)<.001&&(w=1),this.x=(S-c)/w,this.y=(s-y)/w,this.z=(r-a)/w,this.w=Math.acos((n+D+l-1)/2),this}min(A){return this.x=Math.min(this.x,A.x),this.y=Math.min(this.y,A.y),this.z=Math.min(this.z,A.z),this.w=Math.min(this.w,A.w),this}max(A){return this.x=Math.max(this.x,A.x),this.y=Math.max(this.y,A.y),this.z=Math.max(this.z,A.z),this.w=Math.max(this.w,A.w),this}clamp(A,I){return this.x=Math.max(A.x,Math.min(I.x,this.x)),this.y=Math.max(A.y,Math.min(I.y,this.y)),this.z=Math.max(A.z,Math.min(I.z,this.z)),this.w=Math.max(A.w,Math.min(I.w,this.w)),this}clampScalar(A,I){return this.x=Math.max(A,Math.min(I,this.x)),this.y=Math.max(A,Math.min(I,this.y)),this.z=Math.max(A,Math.min(I,this.z)),this.w=Math.max(A,Math.min(I,this.w)),this}clampLength(A,I){const C=this.length();return this.divideScalar(C||1).multiplyScalar(Math.max(A,Math.min(I,C)))}floor(){return this.x=Math.floor(this.x),this.y=Math.floor(this.y),this.z=Math.floor(this.z),this.w=Math.floor(this.w),this}ceil(){return this.x=Math.ceil(this.x),this.y=Math.ceil(this.y),this.z=Math.ceil(this.z),this.w=Math.ceil(this.w),this}round(){return this.x=Math.round(this.x),this.y=Math.round(this.y),this.z=Math.round(this.z),this.w=Math.round(this.w),this}roundToZero(){return this.x=Math.trunc(this.x),this.y=Math.trunc(this.y),this.z=Math.trunc(this.z),this.w=Math.trunc(this.w),this}negate(){return this.x=-this.x,this.y=-this.y,this.z=-this.z,this.w=-this.w,this}dot(A){return this.x*A.x+this.y*A.y+this.z*A.z+this.w*A.w}lengthSq(){return this.x*this.x+this.y*this.y+this.z*this.z+this.w*this.w}length(){return Math.sqrt(this.x*this.x+this.y*this.y+this.z*this.z+this.w*this.w)}manhattanLength(){return Math.abs(this.x)+Math.abs(this.y)+Math.abs(this.z)+Math.abs(this.w)}normalize(){return this.divideScalar(this.length()||1)}setLength(A){return this.normalize().multiplyScalar(A)}lerp(A,I){return this.x+=(A.x-this.x)*I,this.y+=(A.y-this.y)*I,this.z+=(A.z-this.z)*I,this.w+=(A.w-this.w)*I,this}lerpVectors(A,I,C){return this.x=A.x+(I.x-A.x)*C,this.y=A.y+(I.y-A.y)*C,this.z=A.z+(I.z-A.z)*C,this.w=A.w+(I.w-A.w)*C,this}equals(A){return A.x===this.x&&A.y===this.y&&A.z===this.z&&A.w===this.w}fromArray(A,I=0){return this.x=A[I],this.y=A[I+1],this.z=A[I+2],this.w=A[I+3],this}toArray(A=[],I=0){return A[I]=this.x,A[I+1]=this.y,A[I+2]=this.z,A[I+3]=this.w,A}fromBufferAttribute(A,I){return this.x=A.getX(I),this.y=A.getY(I),this.z=A.getZ(I),this.w=A.getW(I),this}random(){return this.x=Math.random(),this.y=Math.random(),this.z=Math.random(),this.w=Math.random(),this}*[Symbol.iterator](){yield this.x,yield this.y,yield this.z,yield this.w}}class YJ extends mQ{constructor(A=1,I=1,C={}){super(),this.isRenderTarget=!0,this.width=A,this.height=I,this.depth=1,this.scissor=new Dg(0,0,A,I),this.scissorTest=!1,this.viewport=new Dg(0,0,A,I);const B={width:A,height:I,depth:1};C=Object.assign({generateMipmaps:!1,internalFormat:null,minFilter:tg,depthBuffer:!0,stencilBuffer:!1,resolveDepthBuffer:!0,resolveStencilBuffer:!0,depthTexture:null,samples:0,count:1},C);const i=new Ig(B,C.mapping,C.wrapS,C.wrapT,C.magFilter,C.minFilter,C.format,C.type,C.anisotropy,C.colorSpace);i.flipY=!1,i.generateMipmaps=C.generateMipmaps,i.internalFormat=C.internalFormat,this.textures=[];const Q=C.count;for(let E=0;E<Q;E++)this.textures[E]=i.clone(),this.textures[E].isRenderTargetTexture=!0;this.depthBuffer=C.depthBuffer,this.stencilBuffer=C.stencilBuffer,this.resolveDepthBuffer=C.resolveDepthBuffer,this.resolveStencilBuffer=C.resolveStencilBuffer,this.depthTexture=C.depthTexture,this.samples=C.samples}get texture(){return this.textures[0]}set texture(A){this.textures[0]=A}setSize(A,I,C=1){if(this.width!==A||this.height!==I||this.depth!==C){this.width=A,this.height=I,this.depth=C;for(let B=0,i=this.textures.length;B<i;B++)this.textures[B].image.width=A,this.textures[B].image.height=I,this.textures[B].image.depth=C;this.dispose()}this.viewport.set(0,0,A,I),this.scissor.set(0,0,A,I)}clone(){return new this.constructor().copy(this)}copy(A){this.width=A.width,this.height=A.height,this.depth=A.depth,this.scissor.copy(A.scissor),this.scissorTest=A.scissorTest,this.viewport.copy(A.viewport),this.textures.length=0;for(let C=0,B=A.textures.length;C<B;C++)this.textures[C]=A.textures[C].clone(),this.textures[C].isRenderTargetTexture=!0;const I=Object.assign({},A.texture.image);return this.texture.source=new ke(I),this.depthBuffer=A.depthBuffer,this.stencilBuffer=A.stencilBuffer,this.resolveDepthBuffer=A.resolveDepthBuffer,this.resolveStencilBuffer=A.resolveStencilBuffer,A.depthTexture!==null&&(this.depthTexture=A.depthTexture.clone()),this.samples=A.samples,this}dispose(){this.dispatchEvent({type:"dispose"})}}class fB extends YJ{constructor(A=1,I=1,C={}){super(A,I,C),this.isWebGLRenderTarget=!0}}class lh extends Ig{constructor(A=null,I=1,C=1,B=1){super(null),this.isDataArrayTexture=!0,this.image={data:A,width:I,height:C,depth:B},this.magFilter=oC,this.minFilter=oC,this.wrapR=Vg,this.generateMipmaps=!1,this.flipY=!1,this.unpackAlignment=1,this.layerUpdates=new Set}addLayerUpdate(A){this.layerUpdates.add(A)}clearLayerUpdates(){this.layerUpdates.clear()}}class gH extends fB{constructor(A=1,I=1,C=1,B={}){super(A,I,B),this.isWebGLArrayRenderTarget=!0,this.depth=C,this.texture=new lh(null,A,I,C),this.texture.isRenderTargetTexture=!0}}class bk extends Ig{constructor(A=null,I=1,C=1,B=1){super(null),this.isData3DTexture=!0,this.image={data:A,width:I,height:C,depth:B},this.magFilter=oC,this.minFilter=oC,this.wrapR=Vg,this.generateMipmaps=!1,this.flipY=!1,this.unpackAlignment=1}}class CH extends fB{constructor(A=1,I=1,C=1,B={}){super(A,I,B),this.isWebGL3DRenderTarget=!0,this.depth=C,this.texture=new bk(null,A,I,C),this.texture.isRenderTargetTexture=!0}}class nC{constructor(A=0,I=0,C=0,B=1){this.isQuaternion=!0,this._x=A,this._y=I,this._z=C,this._w=B}static slerpFlat(A,I,C,B,i,Q,E){let e=C[B+0],n=C[B+1],a=C[B+2],s=C[B+3];const r=i[Q+0],D=i[Q+1],c=i[Q+2],y=i[Q+3];if(E===0){A[I+0]=e,A[I+1]=n,A[I+2]=a,A[I+3]=s;return}if(E===1){A[I+0]=r,A[I+1]=D,A[I+2]=c,A[I+3]=y;return}if(s!==y||e!==r||n!==D||a!==c){let S=1-E;const l=e*r+n*D+a*c+s*y,w=l>=0?1:-1,k=1-l*l;if(k>Number.EPSILON){const f=Math.sqrt(k),F=Math.atan2(f,l*w);S=Math.sin(S*F)/f,E=Math.sin(E*F)/f}const U=E*w;if(e=e*S+r*U,n=n*S+D*U,a=a*S+c*U,s=s*S+y*U,S===1-E){const f=1/Math.sqrt(e*e+n*n+a*a+s*s);e*=f,n*=f,a*=f,s*=f}}A[I]=e,A[I+1]=n,A[I+2]=a,A[I+3]=s}static multiplyQuaternionsFlat(A,I,C,B,i,Q){const E=C[B],e=C[B+1],n=C[B+2],a=C[B+3],s=i[Q],r=i[Q+1],D=i[Q+2],c=i[Q+3];return A[I]=E*c+a*s+e*D-n*r,A[I+1]=e*c+a*r+n*s-E*D,A[I+2]=n*c+a*D+E*r-e*s,A[I+3]=a*c-E*s-e*r-n*D,A}get x(){return this._x}set x(A){this._x=A,this._onChangeCallback()}get y(){return this._y}set y(A){this._y=A,this._onChangeCallback()}get z(){return this._z}set z(A){this._z=A,this._onChangeCallback()}get w(){return this._w}set w(A){this._w=A,this._onChangeCallback()}set(A,I,C,B){return this._x=A,this._y=I,this._z=C,this._w=B,this._onChangeCallback(),this}clone(){return new this.constructor(this._x,this._y,this._z,this._w)}copy(A){return this._x=A.x,this._y=A.y,this._z=A.z,this._w=A.w,this._onChangeCallback(),this}setFromEuler(A,I=!0){const C=A._x,B=A._y,i=A._z,Q=A._order,E=Math.cos,e=Math.sin,n=E(C/2),a=E(B/2),s=E(i/2),r=e(C/2),D=e(B/2),c=e(i/2);switch(Q){case"XYZ":this._x=r*a*s+n*D*c,this._y=n*D*s-r*a*c,this._z=n*a*c+r*D*s,this._w=n*a*s-r*D*c;break;case"YXZ":this._x=r*a*s+n*D*c,this._y=n*D*s-r*a*c,this._z=n*a*c-r*D*s,this._w=n*a*s+r*D*c;break;case"ZXY":this._x=r*a*s-n*D*c,this._y=n*D*s+r*a*c,this._z=n*a*c+r*D*s,this._w=n*a*s-r*D*c;break;case"ZYX":this._x=r*a*s-n*D*c,this._y=n*D*s+r*a*c,this._z=n*a*c-r*D*s,this._w=n*a*s+r*D*c;break;case"YZX":this._x=r*a*s+n*D*c,this._y=n*D*s+r*a*c,this._z=n*a*c-r*D*s,this._w=n*a*s-r*D*c;break;case"XZY":this._x=r*a*s-n*D*c,this._y=n*D*s-r*a*c,this._z=n*a*c+r*D*s,this._w=n*a*s+r*D*c;break;default:console.warn("THREE.Quaternion: .setFromEuler() encountered an unknown order: "+Q)}return I===!0&&this._onChangeCallback(),this}setFromAxisAngle(A,I){const C=I/2,B=Math.sin(C);return this._x=A.x*B,this._y=A.y*B,this._z=A.z*B,this._w=Math.cos(C),this._onChangeCallback(),this}setFromRotationMatrix(A){const I=A.elements,C=I[0],B=I[4],i=I[8],Q=I[1],E=I[5],e=I[9],n=I[2],a=I[6],s=I[10],r=C+E+s;if(r>0){const D=.5/Math.sqrt(r+1);this._w=.25/D,this._x=(a-e)*D,this._y=(i-n)*D,this._z=(Q-B)*D}else if(C>E&&C>s){const D=2*Math.sqrt(1+C-E-s);this._w=(a-e)/D,this._x=.25*D,this._y=(B+Q)/D,this._z=(i+n)/D}else if(E>s){const D=2*Math.sqrt(1+E-C-s);this._w=(i-n)/D,this._x=(B+Q)/D,this._y=.25*D,this._z=(e+a)/D}else{const D=2*Math.sqrt(1+s-C-E);this._w=(Q-B)/D,this._x=(i+n)/D,this._y=(e+a)/D,this._z=.25*D}return this._onChangeCallback(),this}setFromUnitVectors(A,I){let C=A.dot(I)+1;return C<Number.EPSILON?(C=0,Math.abs(A.x)>Math.abs(A.z)?(this._x=-A.y,this._y=A.x,this._z=0,this._w=C):(this._x=0,this._y=-A.z,this._z=A.y,this._w=C)):(this._x=A.y*I.z-A.z*I.y,this._y=A.z*I.x-A.x*I.z,this._z=A.x*I.y-A.y*I.x,this._w=C),this.normalize()}angleTo(A){return 2*Math.acos(Math.abs(bg(this.dot(A),-1,1)))}rotateTowards(A,I){const C=this.angleTo(A);if(C===0)return this;const B=Math.min(1,I/C);return this.slerp(A,B),this}identity(){return this.set(0,0,0,1)}invert(){return this.conjugate()}conjugate(){return this._x*=-1,this._y*=-1,this._z*=-1,this._onChangeCallback(),this}dot(A){return this._x*A._x+this._y*A._y+this._z*A._z+this._w*A._w}lengthSq(){return this._x*this._x+this._y*this._y+this._z*this._z+this._w*this._w}length(){return Math.sqrt(this._x*this._x+this._y*this._y+this._z*this._z+this._w*this._w)}normalize(){let A=this.length();return A===0?(this._x=0,this._y=0,this._z=0,this._w=1):(A=1/A,this._x=this._x*A,this._y=this._y*A,this._z=this._z*A,this._w=this._w*A),this._onChangeCallback(),this}multiply(A){return this.multiplyQuaternions(this,A)}premultiply(A){return this.multiplyQuaternions(A,this)}multiplyQuaternions(A,I){const C=A._x,B=A._y,i=A._z,Q=A._w,E=I._x,e=I._y,n=I._z,a=I._w;return this._x=C*a+Q*E+B*n-i*e,this._y=B*a+Q*e+i*E-C*n,this._z=i*a+Q*n+C*e-B*E,this._w=Q*a-C*E-B*e-i*n,this._onChangeCallback(),this}slerp(A,I){if(I===0)return this;if(I===1)return this.copy(A);const C=this._x,B=this._y,i=this._z,Q=this._w;let E=Q*A._w+C*A._x+B*A._y+i*A._z;if(E<0?(this._w=-A._w,this._x=-A._x,this._y=-A._y,this._z=-A._z,E=-E):this.copy(A),E>=1)return this._w=Q,this._x=C,this._y=B,this._z=i,this;const e=1-E*E;if(e<=Number.EPSILON){const D=1-I;return this._w=D*Q+I*this._w,this._x=D*C+I*this._x,this._y=D*B+I*this._y,this._z=D*i+I*this._z,this.normalize(),this}const n=Math.sqrt(e),a=Math.atan2(n,E),s=Math.sin((1-I)*a)/n,r=Math.sin(I*a)/n;return this._w=Q*s+this._w*r,this._x=C*s+this._x*r,this._y=B*s+this._y*r,this._z=i*s+this._z*r,this._onChangeCallback(),this}slerpQuaternions(A,I,C){return this.copy(A).slerp(I,C)}random(){const A=2*Math.PI*Math.random(),I=2*Math.PI*Math.random(),C=Math.random(),B=Math.sqrt(1-C),i=Math.sqrt(C);return this.set(B*Math.sin(A),B*Math.cos(A),i*Math.sin(I),i*Math.cos(I))}equals(A){return A._x===this._x&&A._y===this._y&&A._z===this._z&&A._w===this._w}fromArray(A,I=0){return this._x=A[I],this._y=A[I+1],this._z=A[I+2],this._w=A[I+3],this._onChangeCallback(),this}toArray(A=[],I=0){return A[I]=this._x,A[I+1]=this._y,A[I+2]=this._z,A[I+3]=this._w,A}fromBufferAttribute(A,I){return this._x=A.getX(I),this._y=A.getY(I),this._z=A.getZ(I),this._w=A.getW(I),this._onChangeCallback(),this}toJSON(){return this.toArray()}_onChange(A){return this._onChangeCallback=A,this}_onChangeCallback(){}*[Symbol.iterator](){yield this._x,yield this._y,yield this._z,yield this._w}}class T{constructor(A=0,I=0,C=0){T.prototype.isVector3=!0,this.x=A,this.y=I,this.z=C}set(A,I,C){return C===void 0&&(C=this.z),this.x=A,this.y=I,this.z=C,this}setScalar(A){return this.x=A,this.y=A,this.z=A,this}setX(A){return this.x=A,this}setY(A){return this.y=A,this}setZ(A){return this.z=A,this}setComponent(A,I){switch(A){case 0:this.x=I;break;case 1:this.y=I;break;case 2:this.z=I;break;default:throw new Error("index is out of range: "+A)}return this}getComponent(A){switch(A){case 0:return this.x;case 1:return this.y;case 2:return this.z;default:throw new Error("index is out of range: "+A)}}clone(){return new this.constructor(this.x,this.y,this.z)}copy(A){return this.x=A.x,this.y=A.y,this.z=A.z,this}add(A){return this.x+=A.x,this.y+=A.y,this.z+=A.z,this}addScalar(A){return this.x+=A,this.y+=A,this.z+=A,this}addVectors(A,I){return this.x=A.x+I.x,this.y=A.y+I.y,this.z=A.z+I.z,this}addScaledVector(A,I){return this.x+=A.x*I,this.y+=A.y*I,this.z+=A.z*I,this}sub(A){return this.x-=A.x,this.y-=A.y,this.z-=A.z,this}subScalar(A){return this.x-=A,this.y-=A,this.z-=A,this}subVectors(A,I){return this.x=A.x-I.x,this.y=A.y-I.y,this.z=A.z-I.z,this}multiply(A){return this.x*=A.x,this.y*=A.y,this.z*=A.z,this}multiplyScalar(A){return this.x*=A,this.y*=A,this.z*=A,this}multiplyVectors(A,I){return 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this.applyMatrix4(A.projectionMatrixInverse).applyMatrix4(A.matrixWorld)}transformDirection(A){const I=this.x,C=this.y,B=this.z,i=A.elements;return this.x=i[0]*I+i[4]*C+i[8]*B,this.y=i[1]*I+i[5]*C+i[9]*B,this.z=i[2]*I+i[6]*C+i[10]*B,this.normalize()}divide(A){return this.x/=A.x,this.y/=A.y,this.z/=A.z,this}divideScalar(A){return this.multiplyScalar(1/A)}min(A){return this.x=Math.min(this.x,A.x),this.y=Math.min(this.y,A.y),this.z=Math.min(this.z,A.z),this}max(A){return this.x=Math.max(this.x,A.x),this.y=Math.max(this.y,A.y),this.z=Math.max(this.z,A.z),this}clamp(A,I){return this.x=Math.max(A.x,Math.min(I.x,this.x)),this.y=Math.max(A.y,Math.min(I.y,this.y)),this.z=Math.max(A.z,Math.min(I.z,this.z)),this}clampScalar(A,I){return this.x=Math.max(A,Math.min(I,this.x)),this.y=Math.max(A,Math.min(I,this.y)),this.z=Math.max(A,Math.min(I,this.z)),this}clampLength(A,I){const C=this.length();return this.divideScalar(C||1).multiplyScalar(Math.max(A,Math.min(I,C)))}floor(){return this.x=Math.floor(this.x),this.y=Math.floor(this.y),this.z=Math.floor(this.z),this}ceil(){return this.x=Math.ceil(this.x),this.y=Math.ceil(this.y),this.z=Math.ceil(this.z),this}round(){return this.x=Math.round(this.x),this.y=Math.round(this.y),this.z=Math.round(this.z),this}roundToZero(){return this.x=Math.trunc(this.x),this.y=Math.trunc(this.y),this.z=Math.trunc(this.z),this}negate(){return this.x=-this.x,this.y=-this.y,this.z=-this.z,this}dot(A){return this.x*A.x+this.y*A.y+this.z*A.z}lengthSq(){return this.x*this.x+this.y*this.y+this.z*this.z}length(){return Math.sqrt(this.x*this.x+this.y*this.y+this.z*this.z)}manhattanLength(){return Math.abs(this.x)+Math.abs(this.y)+Math.abs(this.z)}normalize(){return this.divideScalar(this.length()||1)}setLength(A){return this.normalize().multiplyScalar(A)}lerp(A,I){return this.x+=(A.x-this.x)*I,this.y+=(A.y-this.y)*I,this.z+=(A.z-this.z)*I,this}lerpVectors(A,I,C){return 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B=Math.sin(I)*A;return this.x=B*Math.sin(C),this.y=Math.cos(I)*A,this.z=B*Math.cos(C),this}setFromCylindrical(A){return this.setFromCylindricalCoords(A.radius,A.theta,A.y)}setFromCylindricalCoords(A,I,C){return this.x=A*Math.sin(I),this.y=C,this.z=A*Math.cos(I),this}setFromMatrixPosition(A){const I=A.elements;return this.x=I[12],this.y=I[13],this.z=I[14],this}setFromMatrixScale(A){const I=this.setFromMatrixColumn(A,0).length(),C=this.setFromMatrixColumn(A,1).length(),B=this.setFromMatrixColumn(A,2).length();return this.x=I,this.y=C,this.z=B,this}setFromMatrixColumn(A,I){return this.fromArray(A.elements,I*4)}setFromMatrix3Column(A,I){return this.fromArray(A.elements,I*3)}setFromEuler(A){return this.x=A._x,this.y=A._y,this.z=A._z,this}setFromColor(A){return this.x=A.r,this.y=A.g,this.z=A.b,this}equals(A){return A.x===this.x&&A.y===this.y&&A.z===this.z}fromArray(A,I=0){return this.x=A[I],this.y=A[I+1],this.z=A[I+2],this}toArray(A=[],I=0){return A[I]=this.x,A[I+1]=this.y,A[I+2]=this.z,A}fromBufferAttribute(A,I){return this.x=A.getX(I),this.y=A.getY(I),this.z=A.getZ(I),this}random(){return this.x=Math.random(),this.y=Math.random(),this.z=Math.random(),this}randomDirection(){const A=Math.random()*Math.PI*2,I=Math.random()*2-1,C=Math.sqrt(1-I*I);return this.x=C*Math.cos(A),this.y=I,this.z=C*Math.sin(A),this}*[Symbol.iterator](){yield this.x,yield this.y,yield this.z}}const vS=new T,ad=new nC;class bC{constructor(A=new T(1/0,1/0,1/0),I=new T(-1/0,-1/0,-1/0)){this.isBox3=!0,this.min=A,this.max=I}set(A,I){return this.min.copy(A),this.max.copy(I),this}setFromArray(A){this.makeEmpty();for(let I=0,C=A.length;I<C;I+=3)this.expandByPoint(ai.fromArray(A,I));return this}setFromBufferAttribute(A){this.makeEmpty();for(let I=0,C=A.count;I<C;I++)this.expandByPoint(ai.fromBufferAttribute(A,I));return this}setFromPoints(A){this.makeEmpty();for(let I=0,C=A.length;I<C;I++)this.expandByPoint(A[I]);return this}setFromCenterAndSize(A,I){const C=ai.copy(I).multiplyScalar(.5);return this.min.copy(A).sub(C),this.max.copy(A).add(C),this}setFromObject(A,I=!1){return this.makeEmpty(),this.expandByObject(A,I)}clone(){return new this.constructor().copy(this)}copy(A){return this.min.copy(A.min),this.max.copy(A.max),this}makeEmpty(){return this.min.x=this.min.y=this.min.z=1/0,this.max.x=this.max.y=this.max.z=-1/0,this}isEmpty(){return this.max.x<this.min.x||this.max.y<this.min.y||this.max.z<this.min.z}getCenter(A){return this.isEmpty()?A.set(0,0,0):A.addVectors(this.min,this.max).multiplyScalar(.5)}getSize(A){return this.isEmpty()?A.set(0,0,0):A.subVectors(this.max,this.min)}expandByPoint(A){return this.min.min(A),this.max.max(A),this}expandByVector(A){return this.min.sub(A),this.max.add(A),this}expandByScalar(A){return this.min.addScalar(-A),this.max.addScalar(A),this}expandByObject(A,I=!1){A.updateWorldMatrix(!1,!1);const C=A.geometry;if(C!==void 0){const i=C.getAttribute("position");if(I===!0&&i!==void 0&&A.isInstancedMesh!==!0)for(let Q=0,E=i.count;Q<E;Q++)A.isMesh===!0?A.getVertexPosition(Q,ai):ai.fromBufferAttribute(i,Q),ai.applyMatrix4(A.matrixWorld),this.expandByPoint(ai);else A.boundingBox!==void 0?(A.boundingBox===null&&A.computeBoundingBox(),qr.copy(A.boundingBox)):(C.boundingBox===null&&C.computeBoundingBox(),qr.copy(C.boundingBox)),qr.applyMatrix4(A.matrixWorld),this.union(qr)}const B=A.children;for(let i=0,Q=B.length;i<Q;i++)this.expandByObject(B[i],I);return this}containsPoint(A){return!(A.x<this.min.x||A.x>this.max.x||A.y<this.min.y||A.y>this.max.y||A.z<this.min.z||A.z>this.max.z)}containsBox(A){return this.min.x<=A.min.x&&A.max.x<=this.max.x&&this.min.y<=A.min.y&&A.max.y<=this.max.y&&this.min.z<=A.min.z&&A.max.z<=this.max.z}getParameter(A,I){return I.set((A.x-this.min.x)/(this.max.x-this.min.x),(A.y-this.min.y)/(this.max.y-this.min.y),(A.z-this.min.z)/(this.max.z-this.min.z))}intersectsBox(A){return!(A.max.x<this.min.x||A.min.x>this.max.x||A.max.y<this.min.y||A.min.y>this.max.y||A.max.z<this.min.z||A.min.z>this.max.z)}intersectsSphere(A){return this.clampPoint(A.center,ai),ai.distanceToSquared(A.center)<=A.radius*A.radius}intersectsPlane(A){let I,C;return A.normal.x>0?(I=A.normal.x*this.min.x,C=A.normal.x*this.max.x):(I=A.normal.x*this.max.x,C=A.normal.x*this.min.x),A.normal.y>0?(I+=A.normal.y*this.min.y,C+=A.normal.y*this.max.y):(I+=A.normal.y*this.max.y,C+=A.normal.y*this.min.y),A.normal.z>0?(I+=A.normal.z*this.min.z,C+=A.normal.z*this.max.z):(I+=A.normal.z*this.max.z,C+=A.normal.z*this.min.z),I<=-A.constant&&C>=-A.constant}intersectsTriangle(A){if(this.isEmpty())return!1;this.getCenter(Un),Yr.subVectors(this.max,Un),kt.subVectors(A.a,Un),Mt.subVectors(A.b,Un),ut.subVectors(A.c,Un),WQ.subVectors(Mt,kt),VQ.subVectors(ut,Mt),zE.subVectors(kt,ut);let I=[0,-WQ.z,WQ.y,0,-VQ.z,VQ.y,0,-zE.z,zE.y,WQ.z,0,-WQ.x,VQ.z,0,-VQ.x,zE.z,0,-zE.x,-WQ.y,WQ.x,0,-VQ.y,VQ.x,0,-zE.y,zE.x,0];return!OS(I,kt,Mt,ut,Yr)||(I=[1,0,0,0,1,0,0,0,1],!OS(I,kt,Mt,ut,Yr))?!1:(mr.crossVectors(WQ,VQ),I=[mr.x,mr.y,mr.z],OS(I,kt,Mt,ut,Yr))}clampPoint(A,I){return I.copy(A).clamp(this.min,this.max)}distanceToPoint(A){return this.clampPoint(A,ai).distanceTo(A)}getBoundingSphere(A){return this.isEmpty()?A.makeEmpty():(this.getCenter(A.center),A.radius=this.getSize(ai).length()*.5),A}intersect(A){return this.min.max(A.min),this.max.min(A.max),this.isEmpty()&&this.makeEmpty(),this}union(A){return this.min.min(A.min),this.max.max(A.max),this}applyMatrix4(A){return this.isEmpty()?this:(EQ[0].set(this.min.x,this.min.y,this.min.z).applyMatrix4(A),EQ[1].set(this.min.x,this.min.y,this.max.z).applyMatrix4(A),EQ[2].set(this.min.x,this.max.y,this.min.z).applyMatrix4(A),EQ[3].set(this.min.x,this.max.y,this.max.z).applyMatrix4(A),EQ[4].set(this.max.x,this.min.y,this.min.z).applyMatrix4(A),EQ[5].set(this.max.x,this.min.y,this.max.z).applyMatrix4(A),EQ[6].set(this.max.x,this.max.y,this.min.z).applyMatrix4(A),EQ[7].set(this.max.x,this.max.y,this.max.z).applyMatrix4(A),this.setFromPoints(EQ),this)}translate(A){return this.min.add(A),this.max.add(A),this}equals(A){return A.min.equals(this.min)&&A.max.equals(this.max)}}const EQ=[new T,new T,new T,new T,new T,new T,new T,new T],ai=new T,qr=new bC,kt=new T,Mt=new T,ut=new T,WQ=new T,VQ=new T,zE=new T,Un=new T,Yr=new T,mr=new T,XE=new T;function OS(g,A,I,C,B){for(let i=0,Q=g.length-3;i<=Q;i+=3){XE.fromArray(g,i);const E=B.x*Math.abs(XE.x)+B.y*Math.abs(XE.y)+B.z*Math.abs(XE.z),e=A.dot(XE),n=I.dot(XE),a=C.dot(XE);if(Math.max(-Math.max(e,n,a),Math.min(e,n,a))>E)return!1}return!0}const BH=new bC,dn=new T,bS=new T;class NC{constructor(A=new T,I=-1){this.isSphere=!0,this.center=A,this.radius=I}set(A,I){return this.center.copy(A),this.radius=I,this}setFromPoints(A,I){const C=this.center;I!==void 0?C.copy(I):BH.setFromPoints(A).getCenter(C);let B=0;for(let i=0,Q=A.length;i<Q;i++)B=Math.max(B,C.distanceToSquared(A[i]));return this.radius=Math.sqrt(B),this}copy(A){return this.center.copy(A.center),this.radius=A.radius,this}isEmpty(){return this.radius<0}makeEmpty(){return this.center.set(0,0,0),this.radius=-1,this}containsPoint(A){return A.distanceToSquared(this.center)<=this.radius*this.radius}distanceToPoint(A){return A.distanceTo(this.center)-this.radius}intersectsSphere(A){const I=this.radius+A.radius;return A.center.distanceToSquared(this.center)<=I*I}intersectsBox(A){return A.intersectsSphere(this)}intersectsPlane(A){return Math.abs(A.distanceToPoint(this.center))<=this.radius}clampPoint(A,I){const C=this.center.distanceToSquared(A);return I.copy(A),C>this.radius*this.radius&&(I.sub(this.center).normalize(),I.multiplyScalar(this.radius).add(this.center)),I}getBoundingBox(A){return this.isEmpty()?(A.makeEmpty(),A):(A.set(this.center,this.center),A.expandByScalar(this.radius),A)}applyMatrix4(A){return this.center.applyMatrix4(A),this.radius=this.radius*A.getMaxScaleOnAxis(),this}translate(A){return this.center.add(A),this}expandByPoint(A){if(this.isEmpty())return this.center.copy(A),this.radius=0,this;dn.subVectors(A,this.center);const I=dn.lengthSq();if(I>this.radius*this.radius){const C=Math.sqrt(I),B=(C-this.radius)*.5;this.center.addScaledVector(dn,B/C),this.radius+=B}return this}union(A){return A.isEmpty()?this:this.isEmpty()?(this.copy(A),this):(this.center.equals(A.center)===!0?this.radius=Math.max(this.radius,A.radius):(bS.subVectors(A.center,this.center).setLength(A.radius),this.expandByPoint(dn.copy(A.center).add(bS)),this.expandByPoint(dn.copy(A.center).sub(bS))),this)}equals(A){return A.center.equals(this.center)&&A.radius===this.radius}clone(){return new this.constructor().copy(this)}}const eQ=new T,_S=new T,Lr=new T,jQ=new T,ZS=new T,Hr=new T,PS=new T;class bo{constructor(A=new T,I=new T(0,0,-1)){this.origin=A,this.direction=I}set(A,I){return this.origin.copy(A),this.direction.copy(I),this}copy(A){return this.origin.copy(A.origin),this.direction.copy(A.direction),this}at(A,I){return I.copy(this.origin).addScaledVector(this.direction,A)}lookAt(A){return this.direction.copy(A).sub(this.origin).normalize(),this}recast(A){return this.origin.copy(this.at(A,eQ)),this}closestPointToPoint(A,I){I.subVectors(A,this.origin);const C=I.dot(this.direction);return C<0?I.copy(this.origin):I.copy(this.origin).addScaledVector(this.direction,C)}distanceToPoint(A){return Math.sqrt(this.distanceSqToPoint(A))}distanceSqToPoint(A){const I=eQ.subVectors(A,this.origin).dot(this.direction);return I<0?this.origin.distanceToSquared(A):(eQ.copy(this.origin).addScaledVector(this.direction,I),eQ.distanceToSquared(A))}distanceSqToSegment(A,I,C,B){_S.copy(A).add(I).multiplyScalar(.5),Lr.copy(I).sub(A).normalize(),jQ.copy(this.origin).sub(_S);const i=A.distanceTo(I)*.5,Q=-this.direction.dot(Lr),E=jQ.dot(this.direction),e=-jQ.dot(Lr),n=jQ.lengthSq(),a=Math.abs(1-Q*Q);let s,r,D,c;if(a>0)if(s=Q*e-E,r=Q*E-e,c=i*a,s>=0)if(r>=-c)if(r<=c){const y=1/a;s*=y,r*=y,D=s*(s+Q*r+2*E)+r*(Q*s+r+2*e)+n}else r=i,s=Math.max(0,-(Q*r+E)),D=-s*s+r*(r+2*e)+n;else r=-i,s=Math.max(0,-(Q*r+E)),D=-s*s+r*(r+2*e)+n;else r<=-c?(s=Math.max(0,-(-Q*i+E)),r=s>0?-i:Math.min(Math.max(-i,-e),i),D=-s*s+r*(r+2*e)+n):r<=c?(s=0,r=Math.min(Math.max(-i,-e),i),D=r*(r+2*e)+n):(s=Math.max(0,-(Q*i+E)),r=s>0?i:Math.min(Math.max(-i,-e),i),D=-s*s+r*(r+2*e)+n);else r=Q>0?-i:i,s=Math.max(0,-(Q*r+E)),D=-s*s+r*(r+2*e)+n;return C&&C.copy(this.origin).addScaledVector(this.direction,s),B&&B.copy(_S).addScaledVector(Lr,r),D}intersectSphere(A,I){eQ.subVectors(A.center,this.origin);const C=eQ.dot(this.direction),B=eQ.dot(eQ)-C*C,i=A.radius*A.radius;if(B>i)return null;const Q=Math.sqrt(i-B),E=C-Q,e=C+Q;return e<0?null:E<0?this.at(e,I):this.at(E,I)}intersectsSphere(A){return this.distanceSqToPoint(A.center)<=A.radius*A.radius}distanceToPlane(A){const I=A.normal.dot(this.direction);if(I===0)return A.distanceToPoint(this.origin)===0?0:null;const C=-(this.origin.dot(A.normal)+A.constant)/I;return C>=0?C:null}intersectPlane(A,I){const C=this.distanceToPlane(A);return C===null?null:this.at(C,I)}intersectsPlane(A){const I=A.distanceToPoint(this.origin);return I===0||A.normal.dot(this.direction)*I<0}intersectBox(A,I){let C,B,i,Q,E,e;const n=1/this.direction.x,a=1/this.direction.y,s=1/this.direction.z,r=this.origin;return n>=0?(C=(A.min.x-r.x)*n,B=(A.max.x-r.x)*n):(C=(A.max.x-r.x)*n,B=(A.min.x-r.x)*n),a>=0?(i=(A.min.y-r.y)*a,Q=(A.max.y-r.y)*a):(i=(A.max.y-r.y)*a,Q=(A.min.y-r.y)*a),C>Q||i>B||((i>C||isNaN(C))&&(C=i),(Q<B||isNaN(B))&&(B=Q),s>=0?(E=(A.min.z-r.z)*s,e=(A.max.z-r.z)*s):(E=(A.max.z-r.z)*s,e=(A.min.z-r.z)*s),C>e||E>B)||((E>C||C!==C)&&(C=E),(e<B||B!==B)&&(B=e),B<0)?null:this.at(C>=0?C:B,I)}intersectsBox(A){return this.intersectBox(A,eQ)!==null}intersectTriangle(A,I,C,B,i){ZS.subVectors(I,A),Hr.subVectors(C,A),PS.crossVectors(ZS,Hr);let Q=this.direction.dot(PS),E;if(Q>0){if(B)return null;E=1}else if(Q<0)E=-1,Q=-Q;else return null;jQ.subVectors(this.origin,A);const e=E*this.direction.dot(Hr.crossVectors(jQ,Hr));if(e<0)return null;const n=E*this.direction.dot(ZS.cross(jQ));if(n<0||e+n>Q)return null;const a=-E*jQ.dot(PS);return a<0?null:this.at(a/Q,i)}applyMatrix4(A){return this.origin.applyMatrix4(A),this.direction.transformDirection(A),this}equals(A){return A.origin.equals(this.origin)&&A.direction.equals(this.direction)}clone(){return new this.constructor().copy(this)}}class hI{constructor(A,I,C,B,i,Q,E,e,n,a,s,r,D,c,y,S){hI.prototype.isMatrix4=!0,this.elements=[1,0,0,0,0,1,0,0,0,0,1,0,0,0,0,1],A!==void 0&&this.set(A,I,C,B,i,Q,E,e,n,a,s,r,D,c,y,S)}set(A,I,C,B,i,Q,E,e,n,a,s,r,D,c,y,S){const l=this.elements;return l[0]=A,l[4]=I,l[8]=C,l[12]=B,l[1]=i,l[5]=Q,l[9]=E,l[13]=e,l[2]=n,l[6]=a,l[10]=s,l[14]=r,l[3]=D,l[7]=c,l[11]=y,l[15]=S,this}identity(){return this.set(1,0,0,0,0,1,0,0,0,0,1,0,0,0,0,1),this}clone(){return new hI().fromArray(this.elements)}copy(A){const I=this.elements,C=A.elements;return I[0]=C[0],I[1]=C[1],I[2]=C[2],I[3]=C[3],I[4]=C[4],I[5]=C[5],I[6]=C[6],I[7]=C[7],I[8]=C[8],I[9]=C[9],I[10]=C[10],I[11]=C[11],I[12]=C[12],I[13]=C[13],I[14]=C[14],I[15]=C[15],this}copyPosition(A){const I=this.elements,C=A.elements;return I[12]=C[12],I[13]=C[13],I[14]=C[14],this}setFromMatrix3(A){const I=A.elements;return this.set(I[0],I[3],I[6],0,I[1],I[4],I[7],0,I[2],I[5],I[8],0,0,0,0,1),this}extractBasis(A,I,C){return A.setFromMatrixColumn(this,0),I.setFromMatrixColumn(this,1),C.setFromMatrixColumn(this,2),this}makeBasis(A,I,C){return this.set(A.x,I.x,C.x,0,A.y,I.y,C.y,0,A.z,I.z,C.z,0,0,0,0,1),this}extractRotation(A){const I=this.elements,C=A.elements,B=1/Ut.setFromMatrixColumn(A,0).length(),i=1/Ut.setFromMatrixColumn(A,1).length(),Q=1/Ut.setFromMatrixColumn(A,2).length();return I[0]=C[0]*B,I[1]=C[1]*B,I[2]=C[2]*B,I[3]=0,I[4]=C[4]*i,I[5]=C[5]*i,I[6]=C[6]*i,I[7]=0,I[8]=C[8]*Q,I[9]=C[9]*Q,I[10]=C[10]*Q,I[11]=0,I[12]=0,I[13]=0,I[14]=0,I[15]=1,this}makeRotationFromEuler(A){const I=this.elements,C=A.x,B=A.y,i=A.z,Q=Math.cos(C),E=Math.sin(C),e=Math.cos(B),n=Math.sin(B),a=Math.cos(i),s=Math.sin(i);if(A.order==="XYZ"){const r=Q*a,D=Q*s,c=E*a,y=E*s;I[0]=e*a,I[4]=-e*s,I[8]=n,I[1]=D+c*n,I[5]=r-y*n,I[9]=-E*e,I[2]=y-r*n,I[6]=c+D*n,I[10]=Q*e}else if(A.order==="YXZ"){const r=e*a,D=e*s,c=n*a,y=n*s;I[0]=r+y*E,I[4]=c*E-D,I[8]=Q*n,I[1]=Q*s,I[5]=Q*a,I[9]=-E,I[2]=D*E-c,I[6]=y+r*E,I[10]=Q*e}else if(A.order==="ZXY"){const r=e*a,D=e*s,c=n*a,y=n*s;I[0]=r-y*E,I[4]=-Q*s,I[8]=c+D*E,I[1]=D+c*E,I[5]=Q*a,I[9]=y-r*E,I[2]=-Q*n,I[6]=E,I[10]=Q*e}else if(A.order==="ZYX"){const r=Q*a,D=Q*s,c=E*a,y=E*s;I[0]=e*a,I[4]=c*n-D,I[8]=r*n+y,I[1]=e*s,I[5]=y*n+r,I[9]=D*n-c,I[2]=-n,I[6]=E*e,I[10]=Q*e}else if(A.order==="YZX"){const r=Q*e,D=Q*n,c=E*e,y=E*n;I[0]=e*a,I[4]=y-r*s,I[8]=c*s+D,I[1]=s,I[5]=Q*a,I[9]=-E*a,I[2]=-n*a,I[6]=D*s+c,I[10]=r-y*s}else if(A.order==="XZY"){const r=Q*e,D=Q*n,c=E*e,y=E*n;I[0]=e*a,I[4]=-s,I[8]=n*a,I[1]=r*s+y,I[5]=Q*a,I[9]=D*s-c,I[2]=c*s-D,I[6]=E*a,I[10]=y*s+r}return I[3]=0,I[7]=0,I[11]=0,I[12]=0,I[13]=0,I[14]=0,I[15]=1,this}makeRotationFromQuaternion(A){return this.compose(iH,A,QH)}lookAt(A,I,C){const B=this.elements;return yB.subVectors(A,I),yB.lengthSq()===0&&(yB.z=1),yB.normalize(),zQ.crossVectors(C,yB),zQ.lengthSq()===0&&(Math.abs(C.z)===1?yB.x+=1e-4:yB.z+=1e-4,yB.normalize(),zQ.crossVectors(C,yB)),zQ.normalize(),Tr.crossVectors(yB,zQ),B[0]=zQ.x,B[4]=Tr.x,B[8]=yB.x,B[1]=zQ.y,B[5]=Tr.y,B[9]=yB.y,B[2]=zQ.z,B[6]=Tr.z,B[10]=yB.z,this}multiply(A){return this.multiplyMatrices(this,A)}premultiply(A){return this.multiplyMatrices(A,this)}multiplyMatrices(A,I){const C=A.elements,B=I.elements,i=this.elements,Q=C[0],E=C[4],e=C[8],n=C[12],a=C[1],s=C[5],r=C[9],D=C[13],c=C[2],y=C[6],S=C[10],l=C[14],w=C[3],k=C[7],U=C[11],f=C[15],F=B[0],J=B[4],q=B[8],K=B[12],N=B[1],m=B[5],P=B[9],z=B[13],IA=B[2],tA=B[6],$=B[10],SA=B[14],O=B[3],EA=B[7],X=B[11],oA=B[15];return i[0]=Q*F+E*N+e*IA+n*O,i[4]=Q*J+E*m+e*tA+n*EA,i[8]=Q*q+E*P+e*$+n*X,i[12]=Q*K+E*z+e*SA+n*oA,i[1]=a*F+s*N+r*IA+D*O,i[5]=a*J+s*m+r*tA+D*EA,i[9]=a*q+s*P+r*$+D*X,i[13]=a*K+s*z+r*SA+D*oA,i[2]=c*F+y*N+S*IA+l*O,i[6]=c*J+y*m+S*tA+l*EA,i[10]=c*q+y*P+S*$+l*X,i[14]=c*K+y*z+S*SA+l*oA,i[3]=w*F+k*N+U*IA+f*O,i[7]=w*J+k*m+U*tA+f*EA,i[11]=w*q+k*P+U*$+f*X,i[15]=w*K+k*z+U*SA+f*oA,this}multiplyScalar(A){const I=this.elements;return I[0]*=A,I[4]*=A,I[8]*=A,I[12]*=A,I[1]*=A,I[5]*=A,I[9]*=A,I[13]*=A,I[2]*=A,I[6]*=A,I[10]*=A,I[14]*=A,I[3]*=A,I[7]*=A,I[11]*=A,I[15]*=A,this}determinant(){const A=this.elements,I=A[0],C=A[4],B=A[8],i=A[12],Q=A[1],E=A[5],e=A[9],n=A[13],a=A[2],s=A[6],r=A[10],D=A[14],c=A[3],y=A[7],S=A[11],l=A[15];return c*(+i*e*s-B*n*s-i*E*r+C*n*r+B*E*D-C*e*D)+y*(+I*e*D-I*n*r+i*Q*r-B*Q*D+B*n*a-i*e*a)+S*(+I*n*s-I*E*D-i*Q*s+C*Q*D+i*E*a-C*n*a)+l*(-B*E*a-I*e*s+I*E*r+B*Q*s-C*Q*r+C*e*a)}transpose(){const A=this.elements;let I;return I=A[1],A[1]=A[4],A[4]=I,I=A[2],A[2]=A[8],A[8]=I,I=A[6],A[6]=A[9],A[9]=I,I=A[3],A[3]=A[12],A[12]=I,I=A[7],A[7]=A[13],A[13]=I,I=A[11],A[11]=A[14],A[14]=I,this}setPosition(A,I,C){const B=this.elements;return A.isVector3?(B[12]=A.x,B[13]=A.y,B[14]=A.z):(B[12]=A,B[13]=I,B[14]=C),this}invert(){const A=this.elements,I=A[0],C=A[1],B=A[2],i=A[3],Q=A[4],E=A[5],e=A[6],n=A[7],a=A[8],s=A[9],r=A[10],D=A[11],c=A[12],y=A[13],S=A[14],l=A[15],w=s*S*n-y*r*n+y*e*D-E*S*D-s*e*l+E*r*l,k=c*r*n-a*S*n-c*e*D+Q*S*D+a*e*l-Q*r*l,U=a*y*n-c*s*n+c*E*D-Q*y*D-a*E*l+Q*s*l,f=c*s*e-a*y*e-c*E*r+Q*y*r+a*E*S-Q*s*S,F=I*w+C*k+B*U+i*f;if(F===0)return this.set(0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0);const J=1/F;return A[0]=w*J,A[1]=(y*r*i-s*S*i-y*B*D+C*S*D+s*B*l-C*r*l)*J,A[2]=(E*S*i-y*e*i+y*B*n-C*S*n-E*B*l+C*e*l)*J,A[3]=(s*e*i-E*r*i-s*B*n+C*r*n+E*B*D-C*e*D)*J,A[4]=k*J,A[5]=(a*S*i-c*r*i+c*B*D-I*S*D-a*B*l+I*r*l)*J,A[6]=(c*e*i-Q*S*i-c*B*n+I*S*n+Q*B*l-I*e*l)*J,A[7]=(Q*r*i-a*e*i+a*B*n-I*r*n-Q*B*D+I*e*D)*J,A[8]=U*J,A[9]=(c*s*i-a*y*i-c*C*D+I*y*D+a*C*l-I*s*l)*J,A[10]=(Q*y*i-c*E*i+c*C*n-I*y*n-Q*C*l+I*E*l)*J,A[11]=(a*E*i-Q*s*i-a*C*n+I*s*n+Q*C*D-I*E*D)*J,A[12]=f*J,A[13]=(a*y*B-c*s*B+c*C*r-I*y*r-a*C*S+I*s*S)*J,A[14]=(c*E*B-Q*y*B-c*C*e+I*y*e+Q*C*S-I*E*S)*J,A[15]=(Q*s*B-a*E*B+a*C*e-I*s*e-Q*C*r+I*E*r)*J,this}scale(A){const I=this.elements,C=A.x,B=A.y,i=A.z;return I[0]*=C,I[4]*=B,I[8]*=i,I[1]*=C,I[5]*=B,I[9]*=i,I[2]*=C,I[6]*=B,I[10]*=i,I[3]*=C,I[7]*=B,I[11]*=i,this}getMaxScaleOnAxis(){const A=this.elements,I=A[0]*A[0]+A[1]*A[1]+A[2]*A[2],C=A[4]*A[4]+A[5]*A[5]+A[6]*A[6],B=A[8]*A[8]+A[9]*A[9]+A[10]*A[10];return Math.sqrt(Math.max(I,C,B))}makeTranslation(A,I,C){return A.isVector3?this.set(1,0,0,A.x,0,1,0,A.y,0,0,1,A.z,0,0,0,1):this.set(1,0,0,A,0,1,0,I,0,0,1,C,0,0,0,1),this}makeRotationX(A){const I=Math.cos(A),C=Math.sin(A);return this.set(1,0,0,0,0,I,-C,0,0,C,I,0,0,0,0,1),this}makeRotationY(A){const I=Math.cos(A),C=Math.sin(A);return this.set(I,0,C,0,0,1,0,0,-C,0,I,0,0,0,0,1),this}makeRotationZ(A){const I=Math.cos(A),C=Math.sin(A);return this.set(I,-C,0,0,C,I,0,0,0,0,1,0,0,0,0,1),this}makeRotationAxis(A,I){const C=Math.cos(I),B=Math.sin(I),i=1-C,Q=A.x,E=A.y,e=A.z,n=i*Q,a=i*E;return this.set(n*Q+C,n*E-B*e,n*e+B*E,0,n*E+B*e,a*E+C,a*e-B*Q,0,n*e-B*E,a*e+B*Q,i*e*e+C,0,0,0,0,1),this}makeScale(A,I,C){return this.set(A,0,0,0,0,I,0,0,0,0,C,0,0,0,0,1),this}makeShear(A,I,C,B,i,Q){return this.set(1,C,i,0,A,1,Q,0,I,B,1,0,0,0,0,1),this}compose(A,I,C){const B=this.elements,i=I._x,Q=I._y,E=I._z,e=I._w,n=i+i,a=Q+Q,s=E+E,r=i*n,D=i*a,c=i*s,y=Q*a,S=Q*s,l=E*s,w=e*n,k=e*a,U=e*s,f=C.x,F=C.y,J=C.z;return B[0]=(1-(y+l))*f,B[1]=(D+U)*f,B[2]=(c-k)*f,B[3]=0,B[4]=(D-U)*F,B[5]=(1-(r+l))*F,B[6]=(S+w)*F,B[7]=0,B[8]=(c+k)*J,B[9]=(S-w)*J,B[10]=(1-(r+y))*J,B[11]=0,B[12]=A.x,B[13]=A.y,B[14]=A.z,B[15]=1,this}decompose(A,I,C){const B=this.elements;let i=Ut.set(B[0],B[1],B[2]).length();const Q=Ut.set(B[4],B[5],B[6]).length(),E=Ut.set(B[8],B[9],B[10]).length();this.determinant()<0&&(i=-i),A.x=B[12],A.y=B[13],A.z=B[14],si.copy(this);const n=1/i,a=1/Q,s=1/E;return si.elements[0]*=n,si.elements[1]*=n,si.elements[2]*=n,si.elements[4]*=a,si.elements[5]*=a,si.elements[6]*=a,si.elements[8]*=s,si.elements[9]*=s,si.elements[10]*=s,I.setFromRotationMatrix(si),C.x=i,C.y=Q,C.z=E,this}makePerspective(A,I,C,B,i,Q,E=_i){const e=this.elements,n=2*i/(I-A),a=2*i/(C-B),s=(I+A)/(I-A),r=(C+B)/(C-B);let D,c;if(E===_i)D=-(Q+i)/(Q-i),c=-2*Q*i/(Q-i);else if(E===Ta)D=-Q/(Q-i),c=-Q*i/(Q-i);else throw new Error("THREE.Matrix4.makePerspective(): Invalid coordinate system: "+E);return e[0]=n,e[4]=0,e[8]=s,e[12]=0,e[1]=0,e[5]=a,e[9]=r,e[13]=0,e[2]=0,e[6]=0,e[10]=D,e[14]=c,e[3]=0,e[7]=0,e[11]=-1,e[15]=0,this}makeOrthographic(A,I,C,B,i,Q,E=_i){const e=this.elements,n=1/(I-A),a=1/(C-B),s=1/(Q-i),r=(I+A)*n,D=(C+B)*a;let c,y;if(E===_i)c=(Q+i)*s,y=-2*s;else if(E===Ta)c=i*s,y=-1*s;else throw new Error("THREE.Matrix4.makeOrthographic(): Invalid coordinate system: "+E);return e[0]=2*n,e[4]=0,e[8]=0,e[12]=-r,e[1]=0,e[5]=2*a,e[9]=0,e[13]=-D,e[2]=0,e[6]=0,e[10]=y,e[14]=-c,e[3]=0,e[7]=0,e[11]=0,e[15]=1,this}equals(A){const I=this.elements,C=A.elements;for(let B=0;B<16;B++)if(I[B]!==C[B])return!1;return!0}fromArray(A,I=0){for(let C=0;C<16;C++)this.elements[C]=A[C+I];return this}toArray(A=[],I=0){const C=this.elements;return A[I]=C[0],A[I+1]=C[1],A[I+2]=C[2],A[I+3]=C[3],A[I+4]=C[4],A[I+5]=C[5],A[I+6]=C[6],A[I+7]=C[7],A[I+8]=C[8],A[I+9]=C[9],A[I+10]=C[10],A[I+11]=C[11],A[I+12]=C[12],A[I+13]=C[13],A[I+14]=C[14],A[I+15]=C[15],A}}const Ut=new T,si=new hI,iH=new T(0,0,0),QH=new T(1,1,1),zQ=new T,Tr=new T,yB=new T,sd=new hI,rd=new nC;class ZC{constructor(A=0,I=0,C=0,B=ZC.DEFAULT_ORDER){this.isEuler=!0,this._x=A,this._y=I,this._z=C,this._order=B}get x(){return this._x}set x(A){this._x=A,this._onChangeCallback()}get y(){return this._y}set y(A){this._y=A,this._onChangeCallback()}get z(){return this._z}set z(A){this._z=A,this._onChangeCallback()}get order(){return this._order}set order(A){this._order=A,this._onChangeCallback()}set(A,I,C,B=this._order){return this._x=A,this._y=I,this._z=C,this._order=B,this._onChangeCallback(),this}clone(){return new this.constructor(this._x,this._y,this._z,this._order)}copy(A){return this._x=A._x,this._y=A._y,this._z=A._z,this._order=A._order,this._onChangeCallback(),this}setFromRotationMatrix(A,I=this._order,C=!0){const B=A.elements,i=B[0],Q=B[4],E=B[8],e=B[1],n=B[5],a=B[9],s=B[2],r=B[6],D=B[10];switch(I){case"XYZ":this._y=Math.asin(bg(E,-1,1)),Math.abs(E)<.9999999?(this._x=Math.atan2(-a,D),this._z=Math.atan2(-Q,i)):(this._x=Math.atan2(r,n),this._z=0);break;case"YXZ":this._x=Math.asin(-bg(a,-1,1)),Math.abs(a)<.9999999?(this._y=Math.atan2(E,D),this._z=Math.atan2(e,n)):(this._y=Math.atan2(-s,i),this._z=0);break;case"ZXY":this._x=Math.asin(bg(r,-1,1)),Math.abs(r)<.9999999?(this._y=Math.atan2(-s,D),this._z=Math.atan2(-Q,n)):(this._y=0,this._z=Math.atan2(e,i));break;case"ZYX":this._y=Math.asin(-bg(s,-1,1)),Math.abs(s)<.9999999?(this._x=Math.atan2(r,D),this._z=Math.atan2(e,i)):(this._x=0,this._z=Math.atan2(-Q,n));break;case"YZX":this._z=Math.asin(bg(e,-1,1)),Math.abs(e)<.9999999?(this._x=Math.atan2(-a,n),this._y=Math.atan2(-s,i)):(this._x=0,this._y=Math.atan2(E,D));break;case"XZY":this._z=Math.asin(-bg(Q,-1,1)),Math.abs(Q)<.9999999?(this._x=Math.atan2(r,n),this._y=Math.atan2(E,i)):(this._x=Math.atan2(-a,D),this._y=0);break;default:console.warn("THREE.Euler: .setFromRotationMatrix() encountered an unknown order: "+I)}return this._order=I,C===!0&&this._onChangeCallback(),this}setFromQuaternion(A,I,C){return sd.makeRotationFromQuaternion(A),this.setFromRotationMatrix(sd,I,C)}setFromVector3(A,I=this._order){return this.set(A.x,A.y,A.z,I)}reorder(A){return rd.setFromEuler(this),this.setFromQuaternion(rd,A)}equals(A){return A._x===this._x&&A._y===this._y&&A._z===this._z&&A._order===this._order}fromArray(A){return this._x=A[0],this._y=A[1],this._z=A[2],A[3]!==void 0&&(this._order=A[3]),this._onChangeCallback(),this}toArray(A=[],I=0){return A[I]=this._x,A[I+1]=this._y,A[I+2]=this._z,A[I+3]=this._order,A}_onChange(A){return this._onChangeCallback=A,this}_onChangeCallback(){}*[Symbol.iterator](){yield this._x,yield this._y,yield this._z,yield this._order}}ZC.DEFAULT_ORDER="XYZ";class Re{constructor(){this.mask=1}set(A){this.mask=(1<<A|0)>>>0}enable(A){this.mask|=1<<A|0}enableAll(){this.mask=-1}toggle(A){this.mask^=1<<A|0}disable(A){this.mask&=~(1<<A|0)}disableAll(){this.mask=0}test(A){return(this.mask&A.mask)!==0}isEnabled(A){return(this.mask&(1<<A|0))!==0}}let EH=0;const Dd=new T,dt=new nC,tQ=new hI,xr=new T,pn=new T,eH=new T,tH=new nC,ld=new T(1,0,0),hd=new T(0,1,0),cd=new T(0,0,1),Sd={type:"added"},oH={type:"removed"},pt={type:"childadded",child:null},WS={type:"childremoved",child:null};class VI extends mQ{constructor(){super(),this.isObject3D=!0,Object.defineProperty(this,"id",{value:EH++}),this.uuid=KB(),this.name="",this.type="Object3D",this.parent=null,this.children=[],this.up=VI.DEFAULT_UP.clone();const A=new T,I=new ZC,C=new nC,B=new T(1,1,1);function i(){C.setFromEuler(I,!1)}function Q(){I.setFromQuaternion(C,void 0,!1)}I._onChange(i),C._onChange(Q),Object.defineProperties(this,{position:{configurable:!0,enumerable:!0,value:A},rotation:{configurable:!0,enumerable:!0,value:I},quaternion:{configurable:!0,enumerable:!0,value:C},scale:{configurable:!0,enumerable:!0,value:B},modelViewMatrix:{value:new hI},normalMatrix:{value:new YI}}),this.matrix=new hI,this.matrixWorld=new hI,this.matrixAutoUpdate=VI.DEFAULT_MATRIX_AUTO_UPDATE,this.matrixWorldAutoUpdate=VI.DEFAULT_MATRIX_WORLD_AUTO_UPDATE,this.matrixWorldNeedsUpdate=!1,this.layers=new Re,this.visible=!0,this.castShadow=!1,this.receiveShadow=!1,this.frustumCulled=!0,this.renderOrder=0,this.animations=[],this.userData={}}onBeforeShadow(){}onAfterShadow(){}onBeforeRender(){}onAfterRender(){}applyMatrix4(A){this.matrixAutoUpdate&&this.updateMatrix(),this.matrix.premultiply(A),this.matrix.decompose(this.position,this.quaternion,this.scale)}applyQuaternion(A){return this.quaternion.premultiply(A),this}setRotationFromAxisAngle(A,I){this.quaternion.setFromAxisAngle(A,I)}setRotationFromEuler(A){this.quaternion.setFromEuler(A,!0)}setRotationFromMatrix(A){this.quaternion.setFromRotationMatrix(A)}setRotationFromQuaternion(A){this.quaternion.copy(A)}rotateOnAxis(A,I){return dt.setFromAxisAngle(A,I),this.quaternion.multiply(dt),this}rotateOnWorldAxis(A,I){return dt.setFromAxisAngle(A,I),this.quaternion.premultiply(dt),this}rotateX(A){return this.rotateOnAxis(ld,A)}rotateY(A){return this.rotateOnAxis(hd,A)}rotateZ(A){return this.rotateOnAxis(cd,A)}translateOnAxis(A,I){return Dd.copy(A).applyQuaternion(this.quaternion),this.position.add(Dd.multiplyScalar(I)),this}translateX(A){return this.translateOnAxis(ld,A)}translateY(A){return this.translateOnAxis(hd,A)}translateZ(A){return this.translateOnAxis(cd,A)}localToWorld(A){return this.updateWorldMatrix(!0,!1),A.applyMatrix4(this.matrixWorld)}worldToLocal(A){return this.updateWorldMatrix(!0,!1),A.applyMatrix4(tQ.copy(this.matrixWorld).invert())}lookAt(A,I,C){A.isVector3?xr.copy(A):xr.set(A,I,C);const B=this.parent;this.updateWorldMatrix(!0,!1),pn.setFromMatrixPosition(this.matrixWorld),this.isCamera||this.isLight?tQ.lookAt(pn,xr,this.up):tQ.lookAt(xr,pn,this.up),this.quaternion.setFromRotationMatrix(tQ),B&&(tQ.extractRotation(B.matrixWorld),dt.setFromRotationMatrix(tQ),this.quaternion.premultiply(dt.invert()))}add(A){if(arguments.length>1){for(let I=0;I<arguments.length;I++)this.add(arguments[I]);return this}return A===this?(console.error("THREE.Object3D.add: object can't be added as a child of itself.",A),this):(A&&A.isObject3D?(A.removeFromParent(),A.parent=this,this.children.push(A),A.dispatchEvent(Sd),pt.child=A,this.dispatchEvent(pt),pt.child=null):console.error("THREE.Object3D.add: object not an instance of THREE.Object3D.",A),this)}remove(A){if(arguments.length>1){for(let C=0;C<arguments.length;C++)this.remove(arguments[C]);return this}const I=this.children.indexOf(A);return I!==-1&&(A.parent=null,this.children.splice(I,1),A.dispatchEvent(oH),WS.child=A,this.dispatchEvent(WS),WS.child=null),this}removeFromParent(){const A=this.parent;return A!==null&&A.remove(this),this}clear(){return this.remove(...this.children)}attach(A){return this.updateWorldMatrix(!0,!1),tQ.copy(this.matrixWorld).invert(),A.parent!==null&&(A.parent.updateWorldMatrix(!0,!1),tQ.multiply(A.parent.matrixWorld)),A.applyMatrix4(tQ),A.removeFromParent(),A.parent=this,this.children.push(A),A.updateWorldMatrix(!1,!0),A.dispatchEvent(Sd),pt.child=A,this.dispatchEvent(pt),pt.child=null,this}getObjectById(A){return this.getObjectByProperty("id",A)}getObjectByName(A){return this.getObjectByProperty("name",A)}getObjectByProperty(A,I){if(this[A]===I)return this;for(let C=0,B=this.children.length;C<B;C++){const Q=this.children[C].getObjectByProperty(A,I);if(Q!==void 0)return Q}}getObjectsByProperty(A,I,C=[]){this[A]===I&&C.push(this);const B=this.children;for(let i=0,Q=B.length;i<Q;i++)B[i].getObjectsByProperty(A,I,C);return C}getWorldPosition(A){return this.updateWorldMatrix(!0,!1),A.setFromMatrixPosition(this.matrixWorld)}getWorldQuaternion(A){return this.updateWorldMatrix(!0,!1),this.matrixWorld.decompose(pn,A,eH),A}getWorldScale(A){return this.updateWorldMatrix(!0,!1),this.matrixWorld.decompose(pn,tH,A),A}getWorldDirection(A){this.updateWorldMatrix(!0,!1);const I=this.matrixWorld.elements;return A.set(I[8],I[9],I[10]).normalize()}raycast(){}traverse(A){A(this);const I=this.children;for(let C=0,B=I.length;C<B;C++)I[C].traverse(A)}traverseVisible(A){if(this.visible===!1)return;A(this);const I=this.children;for(let C=0,B=I.length;C<B;C++)I[C].traverseVisible(A)}traverseAncestors(A){const I=this.parent;I!==null&&(A(I),I.traverseAncestors(A))}updateMatrix(){this.matrix.compose(this.position,this.quaternion,this.scale),this.matrixWorldNeedsUpdate=!0}updateMatrixWorld(A){this.matrixAutoUpdate&&this.updateMatrix(),(this.matrixWorldNeedsUpdate||A)&&(this.parent===null?this.matrixWorld.copy(this.matrix):this.matrixWorld.multiplyMatrices(this.parent.matrixWorld,this.matrix),this.matrixWorldNeedsUpdate=!1,A=!0);const I=this.children;for(let C=0,B=I.length;C<B;C++){const i=I[C];(i.matrixWorldAutoUpdate===!0||A===!0)&&i.updateMatrixWorld(A)}}updateWorldMatrix(A,I){const C=this.parent;if(A===!0&&C!==null&&C.matrixWorldAutoUpdate===!0&&C.updateWorldMatrix(!0,!1),this.matrixAutoUpdate&&this.updateMatrix(),this.parent===null?this.matrixWorld.copy(this.matrix):this.matrixWorld.multiplyMatrices(this.parent.matrixWorld,this.matrix),I===!0){const B=this.children;for(let i=0,Q=B.length;i<Q;i++){const E=B[i];E.matrixWorldAutoUpdate===!0&&E.updateWorldMatrix(!1,!0)}}}toJSON(A){const I=A===void 0||typeof A=="string",C={};I&&(A={geometries:{},materials:{},textures:{},images:{},shapes:{},skeletons:{},animations:{},nodes:{}},C.metadata={version:4.6,type:"Object",generator:"Object3D.toJSON"});const B={};B.uuid=this.uuid,B.type=this.type,this.name!==""&&(B.name=this.name),this.castShadow===!0&&(B.castShadow=!0),this.receiveShadow===!0&&(B.receiveShadow=!0),this.visible===!1&&(B.visible=!1),this.frustumCulled===!1&&(B.frustumCulled=!1),this.renderOrder!==0&&(B.renderOrder=this.renderOrder),Object.keys(this.userData).length>0&&(B.userData=this.userData),B.layers=this.layers.mask,B.matrix=this.matrix.toArray(),B.up=this.up.toArray(),this.matrixAutoUpdate===!1&&(B.matrixAutoUpdate=!1),this.isInstancedMesh&&(B.type="InstancedMesh",B.count=this.count,B.instanceMatrix=this.instanceMatrix.toJSON(),this.instanceColor!==null&&(B.instanceColor=this.instanceColor.toJSON())),this.isBatchedMesh&&(B.type="BatchedMesh",B.perObjectFrustumCulled=this.perObjectFrustumCulled,B.sortObjects=this.sortObjects,B.drawRanges=this._drawRanges,B.reservedRanges=this._reservedRanges,B.visibility=this._visibility,B.active=this._active,B.bounds=this._bounds.map(E=>({boxInitialized:E.boxInitialized,boxMin:E.box.min.toArray(),boxMax:E.box.max.toArray(),sphereInitialized:E.sphereInitialized,sphereRadius:E.sphere.radius,sphereCenter:E.sphere.center.toArray()})),B.maxGeometryCount=this._maxGeometryCount,B.maxVertexCount=this._maxVertexCount,B.maxIndexCount=this._maxIndexCount,B.geometryInitialized=this._geometryInitialized,B.geometryCount=this._geometryCount,B.matricesTexture=this._matricesTexture.toJSON(A),this._colorsTexture!==null&&(B.colorsTexture=this._colorsTexture.toJSON(A)),this.boundingSphere!==null&&(B.boundingSphere={center:B.boundingSphere.center.toArray(),radius:B.boundingSphere.radius}),this.boundingBox!==null&&(B.boundingBox={min:B.boundingBox.min.toArray(),max:B.boundingBox.max.toArray()}));function i(E,e){return E[e.uuid]===void 0&&(E[e.uuid]=e.toJSON(A)),e.uuid}if(this.isScene)this.background&&(this.background.isColor?B.background=this.background.toJSON():this.background.isTexture&&(B.background=this.background.toJSON(A).uuid)),this.environment&&this.environment.isTexture&&this.environment.isRenderTargetTexture!==!0&&(B.environment=this.environment.toJSON(A).uuid);else if(this.isMesh||this.isLine||this.isPoints){B.geometry=i(A.geometries,this.geometry);const E=this.geometry.parameters;if(E!==void 0&&E.shapes!==void 0){const e=E.shapes;if(Array.isArray(e))for(let n=0,a=e.length;n<a;n++){const s=e[n];i(A.shapes,s)}else i(A.shapes,e)}}if(this.isSkinnedMesh&&(B.bindMode=this.bindMode,B.bindMatrix=this.bindMatrix.toArray(),this.skeleton!==void 0&&(i(A.skeletons,this.skeleton),B.skeleton=this.skeleton.uuid)),this.material!==void 0)if(Array.isArray(this.material)){const E=[];for(let e=0,n=this.material.length;e<n;e++)E.push(i(A.materials,this.material[e]));B.material=E}else B.material=i(A.materials,this.material);if(this.children.length>0){B.children=[];for(let E=0;E<this.children.length;E++)B.children.push(this.children[E].toJSON(A).object)}if(this.animations.length>0){B.animations=[];for(let E=0;E<this.animations.length;E++){const e=this.animations[E];B.animations.push(i(A.animations,e))}}if(I){const E=Q(A.geometries),e=Q(A.materials),n=Q(A.textures),a=Q(A.images),s=Q(A.shapes),r=Q(A.skeletons),D=Q(A.animations),c=Q(A.nodes);E.length>0&&(C.geometries=E),e.length>0&&(C.materials=e),n.length>0&&(C.textures=n),a.length>0&&(C.images=a),s.length>0&&(C.shapes=s),r.length>0&&(C.skeletons=r),D.length>0&&(C.animations=D),c.length>0&&(C.nodes=c)}return C.object=B,C;function Q(E){const e=[];for(const n in E){const a=E[n];delete a.metadata,e.push(a)}return e}}clone(A){return new this.constructor().copy(this,A)}copy(A,I=!0){if(this.name=A.name,this.up.copy(A.up),this.position.copy(A.position),this.rotation.order=A.rotation.order,this.quaternion.copy(A.quaternion),this.scale.copy(A.scale),this.matrix.copy(A.matrix),this.matrixWorld.copy(A.matrixWorld),this.matrixAutoUpdate=A.matrixAutoUpdate,this.matrixWorldAutoUpdate=A.matrixWorldAutoUpdate,this.matrixWorldNeedsUpdate=A.matrixWorldNeedsUpdate,this.layers.mask=A.layers.mask,this.visible=A.visible,this.castShadow=A.castShadow,this.receiveShadow=A.receiveShadow,this.frustumCulled=A.frustumCulled,this.renderOrder=A.renderOrder,this.animations=A.animations.slice(),this.userData=JSON.parse(JSON.stringify(A.userData)),I===!0)for(let C=0;C<A.children.length;C++){const B=A.children[C];this.add(B.clone())}return this}}VI.DEFAULT_UP=new T(0,1,0);VI.DEFAULT_MATRIX_AUTO_UPDATE=!0;VI.DEFAULT_MATRIX_WORLD_AUTO_UPDATE=!0;const ri=new T,oQ=new T,VS=new T,nQ=new T,Nt=new T,Ft=new T,wd=new T,jS=new T,zS=new T,XS=new T;class pB{constructor(A=new T,I=new T,C=new T){this.a=A,this.b=I,this.c=C}static getNormal(A,I,C,B){B.subVectors(C,I),ri.subVectors(A,I),B.cross(ri);const i=B.lengthSq();return i>0?B.multiplyScalar(1/Math.sqrt(i)):B.set(0,0,0)}static getBarycoord(A,I,C,B,i){ri.subVectors(B,I),oQ.subVectors(C,I),VS.subVectors(A,I);const Q=ri.dot(ri),E=ri.dot(oQ),e=ri.dot(VS),n=oQ.dot(oQ),a=oQ.dot(VS),s=Q*n-E*E;if(s===0)return i.set(0,0,0),null;const r=1/s,D=(n*e-E*a)*r,c=(Q*a-E*e)*r;return i.set(1-D-c,c,D)}static containsPoint(A,I,C,B){return this.getBarycoord(A,I,C,B,nQ)===null?!1:nQ.x>=0&&nQ.y>=0&&nQ.x+nQ.y<=1}static getInterpolation(A,I,C,B,i,Q,E,e){return this.getBarycoord(A,I,C,B,nQ)===null?(e.x=0,e.y=0,"z"in e&&(e.z=0),"w"in e&&(e.w=0),null):(e.setScalar(0),e.addScaledVector(i,nQ.x),e.addScaledVector(Q,nQ.y),e.addScaledVector(E,nQ.z),e)}static isFrontFacing(A,I,C,B){return ri.subVectors(C,I),oQ.subVectors(A,I),ri.cross(oQ).dot(B)<0}set(A,I,C){return this.a.copy(A),this.b.copy(I),this.c.copy(C),this}setFromPointsAndIndices(A,I,C,B){return this.a.copy(A[I]),this.b.copy(A[C]),this.c.copy(A[B]),this}setFromAttributeAndIndices(A,I,C,B){return this.a.fromBufferAttribute(A,I),this.b.fromBufferAttribute(A,C),this.c.fromBufferAttribute(A,B),this}clone(){return new this.constructor().copy(this)}copy(A){return this.a.copy(A.a),this.b.copy(A.b),this.c.copy(A.c),this}getArea(){return ri.subVectors(this.c,this.b),oQ.subVectors(this.a,this.b),ri.cross(oQ).length()*.5}getMidpoint(A){return A.addVectors(this.a,this.b).add(this.c).multiplyScalar(1/3)}getNormal(A){return pB.getNormal(this.a,this.b,this.c,A)}getPlane(A){return A.setFromCoplanarPoints(this.a,this.b,this.c)}getBarycoord(A,I){return pB.getBarycoord(A,this.a,this.b,this.c,I)}getInterpolation(A,I,C,B,i){return pB.getInterpolation(A,this.a,this.b,this.c,I,C,B,i)}containsPoint(A){return pB.containsPoint(A,this.a,this.b,this.c)}isFrontFacing(A){return pB.isFrontFacing(this.a,this.b,this.c,A)}intersectsBox(A){return A.intersectsTriangle(this)}closestPointToPoint(A,I){const C=this.a,B=this.b,i=this.c;let Q,E;Nt.subVectors(B,C),Ft.subVectors(i,C),jS.subVectors(A,C);const e=Nt.dot(jS),n=Ft.dot(jS);if(e<=0&&n<=0)return I.copy(C);zS.subVectors(A,B);const a=Nt.dot(zS),s=Ft.dot(zS);if(a>=0&&s<=a)return I.copy(B);const r=e*s-a*n;if(r<=0&&e>=0&&a<=0)return Q=e/(e-a),I.copy(C).addScaledVector(Nt,Q);XS.subVectors(A,i);const D=Nt.dot(XS),c=Ft.dot(XS);if(c>=0&&D<=c)return I.copy(i);const y=D*n-e*c;if(y<=0&&n>=0&&c<=0)return E=n/(n-c),I.copy(C).addScaledVector(Ft,E);const S=a*c-D*s;if(S<=0&&s-a>=0&&D-c>=0)return wd.subVectors(i,B),E=(s-a)/(s-a+(D-c)),I.copy(B).addScaledVector(wd,E);const l=1/(S+y+r);return Q=y*l,E=r*l,I.copy(C).addScaledVector(Nt,Q).addScaledVector(Ft,E)}equals(A){return A.a.equals(this.a)&&A.b.equals(this.b)&&A.c.equals(this.c)}}const mJ={aliceblue:15792383,antiquewhite:16444375,aqua:65535,aquamarine:8388564,azure:15794175,beige:16119260,bisque:16770244,black:0,blanchedalmond:16772045,blue:255,blueviolet:9055202,brown:10824234,burlywood:14596231,cadetblue:6266528,chartreuse:8388352,chocolate:13789470,coral:16744272,cornflowerblue:6591981,cornsilk:16775388,crimson:14423100,cyan:65535,darkblue:139,darkcyan:35723,darkgoldenrod:12092939,darkgray:11119017,darkgreen:25600,darkgrey:11119017,darkkhaki:12433259,darkmagenta:9109643,darkolivegreen:5597999,darkorange:16747520,darkorchid:10040012,darkred:9109504,darksalmon:15308410,darkseagreen:9419919,darkslateblue:4734347,darkslategray:3100495,darkslategrey:3100495,darkturquoise:52945,darkviolet:9699539,deeppink:16716947,deepskyblue:49151,dimgray:6908265,dimgrey:6908265,dodgerblue:2003199,firebrick:11674146,floralwhite:16775920,forestgreen:2263842,fuchsia:16711935,gainsboro:14474460,ghostwhite:16316671,gold:16766720,goldenrod:14329120,gray:8421504,green:32768,greenyellow:11403055,grey:8421504,honeydew:15794160,hotpink:16738740,indianred:13458524,indigo:4915330,ivory:16777200,khaki:15787660,lavender:15132410,lavenderblush:16773365,lawngreen:8190976,lemonchiffon:16775885,lightblue:11393254,lightcoral:15761536,lightcyan:14745599,lightgoldenrodyellow:16448210,lightgray:13882323,lightgreen:9498256,lightgrey:13882323,lightpink:16758465,lightsalmon:16752762,lightseagreen:2142890,lightskyblue:8900346,lightslategray:7833753,lightslategrey:7833753,lightsteelblue:11584734,lightyellow:16777184,lime:65280,limegreen:3329330,linen:16445670,magenta:16711935,maroon:8388608,mediumaquamarine:6737322,mediumblue:205,mediumorchid:12211667,mediumpurple:9662683,mediumseagreen:3978097,mediumslateblue:8087790,mediumspringgreen:64154,mediumturquoise:4772300,mediumvioletred:13047173,midnightblue:1644912,mintcream:16121850,mistyrose:16770273,moccasin:16770229,navajowhite:16768685,navy:128,oldlace:16643558,olive:8421376,olivedrab:7048739,orange:16753920,orangered:16729344,orchid:14315734,palegoldenrod:15657130,palegreen:10025880,paleturquoise:11529966,palevioletred:14381203,papayawhip:16773077,peachpuff:16767673,peru:13468991,pink:16761035,plum:14524637,powderblue:11591910,purple:8388736,rebeccapurple:6697881,red:16711680,rosybrown:12357519,royalblue:4286945,saddlebrown:9127187,salmon:16416882,sandybrown:16032864,seagreen:3050327,seashell:16774638,sienna:10506797,silver:12632256,skyblue:8900331,slateblue:6970061,slategray:7372944,slategrey:7372944,snow:16775930,springgreen:65407,steelblue:4620980,tan:13808780,teal:32896,thistle:14204888,tomato:16737095,turquoise:4251856,violet:15631086,wheat:16113331,white:16777215,whitesmoke:16119285,yellow:16776960,yellowgreen:10145074},XQ={h:0,s:0,l:0},vr={h:0,s:0,l:0};function $S(g,A,I){return I<0&&(I+=1),I>1&&(I-=1),I<1/6?g+(A-g)*6*I:I<1/2?A:I<2/3?g+(A-g)*6*(2/3-I):g}class VA{constructor(A,I,C){return this.isColor=!0,this.r=1,this.g=1,this.b=1,this.set(A,I,C)}set(A,I,C){if(I===void 0&&C===void 0){const B=A;B&&B.isColor?this.copy(B):typeof B=="number"?this.setHex(B):typeof B=="string"&&this.setStyle(B)}else this.setRGB(A,I,C);return this}setScalar(A){return this.r=A,this.g=A,this.b=A,this}setHex(A,I=UB){return A=Math.floor(A),this.r=(A>>16&255)/255,this.g=(A>>8&255)/255,this.b=(A&255)/255,ag.toWorkingColorSpace(this,I),this}setRGB(A,I,C,B=ag.workingColorSpace){return this.r=A,this.g=I,this.b=C,ag.toWorkingColorSpace(this,B),this}setHSL(A,I,C,B=ag.workingColorSpace){if(A=xk(A,1),I=bg(I,0,1),C=bg(C,0,1),I===0)this.r=this.g=this.b=C;else{const i=C<=.5?C*(1+I):C+I-C*I,Q=2*C-i;this.r=$S(Q,i,A+1/3),this.g=$S(Q,i,A),this.b=$S(Q,i,A-1/3)}return ag.toWorkingColorSpace(this,B),this}setStyle(A,I=UB){function C(i){i!==void 0&&parseFloat(i)<1&&console.warn("THREE.Color: Alpha component of "+A+" will be ignored.")}let B;if(B=/^(\w+)\(([^\)]*)\)/.exec(A)){let i;const Q=B[1],E=B[2];switch(Q){case"rgb":case"rgba":if(i=/^\s*(\d+)\s*,\s*(\d+)\s*,\s*(\d+)\s*(?:,\s*(\d*\.?\d+)\s*)?$/.exec(E))return C(i[4]),this.setRGB(Math.min(255,parseInt(i[1],10))/255,Math.min(255,parseInt(i[2],10))/255,Math.min(255,parseInt(i[3],10))/255,I);if(i=/^\s*(\d+)\%\s*,\s*(\d+)\%\s*,\s*(\d+)\%\s*(?:,\s*(\d*\.?\d+)\s*)?$/.exec(E))return C(i[4]),this.setRGB(Math.min(100,parseInt(i[1],10))/100,Math.min(100,parseInt(i[2],10))/100,Math.min(100,parseInt(i[3],10))/100,I);break;case"hsl":case"hsla":if(i=/^\s*(\d*\.?\d+)\s*,\s*(\d*\.?\d+)\%\s*,\s*(\d*\.?\d+)\%\s*(?:,\s*(\d*\.?\d+)\s*)?$/.exec(E))return C(i[4]),this.setHSL(parseFloat(i[1])/360,parseFloat(i[2])/100,parseFloat(i[3])/100,I);break;default:console.warn("THREE.Color: Unknown color model "+A)}}else if(B=/^\#([A-Fa-f\d]+)$/.exec(A)){const i=B[1],Q=i.length;if(Q===3)return this.setRGB(parseInt(i.charAt(0),16)/15,parseInt(i.charAt(1),16)/15,parseInt(i.charAt(2),16)/15,I);if(Q===6)return this.setHex(parseInt(i,16),I);console.warn("THREE.Color: Invalid hex color "+A)}else if(A&&A.length>0)return this.setColorName(A,I);return this}setColorName(A,I=UB){const C=mJ[A.toLowerCase()];return C!==void 0?this.setHex(C,I):console.warn("THREE.Color: Unknown color "+A),this}clone(){return new this.constructor(this.r,this.g,this.b)}copy(A){return this.r=A.r,this.g=A.g,this.b=A.b,this}copySRGBToLinear(A){return this.r=ho(A.r),this.g=ho(A.g),this.b=ho(A.b),this}copyLinearToSRGB(A){return this.r=TS(A.r),this.g=TS(A.g),this.b=TS(A.b),this}convertSRGBToLinear(){return this.copySRGBToLinear(this),this}convertLinearToSRGB(){return this.copyLinearToSRGB(this),this}getHex(A=UB){return ag.fromWorkingColorSpace(xC.copy(this),A),Math.round(bg(xC.r*255,0,255))*65536+Math.round(bg(xC.g*255,0,255))*256+Math.round(bg(xC.b*255,0,255))}getHexString(A=UB){return("000000"+this.getHex(A).toString(16)).slice(-6)}getHSL(A,I=ag.workingColorSpace){ag.fromWorkingColorSpace(xC.copy(this),I);const C=xC.r,B=xC.g,i=xC.b,Q=Math.max(C,B,i),E=Math.min(C,B,i);let e,n;const a=(E+Q)/2;if(E===Q)e=0,n=0;else{const s=Q-E;switch(n=a<=.5?s/(Q+E):s/(2-Q-E),Q){case C:e=(B-i)/s+(B<i?6:0);break;case B:e=(i-C)/s+2;break;case i:e=(C-B)/s+4;break}e/=6}return A.h=e,A.s=n,A.l=a,A}getRGB(A,I=ag.workingColorSpace){return ag.fromWorkingColorSpace(xC.copy(this),I),A.r=xC.r,A.g=xC.g,A.b=xC.b,A}getStyle(A=UB){ag.fromWorkingColorSpace(xC.copy(this),A);const I=xC.r,C=xC.g,B=xC.b;return A!==UB?`color(${A} ${I.toFixed(3)} ${C.toFixed(3)} ${B.toFixed(3)})`:`rgb(${Math.round(I*255)},${Math.round(C*255)},${Math.round(B*255)})`}offsetHSL(A,I,C){return this.getHSL(XQ),this.setHSL(XQ.h+A,XQ.s+I,XQ.l+C)}add(A){return this.r+=A.r,this.g+=A.g,this.b+=A.b,this}addColors(A,I){return this.r=A.r+I.r,this.g=A.g+I.g,this.b=A.b+I.b,this}addScalar(A){return this.r+=A,this.g+=A,this.b+=A,this}sub(A){return this.r=Math.max(0,this.r-A.r),this.g=Math.max(0,this.g-A.g),this.b=Math.max(0,this.b-A.b),this}multiply(A){return this.r*=A.r,this.g*=A.g,this.b*=A.b,this}multiplyScalar(A){return this.r*=A,this.g*=A,this.b*=A,this}lerp(A,I){return this.r+=(A.r-this.r)*I,this.g+=(A.g-this.g)*I,this.b+=(A.b-this.b)*I,this}lerpColors(A,I,C){return this.r=A.r+(I.r-A.r)*C,this.g=A.g+(I.g-A.g)*C,this.b=A.b+(I.b-A.b)*C,this}lerpHSL(A,I){this.getHSL(XQ),A.getHSL(vr);const C=oa(XQ.h,vr.h,I),B=oa(XQ.s,vr.s,I),i=oa(XQ.l,vr.l,I);return this.setHSL(C,B,i),this}setFromVector3(A){return this.r=A.x,this.g=A.y,this.b=A.z,this}applyMatrix3(A){const I=this.r,C=this.g,B=this.b,i=A.elements;return this.r=i[0]*I+i[3]*C+i[6]*B,this.g=i[1]*I+i[4]*C+i[7]*B,this.b=i[2]*I+i[5]*C+i[8]*B,this}equals(A){return A.r===this.r&&A.g===this.g&&A.b===this.b}fromArray(A,I=0){return this.r=A[I],this.g=A[I+1],this.b=A[I+2],this}toArray(A=[],I=0){return A[I]=this.r,A[I+1]=this.g,A[I+2]=this.b,A}fromBufferAttribute(A,I){return this.r=A.getX(I),this.g=A.getY(I),this.b=A.getZ(I),this}toJSON(){return this.getHex()}*[Symbol.iterator](){yield this.r,yield this.g,yield this.b}}const xC=new VA;VA.NAMES=mJ;let nH=0;class BC extends mQ{constructor(){super(),this.isMaterial=!0,Object.defineProperty(this,"id",{value:nH++}),this.uuid=KB(),this.name="",this.type="Material",this.blending=Fe,this.side=Xi,this.vertexColors=!1,this.opacity=1,this.transparent=!1,this.alphaHash=!1,this.blendSrc=dl,this.blendDst=pl,this.blendEquation=oE,this.blendSrcAlpha=null,this.blendDstAlpha=null,this.blendEquationAlpha=null,this.blendColor=new VA(0,0,0),this.blendAlpha=0,this.depthFunc=Ja,this.depthTest=!0,this.depthWrite=!0,this.stencilWriteMask=255,this.stencilFunc=hy,this.stencilRef=0,this.stencilFuncMask=255,this.stencilFail=se,this.stencilZFail=se,this.stencilZPass=se,this.stencilWrite=!1,this.clippingPlanes=null,this.clipIntersection=!1,this.clipShadows=!1,this.shadowSide=null,this.colorWrite=!0,this.precision=null,this.polygonOffset=!1,this.polygonOffsetFactor=0,this.polygonOffsetUnits=0,this.dithering=!1,this.alphaToCoverage=!1,this.premultipliedAlpha=!1,this.forceSinglePass=!1,this.visible=!0,this.toneMapped=!0,this.userData={},this.version=0,this._alphaTest=0}get alphaTest(){return this._alphaTest}set alphaTest(A){this._alphaTest>0!=A>0&&this.version++,this._alphaTest=A}onBuild(){}onBeforeRender(){}onBeforeCompile(){}customProgramCacheKey(){return this.onBeforeCompile.toString()}setValues(A){if(A!==void 0)for(const I in A){const C=A[I];if(C===void 0){console.warn(`THREE.Material: parameter '${I}' has value of undefined.`);continue}const B=this[I];if(B===void 0){console.warn(`THREE.Material: '${I}' is not a property of THREE.${this.type}.`);continue}B&&B.isColor?B.set(C):B&&B.isVector3&&C&&C.isVector3?B.copy(C):this[I]=C}}toJSON(A){const I=A===void 0||typeof A=="string";I&&(A={textures:{},images:{}});const C={metadata:{version:4.6,type:"Material",generator:"Material.toJSON"}};C.uuid=this.uuid,C.type=this.type,this.name!==""&&(C.name=this.name),this.color&&this.color.isColor&&(C.color=this.color.getHex()),this.roughness!==void 0&&(C.roughness=this.roughness),this.metalness!==void 0&&(C.metalness=this.metalness),this.sheen!==void 0&&(C.sheen=this.sheen),this.sheenColor&&this.sheenColor.isColor&&(C.sheenColor=this.sheenColor.getHex()),this.sheenRoughness!==void 0&&(C.sheenRoughness=this.sheenRoughness),this.emissive&&this.emissive.isColor&&(C.emissive=this.emissive.getHex()),this.emissiveIntensity!==void 0&&this.emissiveIntensity!==1&&(C.emissiveIntensity=this.emissiveIntensity),this.specular&&this.specular.isColor&&(C.specular=this.specular.getHex()),this.specularIntensity!==void 0&&(C.specularIntensity=this.specularIntensity),this.specularColor&&this.specularColor.isColor&&(C.specularColor=this.specularColor.getHex()),this.shininess!==void 0&&(C.shininess=this.shininess),this.clearcoat!==void 0&&(C.clearcoat=this.clearcoat),this.clearcoatRoughness!==void 0&&(C.clearcoatRoughness=this.clearcoatRoughness),this.clearcoatMap&&this.clearcoatMap.isTexture&&(C.clearcoatMap=this.clearcoatMap.toJSON(A).uuid),this.clearcoatRoughnessMap&&this.clearcoatRoughnessMap.isTexture&&(C.clearcoatRoughnessMap=this.clearcoatRoughnessMap.toJSON(A).uuid),this.clearcoatNormalMap&&this.clearcoatNormalMap.isTexture&&(C.clearcoatNormalMap=this.clearcoatNormalMap.toJSON(A).uuid,C.clearcoatNormalScale=this.clearcoatNormalScale.toArray()),this.dispersion!==void 0&&(C.dispersion=this.dispersion),this.iridescence!==void 0&&(C.iridescence=this.iridescence),this.iridescenceIOR!==void 0&&(C.iridescenceIOR=this.iridescenceIOR),this.iridescenceThicknessRange!==void 0&&(C.iridescenceThicknessRange=this.iridescenceThicknessRange),this.iridescenceMap&&this.iridescenceMap.isTexture&&(C.iridescenceMap=this.iridescenceMap.toJSON(A).uuid),this.iridescenceThicknessMap&&this.iridescenceThicknessMap.isTexture&&(C.iridescenceThicknessMap=this.iridescenceThicknessMap.toJSON(A).uuid),this.anisotropy!==void 0&&(C.anisotropy=this.anisotropy),this.anisotropyRotation!==void 0&&(C.anisotropyRotation=this.anisotropyRotation),this.anisotropyMap&&this.anisotropyMap.isTexture&&(C.anisotropyMap=this.anisotropyMap.toJSON(A).uuid),this.map&&this.map.isTexture&&(C.map=this.map.toJSON(A).uuid),this.matcap&&this.matcap.isTexture&&(C.matcap=this.matcap.toJSON(A).uuid),this.alphaMap&&this.alphaMap.isTexture&&(C.alphaMap=this.alphaMap.toJSON(A).uuid),this.lightMap&&this.lightMap.isTexture&&(C.lightMap=this.lightMap.toJSON(A).uuid,C.lightMapIntensity=this.lightMapIntensity),this.aoMap&&this.aoMap.isTexture&&(C.aoMap=this.aoMap.toJSON(A).uuid,C.aoMapIntensity=this.aoMapIntensity),this.bumpMap&&this.bumpMap.isTexture&&(C.bumpMap=this.bumpMap.toJSON(A).uuid,C.bumpScale=this.bumpScale),this.normalMap&&this.normalMap.isTexture&&(C.normalMap=this.normalMap.toJSON(A).uuid,C.normalMapType=this.normalMapType,C.normalScale=this.normalScale.toArray()),this.displacementMap&&this.displacementMap.isTexture&&(C.displacementMap=this.displacementMap.toJSON(A).uuid,C.displacementScale=this.displacementScale,C.displacementBias=this.displacementBias),this.roughnessMap&&this.roughnessMap.isTexture&&(C.roughnessMap=this.roughnessMap.toJSON(A).uuid),this.metalnessMap&&this.metalnessMap.isTexture&&(C.metalnessMap=this.metalnessMap.toJSON(A).uuid),this.emissiveMap&&this.emissiveMap.isTexture&&(C.emissiveMap=this.emissiveMap.toJSON(A).uuid),this.specularMap&&this.specularMap.isTexture&&(C.specularMap=this.specularMap.toJSON(A).uuid),this.specularIntensityMap&&this.specularIntensityMap.isTexture&&(C.specularIntensityMap=this.specularIntensityMap.toJSON(A).uuid),this.specularColorMap&&this.specularColorMap.isTexture&&(C.specularColorMap=this.specularColorMap.toJSON(A).uuid),this.envMap&&this.envMap.isTexture&&(C.envMap=this.envMap.toJSON(A).uuid,this.combine!==void 0&&(C.combine=this.combine)),this.envMapRotation!==void 0&&(C.envMapRotation=this.envMapRotation.toArray()),this.envMapIntensity!==void 0&&(C.envMapIntensity=this.envMapIntensity),this.reflectivity!==void 0&&(C.reflectivity=this.reflectivity),this.refractionRatio!==void 0&&(C.refractionRatio=this.refractionRatio),this.gradientMap&&this.gradientMap.isTexture&&(C.gradientMap=this.gradientMap.toJSON(A).uuid),this.transmission!==void 0&&(C.transmission=this.transmission),this.transmissionMap&&this.transmissionMap.isTexture&&(C.transmissionMap=this.transmissionMap.toJSON(A).uuid),this.thickness!==void 0&&(C.thickness=this.thickness),this.thicknessMap&&this.thicknessMap.isTexture&&(C.thicknessMap=this.thicknessMap.toJSON(A).uuid),this.attenuationDistance!==void 0&&this.attenuationDistance!==1/0&&(C.attenuationDistance=this.attenuationDistance),this.attenuationColor!==void 0&&(C.attenuationColor=this.attenuationColor.getHex()),this.size!==void 0&&(C.size=this.size),this.shadowSide!==null&&(C.shadowSide=this.shadowSide),this.sizeAttenuation!==void 0&&(C.sizeAttenuation=this.sizeAttenuation),this.blending!==Fe&&(C.blending=this.blending),this.side!==Xi&&(C.side=this.side),this.vertexColors===!0&&(C.vertexColors=!0),this.opacity<1&&(C.opacity=this.opacity),this.transparent===!0&&(C.transparent=!0),this.blendSrc!==dl&&(C.blendSrc=this.blendSrc),this.blendDst!==pl&&(C.blendDst=this.blendDst),this.blendEquation!==oE&&(C.blendEquation=this.blendEquation),this.blendSrcAlpha!==null&&(C.blendSrcAlpha=this.blendSrcAlpha),this.blendDstAlpha!==null&&(C.blendDstAlpha=this.blendDstAlpha),this.blendEquationAlpha!==null&&(C.blendEquationAlpha=this.blendEquationAlpha),this.blendColor&&this.blendColor.isColor&&(C.blendColor=this.blendColor.getHex()),this.blendAlpha!==0&&(C.blendAlpha=this.blendAlpha),this.depthFunc!==Ja&&(C.depthFunc=this.depthFunc),this.depthTest===!1&&(C.depthTest=this.depthTest),this.depthWrite===!1&&(C.depthWrite=this.depthWrite),this.colorWrite===!1&&(C.colorWrite=this.colorWrite),this.stencilWriteMask!==255&&(C.stencilWriteMask=this.stencilWriteMask),this.stencilFunc!==hy&&(C.stencilFunc=this.stencilFunc),this.stencilRef!==0&&(C.stencilRef=this.stencilRef),this.stencilFuncMask!==255&&(C.stencilFuncMask=this.stencilFuncMask),this.stencilFail!==se&&(C.stencilFail=this.stencilFail),this.stencilZFail!==se&&(C.stencilZFail=this.stencilZFail),this.stencilZPass!==se&&(C.stencilZPass=this.stencilZPass),this.stencilWrite===!0&&(C.stencilWrite=this.stencilWrite),this.rotation!==void 0&&this.rotation!==0&&(C.rotation=this.rotation),this.polygonOffset===!0&&(C.polygonOffset=!0),this.polygonOffsetFactor!==0&&(C.polygonOffsetFactor=this.polygonOffsetFactor),this.polygonOffsetUnits!==0&&(C.polygonOffsetUnits=this.polygonOffsetUnits),this.linewidth!==void 0&&this.linewidth!==1&&(C.linewidth=this.linewidth),this.dashSize!==void 0&&(C.dashSize=this.dashSize),this.gapSize!==void 0&&(C.gapSize=this.gapSize),this.scale!==void 0&&(C.scale=this.scale),this.dithering===!0&&(C.dithering=!0),this.alphaTest>0&&(C.alphaTest=this.alphaTest),this.alphaHash===!0&&(C.alphaHash=!0),this.alphaToCoverage===!0&&(C.alphaToCoverage=!0),this.premultipliedAlpha===!0&&(C.premultipliedAlpha=!0),this.forceSinglePass===!0&&(C.forceSinglePass=!0),this.wireframe===!0&&(C.wireframe=!0),this.wireframeLinewidth>1&&(C.wireframeLinewidth=this.wireframeLinewidth),this.wireframeLinecap!=="round"&&(C.wireframeLinecap=this.wireframeLinecap),this.wireframeLinejoin!=="round"&&(C.wireframeLinejoin=this.wireframeLinejoin),this.flatShading===!0&&(C.flatShading=!0),this.visible===!1&&(C.visible=!1),this.toneMapped===!1&&(C.toneMapped=!1),this.fog===!1&&(C.fog=!1),Object.keys(this.userData).length>0&&(C.userData=this.userData);function B(i){const Q=[];for(const E in i){const e=i[E];delete e.metadata,Q.push(e)}return Q}if(I){const i=B(A.textures),Q=B(A.images);i.length>0&&(C.textures=i),Q.length>0&&(C.images=Q)}return C}clone(){return new this.constructor().copy(this)}copy(A){this.name=A.name,this.blending=A.blending,this.side=A.side,this.vertexColors=A.vertexColors,this.opacity=A.opacity,this.transparent=A.transparent,this.blendSrc=A.blendSrc,this.blendDst=A.blendDst,this.blendEquation=A.blendEquation,this.blendSrcAlpha=A.blendSrcAlpha,this.blendDstAlpha=A.blendDstAlpha,this.blendEquationAlpha=A.blendEquationAlpha,this.blendColor.copy(A.blendColor),this.blendAlpha=A.blendAlpha,this.depthFunc=A.depthFunc,this.depthTest=A.depthTest,this.depthWrite=A.depthWrite,this.stencilWriteMask=A.stencilWriteMask,this.stencilFunc=A.stencilFunc,this.stencilRef=A.stencilRef,this.stencilFuncMask=A.stencilFuncMask,this.stencilFail=A.stencilFail,this.stencilZFail=A.stencilZFail,this.stencilZPass=A.stencilZPass,this.stencilWrite=A.stencilWrite;const I=A.clippingPlanes;let C=null;if(I!==null){const B=I.length;C=new Array(B);for(let i=0;i!==B;++i)C[i]=I[i].clone()}return this.clippingPlanes=C,this.clipIntersection=A.clipIntersection,this.clipShadows=A.clipShadows,this.shadowSide=A.shadowSide,this.colorWrite=A.colorWrite,this.precision=A.precision,this.polygonOffset=A.polygonOffset,this.polygonOffsetFactor=A.polygonOffsetFactor,this.polygonOffsetUnits=A.polygonOffsetUnits,this.dithering=A.dithering,this.alphaTest=A.alphaTest,this.alphaHash=A.alphaHash,this.alphaToCoverage=A.alphaToCoverage,this.premultipliedAlpha=A.premultipliedAlpha,this.forceSinglePass=A.forceSinglePass,this.visible=A.visible,this.toneMapped=A.toneMapped,this.userData=JSON.parse(JSON.stringify(A.userData)),this}dispose(){this.dispatchEvent({type:"dispose"})}set needsUpdate(A){A===!0&&this.version++}}class rB extends BC{constructor(A){super(),this.isMeshBasicMaterial=!0,this.type="MeshBasicMaterial",this.color=new VA(16777215),this.map=null,this.lightMap=null,this.lightMapIntensity=1,this.aoMap=null,this.aoMapIntensity=1,this.specularMap=null,this.alphaMap=null,this.envMap=null,this.envMapRotation=new ZC,this.combine=Es,this.reflectivity=1,this.refractionRatio=.98,this.wireframe=!1,this.wireframeLinewidth=1,this.wireframeLinecap="round",this.wireframeLinejoin="round",this.fog=!0,this.setValues(A)}copy(A){return super.copy(A),this.color.copy(A.color),this.map=A.map,this.lightMap=A.lightMap,this.lightMapIntensity=A.lightMapIntensity,this.aoMap=A.aoMap,this.aoMapIntensity=A.aoMapIntensity,this.specularMap=A.specularMap,this.alphaMap=A.alphaMap,this.envMap=A.envMap,this.envMapRotation.copy(A.envMapRotation),this.combine=A.combine,this.reflectivity=A.reflectivity,this.refractionRatio=A.refractionRatio,this.wireframe=A.wireframe,this.wireframeLinewidth=A.wireframeLinewidth,this.wireframeLinecap=A.wireframeLinecap,this.wireframeLinejoin=A.wireframeLinejoin,this.fog=A.fog,this}}const cQ=aH();function aH(){const g=new ArrayBuffer(4),A=new Float32Array(g),I=new Uint32Array(g),C=new Uint32Array(512),B=new Uint32Array(512);for(let e=0;e<256;++e){const n=e-127;n<-27?(C[e]=0,C[e|256]=32768,B[e]=24,B[e|256]=24):n<-14?(C[e]=1024>>-n-14,C[e|256]=1024>>-n-14|32768,B[e]=-n-1,B[e|256]=-n-1):n<=15?(C[e]=n+15<<10,C[e|256]=n+15<<10|32768,B[e]=13,B[e|256]=13):n<128?(C[e]=31744,C[e|256]=64512,B[e]=24,B[e|256]=24):(C[e]=31744,C[e|256]=64512,B[e]=13,B[e|256]=13)}const i=new Uint32Array(2048),Q=new Uint32Array(64),E=new Uint32Array(64);for(let e=1;e<1024;++e){let n=e<<13,a=0;for(;!(n&8388608);)n<<=1,a-=8388608;n&=-8388609,a+=947912704,i[e]=n|a}for(let e=1024;e<2048;++e)i[e]=939524096+(e-1024<<13);for(let e=1;e<31;++e)Q[e]=e<<23;Q[31]=1199570944,Q[32]=2147483648;for(let e=33;e<63;++e)Q[e]=2147483648+(e-32<<23);Q[63]=3347054592;for(let e=1;e<64;++e)e!==32&&(E[e]=1024);return{floatView:A,uint32View:I,baseTable:C,shiftTable:B,mantissaTable:i,exponentTable:Q,offsetTable:E}}function nB(g){Math.abs(g)>65504&&console.warn("THREE.DataUtils.toHalfFloat(): Value out of range."),g=bg(g,-65504,65504),cQ.floatView[0]=g;const A=cQ.uint32View[0],I=A>>23&511;return cQ.baseTable[I]+((A&8388607)>>cQ.shiftTable[I])}function Pn(g){const A=g>>10;return cQ.uint32View[0]=cQ.mantissaTable[cQ.offsetTable[A]+(g&1023)]+cQ.exponentTable[A],cQ.floatView[0]}const Me={toHalfFloat:nB,fromHalfFloat:Pn},AC=new T,Or=new pA;class pI{constructor(A,I,C=!1){if(Array.isArray(A))throw new TypeError("THREE.BufferAttribute: array should be a Typed Array.");this.isBufferAttribute=!0,this.name="",this.array=A,this.itemSize=I,this.count=A!==void 0?A.length/I:0,this.normalized=C,this.usage=Ha,this._updateRange={offset:0,count:-1},this.updateRanges=[],this.gpuType=_g,this.version=0}onUploadCallback(){}set needsUpdate(A){A===!0&&this.version++}get updateRange(){return Ok("THREE.BufferAttribute: updateRange() is deprecated and will be removed in r169. Use addUpdateRange() instead."),this._updateRange}setUsage(A){return this.usage=A,this}addUpdateRange(A,I){this.updateRanges.push({start:A,count:I})}clearUpdateRanges(){this.updateRanges.length=0}copy(A){return this.name=A.name,this.array=new A.array.constructor(A.array),this.itemSize=A.itemSize,this.count=A.count,this.normalized=A.normalized,this.usage=A.usage,this.gpuType=A.gpuType,this}copyAt(A,I,C){A*=this.itemSize,C*=I.itemSize;for(let B=0,i=this.itemSize;B<i;B++)this.array[A+B]=I.array[C+B];return this}copyArray(A){return this.array.set(A),this}applyMatrix3(A){if(this.itemSize===2)for(let I=0,C=this.count;I<C;I++)Or.fromBufferAttribute(this,I),Or.applyMatrix3(A),this.setXY(I,Or.x,Or.y);else if(this.itemSize===3)for(let I=0,C=this.count;I<C;I++)AC.fromBufferAttribute(this,I),AC.applyMatrix3(A),this.setXYZ(I,AC.x,AC.y,AC.z);return this}applyMatrix4(A){for(let I=0,C=this.count;I<C;I++)AC.fromBufferAttribute(this,I),AC.applyMatrix4(A),this.setXYZ(I,AC.x,AC.y,AC.z);return this}applyNormalMatrix(A){for(let I=0,C=this.count;I<C;I++)AC.fromBufferAttribute(this,I),AC.applyNormalMatrix(A),this.setXYZ(I,AC.x,AC.y,AC.z);return this}transformDirection(A){for(let I=0,C=this.count;I<C;I++)AC.fromBufferAttribute(this,I),AC.transformDirection(A),this.setXYZ(I,AC.x,AC.y,AC.z);return this}set(A,I=0){return this.array.set(A,I),this}getComponent(A,I){let C=this.array[A*this.itemSize+I];return this.normalized&&(C=gB(C,this.array)),C}setComponent(A,I,C){return this.normalized&&(C=mI(C,this.array)),this.array[A*this.itemSize+I]=C,this}getX(A){let I=this.array[A*this.itemSize];return this.normalized&&(I=gB(I,this.array)),I}setX(A,I){return this.normalized&&(I=mI(I,this.array)),this.array[A*this.itemSize]=I,this}getY(A){let I=this.array[A*this.itemSize+1];return this.normalized&&(I=gB(I,this.array)),I}setY(A,I){return this.normalized&&(I=mI(I,this.array)),this.array[A*this.itemSize+1]=I,this}getZ(A){let I=this.array[A*this.itemSize+2];return this.normalized&&(I=gB(I,this.array)),I}setZ(A,I){return this.normalized&&(I=mI(I,this.array)),this.array[A*this.itemSize+2]=I,this}getW(A){let I=this.array[A*this.itemSize+3];return this.normalized&&(I=gB(I,this.array)),I}setW(A,I){return this.normalized&&(I=mI(I,this.array)),this.array[A*this.itemSize+3]=I,this}setXY(A,I,C){return A*=this.itemSize,this.normalized&&(I=mI(I,this.array),C=mI(C,this.array)),this.array[A+0]=I,this.array[A+1]=C,this}setXYZ(A,I,C,B){return A*=this.itemSize,this.normalized&&(I=mI(I,this.array),C=mI(C,this.array),B=mI(B,this.array)),this.array[A+0]=I,this.array[A+1]=C,this.array[A+2]=B,this}setXYZW(A,I,C,B,i){return A*=this.itemSize,this.normalized&&(I=mI(I,this.array),C=mI(C,this.array),B=mI(B,this.array),i=mI(i,this.array)),this.array[A+0]=I,this.array[A+1]=C,this.array[A+2]=B,this.array[A+3]=i,this}onUpload(A){return this.onUploadCallback=A,this}clone(){return new this.constructor(this.array,this.itemSize).copy(this)}toJSON(){const A={itemSize:this.itemSize,type:this.array.constructor.name,array:Array.from(this.array),normalized:this.normalized};return this.name!==""&&(A.name=this.name),this.usage!==Ha&&(A.usage=this.usage),A}}class sH extends pI{constructor(A,I,C){super(new Int8Array(A),I,C)}}class rH extends pI{constructor(A,I,C){super(new Uint8Array(A),I,C)}}class DH extends pI{constructor(A,I,C){super(new Uint8ClampedArray(A),I,C)}}class lH extends pI{constructor(A,I,C){super(new Int16Array(A),I,C)}}class _k extends pI{constructor(A,I,C){super(new Uint16Array(A),I,C)}}class hH extends pI{constructor(A,I,C){super(new Int32Array(A),I,C)}}class Zk extends pI{constructor(A,I,C){super(new Uint32Array(A),I,C)}}class cH extends pI{constructor(A,I,C){super(new Uint16Array(A),I,C),this.isFloat16BufferAttribute=!0}getX(A){let I=Pn(this.array[A*this.itemSize]);return this.normalized&&(I=gB(I,this.array)),I}setX(A,I){return this.normalized&&(I=mI(I,this.array)),this.array[A*this.itemSize]=nB(I),this}getY(A){let I=Pn(this.array[A*this.itemSize+1]);return this.normalized&&(I=gB(I,this.array)),I}setY(A,I){return this.normalized&&(I=mI(I,this.array)),this.array[A*this.itemSize+1]=nB(I),this}getZ(A){let I=Pn(this.array[A*this.itemSize+2]);return this.normalized&&(I=gB(I,this.array)),I}setZ(A,I){return this.normalized&&(I=mI(I,this.array)),this.array[A*this.itemSize+2]=nB(I),this}getW(A){let I=Pn(this.array[A*this.itemSize+3]);return this.normalized&&(I=gB(I,this.array)),I}setW(A,I){return this.normalized&&(I=mI(I,this.array)),this.array[A*this.itemSize+3]=nB(I),this}setXY(A,I,C){return A*=this.itemSize,this.normalized&&(I=mI(I,this.array),C=mI(C,this.array)),this.array[A+0]=nB(I),this.array[A+1]=nB(C),this}setXYZ(A,I,C,B){return A*=this.itemSize,this.normalized&&(I=mI(I,this.array),C=mI(C,this.array),B=mI(B,this.array)),this.array[A+0]=nB(I),this.array[A+1]=nB(C),this.array[A+2]=nB(B),this}setXYZW(A,I,C,B,i){return A*=this.itemSize,this.normalized&&(I=mI(I,this.array),C=mI(C,this.array),B=mI(B,this.array),i=mI(i,this.array)),this.array[A+0]=nB(I),this.array[A+1]=nB(C),this.array[A+2]=nB(B),this.array[A+3]=nB(i),this}}class aI extends pI{constructor(A,I,C){super(new Float32Array(A),I,C)}}let SH=0;const ZB=new hI,Aw=new VI,Kt=new T,kB=new bC,Nn=new bC,hC=new T;class FI extends mQ{constructor(){super(),this.isBufferGeometry=!0,Object.defineProperty(this,"id",{value:SH++}),this.uuid=KB(),this.name="",this.type="BufferGeometry",this.index=null,this.attributes={},this.morphAttributes={},this.morphTargetsRelative=!1,this.groups=[],this.boundingBox=null,this.boundingSphere=null,this.drawRange={start:0,count:1/0},this.userData={}}getIndex(){return this.index}setIndex(A){return Array.isArray(A)?this.index=new(RJ(A)?Zk:_k)(A,1):this.index=A,this}getAttribute(A){return this.attributes[A]}setAttribute(A,I){return this.attributes[A]=I,this}deleteAttribute(A){return delete this.attributes[A],this}hasAttribute(A){return this.attributes[A]!==void 0}addGroup(A,I,C=0){this.groups.push({start:A,count:I,materialIndex:C})}clearGroups(){this.groups=[]}setDrawRange(A,I){this.drawRange.start=A,this.drawRange.count=I}applyMatrix4(A){const I=this.attributes.position;I!==void 0&&(I.applyMatrix4(A),I.needsUpdate=!0);const C=this.attributes.normal;if(C!==void 0){const i=new YI().getNormalMatrix(A);C.applyNormalMatrix(i),C.needsUpdate=!0}const B=this.attributes.tangent;return B!==void 0&&(B.transformDirection(A),B.needsUpdate=!0),this.boundingBox!==null&&this.computeBoundingBox(),this.boundingSphere!==null&&this.computeBoundingSphere(),this}applyQuaternion(A){return ZB.makeRotationFromQuaternion(A),this.applyMatrix4(ZB),this}rotateX(A){return ZB.makeRotationX(A),this.applyMatrix4(ZB),this}rotateY(A){return ZB.makeRotationY(A),this.applyMatrix4(ZB),this}rotateZ(A){return ZB.makeRotationZ(A),this.applyMatrix4(ZB),this}translate(A,I,C){return ZB.makeTranslation(A,I,C),this.applyMatrix4(ZB),this}scale(A,I,C){return ZB.makeScale(A,I,C),this.applyMatrix4(ZB),this}lookAt(A){return Aw.lookAt(A),Aw.updateMatrix(),this.applyMatrix4(Aw.matrix),this}center(){return this.computeBoundingBox(),this.boundingBox.getCenter(Kt).negate(),this.translate(Kt.x,Kt.y,Kt.z),this}setFromPoints(A){const I=[];for(let C=0,B=A.length;C<B;C++){const i=A[C];I.push(i.x,i.y,i.z||0)}return this.setAttribute("position",new aI(I,3)),this}computeBoundingBox(){this.boundingBox===null&&(this.boundingBox=new bC);const A=this.attributes.position,I=this.morphAttributes.position;if(A&&A.isGLBufferAttribute){console.error("THREE.BufferGeometry.computeBoundingBox(): GLBufferAttribute requires a manual bounding box.",this),this.boundingBox.set(new T(-1/0,-1/0,-1/0),new T(1/0,1/0,1/0));return}if(A!==void 0){if(this.boundingBox.setFromBufferAttribute(A),I)for(let C=0,B=I.length;C<B;C++){const i=I[C];kB.setFromBufferAttribute(i),this.morphTargetsRelative?(hC.addVectors(this.boundingBox.min,kB.min),this.boundingBox.expandByPoint(hC),hC.addVectors(this.boundingBox.max,kB.max),this.boundingBox.expandByPoint(hC)):(this.boundingBox.expandByPoint(kB.min),this.boundingBox.expandByPoint(kB.max))}}else this.boundingBox.makeEmpty();(isNaN(this.boundingBox.min.x)||isNaN(this.boundingBox.min.y)||isNaN(this.boundingBox.min.z))&&console.error('THREE.BufferGeometry.computeBoundingBox(): Computed min/max have NaN values. The "position" attribute is likely to have NaN values.',this)}computeBoundingSphere(){this.boundingSphere===null&&(this.boundingSphere=new NC);const A=this.attributes.position,I=this.morphAttributes.position;if(A&&A.isGLBufferAttribute){console.error("THREE.BufferGeometry.computeBoundingSphere(): GLBufferAttribute requires a manual bounding sphere.",this),this.boundingSphere.set(new T,1/0);return}if(A){const C=this.boundingSphere.center;if(kB.setFromBufferAttribute(A),I)for(let i=0,Q=I.length;i<Q;i++){const E=I[i];Nn.setFromBufferAttribute(E),this.morphTargetsRelative?(hC.addVectors(kB.min,Nn.min),kB.expandByPoint(hC),hC.addVectors(kB.max,Nn.max),kB.expandByPoint(hC)):(kB.expandByPoint(Nn.min),kB.expandByPoint(Nn.max))}kB.getCenter(C);let B=0;for(let i=0,Q=A.count;i<Q;i++)hC.fromBufferAttribute(A,i),B=Math.max(B,C.distanceToSquared(hC));if(I)for(let i=0,Q=I.length;i<Q;i++){const E=I[i],e=this.morphTargetsRelative;for(let n=0,a=E.count;n<a;n++)hC.fromBufferAttribute(E,n),e&&(Kt.fromBufferAttribute(A,n),hC.add(Kt)),B=Math.max(B,C.distanceToSquared(hC))}this.boundingSphere.radius=Math.sqrt(B),isNaN(this.boundingSphere.radius)&&console.error('THREE.BufferGeometry.computeBoundingSphere(): Computed radius is NaN. The "position" attribute is likely to have NaN values.',this)}}computeTangents(){const A=this.index,I=this.attributes;if(A===null||I.position===void 0||I.normal===void 0||I.uv===void 0){console.error("THREE.BufferGeometry: .computeTangents() failed. Missing required attributes (index, position, normal or uv)");return}const C=I.position,B=I.normal,i=I.uv;this.hasAttribute("tangent")===!1&&this.setAttribute("tangent",new pI(new Float32Array(4*C.count),4));const Q=this.getAttribute("tangent"),E=[],e=[];for(let q=0;q<C.count;q++)E[q]=new T,e[q]=new T;const n=new T,a=new T,s=new T,r=new pA,D=new pA,c=new pA,y=new T,S=new T;function l(q,K,N){n.fromBufferAttribute(C,q),a.fromBufferAttribute(C,K),s.fromBufferAttribute(C,N),r.fromBufferAttribute(i,q),D.fromBufferAttribute(i,K),c.fromBufferAttribute(i,N),a.sub(n),s.sub(n),D.sub(r),c.sub(r);const m=1/(D.x*c.y-c.x*D.y);isFinite(m)&&(y.copy(a).multiplyScalar(c.y).addScaledVector(s,-D.y).multiplyScalar(m),S.copy(s).multiplyScalar(D.x).addScaledVector(a,-c.x).multiplyScalar(m),E[q].add(y),E[K].add(y),E[N].add(y),e[q].add(S),e[K].add(S),e[N].add(S))}let w=this.groups;w.length===0&&(w=[{start:0,count:A.count}]);for(let q=0,K=w.length;q<K;++q){const N=w[q],m=N.start,P=N.count;for(let z=m,IA=m+P;z<IA;z+=3)l(A.getX(z+0),A.getX(z+1),A.getX(z+2))}const k=new T,U=new T,f=new T,F=new T;function J(q){f.fromBufferAttribute(B,q),F.copy(f);const K=E[q];k.copy(K),k.sub(f.multiplyScalar(f.dot(K))).normalize(),U.crossVectors(F,K);const m=U.dot(e[q])<0?-1:1;Q.setXYZW(q,k.x,k.y,k.z,m)}for(let q=0,K=w.length;q<K;++q){const N=w[q],m=N.start,P=N.count;for(let z=m,IA=m+P;z<IA;z+=3)J(A.getX(z+0)),J(A.getX(z+1)),J(A.getX(z+2))}}computeVertexNormals(){const A=this.index,I=this.getAttribute("position");if(I!==void 0){let C=this.getAttribute("normal");if(C===void 0)C=new pI(new Float32Array(I.count*3),3),this.setAttribute("normal",C);else for(let r=0,D=C.count;r<D;r++)C.setXYZ(r,0,0,0);const B=new T,i=new T,Q=new T,E=new T,e=new T,n=new T,a=new T,s=new T;if(A)for(let r=0,D=A.count;r<D;r+=3){const c=A.getX(r+0),y=A.getX(r+1),S=A.getX(r+2);B.fromBufferAttribute(I,c),i.fromBufferAttribute(I,y),Q.fromBufferAttribute(I,S),a.subVectors(Q,i),s.subVectors(B,i),a.cross(s),E.fromBufferAttribute(C,c),e.fromBufferAttribute(C,y),n.fromBufferAttribute(C,S),E.add(a),e.add(a),n.add(a),C.setXYZ(c,E.x,E.y,E.z),C.setXYZ(y,e.x,e.y,e.z),C.setXYZ(S,n.x,n.y,n.z)}else for(let r=0,D=I.count;r<D;r+=3)B.fromBufferAttribute(I,r+0),i.fromBufferAttribute(I,r+1),Q.fromBufferAttribute(I,r+2),a.subVectors(Q,i),s.subVectors(B,i),a.cross(s),C.setXYZ(r+0,a.x,a.y,a.z),C.setXYZ(r+1,a.x,a.y,a.z),C.setXYZ(r+2,a.x,a.y,a.z);this.normalizeNormals(),C.needsUpdate=!0}}normalizeNormals(){const A=this.attributes.normal;for(let I=0,C=A.count;I<C;I++)hC.fromBufferAttribute(A,I),hC.normalize(),A.setXYZ(I,hC.x,hC.y,hC.z)}toNonIndexed(){function A(E,e){const n=E.array,a=E.itemSize,s=E.normalized,r=new n.constructor(e.length*a);let D=0,c=0;for(let y=0,S=e.length;y<S;y++){E.isInterleavedBufferAttribute?D=e[y]*E.data.stride+E.offset:D=e[y]*a;for(let l=0;l<a;l++)r[c++]=n[D++]}return new pI(r,a,s)}if(this.index===null)return console.warn("THREE.BufferGeometry.toNonIndexed(): BufferGeometry is already non-indexed."),this;const I=new FI,C=this.index.array,B=this.attributes;for(const E in B){const e=B[E],n=A(e,C);I.setAttribute(E,n)}const i=this.morphAttributes;for(const E in i){const e=[],n=i[E];for(let a=0,s=n.length;a<s;a++){const r=n[a],D=A(r,C);e.push(D)}I.morphAttributes[E]=e}I.morphTargetsRelative=this.morphTargetsRelative;const Q=this.groups;for(let E=0,e=Q.length;E<e;E++){const n=Q[E];I.addGroup(n.start,n.count,n.materialIndex)}return I}toJSON(){const A={metadata:{version:4.6,type:"BufferGeometry",generator:"BufferGeometry.toJSON"}};if(A.uuid=this.uuid,A.type=this.type,this.name!==""&&(A.name=this.name),Object.keys(this.userData).length>0&&(A.userData=this.userData),this.parameters!==void 0){const e=this.parameters;for(const n in e)e[n]!==void 0&&(A[n]=e[n]);return A}A.data={attributes:{}};const I=this.index;I!==null&&(A.data.index={type:I.array.constructor.name,array:Array.prototype.slice.call(I.array)});const C=this.attributes;for(const e in C){const n=C[e];A.data.attributes[e]=n.toJSON(A.data)}const B={};let i=!1;for(const e in this.morphAttributes){const n=this.morphAttributes[e],a=[];for(let s=0,r=n.length;s<r;s++){const D=n[s];a.push(D.toJSON(A.data))}a.length>0&&(B[e]=a,i=!0)}i&&(A.data.morphAttributes=B,A.data.morphTargetsRelative=this.morphTargetsRelative);const Q=this.groups;Q.length>0&&(A.data.groups=JSON.parse(JSON.stringify(Q)));const E=this.boundingSphere;return E!==null&&(A.data.boundingSphere={center:E.center.toArray(),radius:E.radius}),A}clone(){return new this.constructor().copy(this)}copy(A){this.index=null,this.attributes={},this.morphAttributes={},this.groups=[],this.boundingBox=null,this.boundingSphere=null;const I={};this.name=A.name;const C=A.index;C!==null&&this.setIndex(C.clone(I));const B=A.attributes;for(const n in B){const a=B[n];this.setAttribute(n,a.clone(I))}const i=A.morphAttributes;for(const n in i){const a=[],s=i[n];for(let r=0,D=s.length;r<D;r++)a.push(s[r].clone(I));this.morphAttributes[n]=a}this.morphTargetsRelative=A.morphTargetsRelative;const Q=A.groups;for(let n=0,a=Q.length;n<a;n++){const s=Q[n];this.addGroup(s.start,s.count,s.materialIndex)}const E=A.boundingBox;E!==null&&(this.boundingBox=E.clone());const e=A.boundingSphere;return e!==null&&(this.boundingSphere=e.clone()),this.drawRange.start=A.drawRange.start,this.drawRange.count=A.drawRange.count,this.userData=A.userData,this}dispose(){this.dispatchEvent({type:"dispose"})}}const Gd=new hI,$E=new bo,br=new NC,yd=new T,Jt=new T,Rt=new T,ft=new T,Iw=new T,_r=new T,Zr=new pA,Pr=new pA,Wr=new pA,kd=new T,Md=new T,ud=new T,Vr=new T,jr=new T;class Jg extends VI{constructor(A=new FI,I=new rB){super(),this.isMesh=!0,this.type="Mesh",this.geometry=A,this.material=I,this.updateMorphTargets()}copy(A,I){return super.copy(A,I),A.morphTargetInfluences!==void 0&&(this.morphTargetInfluences=A.morphTargetInfluences.slice()),A.morphTargetDictionary!==void 0&&(this.morphTargetDictionary=Object.assign({},A.morphTargetDictionary)),this.material=Array.isArray(A.material)?A.material.slice():A.material,this.geometry=A.geometry,this}updateMorphTargets(){const I=this.geometry.morphAttributes,C=Object.keys(I);if(C.length>0){const B=I[C[0]];if(B!==void 0){this.morphTargetInfluences=[],this.morphTargetDictionary={};for(let i=0,Q=B.length;i<Q;i++){const E=B[i].name||String(i);this.morphTargetInfluences.push(0),this.morphTargetDictionary[E]=i}}}}getVertexPosition(A,I){const C=this.geometry,B=C.attributes.position,i=C.morphAttributes.position,Q=C.morphTargetsRelative;I.fromBufferAttribute(B,A);const E=this.morphTargetInfluences;if(i&&E){_r.set(0,0,0);for(let e=0,n=i.length;e<n;e++){const a=E[e],s=i[e];a!==0&&(Iw.fromBufferAttribute(s,A),Q?_r.addScaledVector(Iw,a):_r.addScaledVector(Iw.sub(I),a))}I.add(_r)}return I}raycast(A,I){const C=this.geometry,B=this.material,i=this.matrixWorld;B!==void 0&&(C.boundingSphere===null&&C.computeBoundingSphere(),br.copy(C.boundingSphere),br.applyMatrix4(i),$E.copy(A.ray).recast(A.near),!(br.containsPoint($E.origin)===!1&&($E.intersectSphere(br,yd)===null||$E.origin.distanceToSquared(yd)>(A.far-A.near)**2))&&(Gd.copy(i).invert(),$E.copy(A.ray).applyMatrix4(Gd),!(C.boundingBox!==null&&$E.intersectsBox(C.boundingBox)===!1)&&this._computeIntersections(A,I,$E)))}_computeIntersections(A,I,C){let B;const i=this.geometry,Q=this.material,E=i.index,e=i.attributes.position,n=i.attributes.uv,a=i.attributes.uv1,s=i.attributes.normal,r=i.groups,D=i.drawRange;if(E!==null)if(Array.isArray(Q))for(let c=0,y=r.length;c<y;c++){const S=r[c],l=Q[S.materialIndex],w=Math.max(S.start,D.start),k=Math.min(E.count,Math.min(S.start+S.count,D.start+D.count));for(let U=w,f=k;U<f;U+=3){const F=E.getX(U),J=E.getX(U+1),q=E.getX(U+2);B=zr(this,l,A,C,n,a,s,F,J,q),B&&(B.faceIndex=Math.floor(U/3),B.face.materialIndex=S.materialIndex,I.push(B))}}else{const c=Math.max(0,D.start),y=Math.min(E.count,D.start+D.count);for(let S=c,l=y;S<l;S+=3){const w=E.getX(S),k=E.getX(S+1),U=E.getX(S+2);B=zr(this,Q,A,C,n,a,s,w,k,U),B&&(B.faceIndex=Math.floor(S/3),I.push(B))}}else if(e!==void 0)if(Array.isArray(Q))for(let c=0,y=r.length;c<y;c++){const S=r[c],l=Q[S.materialIndex],w=Math.max(S.start,D.start),k=Math.min(e.count,Math.min(S.start+S.count,D.start+D.count));for(let U=w,f=k;U<f;U+=3){const F=U,J=U+1,q=U+2;B=zr(this,l,A,C,n,a,s,F,J,q),B&&(B.faceIndex=Math.floor(U/3),B.face.materialIndex=S.materialIndex,I.push(B))}}else{const c=Math.max(0,D.start),y=Math.min(e.count,D.start+D.count);for(let S=c,l=y;S<l;S+=3){const w=S,k=S+1,U=S+2;B=zr(this,Q,A,C,n,a,s,w,k,U),B&&(B.faceIndex=Math.floor(S/3),I.push(B))}}}}function wH(g,A,I,C,B,i,Q,E){let e;if(A.side===BB?e=C.intersectTriangle(Q,i,B,!0,E):e=C.intersectTriangle(B,i,Q,A.side===Xi,E),e===null)return null;jr.copy(E),jr.applyMatrix4(g.matrixWorld);const n=I.ray.origin.distanceTo(jr);return n<I.near||n>I.far?null:{distance:n,point:jr.clone(),object:g}}function zr(g,A,I,C,B,i,Q,E,e,n){g.getVertexPosition(E,Jt),g.getVertexPosition(e,Rt),g.getVertexPosition(n,ft);const a=wH(g,A,I,C,Jt,Rt,ft,Vr);if(a){B&&(Zr.fromBufferAttribute(B,E),Pr.fromBufferAttribute(B,e),Wr.fromBufferAttribute(B,n),a.uv=pB.getInterpolation(Vr,Jt,Rt,ft,Zr,Pr,Wr,new pA)),i&&(Zr.fromBufferAttribute(i,E),Pr.fromBufferAttribute(i,e),Wr.fromBufferAttribute(i,n),a.uv1=pB.getInterpolation(Vr,Jt,Rt,ft,Zr,Pr,Wr,new pA)),Q&&(kd.fromBufferAttribute(Q,E),Md.fromBufferAttribute(Q,e),ud.fromBufferAttribute(Q,n),a.normal=pB.getInterpolation(Vr,Jt,Rt,ft,kd,Md,ud,new T),a.normal.dot(C.direction)>0&&a.normal.multiplyScalar(-1));const s={a:E,b:e,c:n,normal:new T,materialIndex:0};pB.getNormal(Jt,Rt,ft,s.normal),a.face=s}return a}class It extends FI{constructor(A=1,I=1,C=1,B=1,i=1,Q=1){super(),this.type="BoxGeometry",this.parameters={width:A,height:I,depth:C,widthSegments:B,heightSegments:i,depthSegments:Q};const E=this;B=Math.floor(B),i=Math.floor(i),Q=Math.floor(Q);const e=[],n=[],a=[],s=[];let r=0,D=0;c("z","y","x",-1,-1,C,I,A,Q,i,0),c("z","y","x",1,-1,C,I,-A,Q,i,1),c("x","z","y",1,1,A,C,I,B,Q,2),c("x","z","y",1,-1,A,C,-I,B,Q,3),c("x","y","z",1,-1,A,I,C,B,i,4),c("x","y","z",-1,-1,A,I,-C,B,i,5),this.setIndex(e),this.setAttribute("position",new aI(n,3)),this.setAttribute("normal",new aI(a,3)),this.setAttribute("uv",new aI(s,2));function c(y,S,l,w,k,U,f,F,J,q,K){const N=U/J,m=f/q,P=U/2,z=f/2,IA=F/2,tA=J+1,$=q+1;let SA=0,O=0;const EA=new T;for(let X=0;X<$;X++){const oA=X*m-z;for(let MA=0;MA<tA;MA++){const xA=MA*N-P;EA[y]=xA*w,EA[S]=oA*k,EA[l]=IA,n.push(EA.x,EA.y,EA.z),EA[y]=0,EA[S]=0,EA[l]=F>0?1:-1,a.push(EA.x,EA.y,EA.z),s.push(MA/J),s.push(1-X/q),SA+=1}}for(let X=0;X<q;X++)for(let oA=0;oA<J;oA++){const MA=r+oA+tA*X,xA=r+oA+tA*(X+1),aA=r+(oA+1)+tA*(X+1),UA=r+(oA+1)+tA*X;e.push(MA,xA,UA),e.push(xA,aA,UA),O+=6}E.addGroup(D,O,K),D+=O,r+=SA}}copy(A){return super.copy(A),this.parameters=Object.assign({},A.parameters),this}static fromJSON(A){return new It(A.width,A.height,A.depth,A.widthSegments,A.heightSegments,A.depthSegments)}}function Ro(g){const A={};for(const I in g){A[I]={};for(const C in g[I]){const B=g[I][C];B&&(B.isColor||B.isMatrix3||B.isMatrix4||B.isVector2||B.isVector3||B.isVector4||B.isTexture||B.isQuaternion)?B.isRenderTargetTexture?(console.warn("UniformsUtils: Textures of render targets cannot be cloned via cloneUniforms() or mergeUniforms()."),A[I][C]=null):A[I][C]=B.clone():Array.isArray(B)?A[I][C]=B.slice():A[I][C]=B}}return A}function AB(g){const A={};for(let I=0;I<g.length;I++){const C=Ro(g[I]);for(const B in C)A[B]=C[B]}return A}function GH(g){const A=[];for(let I=0;I<g.length;I++)A.push(g[I].clone());return A}function LJ(g){const A=g.getRenderTarget();return A===null?g.outputColorSpace:A.isXRRenderTarget===!0?A.texture.colorSpace:ag.workingColorSpace}const HJ={clone:Ro,merge:AB};var yH=`void main() {
	gl_Position = projectionMatrix * modelViewMatrix * vec4( position, 1.0 );
}`,kH=`void main() {
	gl_FragColor = vec4( 1.0, 0.0, 0.0, 1.0 );
}`;class iB extends BC{constructor(A){super(),this.isShaderMaterial=!0,this.type="ShaderMaterial",this.defines={},this.uniforms={},this.uniformsGroups=[],this.vertexShader=yH,this.fragmentShader=kH,this.linewidth=1,this.wireframe=!1,this.wireframeLinewidth=1,this.fog=!1,this.lights=!1,this.clipping=!1,this.forceSinglePass=!0,this.extensions={clipCullDistance:!1,multiDraw:!1},this.defaultAttributeValues={color:[1,1,1],uv:[0,0],uv1:[0,0]},this.index0AttributeName=void 0,this.uniformsNeedUpdate=!1,this.glslVersion=null,A!==void 0&&this.setValues(A)}copy(A){return super.copy(A),this.fragmentShader=A.fragmentShader,this.vertexShader=A.vertexShader,this.uniforms=Ro(A.uniforms),this.uniformsGroups=GH(A.uniformsGroups),this.defines=Object.assign({},A.defines),this.wireframe=A.wireframe,this.wireframeLinewidth=A.wireframeLinewidth,this.fog=A.fog,this.lights=A.lights,this.clipping=A.clipping,this.extensions=Object.assign({},A.extensions),this.glslVersion=A.glslVersion,this}toJSON(A){const I=super.toJSON(A);I.glslVersion=this.glslVersion,I.uniforms={};for(const B in this.uniforms){const Q=this.uniforms[B].value;Q&&Q.isTexture?I.uniforms[B]={type:"t",value:Q.toJSON(A).uuid}:Q&&Q.isColor?I.uniforms[B]={type:"c",value:Q.getHex()}:Q&&Q.isVector2?I.uniforms[B]={type:"v2",value:Q.toArray()}:Q&&Q.isVector3?I.uniforms[B]={type:"v3",value:Q.toArray()}:Q&&Q.isVector4?I.uniforms[B]={type:"v4",value:Q.toArray()}:Q&&Q.isMatrix3?I.uniforms[B]={type:"m3",value:Q.toArray()}:Q&&Q.isMatrix4?I.uniforms[B]={type:"m4",value:Q.toArray()}:I.uniforms[B]={value:Q}}Object.keys(this.defines).length>0&&(I.defines=this.defines),I.vertexShader=this.vertexShader,I.fragmentShader=this.fragmentShader,I.lights=this.lights,I.clipping=this.clipping;const C={};for(const B in this.extensions)this.extensions[B]===!0&&(C[B]=!0);return Object.keys(C).length>0&&(I.extensions=C),I}}class ts extends VI{constructor(){super(),this.isCamera=!0,this.type="Camera",this.matrixWorldInverse=new hI,this.projectionMatrix=new hI,this.projectionMatrixInverse=new hI,this.coordinateSystem=_i}copy(A,I){return super.copy(A,I),this.matrixWorldInverse.copy(A.matrixWorldInverse),this.projectionMatrix.copy(A.projectionMatrix),this.projectionMatrixInverse.copy(A.projectionMatrixInverse),this.coordinateSystem=A.coordinateSystem,this}getWorldDirection(A){return super.getWorldDirection(A).negate()}updateMatrixWorld(A){super.updateMatrixWorld(A),this.matrixWorldInverse.copy(this.matrixWorld).invert()}updateWorldMatrix(A,I){super.updateWorldMatrix(A,I),this.matrixWorldInverse.copy(this.matrixWorld).invert()}clone(){return new this.constructor().copy(this)}}const $Q=new T,Ud=new pA,dd=new pA;class eC extends ts{constructor(A=50,I=1,C=.1,B=2e3){super(),this.isPerspectiveCamera=!0,this.type="PerspectiveCamera",this.fov=A,this.zoom=1,this.near=C,this.far=B,this.focus=10,this.aspect=I,this.view=null,this.filmGauge=35,this.filmOffset=0,this.updateProjectionMatrix()}copy(A,I){return super.copy(A,I),this.fov=A.fov,this.zoom=A.zoom,this.near=A.near,this.far=A.far,this.focus=A.focus,this.aspect=A.aspect,this.view=A.view===null?null:Object.assign({},A.view),this.filmGauge=A.filmGauge,this.filmOffset=A.filmOffset,this}setFocalLength(A){const I=.5*this.getFilmHeight()/A;this.fov=Jo*2*Math.atan(I),this.updateProjectionMatrix()}getFocalLength(){const A=Math.tan(Je*.5*this.fov);return .5*this.getFilmHeight()/A}getEffectiveFOV(){return Jo*2*Math.atan(Math.tan(Je*.5*this.fov)/this.zoom)}getFilmWidth(){return this.filmGauge*Math.min(this.aspect,1)}getFilmHeight(){return this.filmGauge/Math.max(this.aspect,1)}getViewBounds(A,I,C){$Q.set(-1,-1,.5).applyMatrix4(this.projectionMatrixInverse),I.set($Q.x,$Q.y).multiplyScalar(-A/$Q.z),$Q.set(1,1,.5).applyMatrix4(this.projectionMatrixInverse),C.set($Q.x,$Q.y).multiplyScalar(-A/$Q.z)}getViewSize(A,I){return this.getViewBounds(A,Ud,dd),I.subVectors(dd,Ud)}setViewOffset(A,I,C,B,i,Q){this.aspect=A/I,this.view===null&&(this.view={enabled:!0,fullWidth:1,fullHeight:1,offsetX:0,offsetY:0,width:1,height:1}),this.view.enabled=!0,this.view.fullWidth=A,this.view.fullHeight=I,this.view.offsetX=C,this.view.offsetY=B,this.view.width=i,this.view.height=Q,this.updateProjectionMatrix()}clearViewOffset(){this.view!==null&&(this.view.enabled=!1),this.updateProjectionMatrix()}updateProjectionMatrix(){const A=this.near;let I=A*Math.tan(Je*.5*this.fov)/this.zoom,C=2*I,B=this.aspect*C,i=-.5*B;const Q=this.view;if(this.view!==null&&this.view.enabled){const e=Q.fullWidth,n=Q.fullHeight;i+=Q.offsetX*B/e,I-=Q.offsetY*C/n,B*=Q.width/e,C*=Q.height/n}const E=this.filmOffset;E!==0&&(i+=A*E/this.getFilmWidth()),this.projectionMatrix.makePerspective(i,i+B,I,I-C,A,this.far,this.coordinateSystem),this.projectionMatrixInverse.copy(this.projectionMatrix).invert()}toJSON(A){const I=super.toJSON(A);return I.object.fov=this.fov,I.object.zoom=this.zoom,I.object.near=this.near,I.object.far=this.far,I.object.focus=this.focus,I.object.aspect=this.aspect,this.view!==null&&(I.object.view=Object.assign({},this.view)),I.object.filmGauge=this.filmGauge,I.object.filmOffset=this.filmOffset,I}}const qt=-90,Yt=1;class TJ extends VI{constructor(A,I,C){super(),this.type="CubeCamera",this.renderTarget=C,this.coordinateSystem=null,this.activeMipmapLevel=0;const B=new eC(qt,Yt,A,I);B.layers=this.layers,this.add(B);const i=new eC(qt,Yt,A,I);i.layers=this.layers,this.add(i);const Q=new eC(qt,Yt,A,I);Q.layers=this.layers,this.add(Q);const E=new eC(qt,Yt,A,I);E.layers=this.layers,this.add(E);const e=new eC(qt,Yt,A,I);e.layers=this.layers,this.add(e);const n=new eC(qt,Yt,A,I);n.layers=this.layers,this.add(n)}updateCoordinateSystem(){const A=this.coordinateSystem,I=this.children.concat(),[C,B,i,Q,E,e]=I;for(const n of I)this.remove(n);if(A===_i)C.up.set(0,1,0),C.lookAt(1,0,0),B.up.set(0,1,0),B.lookAt(-1,0,0),i.up.set(0,0,-1),i.lookAt(0,1,0),Q.up.set(0,0,1),Q.lookAt(0,-1,0),E.up.set(0,1,0),E.lookAt(0,0,1),e.up.set(0,1,0),e.lookAt(0,0,-1);else if(A===Ta)C.up.set(0,-1,0),C.lookAt(-1,0,0),B.up.set(0,-1,0),B.lookAt(1,0,0),i.up.set(0,0,1),i.lookAt(0,1,0),Q.up.set(0,0,-1),Q.lookAt(0,-1,0),E.up.set(0,-1,0),E.lookAt(0,0,1),e.up.set(0,-1,0),e.lookAt(0,0,-1);else throw new Error("THREE.CubeCamera.updateCoordinateSystem(): Invalid coordinate system: "+A);for(const n of I)this.add(n),n.updateMatrixWorld()}update(A,I){this.parent===null&&this.updateMatrixWorld();const{renderTarget:C,activeMipmapLevel:B}=this;this.coordinateSystem!==A.coordinateSystem&&(this.coordinateSystem=A.coordinateSystem,this.updateCoordinateSystem());const[i,Q,E,e,n,a]=this.children,s=A.getRenderTarget(),r=A.getActiveCubeFace(),D=A.getActiveMipmapLevel(),c=A.xr.enabled;A.xr.enabled=!1;const y=C.texture.generateMipmaps;C.texture.generateMipmaps=!1,A.setRenderTarget(C,0,B),A.render(I,i),A.setRenderTarget(C,1,B),A.render(I,Q),A.setRenderTarget(C,2,B),A.render(I,E),A.setRenderTarget(C,3,B),A.render(I,e),A.setRenderTarget(C,4,B),A.render(I,n),C.texture.generateMipmaps=y,A.setRenderTarget(C,5,B),A.render(I,a),A.setRenderTarget(s,r,D),A.xr.enabled=c,C.texture.needsPMREMUpdate=!0}}class os extends Ig{constructor(A,I,C,B,i,Q,E,e,n,a){A=A!==void 0?A:[],I=I!==void 0?I:$i,super(A,I,C,B,i,Q,E,e,n,a),this.isCubeTexture=!0,this.flipY=!1}get images(){return this.image}set images(A){this.image=A}}class Pk extends fB{constructor(A=1,I={}){super(A,A,I),this.isWebGLCubeRenderTarget=!0;const C={width:A,height:A,depth:1},B=[C,C,C,C,C,C];this.texture=new os(B,I.mapping,I.wrapS,I.wrapT,I.magFilter,I.minFilter,I.format,I.type,I.anisotropy,I.colorSpace),this.texture.isRenderTargetTexture=!0,this.texture.generateMipmaps=I.generateMipmaps!==void 0?I.generateMipmaps:!1,this.texture.minFilter=I.minFilter!==void 0?I.minFilter:tg}fromEquirectangularTexture(A,I){this.texture.type=I.type,this.texture.colorSpace=I.colorSpace,this.texture.generateMipmaps=I.generateMipmaps,this.texture.minFilter=I.minFilter,this.texture.magFilter=I.magFilter;const C={uniforms:{tEquirect:{value:null}},vertexShader:`

				varying vec3 vWorldDirection;

				vec3 transformDirection( in vec3 dir, in mat4 matrix ) {

					return normalize( ( matrix * vec4( dir, 0.0 ) ).xyz );

				}

				void main() {

					vWorldDirection = transformDirection( position, modelMatrix );

					#include <begin_vertex>
					#include <project_vertex>

				}
			`,fragmentShader:`

				uniform sampler2D tEquirect;

				varying vec3 vWorldDirection;

				#include <common>

				void main() {

					vec3 direction = normalize( vWorldDirection );

					vec2 sampleUV = equirectUv( direction );

					gl_FragColor = texture2D( tEquirect, sampleUV );

				}
			`},B=new It(5,5,5),i=new iB({name:"CubemapFromEquirect",uniforms:Ro(C.uniforms),vertexShader:C.vertexShader,fragmentShader:C.fragmentShader,side:BB,blending:Wi});i.uniforms.tEquirect.value=I;const Q=new Jg(B,i),E=I.minFilter;return I.minFilter===Ii&&(I.minFilter=tg),new TJ(1,10,this).update(A,Q),I.minFilter=E,Q.geometry.dispose(),Q.material.dispose(),this}clear(A,I,C,B){const i=A.getRenderTarget();for(let Q=0;Q<6;Q++)A.setRenderTarget(this,Q),A.clear(I,C,B);A.setRenderTarget(i)}}const gw=new T,MH=new T,uH=new YI;class EE{constructor(A=new T(1,0,0),I=0){this.isPlane=!0,this.normal=A,this.constant=I}set(A,I){return this.normal.copy(A),this.constant=I,this}setComponents(A,I,C,B){return this.normal.set(A,I,C),this.constant=B,this}setFromNormalAndCoplanarPoint(A,I){return this.normal.copy(A),this.constant=-I.dot(this.normal),this}setFromCoplanarPoints(A,I,C){const B=gw.subVectors(C,I).cross(MH.subVectors(A,I)).normalize();return this.setFromNormalAndCoplanarPoint(B,A),this}copy(A){return this.normal.copy(A.normal),this.constant=A.constant,this}normalize(){const A=1/this.normal.length();return this.normal.multiplyScalar(A),this.constant*=A,this}negate(){return this.constant*=-1,this.normal.negate(),this}distanceToPoint(A){return this.normal.dot(A)+this.constant}distanceToSphere(A){return this.distanceToPoint(A.center)-A.radius}projectPoint(A,I){return I.copy(A).addScaledVector(this.normal,-this.distanceToPoint(A))}intersectLine(A,I){const C=A.delta(gw),B=this.normal.dot(C);if(B===0)return this.distanceToPoint(A.start)===0?I.copy(A.start):null;const i=-(A.start.dot(this.normal)+this.constant)/B;return i<0||i>1?null:I.copy(A.start).addScaledVector(C,i)}intersectsLine(A){const I=this.distanceToPoint(A.start),C=this.distanceToPoint(A.end);return I<0&&C>0||C<0&&I>0}intersectsBox(A){return A.intersectsPlane(this)}intersectsSphere(A){return A.intersectsPlane(this)}coplanarPoint(A){return A.copy(this.normal).multiplyScalar(-this.constant)}applyMatrix4(A,I){const C=I||uH.getNormalMatrix(A),B=this.coplanarPoint(gw).applyMatrix4(A),i=this.normal.applyMatrix3(C).normalize();return this.constant=-B.dot(i),this}translate(A){return this.constant-=A.dot(this.normal),this}equals(A){return A.normal.equals(this.normal)&&A.constant===this.constant}clone(){return new this.constructor().copy(this)}}const Ae=new NC,Xr=new T;class ns{constructor(A=new EE,I=new EE,C=new EE,B=new EE,i=new EE,Q=new EE){this.planes=[A,I,C,B,i,Q]}set(A,I,C,B,i,Q){const E=this.planes;return E[0].copy(A),E[1].copy(I),E[2].copy(C),E[3].copy(B),E[4].copy(i),E[5].copy(Q),this}copy(A){const I=this.planes;for(let C=0;C<6;C++)I[C].copy(A.planes[C]);return this}setFromProjectionMatrix(A,I=_i){const C=this.planes,B=A.elements,i=B[0],Q=B[1],E=B[2],e=B[3],n=B[4],a=B[5],s=B[6],r=B[7],D=B[8],c=B[9],y=B[10],S=B[11],l=B[12],w=B[13],k=B[14],U=B[15];if(C[0].setComponents(e-i,r-n,S-D,U-l).normalize(),C[1].setComponents(e+i,r+n,S+D,U+l).normalize(),C[2].setComponents(e+Q,r+a,S+c,U+w).normalize(),C[3].setComponents(e-Q,r-a,S-c,U-w).normalize(),C[4].setComponents(e-E,r-s,S-y,U-k).normalize(),I===_i)C[5].setComponents(e+E,r+s,S+y,U+k).normalize();else if(I===Ta)C[5].setComponents(E,s,y,k).normalize();else throw new Error("THREE.Frustum.setFromProjectionMatrix(): Invalid coordinate system: "+I);return this}intersectsObject(A){if(A.boundingSphere!==void 0)A.boundingSphere===null&&A.computeBoundingSphere(),Ae.copy(A.boundingSphere).applyMatrix4(A.matrixWorld);else{const I=A.geometry;I.boundingSphere===null&&I.computeBoundingSphere(),Ae.copy(I.boundingSphere).applyMatrix4(A.matrixWorld)}return this.intersectsSphere(Ae)}intersectsSprite(A){return Ae.center.set(0,0,0),Ae.radius=.7071067811865476,Ae.applyMatrix4(A.matrixWorld),this.intersectsSphere(Ae)}intersectsSphere(A){const I=this.planes,C=A.center,B=-A.radius;for(let i=0;i<6;i++)if(I[i].distanceToPoint(C)<B)return!1;return!0}intersectsBox(A){const I=this.planes;for(let C=0;C<6;C++){const B=I[C];if(Xr.x=B.normal.x>0?A.max.x:A.min.x,Xr.y=B.normal.y>0?A.max.y:A.min.y,Xr.z=B.normal.z>0?A.max.z:A.min.z,B.distanceToPoint(Xr)<0)return!1}return!0}containsPoint(A){const I=this.planes;for(let C=0;C<6;C++)if(I[C].distanceToPoint(A)<0)return!1;return!0}clone(){return new this.constructor().copy(this)}}function xJ(){let g=null,A=!1,I=null,C=null;function B(i,Q){I(i,Q),C=g.requestAnimationFrame(B)}return{start:function(){A!==!0&&I!==null&&(C=g.requestAnimationFrame(B),A=!0)},stop:function(){g.cancelAnimationFrame(C),A=!1},setAnimationLoop:function(i){I=i},setContext:function(i){g=i}}}function UH(g){const A=new WeakMap;function I(E,e){const n=E.array,a=E.usage,s=n.byteLength,r=g.createBuffer();g.bindBuffer(e,r),g.bufferData(e,n,a),E.onUploadCallback();let D;if(n instanceof Float32Array)D=g.FLOAT;else if(n instanceof Uint16Array)E.isFloat16BufferAttribute?D=g.HALF_FLOAT:D=g.UNSIGNED_SHORT;else if(n instanceof Int16Array)D=g.SHORT;else if(n instanceof Uint32Array)D=g.UNSIGNED_INT;else if(n instanceof Int32Array)D=g.INT;else if(n instanceof Int8Array)D=g.BYTE;else if(n instanceof Uint8Array)D=g.UNSIGNED_BYTE;else if(n instanceof Uint8ClampedArray)D=g.UNSIGNED_BYTE;else throw new Error("THREE.WebGLAttributes: Unsupported buffer data format: "+n);return{buffer:r,type:D,bytesPerElement:n.BYTES_PER_ELEMENT,version:E.version,size:s}}function C(E,e,n){const a=e.array,s=e._updateRange,r=e.updateRanges;if(g.bindBuffer(n,E),s.count===-1&&r.length===0&&g.bufferSubData(n,0,a),r.length!==0){for(let D=0,c=r.length;D<c;D++){const y=r[D];g.bufferSubData(n,y.start*a.BYTES_PER_ELEMENT,a,y.start,y.count)}e.clearUpdateRanges()}s.count!==-1&&(g.bufferSubData(n,s.offset*a.BYTES_PER_ELEMENT,a,s.offset,s.count),s.count=-1),e.onUploadCallback()}function B(E){return E.isInterleavedBufferAttribute&&(E=E.data),A.get(E)}function i(E){E.isInterleavedBufferAttribute&&(E=E.data);const e=A.get(E);e&&(g.deleteBuffer(e.buffer),A.delete(E))}function Q(E,e){if(E.isGLBufferAttribute){const a=A.get(E);(!a||a.version<E.version)&&A.set(E,{buffer:E.buffer,type:E.type,bytesPerElement:E.elementSize,version:E.version});return}E.isInterleavedBufferAttribute&&(E=E.data);const n=A.get(E);if(n===void 0)A.set(E,I(E,e));else if(n.version<E.version){if(n.size!==E.array.byteLength)throw new Error("THREE.WebGLAttributes: The size of the buffer attribute's array buffer does not match the original size. Resizing buffer attributes is not supported.");C(n.buffer,E,e),n.version=E.version}}return{get:B,remove:i,update:Q}}class mE extends FI{constructor(A=1,I=1,C=1,B=1){super(),this.type="PlaneGeometry",this.parameters={width:A,height:I,widthSegments:C,heightSegments:B};const i=A/2,Q=I/2,E=Math.floor(C),e=Math.floor(B),n=E+1,a=e+1,s=A/E,r=I/e,D=[],c=[],y=[],S=[];for(let l=0;l<a;l++){const w=l*r-Q;for(let k=0;k<n;k++){const U=k*s-i;c.push(U,-w,0),y.push(0,0,1),S.push(k/E),S.push(1-l/e)}}for(let l=0;l<e;l++)for(let w=0;w<E;w++){const k=w+n*l,U=w+n*(l+1),f=w+1+n*(l+1),F=w+1+n*l;D.push(k,U,F),D.push(U,f,F)}this.setIndex(D),this.setAttribute("position",new aI(c,3)),this.setAttribute("normal",new aI(y,3)),this.setAttribute("uv",new aI(S,2))}copy(A){return super.copy(A),this.parameters=Object.assign({},A.parameters),this}static fromJSON(A){return new mE(A.width,A.height,A.widthSegments,A.heightSegments)}}var dH=`#ifdef USE_ALPHAHASH
	if ( diffuseColor.a < getAlphaHashThreshold( vPosition ) ) discard;
#endif`,pH=`#ifdef USE_ALPHAHASH
	const float ALPHA_HASH_SCALE = 0.05;
	float hash2D( vec2 value ) {
		return fract( 1.0e4 * sin( 17.0 * value.x + 0.1 * value.y ) * ( 0.1 + abs( sin( 13.0 * value.y + value.x ) ) ) );
	}
	float hash3D( vec3 value ) {
		return hash2D( vec2( hash2D( value.xy ), value.z ) );
	}
	float getAlphaHashThreshold( vec3 position ) {
		float maxDeriv = max(
			length( dFdx( position.xyz ) ),
			length( dFdy( position.xyz ) )
		);
		float pixScale = 1.0 / ( ALPHA_HASH_SCALE * maxDeriv );
		vec2 pixScales = vec2(
			exp2( floor( log2( pixScale ) ) ),
			exp2( ceil( log2( pixScale ) ) )
		);
		vec2 alpha = vec2(
			hash3D( floor( pixScales.x * position.xyz ) ),
			hash3D( floor( pixScales.y * position.xyz ) )
		);
		float lerpFactor = fract( log2( pixScale ) );
		float x = ( 1.0 - lerpFactor ) * alpha.x + lerpFactor * alpha.y;
		float a = min( lerpFactor, 1.0 - lerpFactor );
		vec3 cases = vec3(
			x * x / ( 2.0 * a * ( 1.0 - a ) ),
			( x - 0.5 * a ) / ( 1.0 - a ),
			1.0 - ( ( 1.0 - x ) * ( 1.0 - x ) / ( 2.0 * a * ( 1.0 - a ) ) )
		);
		float threshold = ( x < ( 1.0 - a ) )
			? ( ( x < a ) ? cases.x : cases.y )
			: cases.z;
		return clamp( threshold , 1.0e-6, 1.0 );
	}
#endif`,NH=`#ifdef USE_ALPHAMAP
	diffuseColor.a *= texture2D( alphaMap, vAlphaMapUv ).g;
#endif`,FH=`#ifdef USE_ALPHAMAP
	uniform sampler2D alphaMap;
#endif`,KH=`#ifdef USE_ALPHATEST
	#ifdef ALPHA_TO_COVERAGE
	diffuseColor.a = smoothstep( alphaTest, alphaTest + fwidth( diffuseColor.a ), diffuseColor.a );
	if ( diffuseColor.a == 0.0 ) discard;
	#else
	if ( diffuseColor.a < alphaTest ) discard;
	#endif
#endif`,JH=`#ifdef USE_ALPHATEST
	uniform float alphaTest;
#endif`,RH=`#ifdef USE_AOMAP
	float ambientOcclusion = ( texture2D( aoMap, vAoMapUv ).r - 1.0 ) * aoMapIntensity + 1.0;
	reflectedLight.indirectDiffuse *= ambientOcclusion;
	#if defined( USE_CLEARCOAT ) 
		clearcoatSpecularIndirect *= ambientOcclusion;
	#endif
	#if defined( USE_SHEEN ) 
		sheenSpecularIndirect *= ambientOcclusion;
	#endif
	#if defined( USE_ENVMAP ) && defined( STANDARD )
		float dotNV = saturate( dot( geometryNormal, geometryViewDir ) );
		reflectedLight.indirectSpecular *= computeSpecularOcclusion( dotNV, ambientOcclusion, material.roughness );
	#endif
#endif`,fH=`#ifdef USE_AOMAP
	uniform sampler2D aoMap;
	uniform float aoMapIntensity;
#endif`,qH=`#ifdef USE_BATCHING
	attribute float batchId;
	uniform highp sampler2D batchingTexture;
	mat4 getBatchingMatrix( const in float i ) {
		int size = textureSize( batchingTexture, 0 ).x;
		int j = int( i ) * 4;
		int x = j % size;
		int y = j / size;
		vec4 v1 = texelFetch( batchingTexture, ivec2( x, y ), 0 );
		vec4 v2 = texelFetch( batchingTexture, ivec2( x + 1, y ), 0 );
		vec4 v3 = texelFetch( batchingTexture, ivec2( x + 2, y ), 0 );
		vec4 v4 = texelFetch( batchingTexture, ivec2( x + 3, y ), 0 );
		return mat4( v1, v2, v3, v4 );
	}
#endif
#ifdef USE_BATCHING_COLOR
	uniform sampler2D batchingColorTexture;
	vec3 getBatchingColor( const in float i ) {
		int size = textureSize( batchingColorTexture, 0 ).x;
		int j = int( i );
		int x = j % size;
		int y = j / size;
		return texelFetch( batchingColorTexture, ivec2( x, y ), 0 ).rgb;
	}
#endif`,YH=`#ifdef USE_BATCHING
	mat4 batchingMatrix = getBatchingMatrix( batchId );
#endif`,mH=`vec3 transformed = vec3( position );
#ifdef USE_ALPHAHASH
	vPosition = vec3( position );
#endif`,LH=`vec3 objectNormal = vec3( normal );
#ifdef USE_TANGENT
	vec3 objectTangent = vec3( tangent.xyz );
#endif`,HH=`float G_BlinnPhong_Implicit( ) {
	return 0.25;
}
float D_BlinnPhong( const in float shininess, const in float dotNH ) {
	return RECIPROCAL_PI * ( shininess * 0.5 + 1.0 ) * pow( dotNH, shininess );
}
vec3 BRDF_BlinnPhong( const in vec3 lightDir, const in vec3 viewDir, const in vec3 normal, const in vec3 specularColor, const in float shininess ) {
	vec3 halfDir = normalize( lightDir + viewDir );
	float dotNH = saturate( dot( normal, halfDir ) );
	float dotVH = saturate( dot( viewDir, halfDir ) );
	vec3 F = F_Schlick( specularColor, 1.0, dotVH );
	float G = G_BlinnPhong_Implicit( );
	float D = D_BlinnPhong( shininess, dotNH );
	return F * ( G * D );
} // validated`,TH=`#ifdef USE_IRIDESCENCE
	const mat3 XYZ_TO_REC709 = mat3(
		 3.2404542, -0.9692660,  0.0556434,
		-1.5371385,  1.8760108, -0.2040259,
		-0.4985314,  0.0415560,  1.0572252
	);
	vec3 Fresnel0ToIor( vec3 fresnel0 ) {
		vec3 sqrtF0 = sqrt( fresnel0 );
		return ( vec3( 1.0 ) + sqrtF0 ) / ( vec3( 1.0 ) - sqrtF0 );
	}
	vec3 IorToFresnel0( vec3 transmittedIor, float incidentIor ) {
		return pow2( ( transmittedIor - vec3( incidentIor ) ) / ( transmittedIor + vec3( incidentIor ) ) );
	}
	float IorToFresnel0( float transmittedIor, float incidentIor ) {
		return pow2( ( transmittedIor - incidentIor ) / ( transmittedIor + incidentIor ));
	}
	vec3 evalSensitivity( float OPD, vec3 shift ) {
		float phase = 2.0 * PI * OPD * 1.0e-9;
		vec3 val = vec3( 5.4856e-13, 4.4201e-13, 5.2481e-13 );
		vec3 pos = vec3( 1.6810e+06, 1.7953e+06, 2.2084e+06 );
		vec3 var = vec3( 4.3278e+09, 9.3046e+09, 6.6121e+09 );
		vec3 xyz = val * sqrt( 2.0 * PI * var ) * cos( pos * phase + shift ) * exp( - pow2( phase ) * var );
		xyz.x += 9.7470e-14 * sqrt( 2.0 * PI * 4.5282e+09 ) * cos( 2.2399e+06 * phase + shift[ 0 ] ) * exp( - 4.5282e+09 * pow2( phase ) );
		xyz /= 1.0685e-7;
		vec3 rgb = XYZ_TO_REC709 * xyz;
		return rgb;
	}
	vec3 evalIridescence( float outsideIOR, float eta2, float cosTheta1, float thinFilmThickness, vec3 baseF0 ) {
		vec3 I;
		float iridescenceIOR = mix( outsideIOR, eta2, smoothstep( 0.0, 0.03, thinFilmThickness ) );
		float sinTheta2Sq = pow2( outsideIOR / iridescenceIOR ) * ( 1.0 - pow2( cosTheta1 ) );
		float cosTheta2Sq = 1.0 - sinTheta2Sq;
		if ( cosTheta2Sq < 0.0 ) {
			return vec3( 1.0 );
		}
		float cosTheta2 = sqrt( cosTheta2Sq );
		float R0 = IorToFresnel0( iridescenceIOR, outsideIOR );
		float R12 = F_Schlick( R0, 1.0, cosTheta1 );
		float T121 = 1.0 - R12;
		float phi12 = 0.0;
		if ( iridescenceIOR < outsideIOR ) phi12 = PI;
		float phi21 = PI - phi12;
		vec3 baseIOR = Fresnel0ToIor( clamp( baseF0, 0.0, 0.9999 ) );		vec3 R1 = IorToFresnel0( baseIOR, iridescenceIOR );
		vec3 R23 = F_Schlick( R1, 1.0, cosTheta2 );
		vec3 phi23 = vec3( 0.0 );
		if ( baseIOR[ 0 ] < iridescenceIOR ) phi23[ 0 ] = PI;
		if ( baseIOR[ 1 ] < iridescenceIOR ) phi23[ 1 ] = PI;
		if ( baseIOR[ 2 ] < iridescenceIOR ) phi23[ 2 ] = PI;
		float OPD = 2.0 * iridescenceIOR * thinFilmThickness * cosTheta2;
		vec3 phi = vec3( phi21 ) + phi23;
		vec3 R123 = clamp( R12 * R23, 1e-5, 0.9999 );
		vec3 r123 = sqrt( R123 );
		vec3 Rs = pow2( T121 ) * R23 / ( vec3( 1.0 ) - R123 );
		vec3 C0 = R12 + Rs;
		I = C0;
		vec3 Cm = Rs - T121;
		for ( int m = 1; m <= 2; ++ m ) {
			Cm *= r123;
			vec3 Sm = 2.0 * evalSensitivity( float( m ) * OPD, float( m ) * phi );
			I += Cm * Sm;
		}
		return max( I, vec3( 0.0 ) );
	}
#endif`,xH=`#ifdef USE_BUMPMAP
	uniform sampler2D bumpMap;
	uniform float bumpScale;
	vec2 dHdxy_fwd() {
		vec2 dSTdx = dFdx( vBumpMapUv );
		vec2 dSTdy = dFdy( vBumpMapUv );
		float Hll = bumpScale * texture2D( bumpMap, vBumpMapUv ).x;
		float dBx = bumpScale * texture2D( bumpMap, vBumpMapUv + dSTdx ).x - Hll;
		float dBy = bumpScale * texture2D( bumpMap, vBumpMapUv + dSTdy ).x - Hll;
		return vec2( dBx, dBy );
	}
	vec3 perturbNormalArb( vec3 surf_pos, vec3 surf_norm, vec2 dHdxy, float faceDirection ) {
		vec3 vSigmaX = normalize( dFdx( surf_pos.xyz ) );
		vec3 vSigmaY = normalize( dFdy( surf_pos.xyz ) );
		vec3 vN = surf_norm;
		vec3 R1 = cross( vSigmaY, vN );
		vec3 R2 = cross( vN, vSigmaX );
		float fDet = dot( vSigmaX, R1 ) * faceDirection;
		vec3 vGrad = sign( fDet ) * ( dHdxy.x * R1 + dHdxy.y * R2 );
		return normalize( abs( fDet ) * surf_norm - vGrad );
	}
#endif`,vH=`#if NUM_CLIPPING_PLANES > 0
	vec4 plane;
	#ifdef ALPHA_TO_COVERAGE
		float distanceToPlane, distanceGradient;
		float clipOpacity = 1.0;
		#pragma unroll_loop_start
		for ( int i = 0; i < UNION_CLIPPING_PLANES; i ++ ) {
			plane = clippingPlanes[ i ];
			distanceToPlane = - dot( vClipPosition, plane.xyz ) + plane.w;
			distanceGradient = fwidth( distanceToPlane ) / 2.0;
			clipOpacity *= smoothstep( - distanceGradient, distanceGradient, distanceToPlane );
			if ( clipOpacity == 0.0 ) discard;
		}
		#pragma unroll_loop_end
		#if UNION_CLIPPING_PLANES < NUM_CLIPPING_PLANES
			float unionClipOpacity = 1.0;
			#pragma unroll_loop_start
			for ( int i = UNION_CLIPPING_PLANES; i < NUM_CLIPPING_PLANES; i ++ ) {
				plane = clippingPlanes[ i ];
				distanceToPlane = - dot( vClipPosition, plane.xyz ) + plane.w;
				distanceGradient = fwidth( distanceToPlane ) / 2.0;
				unionClipOpacity *= 1.0 - smoothstep( - distanceGradient, distanceGradient, distanceToPlane );
			}
			#pragma unroll_loop_end
			clipOpacity *= 1.0 - unionClipOpacity;
		#endif
		diffuseColor.a *= clipOpacity;
		if ( diffuseColor.a == 0.0 ) discard;
	#else
		#pragma unroll_loop_start
		for ( int i = 0; i < UNION_CLIPPING_PLANES; i ++ ) {
			plane = clippingPlanes[ i ];
			if ( dot( vClipPosition, plane.xyz ) > plane.w ) discard;
		}
		#pragma unroll_loop_end
		#if UNION_CLIPPING_PLANES < NUM_CLIPPING_PLANES
			bool clipped = true;
			#pragma unroll_loop_start
			for ( int i = UNION_CLIPPING_PLANES; i < NUM_CLIPPING_PLANES; i ++ ) {
				plane = clippingPlanes[ i ];
				clipped = ( dot( vClipPosition, plane.xyz ) > plane.w ) && clipped;
			}
			#pragma unroll_loop_end
			if ( clipped ) discard;
		#endif
	#endif
#endif`,OH=`#if NUM_CLIPPING_PLANES > 0
	varying vec3 vClipPosition;
	uniform vec4 clippingPlanes[ NUM_CLIPPING_PLANES ];
#endif`,bH=`#if NUM_CLIPPING_PLANES > 0
	varying vec3 vClipPosition;
#endif`,_H=`#if NUM_CLIPPING_PLANES > 0
	vClipPosition = - mvPosition.xyz;
#endif`,ZH=`#if defined( USE_COLOR_ALPHA )
	diffuseColor *= vColor;
#elif defined( USE_COLOR )
	diffuseColor.rgb *= vColor;
#endif`,PH=`#if defined( USE_COLOR_ALPHA )
	varying vec4 vColor;
#elif defined( USE_COLOR )
	varying vec3 vColor;
#endif`,WH=`#if defined( USE_COLOR_ALPHA )
	varying vec4 vColor;
#elif defined( USE_COLOR ) || defined( USE_INSTANCING_COLOR ) || defined( USE_BATCHING_COLOR )
	varying vec3 vColor;
#endif`,VH=`#if defined( USE_COLOR_ALPHA )
	vColor = vec4( 1.0 );
#elif defined( USE_COLOR ) || defined( USE_INSTANCING_COLOR ) || defined( USE_BATCHING_COLOR )
	vColor = vec3( 1.0 );
#endif
#ifdef USE_COLOR
	vColor *= color;
#endif
#ifdef USE_INSTANCING_COLOR
	vColor.xyz *= instanceColor.xyz;
#endif
#ifdef USE_BATCHING_COLOR
	vec3 batchingColor = getBatchingColor( batchId );
	vColor.xyz *= batchingColor.xyz;
#endif`,jH=`#define PI 3.141592653589793
#define PI2 6.283185307179586
#define PI_HALF 1.5707963267948966
#define RECIPROCAL_PI 0.3183098861837907
#define RECIPROCAL_PI2 0.15915494309189535
#define EPSILON 1e-6
#ifndef saturate
#define saturate( a ) clamp( a, 0.0, 1.0 )
#endif
#define whiteComplement( a ) ( 1.0 - saturate( a ) )
float pow2( const in float x ) { return x*x; }
vec3 pow2( const in vec3 x ) { return x*x; }
float pow3( const in float x ) { return x*x*x; }
float pow4( const in float x ) { float x2 = x*x; return x2*x2; }
float max3( const in vec3 v ) { return max( max( v.x, v.y ), v.z ); }
float average( const in vec3 v ) { return dot( v, vec3( 0.3333333 ) ); }
highp float rand( const in vec2 uv ) {
	const highp float a = 12.9898, b = 78.233, c = 43758.5453;
	highp float dt = dot( uv.xy, vec2( a,b ) ), sn = mod( dt, PI );
	return fract( sin( sn ) * c );
}
#ifdef HIGH_PRECISION
	float precisionSafeLength( vec3 v ) { return length( v ); }
#else
	float precisionSafeLength( vec3 v ) {
		float maxComponent = max3( abs( v ) );
		return length( v / maxComponent ) * maxComponent;
	}
#endif
struct IncidentLight {
	vec3 color;
	vec3 direction;
	bool visible;
};
struct ReflectedLight {
	vec3 directDiffuse;
	vec3 directSpecular;
	vec3 indirectDiffuse;
	vec3 indirectSpecular;
};
#ifdef USE_ALPHAHASH
	varying vec3 vPosition;
#endif
vec3 transformDirection( in vec3 dir, in mat4 matrix ) {
	return normalize( ( matrix * vec4( dir, 0.0 ) ).xyz );
}
vec3 inverseTransformDirection( in vec3 dir, in mat4 matrix ) {
	return normalize( ( vec4( dir, 0.0 ) * matrix ).xyz );
}
mat3 transposeMat3( const in mat3 m ) {
	mat3 tmp;
	tmp[ 0 ] = vec3( m[ 0 ].x, m[ 1 ].x, m[ 2 ].x );
	tmp[ 1 ] = vec3( m[ 0 ].y, m[ 1 ].y, m[ 2 ].y );
	tmp[ 2 ] = vec3( m[ 0 ].z, m[ 1 ].z, m[ 2 ].z );
	return tmp;
}
float luminance( const in vec3 rgb ) {
	const vec3 weights = vec3( 0.2126729, 0.7151522, 0.0721750 );
	return dot( weights, rgb );
}
bool isPerspectiveMatrix( mat4 m ) {
	return m[ 2 ][ 3 ] == - 1.0;
}
vec2 equirectUv( in vec3 dir ) {
	float u = atan( dir.z, dir.x ) * RECIPROCAL_PI2 + 0.5;
	float v = asin( clamp( dir.y, - 1.0, 1.0 ) ) * RECIPROCAL_PI + 0.5;
	return vec2( u, v );
}
vec3 BRDF_Lambert( const in vec3 diffuseColor ) {
	return RECIPROCAL_PI * diffuseColor;
}
vec3 F_Schlick( const in vec3 f0, const in float f90, const in float dotVH ) {
	float fresnel = exp2( ( - 5.55473 * dotVH - 6.98316 ) * dotVH );
	return f0 * ( 1.0 - fresnel ) + ( f90 * fresnel );
}
float F_Schlick( const in float f0, const in float f90, const in float dotVH ) {
	float fresnel = exp2( ( - 5.55473 * dotVH - 6.98316 ) * dotVH );
	return f0 * ( 1.0 - fresnel ) + ( f90 * fresnel );
} // validated`,zH=`#ifdef ENVMAP_TYPE_CUBE_UV
	#define cubeUV_minMipLevel 4.0
	#define cubeUV_minTileSize 16.0
	float getFace( vec3 direction ) {
		vec3 absDirection = abs( direction );
		float face = - 1.0;
		if ( absDirection.x > absDirection.z ) {
			if ( absDirection.x > absDirection.y )
				face = direction.x > 0.0 ? 0.0 : 3.0;
			else
				face = direction.y > 0.0 ? 1.0 : 4.0;
		} else {
			if ( absDirection.z > absDirection.y )
				face = direction.z > 0.0 ? 2.0 : 5.0;
			else
				face = direction.y > 0.0 ? 1.0 : 4.0;
		}
		return face;
	}
	vec2 getUV( vec3 direction, float face ) {
		vec2 uv;
		if ( face == 0.0 ) {
			uv = vec2( direction.z, direction.y ) / abs( direction.x );
		} else if ( face == 1.0 ) {
			uv = vec2( - direction.x, - direction.z ) / abs( direction.y );
		} else if ( face == 2.0 ) {
			uv = vec2( - direction.x, direction.y ) / abs( direction.z );
		} else if ( face == 3.0 ) {
			uv = vec2( - direction.z, direction.y ) / abs( direction.x );
		} else if ( face == 4.0 ) {
			uv = vec2( - direction.x, direction.z ) / abs( direction.y );
		} else {
			uv = vec2( direction.x, direction.y ) / abs( direction.z );
		}
		return 0.5 * ( uv + 1.0 );
	}
	vec3 bilinearCubeUV( sampler2D envMap, vec3 direction, float mipInt ) {
		float face = getFace( direction );
		float filterInt = max( cubeUV_minMipLevel - mipInt, 0.0 );
		mipInt = max( mipInt, cubeUV_minMipLevel );
		float faceSize = exp2( mipInt );
		highp vec2 uv = getUV( direction, face ) * ( faceSize - 2.0 ) + 1.0;
		if ( face > 2.0 ) {
			uv.y += faceSize;
			face -= 3.0;
		}
		uv.x += face * faceSize;
		uv.x += filterInt * 3.0 * cubeUV_minTileSize;
		uv.y += 4.0 * ( exp2( CUBEUV_MAX_MIP ) - faceSize );
		uv.x *= CUBEUV_TEXEL_WIDTH;
		uv.y *= CUBEUV_TEXEL_HEIGHT;
		#ifdef texture2DGradEXT
			return texture2DGradEXT( envMap, uv, vec2( 0.0 ), vec2( 0.0 ) ).rgb;
		#else
			return texture2D( envMap, uv ).rgb;
		#endif
	}
	#define cubeUV_r0 1.0
	#define cubeUV_m0 - 2.0
	#define cubeUV_r1 0.8
	#define cubeUV_m1 - 1.0
	#define cubeUV_r4 0.4
	#define cubeUV_m4 2.0
	#define cubeUV_r5 0.305
	#define cubeUV_m5 3.0
	#define cubeUV_r6 0.21
	#define cubeUV_m6 4.0
	float roughnessToMip( float roughness ) {
		float mip = 0.0;
		if ( roughness >= cubeUV_r1 ) {
			mip = ( cubeUV_r0 - roughness ) * ( cubeUV_m1 - cubeUV_m0 ) / ( cubeUV_r0 - cubeUV_r1 ) + cubeUV_m0;
		} else if ( roughness >= cubeUV_r4 ) {
			mip = ( cubeUV_r1 - roughness ) * ( cubeUV_m4 - cubeUV_m1 ) / ( cubeUV_r1 - cubeUV_r4 ) + cubeUV_m1;
		} else if ( roughness >= cubeUV_r5 ) {
			mip = ( cubeUV_r4 - roughness ) * ( cubeUV_m5 - cubeUV_m4 ) / ( cubeUV_r4 - cubeUV_r5 ) + cubeUV_m4;
		} else if ( roughness >= cubeUV_r6 ) {
			mip = ( cubeUV_r5 - roughness ) * ( cubeUV_m6 - cubeUV_m5 ) / ( cubeUV_r5 - cubeUV_r6 ) + cubeUV_m5;
		} else {
			mip = - 2.0 * log2( 1.16 * roughness );		}
		return mip;
	}
	vec4 textureCubeUV( sampler2D envMap, vec3 sampleDir, float roughness ) {
		float mip = clamp( roughnessToMip( roughness ), cubeUV_m0, CUBEUV_MAX_MIP );
		float mipF = fract( mip );
		float mipInt = floor( mip );
		vec3 color0 = bilinearCubeUV( envMap, sampleDir, mipInt );
		if ( mipF == 0.0 ) {
			return vec4( color0, 1.0 );
		} else {
			vec3 color1 = bilinearCubeUV( envMap, sampleDir, mipInt + 1.0 );
			return vec4( mix( color0, color1, mipF ), 1.0 );
		}
	}
#endif`,XH=`vec3 transformedNormal = objectNormal;
#ifdef USE_TANGENT
	vec3 transformedTangent = objectTangent;
#endif
#ifdef USE_BATCHING
	mat3 bm = mat3( batchingMatrix );
	transformedNormal /= vec3( dot( bm[ 0 ], bm[ 0 ] ), dot( bm[ 1 ], bm[ 1 ] ), dot( bm[ 2 ], bm[ 2 ] ) );
	transformedNormal = bm * transformedNormal;
	#ifdef USE_TANGENT
		transformedTangent = bm * transformedTangent;
	#endif
#endif
#ifdef USE_INSTANCING
	mat3 im = mat3( instanceMatrix );
	transformedNormal /= vec3( dot( im[ 0 ], im[ 0 ] ), dot( im[ 1 ], im[ 1 ] ), dot( im[ 2 ], im[ 2 ] ) );
	transformedNormal = im * transformedNormal;
	#ifdef USE_TANGENT
		transformedTangent = im * transformedTangent;
	#endif
#endif
transformedNormal = normalMatrix * transformedNormal;
#ifdef FLIP_SIDED
	transformedNormal = - transformedNormal;
#endif
#ifdef USE_TANGENT
	transformedTangent = ( modelViewMatrix * vec4( transformedTangent, 0.0 ) ).xyz;
	#ifdef FLIP_SIDED
		transformedTangent = - transformedTangent;
	#endif
#endif`,$H=`#ifdef USE_DISPLACEMENTMAP
	uniform sampler2D displacementMap;
	uniform float displacementScale;
	uniform float displacementBias;
#endif`,AT=`#ifdef USE_DISPLACEMENTMAP
	transformed += normalize( objectNormal ) * ( texture2D( displacementMap, vDisplacementMapUv ).x * displacementScale + displacementBias );
#endif`,IT=`#ifdef USE_EMISSIVEMAP
	vec4 emissiveColor = texture2D( emissiveMap, vEmissiveMapUv );
	totalEmissiveRadiance *= emissiveColor.rgb;
#endif`,gT=`#ifdef USE_EMISSIVEMAP
	uniform sampler2D emissiveMap;
#endif`,CT="gl_FragColor = linearToOutputTexel( gl_FragColor );",BT=`
const mat3 LINEAR_SRGB_TO_LINEAR_DISPLAY_P3 = mat3(
	vec3( 0.8224621, 0.177538, 0.0 ),
	vec3( 0.0331941, 0.9668058, 0.0 ),
	vec3( 0.0170827, 0.0723974, 0.9105199 )
);
const mat3 LINEAR_DISPLAY_P3_TO_LINEAR_SRGB = mat3(
	vec3( 1.2249401, - 0.2249404, 0.0 ),
	vec3( - 0.0420569, 1.0420571, 0.0 ),
	vec3( - 0.0196376, - 0.0786361, 1.0982735 )
);
vec4 LinearSRGBToLinearDisplayP3( in vec4 value ) {
	return vec4( value.rgb * LINEAR_SRGB_TO_LINEAR_DISPLAY_P3, value.a );
}
vec4 LinearDisplayP3ToLinearSRGB( in vec4 value ) {
	return vec4( value.rgb * LINEAR_DISPLAY_P3_TO_LINEAR_SRGB, value.a );
}
vec4 LinearTransferOETF( in vec4 value ) {
	return value;
}
vec4 sRGBTransferOETF( in vec4 value ) {
	return vec4( mix( pow( value.rgb, vec3( 0.41666 ) ) * 1.055 - vec3( 0.055 ), value.rgb * 12.92, vec3( lessThanEqual( value.rgb, vec3( 0.0031308 ) ) ) ), value.a );
}
vec4 LinearToLinear( in vec4 value ) {
	return value;
}
vec4 LinearTosRGB( in vec4 value ) {
	return sRGBTransferOETF( value );
}`,iT=`#ifdef USE_ENVMAP
	#ifdef ENV_WORLDPOS
		vec3 cameraToFrag;
		if ( isOrthographic ) {
			cameraToFrag = normalize( vec3( - viewMatrix[ 0 ][ 2 ], - viewMatrix[ 1 ][ 2 ], - viewMatrix[ 2 ][ 2 ] ) );
		} else {
			cameraToFrag = normalize( vWorldPosition - cameraPosition );
		}
		vec3 worldNormal = inverseTransformDirection( normal, viewMatrix );
		#ifdef ENVMAP_MODE_REFLECTION
			vec3 reflectVec = reflect( cameraToFrag, worldNormal );
		#else
			vec3 reflectVec = refract( cameraToFrag, worldNormal, refractionRatio );
		#endif
	#else
		vec3 reflectVec = vReflect;
	#endif
	#ifdef ENVMAP_TYPE_CUBE
		vec4 envColor = textureCube( envMap, envMapRotation * vec3( flipEnvMap * reflectVec.x, reflectVec.yz ) );
	#else
		vec4 envColor = vec4( 0.0 );
	#endif
	#ifdef ENVMAP_BLENDING_MULTIPLY
		outgoingLight = mix( outgoingLight, outgoingLight * envColor.xyz, specularStrength * reflectivity );
	#elif defined( ENVMAP_BLENDING_MIX )
		outgoingLight = mix( outgoingLight, envColor.xyz, specularStrength * reflectivity );
	#elif defined( ENVMAP_BLENDING_ADD )
		outgoingLight += envColor.xyz * specularStrength * reflectivity;
	#endif
#endif`,QT=`#ifdef USE_ENVMAP
	uniform float envMapIntensity;
	uniform float flipEnvMap;
	uniform mat3 envMapRotation;
	#ifdef ENVMAP_TYPE_CUBE
		uniform samplerCube envMap;
	#else
		uniform sampler2D envMap;
	#endif
	
#endif`,ET=`#ifdef USE_ENVMAP
	uniform float reflectivity;
	#if defined( USE_BUMPMAP ) || defined( USE_NORMALMAP ) || defined( PHONG ) || defined( LAMBERT )
		#define ENV_WORLDPOS
	#endif
	#ifdef ENV_WORLDPOS
		varying vec3 vWorldPosition;
		uniform float refractionRatio;
	#else
		varying vec3 vReflect;
	#endif
#endif`,eT=`#ifdef USE_ENVMAP
	#if defined( USE_BUMPMAP ) || defined( USE_NORMALMAP ) || defined( PHONG ) || defined( LAMBERT )
		#define ENV_WORLDPOS
	#endif
	#ifdef ENV_WORLDPOS
		
		varying vec3 vWorldPosition;
	#else
		varying vec3 vReflect;
		uniform float refractionRatio;
	#endif
#endif`,tT=`#ifdef USE_ENVMAP
	#ifdef ENV_WORLDPOS
		vWorldPosition = worldPosition.xyz;
	#else
		vec3 cameraToVertex;
		if ( isOrthographic ) {
			cameraToVertex = normalize( vec3( - viewMatrix[ 0 ][ 2 ], - viewMatrix[ 1 ][ 2 ], - viewMatrix[ 2 ][ 2 ] ) );
		} else {
			cameraToVertex = normalize( worldPosition.xyz - cameraPosition );
		}
		vec3 worldNormal = inverseTransformDirection( transformedNormal, viewMatrix );
		#ifdef ENVMAP_MODE_REFLECTION
			vReflect = reflect( cameraToVertex, worldNormal );
		#else
			vReflect = refract( cameraToVertex, worldNormal, refractionRatio );
		#endif
	#endif
#endif`,oT=`#ifdef USE_FOG
	vFogDepth = - mvPosition.z;
#endif`,nT=`#ifdef USE_FOG
	varying float vFogDepth;
#endif`,aT=`#ifdef USE_FOG
	#ifdef FOG_EXP2
		float fogFactor = 1.0 - exp( - fogDensity * fogDensity * vFogDepth * vFogDepth );
	#else
		float fogFactor = smoothstep( fogNear, fogFar, vFogDepth );
	#endif
	gl_FragColor.rgb = mix( gl_FragColor.rgb, fogColor, fogFactor );
#endif`,sT=`#ifdef USE_FOG
	uniform vec3 fogColor;
	varying float vFogDepth;
	#ifdef FOG_EXP2
		uniform float fogDensity;
	#else
		uniform float fogNear;
		uniform float fogFar;
	#endif
#endif`,rT=`#ifdef USE_GRADIENTMAP
	uniform sampler2D gradientMap;
#endif
vec3 getGradientIrradiance( vec3 normal, vec3 lightDirection ) {
	float dotNL = dot( normal, lightDirection );
	vec2 coord = vec2( dotNL * 0.5 + 0.5, 0.0 );
	#ifdef USE_GRADIENTMAP
		return vec3( texture2D( gradientMap, coord ).r );
	#else
		vec2 fw = fwidth( coord ) * 0.5;
		return mix( vec3( 0.7 ), vec3( 1.0 ), smoothstep( 0.7 - fw.x, 0.7 + fw.x, coord.x ) );
	#endif
}`,DT=`#ifdef USE_LIGHTMAP
	uniform sampler2D lightMap;
	uniform float lightMapIntensity;
#endif`,lT=`LambertMaterial material;
material.diffuseColor = diffuseColor.rgb;
material.specularStrength = specularStrength;`,hT=`varying vec3 vViewPosition;
struct LambertMaterial {
	vec3 diffuseColor;
	float specularStrength;
};
void RE_Direct_Lambert( const in IncidentLight directLight, const in vec3 geometryPosition, const in vec3 geometryNormal, const in vec3 geometryViewDir, const in vec3 geometryClearcoatNormal, const in LambertMaterial material, inout ReflectedLight reflectedLight ) {
	float dotNL = saturate( dot( geometryNormal, directLight.direction ) );
	vec3 irradiance = dotNL * directLight.color;
	reflectedLight.directDiffuse += irradiance * BRDF_Lambert( material.diffuseColor );
}
void RE_IndirectDiffuse_Lambert( const in vec3 irradiance, const in vec3 geometryPosition, const in vec3 geometryNormal, const in vec3 geometryViewDir, const in vec3 geometryClearcoatNormal, const in LambertMaterial material, inout ReflectedLight reflectedLight ) {
	reflectedLight.indirectDiffuse += irradiance * BRDF_Lambert( material.diffuseColor );
}
#define RE_Direct				RE_Direct_Lambert
#define RE_IndirectDiffuse		RE_IndirectDiffuse_Lambert`,cT=`uniform bool receiveShadow;
uniform vec3 ambientLightColor;
#if defined( USE_LIGHT_PROBES )
	uniform vec3 lightProbe[ 9 ];
#endif
vec3 shGetIrradianceAt( in vec3 normal, in vec3 shCoefficients[ 9 ] ) {
	float x = normal.x, y = normal.y, z = normal.z;
	vec3 result = shCoefficients[ 0 ] * 0.886227;
	result += shCoefficients[ 1 ] * 2.0 * 0.511664 * y;
	result += shCoefficients[ 2 ] * 2.0 * 0.511664 * z;
	result += shCoefficients[ 3 ] * 2.0 * 0.511664 * x;
	result += shCoefficients[ 4 ] * 2.0 * 0.429043 * x * y;
	result += shCoefficients[ 5 ] * 2.0 * 0.429043 * y * z;
	result += shCoefficients[ 6 ] * ( 0.743125 * z * z - 0.247708 );
	result += shCoefficients[ 7 ] * 2.0 * 0.429043 * x * z;
	result += shCoefficients[ 8 ] * 0.429043 * ( x * x - y * y );
	return result;
}
vec3 getLightProbeIrradiance( const in vec3 lightProbe[ 9 ], const in vec3 normal ) {
	vec3 worldNormal = inverseTransformDirection( normal, viewMatrix );
	vec3 irradiance = shGetIrradianceAt( worldNormal, lightProbe );
	return irradiance;
}
vec3 getAmbientLightIrradiance( const in vec3 ambientLightColor ) {
	vec3 irradiance = ambientLightColor;
	return irradiance;
}
float getDistanceAttenuation( const in float lightDistance, const in float cutoffDistance, const in float decayExponent ) {
	float distanceFalloff = 1.0 / max( pow( lightDistance, decayExponent ), 0.01 );
	if ( cutoffDistance > 0.0 ) {
		distanceFalloff *= pow2( saturate( 1.0 - pow4( lightDistance / cutoffDistance ) ) );
	}
	return distanceFalloff;
}
float getSpotAttenuation( const in float coneCosine, const in float penumbraCosine, const in float angleCosine ) {
	return smoothstep( coneCosine, penumbraCosine, angleCosine );
}
#if NUM_DIR_LIGHTS > 0
	struct DirectionalLight {
		vec3 direction;
		vec3 color;
	};
	uniform DirectionalLight directionalLights[ NUM_DIR_LIGHTS ];
	void getDirectionalLightInfo( const in DirectionalLight directionalLight, out IncidentLight light ) {
		light.color = directionalLight.color;
		light.direction = directionalLight.direction;
		light.visible = true;
	}
#endif
#if NUM_POINT_LIGHTS > 0
	struct PointLight {
		vec3 position;
		vec3 color;
		float distance;
		float decay;
	};
	uniform PointLight pointLights[ NUM_POINT_LIGHTS ];
	void getPointLightInfo( const in PointLight pointLight, const in vec3 geometryPosition, out IncidentLight light ) {
		vec3 lVector = pointLight.position - geometryPosition;
		light.direction = normalize( lVector );
		float lightDistance = length( lVector );
		light.color = pointLight.color;
		light.color *= getDistanceAttenuation( lightDistance, pointLight.distance, pointLight.decay );
		light.visible = ( light.color != vec3( 0.0 ) );
	}
#endif
#if NUM_SPOT_LIGHTS > 0
	struct SpotLight {
		vec3 position;
		vec3 direction;
		vec3 color;
		float distance;
		float decay;
		float coneCos;
		float penumbraCos;
	};
	uniform SpotLight spotLights[ NUM_SPOT_LIGHTS ];
	void getSpotLightInfo( const in SpotLight spotLight, const in vec3 geometryPosition, out IncidentLight light ) {
		vec3 lVector = spotLight.position - geometryPosition;
		light.direction = normalize( lVector );
		float angleCos = dot( light.direction, spotLight.direction );
		float spotAttenuation = getSpotAttenuation( spotLight.coneCos, spotLight.penumbraCos, angleCos );
		if ( spotAttenuation > 0.0 ) {
			float lightDistance = length( lVector );
			light.color = spotLight.color * spotAttenuation;
			light.color *= getDistanceAttenuation( lightDistance, spotLight.distance, spotLight.decay );
			light.visible = ( light.color != vec3( 0.0 ) );
		} else {
			light.color = vec3( 0.0 );
			light.visible = false;
		}
	}
#endif
#if NUM_RECT_AREA_LIGHTS > 0
	struct RectAreaLight {
		vec3 color;
		vec3 position;
		vec3 halfWidth;
		vec3 halfHeight;
	};
	uniform sampler2D ltc_1;	uniform sampler2D ltc_2;
	uniform RectAreaLight rectAreaLights[ NUM_RECT_AREA_LIGHTS ];
#endif
#if NUM_HEMI_LIGHTS > 0
	struct HemisphereLight {
		vec3 direction;
		vec3 skyColor;
		vec3 groundColor;
	};
	uniform HemisphereLight hemisphereLights[ NUM_HEMI_LIGHTS ];
	vec3 getHemisphereLightIrradiance( const in HemisphereLight hemiLight, const in vec3 normal ) {
		float dotNL = dot( normal, hemiLight.direction );
		float hemiDiffuseWeight = 0.5 * dotNL + 0.5;
		vec3 irradiance = mix( hemiLight.groundColor, hemiLight.skyColor, hemiDiffuseWeight );
		return irradiance;
	}
#endif`,ST=`#ifdef USE_ENVMAP
	vec3 getIBLIrradiance( const in vec3 normal ) {
		#ifdef ENVMAP_TYPE_CUBE_UV
			vec3 worldNormal = inverseTransformDirection( normal, viewMatrix );
			vec4 envMapColor = textureCubeUV( envMap, envMapRotation * worldNormal, 1.0 );
			return PI * envMapColor.rgb * envMapIntensity;
		#else
			return vec3( 0.0 );
		#endif
	}
	vec3 getIBLRadiance( const in vec3 viewDir, const in vec3 normal, const in float roughness ) {
		#ifdef ENVMAP_TYPE_CUBE_UV
			vec3 reflectVec = reflect( - viewDir, normal );
			reflectVec = normalize( mix( reflectVec, normal, roughness * roughness) );
			reflectVec = inverseTransformDirection( reflectVec, viewMatrix );
			vec4 envMapColor = textureCubeUV( envMap, envMapRotation * reflectVec, roughness );
			return envMapColor.rgb * envMapIntensity;
		#else
			return vec3( 0.0 );
		#endif
	}
	#ifdef USE_ANISOTROPY
		vec3 getIBLAnisotropyRadiance( const in vec3 viewDir, const in vec3 normal, const in float roughness, const in vec3 bitangent, const in float anisotropy ) {
			#ifdef ENVMAP_TYPE_CUBE_UV
				vec3 bentNormal = cross( bitangent, viewDir );
				bentNormal = normalize( cross( bentNormal, bitangent ) );
				bentNormal = normalize( mix( bentNormal, normal, pow2( pow2( 1.0 - anisotropy * ( 1.0 - roughness ) ) ) ) );
				return getIBLRadiance( viewDir, bentNormal, roughness );
			#else
				return vec3( 0.0 );
			#endif
		}
	#endif
#endif`,wT=`ToonMaterial material;
material.diffuseColor = diffuseColor.rgb;`,GT=`varying vec3 vViewPosition;
struct ToonMaterial {
	vec3 diffuseColor;
};
void RE_Direct_Toon( const in IncidentLight directLight, const in vec3 geometryPosition, const in vec3 geometryNormal, const in vec3 geometryViewDir, const in vec3 geometryClearcoatNormal, const in ToonMaterial material, inout ReflectedLight reflectedLight ) {
	vec3 irradiance = getGradientIrradiance( geometryNormal, directLight.direction ) * directLight.color;
	reflectedLight.directDiffuse += irradiance * BRDF_Lambert( material.diffuseColor );
}
void RE_IndirectDiffuse_Toon( const in vec3 irradiance, const in vec3 geometryPosition, const in vec3 geometryNormal, const in vec3 geometryViewDir, const in vec3 geometryClearcoatNormal, const in ToonMaterial material, inout ReflectedLight reflectedLight ) {
	reflectedLight.indirectDiffuse += irradiance * BRDF_Lambert( material.diffuseColor );
}
#define RE_Direct				RE_Direct_Toon
#define RE_IndirectDiffuse		RE_IndirectDiffuse_Toon`,yT=`BlinnPhongMaterial material;
material.diffuseColor = diffuseColor.rgb;
material.specularColor = specular;
material.specularShininess = shininess;
material.specularStrength = specularStrength;`,kT=`varying vec3 vViewPosition;
struct BlinnPhongMaterial {
	vec3 diffuseColor;
	vec3 specularColor;
	float specularShininess;
	float specularStrength;
};
void RE_Direct_BlinnPhong( const in IncidentLight directLight, const in vec3 geometryPosition, const in vec3 geometryNormal, const in vec3 geometryViewDir, const in vec3 geometryClearcoatNormal, const in BlinnPhongMaterial material, inout ReflectedLight reflectedLight ) {
	float dotNL = saturate( dot( geometryNormal, directLight.direction ) );
	vec3 irradiance = dotNL * directLight.color;
	reflectedLight.directDiffuse += irradiance * BRDF_Lambert( material.diffuseColor );
	reflectedLight.directSpecular += irradiance * BRDF_BlinnPhong( directLight.direction, geometryViewDir, geometryNormal, material.specularColor, material.specularShininess ) * material.specularStrength;
}
void RE_IndirectDiffuse_BlinnPhong( const in vec3 irradiance, const in vec3 geometryPosition, const in vec3 geometryNormal, const in vec3 geometryViewDir, const in vec3 geometryClearcoatNormal, const in BlinnPhongMaterial material, inout ReflectedLight reflectedLight ) {
	reflectedLight.indirectDiffuse += irradiance * BRDF_Lambert( material.diffuseColor );
}
#define RE_Direct				RE_Direct_BlinnPhong
#define RE_IndirectDiffuse		RE_IndirectDiffuse_BlinnPhong`,MT=`PhysicalMaterial material;
material.diffuseColor = diffuseColor.rgb * ( 1.0 - metalnessFactor );
vec3 dxy = max( abs( dFdx( nonPerturbedNormal ) ), abs( dFdy( nonPerturbedNormal ) ) );
float geometryRoughness = max( max( dxy.x, dxy.y ), dxy.z );
material.roughness = max( roughnessFactor, 0.0525 );material.roughness += geometryRoughness;
material.roughness = min( material.roughness, 1.0 );
#ifdef IOR
	material.ior = ior;
	#ifdef USE_SPECULAR
		float specularIntensityFactor = specularIntensity;
		vec3 specularColorFactor = specularColor;
		#ifdef USE_SPECULAR_COLORMAP
			specularColorFactor *= texture2D( specularColorMap, vSpecularColorMapUv ).rgb;
		#endif
		#ifdef USE_SPECULAR_INTENSITYMAP
			specularIntensityFactor *= texture2D( specularIntensityMap, vSpecularIntensityMapUv ).a;
		#endif
		material.specularF90 = mix( specularIntensityFactor, 1.0, metalnessFactor );
	#else
		float specularIntensityFactor = 1.0;
		vec3 specularColorFactor = vec3( 1.0 );
		material.specularF90 = 1.0;
	#endif
	material.specularColor = mix( min( pow2( ( material.ior - 1.0 ) / ( material.ior + 1.0 ) ) * specularColorFactor, vec3( 1.0 ) ) * specularIntensityFactor, diffuseColor.rgb, metalnessFactor );
#else
	material.specularColor = mix( vec3( 0.04 ), diffuseColor.rgb, metalnessFactor );
	material.specularF90 = 1.0;
#endif
#ifdef USE_CLEARCOAT
	material.clearcoat = clearcoat;
	material.clearcoatRoughness = clearcoatRoughness;
	material.clearcoatF0 = vec3( 0.04 );
	material.clearcoatF90 = 1.0;
	#ifdef USE_CLEARCOATMAP
		material.clearcoat *= texture2D( clearcoatMap, vClearcoatMapUv ).x;
	#endif
	#ifdef USE_CLEARCOAT_ROUGHNESSMAP
		material.clearcoatRoughness *= texture2D( clearcoatRoughnessMap, vClearcoatRoughnessMapUv ).y;
	#endif
	material.clearcoat = saturate( material.clearcoat );	material.clearcoatRoughness = max( material.clearcoatRoughness, 0.0525 );
	material.clearcoatRoughness += geometryRoughness;
	material.clearcoatRoughness = min( material.clearcoatRoughness, 1.0 );
#endif
#ifdef USE_DISPERSION
	material.dispersion = dispersion;
#endif
#ifdef USE_IRIDESCENCE
	material.iridescence = iridescence;
	material.iridescenceIOR = iridescenceIOR;
	#ifdef USE_IRIDESCENCEMAP
		material.iridescence *= texture2D( iridescenceMap, vIridescenceMapUv ).r;
	#endif
	#ifdef USE_IRIDESCENCE_THICKNESSMAP
		material.iridescenceThickness = (iridescenceThicknessMaximum - iridescenceThicknessMinimum) * texture2D( iridescenceThicknessMap, vIridescenceThicknessMapUv ).g + iridescenceThicknessMinimum;
	#else
		material.iridescenceThickness = iridescenceThicknessMaximum;
	#endif
#endif
#ifdef USE_SHEEN
	material.sheenColor = sheenColor;
	#ifdef USE_SHEEN_COLORMAP
		material.sheenColor *= texture2D( sheenColorMap, vSheenColorMapUv ).rgb;
	#endif
	material.sheenRoughness = clamp( sheenRoughness, 0.07, 1.0 );
	#ifdef USE_SHEEN_ROUGHNESSMAP
		material.sheenRoughness *= texture2D( sheenRoughnessMap, vSheenRoughnessMapUv ).a;
	#endif
#endif
#ifdef USE_ANISOTROPY
	#ifdef USE_ANISOTROPYMAP
		mat2 anisotropyMat = mat2( anisotropyVector.x, anisotropyVector.y, - anisotropyVector.y, anisotropyVector.x );
		vec3 anisotropyPolar = texture2D( anisotropyMap, vAnisotropyMapUv ).rgb;
		vec2 anisotropyV = anisotropyMat * normalize( 2.0 * anisotropyPolar.rg - vec2( 1.0 ) ) * anisotropyPolar.b;
	#else
		vec2 anisotropyV = anisotropyVector;
	#endif
	material.anisotropy = length( anisotropyV );
	if( material.anisotropy == 0.0 ) {
		anisotropyV = vec2( 1.0, 0.0 );
	} else {
		anisotropyV /= material.anisotropy;
		material.anisotropy = saturate( material.anisotropy );
	}
	material.alphaT = mix( pow2( material.roughness ), 1.0, pow2( material.anisotropy ) );
	material.anisotropyT = tbn[ 0 ] * anisotropyV.x + tbn[ 1 ] * anisotropyV.y;
	material.anisotropyB = tbn[ 1 ] * anisotropyV.x - tbn[ 0 ] * anisotropyV.y;
#endif`,uT=`struct PhysicalMaterial {
	vec3 diffuseColor;
	float roughness;
	vec3 specularColor;
	float specularF90;
	float dispersion;
	#ifdef USE_CLEARCOAT
		float clearcoat;
		float clearcoatRoughness;
		vec3 clearcoatF0;
		float clearcoatF90;
	#endif
	#ifdef USE_IRIDESCENCE
		float iridescence;
		float iridescenceIOR;
		float iridescenceThickness;
		vec3 iridescenceFresnel;
		vec3 iridescenceF0;
	#endif
	#ifdef USE_SHEEN
		vec3 sheenColor;
		float sheenRoughness;
	#endif
	#ifdef IOR
		float ior;
	#endif
	#ifdef USE_TRANSMISSION
		float transmission;
		float transmissionAlpha;
		float thickness;
		float attenuationDistance;
		vec3 attenuationColor;
	#endif
	#ifdef USE_ANISOTROPY
		float anisotropy;
		float alphaT;
		vec3 anisotropyT;
		vec3 anisotropyB;
	#endif
};
vec3 clearcoatSpecularDirect = vec3( 0.0 );
vec3 clearcoatSpecularIndirect = vec3( 0.0 );
vec3 sheenSpecularDirect = vec3( 0.0 );
vec3 sheenSpecularIndirect = vec3(0.0 );
vec3 Schlick_to_F0( const in vec3 f, const in float f90, const in float dotVH ) {
    float x = clamp( 1.0 - dotVH, 0.0, 1.0 );
    float x2 = x * x;
    float x5 = clamp( x * x2 * x2, 0.0, 0.9999 );
    return ( f - vec3( f90 ) * x5 ) / ( 1.0 - x5 );
}
float V_GGX_SmithCorrelated( const in float alpha, const in float dotNL, const in float dotNV ) {
	float a2 = pow2( alpha );
	float gv = dotNL * sqrt( a2 + ( 1.0 - a2 ) * pow2( dotNV ) );
	float gl = dotNV * sqrt( a2 + ( 1.0 - a2 ) * pow2( dotNL ) );
	return 0.5 / max( gv + gl, EPSILON );
}
float D_GGX( const in float alpha, const in float dotNH ) {
	float a2 = pow2( alpha );
	float denom = pow2( dotNH ) * ( a2 - 1.0 ) + 1.0;
	return RECIPROCAL_PI * a2 / pow2( denom );
}
#ifdef USE_ANISOTROPY
	float V_GGX_SmithCorrelated_Anisotropic( const in float alphaT, const in float alphaB, const in float dotTV, const in float dotBV, const in float dotTL, const in float dotBL, const in float dotNV, const in float dotNL ) {
		float gv = dotNL * length( vec3( alphaT * dotTV, alphaB * dotBV, dotNV ) );
		float gl = dotNV * length( vec3( alphaT * dotTL, alphaB * dotBL, dotNL ) );
		float v = 0.5 / ( gv + gl );
		return saturate(v);
	}
	float D_GGX_Anisotropic( const in float alphaT, const in float alphaB, const in float dotNH, const in float dotTH, const in float dotBH ) {
		float a2 = alphaT * alphaB;
		highp vec3 v = vec3( alphaB * dotTH, alphaT * dotBH, a2 * dotNH );
		highp float v2 = dot( v, v );
		float w2 = a2 / v2;
		return RECIPROCAL_PI * a2 * pow2 ( w2 );
	}
#endif
#ifdef USE_CLEARCOAT
	vec3 BRDF_GGX_Clearcoat( const in vec3 lightDir, const in vec3 viewDir, const in vec3 normal, const in PhysicalMaterial material) {
		vec3 f0 = material.clearcoatF0;
		float f90 = material.clearcoatF90;
		float roughness = material.clearcoatRoughness;
		float alpha = pow2( roughness );
		vec3 halfDir = normalize( lightDir + viewDir );
		float dotNL = saturate( dot( normal, lightDir ) );
		float dotNV = saturate( dot( normal, viewDir ) );
		float dotNH = saturate( dot( normal, halfDir ) );
		float dotVH = saturate( dot( viewDir, halfDir ) );
		vec3 F = F_Schlick( f0, f90, dotVH );
		float V = V_GGX_SmithCorrelated( alpha, dotNL, dotNV );
		float D = D_GGX( alpha, dotNH );
		return F * ( V * D );
	}
#endif
vec3 BRDF_GGX( const in vec3 lightDir, const in vec3 viewDir, const in vec3 normal, const in PhysicalMaterial material ) {
	vec3 f0 = material.specularColor;
	float f90 = material.specularF90;
	float roughness = material.roughness;
	float alpha = pow2( roughness );
	vec3 halfDir = normalize( lightDir + viewDir );
	float dotNL = saturate( dot( normal, lightDir ) );
	float dotNV = saturate( dot( normal, viewDir ) );
	float dotNH = saturate( dot( normal, halfDir ) );
	float dotVH = saturate( dot( viewDir, halfDir ) );
	vec3 F = F_Schlick( f0, f90, dotVH );
	#ifdef USE_IRIDESCENCE
		F = mix( F, material.iridescenceFresnel, material.iridescence );
	#endif
	#ifdef USE_ANISOTROPY
		float dotTL = dot( material.anisotropyT, lightDir );
		float dotTV = dot( material.anisotropyT, viewDir );
		float dotTH = dot( material.anisotropyT, halfDir );
		float dotBL = dot( material.anisotropyB, lightDir );
		float dotBV = dot( material.anisotropyB, viewDir );
		float dotBH = dot( material.anisotropyB, halfDir );
		float V = V_GGX_SmithCorrelated_Anisotropic( material.alphaT, alpha, dotTV, dotBV, dotTL, dotBL, dotNV, dotNL );
		float D = D_GGX_Anisotropic( material.alphaT, alpha, dotNH, dotTH, dotBH );
	#else
		float V = V_GGX_SmithCorrelated( alpha, dotNL, dotNV );
		float D = D_GGX( alpha, dotNH );
	#endif
	return F * ( V * D );
}
vec2 LTC_Uv( const in vec3 N, const in vec3 V, const in float roughness ) {
	const float LUT_SIZE = 64.0;
	const float LUT_SCALE = ( LUT_SIZE - 1.0 ) / LUT_SIZE;
	const float LUT_BIAS = 0.5 / LUT_SIZE;
	float dotNV = saturate( dot( N, V ) );
	vec2 uv = vec2( roughness, sqrt( 1.0 - dotNV ) );
	uv = uv * LUT_SCALE + LUT_BIAS;
	return uv;
}
float LTC_ClippedSphereFormFactor( const in vec3 f ) {
	float l = length( f );
	return max( ( l * l + f.z ) / ( l + 1.0 ), 0.0 );
}
vec3 LTC_EdgeVectorFormFactor( const in vec3 v1, const in vec3 v2 ) {
	float x = dot( v1, v2 );
	float y = abs( x );
	float a = 0.8543985 + ( 0.4965155 + 0.0145206 * y ) * y;
	float b = 3.4175940 + ( 4.1616724 + y ) * y;
	float v = a / b;
	float theta_sintheta = ( x > 0.0 ) ? v : 0.5 * inversesqrt( max( 1.0 - x * x, 1e-7 ) ) - v;
	return cross( v1, v2 ) * theta_sintheta;
}
vec3 LTC_Evaluate( const in vec3 N, const in vec3 V, const in vec3 P, const in mat3 mInv, const in vec3 rectCoords[ 4 ] ) {
	vec3 v1 = rectCoords[ 1 ] - rectCoords[ 0 ];
	vec3 v2 = rectCoords[ 3 ] - rectCoords[ 0 ];
	vec3 lightNormal = cross( v1, v2 );
	if( dot( lightNormal, P - rectCoords[ 0 ] ) < 0.0 ) return vec3( 0.0 );
	vec3 T1, T2;
	T1 = normalize( V - N * dot( V, N ) );
	T2 = - cross( N, T1 );
	mat3 mat = mInv * transposeMat3( mat3( T1, T2, N ) );
	vec3 coords[ 4 ];
	coords[ 0 ] = mat * ( rectCoords[ 0 ] - P );
	coords[ 1 ] = mat * ( rectCoords[ 1 ] - P );
	coords[ 2 ] = mat * ( rectCoords[ 2 ] - P );
	coords[ 3 ] = mat * ( rectCoords[ 3 ] - P );
	coords[ 0 ] = normalize( coords[ 0 ] );
	coords[ 1 ] = normalize( coords[ 1 ] );
	coords[ 2 ] = normalize( coords[ 2 ] );
	coords[ 3 ] = normalize( coords[ 3 ] );
	vec3 vectorFormFactor = vec3( 0.0 );
	vectorFormFactor += LTC_EdgeVectorFormFactor( coords[ 0 ], coords[ 1 ] );
	vectorFormFactor += LTC_EdgeVectorFormFactor( coords[ 1 ], coords[ 2 ] );
	vectorFormFactor += LTC_EdgeVectorFormFactor( coords[ 2 ], coords[ 3 ] );
	vectorFormFactor += LTC_EdgeVectorFormFactor( coords[ 3 ], coords[ 0 ] );
	float result = LTC_ClippedSphereFormFactor( vectorFormFactor );
	return vec3( result );
}
#if defined( USE_SHEEN )
float D_Charlie( float roughness, float dotNH ) {
	float alpha = pow2( roughness );
	float invAlpha = 1.0 / alpha;
	float cos2h = dotNH * dotNH;
	float sin2h = max( 1.0 - cos2h, 0.0078125 );
	return ( 2.0 + invAlpha ) * pow( sin2h, invAlpha * 0.5 ) / ( 2.0 * PI );
}
float V_Neubelt( float dotNV, float dotNL ) {
	return saturate( 1.0 / ( 4.0 * ( dotNL + dotNV - dotNL * dotNV ) ) );
}
vec3 BRDF_Sheen( const in vec3 lightDir, const in vec3 viewDir, const in vec3 normal, vec3 sheenColor, const in float sheenRoughness ) {
	vec3 halfDir = normalize( lightDir + viewDir );
	float dotNL = saturate( dot( normal, lightDir ) );
	float dotNV = saturate( dot( normal, viewDir ) );
	float dotNH = saturate( dot( normal, halfDir ) );
	float D = D_Charlie( sheenRoughness, dotNH );
	float V = V_Neubelt( dotNV, dotNL );
	return sheenColor * ( D * V );
}
#endif
float IBLSheenBRDF( const in vec3 normal, const in vec3 viewDir, const in float roughness ) {
	float dotNV = saturate( dot( normal, viewDir ) );
	float r2 = roughness * roughness;
	float a = roughness < 0.25 ? -339.2 * r2 + 161.4 * roughness - 25.9 : -8.48 * r2 + 14.3 * roughness - 9.95;
	float b = roughness < 0.25 ? 44.0 * r2 - 23.7 * roughness + 3.26 : 1.97 * r2 - 3.27 * roughness + 0.72;
	float DG = exp( a * dotNV + b ) + ( roughness < 0.25 ? 0.0 : 0.1 * ( roughness - 0.25 ) );
	return saturate( DG * RECIPROCAL_PI );
}
vec2 DFGApprox( const in vec3 normal, const in vec3 viewDir, const in float roughness ) {
	float dotNV = saturate( dot( normal, viewDir ) );
	const vec4 c0 = vec4( - 1, - 0.0275, - 0.572, 0.022 );
	const vec4 c1 = vec4( 1, 0.0425, 1.04, - 0.04 );
	vec4 r = roughness * c0 + c1;
	float a004 = min( r.x * r.x, exp2( - 9.28 * dotNV ) ) * r.x + r.y;
	vec2 fab = vec2( - 1.04, 1.04 ) * a004 + r.zw;
	return fab;
}
vec3 EnvironmentBRDF( const in vec3 normal, const in vec3 viewDir, const in vec3 specularColor, const in float specularF90, const in float roughness ) {
	vec2 fab = DFGApprox( normal, viewDir, roughness );
	return specularColor * fab.x + specularF90 * fab.y;
}
#ifdef USE_IRIDESCENCE
void computeMultiscatteringIridescence( const in vec3 normal, const in vec3 viewDir, const in vec3 specularColor, const in float specularF90, const in float iridescence, const in vec3 iridescenceF0, const in float roughness, inout vec3 singleScatter, inout vec3 multiScatter ) {
#else
void computeMultiscattering( const in vec3 normal, const in vec3 viewDir, const in vec3 specularColor, const in float specularF90, const in float roughness, inout vec3 singleScatter, inout vec3 multiScatter ) {
#endif
	vec2 fab = DFGApprox( normal, viewDir, roughness );
	#ifdef USE_IRIDESCENCE
		vec3 Fr = mix( specularColor, iridescenceF0, iridescence );
	#else
		vec3 Fr = specularColor;
	#endif
	vec3 FssEss = Fr * fab.x + specularF90 * fab.y;
	float Ess = fab.x + fab.y;
	float Ems = 1.0 - Ess;
	vec3 Favg = Fr + ( 1.0 - Fr ) * 0.047619;	vec3 Fms = FssEss * Favg / ( 1.0 - Ems * Favg );
	singleScatter += FssEss;
	multiScatter += Fms * Ems;
}
#if NUM_RECT_AREA_LIGHTS > 0
	void RE_Direct_RectArea_Physical( const in RectAreaLight rectAreaLight, const in vec3 geometryPosition, const in vec3 geometryNormal, const in vec3 geometryViewDir, const in vec3 geometryClearcoatNormal, const in PhysicalMaterial material, inout ReflectedLight reflectedLight ) {
		vec3 normal = geometryNormal;
		vec3 viewDir = geometryViewDir;
		vec3 position = geometryPosition;
		vec3 lightPos = rectAreaLight.position;
		vec3 halfWidth = rectAreaLight.halfWidth;
		vec3 halfHeight = rectAreaLight.halfHeight;
		vec3 lightColor = rectAreaLight.color;
		float roughness = material.roughness;
		vec3 rectCoords[ 4 ];
		rectCoords[ 0 ] = lightPos + halfWidth - halfHeight;		rectCoords[ 1 ] = lightPos - halfWidth - halfHeight;
		rectCoords[ 2 ] = lightPos - halfWidth + halfHeight;
		rectCoords[ 3 ] = lightPos + halfWidth + halfHeight;
		vec2 uv = LTC_Uv( normal, viewDir, roughness );
		vec4 t1 = texture2D( ltc_1, uv );
		vec4 t2 = texture2D( ltc_2, uv );
		mat3 mInv = mat3(
			vec3( t1.x, 0, t1.y ),
			vec3(    0, 1,    0 ),
			vec3( t1.z, 0, t1.w )
		);
		vec3 fresnel = ( material.specularColor * t2.x + ( vec3( 1.0 ) - material.specularColor ) * t2.y );
		reflectedLight.directSpecular += lightColor * fresnel * LTC_Evaluate( normal, viewDir, position, mInv, rectCoords );
		reflectedLight.directDiffuse += lightColor * material.diffuseColor * LTC_Evaluate( normal, viewDir, position, mat3( 1.0 ), rectCoords );
	}
#endif
void RE_Direct_Physical( const in IncidentLight directLight, const in vec3 geometryPosition, const in vec3 geometryNormal, const in vec3 geometryViewDir, const in vec3 geometryClearcoatNormal, const in PhysicalMaterial material, inout ReflectedLight reflectedLight ) {
	float dotNL = saturate( dot( geometryNormal, directLight.direction ) );
	vec3 irradiance = dotNL * directLight.color;
	#ifdef USE_CLEARCOAT
		float dotNLcc = saturate( dot( geometryClearcoatNormal, directLight.direction ) );
		vec3 ccIrradiance = dotNLcc * directLight.color;
		clearcoatSpecularDirect += ccIrradiance * BRDF_GGX_Clearcoat( directLight.direction, geometryViewDir, geometryClearcoatNormal, material );
	#endif
	#ifdef USE_SHEEN
		sheenSpecularDirect += irradiance * BRDF_Sheen( directLight.direction, geometryViewDir, geometryNormal, material.sheenColor, material.sheenRoughness );
	#endif
	reflectedLight.directSpecular += irradiance * BRDF_GGX( directLight.direction, geometryViewDir, geometryNormal, material );
	reflectedLight.directDiffuse += irradiance * BRDF_Lambert( material.diffuseColor );
}
void RE_IndirectDiffuse_Physical( const in vec3 irradiance, const in vec3 geometryPosition, const in vec3 geometryNormal, const in vec3 geometryViewDir, const in vec3 geometryClearcoatNormal, const in PhysicalMaterial material, inout ReflectedLight reflectedLight ) {
	reflectedLight.indirectDiffuse += irradiance * BRDF_Lambert( material.diffuseColor );
}
void RE_IndirectSpecular_Physical( const in vec3 radiance, const in vec3 irradiance, const in vec3 clearcoatRadiance, const in vec3 geometryPosition, const in vec3 geometryNormal, const in vec3 geometryViewDir, const in vec3 geometryClearcoatNormal, const in PhysicalMaterial material, inout ReflectedLight reflectedLight) {
	#ifdef USE_CLEARCOAT
		clearcoatSpecularIndirect += clearcoatRadiance * EnvironmentBRDF( geometryClearcoatNormal, geometryViewDir, material.clearcoatF0, material.clearcoatF90, material.clearcoatRoughness );
	#endif
	#ifdef USE_SHEEN
		sheenSpecularIndirect += irradiance * material.sheenColor * IBLSheenBRDF( geometryNormal, geometryViewDir, material.sheenRoughness );
	#endif
	vec3 singleScattering = vec3( 0.0 );
	vec3 multiScattering = vec3( 0.0 );
	vec3 cosineWeightedIrradiance = irradiance * RECIPROCAL_PI;
	#ifdef USE_IRIDESCENCE
		computeMultiscatteringIridescence( geometryNormal, geometryViewDir, material.specularColor, material.specularF90, material.iridescence, material.iridescenceFresnel, material.roughness, singleScattering, multiScattering );
	#else
		computeMultiscattering( geometryNormal, geometryViewDir, material.specularColor, material.specularF90, material.roughness, singleScattering, multiScattering );
	#endif
	vec3 totalScattering = singleScattering + multiScattering;
	vec3 diffuse = material.diffuseColor * ( 1.0 - max( max( totalScattering.r, totalScattering.g ), totalScattering.b ) );
	reflectedLight.indirectSpecular += radiance * singleScattering;
	reflectedLight.indirectSpecular += multiScattering * cosineWeightedIrradiance;
	reflectedLight.indirectDiffuse += diffuse * cosineWeightedIrradiance;
}
#define RE_Direct				RE_Direct_Physical
#define RE_Direct_RectArea		RE_Direct_RectArea_Physical
#define RE_IndirectDiffuse		RE_IndirectDiffuse_Physical
#define RE_IndirectSpecular		RE_IndirectSpecular_Physical
float computeSpecularOcclusion( const in float dotNV, const in float ambientOcclusion, const in float roughness ) {
	return saturate( pow( dotNV + ambientOcclusion, exp2( - 16.0 * roughness - 1.0 ) ) - 1.0 + ambientOcclusion );
}`,UT=`
vec3 geometryPosition = - vViewPosition;
vec3 geometryNormal = normal;
vec3 geometryViewDir = ( isOrthographic ) ? vec3( 0, 0, 1 ) : normalize( vViewPosition );
vec3 geometryClearcoatNormal = vec3( 0.0 );
#ifdef USE_CLEARCOAT
	geometryClearcoatNormal = clearcoatNormal;
#endif
#ifdef USE_IRIDESCENCE
	float dotNVi = saturate( dot( normal, geometryViewDir ) );
	if ( material.iridescenceThickness == 0.0 ) {
		material.iridescence = 0.0;
	} else {
		material.iridescence = saturate( material.iridescence );
	}
	if ( material.iridescence > 0.0 ) {
		material.iridescenceFresnel = evalIridescence( 1.0, material.iridescenceIOR, dotNVi, material.iridescenceThickness, material.specularColor );
		material.iridescenceF0 = Schlick_to_F0( material.iridescenceFresnel, 1.0, dotNVi );
	}
#endif
IncidentLight directLight;
#if ( NUM_POINT_LIGHTS > 0 ) && defined( RE_Direct )
	PointLight pointLight;
	#if defined( USE_SHADOWMAP ) && NUM_POINT_LIGHT_SHADOWS > 0
	PointLightShadow pointLightShadow;
	#endif
	#pragma unroll_loop_start
	for ( int i = 0; i < NUM_POINT_LIGHTS; i ++ ) {
		pointLight = pointLights[ i ];
		getPointLightInfo( pointLight, geometryPosition, directLight );
		#if defined( USE_SHADOWMAP ) && ( UNROLLED_LOOP_INDEX < NUM_POINT_LIGHT_SHADOWS )
		pointLightShadow = pointLightShadows[ i ];
		directLight.color *= ( directLight.visible && receiveShadow ) ? getPointShadow( pointShadowMap[ i ], pointLightShadow.shadowMapSize, pointLightShadow.shadowBias, pointLightShadow.shadowRadius, vPointShadowCoord[ i ], pointLightShadow.shadowCameraNear, pointLightShadow.shadowCameraFar ) : 1.0;
		#endif
		RE_Direct( directLight, geometryPosition, geometryNormal, geometryViewDir, geometryClearcoatNormal, material, reflectedLight );
	}
	#pragma unroll_loop_end
#endif
#if ( NUM_SPOT_LIGHTS > 0 ) && defined( RE_Direct )
	SpotLight spotLight;
	vec4 spotColor;
	vec3 spotLightCoord;
	bool inSpotLightMap;
	#if defined( USE_SHADOWMAP ) && NUM_SPOT_LIGHT_SHADOWS > 0
	SpotLightShadow spotLightShadow;
	#endif
	#pragma unroll_loop_start
	for ( int i = 0; i < NUM_SPOT_LIGHTS; i ++ ) {
		spotLight = spotLights[ i ];
		getSpotLightInfo( spotLight, geometryPosition, directLight );
		#if ( UNROLLED_LOOP_INDEX < NUM_SPOT_LIGHT_SHADOWS_WITH_MAPS )
		#define SPOT_LIGHT_MAP_INDEX UNROLLED_LOOP_INDEX
		#elif ( UNROLLED_LOOP_INDEX < NUM_SPOT_LIGHT_SHADOWS )
		#define SPOT_LIGHT_MAP_INDEX NUM_SPOT_LIGHT_MAPS
		#else
		#define SPOT_LIGHT_MAP_INDEX ( UNROLLED_LOOP_INDEX - NUM_SPOT_LIGHT_SHADOWS + NUM_SPOT_LIGHT_SHADOWS_WITH_MAPS )
		#endif
		#if ( SPOT_LIGHT_MAP_INDEX < NUM_SPOT_LIGHT_MAPS )
			spotLightCoord = vSpotLightCoord[ i ].xyz / vSpotLightCoord[ i ].w;
			inSpotLightMap = all( lessThan( abs( spotLightCoord * 2. - 1. ), vec3( 1.0 ) ) );
			spotColor = texture2D( spotLightMap[ SPOT_LIGHT_MAP_INDEX ], spotLightCoord.xy );
			directLight.color = inSpotLightMap ? directLight.color * spotColor.rgb : directLight.color;
		#endif
		#undef SPOT_LIGHT_MAP_INDEX
		#if defined( USE_SHADOWMAP ) && ( UNROLLED_LOOP_INDEX < NUM_SPOT_LIGHT_SHADOWS )
		spotLightShadow = spotLightShadows[ i ];
		directLight.color *= ( directLight.visible && receiveShadow ) ? getShadow( spotShadowMap[ i ], spotLightShadow.shadowMapSize, spotLightShadow.shadowBias, spotLightShadow.shadowRadius, vSpotLightCoord[ i ] ) : 1.0;
		#endif
		RE_Direct( directLight, geometryPosition, geometryNormal, geometryViewDir, geometryClearcoatNormal, material, reflectedLight );
	}
	#pragma unroll_loop_end
#endif
#if ( NUM_DIR_LIGHTS > 0 ) && defined( RE_Direct )
	DirectionalLight directionalLight;
	#if defined( USE_SHADOWMAP ) && NUM_DIR_LIGHT_SHADOWS > 0
	DirectionalLightShadow directionalLightShadow;
	#endif
	#pragma unroll_loop_start
	for ( int i = 0; i < NUM_DIR_LIGHTS; i ++ ) {
		directionalLight = directionalLights[ i ];
		getDirectionalLightInfo( directionalLight, directLight );
		#if defined( USE_SHADOWMAP ) && ( UNROLLED_LOOP_INDEX < NUM_DIR_LIGHT_SHADOWS )
		directionalLightShadow = directionalLightShadows[ i ];
		directLight.color *= ( directLight.visible && receiveShadow ) ? getShadow( directionalShadowMap[ i ], directionalLightShadow.shadowMapSize, directionalLightShadow.shadowBias, directionalLightShadow.shadowRadius, vDirectionalShadowCoord[ i ] ) : 1.0;
		#endif
		RE_Direct( directLight, geometryPosition, geometryNormal, geometryViewDir, geometryClearcoatNormal, material, reflectedLight );
	}
	#pragma unroll_loop_end
#endif
#if ( NUM_RECT_AREA_LIGHTS > 0 ) && defined( RE_Direct_RectArea )
	RectAreaLight rectAreaLight;
	#pragma unroll_loop_start
	for ( int i = 0; i < NUM_RECT_AREA_LIGHTS; i ++ ) {
		rectAreaLight = rectAreaLights[ i ];
		RE_Direct_RectArea( rectAreaLight, geometryPosition, geometryNormal, geometryViewDir, geometryClearcoatNormal, material, reflectedLight );
	}
	#pragma unroll_loop_end
#endif
#if defined( RE_IndirectDiffuse )
	vec3 iblIrradiance = vec3( 0.0 );
	vec3 irradiance = getAmbientLightIrradiance( ambientLightColor );
	#if defined( USE_LIGHT_PROBES )
		irradiance += getLightProbeIrradiance( lightProbe, geometryNormal );
	#endif
	#if ( NUM_HEMI_LIGHTS > 0 )
		#pragma unroll_loop_start
		for ( int i = 0; i < NUM_HEMI_LIGHTS; i ++ ) {
			irradiance += getHemisphereLightIrradiance( hemisphereLights[ i ], geometryNormal );
		}
		#pragma unroll_loop_end
	#endif
#endif
#if defined( RE_IndirectSpecular )
	vec3 radiance = vec3( 0.0 );
	vec3 clearcoatRadiance = vec3( 0.0 );
#endif`,dT=`#if defined( RE_IndirectDiffuse )
	#ifdef USE_LIGHTMAP
		vec4 lightMapTexel = texture2D( lightMap, vLightMapUv );
		vec3 lightMapIrradiance = lightMapTexel.rgb * lightMapIntensity;
		irradiance += lightMapIrradiance;
	#endif
	#if defined( USE_ENVMAP ) && defined( STANDARD ) && defined( ENVMAP_TYPE_CUBE_UV )
		iblIrradiance += getIBLIrradiance( geometryNormal );
	#endif
#endif
#if defined( USE_ENVMAP ) && defined( RE_IndirectSpecular )
	#ifdef USE_ANISOTROPY
		radiance += getIBLAnisotropyRadiance( geometryViewDir, geometryNormal, material.roughness, material.anisotropyB, material.anisotropy );
	#else
		radiance += getIBLRadiance( geometryViewDir, geometryNormal, material.roughness );
	#endif
	#ifdef USE_CLEARCOAT
		clearcoatRadiance += getIBLRadiance( geometryViewDir, geometryClearcoatNormal, material.clearcoatRoughness );
	#endif
#endif`,pT=`#if defined( RE_IndirectDiffuse )
	RE_IndirectDiffuse( irradiance, geometryPosition, geometryNormal, geometryViewDir, geometryClearcoatNormal, material, reflectedLight );
#endif
#if defined( RE_IndirectSpecular )
	RE_IndirectSpecular( radiance, iblIrradiance, clearcoatRadiance, geometryPosition, geometryNormal, geometryViewDir, geometryClearcoatNormal, material, reflectedLight );
#endif`,NT=`#if defined( USE_LOGDEPTHBUF )
	gl_FragDepth = vIsPerspective == 0.0 ? gl_FragCoord.z : log2( vFragDepth ) * logDepthBufFC * 0.5;
#endif`,FT=`#if defined( USE_LOGDEPTHBUF )
	uniform float logDepthBufFC;
	varying float vFragDepth;
	varying float vIsPerspective;
#endif`,KT=`#ifdef USE_LOGDEPTHBUF
	varying float vFragDepth;
	varying float vIsPerspective;
#endif`,JT=`#ifdef USE_LOGDEPTHBUF
	vFragDepth = 1.0 + gl_Position.w;
	vIsPerspective = float( isPerspectiveMatrix( projectionMatrix ) );
#endif`,RT=`#ifdef USE_MAP
	vec4 sampledDiffuseColor = texture2D( map, vMapUv );
	#ifdef DECODE_VIDEO_TEXTURE
		sampledDiffuseColor = vec4( mix( pow( sampledDiffuseColor.rgb * 0.9478672986 + vec3( 0.0521327014 ), vec3( 2.4 ) ), sampledDiffuseColor.rgb * 0.0773993808, vec3( lessThanEqual( sampledDiffuseColor.rgb, vec3( 0.04045 ) ) ) ), sampledDiffuseColor.w );
	
	#endif
	diffuseColor *= sampledDiffuseColor;
#endif`,fT=`#ifdef USE_MAP
	uniform sampler2D map;
#endif`,qT=`#if defined( USE_MAP ) || defined( USE_ALPHAMAP )
	#if defined( USE_POINTS_UV )
		vec2 uv = vUv;
	#else
		vec2 uv = ( uvTransform * vec3( gl_PointCoord.x, 1.0 - gl_PointCoord.y, 1 ) ).xy;
	#endif
#endif
#ifdef USE_MAP
	diffuseColor *= texture2D( map, uv );
#endif
#ifdef USE_ALPHAMAP
	diffuseColor.a *= texture2D( alphaMap, uv ).g;
#endif`,YT=`#if defined( USE_POINTS_UV )
	varying vec2 vUv;
#else
	#if defined( USE_MAP ) || defined( USE_ALPHAMAP )
		uniform mat3 uvTransform;
	#endif
#endif
#ifdef USE_MAP
	uniform sampler2D map;
#endif
#ifdef USE_ALPHAMAP
	uniform sampler2D alphaMap;
#endif`,mT=`float metalnessFactor = metalness;
#ifdef USE_METALNESSMAP
	vec4 texelMetalness = texture2D( metalnessMap, vMetalnessMapUv );
	metalnessFactor *= texelMetalness.b;
#endif`,LT=`#ifdef USE_METALNESSMAP
	uniform sampler2D metalnessMap;
#endif`,HT=`#ifdef USE_INSTANCING_MORPH
	float morphTargetInfluences[ MORPHTARGETS_COUNT ];
	float morphTargetBaseInfluence = texelFetch( morphTexture, ivec2( 0, gl_InstanceID ), 0 ).r;
	for ( int i = 0; i < MORPHTARGETS_COUNT; i ++ ) {
		morphTargetInfluences[i] =  texelFetch( morphTexture, ivec2( i + 1, gl_InstanceID ), 0 ).r;
	}
#endif`,TT=`#if defined( USE_MORPHCOLORS )
	vColor *= morphTargetBaseInfluence;
	for ( int i = 0; i < MORPHTARGETS_COUNT; i ++ ) {
		#if defined( USE_COLOR_ALPHA )
			if ( morphTargetInfluences[ i ] != 0.0 ) vColor += getMorph( gl_VertexID, i, 2 ) * morphTargetInfluences[ i ];
		#elif defined( USE_COLOR )
			if ( morphTargetInfluences[ i ] != 0.0 ) vColor += getMorph( gl_VertexID, i, 2 ).rgb * morphTargetInfluences[ i ];
		#endif
	}
#endif`,xT=`#ifdef USE_MORPHNORMALS
	objectNormal *= morphTargetBaseInfluence;
	for ( int i = 0; i < MORPHTARGETS_COUNT; i ++ ) {
		if ( morphTargetInfluences[ i ] != 0.0 ) objectNormal += getMorph( gl_VertexID, i, 1 ).xyz * morphTargetInfluences[ i ];
	}
#endif`,vT=`#ifdef USE_MORPHTARGETS
	#ifndef USE_INSTANCING_MORPH
		uniform float morphTargetBaseInfluence;
		uniform float morphTargetInfluences[ MORPHTARGETS_COUNT ];
	#endif
	uniform sampler2DArray morphTargetsTexture;
	uniform ivec2 morphTargetsTextureSize;
	vec4 getMorph( const in int vertexIndex, const in int morphTargetIndex, const in int offset ) {
		int texelIndex = vertexIndex * MORPHTARGETS_TEXTURE_STRIDE + offset;
		int y = texelIndex / morphTargetsTextureSize.x;
		int x = texelIndex - y * morphTargetsTextureSize.x;
		ivec3 morphUV = ivec3( x, y, morphTargetIndex );
		return texelFetch( morphTargetsTexture, morphUV, 0 );
	}
#endif`,OT=`#ifdef USE_MORPHTARGETS
	transformed *= morphTargetBaseInfluence;
	for ( int i = 0; i < MORPHTARGETS_COUNT; i ++ ) {
		if ( morphTargetInfluences[ i ] != 0.0 ) transformed += getMorph( gl_VertexID, i, 0 ).xyz * morphTargetInfluences[ i ];
	}
#endif`,bT=`float faceDirection = gl_FrontFacing ? 1.0 : - 1.0;
#ifdef FLAT_SHADED
	vec3 fdx = dFdx( vViewPosition );
	vec3 fdy = dFdy( vViewPosition );
	vec3 normal = normalize( cross( fdx, fdy ) );
#else
	vec3 normal = normalize( vNormal );
	#ifdef DOUBLE_SIDED
		normal *= faceDirection;
	#endif
#endif
#if defined( USE_NORMALMAP_TANGENTSPACE ) || defined( USE_CLEARCOAT_NORMALMAP ) || defined( USE_ANISOTROPY )
	#ifdef USE_TANGENT
		mat3 tbn = mat3( normalize( vTangent ), normalize( vBitangent ), normal );
	#else
		mat3 tbn = getTangentFrame( - vViewPosition, normal,
		#if defined( USE_NORMALMAP )
			vNormalMapUv
		#elif defined( USE_CLEARCOAT_NORMALMAP )
			vClearcoatNormalMapUv
		#else
			vUv
		#endif
		);
	#endif
	#if defined( DOUBLE_SIDED ) && ! defined( FLAT_SHADED )
		tbn[0] *= faceDirection;
		tbn[1] *= faceDirection;
	#endif
#endif
#ifdef USE_CLEARCOAT_NORMALMAP
	#ifdef USE_TANGENT
		mat3 tbn2 = mat3( normalize( vTangent ), normalize( vBitangent ), normal );
	#else
		mat3 tbn2 = getTangentFrame( - vViewPosition, normal, vClearcoatNormalMapUv );
	#endif
	#if defined( DOUBLE_SIDED ) && ! defined( FLAT_SHADED )
		tbn2[0] *= faceDirection;
		tbn2[1] *= faceDirection;
	#endif
#endif
vec3 nonPerturbedNormal = normal;`,_T=`#ifdef USE_NORMALMAP_OBJECTSPACE
	normal = texture2D( normalMap, vNormalMapUv ).xyz * 2.0 - 1.0;
	#ifdef FLIP_SIDED
		normal = - normal;
	#endif
	#ifdef DOUBLE_SIDED
		normal = normal * faceDirection;
	#endif
	normal = normalize( normalMatrix * normal );
#elif defined( USE_NORMALMAP_TANGENTSPACE )
	vec3 mapN = texture2D( normalMap, vNormalMapUv ).xyz * 2.0 - 1.0;
	mapN.xy *= normalScale;
	normal = normalize( tbn * mapN );
#elif defined( USE_BUMPMAP )
	normal = perturbNormalArb( - vViewPosition, normal, dHdxy_fwd(), faceDirection );
#endif`,ZT=`#ifndef FLAT_SHADED
	varying vec3 vNormal;
	#ifdef USE_TANGENT
		varying vec3 vTangent;
		varying vec3 vBitangent;
	#endif
#endif`,PT=`#ifndef FLAT_SHADED
	varying vec3 vNormal;
	#ifdef USE_TANGENT
		varying vec3 vTangent;
		varying vec3 vBitangent;
	#endif
#endif`,WT=`#ifndef FLAT_SHADED
	vNormal = normalize( transformedNormal );
	#ifdef USE_TANGENT
		vTangent = normalize( transformedTangent );
		vBitangent = normalize( cross( vNormal, vTangent ) * tangent.w );
	#endif
#endif`,VT=`#ifdef USE_NORMALMAP
	uniform sampler2D normalMap;
	uniform vec2 normalScale;
#endif
#ifdef USE_NORMALMAP_OBJECTSPACE
	uniform mat3 normalMatrix;
#endif
#if ! defined ( USE_TANGENT ) && ( defined ( USE_NORMALMAP_TANGENTSPACE ) || defined ( USE_CLEARCOAT_NORMALMAP ) || defined( USE_ANISOTROPY ) )
	mat3 getTangentFrame( vec3 eye_pos, vec3 surf_norm, vec2 uv ) {
		vec3 q0 = dFdx( eye_pos.xyz );
		vec3 q1 = dFdy( eye_pos.xyz );
		vec2 st0 = dFdx( uv.st );
		vec2 st1 = dFdy( uv.st );
		vec3 N = surf_norm;
		vec3 q1perp = cross( q1, N );
		vec3 q0perp = cross( N, q0 );
		vec3 T = q1perp * st0.x + q0perp * st1.x;
		vec3 B = q1perp * st0.y + q0perp * st1.y;
		float det = max( dot( T, T ), dot( B, B ) );
		float scale = ( det == 0.0 ) ? 0.0 : inversesqrt( det );
		return mat3( T * scale, B * scale, N );
	}
#endif`,jT=`#ifdef USE_CLEARCOAT
	vec3 clearcoatNormal = nonPerturbedNormal;
#endif`,zT=`#ifdef USE_CLEARCOAT_NORMALMAP
	vec3 clearcoatMapN = texture2D( clearcoatNormalMap, vClearcoatNormalMapUv ).xyz * 2.0 - 1.0;
	clearcoatMapN.xy *= clearcoatNormalScale;
	clearcoatNormal = normalize( tbn2 * clearcoatMapN );
#endif`,XT=`#ifdef USE_CLEARCOATMAP
	uniform sampler2D clearcoatMap;
#endif
#ifdef USE_CLEARCOAT_NORMALMAP
	uniform sampler2D clearcoatNormalMap;
	uniform vec2 clearcoatNormalScale;
#endif
#ifdef USE_CLEARCOAT_ROUGHNESSMAP
	uniform sampler2D clearcoatRoughnessMap;
#endif`,$T=`#ifdef USE_IRIDESCENCEMAP
	uniform sampler2D iridescenceMap;
#endif
#ifdef USE_IRIDESCENCE_THICKNESSMAP
	uniform sampler2D iridescenceThicknessMap;
#endif`,Ax=`#ifdef OPAQUE
diffuseColor.a = 1.0;
#endif
#ifdef USE_TRANSMISSION
diffuseColor.a *= material.transmissionAlpha;
#endif
gl_FragColor = vec4( outgoingLight, diffuseColor.a );`,Ix=`vec3 packNormalToRGB( const in vec3 normal ) {
	return normalize( normal ) * 0.5 + 0.5;
}
vec3 unpackRGBToNormal( const in vec3 rgb ) {
	return 2.0 * rgb.xyz - 1.0;
}
const float PackUpscale = 256. / 255.;const float UnpackDownscale = 255. / 256.;
const vec3 PackFactors = vec3( 256. * 256. * 256., 256. * 256., 256. );
const vec4 UnpackFactors = UnpackDownscale / vec4( PackFactors, 1. );
const float ShiftRight8 = 1. / 256.;
vec4 packDepthToRGBA( const in float v ) {
	vec4 r = vec4( fract( v * PackFactors ), v );
	r.yzw -= r.xyz * ShiftRight8;	return r * PackUpscale;
}
float unpackRGBAToDepth( const in vec4 v ) {
	return dot( v, UnpackFactors );
}
vec2 packDepthToRG( in highp float v ) {
	return packDepthToRGBA( v ).yx;
}
float unpackRGToDepth( const in highp vec2 v ) {
	return unpackRGBAToDepth( vec4( v.xy, 0.0, 0.0 ) );
}
vec4 pack2HalfToRGBA( vec2 v ) {
	vec4 r = vec4( v.x, fract( v.x * 255.0 ), v.y, fract( v.y * 255.0 ) );
	return vec4( r.x - r.y / 255.0, r.y, r.z - r.w / 255.0, r.w );
}
vec2 unpackRGBATo2Half( vec4 v ) {
	return vec2( v.x + ( v.y / 255.0 ), v.z + ( v.w / 255.0 ) );
}
float viewZToOrthographicDepth( const in float viewZ, const in float near, const in float far ) {
	return ( viewZ + near ) / ( near - far );
}
float orthographicDepthToViewZ( const in float depth, const in float near, const in float far ) {
	return depth * ( near - far ) - near;
}
float viewZToPerspectiveDepth( const in float viewZ, const in float near, const in float far ) {
	return ( ( near + viewZ ) * far ) / ( ( far - near ) * viewZ );
}
float perspectiveDepthToViewZ( const in float depth, const in float near, const in float far ) {
	return ( near * far ) / ( ( far - near ) * depth - far );
}`,gx=`#ifdef PREMULTIPLIED_ALPHA
	gl_FragColor.rgb *= gl_FragColor.a;
#endif`,Cx=`vec4 mvPosition = vec4( transformed, 1.0 );
#ifdef USE_BATCHING
	mvPosition = batchingMatrix * mvPosition;
#endif
#ifdef USE_INSTANCING
	mvPosition = instanceMatrix * mvPosition;
#endif
mvPosition = modelViewMatrix * mvPosition;
gl_Position = projectionMatrix * mvPosition;`,Bx=`#ifdef DITHERING
	gl_FragColor.rgb = dithering( gl_FragColor.rgb );
#endif`,ix=`#ifdef DITHERING
	vec3 dithering( vec3 color ) {
		float grid_position = rand( gl_FragCoord.xy );
		vec3 dither_shift_RGB = vec3( 0.25 / 255.0, -0.25 / 255.0, 0.25 / 255.0 );
		dither_shift_RGB = mix( 2.0 * dither_shift_RGB, -2.0 * dither_shift_RGB, grid_position );
		return color + dither_shift_RGB;
	}
#endif`,Qx=`float roughnessFactor = roughness;
#ifdef USE_ROUGHNESSMAP
	vec4 texelRoughness = texture2D( roughnessMap, vRoughnessMapUv );
	roughnessFactor *= texelRoughness.g;
#endif`,Ex=`#ifdef USE_ROUGHNESSMAP
	uniform sampler2D roughnessMap;
#endif`,ex=`#if NUM_SPOT_LIGHT_COORDS > 0
	varying vec4 vSpotLightCoord[ NUM_SPOT_LIGHT_COORDS ];
#endif
#if NUM_SPOT_LIGHT_MAPS > 0
	uniform sampler2D spotLightMap[ NUM_SPOT_LIGHT_MAPS ];
#endif
#ifdef USE_SHADOWMAP
	#if NUM_DIR_LIGHT_SHADOWS > 0
		uniform sampler2D directionalShadowMap[ NUM_DIR_LIGHT_SHADOWS ];
		varying vec4 vDirectionalShadowCoord[ NUM_DIR_LIGHT_SHADOWS ];
		struct DirectionalLightShadow {
			float shadowBias;
			float shadowNormalBias;
			float shadowRadius;
			vec2 shadowMapSize;
		};
		uniform DirectionalLightShadow directionalLightShadows[ NUM_DIR_LIGHT_SHADOWS ];
	#endif
	#if NUM_SPOT_LIGHT_SHADOWS > 0
		uniform sampler2D spotShadowMap[ NUM_SPOT_LIGHT_SHADOWS ];
		struct SpotLightShadow {
			float shadowBias;
			float shadowNormalBias;
			float shadowRadius;
			vec2 shadowMapSize;
		};
		uniform SpotLightShadow spotLightShadows[ NUM_SPOT_LIGHT_SHADOWS ];
	#endif
	#if NUM_POINT_LIGHT_SHADOWS > 0
		uniform sampler2D pointShadowMap[ NUM_POINT_LIGHT_SHADOWS ];
		varying vec4 vPointShadowCoord[ NUM_POINT_LIGHT_SHADOWS ];
		struct PointLightShadow {
			float shadowBias;
			float shadowNormalBias;
			float shadowRadius;
			vec2 shadowMapSize;
			float shadowCameraNear;
			float shadowCameraFar;
		};
		uniform PointLightShadow pointLightShadows[ NUM_POINT_LIGHT_SHADOWS ];
	#endif
	float texture2DCompare( sampler2D depths, vec2 uv, float compare ) {
		return step( compare, unpackRGBAToDepth( texture2D( depths, uv ) ) );
	}
	vec2 texture2DDistribution( sampler2D shadow, vec2 uv ) {
		return unpackRGBATo2Half( texture2D( shadow, uv ) );
	}
	float VSMShadow (sampler2D shadow, vec2 uv, float compare ){
		float occlusion = 1.0;
		vec2 distribution = texture2DDistribution( shadow, uv );
		float hard_shadow = step( compare , distribution.x );
		if (hard_shadow != 1.0 ) {
			float distance = compare - distribution.x ;
			float variance = max( 0.00000, distribution.y * distribution.y );
			float softness_probability = variance / (variance + distance * distance );			softness_probability = clamp( ( softness_probability - 0.3 ) / ( 0.95 - 0.3 ), 0.0, 1.0 );			occlusion = clamp( max( hard_shadow, softness_probability ), 0.0, 1.0 );
		}
		return occlusion;
	}
	float getShadow( sampler2D shadowMap, vec2 shadowMapSize, float shadowBias, float shadowRadius, vec4 shadowCoord ) {
		float shadow = 1.0;
		shadowCoord.xyz /= shadowCoord.w;
		shadowCoord.z += shadowBias;
		bool inFrustum = shadowCoord.x >= 0.0 && shadowCoord.x <= 1.0 && shadowCoord.y >= 0.0 && shadowCoord.y <= 1.0;
		bool frustumTest = inFrustum && shadowCoord.z <= 1.0;
		if ( frustumTest ) {
		#if defined( SHADOWMAP_TYPE_PCF )
			vec2 texelSize = vec2( 1.0 ) / shadowMapSize;
			float dx0 = - texelSize.x * shadowRadius;
			float dy0 = - texelSize.y * shadowRadius;
			float dx1 = + texelSize.x * shadowRadius;
			float dy1 = + texelSize.y * shadowRadius;
			float dx2 = dx0 / 2.0;
			float dy2 = dy0 / 2.0;
			float dx3 = dx1 / 2.0;
			float dy3 = dy1 / 2.0;
			shadow = (
				texture2DCompare( shadowMap, shadowCoord.xy + vec2( dx0, dy0 ), shadowCoord.z ) +
				texture2DCompare( shadowMap, shadowCoord.xy + vec2( 0.0, dy0 ), shadowCoord.z ) +
				texture2DCompare( shadowMap, shadowCoord.xy + vec2( dx1, dy0 ), shadowCoord.z ) +
				texture2DCompare( shadowMap, shadowCoord.xy + vec2( dx2, dy2 ), shadowCoord.z ) +
				texture2DCompare( shadowMap, shadowCoord.xy + vec2( 0.0, dy2 ), shadowCoord.z ) +
				texture2DCompare( shadowMap, shadowCoord.xy + vec2( dx3, dy2 ), shadowCoord.z ) +
				texture2DCompare( shadowMap, shadowCoord.xy + vec2( dx0, 0.0 ), shadowCoord.z ) +
				texture2DCompare( shadowMap, shadowCoord.xy + vec2( dx2, 0.0 ), shadowCoord.z ) +
				texture2DCompare( shadowMap, shadowCoord.xy, shadowCoord.z ) +
				texture2DCompare( shadowMap, shadowCoord.xy + vec2( dx3, 0.0 ), shadowCoord.z ) +
				texture2DCompare( shadowMap, shadowCoord.xy + vec2( dx1, 0.0 ), shadowCoord.z ) +
				texture2DCompare( shadowMap, shadowCoord.xy + vec2( dx2, dy3 ), shadowCoord.z ) +
				texture2DCompare( shadowMap, shadowCoord.xy + vec2( 0.0, dy3 ), shadowCoord.z ) +
				texture2DCompare( shadowMap, shadowCoord.xy + vec2( dx3, dy3 ), shadowCoord.z ) +
				texture2DCompare( shadowMap, shadowCoord.xy + vec2( dx0, dy1 ), shadowCoord.z ) +
				texture2DCompare( shadowMap, shadowCoord.xy + vec2( 0.0, dy1 ), shadowCoord.z ) +
				texture2DCompare( shadowMap, shadowCoord.xy + vec2( dx1, dy1 ), shadowCoord.z )
			) * ( 1.0 / 17.0 );
		#elif defined( SHADOWMAP_TYPE_PCF_SOFT )
			vec2 texelSize = vec2( 1.0 ) / shadowMapSize;
			float dx = texelSize.x;
			float dy = texelSize.y;
			vec2 uv = shadowCoord.xy;
			vec2 f = fract( uv * shadowMapSize + 0.5 );
			uv -= f * texelSize;
			shadow = (
				texture2DCompare( shadowMap, uv, shadowCoord.z ) +
				texture2DCompare( shadowMap, uv + vec2( dx, 0.0 ), shadowCoord.z ) +
				texture2DCompare( shadowMap, uv + vec2( 0.0, dy ), shadowCoord.z ) +
				texture2DCompare( shadowMap, uv + texelSize, shadowCoord.z ) +
				mix( texture2DCompare( shadowMap, uv + vec2( -dx, 0.0 ), shadowCoord.z ),
					 texture2DCompare( shadowMap, uv + vec2( 2.0 * dx, 0.0 ), shadowCoord.z ),
					 f.x ) +
				mix( texture2DCompare( shadowMap, uv + vec2( -dx, dy ), shadowCoord.z ),
					 texture2DCompare( shadowMap, uv + vec2( 2.0 * dx, dy ), shadowCoord.z ),
					 f.x ) +
				mix( texture2DCompare( shadowMap, uv + vec2( 0.0, -dy ), shadowCoord.z ),
					 texture2DCompare( shadowMap, uv + vec2( 0.0, 2.0 * dy ), shadowCoord.z ),
					 f.y ) +
				mix( texture2DCompare( shadowMap, uv + vec2( dx, -dy ), shadowCoord.z ),
					 texture2DCompare( shadowMap, uv + vec2( dx, 2.0 * dy ), shadowCoord.z ),
					 f.y ) +
				mix( mix( texture2DCompare( shadowMap, uv + vec2( -dx, -dy ), shadowCoord.z ),
						  texture2DCompare( shadowMap, uv + vec2( 2.0 * dx, -dy ), shadowCoord.z ),
						  f.x ),
					 mix( texture2DCompare( shadowMap, uv + vec2( -dx, 2.0 * dy ), shadowCoord.z ),
						  texture2DCompare( shadowMap, uv + vec2( 2.0 * dx, 2.0 * dy ), shadowCoord.z ),
						  f.x ),
					 f.y )
			) * ( 1.0 / 9.0 );
		#elif defined( SHADOWMAP_TYPE_VSM )
			shadow = VSMShadow( shadowMap, shadowCoord.xy, shadowCoord.z );
		#else
			shadow = texture2DCompare( shadowMap, shadowCoord.xy, shadowCoord.z );
		#endif
		}
		return shadow;
	}
	vec2 cubeToUV( vec3 v, float texelSizeY ) {
		vec3 absV = abs( v );
		float scaleToCube = 1.0 / max( absV.x, max( absV.y, absV.z ) );
		absV *= scaleToCube;
		v *= scaleToCube * ( 1.0 - 2.0 * texelSizeY );
		vec2 planar = v.xy;
		float almostATexel = 1.5 * texelSizeY;
		float almostOne = 1.0 - almostATexel;
		if ( absV.z >= almostOne ) {
			if ( v.z > 0.0 )
				planar.x = 4.0 - v.x;
		} else if ( absV.x >= almostOne ) {
			float signX = sign( v.x );
			planar.x = v.z * signX + 2.0 * signX;
		} else if ( absV.y >= almostOne ) {
			float signY = sign( v.y );
			planar.x = v.x + 2.0 * signY + 2.0;
			planar.y = v.z * signY - 2.0;
		}
		return vec2( 0.125, 0.25 ) * planar + vec2( 0.375, 0.75 );
	}
	float getPointShadow( sampler2D shadowMap, vec2 shadowMapSize, float shadowBias, float shadowRadius, vec4 shadowCoord, float shadowCameraNear, float shadowCameraFar ) {
		float shadow = 1.0;
		vec3 lightToPosition = shadowCoord.xyz;
		
		float lightToPositionLength = length( lightToPosition );
		if ( lightToPositionLength - shadowCameraFar <= 0.0 && lightToPositionLength - shadowCameraNear >= 0.0 ) {
			float dp = ( lightToPositionLength - shadowCameraNear ) / ( shadowCameraFar - shadowCameraNear );			dp += shadowBias;
			vec3 bd3D = normalize( lightToPosition );
			vec2 texelSize = vec2( 1.0 ) / ( shadowMapSize * vec2( 4.0, 2.0 ) );
			#if defined( SHADOWMAP_TYPE_PCF ) || defined( SHADOWMAP_TYPE_PCF_SOFT ) || defined( SHADOWMAP_TYPE_VSM )
				vec2 offset = vec2( - 1, 1 ) * shadowRadius * texelSize.y;
				shadow = (
					texture2DCompare( shadowMap, cubeToUV( bd3D + offset.xyy, texelSize.y ), dp ) +
					texture2DCompare( shadowMap, cubeToUV( bd3D + offset.yyy, texelSize.y ), dp ) +
					texture2DCompare( shadowMap, cubeToUV( bd3D + offset.xyx, texelSize.y ), dp ) +
					texture2DCompare( shadowMap, cubeToUV( bd3D + offset.yyx, texelSize.y ), dp ) +
					texture2DCompare( shadowMap, cubeToUV( bd3D, texelSize.y ), dp ) +
					texture2DCompare( shadowMap, cubeToUV( bd3D + offset.xxy, texelSize.y ), dp ) +
					texture2DCompare( shadowMap, cubeToUV( bd3D + offset.yxy, texelSize.y ), dp ) +
					texture2DCompare( shadowMap, cubeToUV( bd3D + offset.xxx, texelSize.y ), dp ) +
					texture2DCompare( shadowMap, cubeToUV( bd3D + offset.yxx, texelSize.y ), dp )
				) * ( 1.0 / 9.0 );
			#else
				shadow = texture2DCompare( shadowMap, cubeToUV( bd3D, texelSize.y ), dp );
			#endif
		}
		return shadow;
	}
#endif`,tx=`#if NUM_SPOT_LIGHT_COORDS > 0
	uniform mat4 spotLightMatrix[ NUM_SPOT_LIGHT_COORDS ];
	varying vec4 vSpotLightCoord[ NUM_SPOT_LIGHT_COORDS ];
#endif
#ifdef USE_SHADOWMAP
	#if NUM_DIR_LIGHT_SHADOWS > 0
		uniform mat4 directionalShadowMatrix[ NUM_DIR_LIGHT_SHADOWS ];
		varying vec4 vDirectionalShadowCoord[ NUM_DIR_LIGHT_SHADOWS ];
		struct DirectionalLightShadow {
			float shadowBias;
			float shadowNormalBias;
			float shadowRadius;
			vec2 shadowMapSize;
		};
		uniform DirectionalLightShadow directionalLightShadows[ NUM_DIR_LIGHT_SHADOWS ];
	#endif
	#if NUM_SPOT_LIGHT_SHADOWS > 0
		struct SpotLightShadow {
			float shadowBias;
			float shadowNormalBias;
			float shadowRadius;
			vec2 shadowMapSize;
		};
		uniform SpotLightShadow spotLightShadows[ NUM_SPOT_LIGHT_SHADOWS ];
	#endif
	#if NUM_POINT_LIGHT_SHADOWS > 0
		uniform mat4 pointShadowMatrix[ NUM_POINT_LIGHT_SHADOWS ];
		varying vec4 vPointShadowCoord[ NUM_POINT_LIGHT_SHADOWS ];
		struct PointLightShadow {
			float shadowBias;
			float shadowNormalBias;
			float shadowRadius;
			vec2 shadowMapSize;
			float shadowCameraNear;
			float shadowCameraFar;
		};
		uniform PointLightShadow pointLightShadows[ NUM_POINT_LIGHT_SHADOWS ];
	#endif
#endif`,ox=`#if ( defined( USE_SHADOWMAP ) && ( NUM_DIR_LIGHT_SHADOWS > 0 || NUM_POINT_LIGHT_SHADOWS > 0 ) ) || ( NUM_SPOT_LIGHT_COORDS > 0 )
	vec3 shadowWorldNormal = inverseTransformDirection( transformedNormal, viewMatrix );
	vec4 shadowWorldPosition;
#endif
#if defined( USE_SHADOWMAP )
	#if NUM_DIR_LIGHT_SHADOWS > 0
		#pragma unroll_loop_start
		for ( int i = 0; i < NUM_DIR_LIGHT_SHADOWS; i ++ ) {
			shadowWorldPosition = worldPosition + vec4( shadowWorldNormal * directionalLightShadows[ i ].shadowNormalBias, 0 );
			vDirectionalShadowCoord[ i ] = directionalShadowMatrix[ i ] * shadowWorldPosition;
		}
		#pragma unroll_loop_end
	#endif
	#if NUM_POINT_LIGHT_SHADOWS > 0
		#pragma unroll_loop_start
		for ( int i = 0; i < NUM_POINT_LIGHT_SHADOWS; i ++ ) {
			shadowWorldPosition = worldPosition + vec4( shadowWorldNormal * pointLightShadows[ i ].shadowNormalBias, 0 );
			vPointShadowCoord[ i ] = pointShadowMatrix[ i ] * shadowWorldPosition;
		}
		#pragma unroll_loop_end
	#endif
#endif
#if NUM_SPOT_LIGHT_COORDS > 0
	#pragma unroll_loop_start
	for ( int i = 0; i < NUM_SPOT_LIGHT_COORDS; i ++ ) {
		shadowWorldPosition = worldPosition;
		#if ( defined( USE_SHADOWMAP ) && UNROLLED_LOOP_INDEX < NUM_SPOT_LIGHT_SHADOWS )
			shadowWorldPosition.xyz += shadowWorldNormal * spotLightShadows[ i ].shadowNormalBias;
		#endif
		vSpotLightCoord[ i ] = spotLightMatrix[ i ] * shadowWorldPosition;
	}
	#pragma unroll_loop_end
#endif`,nx=`float getShadowMask() {
	float shadow = 1.0;
	#ifdef USE_SHADOWMAP
	#if NUM_DIR_LIGHT_SHADOWS > 0
	DirectionalLightShadow directionalLight;
	#pragma unroll_loop_start
	for ( int i = 0; i < NUM_DIR_LIGHT_SHADOWS; i ++ ) {
		directionalLight = directionalLightShadows[ i ];
		shadow *= receiveShadow ? getShadow( directionalShadowMap[ i ], directionalLight.shadowMapSize, directionalLight.shadowBias, directionalLight.shadowRadius, vDirectionalShadowCoord[ i ] ) : 1.0;
	}
	#pragma unroll_loop_end
	#endif
	#if NUM_SPOT_LIGHT_SHADOWS > 0
	SpotLightShadow spotLight;
	#pragma unroll_loop_start
	for ( int i = 0; i < NUM_SPOT_LIGHT_SHADOWS; i ++ ) {
		spotLight = spotLightShadows[ i ];
		shadow *= receiveShadow ? getShadow( spotShadowMap[ i ], spotLight.shadowMapSize, spotLight.shadowBias, spotLight.shadowRadius, vSpotLightCoord[ i ] ) : 1.0;
	}
	#pragma unroll_loop_end
	#endif
	#if NUM_POINT_LIGHT_SHADOWS > 0
	PointLightShadow pointLight;
	#pragma unroll_loop_start
	for ( int i = 0; i < NUM_POINT_LIGHT_SHADOWS; i ++ ) {
		pointLight = pointLightShadows[ i ];
		shadow *= receiveShadow ? getPointShadow( pointShadowMap[ i ], pointLight.shadowMapSize, pointLight.shadowBias, pointLight.shadowRadius, vPointShadowCoord[ i ], pointLight.shadowCameraNear, pointLight.shadowCameraFar ) : 1.0;
	}
	#pragma unroll_loop_end
	#endif
	#endif
	return shadow;
}`,ax=`#ifdef USE_SKINNING
	mat4 boneMatX = getBoneMatrix( skinIndex.x );
	mat4 boneMatY = getBoneMatrix( skinIndex.y );
	mat4 boneMatZ = getBoneMatrix( skinIndex.z );
	mat4 boneMatW = getBoneMatrix( skinIndex.w );
#endif`,sx=`#ifdef USE_SKINNING
	uniform mat4 bindMatrix;
	uniform mat4 bindMatrixInverse;
	uniform highp sampler2D boneTexture;
	mat4 getBoneMatrix( const in float i ) {
		int size = textureSize( boneTexture, 0 ).x;
		int j = int( i ) * 4;
		int x = j % size;
		int y = j / size;
		vec4 v1 = texelFetch( boneTexture, ivec2( x, y ), 0 );
		vec4 v2 = texelFetch( boneTexture, ivec2( x + 1, y ), 0 );
		vec4 v3 = texelFetch( boneTexture, ivec2( x + 2, y ), 0 );
		vec4 v4 = texelFetch( boneTexture, ivec2( x + 3, y ), 0 );
		return mat4( v1, v2, v3, v4 );
	}
#endif`,rx=`#ifdef USE_SKINNING
	vec4 skinVertex = bindMatrix * vec4( transformed, 1.0 );
	vec4 skinned = vec4( 0.0 );
	skinned += boneMatX * skinVertex * skinWeight.x;
	skinned += boneMatY * skinVertex * skinWeight.y;
	skinned += boneMatZ * skinVertex * skinWeight.z;
	skinned += boneMatW * skinVertex * skinWeight.w;
	transformed = ( bindMatrixInverse * skinned ).xyz;
#endif`,Dx=`#ifdef USE_SKINNING
	mat4 skinMatrix = mat4( 0.0 );
	skinMatrix += skinWeight.x * boneMatX;
	skinMatrix += skinWeight.y * boneMatY;
	skinMatrix += skinWeight.z * boneMatZ;
	skinMatrix += skinWeight.w * boneMatW;
	skinMatrix = bindMatrixInverse * skinMatrix * bindMatrix;
	objectNormal = vec4( skinMatrix * vec4( objectNormal, 0.0 ) ).xyz;
	#ifdef USE_TANGENT
		objectTangent = vec4( skinMatrix * vec4( objectTangent, 0.0 ) ).xyz;
	#endif
#endif`,lx=`float specularStrength;
#ifdef USE_SPECULARMAP
	vec4 texelSpecular = texture2D( specularMap, vSpecularMapUv );
	specularStrength = texelSpecular.r;
#else
	specularStrength = 1.0;
#endif`,hx=`#ifdef USE_SPECULARMAP
	uniform sampler2D specularMap;
#endif`,cx=`#if defined( TONE_MAPPING )
	gl_FragColor.rgb = toneMapping( gl_FragColor.rgb );
#endif`,Sx=`#ifndef saturate
#define saturate( a ) clamp( a, 0.0, 1.0 )
#endif
uniform float toneMappingExposure;
vec3 LinearToneMapping( vec3 color ) {
	return saturate( toneMappingExposure * color );
}
vec3 ReinhardToneMapping( vec3 color ) {
	color *= toneMappingExposure;
	return saturate( color / ( vec3( 1.0 ) + color ) );
}
vec3 OptimizedCineonToneMapping( vec3 color ) {
	color *= toneMappingExposure;
	color = max( vec3( 0.0 ), color - 0.004 );
	return pow( ( color * ( 6.2 * color + 0.5 ) ) / ( color * ( 6.2 * color + 1.7 ) + 0.06 ), vec3( 2.2 ) );
}
vec3 RRTAndODTFit( vec3 v ) {
	vec3 a = v * ( v + 0.0245786 ) - 0.000090537;
	vec3 b = v * ( 0.983729 * v + 0.4329510 ) + 0.238081;
	return a / b;
}
vec3 ACESFilmicToneMapping( vec3 color ) {
	const mat3 ACESInputMat = mat3(
		vec3( 0.59719, 0.07600, 0.02840 ),		vec3( 0.35458, 0.90834, 0.13383 ),
		vec3( 0.04823, 0.01566, 0.83777 )
	);
	const mat3 ACESOutputMat = mat3(
		vec3(  1.60475, -0.10208, -0.00327 ),		vec3( -0.53108,  1.10813, -0.07276 ),
		vec3( -0.07367, -0.00605,  1.07602 )
	);
	color *= toneMappingExposure / 0.6;
	color = ACESInputMat * color;
	color = RRTAndODTFit( color );
	color = ACESOutputMat * color;
	return saturate( color );
}
const mat3 LINEAR_REC2020_TO_LINEAR_SRGB = mat3(
	vec3( 1.6605, - 0.1246, - 0.0182 ),
	vec3( - 0.5876, 1.1329, - 0.1006 ),
	vec3( - 0.0728, - 0.0083, 1.1187 )
);
const mat3 LINEAR_SRGB_TO_LINEAR_REC2020 = mat3(
	vec3( 0.6274, 0.0691, 0.0164 ),
	vec3( 0.3293, 0.9195, 0.0880 ),
	vec3( 0.0433, 0.0113, 0.8956 )
);
vec3 agxDefaultContrastApprox( vec3 x ) {
	vec3 x2 = x * x;
	vec3 x4 = x2 * x2;
	return + 15.5 * x4 * x2
		- 40.14 * x4 * x
		+ 31.96 * x4
		- 6.868 * x2 * x
		+ 0.4298 * x2
		+ 0.1191 * x
		- 0.00232;
}
vec3 AgXToneMapping( vec3 color ) {
	const mat3 AgXInsetMatrix = mat3(
		vec3( 0.856627153315983, 0.137318972929847, 0.11189821299995 ),
		vec3( 0.0951212405381588, 0.761241990602591, 0.0767994186031903 ),
		vec3( 0.0482516061458583, 0.101439036467562, 0.811302368396859 )
	);
	const mat3 AgXOutsetMatrix = mat3(
		vec3( 1.1271005818144368, - 0.1413297634984383, - 0.14132976349843826 ),
		vec3( - 0.11060664309660323, 1.157823702216272, - 0.11060664309660294 ),
		vec3( - 0.016493938717834573, - 0.016493938717834257, 1.2519364065950405 )
	);
	const float AgxMinEv = - 12.47393;	const float AgxMaxEv = 4.026069;
	color *= toneMappingExposure;
	color = LINEAR_SRGB_TO_LINEAR_REC2020 * color;
	color = AgXInsetMatrix * color;
	color = max( color, 1e-10 );	color = log2( color );
	color = ( color - AgxMinEv ) / ( AgxMaxEv - AgxMinEv );
	color = clamp( color, 0.0, 1.0 );
	color = agxDefaultContrastApprox( color );
	color = AgXOutsetMatrix * color;
	color = pow( max( vec3( 0.0 ), color ), vec3( 2.2 ) );
	color = LINEAR_REC2020_TO_LINEAR_SRGB * color;
	color = clamp( color, 0.0, 1.0 );
	return color;
}
vec3 NeutralToneMapping( vec3 color ) {
	const float StartCompression = 0.8 - 0.04;
	const float Desaturation = 0.15;
	color *= toneMappingExposure;
	float x = min( color.r, min( color.g, color.b ) );
	float offset = x < 0.08 ? x - 6.25 * x * x : 0.04;
	color -= offset;
	float peak = max( color.r, max( color.g, color.b ) );
	if ( peak < StartCompression ) return color;
	float d = 1. - StartCompression;
	float newPeak = 1. - d * d / ( peak + d - StartCompression );
	color *= newPeak / peak;
	float g = 1. - 1. / ( Desaturation * ( peak - newPeak ) + 1. );
	return mix( color, vec3( newPeak ), g );
}
vec3 CustomToneMapping( vec3 color ) { return color; }`,wx=`#ifdef USE_TRANSMISSION
	material.transmission = transmission;
	material.transmissionAlpha = 1.0;
	material.thickness = thickness;
	material.attenuationDistance = attenuationDistance;
	material.attenuationColor = attenuationColor;
	#ifdef USE_TRANSMISSIONMAP
		material.transmission *= texture2D( transmissionMap, vTransmissionMapUv ).r;
	#endif
	#ifdef USE_THICKNESSMAP
		material.thickness *= texture2D( thicknessMap, vThicknessMapUv ).g;
	#endif
	vec3 pos = vWorldPosition;
	vec3 v = normalize( cameraPosition - pos );
	vec3 n = inverseTransformDirection( normal, viewMatrix );
	vec4 transmitted = getIBLVolumeRefraction(
		n, v, material.roughness, material.diffuseColor, material.specularColor, material.specularF90,
		pos, modelMatrix, viewMatrix, projectionMatrix, material.dispersion, material.ior, material.thickness,
		material.attenuationColor, material.attenuationDistance );
	material.transmissionAlpha = mix( material.transmissionAlpha, transmitted.a, material.transmission );
	totalDiffuse = mix( totalDiffuse, transmitted.rgb, material.transmission );
#endif`,Gx=`#ifdef USE_TRANSMISSION
	uniform float transmission;
	uniform float thickness;
	uniform float attenuationDistance;
	uniform vec3 attenuationColor;
	#ifdef USE_TRANSMISSIONMAP
		uniform sampler2D transmissionMap;
	#endif
	#ifdef USE_THICKNESSMAP
		uniform sampler2D thicknessMap;
	#endif
	uniform vec2 transmissionSamplerSize;
	uniform sampler2D transmissionSamplerMap;
	uniform mat4 modelMatrix;
	uniform mat4 projectionMatrix;
	varying vec3 vWorldPosition;
	float w0( float a ) {
		return ( 1.0 / 6.0 ) * ( a * ( a * ( - a + 3.0 ) - 3.0 ) + 1.0 );
	}
	float w1( float a ) {
		return ( 1.0 / 6.0 ) * ( a *  a * ( 3.0 * a - 6.0 ) + 4.0 );
	}
	float w2( float a ){
		return ( 1.0 / 6.0 ) * ( a * ( a * ( - 3.0 * a + 3.0 ) + 3.0 ) + 1.0 );
	}
	float w3( float a ) {
		return ( 1.0 / 6.0 ) * ( a * a * a );
	}
	float g0( float a ) {
		return w0( a ) + w1( a );
	}
	float g1( float a ) {
		return w2( a ) + w3( a );
	}
	float h0( float a ) {
		return - 1.0 + w1( a ) / ( w0( a ) + w1( a ) );
	}
	float h1( float a ) {
		return 1.0 + w3( a ) / ( w2( a ) + w3( a ) );
	}
	vec4 bicubic( sampler2D tex, vec2 uv, vec4 texelSize, float lod ) {
		uv = uv * texelSize.zw + 0.5;
		vec2 iuv = floor( uv );
		vec2 fuv = fract( uv );
		float g0x = g0( fuv.x );
		float g1x = g1( fuv.x );
		float h0x = h0( fuv.x );
		float h1x = h1( fuv.x );
		float h0y = h0( fuv.y );
		float h1y = h1( fuv.y );
		vec2 p0 = ( vec2( iuv.x + h0x, iuv.y + h0y ) - 0.5 ) * texelSize.xy;
		vec2 p1 = ( vec2( iuv.x + h1x, iuv.y + h0y ) - 0.5 ) * texelSize.xy;
		vec2 p2 = ( vec2( iuv.x + h0x, iuv.y + h1y ) - 0.5 ) * texelSize.xy;
		vec2 p3 = ( vec2( iuv.x + h1x, iuv.y + h1y ) - 0.5 ) * texelSize.xy;
		return g0( fuv.y ) * ( g0x * textureLod( tex, p0, lod ) + g1x * textureLod( tex, p1, lod ) ) +
			g1( fuv.y ) * ( g0x * textureLod( tex, p2, lod ) + g1x * textureLod( tex, p3, lod ) );
	}
	vec4 textureBicubic( sampler2D sampler, vec2 uv, float lod ) {
		vec2 fLodSize = vec2( textureSize( sampler, int( lod ) ) );
		vec2 cLodSize = vec2( textureSize( sampler, int( lod + 1.0 ) ) );
		vec2 fLodSizeInv = 1.0 / fLodSize;
		vec2 cLodSizeInv = 1.0 / cLodSize;
		vec4 fSample = bicubic( sampler, uv, vec4( fLodSizeInv, fLodSize ), floor( lod ) );
		vec4 cSample = bicubic( sampler, uv, vec4( cLodSizeInv, cLodSize ), ceil( lod ) );
		return mix( fSample, cSample, fract( lod ) );
	}
	vec3 getVolumeTransmissionRay( const in vec3 n, const in vec3 v, const in float thickness, const in float ior, const in mat4 modelMatrix ) {
		vec3 refractionVector = refract( - v, normalize( n ), 1.0 / ior );
		vec3 modelScale;
		modelScale.x = length( vec3( modelMatrix[ 0 ].xyz ) );
		modelScale.y = length( vec3( modelMatrix[ 1 ].xyz ) );
		modelScale.z = length( vec3( modelMatrix[ 2 ].xyz ) );
		return normalize( refractionVector ) * thickness * modelScale;
	}
	float applyIorToRoughness( const in float roughness, const in float ior ) {
		return roughness * clamp( ior * 2.0 - 2.0, 0.0, 1.0 );
	}
	vec4 getTransmissionSample( const in vec2 fragCoord, const in float roughness, const in float ior ) {
		float lod = log2( transmissionSamplerSize.x ) * applyIorToRoughness( roughness, ior );
		return textureBicubic( transmissionSamplerMap, fragCoord.xy, lod );
	}
	vec3 volumeAttenuation( const in float transmissionDistance, const in vec3 attenuationColor, const in float attenuationDistance ) {
		if ( isinf( attenuationDistance ) ) {
			return vec3( 1.0 );
		} else {
			vec3 attenuationCoefficient = -log( attenuationColor ) / attenuationDistance;
			vec3 transmittance = exp( - attenuationCoefficient * transmissionDistance );			return transmittance;
		}
	}
	vec4 getIBLVolumeRefraction( const in vec3 n, const in vec3 v, const in float roughness, const in vec3 diffuseColor,
		const in vec3 specularColor, const in float specularF90, const in vec3 position, const in mat4 modelMatrix,
		const in mat4 viewMatrix, const in mat4 projMatrix, const in float dispersion, const in float ior, const in float thickness,
		const in vec3 attenuationColor, const in float attenuationDistance ) {
		vec4 transmittedLight;
		vec3 transmittance;
		#ifdef USE_DISPERSION
			float halfSpread = ( ior - 1.0 ) * 0.025 * dispersion;
			vec3 iors = vec3( ior - halfSpread, ior, ior + halfSpread );
			for ( int i = 0; i < 3; i ++ ) {
				vec3 transmissionRay = getVolumeTransmissionRay( n, v, thickness, iors[ i ], modelMatrix );
				vec3 refractedRayExit = position + transmissionRay;
		
				vec4 ndcPos = projMatrix * viewMatrix * vec4( refractedRayExit, 1.0 );
				vec2 refractionCoords = ndcPos.xy / ndcPos.w;
				refractionCoords += 1.0;
				refractionCoords /= 2.0;
		
				vec4 transmissionSample = getTransmissionSample( refractionCoords, roughness, iors[ i ] );
				transmittedLight[ i ] = transmissionSample[ i ];
				transmittedLight.a += transmissionSample.a;
				transmittance[ i ] = diffuseColor[ i ] * volumeAttenuation( length( transmissionRay ), attenuationColor, attenuationDistance )[ i ];
			}
			transmittedLight.a /= 3.0;
		
		#else
		
			vec3 transmissionRay = getVolumeTransmissionRay( n, v, thickness, ior, modelMatrix );
			vec3 refractedRayExit = position + transmissionRay;
			vec4 ndcPos = projMatrix * viewMatrix * vec4( refractedRayExit, 1.0 );
			vec2 refractionCoords = ndcPos.xy / ndcPos.w;
			refractionCoords += 1.0;
			refractionCoords /= 2.0;
			transmittedLight = getTransmissionSample( refractionCoords, roughness, ior );
			transmittance = diffuseColor * volumeAttenuation( length( transmissionRay ), attenuationColor, attenuationDistance );
		
		#endif
		vec3 attenuatedColor = transmittance * transmittedLight.rgb;
		vec3 F = EnvironmentBRDF( n, v, specularColor, specularF90, roughness );
		float transmittanceFactor = ( transmittance.r + transmittance.g + transmittance.b ) / 3.0;
		return vec4( ( 1.0 - F ) * attenuatedColor, 1.0 - ( 1.0 - transmittedLight.a ) * transmittanceFactor );
	}
#endif`,yx=`#if defined( USE_UV ) || defined( USE_ANISOTROPY )
	varying vec2 vUv;
#endif
#ifdef USE_MAP
	varying vec2 vMapUv;
#endif
#ifdef USE_ALPHAMAP
	varying vec2 vAlphaMapUv;
#endif
#ifdef USE_LIGHTMAP
	varying vec2 vLightMapUv;
#endif
#ifdef USE_AOMAP
	varying vec2 vAoMapUv;
#endif
#ifdef USE_BUMPMAP
	varying vec2 vBumpMapUv;
#endif
#ifdef USE_NORMALMAP
	varying vec2 vNormalMapUv;
#endif
#ifdef USE_EMISSIVEMAP
	varying vec2 vEmissiveMapUv;
#endif
#ifdef USE_METALNESSMAP
	varying vec2 vMetalnessMapUv;
#endif
#ifdef USE_ROUGHNESSMAP
	varying vec2 vRoughnessMapUv;
#endif
#ifdef USE_ANISOTROPYMAP
	varying vec2 vAnisotropyMapUv;
#endif
#ifdef USE_CLEARCOATMAP
	varying vec2 vClearcoatMapUv;
#endif
#ifdef USE_CLEARCOAT_NORMALMAP
	varying vec2 vClearcoatNormalMapUv;
#endif
#ifdef USE_CLEARCOAT_ROUGHNESSMAP
	varying vec2 vClearcoatRoughnessMapUv;
#endif
#ifdef USE_IRIDESCENCEMAP
	varying vec2 vIridescenceMapUv;
#endif
#ifdef USE_IRIDESCENCE_THICKNESSMAP
	varying vec2 vIridescenceThicknessMapUv;
#endif
#ifdef USE_SHEEN_COLORMAP
	varying vec2 vSheenColorMapUv;
#endif
#ifdef USE_SHEEN_ROUGHNESSMAP
	varying vec2 vSheenRoughnessMapUv;
#endif
#ifdef USE_SPECULARMAP
	varying vec2 vSpecularMapUv;
#endif
#ifdef USE_SPECULAR_COLORMAP
	varying vec2 vSpecularColorMapUv;
#endif
#ifdef USE_SPECULAR_INTENSITYMAP
	varying vec2 vSpecularIntensityMapUv;
#endif
#ifdef USE_TRANSMISSIONMAP
	uniform mat3 transmissionMapTransform;
	varying vec2 vTransmissionMapUv;
#endif
#ifdef USE_THICKNESSMAP
	uniform mat3 thicknessMapTransform;
	varying vec2 vThicknessMapUv;
#endif`,kx=`#if defined( USE_UV ) || defined( USE_ANISOTROPY )
	varying vec2 vUv;
#endif
#ifdef USE_MAP
	uniform mat3 mapTransform;
	varying vec2 vMapUv;
#endif
#ifdef USE_ALPHAMAP
	uniform mat3 alphaMapTransform;
	varying vec2 vAlphaMapUv;
#endif
#ifdef USE_LIGHTMAP
	uniform mat3 lightMapTransform;
	varying vec2 vLightMapUv;
#endif
#ifdef USE_AOMAP
	uniform mat3 aoMapTransform;
	varying vec2 vAoMapUv;
#endif
#ifdef USE_BUMPMAP
	uniform mat3 bumpMapTransform;
	varying vec2 vBumpMapUv;
#endif
#ifdef USE_NORMALMAP
	uniform mat3 normalMapTransform;
	varying vec2 vNormalMapUv;
#endif
#ifdef USE_DISPLACEMENTMAP
	uniform mat3 displacementMapTransform;
	varying vec2 vDisplacementMapUv;
#endif
#ifdef USE_EMISSIVEMAP
	uniform mat3 emissiveMapTransform;
	varying vec2 vEmissiveMapUv;
#endif
#ifdef USE_METALNESSMAP
	uniform mat3 metalnessMapTransform;
	varying vec2 vMetalnessMapUv;
#endif
#ifdef USE_ROUGHNESSMAP
	uniform mat3 roughnessMapTransform;
	varying vec2 vRoughnessMapUv;
#endif
#ifdef USE_ANISOTROPYMAP
	uniform mat3 anisotropyMapTransform;
	varying vec2 vAnisotropyMapUv;
#endif
#ifdef USE_CLEARCOATMAP
	uniform mat3 clearcoatMapTransform;
	varying vec2 vClearcoatMapUv;
#endif
#ifdef USE_CLEARCOAT_NORMALMAP
	uniform mat3 clearcoatNormalMapTransform;
	varying vec2 vClearcoatNormalMapUv;
#endif
#ifdef USE_CLEARCOAT_ROUGHNESSMAP
	uniform mat3 clearcoatRoughnessMapTransform;
	varying vec2 vClearcoatRoughnessMapUv;
#endif
#ifdef USE_SHEEN_COLORMAP
	uniform mat3 sheenColorMapTransform;
	varying vec2 vSheenColorMapUv;
#endif
#ifdef USE_SHEEN_ROUGHNESSMAP
	uniform mat3 sheenRoughnessMapTransform;
	varying vec2 vSheenRoughnessMapUv;
#endif
#ifdef USE_IRIDESCENCEMAP
	uniform mat3 iridescenceMapTransform;
	varying vec2 vIridescenceMapUv;
#endif
#ifdef USE_IRIDESCENCE_THICKNESSMAP
	uniform mat3 iridescenceThicknessMapTransform;
	varying vec2 vIridescenceThicknessMapUv;
#endif
#ifdef USE_SPECULARMAP
	uniform mat3 specularMapTransform;
	varying vec2 vSpecularMapUv;
#endif
#ifdef USE_SPECULAR_COLORMAP
	uniform mat3 specularColorMapTransform;
	varying vec2 vSpecularColorMapUv;
#endif
#ifdef USE_SPECULAR_INTENSITYMAP
	uniform mat3 specularIntensityMapTransform;
	varying vec2 vSpecularIntensityMapUv;
#endif
#ifdef USE_TRANSMISSIONMAP
	uniform mat3 transmissionMapTransform;
	varying vec2 vTransmissionMapUv;
#endif
#ifdef USE_THICKNESSMAP
	uniform mat3 thicknessMapTransform;
	varying vec2 vThicknessMapUv;
#endif`,Mx=`#if defined( USE_UV ) || defined( USE_ANISOTROPY )
	vUv = vec3( uv, 1 ).xy;
#endif
#ifdef USE_MAP
	vMapUv = ( mapTransform * vec3( MAP_UV, 1 ) ).xy;
#endif
#ifdef USE_ALPHAMAP
	vAlphaMapUv = ( alphaMapTransform * vec3( ALPHAMAP_UV, 1 ) ).xy;
#endif
#ifdef USE_LIGHTMAP
	vLightMapUv = ( lightMapTransform * vec3( LIGHTMAP_UV, 1 ) ).xy;
#endif
#ifdef USE_AOMAP
	vAoMapUv = ( aoMapTransform * vec3( AOMAP_UV, 1 ) ).xy;
#endif
#ifdef USE_BUMPMAP
	vBumpMapUv = ( bumpMapTransform * vec3( BUMPMAP_UV, 1 ) ).xy;
#endif
#ifdef USE_NORMALMAP
	vNormalMapUv = ( normalMapTransform * vec3( NORMALMAP_UV, 1 ) ).xy;
#endif
#ifdef USE_DISPLACEMENTMAP
	vDisplacementMapUv = ( displacementMapTransform * vec3( DISPLACEMENTMAP_UV, 1 ) ).xy;
#endif
#ifdef USE_EMISSIVEMAP
	vEmissiveMapUv = ( emissiveMapTransform * vec3( EMISSIVEMAP_UV, 1 ) ).xy;
#endif
#ifdef USE_METALNESSMAP
	vMetalnessMapUv = ( metalnessMapTransform * vec3( METALNESSMAP_UV, 1 ) ).xy;
#endif
#ifdef USE_ROUGHNESSMAP
	vRoughnessMapUv = ( roughnessMapTransform * vec3( ROUGHNESSMAP_UV, 1 ) ).xy;
#endif
#ifdef USE_ANISOTROPYMAP
	vAnisotropyMapUv = ( anisotropyMapTransform * vec3( ANISOTROPYMAP_UV, 1 ) ).xy;
#endif
#ifdef USE_CLEARCOATMAP
	vClearcoatMapUv = ( clearcoatMapTransform * vec3( CLEARCOATMAP_UV, 1 ) ).xy;
#endif
#ifdef USE_CLEARCOAT_NORMALMAP
	vClearcoatNormalMapUv = ( clearcoatNormalMapTransform * vec3( CLEARCOAT_NORMALMAP_UV, 1 ) ).xy;
#endif
#ifdef USE_CLEARCOAT_ROUGHNESSMAP
	vClearcoatRoughnessMapUv = ( clearcoatRoughnessMapTransform * vec3( CLEARCOAT_ROUGHNESSMAP_UV, 1 ) ).xy;
#endif
#ifdef USE_IRIDESCENCEMAP
	vIridescenceMapUv = ( iridescenceMapTransform * vec3( IRIDESCENCEMAP_UV, 1 ) ).xy;
#endif
#ifdef USE_IRIDESCENCE_THICKNESSMAP
	vIridescenceThicknessMapUv = ( iridescenceThicknessMapTransform * vec3( IRIDESCENCE_THICKNESSMAP_UV, 1 ) ).xy;
#endif
#ifdef USE_SHEEN_COLORMAP
	vSheenColorMapUv = ( sheenColorMapTransform * vec3( SHEEN_COLORMAP_UV, 1 ) ).xy;
#endif
#ifdef USE_SHEEN_ROUGHNESSMAP
	vSheenRoughnessMapUv = ( sheenRoughnessMapTransform * vec3( SHEEN_ROUGHNESSMAP_UV, 1 ) ).xy;
#endif
#ifdef USE_SPECULARMAP
	vSpecularMapUv = ( specularMapTransform * vec3( SPECULARMAP_UV, 1 ) ).xy;
#endif
#ifdef USE_SPECULAR_COLORMAP
	vSpecularColorMapUv = ( specularColorMapTransform * vec3( SPECULAR_COLORMAP_UV, 1 ) ).xy;
#endif
#ifdef USE_SPECULAR_INTENSITYMAP
	vSpecularIntensityMapUv = ( specularIntensityMapTransform * vec3( SPECULAR_INTENSITYMAP_UV, 1 ) ).xy;
#endif
#ifdef USE_TRANSMISSIONMAP
	vTransmissionMapUv = ( transmissionMapTransform * vec3( TRANSMISSIONMAP_UV, 1 ) ).xy;
#endif
#ifdef USE_THICKNESSMAP
	vThicknessMapUv = ( thicknessMapTransform * vec3( THICKNESSMAP_UV, 1 ) ).xy;
#endif`,ux=`#if defined( USE_ENVMAP ) || defined( DISTANCE ) || defined ( USE_SHADOWMAP ) || defined ( USE_TRANSMISSION ) || NUM_SPOT_LIGHT_COORDS > 0
	vec4 worldPosition = vec4( transformed, 1.0 );
	#ifdef USE_BATCHING
		worldPosition = batchingMatrix * worldPosition;
	#endif
	#ifdef USE_INSTANCING
		worldPosition = instanceMatrix * worldPosition;
	#endif
	worldPosition = modelMatrix * worldPosition;
#endif`;const Ux=`varying vec2 vUv;
uniform mat3 uvTransform;
void main() {
	vUv = ( uvTransform * vec3( uv, 1 ) ).xy;
	gl_Position = vec4( position.xy, 1.0, 1.0 );
}`,dx=`uniform sampler2D t2D;
uniform float backgroundIntensity;
varying vec2 vUv;
void main() {
	vec4 texColor = texture2D( t2D, vUv );
	#ifdef DECODE_VIDEO_TEXTURE
		texColor = vec4( mix( pow( texColor.rgb * 0.9478672986 + vec3( 0.0521327014 ), vec3( 2.4 ) ), texColor.rgb * 0.0773993808, vec3( lessThanEqual( texColor.rgb, vec3( 0.04045 ) ) ) ), texColor.w );
	#endif
	texColor.rgb *= backgroundIntensity;
	gl_FragColor = texColor;
	#include <tonemapping_fragment>
	#include <colorspace_fragment>
}`,px=`varying vec3 vWorldDirection;
#include <common>
void main() {
	vWorldDirection = transformDirection( position, modelMatrix );
	#include <begin_vertex>
	#include <project_vertex>
	gl_Position.z = gl_Position.w;
}`,Nx=`#ifdef ENVMAP_TYPE_CUBE
	uniform samplerCube envMap;
#elif defined( ENVMAP_TYPE_CUBE_UV )
	uniform sampler2D envMap;
#endif
uniform float flipEnvMap;
uniform float backgroundBlurriness;
uniform float backgroundIntensity;
uniform mat3 backgroundRotation;
varying vec3 vWorldDirection;
#include <cube_uv_reflection_fragment>
void main() {
	#ifdef ENVMAP_TYPE_CUBE
		vec4 texColor = textureCube( envMap, backgroundRotation * vec3( flipEnvMap * vWorldDirection.x, vWorldDirection.yz ) );
	#elif defined( ENVMAP_TYPE_CUBE_UV )
		vec4 texColor = textureCubeUV( envMap, backgroundRotation * vWorldDirection, backgroundBlurriness );
	#else
		vec4 texColor = vec4( 0.0, 0.0, 0.0, 1.0 );
	#endif
	texColor.rgb *= backgroundIntensity;
	gl_FragColor = texColor;
	#include <tonemapping_fragment>
	#include <colorspace_fragment>
}`,Fx=`varying vec3 vWorldDirection;
#include <common>
void main() {
	vWorldDirection = transformDirection( position, modelMatrix );
	#include <begin_vertex>
	#include <project_vertex>
	gl_Position.z = gl_Position.w;
}`,Kx=`uniform samplerCube tCube;
uniform float tFlip;
uniform float opacity;
varying vec3 vWorldDirection;
void main() {
	vec4 texColor = textureCube( tCube, vec3( tFlip * vWorldDirection.x, vWorldDirection.yz ) );
	gl_FragColor = texColor;
	gl_FragColor.a *= opacity;
	#include <tonemapping_fragment>
	#include <colorspace_fragment>
}`,Jx=`#include <common>
#include <batching_pars_vertex>
#include <uv_pars_vertex>
#include <displacementmap_pars_vertex>
#include <morphtarget_pars_vertex>
#include <skinning_pars_vertex>
#include <logdepthbuf_pars_vertex>
#include <clipping_planes_pars_vertex>
varying vec2 vHighPrecisionZW;
void main() {
	#include <uv_vertex>
	#include <batching_vertex>
	#include <skinbase_vertex>
	#include <morphinstance_vertex>
	#ifdef USE_DISPLACEMENTMAP
		#include <beginnormal_vertex>
		#include <morphnormal_vertex>
		#include <skinnormal_vertex>
	#endif
	#include <begin_vertex>
	#include <morphtarget_vertex>
	#include <skinning_vertex>
	#include <displacementmap_vertex>
	#include <project_vertex>
	#include <logdepthbuf_vertex>
	#include <clipping_planes_vertex>
	vHighPrecisionZW = gl_Position.zw;
}`,Rx=`#if DEPTH_PACKING == 3200
	uniform float opacity;
#endif
#include <common>
#include <packing>
#include <uv_pars_fragment>
#include <map_pars_fragment>
#include <alphamap_pars_fragment>
#include <alphatest_pars_fragment>
#include <alphahash_pars_fragment>
#include <logdepthbuf_pars_fragment>
#include <clipping_planes_pars_fragment>
varying vec2 vHighPrecisionZW;
void main() {
	vec4 diffuseColor = vec4( 1.0 );
	#include <clipping_planes_fragment>
	#if DEPTH_PACKING == 3200
		diffuseColor.a = opacity;
	#endif
	#include <map_fragment>
	#include <alphamap_fragment>
	#include <alphatest_fragment>
	#include <alphahash_fragment>
	#include <logdepthbuf_fragment>
	float fragCoordZ = 0.5 * vHighPrecisionZW[0] / vHighPrecisionZW[1] + 0.5;
	#if DEPTH_PACKING == 3200
		gl_FragColor = vec4( vec3( 1.0 - fragCoordZ ), opacity );
	#elif DEPTH_PACKING == 3201
		gl_FragColor = packDepthToRGBA( fragCoordZ );
	#endif
}`,fx=`#define DISTANCE
varying vec3 vWorldPosition;
#include <common>
#include <batching_pars_vertex>
#include <uv_pars_vertex>
#include <displacementmap_pars_vertex>
#include <morphtarget_pars_vertex>
#include <skinning_pars_vertex>
#include <clipping_planes_pars_vertex>
void main() {
	#include <uv_vertex>
	#include <batching_vertex>
	#include <skinbase_vertex>
	#include <morphinstance_vertex>
	#ifdef USE_DISPLACEMENTMAP
		#include <beginnormal_vertex>
		#include <morphnormal_vertex>
		#include <skinnormal_vertex>
	#endif
	#include <begin_vertex>
	#include <morphtarget_vertex>
	#include <skinning_vertex>
	#include <displacementmap_vertex>
	#include <project_vertex>
	#include <worldpos_vertex>
	#include <clipping_planes_vertex>
	vWorldPosition = worldPosition.xyz;
}`,qx=`#define DISTANCE
uniform vec3 referencePosition;
uniform float nearDistance;
uniform float farDistance;
varying vec3 vWorldPosition;
#include <common>
#include <packing>
#include <uv_pars_fragment>
#include <map_pars_fragment>
#include <alphamap_pars_fragment>
#include <alphatest_pars_fragment>
#include <alphahash_pars_fragment>
#include <clipping_planes_pars_fragment>
void main () {
	vec4 diffuseColor = vec4( 1.0 );
	#include <clipping_planes_fragment>
	#include <map_fragment>
	#include <alphamap_fragment>
	#include <alphatest_fragment>
	#include <alphahash_fragment>
	float dist = length( vWorldPosition - referencePosition );
	dist = ( dist - nearDistance ) / ( farDistance - nearDistance );
	dist = saturate( dist );
	gl_FragColor = packDepthToRGBA( dist );
}`,Yx=`varying vec3 vWorldDirection;
#include <common>
void main() {
	vWorldDirection = transformDirection( position, modelMatrix );
	#include <begin_vertex>
	#include <project_vertex>
}`,mx=`uniform sampler2D tEquirect;
varying vec3 vWorldDirection;
#include <common>
void main() {
	vec3 direction = normalize( vWorldDirection );
	vec2 sampleUV = equirectUv( direction );
	gl_FragColor = texture2D( tEquirect, sampleUV );
	#include <tonemapping_fragment>
	#include <colorspace_fragment>
}`,Lx=`uniform float scale;
attribute float lineDistance;
varying float vLineDistance;
#include <common>
#include <uv_pars_vertex>
#include <color_pars_vertex>
#include <fog_pars_vertex>
#include <morphtarget_pars_vertex>
#include <logdepthbuf_pars_vertex>
#include <clipping_planes_pars_vertex>
void main() {
	vLineDistance = scale * lineDistance;
	#include <uv_vertex>
	#include <color_vertex>
	#include <morphinstance_vertex>
	#include <morphcolor_vertex>
	#include <begin_vertex>
	#include <morphtarget_vertex>
	#include <project_vertex>
	#include <logdepthbuf_vertex>
	#include <clipping_planes_vertex>
	#include <fog_vertex>
}`,Hx=`uniform vec3 diffuse;
uniform float opacity;
uniform float dashSize;
uniform float totalSize;
varying float vLineDistance;
#include <common>
#include <color_pars_fragment>
#include <uv_pars_fragment>
#include <map_pars_fragment>
#include <fog_pars_fragment>
#include <logdepthbuf_pars_fragment>
#include <clipping_planes_pars_fragment>
void main() {
	vec4 diffuseColor = vec4( diffuse, opacity );
	#include <clipping_planes_fragment>
	if ( mod( vLineDistance, totalSize ) > dashSize ) {
		discard;
	}
	vec3 outgoingLight = vec3( 0.0 );
	#include <logdepthbuf_fragment>
	#include <map_fragment>
	#include <color_fragment>
	outgoingLight = diffuseColor.rgb;
	#include <opaque_fragment>
	#include <tonemapping_fragment>
	#include <colorspace_fragment>
	#include <fog_fragment>
	#include <premultiplied_alpha_fragment>
}`,Tx=`#include <common>
#include <batching_pars_vertex>
#include <uv_pars_vertex>
#include <envmap_pars_vertex>
#include <color_pars_vertex>
#include <fog_pars_vertex>
#include <morphtarget_pars_vertex>
#include <skinning_pars_vertex>
#include <logdepthbuf_pars_vertex>
#include <clipping_planes_pars_vertex>
void main() {
	#include <uv_vertex>
	#include <color_vertex>
	#include <morphinstance_vertex>
	#include <morphcolor_vertex>
	#include <batching_vertex>
	#if defined ( USE_ENVMAP ) || defined ( USE_SKINNING )
		#include <beginnormal_vertex>
		#include <morphnormal_vertex>
		#include <skinbase_vertex>
		#include <skinnormal_vertex>
		#include <defaultnormal_vertex>
	#endif
	#include <begin_vertex>
	#include <morphtarget_vertex>
	#include <skinning_vertex>
	#include <project_vertex>
	#include <logdepthbuf_vertex>
	#include <clipping_planes_vertex>
	#include <worldpos_vertex>
	#include <envmap_vertex>
	#include <fog_vertex>
}`,xx=`uniform vec3 diffuse;
uniform float opacity;
#ifndef FLAT_SHADED
	varying vec3 vNormal;
#endif
#include <common>
#include <dithering_pars_fragment>
#include <color_pars_fragment>
#include <uv_pars_fragment>
#include <map_pars_fragment>
#include <alphamap_pars_fragment>
#include <alphatest_pars_fragment>
#include <alphahash_pars_fragment>
#include <aomap_pars_fragment>
#include <lightmap_pars_fragment>
#include <envmap_common_pars_fragment>
#include <envmap_pars_fragment>
#include <fog_pars_fragment>
#include <specularmap_pars_fragment>
#include <logdepthbuf_pars_fragment>
#include <clipping_planes_pars_fragment>
void main() {
	vec4 diffuseColor = vec4( diffuse, opacity );
	#include <clipping_planes_fragment>
	#include <logdepthbuf_fragment>
	#include <map_fragment>
	#include <color_fragment>
	#include <alphamap_fragment>
	#include <alphatest_fragment>
	#include <alphahash_fragment>
	#include <specularmap_fragment>
	ReflectedLight reflectedLight = ReflectedLight( vec3( 0.0 ), vec3( 0.0 ), vec3( 0.0 ), vec3( 0.0 ) );
	#ifdef USE_LIGHTMAP
		vec4 lightMapTexel = texture2D( lightMap, vLightMapUv );
		reflectedLight.indirectDiffuse += lightMapTexel.rgb * lightMapIntensity * RECIPROCAL_PI;
	#else
		reflectedLight.indirectDiffuse += vec3( 1.0 );
	#endif
	#include <aomap_fragment>
	reflectedLight.indirectDiffuse *= diffuseColor.rgb;
	vec3 outgoingLight = reflectedLight.indirectDiffuse;
	#include <envmap_fragment>
	#include <opaque_fragment>
	#include <tonemapping_fragment>
	#include <colorspace_fragment>
	#include <fog_fragment>
	#include <premultiplied_alpha_fragment>
	#include <dithering_fragment>
}`,vx=`#define LAMBERT
varying vec3 vViewPosition;
#include <common>
#include <batching_pars_vertex>
#include <uv_pars_vertex>
#include <displacementmap_pars_vertex>
#include <envmap_pars_vertex>
#include <color_pars_vertex>
#include <fog_pars_vertex>
#include <normal_pars_vertex>
#include <morphtarget_pars_vertex>
#include <skinning_pars_vertex>
#include <shadowmap_pars_vertex>
#include <logdepthbuf_pars_vertex>
#include <clipping_planes_pars_vertex>
void main() {
	#include <uv_vertex>
	#include <color_vertex>
	#include <morphinstance_vertex>
	#include <morphcolor_vertex>
	#include <batching_vertex>
	#include <beginnormal_vertex>
	#include <morphnormal_vertex>
	#include <skinbase_vertex>
	#include <skinnormal_vertex>
	#include <defaultnormal_vertex>
	#include <normal_vertex>
	#include <begin_vertex>
	#include <morphtarget_vertex>
	#include <skinning_vertex>
	#include <displacementmap_vertex>
	#include <project_vertex>
	#include <logdepthbuf_vertex>
	#include <clipping_planes_vertex>
	vViewPosition = - mvPosition.xyz;
	#include <worldpos_vertex>
	#include <envmap_vertex>
	#include <shadowmap_vertex>
	#include <fog_vertex>
}`,Ox=`#define LAMBERT
uniform vec3 diffuse;
uniform vec3 emissive;
uniform float opacity;
#include <common>
#include <packing>
#include <dithering_pars_fragment>
#include <color_pars_fragment>
#include <uv_pars_fragment>
#include <map_pars_fragment>
#include <alphamap_pars_fragment>
#include <alphatest_pars_fragment>
#include <alphahash_pars_fragment>
#include <aomap_pars_fragment>
#include <lightmap_pars_fragment>
#include <emissivemap_pars_fragment>
#include <envmap_common_pars_fragment>
#include <envmap_pars_fragment>
#include <fog_pars_fragment>
#include <bsdfs>
#include <lights_pars_begin>
#include <normal_pars_fragment>
#include <lights_lambert_pars_fragment>
#include <shadowmap_pars_fragment>
#include <bumpmap_pars_fragment>
#include <normalmap_pars_fragment>
#include <specularmap_pars_fragment>
#include <logdepthbuf_pars_fragment>
#include <clipping_planes_pars_fragment>
void main() {
	vec4 diffuseColor = vec4( diffuse, opacity );
	#include <clipping_planes_fragment>
	ReflectedLight reflectedLight = ReflectedLight( vec3( 0.0 ), vec3( 0.0 ), vec3( 0.0 ), vec3( 0.0 ) );
	vec3 totalEmissiveRadiance = emissive;
	#include <logdepthbuf_fragment>
	#include <map_fragment>
	#include <color_fragment>
	#include <alphamap_fragment>
	#include <alphatest_fragment>
	#include <alphahash_fragment>
	#include <specularmap_fragment>
	#include <normal_fragment_begin>
	#include <normal_fragment_maps>
	#include <emissivemap_fragment>
	#include <lights_lambert_fragment>
	#include <lights_fragment_begin>
	#include <lights_fragment_maps>
	#include <lights_fragment_end>
	#include <aomap_fragment>
	vec3 outgoingLight = reflectedLight.directDiffuse + reflectedLight.indirectDiffuse + totalEmissiveRadiance;
	#include <envmap_fragment>
	#include <opaque_fragment>
	#include <tonemapping_fragment>
	#include <colorspace_fragment>
	#include <fog_fragment>
	#include <premultiplied_alpha_fragment>
	#include <dithering_fragment>
}`,bx=`#define MATCAP
varying vec3 vViewPosition;
#include <common>
#include <batching_pars_vertex>
#include <uv_pars_vertex>
#include <color_pars_vertex>
#include <displacementmap_pars_vertex>
#include <fog_pars_vertex>
#include <normal_pars_vertex>
#include <morphtarget_pars_vertex>
#include <skinning_pars_vertex>
#include <logdepthbuf_pars_vertex>
#include <clipping_planes_pars_vertex>
void main() {
	#include <uv_vertex>
	#include <color_vertex>
	#include <morphinstance_vertex>
	#include <morphcolor_vertex>
	#include <batching_vertex>
	#include <beginnormal_vertex>
	#include <morphnormal_vertex>
	#include <skinbase_vertex>
	#include <skinnormal_vertex>
	#include <defaultnormal_vertex>
	#include <normal_vertex>
	#include <begin_vertex>
	#include <morphtarget_vertex>
	#include <skinning_vertex>
	#include <displacementmap_vertex>
	#include <project_vertex>
	#include <logdepthbuf_vertex>
	#include <clipping_planes_vertex>
	#include <fog_vertex>
	vViewPosition = - mvPosition.xyz;
}`,_x=`#define MATCAP
uniform vec3 diffuse;
uniform float opacity;
uniform sampler2D matcap;
varying vec3 vViewPosition;
#include <common>
#include <dithering_pars_fragment>
#include <color_pars_fragment>
#include <uv_pars_fragment>
#include <map_pars_fragment>
#include <alphamap_pars_fragment>
#include <alphatest_pars_fragment>
#include <alphahash_pars_fragment>
#include <fog_pars_fragment>
#include <normal_pars_fragment>
#include <bumpmap_pars_fragment>
#include <normalmap_pars_fragment>
#include <logdepthbuf_pars_fragment>
#include <clipping_planes_pars_fragment>
void main() {
	vec4 diffuseColor = vec4( diffuse, opacity );
	#include <clipping_planes_fragment>
	#include <logdepthbuf_fragment>
	#include <map_fragment>
	#include <color_fragment>
	#include <alphamap_fragment>
	#include <alphatest_fragment>
	#include <alphahash_fragment>
	#include <normal_fragment_begin>
	#include <normal_fragment_maps>
	vec3 viewDir = normalize( vViewPosition );
	vec3 x = normalize( vec3( viewDir.z, 0.0, - viewDir.x ) );
	vec3 y = cross( viewDir, x );
	vec2 uv = vec2( dot( x, normal ), dot( y, normal ) ) * 0.495 + 0.5;
	#ifdef USE_MATCAP
		vec4 matcapColor = texture2D( matcap, uv );
	#else
		vec4 matcapColor = vec4( vec3( mix( 0.2, 0.8, uv.y ) ), 1.0 );
	#endif
	vec3 outgoingLight = diffuseColor.rgb * matcapColor.rgb;
	#include <opaque_fragment>
	#include <tonemapping_fragment>
	#include <colorspace_fragment>
	#include <fog_fragment>
	#include <premultiplied_alpha_fragment>
	#include <dithering_fragment>
}`,Zx=`#define NORMAL
#if defined( FLAT_SHADED ) || defined( USE_BUMPMAP ) || defined( USE_NORMALMAP_TANGENTSPACE )
	varying vec3 vViewPosition;
#endif
#include <common>
#include <batching_pars_vertex>
#include <uv_pars_vertex>
#include <displacementmap_pars_vertex>
#include <normal_pars_vertex>
#include <morphtarget_pars_vertex>
#include <skinning_pars_vertex>
#include <logdepthbuf_pars_vertex>
#include <clipping_planes_pars_vertex>
void main() {
	#include <uv_vertex>
	#include <batching_vertex>
	#include <beginnormal_vertex>
	#include <morphinstance_vertex>
	#include <morphnormal_vertex>
	#include <skinbase_vertex>
	#include <skinnormal_vertex>
	#include <defaultnormal_vertex>
	#include <normal_vertex>
	#include <begin_vertex>
	#include <morphtarget_vertex>
	#include <skinning_vertex>
	#include <displacementmap_vertex>
	#include <project_vertex>
	#include <logdepthbuf_vertex>
	#include <clipping_planes_vertex>
#if defined( FLAT_SHADED ) || defined( USE_BUMPMAP ) || defined( USE_NORMALMAP_TANGENTSPACE )
	vViewPosition = - mvPosition.xyz;
#endif
}`,Px=`#define NORMAL
uniform float opacity;
#if defined( FLAT_SHADED ) || defined( USE_BUMPMAP ) || defined( USE_NORMALMAP_TANGENTSPACE )
	varying vec3 vViewPosition;
#endif
#include <packing>
#include <uv_pars_fragment>
#include <normal_pars_fragment>
#include <bumpmap_pars_fragment>
#include <normalmap_pars_fragment>
#include <logdepthbuf_pars_fragment>
#include <clipping_planes_pars_fragment>
void main() {
	vec4 diffuseColor = vec4( 0.0, 0.0, 0.0, opacity );
	#include <clipping_planes_fragment>
	#include <logdepthbuf_fragment>
	#include <normal_fragment_begin>
	#include <normal_fragment_maps>
	gl_FragColor = vec4( packNormalToRGB( normal ), diffuseColor.a );
	#ifdef OPAQUE
		gl_FragColor.a = 1.0;
	#endif
}`,Wx=`#define PHONG
varying vec3 vViewPosition;
#include <common>
#include <batching_pars_vertex>
#include <uv_pars_vertex>
#include <displacementmap_pars_vertex>
#include <envmap_pars_vertex>
#include <color_pars_vertex>
#include <fog_pars_vertex>
#include <normal_pars_vertex>
#include <morphtarget_pars_vertex>
#include <skinning_pars_vertex>
#include <shadowmap_pars_vertex>
#include <logdepthbuf_pars_vertex>
#include <clipping_planes_pars_vertex>
void main() {
	#include <uv_vertex>
	#include <color_vertex>
	#include <morphcolor_vertex>
	#include <batching_vertex>
	#include <beginnormal_vertex>
	#include <morphinstance_vertex>
	#include <morphnormal_vertex>
	#include <skinbase_vertex>
	#include <skinnormal_vertex>
	#include <defaultnormal_vertex>
	#include <normal_vertex>
	#include <begin_vertex>
	#include <morphtarget_vertex>
	#include <skinning_vertex>
	#include <displacementmap_vertex>
	#include <project_vertex>
	#include <logdepthbuf_vertex>
	#include <clipping_planes_vertex>
	vViewPosition = - mvPosition.xyz;
	#include <worldpos_vertex>
	#include <envmap_vertex>
	#include <shadowmap_vertex>
	#include <fog_vertex>
}`,Vx=`#define PHONG
uniform vec3 diffuse;
uniform vec3 emissive;
uniform vec3 specular;
uniform float shininess;
uniform float opacity;
#include <common>
#include <packing>
#include <dithering_pars_fragment>
#include <color_pars_fragment>
#include <uv_pars_fragment>
#include <map_pars_fragment>
#include <alphamap_pars_fragment>
#include <alphatest_pars_fragment>
#include <alphahash_pars_fragment>
#include <aomap_pars_fragment>
#include <lightmap_pars_fragment>
#include <emissivemap_pars_fragment>
#include <envmap_common_pars_fragment>
#include <envmap_pars_fragment>
#include <fog_pars_fragment>
#include <bsdfs>
#include <lights_pars_begin>
#include <normal_pars_fragment>
#include <lights_phong_pars_fragment>
#include <shadowmap_pars_fragment>
#include <bumpmap_pars_fragment>
#include <normalmap_pars_fragment>
#include <specularmap_pars_fragment>
#include <logdepthbuf_pars_fragment>
#include <clipping_planes_pars_fragment>
void main() {
	vec4 diffuseColor = vec4( diffuse, opacity );
	#include <clipping_planes_fragment>
	ReflectedLight reflectedLight = ReflectedLight( vec3( 0.0 ), vec3( 0.0 ), vec3( 0.0 ), vec3( 0.0 ) );
	vec3 totalEmissiveRadiance = emissive;
	#include <logdepthbuf_fragment>
	#include <map_fragment>
	#include <color_fragment>
	#include <alphamap_fragment>
	#include <alphatest_fragment>
	#include <alphahash_fragment>
	#include <specularmap_fragment>
	#include <normal_fragment_begin>
	#include <normal_fragment_maps>
	#include <emissivemap_fragment>
	#include <lights_phong_fragment>
	#include <lights_fragment_begin>
	#include <lights_fragment_maps>
	#include <lights_fragment_end>
	#include <aomap_fragment>
	vec3 outgoingLight = reflectedLight.directDiffuse + reflectedLight.indirectDiffuse + reflectedLight.directSpecular + reflectedLight.indirectSpecular + totalEmissiveRadiance;
	#include <envmap_fragment>
	#include <opaque_fragment>
	#include <tonemapping_fragment>
	#include <colorspace_fragment>
	#include <fog_fragment>
	#include <premultiplied_alpha_fragment>
	#include <dithering_fragment>
}`,jx=`#define STANDARD
varying vec3 vViewPosition;
#ifdef USE_TRANSMISSION
	varying vec3 vWorldPosition;
#endif
#include <common>
#include <batching_pars_vertex>
#include <uv_pars_vertex>
#include <displacementmap_pars_vertex>
#include <color_pars_vertex>
#include <fog_pars_vertex>
#include <normal_pars_vertex>
#include <morphtarget_pars_vertex>
#include <skinning_pars_vertex>
#include <shadowmap_pars_vertex>
#include <logdepthbuf_pars_vertex>
#include <clipping_planes_pars_vertex>
void main() {
	#include <uv_vertex>
	#include <color_vertex>
	#include <morphinstance_vertex>
	#include <morphcolor_vertex>
	#include <batching_vertex>
	#include <beginnormal_vertex>
	#include <morphnormal_vertex>
	#include <skinbase_vertex>
	#include <skinnormal_vertex>
	#include <defaultnormal_vertex>
	#include <normal_vertex>
	#include <begin_vertex>
	#include <morphtarget_vertex>
	#include <skinning_vertex>
	#include <displacementmap_vertex>
	#include <project_vertex>
	#include <logdepthbuf_vertex>
	#include <clipping_planes_vertex>
	vViewPosition = - mvPosition.xyz;
	#include <worldpos_vertex>
	#include <shadowmap_vertex>
	#include <fog_vertex>
#ifdef USE_TRANSMISSION
	vWorldPosition = worldPosition.xyz;
#endif
}`,zx=`#define STANDARD
#ifdef PHYSICAL
	#define IOR
	#define USE_SPECULAR
#endif
uniform vec3 diffuse;
uniform vec3 emissive;
uniform float roughness;
uniform float metalness;
uniform float opacity;
#ifdef IOR
	uniform float ior;
#endif
#ifdef USE_SPECULAR
	uniform float specularIntensity;
	uniform vec3 specularColor;
	#ifdef USE_SPECULAR_COLORMAP
		uniform sampler2D specularColorMap;
	#endif
	#ifdef USE_SPECULAR_INTENSITYMAP
		uniform sampler2D specularIntensityMap;
	#endif
#endif
#ifdef USE_CLEARCOAT
	uniform float clearcoat;
	uniform float clearcoatRoughness;
#endif
#ifdef USE_DISPERSION
	uniform float dispersion;
#endif
#ifdef USE_IRIDESCENCE
	uniform float iridescence;
	uniform float iridescenceIOR;
	uniform float iridescenceThicknessMinimum;
	uniform float iridescenceThicknessMaximum;
#endif
#ifdef USE_SHEEN
	uniform vec3 sheenColor;
	uniform float sheenRoughness;
	#ifdef USE_SHEEN_COLORMAP
		uniform sampler2D sheenColorMap;
	#endif
	#ifdef USE_SHEEN_ROUGHNESSMAP
		uniform sampler2D sheenRoughnessMap;
	#endif
#endif
#ifdef USE_ANISOTROPY
	uniform vec2 anisotropyVector;
	#ifdef USE_ANISOTROPYMAP
		uniform sampler2D anisotropyMap;
	#endif
#endif
varying vec3 vViewPosition;
#include <common>
#include <packing>
#include <dithering_pars_fragment>
#include <color_pars_fragment>
#include <uv_pars_fragment>
#include <map_pars_fragment>
#include <alphamap_pars_fragment>
#include <alphatest_pars_fragment>
#include <alphahash_pars_fragment>
#include <aomap_pars_fragment>
#include <lightmap_pars_fragment>
#include <emissivemap_pars_fragment>
#include <iridescence_fragment>
#include <cube_uv_reflection_fragment>
#include <envmap_common_pars_fragment>
#include <envmap_physical_pars_fragment>
#include <fog_pars_fragment>
#include <lights_pars_begin>
#include <normal_pars_fragment>
#include <lights_physical_pars_fragment>
#include <transmission_pars_fragment>
#include <shadowmap_pars_fragment>
#include <bumpmap_pars_fragment>
#include <normalmap_pars_fragment>
#include <clearcoat_pars_fragment>
#include <iridescence_pars_fragment>
#include <roughnessmap_pars_fragment>
#include <metalnessmap_pars_fragment>
#include <logdepthbuf_pars_fragment>
#include <clipping_planes_pars_fragment>
void main() {
	vec4 diffuseColor = vec4( diffuse, opacity );
	#include <clipping_planes_fragment>
	ReflectedLight reflectedLight = ReflectedLight( vec3( 0.0 ), vec3( 0.0 ), vec3( 0.0 ), vec3( 0.0 ) );
	vec3 totalEmissiveRadiance = emissive;
	#include <logdepthbuf_fragment>
	#include <map_fragment>
	#include <color_fragment>
	#include <alphamap_fragment>
	#include <alphatest_fragment>
	#include <alphahash_fragment>
	#include <roughnessmap_fragment>
	#include <metalnessmap_fragment>
	#include <normal_fragment_begin>
	#include <normal_fragment_maps>
	#include <clearcoat_normal_fragment_begin>
	#include <clearcoat_normal_fragment_maps>
	#include <emissivemap_fragment>
	#include <lights_physical_fragment>
	#include <lights_fragment_begin>
	#include <lights_fragment_maps>
	#include <lights_fragment_end>
	#include <aomap_fragment>
	vec3 totalDiffuse = reflectedLight.directDiffuse + reflectedLight.indirectDiffuse;
	vec3 totalSpecular = reflectedLight.directSpecular + reflectedLight.indirectSpecular;
	#include <transmission_fragment>
	vec3 outgoingLight = totalDiffuse + totalSpecular + totalEmissiveRadiance;
	#ifdef USE_SHEEN
		float sheenEnergyComp = 1.0 - 0.157 * max3( material.sheenColor );
		outgoingLight = outgoingLight * sheenEnergyComp + sheenSpecularDirect + sheenSpecularIndirect;
	#endif
	#ifdef USE_CLEARCOAT
		float dotNVcc = saturate( dot( geometryClearcoatNormal, geometryViewDir ) );
		vec3 Fcc = F_Schlick( material.clearcoatF0, material.clearcoatF90, dotNVcc );
		outgoingLight = outgoingLight * ( 1.0 - material.clearcoat * Fcc ) + ( clearcoatSpecularDirect + clearcoatSpecularIndirect ) * material.clearcoat;
	#endif
	#include <opaque_fragment>
	#include <tonemapping_fragment>
	#include <colorspace_fragment>
	#include <fog_fragment>
	#include <premultiplied_alpha_fragment>
	#include <dithering_fragment>
}`,Xx=`#define TOON
varying vec3 vViewPosition;
#include <common>
#include <batching_pars_vertex>
#include <uv_pars_vertex>
#include <displacementmap_pars_vertex>
#include <color_pars_vertex>
#include <fog_pars_vertex>
#include <normal_pars_vertex>
#include <morphtarget_pars_vertex>
#include <skinning_pars_vertex>
#include <shadowmap_pars_vertex>
#include <logdepthbuf_pars_vertex>
#include <clipping_planes_pars_vertex>
void main() {
	#include <uv_vertex>
	#include <color_vertex>
	#include <morphinstance_vertex>
	#include <morphcolor_vertex>
	#include <batching_vertex>
	#include <beginnormal_vertex>
	#include <morphnormal_vertex>
	#include <skinbase_vertex>
	#include <skinnormal_vertex>
	#include <defaultnormal_vertex>
	#include <normal_vertex>
	#include <begin_vertex>
	#include <morphtarget_vertex>
	#include <skinning_vertex>
	#include <displacementmap_vertex>
	#include <project_vertex>
	#include <logdepthbuf_vertex>
	#include <clipping_planes_vertex>
	vViewPosition = - mvPosition.xyz;
	#include <worldpos_vertex>
	#include <shadowmap_vertex>
	#include <fog_vertex>
}`,$x=`#define TOON
uniform vec3 diffuse;
uniform vec3 emissive;
uniform float opacity;
#include <common>
#include <packing>
#include <dithering_pars_fragment>
#include <color_pars_fragment>
#include <uv_pars_fragment>
#include <map_pars_fragment>
#include <alphamap_pars_fragment>
#include <alphatest_pars_fragment>
#include <alphahash_pars_fragment>
#include <aomap_pars_fragment>
#include <lightmap_pars_fragment>
#include <emissivemap_pars_fragment>
#include <gradientmap_pars_fragment>
#include <fog_pars_fragment>
#include <bsdfs>
#include <lights_pars_begin>
#include <normal_pars_fragment>
#include <lights_toon_pars_fragment>
#include <shadowmap_pars_fragment>
#include <bumpmap_pars_fragment>
#include <normalmap_pars_fragment>
#include <logdepthbuf_pars_fragment>
#include <clipping_planes_pars_fragment>
void main() {
	vec4 diffuseColor = vec4( diffuse, opacity );
	#include <clipping_planes_fragment>
	ReflectedLight reflectedLight = ReflectedLight( vec3( 0.0 ), vec3( 0.0 ), vec3( 0.0 ), vec3( 0.0 ) );
	vec3 totalEmissiveRadiance = emissive;
	#include <logdepthbuf_fragment>
	#include <map_fragment>
	#include <color_fragment>
	#include <alphamap_fragment>
	#include <alphatest_fragment>
	#include <alphahash_fragment>
	#include <normal_fragment_begin>
	#include <normal_fragment_maps>
	#include <emissivemap_fragment>
	#include <lights_toon_fragment>
	#include <lights_fragment_begin>
	#include <lights_fragment_maps>
	#include <lights_fragment_end>
	#include <aomap_fragment>
	vec3 outgoingLight = reflectedLight.directDiffuse + reflectedLight.indirectDiffuse + totalEmissiveRadiance;
	#include <opaque_fragment>
	#include <tonemapping_fragment>
	#include <colorspace_fragment>
	#include <fog_fragment>
	#include <premultiplied_alpha_fragment>
	#include <dithering_fragment>
}`,A2=`uniform float size;
uniform float scale;
#include <common>
#include <color_pars_vertex>
#include <fog_pars_vertex>
#include <morphtarget_pars_vertex>
#include <logdepthbuf_pars_vertex>
#include <clipping_planes_pars_vertex>
#ifdef USE_POINTS_UV
	varying vec2 vUv;
	uniform mat3 uvTransform;
#endif
void main() {
	#ifdef USE_POINTS_UV
		vUv = ( uvTransform * vec3( uv, 1 ) ).xy;
	#endif
	#include <color_vertex>
	#include <morphinstance_vertex>
	#include <morphcolor_vertex>
	#include <begin_vertex>
	#include <morphtarget_vertex>
	#include <project_vertex>
	gl_PointSize = size;
	#ifdef USE_SIZEATTENUATION
		bool isPerspective = isPerspectiveMatrix( projectionMatrix );
		if ( isPerspective ) gl_PointSize *= ( scale / - mvPosition.z );
	#endif
	#include <logdepthbuf_vertex>
	#include <clipping_planes_vertex>
	#include <worldpos_vertex>
	#include <fog_vertex>
}`,I2=`uniform vec3 diffuse;
uniform float opacity;
#include <common>
#include <color_pars_fragment>
#include <map_particle_pars_fragment>
#include <alphatest_pars_fragment>
#include <alphahash_pars_fragment>
#include <fog_pars_fragment>
#include <logdepthbuf_pars_fragment>
#include <clipping_planes_pars_fragment>
void main() {
	vec4 diffuseColor = vec4( diffuse, opacity );
	#include <clipping_planes_fragment>
	vec3 outgoingLight = vec3( 0.0 );
	#include <logdepthbuf_fragment>
	#include <map_particle_fragment>
	#include <color_fragment>
	#include <alphatest_fragment>
	#include <alphahash_fragment>
	outgoingLight = diffuseColor.rgb;
	#include <opaque_fragment>
	#include <tonemapping_fragment>
	#include <colorspace_fragment>
	#include <fog_fragment>
	#include <premultiplied_alpha_fragment>
}`,g2=`#include <common>
#include <batching_pars_vertex>
#include <fog_pars_vertex>
#include <morphtarget_pars_vertex>
#include <skinning_pars_vertex>
#include <logdepthbuf_pars_vertex>
#include <shadowmap_pars_vertex>
void main() {
	#include <batching_vertex>
	#include <beginnormal_vertex>
	#include <morphinstance_vertex>
	#include <morphnormal_vertex>
	#include <skinbase_vertex>
	#include <skinnormal_vertex>
	#include <defaultnormal_vertex>
	#include <begin_vertex>
	#include <morphtarget_vertex>
	#include <skinning_vertex>
	#include <project_vertex>
	#include <logdepthbuf_vertex>
	#include <worldpos_vertex>
	#include <shadowmap_vertex>
	#include <fog_vertex>
}`,C2=`uniform vec3 color;
uniform float opacity;
#include <common>
#include <packing>
#include <fog_pars_fragment>
#include <bsdfs>
#include <lights_pars_begin>
#include <logdepthbuf_pars_fragment>
#include <shadowmap_pars_fragment>
#include <shadowmask_pars_fragment>
void main() {
	#include <logdepthbuf_fragment>
	gl_FragColor = vec4( color, opacity * ( 1.0 - getShadowMask() ) );
	#include <tonemapping_fragment>
	#include <colorspace_fragment>
	#include <fog_fragment>
}`,B2=`uniform float rotation;
uniform vec2 center;
#include <common>
#include <uv_pars_vertex>
#include <fog_pars_vertex>
#include <logdepthbuf_pars_vertex>
#include <clipping_planes_pars_vertex>
void main() {
	#include <uv_vertex>
	vec4 mvPosition = modelViewMatrix * vec4( 0.0, 0.0, 0.0, 1.0 );
	vec2 scale;
	scale.x = length( vec3( modelMatrix[ 0 ].x, modelMatrix[ 0 ].y, modelMatrix[ 0 ].z ) );
	scale.y = length( vec3( modelMatrix[ 1 ].x, modelMatrix[ 1 ].y, modelMatrix[ 1 ].z ) );
	#ifndef USE_SIZEATTENUATION
		bool isPerspective = isPerspectiveMatrix( projectionMatrix );
		if ( isPerspective ) scale *= - mvPosition.z;
	#endif
	vec2 alignedPosition = ( position.xy - ( center - vec2( 0.5 ) ) ) * scale;
	vec2 rotatedPosition;
	rotatedPosition.x = cos( rotation ) * alignedPosition.x - sin( rotation ) * alignedPosition.y;
	rotatedPosition.y = sin( rotation ) * alignedPosition.x + cos( rotation ) * alignedPosition.y;
	mvPosition.xy += rotatedPosition;
	gl_Position = projectionMatrix * mvPosition;
	#include <logdepthbuf_vertex>
	#include <clipping_planes_vertex>
	#include <fog_vertex>
}`,i2=`uniform vec3 diffuse;
uniform float opacity;
#include <common>
#include <uv_pars_fragment>
#include <map_pars_fragment>
#include <alphamap_pars_fragment>
#include <alphatest_pars_fragment>
#include <alphahash_pars_fragment>
#include <fog_pars_fragment>
#include <logdepthbuf_pars_fragment>
#include <clipping_planes_pars_fragment>
void main() {
	vec4 diffuseColor = vec4( diffuse, opacity );
	#include <clipping_planes_fragment>
	vec3 outgoingLight = vec3( 0.0 );
	#include <logdepthbuf_fragment>
	#include <map_fragment>
	#include <alphamap_fragment>
	#include <alphatest_fragment>
	#include <alphahash_fragment>
	outgoingLight = diffuseColor.rgb;
	#include <opaque_fragment>
	#include <tonemapping_fragment>
	#include <colorspace_fragment>
	#include <fog_fragment>
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VA(16777215)},opacity:{value:1},map:{value:null},mapTransform:{value:new YI},alphaMap:{value:null},alphaMapTransform:{value:new YI},alphaTest:{value:0}},specularmap:{specularMap:{value:null},specularMapTransform:{value:new YI}},envmap:{envMap:{value:null},envMapRotation:{value:new YI},flipEnvMap:{value:-1},reflectivity:{value:1},ior:{value:1.5},refractionRatio:{value:.98}},aomap:{aoMap:{value:null},aoMapIntensity:{value:1},aoMapTransform:{value:new YI}},lightmap:{lightMap:{value:null},lightMapIntensity:{value:1},lightMapTransform:{value:new YI}},bumpmap:{bumpMap:{value:null},bumpMapTransform:{value:new YI},bumpScale:{value:1}},normalmap:{normalMap:{value:null},normalMapTransform:{value:new YI},normalScale:{value:new pA(1,1)}},displacementmap:{displacementMap:{value:null},displacementMapTransform:{value:new YI},displacementScale:{value:1},displacementBias:{value:0}},emissivemap:{emissiveMap:{value:null},emissiveMapTransform:{value:new 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VA(16777215)}},lights:{ambientLightColor:{value:[]},lightProbe:{value:[]},directionalLights:{value:[],properties:{direction:{},color:{}}},directionalLightShadows:{value:[],properties:{shadowBias:{},shadowNormalBias:{},shadowRadius:{},shadowMapSize:{}}},directionalShadowMap:{value:[]},directionalShadowMatrix:{value:[]},spotLights:{value:[],properties:{color:{},position:{},direction:{},distance:{},coneCos:{},penumbraCos:{},decay:{}}},spotLightShadows:{value:[],properties:{shadowBias:{},shadowNormalBias:{},shadowRadius:{},shadowMapSize:{}}},spotLightMap:{value:[]},spotShadowMap:{value:[]},spotLightMatrix:{value:[]},pointLights:{value:[],properties:{color:{},position:{},decay:{},distance:{}}},pointLightShadows:{value:[],properties:{shadowBias:{},shadowNormalBias:{},shadowRadius:{},shadowMapSize:{},shadowCameraNear:{},shadowCameraFar:{}}},pointShadowMap:{value:[]},pointShadowMatrix:{value:[]},hemisphereLights:{value:[],properties:{direction:{},skyColor:{},groundColor:{}}},rectAreaLights:{value:[],properties:{color:{},position:{},width:{},height:{}}},ltc_1:{value:null},ltc_2:{value:null}},points:{diffuse:{value:new VA(16777215)},opacity:{value:1},size:{value:1},scale:{value:1},map:{value:null},alphaMap:{value:null},alphaMapTransform:{value:new YI},alphaTest:{value:0},uvTransform:{value:new YI}},sprite:{diffuse:{value:new VA(16777215)},opacity:{value:1},center:{value:new pA(.5,.5)},rotation:{value:0},map:{value:null},mapTransform:{value:new YI},alphaMap:{value:null},alphaMapTransform:{value:new YI},alphaTest:{value:0}}},Gi={basic:{uniforms:AB([zA.common,zA.specularmap,zA.envmap,zA.aomap,zA.lightmap,zA.fog]),vertexShader:LI.meshbasic_vert,fragmentShader:LI.meshbasic_frag},lambert:{uniforms:AB([zA.common,zA.specularmap,zA.envmap,zA.aomap,zA.lightmap,zA.emissivemap,zA.bumpmap,zA.normalmap,zA.displacementmap,zA.fog,zA.lights,{emissive:{value:new VA(0)}}]),vertexShader:LI.meshlambert_vert,fragmentShader:LI.meshlambert_frag},phong:{uniforms:AB([zA.common,zA.specularmap,zA.envmap,zA.aomap,zA.lightmap,zA.emissivemap,zA.bumpmap,zA.normalmap,zA.displacementmap,zA.fog,zA.lights,{emissive:{value:new VA(0)},specular:{value:new VA(1118481)},shininess:{value:30}}]),vertexShader:LI.meshphong_vert,fragmentShader:LI.meshphong_frag},standard:{uniforms:AB([zA.common,zA.envmap,zA.aomap,zA.lightmap,zA.emissivemap,zA.bumpmap,zA.normalmap,zA.displacementmap,zA.roughnessmap,zA.metalnessmap,zA.fog,zA.lights,{emissive:{value:new VA(0)},roughness:{value:1},metalness:{value:0},envMapIntensity:{value:1}}]),vertexShader:LI.meshphysical_vert,fragmentShader:LI.meshphysical_frag},toon:{uniforms:AB([zA.common,zA.aomap,zA.lightmap,zA.emissivemap,zA.bumpmap,zA.normalmap,zA.displacementmap,zA.gradientmap,zA.fog,zA.lights,{emissive:{value:new 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YI},t2D:{value:null},backgroundIntensity:{value:1}},vertexShader:LI.background_vert,fragmentShader:LI.background_frag},backgroundCube:{uniforms:{envMap:{value:null},flipEnvMap:{value:-1},backgroundBlurriness:{value:0},backgroundIntensity:{value:1},backgroundRotation:{value:new YI}},vertexShader:LI.backgroundCube_vert,fragmentShader:LI.backgroundCube_frag},cube:{uniforms:{tCube:{value:null},tFlip:{value:-1},opacity:{value:1}},vertexShader:LI.cube_vert,fragmentShader:LI.cube_frag},equirect:{uniforms:{tEquirect:{value:null}},vertexShader:LI.equirect_vert,fragmentShader:LI.equirect_frag},distanceRGBA:{uniforms:AB([zA.common,zA.displacementmap,{referencePosition:{value:new T},nearDistance:{value:1},farDistance:{value:1e3}}]),vertexShader:LI.distanceRGBA_vert,fragmentShader:LI.distanceRGBA_frag},shadow:{uniforms:AB([zA.lights,zA.fog,{color:{value:new 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3:g.vertexAttrib3fv(O.location,X);break;case 4:g.vertexAttrib4fv(O.location,X);break;default:g.vertexAttrib1fv(O.location,X)}}}}w()}function f(){q();for(const N in C){const m=C[N];for(const P in m){const z=m[P];for(const IA in z)a(z[IA].object),delete z[IA];delete m[P]}delete C[N]}}function F(N){if(C[N.id]===void 0)return;const m=C[N.id];for(const P in m){const z=m[P];for(const IA in z)a(z[IA].object),delete z[IA];delete m[P]}delete C[N.id]}function J(N){for(const m in C){const P=C[m];if(P[N.id]===void 0)continue;const z=P[N.id];for(const IA in z)a(z[IA].object),delete z[IA];delete P[N.id]}}function q(){K(),Q=!0,i!==B&&(i=B,n(i.object))}function K(){B.geometry=null,B.program=null,B.wireframe=!1}return{setup:E,reset:q,resetDefaultState:K,dispose:f,releaseStatesOfGeometry:F,releaseStatesOfProgram:J,initAttributes:y,enableAttribute:S,disableUnusedAttributes:w}}function t2(g,A,I){let C;function B(n){C=n}function i(n,a){g.drawArrays(C,n,a),I.update(a,C,1)}function Q(n,a,s){s!==0&&(g.drawArraysInstanced(C,n,a,s),I.update(a,C,s))}function E(n,a,s){if(s===0)return;const r=A.get("WEBGL_multi_draw");if(r===null)for(let D=0;D<s;D++)this.render(n[D],a[D]);else{r.multiDrawArraysWEBGL(C,n,0,a,0,s);let D=0;for(let c=0;c<s;c++)D+=a[c];I.update(D,C,1)}}function e(n,a,s,r){if(s===0)return;const D=A.get("WEBGL_multi_draw");if(D===null)for(let c=0;c<n.length;c++)Q(n[c],a[c],r[c]);else{D.multiDrawArraysInstancedWEBGL(C,n,0,a,0,r,0,s);let c=0;for(let y=0;y<s;y++)c+=a[y];for(let y=0;y<r.length;y++)I.update(c,C,r[y])}}this.setMode=B,this.render=i,this.renderInstances=Q,this.renderMultiDraw=E,this.renderMultiDrawInstances=e}function o2(g,A,I,C){let B;function i(){if(B!==void 0)return B;if(A.has("EXT_texture_filter_anisotropic")===!0){const F=A.get("EXT_texture_filter_anisotropic");B=g.getParameter(F.MAX_TEXTURE_MAX_ANISOTROPY_EXT)}else B=0;return B}function Q(F){return!(F!==CC&&C.convert(F)!==g.getParameter(g.IMPLEMENTATION_COLOR_READ_FORMAT))}function E(F){const J=F===dC&&(A.has("EXT_color_buffer_half_float")||A.has("EXT_color_buffer_float"));return!(F!==RB&&C.convert(F)!==g.getParameter(g.IMPLEMENTATION_COLOR_READ_TYPE)&&F!==_g&&!J)}function e(F){if(F==="highp"){if(g.getShaderPrecisionFormat(g.VERTEX_SHADER,g.HIGH_FLOAT).precision>0&&g.getShaderPrecisionFormat(g.FRAGMENT_SHADER,g.HIGH_FLOAT).precision>0)return"highp";F="mediump"}return F==="mediump"&&g.getShaderPrecisionFormat(g.VERTEX_SHADER,g.MEDIUM_FLOAT).precision>0&&g.getShaderPrecisionFormat(g.FRAGMENT_SHADER,g.MEDIUM_FLOAT).precision>0?"mediump":"lowp"}let n=I.precision!==void 0?I.precision:"highp";const a=e(n);a!==n&&(console.warn("THREE.WebGLRenderer:",n,"not supported, using",a,"instead."),n=a);const s=I.logarithmicDepthBuffer===!0,r=g.getParameter(g.MAX_TEXTURE_IMAGE_UNITS),D=g.getParameter(g.MAX_VERTEX_TEXTURE_IMAGE_UNITS),c=g.getParameter(g.MAX_TEXTURE_SIZE),y=g.getParameter(g.MAX_CUBE_MAP_TEXTURE_SIZE),S=g.getParameter(g.MAX_VERTEX_ATTRIBS),l=g.getParameter(g.MAX_VERTEX_UNIFORM_VECTORS),w=g.getParameter(g.MAX_VARYING_VECTORS),k=g.getParameter(g.MAX_FRAGMENT_UNIFORM_VECTORS),U=D>0,f=g.getParameter(g.MAX_SAMPLES);return{isWebGL2:!0,getMaxAnisotropy:i,getMaxPrecision:e,textureFormatReadable:Q,textureTypeReadable:E,precision:n,logarithmicDepthBuffer:s,maxTextures:r,maxVertexTextures:D,maxTextureSize:c,maxCubemapSize:y,maxAttributes:S,maxVertexUniforms:l,maxVaryings:w,maxFragmentUniforms:k,vertexTextures:U,maxSamples:f}}function n2(g){const A=this;let I=null,C=0,B=!1,i=!1;const Q=new EE,E=new YI,e={value:null,needsUpdate:!1};this.uniform=e,this.numPlanes=0,this.numIntersection=0,this.init=function(s,r){const D=s.length!==0||r||C!==0||B;return B=r,C=s.length,D},this.beginShadows=function(){i=!0,a(null)},this.endShadows=function(){i=!1},this.setGlobalState=function(s,r){I=a(s,r,0)},this.setState=function(s,r,D){const c=s.clippingPlanes,y=s.clipIntersection,S=s.clipShadows,l=g.get(s);if(!B||c===null||c.length===0||i&&!S)i?a(null):n();else{const w=i?0:C,k=w*4;let U=l.clippingState||null;e.value=U,U=a(c,r,k,D);for(let f=0;f!==k;++f)U[f]=I[f];l.clippingState=U,this.numIntersection=y?this.numPlanes:0,this.numPlanes+=w}};function n(){e.value!==I&&(e.value=I,e.needsUpdate=C>0),A.numPlanes=C,A.numIntersection=0}function a(s,r,D,c){const y=s!==null?s.length:0;let S=null;if(y!==0){if(S=e.value,c!==!0||S===null){const l=D+y*4,w=r.matrixWorldInverse;E.getNormalMatrix(w),(S===null||S.length<l)&&(S=new Float32Array(l));for(let k=0,U=D;k!==y;++k,U+=4)Q.copy(s[k]).applyMatrix4(w,E),Q.normal.toArray(S,U),S[U+3]=Q.constant}e.value=S,e.needsUpdate=!0}return A.numPlanes=y,A.numIntersection=0,S}}function a2(g){let A=new WeakMap;function I(Q,E){return E===po?Q.mapping=$i:E===Ra&&(Q.mapping=pE),Q}function C(Q){if(Q&&Q.isTexture){const E=Q.mapping;if(E===po||E===Ra)if(A.has(Q)){const e=A.get(Q).texture;return I(e,Q.mapping)}else{const e=Q.image;if(e&&e.height>0){const n=new Pk(e.height);return n.fromEquirectangularTexture(g,Q),A.set(Q,n),Q.addEventListener("dispose",B),I(n.texture,Q.mapping)}else return null}}return Q}function B(Q){const E=Q.target;E.removeEventListener("dispose",B);const e=A.get(E);e!==void 0&&(A.delete(E),e.dispose())}function i(){A=new WeakMap}return{get:C,dispose:i}}class gt extends ts{constructor(A=-1,I=1,C=1,B=-1,i=.1,Q=2e3){super(),this.isOrthographicCamera=!0,this.type="OrthographicCamera",this.zoom=1,this.view=null,this.left=A,this.right=I,this.top=C,this.bottom=B,this.near=i,this.far=Q,this.updateProjectionMatrix()}copy(A,I){return super.copy(A,I),this.left=A.left,this.right=A.right,this.top=A.top,this.bottom=A.bottom,this.near=A.near,this.far=A.far,this.zoom=A.zoom,this.view=A.view===null?null:Object.assign({},A.view),this}setViewOffset(A,I,C,B,i,Q){this.view===null&&(this.view={enabled:!0,fullWidth:1,fullHeight:1,offsetX:0,offsetY:0,width:1,height:1}),this.view.enabled=!0,this.view.fullWidth=A,this.view.fullHeight=I,this.view.offsetX=C,this.view.offsetY=B,this.view.width=i,this.view.height=Q,this.updateProjectionMatrix()}clearViewOffset(){this.view!==null&&(this.view.enabled=!1),this.updateProjectionMatrix()}updateProjectionMatrix(){const A=(this.right-this.left)/(2*this.zoom),I=(this.top-this.bottom)/(2*this.zoom),C=(this.right+this.left)/2,B=(this.top+this.bottom)/2;let i=C-A,Q=C+A,E=B+I,e=B-I;if(this.view!==null&&this.view.enabled){const n=(this.right-this.left)/this.view.fullWidth/this.zoom,a=(this.top-this.bottom)/this.view.fullHeight/this.zoom;i+=n*this.view.offsetX,Q=i+n*this.view.width,E-=a*this.view.offsetY,e=E-a*this.view.height}this.projectionMatrix.makeOrthographic(i,Q,E,e,this.near,this.far,this.coordinateSystem),this.projectionMatrixInverse.copy(this.projectionMatrix).invert()}toJSON(A){const I=super.toJSON(A);return I.object.zoom=this.zoom,I.object.left=this.left,I.object.right=this.right,I.object.top=this.top,I.object.bottom=this.bottom,I.object.near=this.near,I.object.far=this.far,this.view!==null&&(I.object.view=Object.assign({},this.view)),I}}const Eo=4,pd=[.125,.215,.35,.446,.526,.582],De=20,Cw=new gt,Nd=new VA;let Bw=null,iw=0,Qw=0,Ew=!1;const re=(1+Math.sqrt(5))/2,mt=1/re,Fd=[new T(-re,mt,0),new T(re,mt,0),new T(-mt,0,re),new T(mt,0,re),new T(0,re,-mt),new T(0,re,mt),new T(-1,1,-1),new T(1,1,-1),new T(-1,1,1),new T(1,1,1)];class Sy{constructor(A){this._renderer=A,this._pingPongRenderTarget=null,this._lodMax=0,this._cubeSize=0,this._lodPlanes=[],this._sizeLods=[],this._sigmas=[],this._blurMaterial=null,this._cubemapMaterial=null,this._equirectMaterial=null,this._compileMaterial(this._blurMaterial)}fromScene(A,I=0,C=.1,B=100){Bw=this._renderer.getRenderTarget(),iw=this._renderer.getActiveCubeFace(),Qw=this._renderer.getActiveMipmapLevel(),Ew=this._renderer.xr.enabled,this._renderer.xr.enabled=!1,this._setSize(256);const i=this._allocateTargets();return i.depthBuffer=!0,this._sceneToCubeUV(A,C,B,i),I>0&&this._blur(i,0,0,I),this._applyPMREM(i),this._cleanup(i),i}fromEquirectangular(A,I=null){return this._fromTexture(A,I)}fromCubemap(A,I=null){return this._fromTexture(A,I)}compileCubemapShader(){this._cubemapMaterial===null&&(this._cubemapMaterial=Rd(),this._compileMaterial(this._cubemapMaterial))}compileEquirectangularShader(){this._equirectMaterial===null&&(this._equirectMaterial=Jd(),this._compileMaterial(this._equirectMaterial))}dispose(){this._dispose(),this._cubemapMaterial!==null&&this._cubemapMaterial.dispose(),this._equirectMaterial!==null&&this._equirectMaterial.dispose()}_setSize(A){this._lodMax=Math.floor(Math.log2(A)),this._cubeSize=Math.pow(2,this._lodMax)}_dispose(){this._blurMaterial!==null&&this._blurMaterial.dispose(),this._pingPongRenderTarget!==null&&this._pingPongRenderTarget.dispose();for(let A=0;A<this._lodPlanes.length;A++)this._lodPlanes[A].dispose()}_cleanup(A){this._renderer.setRenderTarget(Bw,iw,Qw),this._renderer.xr.enabled=Ew,A.scissorTest=!1,AD(A,0,0,A.width,A.height)}_fromTexture(A,I){A.mapping===$i||A.mapping===pE?this._setSize(A.image.length===0?16:A.image[0].width||A.image[0].image.width):this._setSize(A.image.width/4),Bw=this._renderer.getRenderTarget(),iw=this._renderer.getActiveCubeFace(),Qw=this._renderer.getActiveMipmapLevel(),Ew=this._renderer.xr.enabled,this._renderer.xr.enabled=!1;const C=I||this._allocateTargets();return this._textureToCubeUV(A,C),this._applyPMREM(C),this._cleanup(C),C}_allocateTargets(){const A=3*Math.max(this._cubeSize,112),I=4*this._cubeSize,C={magFilter:tg,minFilter:tg,generateMipmaps:!1,type:dC,format:CC,colorSpace:ii,depthBuffer:!1},B=Kd(A,I,C);if(this._pingPongRenderTarget===null||this._pingPongRenderTarget.width!==A||this._pingPongRenderTarget.height!==I){this._pingPongRenderTarget!==null&&this._dispose(),this._pingPongRenderTarget=Kd(A,I,C);const{_lodMax:i}=this;({sizeLods:this._sizeLods,lodPlanes:this._lodPlanes,sigmas:this._sigmas}=s2(i)),this._blurMaterial=r2(i,A,I)}return B}_compileMaterial(A){const I=new Jg(this._lodPlanes[0],A);this._renderer.compile(I,Cw)}_sceneToCubeUV(A,I,C,B){const E=new eC(90,1,I,C),e=[1,-1,1,1,1,1],n=[1,1,1,-1,-1,-1],a=this._renderer,s=a.autoClear,r=a.toneMapping;a.getClearColor(Nd),a.toneMapping=Vi,a.autoClear=!1;const D=new rB({name:"PMREM.Background",side:BB,depthWrite:!1,depthTest:!1}),c=new Jg(new It,D);let y=!1;const S=A.background;S?S.isColor&&(D.color.copy(S),A.background=null,y=!0):(D.color.copy(Nd),y=!0);for(let l=0;l<6;l++){const w=l%3;w===0?(E.up.set(0,e[l],0),E.lookAt(n[l],0,0)):w===1?(E.up.set(0,0,e[l]),E.lookAt(0,n[l],0)):(E.up.set(0,e[l],0),E.lookAt(0,0,n[l]));const k=this._cubeSize;AD(B,w*k,l>2?k:0,k,k),a.setRenderTarget(B),y&&a.render(c,E),a.render(A,E)}c.geometry.dispose(),c.material.dispose(),a.toneMapping=r,a.autoClear=s,A.background=S}_textureToCubeUV(A,I){const C=this._renderer,B=A.mapping===$i||A.mapping===pE;B?(this._cubemapMaterial===null&&(this._cubemapMaterial=Rd()),this._cubemapMaterial.uniforms.flipEnvMap.value=A.isRenderTargetTexture===!1?-1:1):this._equirectMaterial===null&&(this._equirectMaterial=Jd());const i=B?this._cubemapMaterial:this._equirectMaterial,Q=new Jg(this._lodPlanes[0],i),E=i.uniforms;E.envMap.value=A;const e=this._cubeSize;AD(I,0,0,3*e,2*e),C.setRenderTarget(I),C.render(Q,Cw)}_applyPMREM(A){const I=this._renderer,C=I.autoClear;I.autoClear=!1;const B=this._lodPlanes.length;for(let i=1;i<B;i++){const Q=Math.sqrt(this._sigmas[i]*this._sigmas[i]-this._sigmas[i-1]*this._sigmas[i-1]),E=Fd[(B-i-1)%Fd.length];this._blur(A,i-1,i,Q,E)}I.autoClear=C}_blur(A,I,C,B,i){const Q=this._pingPongRenderTarget;this._halfBlur(A,Q,I,C,B,"latitudinal",i),this._halfBlur(Q,A,C,C,B,"longitudinal",i)}_halfBlur(A,I,C,B,i,Q,E){const e=this._renderer,n=this._blurMaterial;Q!=="latitudinal"&&Q!=="longitudinal"&&console.error("blur direction must be either latitudinal or longitudinal!");const a=3,s=new Jg(this._lodPlanes[B],n),r=n.uniforms,D=this._sizeLods[C]-1,c=isFinite(i)?Math.PI/(2*D):2*Math.PI/(2*De-1),y=i/c,S=isFinite(i)?1+Math.floor(a*y):De;S>De&&console.warn(`sigmaRadians, ${i}, is too large and will clip, as it requested ${S} samples when the maximum is set to ${De}`);const l=[];let w=0;for(let J=0;J<De;++J){const q=J/y,K=Math.exp(-q*q/2);l.push(K),J===0?w+=K:J<S&&(w+=2*K)}for(let J=0;J<l.length;J++)l[J]=l[J]/w;r.envMap.value=A.texture,r.samples.value=S,r.weights.value=l,r.latitudinal.value=Q==="latitudinal",E&&(r.poleAxis.value=E);const{_lodMax:k}=this;r.dTheta.value=c,r.mipInt.value=k-C;const U=this._sizeLods[B],f=3*U*(B>k-Eo?B-k+Eo:0),F=4*(this._cubeSize-U);AD(I,f,F,3*U,2*U),e.setRenderTarget(I),e.render(s,Cw)}}function s2(g){const A=[],I=[],C=[];let B=g;const i=g-Eo+1+pd.length;for(let Q=0;Q<i;Q++){const E=Math.pow(2,B);I.push(E);let e=1/E;Q>g-Eo?e=pd[Q-g+Eo-1]:Q===0&&(e=0),C.push(e);const n=1/(E-2),a=-n,s=1+n,r=[a,a,s,a,s,s,a,a,s,s,a,s],D=6,c=6,y=3,S=2,l=1,w=new Float32Array(y*c*D),k=new Float32Array(S*c*D),U=new Float32Array(l*c*D);for(let F=0;F<D;F++){const J=F%3*2/3-1,q=F>2?0:-1,K=[J,q,0,J+2/3,q,0,J+2/3,q+1,0,J,q,0,J+2/3,q+1,0,J,q+1,0];w.set(K,y*c*F),k.set(r,S*c*F);const N=[F,F,F,F,F,F];U.set(N,l*c*F)}const f=new FI;f.setAttribute("position",new pI(w,y)),f.setAttribute("uv",new pI(k,S)),f.setAttribute("faceIndex",new pI(U,l)),A.push(f),B>Eo&&B--}return{lodPlanes:A,sizeLods:I,sigmas:C}}function Kd(g,A,I){const C=new fB(g,A,I);return C.texture.mapping=Oo,C.texture.name="PMREM.cubeUv",C.scissorTest=!0,C}function AD(g,A,I,C,B){g.viewport.set(A,I,C,B),g.scissor.set(A,I,C,B)}function r2(g,A,I){const C=new Float32Array(De),B=new T(0,1,0);return new iB({name:"SphericalGaussianBlur",defines:{n:De,CUBEUV_TEXEL_WIDTH:1/A,CUBEUV_TEXEL_HEIGHT:1/I,CUBEUV_MAX_MIP:`${g}.0`},uniforms:{envMap:{value:null},samples:{value:1},weights:{value:C},latitudinal:{value:!1},dTheta:{value:0},mipInt:{value:0},poleAxis:{value:B}},vertexShader:Wk(),fragmentShader:`

			precision mediump float;
			precision mediump int;

			varying vec3 vOutputDirection;

			uniform sampler2D envMap;
			uniform int samples;
			uniform float weights[ n ];
			uniform bool latitudinal;
			uniform float dTheta;
			uniform float mipInt;
			uniform vec3 poleAxis;

			#define ENVMAP_TYPE_CUBE_UV
			#include <cube_uv_reflection_fragment>

			vec3 getSample( float theta, vec3 axis ) {

				float cosTheta = cos( theta );
				// Rodrigues' axis-angle rotation
				vec3 sampleDirection = vOutputDirection * cosTheta
					+ cross( axis, vOutputDirection ) * sin( theta )
					+ axis * dot( axis, vOutputDirection ) * ( 1.0 - cosTheta );

				return bilinearCubeUV( envMap, sampleDirection, mipInt );

			}

			void main() {

				vec3 axis = latitudinal ? poleAxis : cross( poleAxis, vOutputDirection );

				if ( all( equal( axis, vec3( 0.0 ) ) ) ) {

					axis = vec3( vOutputDirection.z, 0.0, - vOutputDirection.x );

				}

				axis = normalize( axis );

				gl_FragColor = vec4( 0.0, 0.0, 0.0, 1.0 );
				gl_FragColor.rgb += weights[ 0 ] * getSample( 0.0, axis );

				for ( int i = 1; i < n; i++ ) {

					if ( i >= samples ) {

						break;

					}

					float theta = dTheta * float( i );
					gl_FragColor.rgb += weights[ i ] * getSample( -1.0 * theta, axis );
					gl_FragColor.rgb += weights[ i ] * getSample( theta, axis );

				}

			}
		`,blending:Wi,depthTest:!1,depthWrite:!1})}function Jd(){return new iB({name:"EquirectangularToCubeUV",uniforms:{envMap:{value:null}},vertexShader:Wk(),fragmentShader:`

			precision mediump float;
			precision mediump int;

			varying vec3 vOutputDirection;

			uniform sampler2D envMap;

			#include <common>

			void main() {

				vec3 outputDirection = normalize( vOutputDirection );
				vec2 uv = equirectUv( outputDirection );

				gl_FragColor = vec4( texture2D ( envMap, uv ).rgb, 1.0 );

			}
		`,blending:Wi,depthTest:!1,depthWrite:!1})}function Rd(){return new iB({name:"CubemapToCubeUV",uniforms:{envMap:{value:null},flipEnvMap:{value:-1}},vertexShader:Wk(),fragmentShader:`

			precision mediump float;
			precision mediump int;

			uniform float flipEnvMap;

			varying vec3 vOutputDirection;

			uniform samplerCube envMap;

			void main() {

				gl_FragColor = textureCube( envMap, vec3( flipEnvMap * vOutputDirection.x, vOutputDirection.yz ) );

			}
		`,blending:Wi,depthTest:!1,depthWrite:!1})}function Wk(){return`

		precision mediump float;
		precision mediump int;

		attribute float faceIndex;

		varying vec3 vOutputDirection;

		// RH coordinate system; PMREM face-indexing convention
		vec3 getDirection( vec2 uv, float face ) {

			uv = 2.0 * uv - 1.0;

			vec3 direction = vec3( uv, 1.0 );

			if ( face == 0.0 ) {

				direction = direction.zyx; // ( 1, v, u ) pos x

			} else if ( face == 1.0 ) {

				direction = direction.xzy;
				direction.xz *= -1.0; // ( -u, 1, -v ) pos y

			} else if ( face == 2.0 ) {

				direction.x *= -1.0; // ( -u, v, 1 ) pos z

			} else if ( face == 3.0 ) {

				direction = direction.zyx;
				direction.xz *= -1.0; // ( -1, v, -u ) neg x

			} else if ( face == 4.0 ) {

				direction = direction.xzy;
				direction.xy *= -1.0; // ( -u, -1, v ) neg y

			} else if ( face == 5.0 ) {

				direction.z *= -1.0; // ( u, v, -1 ) neg z

			}

			return direction;

		}

		void main() {

			vOutputDirection = getDirection( uv, faceIndex );
			gl_Position = vec4( position, 1.0 );

		}
	`}function D2(g){let A=new WeakMap,I=null;function C(E){if(E&&E.isTexture){const e=E.mapping,n=e===po||e===Ra,a=e===$i||e===pE;if(n||a){let s=A.get(E);const r=s!==void 0?s.texture.pmremVersion:0;if(E.isRenderTargetTexture&&E.pmremVersion!==r)return I===null&&(I=new Sy(g)),s=n?I.fromEquirectangular(E,s):I.fromCubemap(E,s),s.texture.pmremVersion=E.pmremVersion,A.set(E,s),s.texture;if(s!==void 0)return s.texture;{const D=E.image;return n&&D&&D.height>0||a&&D&&B(D)?(I===null&&(I=new Sy(g)),s=n?I.fromEquirectangular(E):I.fromCubemap(E),s.texture.pmremVersion=E.pmremVersion,A.set(E,s),E.addEventListener("dispose",i),s.texture):null}}}return E}function B(E){let e=0;const n=6;for(let a=0;a<n;a++)E[a]!==void 0&&e++;return e===n}function i(E){const e=E.target;e.removeEventListener("dispose",i);const n=A.get(e);n!==void 0&&(A.delete(e),n.dispose())}function Q(){A=new WeakMap,I!==null&&(I.dispose(),I=null)}return{get:C,dispose:Q}}function l2(g){const A={};function I(C){if(A[C]!==void 0)return A[C];let B;switch(C){case"WEBGL_depth_texture":B=g.getExtension("WEBGL_depth_texture")||g.getExtension("MOZ_WEBGL_depth_texture")||g.getExtension("WEBKIT_WEBGL_depth_texture");break;case"EXT_texture_filter_anisotropic":B=g.getExtension("EXT_texture_filter_anisotropic")||g.getExtension("MOZ_EXT_texture_filter_anisotropic")||g.getExtension("WEBKIT_EXT_texture_filter_anisotropic");break;case"WEBGL_compressed_texture_s3tc":B=g.getExtension("WEBGL_compressed_texture_s3tc")||g.getExtension("MOZ_WEBGL_compressed_texture_s3tc")||g.getExtension("WEBKIT_WEBGL_compressed_texture_s3tc");break;case"WEBGL_compressed_texture_pvrtc":B=g.getExtension("WEBGL_compressed_texture_pvrtc")||g.getExtension("WEBKIT_WEBGL_compressed_texture_pvrtc");break;default:B=g.getExtension(C)}return A[C]=B,B}return{has:function(C){return 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P=l[m],z=w[m],IA=k[m],tA=f*F*4*m;for(let $=0;$<P.count;$++){const SA=$*K;c===!0&&(B.fromBufferAttribute(P,$),J[tA+SA+0]=B.x,J[tA+SA+1]=B.y,J[tA+SA+2]=B.z,J[tA+SA+3]=0),y===!0&&(B.fromBufferAttribute(z,$),J[tA+SA+4]=B.x,J[tA+SA+5]=B.y,J[tA+SA+6]=B.z,J[tA+SA+7]=0),S===!0&&(B.fromBufferAttribute(IA,$),J[tA+SA+8]=B.x,J[tA+SA+9]=B.y,J[tA+SA+10]=B.z,J[tA+SA+11]=IA.itemSize===4?B.w:1)}}r={count:s,texture:q,size:new pA(f,F)},C.set(E,r),E.addEventListener("dispose",N)}if(Q.isInstancedMesh===!0&&Q.morphTexture!==null)e.getUniforms().setValue(g,"morphTexture",Q.morphTexture,I);else{let c=0;for(let S=0;S<n.length;S++)c+=n[S];const y=E.morphTargetsRelative?1:1-c;e.getUniforms().setValue(g,"morphTargetBaseInfluence",y),e.getUniforms().setValue(g,"morphTargetInfluences",n)}e.getUniforms().setValue(g,"morphTargetsTexture",r.texture,I),e.getUniforms().setValue(g,"morphTargetsTextureSize",r.size)}return{update:i}}function G2(g,A,I,C){let B=new WeakMap;function i(e){const n=C.render.frame,a=e.geometry,s=A.get(e,a);if(B.get(s)!==n&&(A.update(s),B.set(s,n)),e.isInstancedMesh&&(e.hasEventListener("dispose",E)===!1&&e.addEventListener("dispose",E),B.get(e)!==n&&(I.update(e.instanceMatrix,g.ARRAY_BUFFER),e.instanceColor!==null&&I.update(e.instanceColor,g.ARRAY_BUFFER),B.set(e,n))),e.isSkinnedMesh){const r=e.skeleton;B.get(r)!==n&&(r.update(),B.set(r,n))}return s}function Q(){B=new WeakMap}function E(e){const n=e.target;n.removeEventListener("dispose",E),I.remove(n.instanceMatrix),n.instanceColor!==null&&I.remove(n.instanceColor)}return{update:i,dispose:Q}}class Vk extends Ig{constructor(A,I,C,B,i,Q,E,e,n,a=Ke){if(a!==Ke&&a!==xe)throw new Error("DepthTexture format must be either THREE.DepthFormat or THREE.DepthStencilFormat");C===void 0&&a===Ke&&(C=NE),C===void 0&&a===xe&&(C=Te),super(null,B,i,Q,E,e,a,C,n),this.isDepthTexture=!0,this.image={width:A,height:I},this.magFilter=E!==void 0?E:oC,this.minFilter=e!==void 0?e:oC,this.flipY=!1,this.generateMipmaps=!1,this.compareFunction=null}copy(A){return super.copy(A),this.compareFunction=A.compareFunction,this}toJSON(A){const I=super.toJSON(A);return this.compareFunction!==null&&(I.compareFunction=this.compareFunction),I}}const vJ=new Ig,OJ=new Vk(1,1);OJ.compareFunction=Tk;const bJ=new lh,_J=new bk,ZJ=new os,fd=[],qd=[],Yd=new Float32Array(16),md=new Float32Array(9),Ld=new Float32Array(4);function _o(g,A,I){const C=g[0];if(C<=0||C>0)return g;const B=A*I;let i=fd[B];if(i===void 0&&(i=new Float32Array(B),fd[B]=i),A!==0){C.toArray(i,0);for(let Q=1,E=0;Q!==A;++Q)E+=I,g[Q].toArray(i,E)}return i}function aC(g,A){if(g.length!==A.length)return!1;for(let I=0,C=g.length;I<C;I++)if(g[I]!==A[I])return!1;return!0}function sC(g,A){for(let I=0,C=A.length;I<C;I++)g[I]=A[I]}function hh(g,A){let I=qd[A];I===void 0&&(I=new Int32Array(A),qd[A]=I);for(let C=0;C!==A;++C)I[C]=g.allocateTextureUnit();return I}function y2(g,A){const I=this.cache;I[0]!==A&&(g.uniform1f(this.addr,A),I[0]=A)}function k2(g,A){const I=this.cache;if(A.x!==void 0)(I[0]!==A.x||I[1]!==A.y)&&(g.uniform2f(this.addr,A.x,A.y),I[0]=A.x,I[1]=A.y);else{if(aC(I,A))return;g.uniform2fv(this.addr,A),sC(I,A)}}function M2(g,A){const I=this.cache;if(A.x!==void 0)(I[0]!==A.x||I[1]!==A.y||I[2]!==A.z)&&(g.uniform3f(this.addr,A.x,A.y,A.z),I[0]=A.x,I[1]=A.y,I[2]=A.z);else if(A.r!==void 0)(I[0]!==A.r||I[1]!==A.g||I[2]!==A.b)&&(g.uniform3f(this.addr,A.r,A.g,A.b),I[0]=A.r,I[1]=A.g,I[2]=A.b);else{if(aC(I,A))return;g.uniform3fv(this.addr,A),sC(I,A)}}function u2(g,A){const I=this.cache;if(A.x!==void 0)(I[0]!==A.x||I[1]!==A.y||I[2]!==A.z||I[3]!==A.w)&&(g.uniform4f(this.addr,A.x,A.y,A.z,A.w),I[0]=A.x,I[1]=A.y,I[2]=A.z,I[3]=A.w);else{if(aC(I,A))return;g.uniform4fv(this.addr,A),sC(I,A)}}function U2(g,A){const I=this.cache,C=A.elements;if(C===void 0){if(aC(I,A))return;g.uniformMatrix2fv(this.addr,!1,A),sC(I,A)}else{if(aC(I,C))return;Ld.set(C),g.uniformMatrix2fv(this.addr,!1,Ld),sC(I,C)}}function d2(g,A){const I=this.cache,C=A.elements;if(C===void 0){if(aC(I,A))return;g.uniformMatrix3fv(this.addr,!1,A),sC(I,A)}else{if(aC(I,C))return;md.set(C),g.uniformMatrix3fv(this.addr,!1,md),sC(I,C)}}function p2(g,A){const I=this.cache,C=A.elements;if(C===void 0){if(aC(I,A))return;g.uniformMatrix4fv(this.addr,!1,A),sC(I,A)}else{if(aC(I,C))return;Yd.set(C),g.uniformMatrix4fv(this.addr,!1,Yd),sC(I,C)}}function N2(g,A){const I=this.cache;I[0]!==A&&(g.uniform1i(this.addr,A),I[0]=A)}function F2(g,A){const I=this.cache;if(A.x!==void 0)(I[0]!==A.x||I[1]!==A.y)&&(g.uniform2i(this.addr,A.x,A.y),I[0]=A.x,I[1]=A.y);else{if(aC(I,A))return;g.uniform2iv(this.addr,A),sC(I,A)}}function K2(g,A){const I=this.cache;if(A.x!==void 0)(I[0]!==A.x||I[1]!==A.y||I[2]!==A.z)&&(g.uniform3i(this.addr,A.x,A.y,A.z),I[0]=A.x,I[1]=A.y,I[2]=A.z);else{if(aC(I,A))return;g.uniform3iv(this.addr,A),sC(I,A)}}function J2(g,A){const I=this.cache;if(A.x!==void 0)(I[0]!==A.x||I[1]!==A.y||I[2]!==A.z||I[3]!==A.w)&&(g.uniform4i(this.addr,A.x,A.y,A.z,A.w),I[0]=A.x,I[1]=A.y,I[2]=A.z,I[3]=A.w);else{if(aC(I,A))return;g.uniform4iv(this.addr,A),sC(I,A)}}function R2(g,A){const I=this.cache;I[0]!==A&&(g.uniform1ui(this.addr,A),I[0]=A)}function f2(g,A){const I=this.cache;if(A.x!==void 0)(I[0]!==A.x||I[1]!==A.y)&&(g.uniform2ui(this.addr,A.x,A.y),I[0]=A.x,I[1]=A.y);else{if(aC(I,A))return;g.uniform2uiv(this.addr,A),sC(I,A)}}function q2(g,A){const I=this.cache;if(A.x!==void 0)(I[0]!==A.x||I[1]!==A.y||I[2]!==A.z)&&(g.uniform3ui(this.addr,A.x,A.y,A.z),I[0]=A.x,I[1]=A.y,I[2]=A.z);else{if(aC(I,A))return;g.uniform3uiv(this.addr,A),sC(I,A)}}function Y2(g,A){const I=this.cache;if(A.x!==void 0)(I[0]!==A.x||I[1]!==A.y||I[2]!==A.z||I[3]!==A.w)&&(g.uniform4ui(this.addr,A.x,A.y,A.z,A.w),I[0]=A.x,I[1]=A.y,I[2]=A.z,I[3]=A.w);else{if(aC(I,A))return;g.uniform4uiv(this.addr,A),sC(I,A)}}function m2(g,A,I){const C=this.cache,B=I.allocateTextureUnit();C[0]!==B&&(g.uniform1i(this.addr,B),C[0]=B);const i=this.type===g.SAMPLER_2D_SHADOW?OJ:vJ;I.setTexture2D(A||i,B)}function L2(g,A,I){const C=this.cache,B=I.allocateTextureUnit();C[0]!==B&&(g.uniform1i(this.addr,B),C[0]=B),I.setTexture3D(A||_J,B)}function H2(g,A,I){const C=this.cache,B=I.allocateTextureUnit();C[0]!==B&&(g.uniform1i(this.addr,B),C[0]=B),I.setTextureCube(A||ZJ,B)}function T2(g,A,I){const C=this.cache,B=I.allocateTextureUnit();C[0]!==B&&(g.uniform1i(this.addr,B),C[0]=B),I.setTexture2DArray(A||bJ,B)}function x2(g){switch(g){case 5126:return y2;case 35664:return k2;case 35665:return M2;case 35666:return u2;case 35674:return U2;case 35675:return d2;case 35676:return p2;case 5124:case 35670:return N2;case 35667:case 35671:return F2;case 35668:case 35672:return K2;case 35669:case 35673:return J2;case 5125:return R2;case 36294:return f2;case 36295:return q2;case 36296:return Y2;case 35678:case 36198:case 36298:case 36306:case 35682:return m2;case 35679:case 36299:case 36307:return L2;case 35680:case 36300:case 36308:case 36293:return H2;case 36289:case 36303:case 36311:case 36292:return T2}}function v2(g,A){g.uniform1fv(this.addr,A)}function O2(g,A){const I=_o(A,this.size,2);g.uniform2fv(this.addr,I)}function b2(g,A){const I=_o(A,this.size,3);g.uniform3fv(this.addr,I)}function _2(g,A){const I=_o(A,this.size,4);g.uniform4fv(this.addr,I)}function Z2(g,A){const I=_o(A,this.size,4);g.uniformMatrix2fv(this.addr,!1,I)}function P2(g,A){const I=_o(A,this.size,9);g.uniformMatrix3fv(this.addr,!1,I)}function W2(g,A){const I=_o(A,this.size,16);g.uniformMatrix4fv(this.addr,!1,I)}function V2(g,A){g.uniform1iv(this.addr,A)}function j2(g,A){g.uniform2iv(this.addr,A)}function z2(g,A){g.uniform3iv(this.addr,A)}function 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wg={shaderID:EA,shaderType:K.type,shaderName:K.name,vertexShader:xA,fragmentShader:aA,defines:K.defines,customVertexShaderID:UA,customFragmentShaderID:nA,isRawShaderMaterial:K.isRawShaderMaterial===!0,glslVersion:K.glslVersion,precision:D,batching:bA,batchingColor:bA&&z._colorsTexture!==null,instancing:gI,instancingColor:gI&&z.instanceColor!==null,instancingMorph:gI&&z.morphTexture!==null,supportsVertexTextures:r,outputColorSpace:uA===null?g.outputColorSpace:uA.isXRRenderTarget===!0?uA.texture.colorSpace:ii,alphaToCoverage:!!K.alphaToCoverage,map:$A,matcap:W,envMap:kA,envMapMode:kA&&SA.mapping,envMapCubeUVHeight:O,aoMap:GA,lightMap:qA,bumpMap:KA,normalMap:fA,displacementMap:r&&WA,emissiveMap:PA,normalMapObjectSpace:fA&&K.normalMapType===MJ,normalMapTangentSpace:fA&&K.normalMapType===YE,metalnessMap:wI,roughnessMap:_,anisotropy:Y,anisotropyMap:_A,clearcoat:DA,clearcoatMap:ZA,clearcoatNormalMap:SI,clearcoatRoughnessMap:mA,dispersion:FA,iridescence:NA,iridescenceMap:CI,iridescenceThicknessMap:KI,sheen:RA,sheenColorMap:sI,sheenRoughnessMap:HA,specularMap:MI,specularColorMap:uI,specularIntensityMap:qI,transmission:oI,transmissionMap:V,thicknessMap:jA,gradientMap:AA,opaque:K.transparent===!1&&K.blending===Fe&&K.alphaToCoverage===!1,alphaMap:dA,alphaTest:TA,alphaHash:cI,combine:K.combine,mapUv:$A&&y(K.map.channel),aoMapUv:GA&&y(K.aoMap.channel),lightMapUv:qA&&y(K.lightMap.channel),bumpMapUv:KA&&y(K.bumpMap.channel),normalMapUv:fA&&y(K.normalMap.channel),displacementMapUv:WA&&y(K.displacementMap.channel),emissiveMapUv:PA&&y(K.emissiveMap.channel),metalnessMapUv:wI&&y(K.metalnessMap.channel),roughnessMapUv:_&&y(K.roughnessMap.channel),anisotropyMapUv:_A&&y(K.anisotropyMap.channel),clearcoatMapUv:ZA&&y(K.clearcoatMap.channel),clearcoatNormalMapUv:SI&&y(K.clearcoatNormalMap.channel),clearcoatRoughnessMapUv:mA&&y(K.clearcoatRoughnessMap.channel),iridescenceMapUv:CI&&y(K.iridescenceMap.channel),iridescenceThicknessMapUv:KI&&y(K.iridescenceThicknessMap.channel),sheenColorMapUv:sI&&y(K.sheenColorMap.channel),sheenRoughnessMapUv:HA&&y(K.sheenRoughnessMap.channel),specularMapUv:MI&&y(K.specularMap.channel),specularColorMapUv:uI&&y(K.specularColorMap.channel),specularIntensityMapUv:qI&&y(K.specularIntensityMap.channel),transmissionMapUv:V&&y(K.transmissionMap.channel),thicknessMapUv:jA&&y(K.thicknessMap.channel),alphaMapUv:dA&&y(K.alphaMap.channel),vertexTangents:!!tA.attributes.tangent&&(fA||Y),vertexColors:K.vertexColors,vertexAlphas:K.vertexColors===!0&&!!tA.attributes.color&&tA.attributes.color.itemSize===4,pointsUvs:z.isPoints===!0&&!!tA.attributes.uv&&($A||dA),fog:!!IA,useFog:K.fog===!0,fogExp2:!!IA&&IA.isFogExp2,flatShading:K.flatShading===!0,sizeAttenuation:K.sizeAttenuation===!0,logarithmicDepthBuffer:s,skinning:z.isSkinnedMesh===!0,morphTargets:tA.morphAttributes.position!==void 0,morphNormals:tA.morphAttributes.normal!==void 0,morphColors:tA.morphAttributes.color!==void 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wg.vertexUv1s=n.has(1),wg.vertexUv2s=n.has(2),wg.vertexUv3s=n.has(3),n.clear(),wg}function l(K){const N=[];if(K.shaderID?N.push(K.shaderID):(N.push(K.customVertexShaderID),N.push(K.customFragmentShaderID)),K.defines!==void 0)for(const m in K.defines)N.push(m),N.push(K.defines[m]);return K.isRawShaderMaterial===!1&&(w(N,K),k(N,K),N.push(g.outputColorSpace)),N.push(K.customProgramCacheKey),N.join()}function w(K,N){K.push(N.precision),K.push(N.outputColorSpace),K.push(N.envMapMode),K.push(N.envMapCubeUVHeight),K.push(N.mapUv),K.push(N.alphaMapUv),K.push(N.lightMapUv),K.push(N.aoMapUv),K.push(N.bumpMapUv),K.push(N.normalMapUv),K.push(N.displacementMapUv),K.push(N.emissiveMapUv),K.push(N.metalnessMapUv),K.push(N.roughnessMapUv),K.push(N.anisotropyMapUv),K.push(N.clearcoatMapUv),K.push(N.clearcoatNormalMapUv),K.push(N.clearcoatRoughnessMapUv),K.push(N.iridescenceMapUv),K.push(N.iridescenceThicknessMapUv),K.push(N.sheenColorMapUv),K.push(N.sheenRoughnessMapUv),K.push(N.specularMapUv),K.push(N.specularColorMapUv),K.push(N.specularIntensityMapUv),K.push(N.transmissionMapUv),K.push(N.thicknessMapUv),K.push(N.combine),K.push(N.fogExp2),K.push(N.sizeAttenuation),K.push(N.morphTargetsCount),K.push(N.morphAttributeCount),K.push(N.numDirLights),K.push(N.numPointLights),K.push(N.numSpotLights),K.push(N.numSpotLightMaps),K.push(N.numHemiLights),K.push(N.numRectAreaLights),K.push(N.numDirLightShadows),K.push(N.numPointLightShadows),K.push(N.numSpotLightShadows),K.push(N.numSpotLightShadowsWithMaps),K.push(N.numLightProbes),K.push(N.shadowMapType),K.push(N.toneMapping),K.push(N.numClippingPlanes),K.push(N.numClipIntersection),K.push(N.depthPacking)}function k(K,N){E.disableAll(),N.supportsVertexTextures&&E.enable(0),N.instancing&&E.enable(1),N.instancingColor&&E.enable(2),N.instancingMorph&&E.enable(3),N.matcap&&E.enable(4),N.envMap&&E.enable(5),N.normalMapObjectSpace&&E.enable(6),N.normalMapTangentSpace&&E.enable(7),N.clearcoat&&E.enable(8),N.iridescence&&E.enable(9),N.alphaTest&&E.enable(10),N.vertexColors&&E.enable(11),N.vertexAlphas&&E.enable(12),N.vertexUv1s&&E.enable(13),N.vertexUv2s&&E.enable(14),N.vertexUv3s&&E.enable(15),N.vertexTangents&&E.enable(16),N.anisotropy&&E.enable(17),N.alphaHash&&E.enable(18),N.batching&&E.enable(19),N.dispersion&&E.enable(20),N.batchingColor&&E.enable(21),K.push(E.mask),E.disableAll(),N.fog&&E.enable(0),N.useFog&&E.enable(1),N.flatShading&&E.enable(2),N.logarithmicDepthBuffer&&E.enable(3),N.skinning&&E.enable(4),N.morphTargets&&E.enable(5),N.morphNormals&&E.enable(6),N.morphColors&&E.enable(7),N.premultipliedAlpha&&E.enable(8),N.shadowMapEnabled&&E.enable(9),N.doubleSided&&E.enable(10),N.flipSided&&E.enable(11),N.useDepthPacking&&E.enable(12),N.dithering&&E.enable(13),N.transmission&&E.enable(14),N.sheen&&E.enable(15),N.opaque&&E.enable(16),N.pointsUvs&&E.enable(17),N.decodeVideoTexture&&E.enable(18),N.alphaToCoverage&&E.enable(19),K.push(E.mask)}function U(K){const N=c[K.type];let m;if(N){const P=Gi[N];m=HJ.clone(P.uniforms)}else m=K.uniforms;return m}function f(K,N){let m;for(let P=0,z=a.length;P<z;P++){const IA=a[P];if(IA.cacheKey===N){m=IA,++m.usedTimes;break}}return m===void 0&&(m=new Kv(g,N,K,i),a.push(m)),m}function F(K){if(--K.usedTimes===0){const N=a.indexOf(K);a[N]=a[a.length-1],a.pop(),K.destroy()}}function J(K){e.remove(K)}function q(){e.dispose()}return{getParameters:S,getProgramCacheKey:l,getUniforms:U,acquireProgram:f,releaseProgram:F,releaseShaderCache:J,programs:a,dispose:q}}function Yv(){let g=new WeakMap;function A(i){let Q=g.get(i);return Q===void 0&&(Q={},g.set(i,Q)),Q}function I(i){g.delete(i)}function C(i,Q,E){g.get(i)[Q]=E}function B(){g=new WeakMap}return{get:A,remove:I,update:C,dispose:B}}function mv(g,A){return g.groupOrder!==A.groupOrder?g.groupOrder-A.groupOrder:g.renderOrder!==A.renderOrder?g.renderOrder-A.renderOrder:g.material.id!==A.material.id?g.material.id-A.material.id:g.z!==A.z?g.z-A.z:g.id-A.id}function Zd(g,A){return g.groupOrder!==A.groupOrder?g.groupOrder-A.groupOrder:g.renderOrder!==A.renderOrder?g.renderOrder-A.renderOrder:g.z!==A.z?A.z-g.z:g.id-A.id}function Pd(){const g=[];let A=0;const I=[],C=[],B=[];function i(){A=0,I.length=0,C.length=0,B.length=0}function Q(s,r,D,c,y,S){let l=g[A];return l===void 0?(l={id:s.id,object:s,geometry:r,material:D,groupOrder:c,renderOrder:s.renderOrder,z:y,group:S},g[A]=l):(l.id=s.id,l.object=s,l.geometry=r,l.material=D,l.groupOrder=c,l.renderOrder=s.renderOrder,l.z=y,l.group=S),A++,l}function E(s,r,D,c,y,S){const l=Q(s,r,D,c,y,S);D.transmission>0?C.push(l):D.transparent===!0?B.push(l):I.push(l)}function e(s,r,D,c,y,S){const l=Q(s,r,D,c,y,S);D.transmission>0?C.unshift(l):D.transparent===!0?B.unshift(l):I.unshift(l)}function n(s,r){I.length>1&&I.sort(s||mv),C.length>1&&C.sort(r||Zd),B.length>1&&B.sort(r||Zd)}function a(){for(let s=A,r=g.length;s<r;s++){const D=g[s];if(D.id===null)break;D.id=null,D.object=null,D.geometry=null,D.material=null,D.group=null}}return{opaque:I,transmissive:C,transparent:B,init:i,push:E,unshift:e,finish:a,sort:n}}function Lv(){let g=new WeakMap;function A(C,B){const i=g.get(C);let Q;return i===void 0?(Q=new Pd,g.set(C,[Q])):B>=i.length?(Q=new Pd,i.push(Q)):Q=i[B],Q}function I(){g=new WeakMap}return{get:A,dispose:I}}function Hv(){const g={};return{get:function(A){if(g[A.id]!==void 0)return g[A.id];let I;switch(A.type){case"DirectionalLight":I={direction:new T,color:new VA};break;case"SpotLight":I={position:new T,direction:new T,color:new VA,distance:0,coneCos:0,penumbraCos:0,decay:0};break;case"PointLight":I={position:new T,color:new VA,distance:0,decay:0};break;case"HemisphereLight":I={direction:new T,skyColor:new VA,groundColor:new VA};break;case"RectAreaLight":I={color:new VA,position:new T,halfWidth:new T,halfHeight:new T};break}return g[A.id]=I,I}}}function Tv(){const g={};return{get:function(A){if(g[A.id]!==void 0)return g[A.id];let I;switch(A.type){case"DirectionalLight":I={shadowBias:0,shadowNormalBias:0,shadowRadius:1,shadowMapSize:new pA};break;case"SpotLight":I={shadowBias:0,shadowNormalBias:0,shadowRadius:1,shadowMapSize:new pA};break;case"PointLight":I={shadowBias:0,shadowNormalBias:0,shadowRadius:1,shadowMapSize:new pA,shadowCameraNear:1,shadowCameraFar:1e3};break}return g[A.id]=I,I}}}let xv=0;function vv(g,A){return(A.castShadow?2:0)-(g.castShadow?2:0)+(A.map?1:0)-(g.map?1:0)}function Ov(g){const A=new Hv,I=Tv(),C={version:0,hash:{directionalLength:-1,pointLength:-1,spotLength:-1,rectAreaLength:-1,hemiLength:-1,numDirectionalShadows:-1,numPointShadows:-1,numSpotShadows:-1,numSpotMaps:-1,numLightProbes:-1},ambient:[0,0,0],probe:[],directional:[],directionalShadow:[],directionalShadowMap:[],directionalShadowMatrix:[],spot:[],spotLightMap:[],spotShadow:[],spotShadowMap:[],spotLightMatrix:[],rectArea:[],rectAreaLTC1:null,rectAreaLTC2:null,point:[],pointShadow:[],pointShadowMap:[],pointShadowMatrix:[],hemi:[],numSpotLightShadowsWithMaps:0,numLightProbes:0};for(let n=0;n<9;n++)C.probe.push(new T);const B=new T,i=new hI,Q=new hI;function E(n){let a=0,s=0,r=0;for(let K=0;K<9;K++)C.probe[K].set(0,0,0);let D=0,c=0,y=0,S=0,l=0,w=0,k=0,U=0,f=0,F=0,J=0;n.sort(vv);for(let K=0,N=n.length;K<N;K++){const m=n[K],P=m.color,z=m.intensity,IA=m.distance,tA=m.shadow&&m.shadow.map?m.shadow.map.texture:null;if(m.isAmbientLight)a+=P.r*z,s+=P.g*z,r+=P.b*z;else if(m.isLightProbe){for(let $=0;$<9;$++)C.probe[$].addScaledVector(m.sh.coefficients[$],z);J++}else if(m.isDirectionalLight){const $=A.get(m);if($.color.copy(m.color).multiplyScalar(m.intensity),m.castShadow){const SA=m.shadow,O=I.get(m);O.shadowBias=SA.bias,O.shadowNormalBias=SA.normalBias,O.shadowRadius=SA.radius,O.shadowMapSize=SA.mapSize,C.directionalShadow[D]=O,C.directionalShadowMap[D]=tA,C.directionalShadowMatrix[D]=m.shadow.matrix,w++}C.directional[D]=$,D++}else if(m.isSpotLight){const $=A.get(m);$.position.setFromMatrixPosition(m.matrixWorld),$.color.copy(P).multiplyScalar(z),$.distance=IA,$.coneCos=Math.cos(m.angle),$.penumbraCos=Math.cos(m.angle*(1-m.penumbra)),$.decay=m.decay,C.spot[y]=$;const SA=m.shadow;if(m.map&&(C.spotLightMap[f]=m.map,f++,SA.updateMatrices(m),m.castShadow&&F++),C.spotLightMatrix[y]=SA.matrix,m.castShadow){const O=I.get(m);O.shadowBias=SA.bias,O.shadowNormalBias=SA.normalBias,O.shadowRadius=SA.radius,O.shadowMapSize=SA.mapSize,C.spotShadow[y]=O,C.spotShadowMap[y]=tA,U++}y++}else if(m.isRectAreaLight){const $=A.get(m);$.color.copy(P).multiplyScalar(z),$.halfWidth.set(m.width*.5,0,0),$.halfHeight.set(0,m.height*.5,0),C.rectArea[S]=$,S++}else if(m.isPointLight){const $=A.get(m);if($.color.copy(m.color).multiplyScalar(m.intensity),$.distance=m.distance,$.decay=m.decay,m.castShadow){const SA=m.shadow,O=I.get(m);O.shadowBias=SA.bias,O.shadowNormalBias=SA.normalBias,O.shadowRadius=SA.radius,O.shadowMapSize=SA.mapSize,O.shadowCameraNear=SA.camera.near,O.shadowCameraFar=SA.camera.far,C.pointShadow[c]=O,C.pointShadowMap[c]=tA,C.pointShadowMatrix[c]=m.shadow.matrix,k++}C.point[c]=$,c++}else if(m.isHemisphereLight){const $=A.get(m);$.skyColor.copy(m.color).multiplyScalar(z),$.groundColor.copy(m.groundColor).multiplyScalar(z),C.hemi[l]=$,l++}}S>0&&(g.has("OES_texture_float_linear")===!0?(C.rectAreaLTC1=zA.LTC_FLOAT_1,C.rectAreaLTC2=zA.LTC_FLOAT_2):(C.rectAreaLTC1=zA.LTC_HALF_1,C.rectAreaLTC2=zA.LTC_HALF_2)),C.ambient[0]=a,C.ambient[1]=s,C.ambient[2]=r;const q=C.hash;(q.directionalLength!==D||q.pointLength!==c||q.spotLength!==y||q.rectAreaLength!==S||q.hemiLength!==l||q.numDirectionalShadows!==w||q.numPointShadows!==k||q.numSpotShadows!==U||q.numSpotMaps!==f||q.numLightProbes!==J)&&(C.directional.length=D,C.spot.length=y,C.rectArea.length=S,C.point.length=c,C.hemi.length=l,C.directionalShadow.length=w,C.directionalShadowMap.length=w,C.pointShadow.length=k,C.pointShadowMap.length=k,C.spotShadow.length=U,C.spotShadowMap.length=U,C.directionalShadowMatrix.length=w,C.pointShadowMatrix.length=k,C.spotLightMatrix.length=U+f-F,C.spotLightMap.length=f,C.numSpotLightShadowsWithMaps=F,C.numLightProbes=J,q.directionalLength=D,q.pointLength=c,q.spotLength=y,q.rectAreaLength=S,q.hemiLength=l,q.numDirectionalShadows=w,q.numPointShadows=k,q.numSpotShadows=U,q.numSpotMaps=f,q.numLightProbes=J,C.version=xv++)}function e(n,a){let s=0,r=0,D=0,c=0,y=0;const S=a.matrixWorldInverse;for(let l=0,w=n.length;l<w;l++){const k=n[l];if(k.isDirectionalLight){const U=C.directional[s];U.direction.setFromMatrixPosition(k.matrixWorld),B.setFromMatrixPosition(k.target.matrixWorld),U.direction.sub(B),U.direction.transformDirection(S),s++}else if(k.isSpotLight){const U=C.spot[D];U.position.setFromMatrixPosition(k.matrixWorld),U.position.applyMatrix4(S),U.direction.setFromMatrixPosition(k.matrixWorld),B.setFromMatrixPosition(k.target.matrixWorld),U.direction.sub(B),U.direction.transformDirection(S),D++}else if(k.isRectAreaLight){const U=C.rectArea[c];U.position.setFromMatrixPosition(k.matrixWorld),U.position.applyMatrix4(S),Q.identity(),i.copy(k.matrixWorld),i.premultiply(S),Q.extractRotation(i),U.halfWidth.set(k.width*.5,0,0),U.halfHeight.set(0,k.height*.5,0),U.halfWidth.applyMatrix4(Q),U.halfHeight.applyMatrix4(Q),c++}else if(k.isPointLight){const U=C.point[r];U.position.setFromMatrixPosition(k.matrixWorld),U.position.applyMatrix4(S),r++}else if(k.isHemisphereLight){const U=C.hemi[y];U.direction.setFromMatrixPosition(k.matrixWorld),U.direction.transformDirection(S),y++}}}return{setup:E,setupView:e,state:C}}function Wd(g){const A=new Ov(g),I=[],C=[];function B(a){n.camera=a,I.length=0,C.length=0}function i(a){I.push(a)}function Q(a){C.push(a)}function E(){A.setup(I)}function e(a){A.setupView(I,a)}const n={lightsArray:I,shadowsArray:C,camera:null,lights:A,transmissionRenderTarget:{}};return{init:B,state:n,setupLights:E,setupLightsView:e,pushLight:i,pushShadow:Q}}function bv(g){let A=new WeakMap;function I(B,i=0){const Q=A.get(B);let E;return Q===void 0?(E=new Wd(g),A.set(B,[E])):i>=Q.length?(E=new Wd(g),Q.push(E)):E=Q[i],E}function C(){A=new WeakMap}return{get:I,dispose:C}}class jk extends BC{constructor(A){super(),this.isMeshDepthMaterial=!0,this.type="MeshDepthMaterial",this.depthPacking=yJ,this.map=null,this.alphaMap=null,this.displacementMap=null,this.displacementScale=1,this.displacementBias=0,this.wireframe=!1,this.wireframeLinewidth=1,this.setValues(A)}copy(A){return super.copy(A),this.depthPacking=A.depthPacking,this.map=A.map,this.alphaMap=A.alphaMap,this.displacementMap=A.displacementMap,this.displacementScale=A.displacementScale,this.displacementBias=A.displacementBias,this.wireframe=A.wireframe,this.wireframeLinewidth=A.wireframeLinewidth,this}}class zk extends BC{constructor(A){super(),this.isMeshDistanceMaterial=!0,this.type="MeshDistanceMaterial",this.map=null,this.alphaMap=null,this.displacementMap=null,this.displacementScale=1,this.displacementBias=0,this.setValues(A)}copy(A){return super.copy(A),this.map=A.map,this.alphaMap=A.alphaMap,this.displacementMap=A.displacementMap,this.displacementScale=A.displacementScale,this.displacementBias=A.displacementBias,this}}const _v=`void main() {
	gl_Position = vec4( position, 1.0 );
}`,Zv=`uniform sampler2D shadow_pass;
uniform vec2 resolution;
uniform float radius;
#include <packing>
void main() {
	const float samples = float( VSM_SAMPLES );
	float mean = 0.0;
	float squared_mean = 0.0;
	float uvStride = samples <= 1.0 ? 0.0 : 2.0 / ( samples - 1.0 );
	float uvStart = samples <= 1.0 ? 0.0 : - 1.0;
	for ( float i = 0.0; i < samples; i ++ ) {
		float uvOffset = uvStart + i * uvStride;
		#ifdef HORIZONTAL_PASS
			vec2 distribution = unpackRGBATo2Half( texture2D( shadow_pass, ( gl_FragCoord.xy + vec2( uvOffset, 0.0 ) * radius ) / resolution ) );
			mean += distribution.x;
			squared_mean += distribution.y * distribution.y + distribution.x * distribution.x;
		#else
			float depth = unpackRGBAToDepth( texture2D( shadow_pass, ( gl_FragCoord.xy + vec2( 0.0, uvOffset ) * radius ) / resolution ) );
			mean += depth;
			squared_mean += depth * depth;
		#endif
	}
	mean = mean / samples;
	squared_mean = squared_mean / samples;
	float std_dev = sqrt( squared_mean - mean * mean );
	gl_FragColor = pack2HalfToRGBA( vec2( mean, std_dev ) );
}`;function Pv(g,A,I){let C=new ns;const B=new pA,i=new pA,Q=new Dg,E=new jk({depthPacking:kJ}),e=new zk,n={},a=I.maxTextureSize,s={[Xi]:BB,[BB]:Xi,[dB]:dB},r=new iB({defines:{VSM_SAMPLES:8},uniforms:{shadow_pass:{value:null},resolution:{value:new pA},radius:{value:4}},vertexShader:_v,fragmentShader:Zv}),D=r.clone();D.defines.HORIZONTAL_PASS=1;const c=new FI;c.setAttribute("position",new pI(new Float32Array([-1,-1,.5,3,-1,.5,-1,3,.5]),3));const y=new Jg(c,r),S=this;this.enabled=!1,this.autoUpdate=!0,this.needsUpdate=!1,this.type=oh;let l=this.type;this.render=function(F,J,q){if(S.enabled===!1||S.autoUpdate===!1&&S.needsUpdate===!1||F.length===0)return;const K=g.getRenderTarget(),N=g.getActiveCubeFace(),m=g.getActiveMipmapLevel(),P=g.state;P.setBlending(Wi),P.buffers.color.setClear(1,1,1,1),P.buffers.depth.setTest(!0),P.setScissorTest(!1);const z=l!==hi&&this.type===hi,IA=l===hi&&this.type!==hi;for(let tA=0,$=F.length;tA<$;tA++){const SA=F[tA],O=SA.shadow;if(O===void 0){console.warn("THREE.WebGLShadowMap:",SA,"has no shadow.");continue}if(O.autoUpdate===!1&&O.needsUpdate===!1)continue;B.copy(O.mapSize);const EA=O.getFrameExtents();if(B.multiply(EA),i.copy(O.mapSize),(B.x>a||B.y>a)&&(B.x>a&&(i.x=Math.floor(a/EA.x),B.x=i.x*EA.x,O.mapSize.x=i.x),B.y>a&&(i.y=Math.floor(a/EA.y),B.y=i.y*EA.y,O.mapSize.y=i.y)),O.map===null||z===!0||IA===!0){const oA=this.type!==hi?{minFilter:oC,magFilter:oC}:{};O.map!==null&&O.map.dispose(),O.map=new fB(B.x,B.y,oA),O.map.texture.name=SA.name+".shadowMap",O.camera.updateProjectionMatrix()}g.setRenderTarget(O.map),g.clear();const X=O.getViewportCount();for(let oA=0;oA<X;oA++){const MA=O.getViewport(oA);Q.set(i.x*MA.x,i.y*MA.y,i.x*MA.z,i.y*MA.w),P.viewport(Q),O.updateMatrices(SA,oA),C=O.getFrustum(),U(J,q,O.camera,SA,this.type)}O.isPointLightShadow!==!0&&this.type===hi&&w(O,q),O.needsUpdate=!1}l=this.type,S.needsUpdate=!1,g.setRenderTarget(K,N,m)};function w(F,J){const q=A.update(y);r.defines.VSM_SAMPLES!==F.blurSamples&&(r.defines.VSM_SAMPLES=F.blurSamples,D.defines.VSM_SAMPLES=F.blurSamples,r.needsUpdate=!0,D.needsUpdate=!0),F.mapPass===null&&(F.mapPass=new fB(B.x,B.y)),r.uniforms.shadow_pass.value=F.map.texture,r.uniforms.resolution.value=F.mapSize,r.uniforms.radius.value=F.radius,g.setRenderTarget(F.mapPass),g.clear(),g.renderBufferDirect(J,null,q,r,y,null),D.uniforms.shadow_pass.value=F.mapPass.texture,D.uniforms.resolution.value=F.mapSize,D.uniforms.radius.value=F.radius,g.setRenderTarget(F.map),g.clear(),g.renderBufferDirect(J,null,q,D,y,null)}function k(F,J,q,K){let N=null;const m=q.isPointLight===!0?F.customDistanceMaterial:F.customDepthMaterial;if(m!==void 0)N=m;else if(N=q.isPointLight===!0?e:E,g.localClippingEnabled&&J.clipShadows===!0&&Array.isArray(J.clippingPlanes)&&J.clippingPlanes.length!==0||J.displacementMap&&J.displacementScale!==0||J.alphaMap&&J.alphaTest>0||J.map&&J.alphaTest>0){const P=N.uuid,z=J.uuid;let IA=n[P];IA===void 0&&(IA={},n[P]=IA);let tA=IA[z];tA===void 0&&(tA=N.clone(),IA[z]=tA,J.addEventListener("dispose",f)),N=tA}if(N.visible=J.visible,N.wireframe=J.wireframe,K===hi?N.side=J.shadowSide!==null?J.shadowSide:J.side:N.side=J.shadowSide!==null?J.shadowSide:s[J.side],N.alphaMap=J.alphaMap,N.alphaTest=J.alphaTest,N.map=J.map,N.clipShadows=J.clipShadows,N.clippingPlanes=J.clippingPlanes,N.clipIntersection=J.clipIntersection,N.displacementMap=J.displacementMap,N.displacementScale=J.displacementScale,N.displacementBias=J.displacementBias,N.wireframeLinewidth=J.wireframeLinewidth,N.linewidth=J.linewidth,q.isPointLight===!0&&N.isMeshDistanceMaterial===!0){const P=g.properties.get(N);P.light=q}return N}function U(F,J,q,K,N){if(F.visible===!1)return;if(F.layers.test(J.layers)&&(F.isMesh||F.isLine||F.isPoints)&&(F.castShadow||F.receiveShadow&&N===hi)&&(!F.frustumCulled||C.intersectsObject(F))){F.modelViewMatrix.multiplyMatrices(q.matrixWorldInverse,F.matrixWorld);const z=A.update(F),IA=F.material;if(Array.isArray(IA)){const tA=z.groups;for(let $=0,SA=tA.length;$<SA;$++){const O=tA[$],EA=IA[O.materialIndex];if(EA&&EA.visible){const X=k(F,EA,K,N);F.onBeforeShadow(g,F,J,q,z,X,O),g.renderBufferDirect(q,null,z,X,F,O),F.onAfterShadow(g,F,J,q,z,X,O)}}}else if(IA.visible){const tA=k(F,IA,K,N);F.onBeforeShadow(g,F,J,q,z,tA,null),g.renderBufferDirect(q,null,z,tA,F,null),F.onAfterShadow(g,F,J,q,z,tA,null)}}const P=F.children;for(let z=0,IA=P.length;z<IA;z++)U(P[z],J,q,K,N)}function f(F){F.target.removeEventListener("dispose",f);for(const q in n){const K=n[q],N=F.target.uuid;N in K&&(K[N].dispose(),delete K[N])}}}function Wv(g){function A(){let V=!1;const jA=new Dg;let AA=null;const dA=new Dg(0,0,0,0);return{setMask:function(TA){AA!==TA&&!V&&(g.colorMask(TA,TA,TA,TA),AA=TA)},setLocked:function(TA){V=TA},setClear:function(TA,cI,TI,og,wg){wg===!0&&(TA*=og,cI*=og,TI*=og),jA.set(TA,cI,TI,og),dA.equals(jA)===!1&&(g.clearColor(TA,cI,TI,og),dA.copy(jA))},reset:function(){V=!1,AA=null,dA.set(-1,0,0,0)}}}function I(){let V=!1,jA=null,AA=null,dA=null;return{setTest:function(TA){TA?nA(g.DEPTH_TEST):uA(g.DEPTH_TEST)},setMask:function(TA){jA!==TA&&!V&&(g.depthMask(TA),jA=TA)},setFunc:function(TA){if(AA!==TA){switch(TA){case VK:g.depthFunc(g.NEVER);break;case jK:g.depthFunc(g.ALWAYS);break;case zK:g.depthFunc(g.LESS);break;case Ja:g.depthFunc(g.LEQUAL);break;case XK:g.depthFunc(g.EQUAL);break;case $K:g.depthFunc(g.GEQUAL);break;case AJ:g.depthFunc(g.GREATER);break;case IJ:g.depthFunc(g.NOTEQUAL);break;default:g.depthFunc(g.LEQUAL)}AA=TA}},setLocked:function(TA){V=TA},setClear:function(TA){dA!==TA&&(g.clearDepth(TA),dA=TA)},reset:function(){V=!1,jA=null,AA=null,dA=null}}}function C(){let V=!1,jA=null,AA=null,dA=null,TA=null,cI=null,TI=null,og=null,wg=null;return{setTest:function(gg){V||(gg?nA(g.STENCIL_TEST):uA(g.STENCIL_TEST))},setMask:function(gg){jA!==gg&&!V&&(g.stencilMask(gg),jA=gg)},setFunc:function(gg,WC,VC){(AA!==gg||dA!==WC||TA!==VC)&&(g.stencilFunc(gg,WC,VC),AA=gg,dA=WC,TA=VC)},setOp:function(gg,WC,VC){(cI!==gg||TI!==WC||og!==VC)&&(g.stencilOp(gg,WC,VC),cI=gg,TI=WC,og=VC)},setLocked:function(gg){V=gg},setClear:function(gg){wg!==gg&&(g.clearStencil(gg),wg=gg)},reset:function(){V=!1,jA=null,AA=null,dA=null,TA=null,cI=null,TI=null,og=null,wg=null}}}const B=new A,i=new I,Q=new C,E=new WeakMap,e=new WeakMap;let n={},a={},s=new WeakMap,r=[],D=null,c=!1,y=null,S=null,l=null,w=null,k=null,U=null,f=null,F=new VA(0,0,0),J=0,q=!1,K=null,N=null,m=null,P=null,z=null;const IA=g.getParameter(g.MAX_COMBINED_TEXTURE_IMAGE_UNITS);let tA=!1,$=0;const SA=g.getParameter(g.VERSION);SA.indexOf("WebGL")!==-1?($=parseFloat(/^WebGL 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UA={};UA[g.TEXTURE_2D]=aA(g.TEXTURE_2D,g.TEXTURE_2D,1),UA[g.TEXTURE_CUBE_MAP]=aA(g.TEXTURE_CUBE_MAP,g.TEXTURE_CUBE_MAP_POSITIVE_X,6),UA[g.TEXTURE_2D_ARRAY]=aA(g.TEXTURE_2D_ARRAY,g.TEXTURE_2D_ARRAY,1,1),UA[g.TEXTURE_3D]=aA(g.TEXTURE_3D,g.TEXTURE_3D,1,1),B.setClear(0,0,0,1),i.setClear(1),Q.setClear(0),nA(g.DEPTH_TEST),i.setFunc(Ja),KA(!1),fA(HG),nA(g.CULL_FACE),GA(Wi);function nA(V){n[V]!==!0&&(g.enable(V),n[V]=!0)}function uA(V){n[V]!==!1&&(g.disable(V),n[V]=!1)}function gI(V,jA){return a[V]!==jA?(g.bindFramebuffer(V,jA),a[V]=jA,V===g.DRAW_FRAMEBUFFER&&(a[g.FRAMEBUFFER]=jA),V===g.FRAMEBUFFER&&(a[g.DRAW_FRAMEBUFFER]=jA),!0):!1}function bA(V,jA){let AA=r,dA=!1;if(V){AA=s.get(jA),AA===void 0&&(AA=[],s.set(jA,AA));const TA=V.textures;if(AA.length!==TA.length||AA[0]!==g.COLOR_ATTACHMENT0){for(let cI=0,TI=TA.length;cI<TI;cI++)AA[cI]=g.COLOR_ATTACHMENT0+cI;AA.length=TA.length,dA=!0}}else AA[0]!==g.BACK&&(AA[0]=g.BACK,dA=!0);dA&&g.drawBuffers(AA)}function $A(V){return 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g.LUMINANCE_ALPHA;if(C===Ke)return g.DEPTH_COMPONENT;if(C===xe)return g.DEPTH_STENCIL;if(C===sh)return g.RED;if(C===qk)return g.RED_INTEGER;if(C===lJ)return g.RG;if(C===Yk)return g.RG_INTEGER;if(C===mk)return g.RGBA_INTEGER;if(C===WD||C===VD||C===jD||C===zD)if(Q===yg)if(i=A.get("WEBGL_compressed_texture_s3tc_srgb"),i!==null){if(C===WD)return i.COMPRESSED_SRGB_S3TC_DXT1_EXT;if(C===VD)return i.COMPRESSED_SRGB_ALPHA_S3TC_DXT1_EXT;if(C===jD)return i.COMPRESSED_SRGB_ALPHA_S3TC_DXT3_EXT;if(C===zD)return i.COMPRESSED_SRGB_ALPHA_S3TC_DXT5_EXT}else return null;else if(i=A.get("WEBGL_compressed_texture_s3tc"),i!==null){if(C===WD)return i.COMPRESSED_RGB_S3TC_DXT1_EXT;if(C===VD)return i.COMPRESSED_RGBA_S3TC_DXT1_EXT;if(C===jD)return i.COMPRESSED_RGBA_S3TC_DXT3_EXT;if(C===zD)return i.COMPRESSED_RGBA_S3TC_DXT5_EXT}else return null;if(C===_G||C===ZG||C===PG||C===WG)if(i=A.get("WEBGL_compressed_texture_pvrtc"),i!==null){if(C===_G)return i.COMPRESSED_RGB_PVRTC_4BPPV1_IMG;if(C===ZG)return i.COMPRESSED_RGB_PVRTC_2BPPV1_IMG;if(C===PG)return i.COMPRESSED_RGBA_PVRTC_4BPPV1_IMG;if(C===WG)return i.COMPRESSED_RGBA_PVRTC_2BPPV1_IMG}else return null;if(C===VG||C===jG||C===zG)if(i=A.get("WEBGL_compressed_texture_etc"),i!==null){if(C===VG||C===jG)return Q===yg?i.COMPRESSED_SRGB8_ETC2:i.COMPRESSED_RGB8_ETC2;if(C===zG)return Q===yg?i.COMPRESSED_SRGB8_ALPHA8_ETC2_EAC:i.COMPRESSED_RGBA8_ETC2_EAC}else return null;if(C===XG||C===$G||C===Ay||C===Iy||C===gy||C===Cy||C===By||C===iy||C===Qy||C===Ey||C===ey||C===ty||C===oy||C===ny)if(i=A.get("WEBGL_compressed_texture_astc"),i!==null){if(C===XG)return Q===yg?i.COMPRESSED_SRGB8_ALPHA8_ASTC_4x4_KHR:i.COMPRESSED_RGBA_ASTC_4x4_KHR;if(C===$G)return Q===yg?i.COMPRESSED_SRGB8_ALPHA8_ASTC_5x4_KHR:i.COMPRESSED_RGBA_ASTC_5x4_KHR;if(C===Ay)return Q===yg?i.COMPRESSED_SRGB8_ALPHA8_ASTC_5x5_KHR:i.COMPRESSED_RGBA_ASTC_5x5_KHR;if(C===Iy)return Q===yg?i.COMPRESSED_SRGB8_ALPHA8_ASTC_6x5_KHR:i.COMPRESSED_RGBA_ASTC_6x5_KHR;if(C===gy)return Q===yg?i.COMPRESSED_SRGB8_ALPHA8_ASTC_6x6_KHR:i.COMPRESSED_RGBA_ASTC_6x6_KHR;if(C===Cy)return Q===yg?i.COMPRESSED_SRGB8_ALPHA8_ASTC_8x5_KHR:i.COMPRESSED_RGBA_ASTC_8x5_KHR;if(C===By)return Q===yg?i.COMPRESSED_SRGB8_ALPHA8_ASTC_8x6_KHR:i.COMPRESSED_RGBA_ASTC_8x6_KHR;if(C===iy)return Q===yg?i.COMPRESSED_SRGB8_ALPHA8_ASTC_8x8_KHR:i.COMPRESSED_RGBA_ASTC_8x8_KHR;if(C===Qy)return Q===yg?i.COMPRESSED_SRGB8_ALPHA8_ASTC_10x5_KHR:i.COMPRESSED_RGBA_ASTC_10x5_KHR;if(C===Ey)return Q===yg?i.COMPRESSED_SRGB8_ALPHA8_ASTC_10x6_KHR:i.COMPRESSED_RGBA_ASTC_10x6_KHR;if(C===ey)return Q===yg?i.COMPRESSED_SRGB8_ALPHA8_ASTC_10x8_KHR:i.COMPRESSED_RGBA_ASTC_10x8_KHR;if(C===ty)return Q===yg?i.COMPRESSED_SRGB8_ALPHA8_ASTC_10x10_KHR:i.COMPRESSED_RGBA_ASTC_10x10_KHR;if(C===oy)return Q===yg?i.COMPRESSED_SRGB8_ALPHA8_ASTC_12x10_KHR:i.COMPRESSED_RGBA_ASTC_12x10_KHR;if(C===ny)return Q===yg?i.COMPRESSED_SRGB8_ALPHA8_ASTC_12x12_KHR:i.COMPRESSED_RGBA_ASTC_12x12_KHR}else return null;if(C===XD||C===ay||C===sy)if(i=A.get("EXT_texture_compression_bptc"),i!==null){if(C===XD)return Q===yg?i.COMPRESSED_SRGB_ALPHA_BPTC_UNORM_EXT:i.COMPRESSED_RGBA_BPTC_UNORM_EXT;if(C===ay)return i.COMPRESSED_RGB_BPTC_SIGNED_FLOAT_EXT;if(C===sy)return i.COMPRESSED_RGB_BPTC_UNSIGNED_FLOAT_EXT}else return null;if(C===hJ||C===ry||C===Dy||C===ly)if(i=A.get("EXT_texture_compression_rgtc"),i!==null){if(C===XD)return i.COMPRESSED_RED_RGTC1_EXT;if(C===ry)return i.COMPRESSED_SIGNED_RED_RGTC1_EXT;if(C===Dy)return i.COMPRESSED_RED_GREEN_RGTC2_EXT;if(C===ly)return i.COMPRESSED_SIGNED_RED_GREEN_RGTC2_EXT}else return null;return C===Te?g.UNSIGNED_INT_24_8:g[C]!==void 0?g[C]:null}return{convert:I}}class WJ extends eC{constructor(A=[]){super(),this.isArrayCamera=!0,this.cameras=A}}class GQ extends VI{constructor(){super(),this.isGroup=!0,this.type="Group"}}const jv={type:"move"};class tw{constructor(){this._targetRay=null,this._grip=null,this._hand=null}getHandSpace(){return this._hand===null&&(this._hand=new GQ,this._hand.matrixAutoUpdate=!1,this._hand.visible=!1,this._hand.joints={},this._hand.inputState={pinching:!1}),this._hand}getTargetRaySpace(){return this._targetRay===null&&(this._targetRay=new GQ,this._targetRay.matrixAutoUpdate=!1,this._targetRay.visible=!1,this._targetRay.hasLinearVelocity=!1,this._targetRay.linearVelocity=new T,this._targetRay.hasAngularVelocity=!1,this._targetRay.angularVelocity=new T),this._targetRay}getGripSpace(){return this._grip===null&&(this._grip=new GQ,this._grip.matrixAutoUpdate=!1,this._grip.visible=!1,this._grip.hasLinearVelocity=!1,this._grip.linearVelocity=new T,this._grip.hasAngularVelocity=!1,this._grip.angularVelocity=new T),this._grip}dispatchEvent(A){return this._targetRay!==null&&this._targetRay.dispatchEvent(A),this._grip!==null&&this._grip.dispatchEvent(A),this._hand!==null&&this._hand.dispatchEvent(A),this}connect(A){if(A&&A.hand){const I=this._hand;if(I)for(const C of A.hand.values())this._getHandJoint(I,C)}return this.dispatchEvent({type:"connected",data:A}),this}disconnect(A){return this.dispatchEvent({type:"disconnected",data:A}),this._targetRay!==null&&(this._targetRay.visible=!1),this._grip!==null&&(this._grip.visible=!1),this._hand!==null&&(this._hand.visible=!1),this}update(A,I,C){let B=null,i=null,Q=null;const E=this._targetRay,e=this._grip,n=this._hand;if(A&&I.session.visibilityState!=="visible-blurred"){if(n&&A.hand){Q=!0;for(const y of A.hand.values()){const S=I.getJointPose(y,C),l=this._getHandJoint(n,y);S!==null&&(l.matrix.fromArray(S.transform.matrix),l.matrix.decompose(l.position,l.rotation,l.scale),l.matrixWorldNeedsUpdate=!0,l.jointRadius=S.radius),l.visible=S!==null}const a=n.joints["index-finger-tip"],s=n.joints["thumb-tip"],r=a.position.distanceTo(s.position),D=.02,c=.005;n.inputState.pinching&&r>D+c?(n.inputState.pinching=!1,this.dispatchEvent({type:"pinchend",handedness:A.handedness,target:this})):!n.inputState.pinching&&r<=D-c&&(n.inputState.pinching=!0,this.dispatchEvent({type:"pinchstart",handedness:A.handedness,target:this}))}else e!==null&&A.gripSpace&&(i=I.getPose(A.gripSpace,C),i!==null&&(e.matrix.fromArray(i.transform.matrix),e.matrix.decompose(e.position,e.rotation,e.scale),e.matrixWorldNeedsUpdate=!0,i.linearVelocity?(e.hasLinearVelocity=!0,e.linearVelocity.copy(i.linearVelocity)):e.hasLinearVelocity=!1,i.angularVelocity?(e.hasAngularVelocity=!0,e.angularVelocity.copy(i.angularVelocity)):e.hasAngularVelocity=!1));E!==null&&(B=I.getPose(A.targetRaySpace,C),B===null&&i!==null&&(B=i),B!==null&&(E.matrix.fromArray(B.transform.matrix),E.matrix.decompose(E.position,E.rotation,E.scale),E.matrixWorldNeedsUpdate=!0,B.linearVelocity?(E.hasLinearVelocity=!0,E.linearVelocity.copy(B.linearVelocity)):E.hasLinearVelocity=!1,B.angularVelocity?(E.hasAngularVelocity=!0,E.angularVelocity.copy(B.angularVelocity)):E.hasAngularVelocity=!1,this.dispatchEvent(jv)))}return E!==null&&(E.visible=B!==null),e!==null&&(e.visible=i!==null),n!==null&&(n.visible=Q!==null),this}_getHandJoint(A,I){if(A.joints[I.jointName]===void 0){const C=new GQ;C.matrixAutoUpdate=!1,C.visible=!1,A.joints[I.jointName]=C,A.add(C)}return A.joints[I.jointName]}}const zv=`
void main() {

	gl_Position = vec4( position, 1.0 );

}`,Xv=`
uniform sampler2DArray depthColor;
uniform float depthWidth;
uniform float depthHeight;

void main() {

	vec2 coord = vec2( gl_FragCoord.x / depthWidth, gl_FragCoord.y / depthHeight );

	if ( coord.x >= 1.0 ) {

		gl_FragDepth = texture( depthColor, vec3( coord.x - 1.0, coord.y, 1 ) ).r;

	} else {

		gl_FragDepth = texture( depthColor, vec3( coord.x, coord.y, 0 ) ).r;

	}

}`;class $v{constructor(){this.texture=null,this.mesh=null,this.depthNear=0,this.depthFar=0}init(A,I,C){if(this.texture===null){const B=new Ig,i=A.properties.get(B);i.__webglTexture=I.texture,(I.depthNear!=C.depthNear||I.depthFar!=C.depthFar)&&(this.depthNear=I.depthNear,this.depthFar=I.depthFar),this.texture=B}}getMesh(A){if(this.texture!==null&&this.mesh===null){const I=A.cameras[0].viewport,C=new iB({vertexShader:zv,fragmentShader:Xv,uniforms:{depthColor:{value:this.texture},depthWidth:{value:I.z},depthHeight:{value:I.w}}});this.mesh=new Jg(new mE(20,20),C)}return this.mesh}reset(){this.texture=null,this.mesh=null}}class AO extends mQ{constructor(A,I){super();const C=this;let B=null,i=1,Q=null,E="local-floor",e=1,n=null,a=null,s=null,r=null,D=null,c=null;const y=new $v,S=I.getContextAttributes();let l=null,w=null;const k=[],U=[],f=new pA;let F=null;const J=new eC;J.layers.enable(1),J.viewport=new Dg;const q=new eC;q.layers.enable(2),q.viewport=new Dg;const K=[J,q],N=new WJ;N.layers.enable(1),N.layers.enable(2);let m=null,P=null;this.cameraAutoUpdate=!0,this.enabled=!1,this.isPresenting=!1,this.getController=function(aA){let UA=k[aA];return UA===void 0&&(UA=new tw,k[aA]=UA),UA.getTargetRaySpace()},this.getControllerGrip=function(aA){let UA=k[aA];return UA===void 0&&(UA=new tw,k[aA]=UA),UA.getGripSpace()},this.getHand=function(aA){let UA=k[aA];return UA===void 0&&(UA=new tw,k[aA]=UA),UA.getHandSpace()};function z(aA){const UA=U.indexOf(aA.inputSource);if(UA===-1)return;const nA=k[UA];nA!==void 0&&(nA.update(aA.inputSource,aA.frame,n||Q),nA.dispatchEvent({type:aA.type,data:aA.inputSource}))}function IA(){B.removeEventListener("select",z),B.removeEventListener("selectstart",z),B.removeEventListener("selectend",z),B.removeEventListener("squeeze",z),B.removeEventListener("squeezestart",z),B.removeEventListener("squeezeend",z),B.removeEventListener("end",IA),B.removeEventListener("inputsourceschange",tA);for(let aA=0;aA<k.length;aA++){const UA=U[aA];UA!==null&&(U[aA]=null,k[aA].disconnect(UA))}m=null,P=null,y.reset(),A.setRenderTarget(l),D=null,r=null,s=null,B=null,w=null,xA.stop(),C.isPresenting=!1,A.setPixelRatio(F),A.setSize(f.width,f.height,!1),C.dispatchEvent({type:"sessionend"})}this.setFramebufferScaleFactor=function(aA){i=aA,C.isPresenting===!0&&console.warn("THREE.WebXRManager: Cannot change framebuffer scale while presenting.")},this.setReferenceSpaceType=function(aA){E=aA,C.isPresenting===!0&&console.warn("THREE.WebXRManager: Cannot change reference space type while presenting.")},this.getReferenceSpace=function(){return n||Q},this.setReferenceSpace=function(aA){n=aA},this.getBaseLayer=function(){return r!==null?r:D},this.getBinding=function(){return s},this.getFrame=function(){return c},this.getSession=function(){return B},this.setSession=async function(aA){if(B=aA,B!==null){if(l=A.getRenderTarget(),B.addEventListener("select",z),B.addEventListener("selectstart",z),B.addEventListener("selectend",z),B.addEventListener("squeeze",z),B.addEventListener("squeezestart",z),B.addEventListener("squeezeend",z),B.addEventListener("end",IA),B.addEventListener("inputsourceschange",tA),S.xrCompatible!==!0&&await I.makeXRCompatible(),F=A.getPixelRatio(),A.getSize(f),B.renderState.layers===void 0){const UA={antialias:S.antialias,alpha:!0,depth:S.depth,stencil:S.stencil,framebufferScaleFactor:i};D=new XRWebGLLayer(B,I,UA),B.updateRenderState({baseLayer:D}),A.setPixelRatio(1),A.setSize(D.framebufferWidth,D.framebufferHeight,!1),w=new fB(D.framebufferWidth,D.framebufferHeight,{format:CC,type:RB,colorSpace:A.outputColorSpace,stencilBuffer:S.stencil})}else{let UA=null,nA=null,uA=null;S.depth&&(uA=S.stencil?I.DEPTH24_STENCIL8:I.DEPTH_COMPONENT24,UA=S.stencil?xe:Ke,nA=S.stencil?Te:NE);const gI={colorFormat:I.RGBA8,depthFormat:uA,scaleFactor:i};s=new XRWebGLBinding(B,I),r=s.createProjectionLayer(gI),B.updateRenderState({layers:[r]}),A.setPixelRatio(1),A.setSize(r.textureWidth,r.textureHeight,!1),w=new fB(r.textureWidth,r.textureHeight,{format:CC,type:RB,depthTexture:new Vk(r.textureWidth,r.textureHeight,nA,void 0,void 0,void 0,void 0,void 0,void 0,UA),stencilBuffer:S.stencil,colorSpace:A.outputColorSpace,samples:S.antialias?4:0,resolveDepthBuffer:r.ignoreDepthValues===!1})}w.isXRRenderTarget=!0,this.setFoveation(e),n=null,Q=await B.requestReferenceSpace(E),xA.setContext(B),xA.start(),C.isPresenting=!0,C.dispatchEvent({type:"sessionstart"})}},this.getEnvironmentBlendMode=function(){if(B!==null)return B.environmentBlendMode};function tA(aA){for(let UA=0;UA<aA.removed.length;UA++){const nA=aA.removed[UA],uA=U.indexOf(nA);uA>=0&&(U[uA]=null,k[uA].disconnect(nA))}for(let UA=0;UA<aA.added.length;UA++){const nA=aA.added[UA];let uA=U.indexOf(nA);if(uA===-1){for(let bA=0;bA<k.length;bA++)if(bA>=U.length){U.push(nA),uA=bA;break}else if(U[bA]===null){U[bA]=nA,uA=bA;break}if(uA===-1)break}const gI=k[uA];gI&&gI.connect(nA)}}const $=new T,SA=new T;function O(aA,UA,nA){$.setFromMatrixPosition(UA.matrixWorld),SA.setFromMatrixPosition(nA.matrixWorld);const uA=$.distanceTo(SA),gI=UA.projectionMatrix.elements,bA=nA.projectionMatrix.elements,$A=gI[14]/(gI[10]-1),W=gI[14]/(gI[10]+1),kA=(gI[9]+1)/gI[5],GA=(gI[9]-1)/gI[5],qA=(gI[8]-1)/gI[0],KA=(bA[8]+1)/bA[0],fA=$A*qA,WA=$A*KA,PA=uA/(-qA+KA),wI=PA*-qA;UA.matrixWorld.decompose(aA.position,aA.quaternion,aA.scale),aA.translateX(wI),aA.translateZ(PA),aA.matrixWorld.compose(aA.position,aA.quaternion,aA.scale),aA.matrixWorldInverse.copy(aA.matrixWorld).invert();const _=$A+PA,Y=W+PA,DA=fA-wI,FA=WA+(uA-wI),NA=kA*W/Y*_,RA=GA*W/Y*_;aA.projectionMatrix.makePerspective(DA,FA,NA,RA,_,Y),aA.projectionMatrixInverse.copy(aA.projectionMatrix).invert()}function EA(aA,UA){UA===null?aA.matrixWorld.copy(aA.matrix):aA.matrixWorld.multiplyMatrices(UA.matrixWorld,aA.matrix),aA.matrixWorldInverse.copy(aA.matrixWorld).invert()}this.updateCamera=function(aA){if(B===null)return;y.texture!==null&&(aA.near=y.depthNear,aA.far=y.depthFar),N.near=q.near=J.near=aA.near,N.far=q.far=J.far=aA.far,(m!==N.near||P!==N.far)&&(B.updateRenderState({depthNear:N.near,depthFar:N.far}),m=N.near,P=N.far,J.near=m,J.far=P,q.near=m,q.far=P,J.updateProjectionMatrix(),q.updateProjectionMatrix(),aA.updateProjectionMatrix());const UA=aA.parent,nA=N.cameras;EA(N,UA);for(let uA=0;uA<nA.length;uA++)EA(nA[uA],UA);nA.length===2?O(N,J,q):N.projectionMatrix.copy(J.projectionMatrix),X(aA,N,UA)};function X(aA,UA,nA){nA===null?aA.matrix.copy(UA.matrixWorld):(aA.matrix.copy(nA.matrixWorld),aA.matrix.invert(),aA.matrix.multiply(UA.matrixWorld)),aA.matrix.decompose(aA.position,aA.quaternion,aA.scale),aA.updateMatrixWorld(!0),aA.projectionMatrix.copy(UA.projectionMatrix),aA.projectionMatrixInverse.copy(UA.projectionMatrixInverse),aA.isPerspectiveCamera&&(aA.fov=Jo*2*Math.atan(1/aA.projectionMatrix.elements[5]),aA.zoom=1)}this.getCamera=function(){return N},this.getFoveation=function(){if(!(r===null&&D===null))return e},this.setFoveation=function(aA){e=aA,r!==null&&(r.fixedFoveation=aA),D!==null&&D.fixedFoveation!==void 0&&(D.fixedFoveation=aA)},this.hasDepthSensing=function(){return y.texture!==null},this.getDepthSensingMesh=function(){return y.getMesh(N)};let oA=null;function MA(aA,UA){if(a=UA.getViewerPose(n||Q),c=UA,a!==null){const nA=a.views;D!==null&&(A.setRenderTargetFramebuffer(w,D.framebuffer),A.setRenderTarget(w));let uA=!1;nA.length!==N.cameras.length&&(N.cameras.length=0,uA=!0);for(let bA=0;bA<nA.length;bA++){const $A=nA[bA];let W=null;if(D!==null)W=D.getViewport($A);else{const GA=s.getViewSubImage(r,$A);W=GA.viewport,bA===0&&(A.setRenderTargetTextures(w,GA.colorTexture,r.ignoreDepthValues?void 0:GA.depthStencilTexture),A.setRenderTarget(w))}let kA=K[bA];kA===void 0&&(kA=new eC,kA.layers.enable(bA),kA.viewport=new Dg,K[bA]=kA),kA.matrix.fromArray($A.transform.matrix),kA.matrix.decompose(kA.position,kA.quaternion,kA.scale),kA.projectionMatrix.fromArray($A.projectionMatrix),kA.projectionMatrixInverse.copy(kA.projectionMatrix).invert(),kA.viewport.set(W.x,W.y,W.width,W.height),bA===0&&(N.matrix.copy(kA.matrix),N.matrix.decompose(N.position,N.quaternion,N.scale)),uA===!0&&N.cameras.push(kA)}const gI=B.enabledFeatures;if(gI&&gI.includes("depth-sensing")){const bA=s.getDepthInformation(nA[0]);bA&&bA.isValid&&bA.texture&&y.init(A,bA,B.renderState)}}for(let nA=0;nA<k.length;nA++){const uA=U[nA],gI=k[nA];uA!==null&&gI!==void 0&&gI.update(uA,UA,n||Q)}oA&&oA(aA,UA),UA.detectedPlanes&&C.dispatchEvent({type:"planesdetected",data:UA}),c=null}const xA=new xJ;xA.setAnimationLoop(MA),this.setAnimationLoop=function(aA){oA=aA},this.dispose=function(){}}}const ge=new ZC,IO=new hI;function gO(g,A){function I(S,l){S.matrixAutoUpdate===!0&&S.updateMatrix(),l.value.copy(S.matrix)}function C(S,l){l.color.getRGB(S.fogColor.value,LJ(g)),l.isFog?(S.fogNear.value=l.near,S.fogFar.value=l.far):l.isFogExp2&&(S.fogDensity.value=l.density)}function B(S,l,w,k,U){l.isMeshBasicMaterial||l.isMeshLambertMaterial?i(S,l):l.isMeshToonMaterial?(i(S,l),s(S,l)):l.isMeshPhongMaterial?(i(S,l),a(S,l)):l.isMeshStandardMaterial?(i(S,l),r(S,l),l.isMeshPhysicalMaterial&&D(S,l,U)):l.isMeshMatcapMaterial?(i(S,l),c(S,l)):l.isMeshDepthMaterial?i(S,l):l.isMeshDistanceMaterial?(i(S,l),y(S,l)):l.isMeshNormalMaterial?i(S,l):l.isLineBasicMaterial?(Q(S,l),l.isLineDashedMaterial&&E(S,l)):l.isPointsMaterial?e(S,l,w,k):l.isSpriteMaterial?n(S,l):l.isShadowMaterial?(S.color.value.copy(l.color),S.opacity.value=l.opacity):l.isShaderMaterial&&(l.uniformsNeedUpdate=!1)}function i(S,l){S.opacity.value=l.opacity,l.color&&S.diffuse.value.copy(l.color),l.emissive&&S.emissive.value.copy(l.emissive).multiplyScalar(l.emissiveIntensity),l.map&&(S.map.value=l.map,I(l.map,S.mapTransform)),l.alphaMap&&(S.alphaMap.value=l.alphaMap,I(l.alphaMap,S.alphaMapTransform)),l.bumpMap&&(S.bumpMap.value=l.bumpMap,I(l.bumpMap,S.bumpMapTransform),S.bumpScale.value=l.bumpScale,l.side===BB&&(S.bumpScale.value*=-1)),l.normalMap&&(S.normalMap.value=l.normalMap,I(l.normalMap,S.normalMapTransform),S.normalScale.value.copy(l.normalScale),l.side===BB&&S.normalScale.value.negate()),l.displacementMap&&(S.displacementMap.value=l.displacementMap,I(l.displacementMap,S.displacementMapTransform),S.displacementScale.value=l.displacementScale,S.displacementBias.value=l.displacementBias),l.emissiveMap&&(S.emissiveMap.value=l.emissiveMap,I(l.emissiveMap,S.emissiveMapTransform)),l.specularMap&&(S.specularMap.value=l.specularMap,I(l.specularMap,S.specularMapTransform)),l.alphaTest>0&&(S.alphaTest.value=l.alphaTest);const 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og(d,L,x){d.transparent===!0&&d.side===dB&&d.forceSinglePass===!1?(d.side=BB,d.needsUpdate=!0,RC(d,L,x),d.side=Xi,d.needsUpdate=!0,RC(d,L,x),d.side=dB):RC(d,L,x)}this.compile=function(d,L,x=null){x===null&&(x=d),S=_A.get(x),S.init(L),w.push(S),x.traverseVisible(function(Z){Z.isLight&&Z.layers.test(L.layers)&&(S.pushLight(Z),Z.castShadow&&S.pushShadow(Z))}),d!==x&&d.traverseVisible(function(Z){Z.isLight&&Z.layers.test(L.layers)&&(S.pushLight(Z),Z.castShadow&&S.pushShadow(Z))}),S.setupLights();const v=new Set;return d.traverse(function(Z){const BA=Z.material;if(BA)if(Array.isArray(BA))for(let sA=0;sA<BA.length;sA++){const lA=BA[sA];og(lA,x,Z),v.add(lA)}else og(BA,x,Z),v.add(BA)}),w.pop(),S=null,v},this.compileAsync=function(d,L,x=null){const v=this.compile(d,L,x);return new Promise(Z=>{function BA(){if(v.forEach(function(sA){WA.get(sA).currentProgram.isReady()&&v.delete(sA)}),v.size===0){Z(d);return}setTimeout(BA,10)}GA.get("KHR_parallel_shader_compile")!==null?BA():setTimeout(BA,10)})};let wg=null;function gg(d){wg&&wg(d)}function WC(){ei.stop()}function VC(){ei.start()}const ei=new xJ;ei.setAnimationLoop(gg),typeof self<"u"&&ei.setContext(self),this.setAnimationLoop=function(d){wg=d,V.setAnimationLoop(d),d===null?ei.stop():ei.start()},V.addEventListener("sessionstart",WC),V.addEventListener("sessionend",VC),this.render=function(d,L){if(L!==void 0&&L.isCamera!==!0){console.error("THREE.WebGLRenderer.render: camera is not an instance of THREE.Camera.");return}if(U===!0)return;if(d.matrixWorldAutoUpdate===!0&&d.updateMatrixWorld(),L.parent===null&&L.matrixWorldAutoUpdate===!0&&L.updateMatrixWorld(),V.enabled===!0&&V.isPresenting===!0&&(V.cameraAutoUpdate===!0&&V.updateCamera(L),L=V.getCamera()),d.isScene===!0&&d.onBeforeRender(k,d,L,J),S=_A.get(d,w.length),S.init(L),w.push(S),nA.multiplyMatrices(L.projectionMatrix,L.matrixWorldInverse),xA.setFromProjectionMatrix(nA),UA=this.localClippingEnabled,aA=ZA.init(this.clippingPlanes,UA),y=oI.get(d,l.length),y.init(),l.push(y),V.enabled===!0&&V.isPresenting===!0){const BA=k.xr.getDepthSensingMesh();BA!==null&&TE(BA,L,-1/0,k.sortObjects)}TE(d,L,0,k.sortObjects),y.finish(),k.sortObjects===!0&&y.sort(O,EA),bA=V.enabled===!1||V.isPresenting===!1||V.hasDepthSensing()===!1,bA&&mA.addToRenderList(y,d),this.info.render.frame++,aA===!0&&ZA.beginShadows();const x=S.state.shadowsArray;SI.render(x,d,L),aA===!0&&ZA.endShadows(),this.info.autoReset===!0&&this.info.reset();const v=y.opaque,Z=y.transmissive;if(S.setupLights(),L.isArrayCamera){const BA=L.cameras;if(Z.length>0)for(let sA=0,lA=BA.length;sA<lA;sA++){const hA=BA[sA];Ni(v,Z,d,hA)}bA&&mA.render(d);for(let sA=0,lA=BA.length;sA<lA;sA++){const hA=BA[sA];et(y,d,hA,hA.viewport)}}else Z.length>0&&Ni(v,Z,d,L),bA&&mA.render(d),et(y,d,L);J!==null&&(PA.updateMultisampleRenderTarget(J),PA.updateRenderTargetMipmap(J)),d.isScene===!0&&d.onAfterRender(k,d,L),MI.resetDefaultState(),q=-1,K=null,w.pop(),w.length>0?(S=w[w.length-1],aA===!0&&ZA.setGlobalState(k.clippingPlanes,S.state.camera)):S=null,l.pop(),l.length>0?y=l[l.length-1]:y=null};function TE(d,L,x,v){if(d.visible===!1)return;if(d.layers.test(L.layers)){if(d.isGroup)x=d.renderOrder;else if(d.isLOD)d.autoUpdate===!0&&d.update(L);else if(d.isLight)S.pushLight(d),d.castShadow&&S.pushShadow(d);else if(d.isSprite){if(!d.frustumCulled||xA.intersectsSprite(d)){v&&uA.setFromMatrixPosition(d.matrixWorld).applyMatrix4(nA);const sA=FA.update(d),lA=d.material;lA.visible&&y.push(d,sA,lA,x,uA.z,null)}}else if((d.isMesh||d.isLine||d.isPoints)&&(!d.frustumCulled||xA.intersectsObject(d))){const sA=FA.update(d),lA=d.material;if(v&&(d.boundingSphere!==void 0?(d.boundingSphere===null&&d.computeBoundingSphere(),uA.copy(d.boundingSphere.center)):(sA.boundingSphere===null&&sA.computeBoundingSphere(),uA.copy(sA.boundingSphere.center)),uA.applyMatrix4(d.matrixWorld).applyMatrix4(nA)),Array.isArray(lA)){const hA=sA.groups;for(let wA=0,XA=hA.length;wA<XA;wA++){const JA=hA[wA],vA=lA[JA.materialIndex];vA&&vA.visible&&y.push(d,sA,vA,x,uA.z,JA)}}else lA.visible&&y.push(d,sA,lA,x,uA.z,null)}}const BA=d.children;for(let sA=0,lA=BA.length;sA<lA;sA++)TE(BA[sA],L,x,v)}function et(d,L,x,v){const Z=d.opaque,BA=d.transmissive,sA=d.transparent;S.setupLightsView(x),aA===!0&&ZA.setGlobalState(k.clippingPlanes,x),v&&KA.viewport(N.copy(v)),Z.length>0&&Fi(Z,L,x),BA.length>0&&Fi(BA,L,x),sA.length>0&&Fi(sA,L,x),KA.buffers.depth.setTest(!0),KA.buffers.depth.setMask(!0),KA.buffers.color.setMask(!0),KA.setPolygonOffset(!1)}function Ni(d,L,x,v){if((x.isScene===!0?x.overrideMaterial:null)!==null)return;S.state.transmissionRenderTarget[v.id]===void 0&&(S.state.transmissionRenderTarget[v.id]=new fB(1,1,{generateMipmaps:!0,type:GA.has("EXT_color_buffer_half_float")||GA.has("EXT_color_buffer_float")?dC:RB,minFilter:Ii,samples:4,stencilBuffer:i,resolveDepthBuffer:!1,resolveStencilBuffer:!1,colorSpace:ag.workingColorSpace}));const BA=S.state.transmissionRenderTarget[v.id],sA=v.viewport||N;BA.setSize(sA.z,sA.w);const lA=k.getRenderTarget();k.setRenderTarget(BA),k.getClearColor(z),IA=k.getClearAlpha(),IA<1&&k.setClearColor(16777215,.5),bA?mA.render(x):k.clear();const hA=k.toneMapping;k.toneMapping=Vi;const wA=v.viewport;if(v.viewport!==void 0&&(v.viewport=void 0),S.setupLightsView(v),aA===!0&&ZA.setGlobalState(k.clippingPlanes,v),Fi(d,x,v),PA.updateMultisampleRenderTarget(BA),PA.updateRenderTargetMipmap(BA),GA.has("WEBGL_multisampled_render_to_texture")===!1){let XA=!1;for(let JA=0,vA=L.length;JA<vA;JA++){const BI=L[JA],QI=BI.object,UI=BI.geometry,EI=BI.material,YA=BI.group;if(EI.side===dB&&QI.layers.test(v.layers)){const rI=EI.side;EI.side=BB,EI.needsUpdate=!0,Ki(QI,x,v,UI,EI,YA),EI.side=rI,EI.needsUpdate=!0,XA=!0}}XA===!0&&(PA.updateMultisampleRenderTarget(BA),PA.updateRenderTargetMipmap(BA))}k.setRenderTarget(lA),k.setClearColor(z,IA),wA!==void 0&&(v.viewport=wA),k.toneMapping=hA}function Fi(d,L,x){const v=L.isScene===!0?L.overrideMaterial:null;for(let Z=0,BA=d.length;Z<BA;Z++){const sA=d[Z],lA=sA.object,hA=sA.geometry,wA=v===null?sA.material:v,XA=sA.group;lA.layers.test(x.layers)&&Ki(lA,L,x,hA,wA,XA)}}function Ki(d,L,x,v,Z,BA){d.onBeforeRender(k,L,x,v,Z,BA),d.modelViewMatrix.multiplyMatrices(x.matrixWorldInverse,d.matrixWorld),d.normalMatrix.getNormalMatrix(d.modelViewMatrix),Z.onBeforeRender(k,L,x,v,d,BA),Z.transparent===!0&&Z.side===dB&&Z.forceSinglePass===!1?(Z.side=BB,Z.needsUpdate=!0,k.renderBufferDirect(x,L,v,Z,d,BA),Z.side=Xi,Z.needsUpdate=!0,k.renderBufferDirect(x,L,v,Z,d,BA),Z.side=dB):k.renderBufferDirect(x,L,v,Z,d,BA),d.onAfterRender(k,L,x,v,Z,BA)}function RC(d,L,x){L.isScene!==!0&&(L=gI);const v=WA.get(d),Z=S.state.lights,BA=S.state.shadowsArray,sA=Z.state.version,lA=NA.getParameters(d,Z.state,BA,L,x),hA=NA.getProgramCacheKey(lA);let wA=v.programs;v.environment=d.isMeshStandardMaterial?L.environment:null,v.fog=L.fog,v.envMap=(d.isMeshStandardMaterial?_:wI).get(d.envMap||v.environment),v.envMapRotation=v.environment!==null&&d.envMap===null?L.environmentRotation:d.envMapRotation,wA===void 0&&(d.addEventListener("dispose",TA),wA=new Map,v.programs=wA);let XA=wA.get(hA);if(XA!==void 0){if(v.currentProgram===XA&&v.lightsStateVersion===sA)return xE(d,lA),XA}else lA.uniforms=NA.getUniforms(d),d.onBuild(x,lA,k),d.onBeforeCompile(lA,k),XA=NA.acquireProgram(lA,hA),wA.set(hA,XA),v.uniforms=lA.uniforms;const JA=v.uniforms;return(!d.isShaderMaterial&&!d.isRawShaderMaterial||d.clipping===!0)&&(JA.clippingPlanes=ZA.uniform),xE(d,lA),v.needsLights=H(d),v.lightsStateVersion=sA,v.needsLights&&(JA.ambientLightColor.value=Z.state.ambient,JA.lightProbe.value=Z.state.probe,JA.directionalLights.value=Z.state.directional,JA.directionalLightShadows.value=Z.state.directionalShadow,JA.spotLights.value=Z.state.spot,JA.spotLightShadows.value=Z.state.spotShadow,JA.rectAreaLights.value=Z.state.rectArea,JA.ltc_1.value=Z.state.rectAreaLTC1,JA.ltc_2.value=Z.state.rectAreaLTC2,JA.pointLights.value=Z.state.point,JA.pointLightShadows.value=Z.state.pointShadow,JA.hemisphereLights.value=Z.state.hemi,JA.directionalShadowMap.value=Z.state.directionalShadowMap,JA.directionalShadowMatrix.value=Z.state.directionalShadowMatrix,JA.spotShadowMap.value=Z.state.spotShadowMap,JA.spotLightMatrix.value=Z.state.spotLightMatrix,JA.spotLightMap.value=Z.state.spotLightMap,JA.pointShadowMap.value=Z.state.pointShadowMap,JA.pointShadowMatrix.value=Z.state.pointShadowMatrix),v.currentProgram=XA,v.uniformsList=null,XA}function xI(d){if(d.uniformsList===null){const L=d.currentProgram.getUniforms();d.uniformsList=Al.seqWithValue(L.seq,d.uniforms)}return d.uniformsList}function xE(d,L){const x=WA.get(d);x.outputColorSpace=L.outputColorSpace,x.batching=L.batching,x.batchingColor=L.batchingColor,x.instancing=L.instancing,x.instancingColor=L.instancingColor,x.instancingMorph=L.instancingMorph,x.skinning=L.skinning,x.morphTargets=L.morphTargets,x.morphNormals=L.morphNormals,x.morphColors=L.morphColors,x.morphTargetsCount=L.morphTargetsCount,x.numClippingPlanes=L.numClippingPlanes,x.numIntersection=L.numClipIntersection,x.vertexAlphas=L.vertexAlphas,x.vertexTangents=L.vertexTangents,x.toneMapping=L.toneMapping}function zo(d,L,x,v,Z){L.isScene!==!0&&(L=gI),PA.resetTextureUnits();const BA=L.fog,sA=v.isMeshStandardMaterial?L.environment:null,lA=J===null?k.outputColorSpace:J.isXRRenderTarget===!0?J.texture.colorSpace:ii,hA=(v.isMeshStandardMaterial?_:wI).get(v.envMap||sA),wA=v.vertexColors===!0&&!!x.attributes.color&&x.attributes.color.itemSize===4,XA=!!x.attributes.tangent&&(!!v.normalMap||v.anisotropy>0),JA=!!x.morphAttributes.position,vA=!!x.morphAttributes.normal,BI=!!x.morphAttributes.color;let QI=Vi;v.toneMapped&&(J===null||J.isXRRenderTarget===!0)&&(QI=k.toneMapping);const UI=x.morphAttributes.position||x.morphAttributes.normal||x.morphAttributes.color,EI=UI!==void 0?UI.length:0,YA=WA.get(v),rI=S.state.lights;if(aA===!0&&(UA===!0||d!==K)){const ig=d===K&&v.id===q;ZA.setState(v,d,ig)}let tI=!1;v.version===YA.__version?(YA.needsLights&&YA.lightsStateVersion!==rI.state.version||YA.outputColorSpace!==lA||Z.isBatchedMesh&&YA.batching===!1||!Z.isBatchedMesh&&YA.batching===!0||Z.isBatchedMesh&&YA.batchingColor===!0&&Z.colorTexture===null||Z.isBatchedMesh&&YA.batchingColor===!1&&Z.colorTexture!==null||Z.isInstancedMesh&&YA.instancing===!1||!Z.isInstancedMesh&&YA.instancing===!0||Z.isSkinnedMesh&&YA.skinning===!1||!Z.isSkinnedMesh&&YA.skinning===!0||Z.isInstancedMesh&&YA.instancingColor===!0&&Z.instanceColor===null||Z.isInstancedMesh&&YA.instancingColor===!1&&Z.instanceColor!==null||Z.isInstancedMesh&&YA.instancingMorph===!0&&Z.morphTexture===null||Z.isInstancedMesh&&YA.instancingMorph===!1&&Z.morphTexture!==null||YA.envMap!==hA||v.fog===!0&&YA.fog!==BA||YA.numClippingPlanes!==void 0&&(YA.numClippingPlanes!==ZA.numPlanes||YA.numIntersection!==ZA.numIntersection)||YA.vertexAlphas!==wA||YA.vertexTangents!==XA||YA.morphTargets!==JA||YA.morphNormals!==vA||YA.morphColors!==BI||YA.toneMapping!==QI||YA.morphTargetsCount!==EI)&&(tI=!0):(tI=!0,YA.__version=v.version);let _I=YA.currentProgram;tI===!0&&(_I=RC(v,L,Z));let NI=!1,jI=!1,zg=!1;const OI=_I.getUniforms(),Gg=YA.uniforms;if(KA.useProgram(_I.program)&&(NI=!0,jI=!0,zg=!0),v.id!==q&&(q=v.id,jI=!0),NI||K!==d){OI.setValue(W,"projectionMatrix",d.projectionMatrix),OI.setValue(W,"viewMatrix",d.matrixWorldInverse);const ig=OI.map.cameraPosition;ig!==void 0&&ig.setValue(W,uA.setFromMatrixPosition(d.matrixWorld)),qA.logarithmicDepthBuffer&&OI.setValue(W,"logDepthBufFC",2/(Math.log(d.far+1)/Math.LN2)),(v.isMeshPhongMaterial||v.isMeshToonMaterial||v.isMeshLambertMaterial||v.isMeshBasicMaterial||v.isMeshStandardMaterial||v.isShaderMaterial)&&OI.setValue(W,"isOrthographic",d.isOrthographicCamera===!0),K!==d&&(K=d,jI=!0,zg=!0)}if(Z.isSkinnedMesh){OI.setOptional(W,Z,"bindMatrix"),OI.setOptional(W,Z,"bindMatrixInverse");const ig=Z.skeleton;ig&&(ig.boneTexture===null&&ig.computeBoneTexture(),OI.setValue(W,"boneTexture",ig.boneTexture,PA))}Z.isBatchedMesh&&(OI.setOptional(W,Z,"batchingTexture"),OI.setValue(W,"batchingTexture",Z._matricesTexture,PA),OI.setOptional(W,Z,"batchingColorTexture"),Z._colorsTexture!==null&&OI.setValue(W,"batchingColorTexture",Z._colorsTexture,PA));const zI=x.morphAttributes;if((zI.position!==void 0||zI.normal!==void 0||zI.color!==void 0)&&CI.update(Z,x,_I),(jI||YA.receiveShadow!==Z.receiveShadow)&&(YA.receiveShadow=Z.receiveShadow,OI.setValue(W,"receiveShadow",Z.receiveShadow)),v.isMeshGouraudMaterial&&v.envMap!==null&&(Gg.envMap.value=hA,Gg.flipEnvMap.value=hA.isCubeTexture&&hA.isRenderTargetTexture===!1?-1:1),v.isMeshStandardMaterial&&v.envMap===null&&L.environment!==null&&(Gg.envMapIntensity.value=L.environmentIntensity),jI&&(OI.setValue(W,"toneMappingExposure",k.toneMappingExposure),YA.needsLights&&R(Gg,zg),BA&&v.fog===!0&&RA.refreshFogUniforms(Gg,BA),RA.refreshMaterialUniforms(Gg,v,SA,$,S.state.transmissionRenderTarget[d.id]),Al.upload(W,xI(YA),Gg,PA)),v.isShaderMaterial&&v.uniformsNeedUpdate===!0&&(Al.upload(W,xI(YA),Gg,PA),v.uniformsNeedUpdate=!1),v.isSpriteMaterial&&OI.setValue(W,"center",Z.center),OI.setValue(W,"modelViewMatrix",Z.modelViewMatrix),OI.setValue(W,"normalMatrix",Z.normalMatrix),OI.setValue(W,"modelMatrix",Z.matrixWorld),v.isShaderMaterial||v.isRawShaderMaterial){const ig=v.uniformsGroups;for(let Cg=0,XI=ig.length;Cg<XI;Cg++){const hg=ig[Cg];uI.update(hg,_I),uI.bind(hg,_I)}}return _I}function R(d,L){d.ambientLightColor.needsUpdate=L,d.lightProbe.needsUpdate=L,d.directionalLights.needsUpdate=L,d.directionalLightShadows.needsUpdate=L,d.pointLights.needsUpdate=L,d.pointLightShadows.needsUpdate=L,d.spotLights.needsUpdate=L,d.spotLightShadows.needsUpdate=L,d.rectAreaLights.needsUpdate=L,d.hemisphereLights.needsUpdate=L}function H(d){return d.isMeshLambertMaterial||d.isMeshToonMaterial||d.isMeshPhongMaterial||d.isMeshStandardMaterial||d.isShadowMaterial||d.isShaderMaterial&&d.lights===!0}this.getActiveCubeFace=function(){return f},this.getActiveMipmapLevel=function(){return F},this.getRenderTarget=function(){return J},this.setRenderTargetTextures=function(d,L,x){WA.get(d.texture).__webglTexture=L,WA.get(d.depthTexture).__webglTexture=x;const v=WA.get(d);v.__hasExternalTextures=!0,v.__autoAllocateDepthBuffer=x===void 0,v.__autoAllocateDepthBuffer||GA.has("WEBGL_multisampled_render_to_texture")===!0&&(console.warn("THREE.WebGLRenderer: Render-to-texture extension was disabled because an external texture was provided"),v.__useRenderToTexture=!1)},this.setRenderTargetFramebuffer=function(d,L){const x=WA.get(d);x.__webglFramebuffer=L,x.__useDefaultFramebuffer=L===void 0},this.setRenderTarget=function(d,L=0,x=0){J=d,f=L,F=x;let v=!0,Z=null,BA=!1,sA=!1;if(d){const hA=WA.get(d);hA.__useDefaultFramebuffer!==void 0?(KA.bindFramebuffer(W.FRAMEBUFFER,null),v=!1):hA.__webglFramebuffer===void 0?PA.setupRenderTarget(d):hA.__hasExternalTextures&&PA.rebindTextures(d,WA.get(d.texture).__webglTexture,WA.get(d.depthTexture).__webglTexture);const wA=d.texture;(wA.isData3DTexture||wA.isDataArrayTexture||wA.isCompressedArrayTexture)&&(sA=!0);const XA=WA.get(d).__webglFramebuffer;d.isWebGLCubeRenderTarget?(Array.isArray(XA[L])?Z=XA[L][x]:Z=XA[L],BA=!0):d.samples>0&&PA.useMultisampledRTT(d)===!1?Z=WA.get(d).__webglMultisampledFramebuffer:Array.isArray(XA)?Z=XA[x]:Z=XA,N.copy(d.viewport),m.copy(d.scissor),P=d.scissorTest}else N.copy(X).multiplyScalar(SA).floor(),m.copy(oA).multiplyScalar(SA).floor(),P=MA;if(KA.bindFramebuffer(W.FRAMEBUFFER,Z)&&v&&KA.drawBuffers(d,Z),KA.viewport(N),KA.scissor(m),KA.setScissorTest(P),BA){const hA=WA.get(d.texture);W.framebufferTexture2D(W.FRAMEBUFFER,W.COLOR_ATTACHMENT0,W.TEXTURE_CUBE_MAP_POSITIVE_X+L,hA.__webglTexture,x)}else if(sA){const hA=WA.get(d.texture),wA=L||0;W.framebufferTextureLayer(W.FRAMEBUFFER,W.COLOR_ATTACHMENT0,hA.__webglTexture,x||0,wA)}q=-1},this.readRenderTargetPixels=function(d,L,x,v,Z,BA,sA){if(!(d&&d.isWebGLRenderTarget)){console.error("THREE.WebGLRenderer.readRenderTargetPixels: renderTarget is not THREE.WebGLRenderTarget.");return}let lA=WA.get(d).__webglFramebuffer;if(d.isWebGLCubeRenderTarget&&sA!==void 0&&(lA=lA[sA]),lA){KA.bindFramebuffer(W.FRAMEBUFFER,lA);try{const hA=d.texture,wA=hA.format,XA=hA.type;if(!qA.textureFormatReadable(wA)){console.error("THREE.WebGLRenderer.readRenderTargetPixels: renderTarget is not in RGBA or implementation defined format.");return}if(!qA.textureTypeReadable(XA)){console.error("THREE.WebGLRenderer.readRenderTargetPixels: renderTarget is not in UnsignedByteType or implementation defined type.");return}L>=0&&L<=d.width-v&&x>=0&&x<=d.height-Z&&W.readPixels(L,x,v,Z,HA.convert(wA),HA.convert(XA),BA)}finally{const hA=J!==null?WA.get(J).__webglFramebuffer:null;KA.bindFramebuffer(W.FRAMEBUFFER,hA)}}},this.readRenderTargetPixelsAsync=async function(d,L,x,v,Z,BA,sA){if(!(d&&d.isWebGLRenderTarget))throw new Error("THREE.WebGLRenderer.readRenderTargetPixels: renderTarget is not THREE.WebGLRenderTarget.");let lA=WA.get(d).__webglFramebuffer;if(d.isWebGLCubeRenderTarget&&sA!==void 0&&(lA=lA[sA]),lA){KA.bindFramebuffer(W.FRAMEBUFFER,lA);try{const hA=d.texture,wA=hA.format,XA=hA.type;if(!qA.textureFormatReadable(wA))throw new Error("THREE.WebGLRenderer.readRenderTargetPixelsAsync: renderTarget is not in RGBA or implementation defined format.");if(!qA.textureTypeReadable(XA))throw new Error("THREE.WebGLRenderer.readRenderTargetPixelsAsync: renderTarget is not in UnsignedByteType or implementation defined type.");if(L>=0&&L<=d.width-v&&x>=0&&x<=d.height-Z){const JA=W.createBuffer();W.bindBuffer(W.PIXEL_PACK_BUFFER,JA),W.bufferData(W.PIXEL_PACK_BUFFER,BA.byteLength,W.STREAM_READ),W.readPixels(L,x,v,Z,HA.convert(wA),HA.convert(XA),0),W.flush();const vA=W.fenceSync(W.SYNC_GPU_COMMANDS_COMPLETE,0);await XL(W,vA,4);try{W.bindBuffer(W.PIXEL_PACK_BUFFER,JA),W.getBufferSubData(W.PIXEL_PACK_BUFFER,0,BA)}finally{W.deleteBuffer(JA),W.deleteSync(vA)}return BA}}finally{const hA=J!==null?WA.get(J).__webglFramebuffer:null;KA.bindFramebuffer(W.FRAMEBUFFER,hA)}}},this.copyFramebufferToTexture=function(d,L=null,x=0){d.isTexture!==!0&&(console.warn("WebGLRenderer: copyFramebufferToTexture function signature has changed."),L=arguments[0]||null,d=arguments[1]);const v=Math.pow(2,-x),Z=Math.floor(d.image.width*v),BA=Math.floor(d.image.height*v),sA=L!==null?L.x:0,lA=L!==null?L.y:0;PA.setTexture2D(d,0),W.copyTexSubImage2D(W.TEXTURE_2D,x,0,0,sA,lA,Z,BA),KA.unbindTexture()},this.copyTextureToTexture=function(d,L,x=null,v=null,Z=0){d.isTexture!==!0&&(console.warn("WebGLRenderer: copyTextureToTexture function signature has changed."),v=arguments[0]||null,d=arguments[1],L=arguments[2],Z=arguments[3]||0,x=null);let BA,sA,lA,hA,wA,XA;x!==null?(BA=x.max.x-x.min.x,sA=x.max.y-x.min.y,lA=x.min.x,hA=x.min.y):(BA=d.image.width,sA=d.image.height,lA=0,hA=0),v!==null?(wA=v.x,XA=v.y):(wA=0,XA=0);const JA=HA.convert(L.format),vA=HA.convert(L.type);PA.setTexture2D(L,0),W.pixelStorei(W.UNPACK_FLIP_Y_WEBGL,L.flipY),W.pixelStorei(W.UNPACK_PREMULTIPLY_ALPHA_WEBGL,L.premultiplyAlpha),W.pixelStorei(W.UNPACK_ALIGNMENT,L.unpackAlignment);const BI=W.getParameter(W.UNPACK_ROW_LENGTH),QI=W.getParameter(W.UNPACK_IMAGE_HEIGHT),UI=W.getParameter(W.UNPACK_SKIP_PIXELS),EI=W.getParameter(W.UNPACK_SKIP_ROWS),YA=W.getParameter(W.UNPACK_SKIP_IMAGES),rI=d.isCompressedTexture?d.mipmaps[Z]:d.image;W.pixelStorei(W.UNPACK_ROW_LENGTH,rI.width),W.pixelStorei(W.UNPACK_IMAGE_HEIGHT,rI.height),W.pixelStorei(W.UNPACK_SKIP_PIXELS,lA),W.pixelStorei(W.UNPACK_SKIP_ROWS,hA),d.isDataTexture?W.texSubImage2D(W.TEXTURE_2D,Z,wA,XA,BA,sA,JA,vA,rI.data):d.isCompressedTexture?W.compressedTexSubImage2D(W.TEXTURE_2D,Z,wA,XA,rI.width,rI.height,JA,rI.data):W.texSubImage2D(W.TEXTURE_2D,Z,wA,XA,JA,vA,rI),W.pixelStorei(W.UNPACK_ROW_LENGTH,BI),W.pixelStorei(W.UNPACK_IMAGE_HEIGHT,QI),W.pixelStorei(W.UNPACK_SKIP_PIXELS,UI),W.pixelStorei(W.UNPACK_SKIP_ROWS,EI),W.pixelStorei(W.UNPACK_SKIP_IMAGES,YA),Z===0&&L.generateMipmaps&&W.generateMipmap(W.TEXTURE_2D),KA.unbindTexture()},this.copyTextureToTexture3D=function(d,L,x=null,v=null,Z=0){d.isTexture!==!0&&(console.warn("WebGLRenderer: copyTextureToTexture3D function signature has changed."),x=arguments[0]||null,v=arguments[1]||null,d=arguments[2],L=arguments[3],Z=arguments[4]||0);let BA,sA,lA,hA,wA,XA,JA,vA,BI;const QI=d.isCompressedTexture?d.mipmaps[Z]:d.image;x!==null?(BA=x.max.x-x.min.x,sA=x.max.y-x.min.y,lA=x.max.z-x.min.z,hA=x.min.x,wA=x.min.y,XA=x.min.z):(BA=QI.width,sA=QI.height,lA=QI.depth,hA=0,wA=0,XA=0),v!==null?(JA=v.x,vA=v.y,BI=v.z):(JA=0,vA=0,BI=0);const UI=HA.convert(L.format),EI=HA.convert(L.type);let YA;if(L.isData3DTexture)PA.setTexture3D(L,0),YA=W.TEXTURE_3D;else if(L.isDataArrayTexture||L.isCompressedArrayTexture)PA.setTexture2DArray(L,0),YA=W.TEXTURE_2D_ARRAY;else{console.warn("THREE.WebGLRenderer.copyTextureToTexture3D: only supports THREE.DataTexture3D and THREE.DataTexture2DArray.");return}W.pixelStorei(W.UNPACK_FLIP_Y_WEBGL,L.flipY),W.pixelStorei(W.UNPACK_PREMULTIPLY_ALPHA_WEBGL,L.premultiplyAlpha),W.pixelStorei(W.UNPACK_ALIGNMENT,L.unpackAlignment);const rI=W.getParameter(W.UNPACK_ROW_LENGTH),tI=W.getParameter(W.UNPACK_IMAGE_HEIGHT),_I=W.getParameter(W.UNPACK_SKIP_PIXELS),NI=W.getParameter(W.UNPACK_SKIP_ROWS),jI=W.getParameter(W.UNPACK_SKIP_IMAGES);W.pixelStorei(W.UNPACK_ROW_LENGTH,QI.width),W.pixelStorei(W.UNPACK_IMAGE_HEIGHT,QI.height),W.pixelStorei(W.UNPACK_SKIP_PIXELS,hA),W.pixelStorei(W.UNPACK_SKIP_ROWS,wA),W.pixelStorei(W.UNPACK_SKIP_IMAGES,XA),d.isDataTexture||d.isData3DTexture?W.texSubImage3D(YA,Z,JA,vA,BI,BA,sA,lA,UI,EI,QI.data):L.isCompressedArrayTexture?W.compressedTexSubImage3D(YA,Z,JA,vA,BI,BA,sA,lA,UI,QI.data):W.texSubImage3D(YA,Z,JA,vA,BI,BA,sA,lA,UI,EI,QI),W.pixelStorei(W.UNPACK_ROW_LENGTH,rI),W.pixelStorei(W.UNPACK_IMAGE_HEIGHT,tI),W.pixelStorei(W.UNPACK_SKIP_PIXELS,_I),W.pixelStorei(W.UNPACK_SKIP_ROWS,NI),W.pixelStorei(W.UNPACK_SKIP_IMAGES,jI),Z===0&&L.generateMipmaps&&W.generateMipmap(YA),KA.unbindTexture()},this.initRenderTarget=function(d){WA.get(d).__webglFramebuffer===void 0&&PA.setupRenderTarget(d)},this.initTexture=function(d){d.isCubeTexture?PA.setTextureCube(d,0):d.isData3DTexture?PA.setTexture3D(d,0):d.isDataArrayTexture||d.isCompressedArrayTexture?PA.setTexture2DArray(d,0):PA.setTexture2D(d,0),KA.unbindTexture()},this.resetState=function(){f=0,F=0,J=null,KA.reset(),MI.reset()},typeof __THREE_DEVTOOLS__<"u"&&__THREE_DEVTOOLS__.dispatchEvent(new CustomEvent("observe",{detail:this}))}get coordinateSystem(){return _i}get outputColorSpace(){return this._outputColorSpace}set outputColorSpace(A){this._outputColorSpace=A;const I=this.getContext();I.drawingBufferColorSpace=A===Dh?"display-p3":"srgb",I.unpackColorSpace=ag.workingColorSpace===es?"display-p3":"srgb"}}class ch{constructor(A,I=25e-5){this.isFogExp2=!0,this.name="",this.color=new VA(A),this.density=I}clone(){return new ch(this.color,this.density)}toJSON(){return{type:"FogExp2",name:this.name,color:this.color.getHex(),density:this.density}}}class Sh{constructor(A,I=1,C=1e3){this.isFog=!0,this.name="",this.color=new VA(A),this.near=I,this.far=C}clone(){return new Sh(this.color,this.near,this.far)}toJSON(){return{type:"Fog",name:this.name,color:this.color.getHex(),near:this.near,far:this.far}}}class fo extends VI{constructor(){super(),this.isScene=!0,this.type="Scene",this.background=null,this.environment=null,this.fog=null,this.backgroundBlurriness=0,this.backgroundIntensity=1,this.backgroundRotation=new ZC,this.environmentIntensity=1,this.environmentRotation=new ZC,this.overrideMaterial=null,typeof __THREE_DEVTOOLS__<"u"&&__THREE_DEVTOOLS__.dispatchEvent(new CustomEvent("observe",{detail:this}))}copy(A,I){return super.copy(A,I),A.background!==null&&(this.background=A.background.clone()),A.environment!==null&&(this.environment=A.environment.clone()),A.fog!==null&&(this.fog=A.fog.clone()),this.backgroundBlurriness=A.backgroundBlurriness,this.backgroundIntensity=A.backgroundIntensity,this.backgroundRotation.copy(A.backgroundRotation),this.environmentIntensity=A.environmentIntensity,this.environmentRotation.copy(A.environmentRotation),A.overrideMaterial!==null&&(this.overrideMaterial=A.overrideMaterial.clone()),this.matrixAutoUpdate=A.matrixAutoUpdate,this}toJSON(A){const I=super.toJSON(A);return this.fog!==null&&(I.object.fog=this.fog.toJSON()),this.backgroundBlurriness>0&&(I.object.backgroundBlurriness=this.backgroundBlurriness),this.backgroundIntensity!==1&&(I.object.backgroundIntensity=this.backgroundIntensity),I.object.backgroundRotation=this.backgroundRotation.toArray(),this.environmentIntensity!==1&&(I.object.environmentIntensity=this.environmentIntensity),I.object.environmentRotation=this.environmentRotation.toArray(),I}}class as{constructor(A,I){this.isInterleavedBuffer=!0,this.array=A,this.stride=I,this.count=A!==void 0?A.length/I:0,this.usage=Ha,this._updateRange={offset:0,count:-1},this.updateRanges=[],this.version=0,this.uuid=KB()}onUploadCallback(){}set needsUpdate(A){A===!0&&this.version++}get updateRange(){return Ok("THREE.InterleavedBuffer: updateRange() is deprecated and will be removed in r169. Use addUpdateRange() instead."),this._updateRange}setUsage(A){return this.usage=A,this}addUpdateRange(A,I){this.updateRanges.push({start:A,count:I})}clearUpdateRanges(){this.updateRanges.length=0}copy(A){return this.array=new A.array.constructor(A.array),this.count=A.count,this.stride=A.stride,this.usage=A.usage,this}copyAt(A,I,C){A*=this.stride,C*=I.stride;for(let B=0,i=this.stride;B<i;B++)this.array[A+B]=I.array[C+B];return this}set(A,I=0){return this.array.set(A,I),this}clone(A){A.arrayBuffers===void 0&&(A.arrayBuffers={}),this.array.buffer._uuid===void 0&&(this.array.buffer._uuid=KB()),A.arrayBuffers[this.array.buffer._uuid]===void 0&&(A.arrayBuffers[this.array.buffer._uuid]=this.array.slice(0).buffer);const I=new this.array.constructor(A.arrayBuffers[this.array.buffer._uuid]),C=new this.constructor(I,this.stride);return C.setUsage(this.usage),C}onUpload(A){return this.onUploadCallback=A,this}toJSON(A){return A.arrayBuffers===void 0&&(A.arrayBuffers={}),this.array.buffer._uuid===void 0&&(this.array.buffer._uuid=KB()),A.arrayBuffers[this.array.buffer._uuid]===void 0&&(A.arrayBuffers[this.array.buffer._uuid]=Array.from(new Uint32Array(this.array.buffer))),{uuid:this.uuid,buffer:this.array.buffer._uuid,type:this.array.constructor.name,stride:this.stride}}}const $C=new T;class FE{constructor(A,I,C,B=!1){this.isInterleavedBufferAttribute=!0,this.name="",this.data=A,this.itemSize=I,this.offset=C,this.normalized=B}get count(){return this.data.count}get array(){return this.data.array}set needsUpdate(A){this.data.needsUpdate=A}applyMatrix4(A){for(let I=0,C=this.data.count;I<C;I++)$C.fromBufferAttribute(this,I),$C.applyMatrix4(A),this.setXYZ(I,$C.x,$C.y,$C.z);return this}applyNormalMatrix(A){for(let I=0,C=this.count;I<C;I++)$C.fromBufferAttribute(this,I),$C.applyNormalMatrix(A),this.setXYZ(I,$C.x,$C.y,$C.z);return this}transformDirection(A){for(let I=0,C=this.count;I<C;I++)$C.fromBufferAttribute(this,I),$C.transformDirection(A),this.setXYZ(I,$C.x,$C.y,$C.z);return this}getComponent(A,I){let C=this.array[A*this.data.stride+this.offset+I];return this.normalized&&(C=gB(C,this.array)),C}setComponent(A,I,C){return this.normalized&&(C=mI(C,this.array)),this.data.array[A*this.data.stride+this.offset+I]=C,this}setX(A,I){return this.normalized&&(I=mI(I,this.array)),this.data.array[A*this.data.stride+this.offset]=I,this}setY(A,I){return this.normalized&&(I=mI(I,this.array)),this.data.array[A*this.data.stride+this.offset+1]=I,this}setZ(A,I){return this.normalized&&(I=mI(I,this.array)),this.data.array[A*this.data.stride+this.offset+2]=I,this}setW(A,I){return this.normalized&&(I=mI(I,this.array)),this.data.array[A*this.data.stride+this.offset+3]=I,this}getX(A){let I=this.data.array[A*this.data.stride+this.offset];return this.normalized&&(I=gB(I,this.array)),I}getY(A){let I=this.data.array[A*this.data.stride+this.offset+1];return this.normalized&&(I=gB(I,this.array)),I}getZ(A){let I=this.data.array[A*this.data.stride+this.offset+2];return this.normalized&&(I=gB(I,this.array)),I}getW(A){let I=this.data.array[A*this.data.stride+this.offset+3];return this.normalized&&(I=gB(I,this.array)),I}setXY(A,I,C){return A=A*this.data.stride+this.offset,this.normalized&&(I=mI(I,this.array),C=mI(C,this.array)),this.data.array[A+0]=I,this.data.array[A+1]=C,this}setXYZ(A,I,C,B){return A=A*this.data.stride+this.offset,this.normalized&&(I=mI(I,this.array),C=mI(C,this.array),B=mI(B,this.array)),this.data.array[A+0]=I,this.data.array[A+1]=C,this.data.array[A+2]=B,this}setXYZW(A,I,C,B,i){return A=A*this.data.stride+this.offset,this.normalized&&(I=mI(I,this.array),C=mI(C,this.array),B=mI(B,this.array),i=mI(i,this.array)),this.data.array[A+0]=I,this.data.array[A+1]=C,this.data.array[A+2]=B,this.data.array[A+3]=i,this}clone(A){if(A===void 0){console.log("THREE.InterleavedBufferAttribute.clone(): Cloning an interleaved buffer attribute will de-interleave buffer data.");const I=[];for(let C=0;C<this.count;C++){const B=C*this.data.stride+this.offset;for(let i=0;i<this.itemSize;i++)I.push(this.data.array[B+i])}return new pI(new this.array.constructor(I),this.itemSize,this.normalized)}else return A.interleavedBuffers===void 0&&(A.interleavedBuffers={}),A.interleavedBuffers[this.data.uuid]===void 0&&(A.interleavedBuffers[this.data.uuid]=this.data.clone(A)),new FE(A.interleavedBuffers[this.data.uuid],this.itemSize,this.offset,this.normalized)}toJSON(A){if(A===void 0){console.log("THREE.InterleavedBufferAttribute.toJSON(): Serializing an interleaved buffer attribute will de-interleave buffer data.");const I=[];for(let C=0;C<this.count;C++){const B=C*this.data.stride+this.offset;for(let i=0;i<this.itemSize;i++)I.push(this.data.array[B+i])}return{itemSize:this.itemSize,type:this.array.constructor.name,array:I,normalized:this.normalized}}else return A.interleavedBuffers===void 0&&(A.interleavedBuffers={}),A.interleavedBuffers[this.data.uuid]===void 0&&(A.interleavedBuffers[this.data.uuid]=this.data.toJSON(A)),{isInterleavedBufferAttribute:!0,itemSize:this.itemSize,data:this.data.uuid,offset:this.offset,normalized:this.normalized}}}class $k extends BC{constructor(A){super(),this.isSpriteMaterial=!0,this.type="SpriteMaterial",this.color=new VA(16777215),this.map=null,this.alphaMap=null,this.rotation=0,this.sizeAttenuation=!0,this.transparent=!0,this.fog=!0,this.setValues(A)}copy(A){return super.copy(A),this.color.copy(A.color),this.map=A.map,this.alphaMap=A.alphaMap,this.rotation=A.rotation,this.sizeAttenuation=A.sizeAttenuation,this.fog=A.fog,this}}let Lt;const Fn=new T,Ht=new T,Tt=new T,xt=new pA,Kn=new pA,VJ=new hI,ID=new T,Jn=new T,gD=new T,Vd=new pA,ow=new pA,jd=new pA;class jJ extends VI{constructor(A=new $k){if(super(),this.isSprite=!0,this.type="Sprite",Lt===void 0){Lt=new FI;const I=new Float32Array([-.5,-.5,0,0,0,.5,-.5,0,1,0,.5,.5,0,1,1,-.5,.5,0,0,1]),C=new as(I,5);Lt.setIndex([0,1,2,0,2,3]),Lt.setAttribute("position",new FE(C,3,0,!1)),Lt.setAttribute("uv",new FE(C,2,3,!1))}this.geometry=Lt,this.material=A,this.center=new pA(.5,.5)}raycast(A,I){A.camera===null&&console.error('THREE.Sprite: "Raycaster.camera" needs to be set in order to raycast against sprites.'),Ht.setFromMatrixScale(this.matrixWorld),VJ.copy(A.camera.matrixWorld),this.modelViewMatrix.multiplyMatrices(A.camera.matrixWorldInverse,this.matrixWorld),Tt.setFromMatrixPosition(this.modelViewMatrix),A.camera.isPerspectiveCamera&&this.material.sizeAttenuation===!1&&Ht.multiplyScalar(-Tt.z);const C=this.material.rotation;let B,i;C!==0&&(i=Math.cos(C),B=Math.sin(C));const Q=this.center;CD(ID.set(-.5,-.5,0),Tt,Q,Ht,B,i),CD(Jn.set(.5,-.5,0),Tt,Q,Ht,B,i),CD(gD.set(.5,.5,0),Tt,Q,Ht,B,i),Vd.set(0,0),ow.set(1,0),jd.set(1,1);let E=A.ray.intersectTriangle(ID,Jn,gD,!1,Fn);if(E===null&&(CD(Jn.set(-.5,.5,0),Tt,Q,Ht,B,i),ow.set(0,1),E=A.ray.intersectTriangle(ID,gD,Jn,!1,Fn),E===null))return;const e=A.ray.origin.distanceTo(Fn);e<A.near||e>A.far||I.push({distance:e,point:Fn.clone(),uv:pB.getInterpolation(Fn,ID,Jn,gD,Vd,ow,jd,new pA),face:null,object:this})}copy(A,I){return super.copy(A,I),A.center!==void 0&&this.center.copy(A.center),this.material=A.material,this}}function CD(g,A,I,C,B,i){xt.subVectors(g,I).addScalar(.5).multiply(C),B!==void 0?(Kn.x=i*xt.x-B*xt.y,Kn.y=B*xt.x+i*xt.y):Kn.copy(xt),g.copy(A),g.x+=Kn.x,g.y+=Kn.y,g.applyMatrix4(VJ)}const BD=new T,zd=new T;class zJ extends VI{constructor(){super(),this._currentLevel=0,this.type="LOD",Object.defineProperties(this,{levels:{enumerable:!0,value:[]},isLOD:{value:!0}}),this.autoUpdate=!0}copy(A){super.copy(A,!1);const I=A.levels;for(let C=0,B=I.length;C<B;C++){const i=I[C];this.addLevel(i.object.clone(),i.distance,i.hysteresis)}return this.autoUpdate=A.autoUpdate,this}addLevel(A,I=0,C=0){I=Math.abs(I);const B=this.levels;let i;for(i=0;i<B.length&&!(I<B[i].distance);i++);return B.splice(i,0,{distance:I,hysteresis:C,object:A}),this.add(A),this}getCurrentLevel(){return this._currentLevel}getObjectForDistance(A){const I=this.levels;if(I.length>0){let C,B;for(C=1,B=I.length;C<B;C++){let i=I[C].distance;if(I[C].object.visible&&(i-=i*I[C].hysteresis),A<i)break}return I[C-1].object}return null}raycast(A,I){if(this.levels.length>0){BD.setFromMatrixPosition(this.matrixWorld);const B=A.ray.origin.distanceTo(BD);this.getObjectForDistance(B).raycast(A,I)}}update(A){const I=this.levels;if(I.length>1){BD.setFromMatrixPosition(A.matrixWorld),zd.setFromMatrixPosition(this.matrixWorld);const C=BD.distanceTo(zd)/A.zoom;I[0].object.visible=!0;let B,i;for(B=1,i=I.length;B<i;B++){let Q=I[B].distance;if(I[B].object.visible&&(Q-=Q*I[B].hysteresis),C>=Q)I[B-1].object.visible=!1,I[B].object.visible=!0;else break}for(this._currentLevel=B-1;B<i;B++)I[B].object.visible=!1}}toJSON(A){const I=super.toJSON(A);this.autoUpdate===!1&&(I.object.autoUpdate=!1),I.object.levels=[];const C=this.levels;for(let B=0,i=C.length;B<i;B++){const Q=C[B];I.object.levels.push({object:Q.object.uuid,distance:Q.distance,hysteresis:Q.hysteresis})}return I}}const Xd=new T,$d=new Dg,Ap=new Dg,BO=new T,Ip=new hI,iD=new T,nw=new NC,gp=new hI,aw=new bo;class AM extends Jg{constructor(A,I){super(A,I),this.isSkinnedMesh=!0,this.type="SkinnedMesh",this.bindMode=OG,this.bindMatrix=new hI,this.bindMatrixInverse=new hI,this.boundingBox=null,this.boundingSphere=null}computeBoundingBox(){const A=this.geometry;this.boundingBox===null&&(this.boundingBox=new bC),this.boundingBox.makeEmpty();const I=A.getAttribute("position");for(let C=0;C<I.count;C++)this.getVertexPosition(C,iD),this.boundingBox.expandByPoint(iD)}computeBoundingSphere(){const A=this.geometry;this.boundingSphere===null&&(this.boundingSphere=new NC),this.boundingSphere.makeEmpty();const I=A.getAttribute("position");for(let C=0;C<I.count;C++)this.getVertexPosition(C,iD),this.boundingSphere.expandByPoint(iD)}copy(A,I){return super.copy(A,I),this.bindMode=A.bindMode,this.bindMatrix.copy(A.bindMatrix),this.bindMatrixInverse.copy(A.bindMatrixInverse),this.skeleton=A.skeleton,A.boundingBox!==null&&(this.boundingBox=A.boundingBox.clone()),A.boundingSphere!==null&&(this.boundingSphere=A.boundingSphere.clone()),this}raycast(A,I){const C=this.material,B=this.matrixWorld;C!==void 0&&(this.boundingSphere===null&&this.computeBoundingSphere(),nw.copy(this.boundingSphere),nw.applyMatrix4(B),A.ray.intersectsSphere(nw)!==!1&&(gp.copy(B).invert(),aw.copy(A.ray).applyMatrix4(gp),!(this.boundingBox!==null&&aw.intersectsBox(this.boundingBox)===!1)&&this._computeIntersections(A,I,aw)))}getVertexPosition(A,I){return super.getVertexPosition(A,I),this.applyBoneTransform(A,I),I}bind(A,I){this.skeleton=A,I===void 0&&(this.updateMatrixWorld(!0),this.skeleton.calculateInverses(),I=this.matrixWorld),this.bindMatrix.copy(I),this.bindMatrixInverse.copy(I).invert()}pose(){this.skeleton.pose()}normalizeSkinWeights(){const A=new Dg,I=this.geometry.attributes.skinWeight;for(let C=0,B=I.count;C<B;C++){A.fromBufferAttribute(I,C);const i=1/A.manhattanLength();i!==1/0?A.multiplyScalar(i):A.set(1,0,0,0),I.setXYZW(C,A.x,A.y,A.z,A.w)}}updateMatrixWorld(A){super.updateMatrixWorld(A),this.bindMode===OG?this.bindMatrixInverse.copy(this.matrixWorld).invert():this.bindMode===oJ?this.bindMatrixInverse.copy(this.bindMatrix).invert():console.warn("THREE.SkinnedMesh: Unrecognized bindMode: "+this.bindMode)}applyBoneTransform(A,I){const C=this.skeleton,B=this.geometry;$d.fromBufferAttribute(B.attributes.skinIndex,A),Ap.fromBufferAttribute(B.attributes.skinWeight,A),Xd.copy(I).applyMatrix4(this.bindMatrix),I.set(0,0,0);for(let i=0;i<4;i++){const Q=Ap.getComponent(i);if(Q!==0){const E=$d.getComponent(i);Ip.multiplyMatrices(C.bones[E].matrixWorld,C.boneInverses[E]),I.addScaledVector(BO.copy(Xd).applyMatrix4(Ip),Q)}}return I.applyMatrix4(this.bindMatrixInverse)}}class wh extends VI{constructor(){super(),this.isBone=!0,this.type="Bone"}}class ji extends Ig{constructor(A=null,I=1,C=1,B,i,Q,E,e,n=oC,a=oC,s,r){super(null,Q,E,e,n,a,B,i,s,r),this.isDataTexture=!0,this.image={data:A,width:I,height:C},this.generateMipmaps=!1,this.flipY=!1,this.unpackAlignment=1}}const Cp=new hI,iO=new hI;class ss{constructor(A=[],I=[]){this.uuid=KB(),this.bones=A.slice(0),this.boneInverses=I,this.boneMatrices=null,this.boneTexture=null,this.init()}init(){const A=this.bones,I=this.boneInverses;if(this.boneMatrices=new Float32Array(A.length*16),I.length===0)this.calculateInverses();else if(A.length!==I.length){console.warn("THREE.Skeleton: Number of inverse bone matrices does not match amount of bones."),this.boneInverses=[];for(let C=0,B=this.bones.length;C<B;C++)this.boneInverses.push(new hI)}}calculateInverses(){this.boneInverses.length=0;for(let A=0,I=this.bones.length;A<I;A++){const C=new hI;this.bones[A]&&C.copy(this.bones[A].matrixWorld).invert(),this.boneInverses.push(C)}}pose(){for(let A=0,I=this.bones.length;A<I;A++){const C=this.bones[A];C&&C.matrixWorld.copy(this.boneInverses[A]).invert()}for(let A=0,I=this.bones.length;A<I;A++){const C=this.bones[A];C&&(C.parent&&C.parent.isBone?(C.matrix.copy(C.parent.matrixWorld).invert(),C.matrix.multiply(C.matrixWorld)):C.matrix.copy(C.matrixWorld),C.matrix.decompose(C.position,C.quaternion,C.scale))}}update(){const A=this.bones,I=this.boneInverses,C=this.boneMatrices,B=this.boneTexture;for(let i=0,Q=A.length;i<Q;i++){const E=A[i]?A[i].matrixWorld:iO;Cp.multiplyMatrices(E,I[i]),Cp.toArray(C,i*16)}B!==null&&(B.needsUpdate=!0)}clone(){return new ss(this.bones,this.boneInverses)}computeBoneTexture(){let A=Math.sqrt(this.bones.length*4);A=Math.ceil(A/4)*4,A=Math.max(A,4);const I=new Float32Array(A*A*4);I.set(this.boneMatrices);const C=new ji(I,A,A,CC,_g);return C.needsUpdate=!0,this.boneMatrices=I,this.boneTexture=C,this}getBoneByName(A){for(let I=0,C=this.bones.length;I<C;I++){const B=this.bones[I];if(B.name===A)return B}}dispose(){this.boneTexture!==null&&(this.boneTexture.dispose(),this.boneTexture=null)}fromJSON(A,I){this.uuid=A.uuid;for(let C=0,B=A.bones.length;C<B;C++){const i=A.bones[C];let Q=I[i];Q===void 0&&(console.warn("THREE.Skeleton: No bone found with UUID:",i),Q=new wh),this.bones.push(Q),this.boneInverses.push(new hI().fromArray(A.boneInverses[C]))}return this.init(),this}toJSON(){const A={metadata:{version:4.6,type:"Skeleton",generator:"Skeleton.toJSON"},bones:[],boneInverses:[]};A.uuid=this.uuid;const I=this.bones,C=this.boneInverses;for(let B=0,i=I.length;B<i;B++){const Q=I[B];A.bones.push(Q.uuid);const E=C[B];A.boneInverses.push(E.toArray())}return A}}class ve extends pI{constructor(A,I,C,B=1){super(A,I,C),this.isInstancedBufferAttribute=!0,this.meshPerAttribute=B}copy(A){return super.copy(A),this.meshPerAttribute=A.meshPerAttribute,this}toJSON(){const A=super.toJSON();return A.meshPerAttribute=this.meshPerAttribute,A.isInstancedBufferAttribute=!0,A}}const vt=new hI,Bp=new hI,QD=[],ip=new bC,QO=new hI,Rn=new Jg,fn=new NC;class IM extends Jg{constructor(A,I,C){super(A,I),this.isInstancedMesh=!0,this.instanceMatrix=new ve(new Float32Array(C*16),16),this.instanceColor=null,this.morphTexture=null,this.count=C,this.boundingBox=null,this.boundingSphere=null;for(let B=0;B<C;B++)this.setMatrixAt(B,QO)}computeBoundingBox(){const A=this.geometry,I=this.count;this.boundingBox===null&&(this.boundingBox=new bC),A.boundingBox===null&&A.computeBoundingBox(),this.boundingBox.makeEmpty();for(let C=0;C<I;C++)this.getMatrixAt(C,vt),ip.copy(A.boundingBox).applyMatrix4(vt),this.boundingBox.union(ip)}computeBoundingSphere(){const A=this.geometry,I=this.count;this.boundingSphere===null&&(this.boundingSphere=new NC),A.boundingSphere===null&&A.computeBoundingSphere(),this.boundingSphere.makeEmpty();for(let C=0;C<I;C++)this.getMatrixAt(C,vt),fn.copy(A.boundingSphere).applyMatrix4(vt),this.boundingSphere.union(fn)}copy(A,I){return super.copy(A,I),this.instanceMatrix.copy(A.instanceMatrix),A.morphTexture!==null&&(this.morphTexture=A.morphTexture.clone()),A.instanceColor!==null&&(this.instanceColor=A.instanceColor.clone()),this.count=A.count,A.boundingBox!==null&&(this.boundingBox=A.boundingBox.clone()),A.boundingSphere!==null&&(this.boundingSphere=A.boundingSphere.clone()),this}getColorAt(A,I){I.fromArray(this.instanceColor.array,A*3)}getMatrixAt(A,I){I.fromArray(this.instanceMatrix.array,A*16)}getMorphAt(A,I){const C=I.morphTargetInfluences,B=this.morphTexture.source.data.data,i=C.length+1,Q=A*i+1;for(let E=0;E<C.length;E++)C[E]=B[Q+E]}raycast(A,I){const C=this.matrixWorld,B=this.count;if(Rn.geometry=this.geometry,Rn.material=this.material,Rn.material!==void 0&&(this.boundingSphere===null&&this.computeBoundingSphere(),fn.copy(this.boundingSphere),fn.applyMatrix4(C),A.ray.intersectsSphere(fn)!==!1))for(let i=0;i<B;i++){this.getMatrixAt(i,vt),Bp.multiplyMatrices(C,vt),Rn.matrixWorld=Bp,Rn.raycast(A,QD);for(let Q=0,E=QD.length;Q<E;Q++){const e=QD[Q];e.instanceId=i,e.object=this,I.push(e)}QD.length=0}}setColorAt(A,I){this.instanceColor===null&&(this.instanceColor=new ve(new Float32Array(this.instanceMatrix.count*3),3)),I.toArray(this.instanceColor.array,A*3)}setMatrixAt(A,I){I.toArray(this.instanceMatrix.array,A*16)}setMorphAt(A,I){const C=I.morphTargetInfluences,B=C.length+1;this.morphTexture===null&&(this.morphTexture=new ji(new Float32Array(B*this.count),B,this.count,sh,_g));const i=this.morphTexture.source.data.data;let Q=0;for(let n=0;n<C.length;n++)Q+=C[n];const E=this.geometry.morphTargetsRelative?1:1-Q,e=B*A;i[e]=E,i.set(C,e+1)}updateMorphTargets(){}dispose(){return this.dispatchEvent({type:"dispose"}),this.morphTexture!==null&&(this.morphTexture.dispose(),this.morphTexture=null),this}}function EO(g,A){return g.z-A.z}function eO(g,A){return A.z-g.z}class tO{constructor(){this.index=0,this.pool=[],this.list=[]}push(A,I){const C=this.pool,B=this.list;this.index>=C.length&&C.push({start:-1,count:-1,z:-1});const i=C[this.index];B.push(i),this.index++,i.start=A.start,i.count=A.count,i.z=I}reset(){this.list.length=0,this.index=0}}const Ot="batchId",AE=new hI,sw=new hI,oO=new hI,nO=new VA(1,1,1),Qp=new hI,rw=new ns,ED=new bC,Ce=new NC,qn=new T,Ep=new T,aO=new T,Dw=new tO,vC=new Jg,eD=[];function sO(g,A,I=0){const C=A.itemSize;if(g.isInterleavedBufferAttribute||g.array.constructor!==A.array.constructor){const B=g.count;for(let i=0;i<B;i++)for(let Q=0;Q<C;Q++)A.setComponent(i+I,Q,g.getComponent(i,Q))}else A.array.set(g.array,I*C);A.needsUpdate=!0}class XJ extends Jg{get maxGeometryCount(){return this._maxGeometryCount}constructor(A,I,C=I*2,B){super(new FI,B),this.isBatchedMesh=!0,this.perObjectFrustumCulled=!0,this.sortObjects=!0,this.boundingBox=null,this.boundingSphere=null,this.customSort=null,this._drawRanges=[],this._reservedRanges=[],this._visibility=[],this._active=[],this._bounds=[],this._maxGeometryCount=A,this._maxVertexCount=I,this._maxIndexCount=C,this._geometryInitialized=!1,this._geometryCount=0,this._multiDrawCounts=new Int32Array(A),this._multiDrawStarts=new Int32Array(A),this._multiDrawCount=0,this._multiDrawInstances=null,this._visibilityChanged=!0,this._matricesTexture=null,this._initMatricesTexture(),this._colorsTexture=null}_initMatricesTexture(){let A=Math.sqrt(this._maxGeometryCount*4);A=Math.ceil(A/4)*4,A=Math.max(A,4);const I=new Float32Array(A*A*4),C=new ji(I,A,A,CC,_g);this._matricesTexture=C}_initColorsTexture(){let A=Math.sqrt(this._maxGeometryCount);A=Math.ceil(A);const I=new Float32Array(A*A*4).fill(1),C=new ji(I,A,A,CC,_g);C.colorSpace=ag.workingColorSpace,this._colorsTexture=C}_initializeGeometry(A){const I=this.geometry,C=this._maxVertexCount,B=this._maxGeometryCount,i=this._maxIndexCount;if(this._geometryInitialized===!1){for(const E in A.attributes){const e=A.getAttribute(E),{array:n,itemSize:a,normalized:s}=e,r=new n.constructor(C*a),D=new pI(r,a,s);I.setAttribute(E,D)}if(A.getIndex()!==null){const E=C>65536?new Uint32Array(i):new Uint16Array(i);I.setIndex(new pI(E,1))}const Q=B>65536?new Uint32Array(C):new Uint16Array(C);I.setAttribute(Ot,new pI(Q,1)),this._geometryInitialized=!0}}_validateGeometry(A){if(A.getAttribute(Ot))throw new Error(`BatchedMesh: Geometry cannot use attribute "${Ot}"`);const I=this.geometry;if(!!A.getIndex()!=!!I.getIndex())throw new Error('BatchedMesh: All geometries must consistently have "index".');for(const C in I.attributes){if(C===Ot)continue;if(!A.hasAttribute(C))throw new Error(`BatchedMesh: Added geometry missing "${C}". All geometries must have consistent attributes.`);const B=A.getAttribute(C),i=I.getAttribute(C);if(B.itemSize!==i.itemSize||B.normalized!==i.normalized)throw new Error("BatchedMesh: All attributes must have a consistent itemSize and normalized value.")}}setCustomSort(A){return this.customSort=A,this}computeBoundingBox(){this.boundingBox===null&&(this.boundingBox=new bC);const A=this._geometryCount,I=this.boundingBox,C=this._active;I.makeEmpty();for(let B=0;B<A;B++)C[B]!==!1&&(this.getMatrixAt(B,AE),this.getBoundingBoxAt(B,ED).applyMatrix4(AE),I.union(ED))}computeBoundingSphere(){this.boundingSphere===null&&(this.boundingSphere=new NC);const A=this._geometryCount,I=this.boundingSphere,C=this._active;I.makeEmpty();for(let B=0;B<A;B++)C[B]!==!1&&(this.getMatrixAt(B,AE),this.getBoundingSphereAt(B,Ce).applyMatrix4(AE),I.union(Ce))}addGeometry(A,I=-1,C=-1){if(this._initializeGeometry(A),this._validateGeometry(A),this._geometryCount>=this._maxGeometryCount)throw new Error("BatchedMesh: Maximum geometry count reached.");const B={vertexStart:-1,vertexCount:-1,indexStart:-1,indexCount:-1};let i=null;const Q=this._reservedRanges,E=this._drawRanges,e=this._bounds;this._geometryCount!==0&&(i=Q[Q.length-1]),I===-1?B.vertexCount=A.getAttribute("position").count:B.vertexCount=I,i===null?B.vertexStart=0:B.vertexStart=i.vertexStart+i.vertexCount;const n=A.getIndex(),a=n!==null;if(a&&(C===-1?B.indexCount=n.count:B.indexCount=C,i===null?B.indexStart=0:B.indexStart=i.indexStart+i.indexCount),B.indexStart!==-1&&B.indexStart+B.indexCount>this._maxIndexCount||B.vertexStart+B.vertexCount>this._maxVertexCount)throw new Error("BatchedMesh: Reserved space request exceeds the maximum buffer size.");const s=this._visibility,r=this._active,D=this._matricesTexture,c=this._matricesTexture.image.data,y=this._colorsTexture;s.push(!0),r.push(!0);const S=this._geometryCount;this._geometryCount++,oO.toArray(c,S*16),D.needsUpdate=!0,y!==null&&(nO.toArray(y.image.data,S*4),y.needsUpdate=!0),Q.push(B),E.push({start:a?B.indexStart:B.vertexStart,count:-1}),e.push({boxInitialized:!1,box:new bC,sphereInitialized:!1,sphere:new NC});const l=this.geometry.getAttribute(Ot);for(let w=0;w<B.vertexCount;w++)l.setX(B.vertexStart+w,S);return l.needsUpdate=!0,this.setGeometryAt(S,A),S}setGeometryAt(A,I){if(A>=this._geometryCount)throw new Error("BatchedMesh: Maximum geometry count reached.");this._validateGeometry(I);const C=this.geometry,B=C.getIndex()!==null,i=C.getIndex(),Q=I.getIndex(),E=this._reservedRanges[A];if(B&&Q.count>E.indexCount||I.attributes.position.count>E.vertexCount)throw new Error("BatchedMesh: Reserved space not large enough for provided geometry.");const e=E.vertexStart,n=E.vertexCount;for(const D in C.attributes){if(D===Ot)continue;const c=I.getAttribute(D),y=C.getAttribute(D);sO(c,y,e);const S=c.itemSize;for(let l=c.count,w=n;l<w;l++){const k=e+l;for(let U=0;U<S;U++)y.setComponent(k,U,0)}y.needsUpdate=!0,y.addUpdateRange(e*S,n*S)}if(B){const D=E.indexStart;for(let c=0;c<Q.count;c++)i.setX(D+c,e+Q.getX(c));for(let c=Q.count,y=E.indexCount;c<y;c++)i.setX(D+c,e);i.needsUpdate=!0,i.addUpdateRange(D,E.indexCount)}const a=this._bounds[A];I.boundingBox!==null?(a.box.copy(I.boundingBox),a.boxInitialized=!0):a.boxInitialized=!1,I.boundingSphere!==null?(a.sphere.copy(I.boundingSphere),a.sphereInitialized=!0):a.sphereInitialized=!1;const s=this._drawRanges[A],r=I.getAttribute("position");return s.count=B?Q.count:r.count,this._visibilityChanged=!0,A}deleteGeometry(A){const I=this._active;return A>=I.length||I[A]===!1?this:(I[A]=!1,this._visibilityChanged=!0,this)}getInstanceCountAt(A){return this._multiDrawInstances===null?null:this._multiDrawInstances[A]}setInstanceCountAt(A,I){return this._multiDrawInstances===null&&(this._multiDrawInstances=new Int32Array(this._maxGeometryCount).fill(1)),this._multiDrawInstances[A]=I,A}getBoundingBoxAt(A,I){if(this._active[A]===!1)return null;const B=this._bounds[A],i=B.box,Q=this.geometry;if(B.boxInitialized===!1){i.makeEmpty();const E=Q.index,e=Q.attributes.position,n=this._drawRanges[A];for(let a=n.start,s=n.start+n.count;a<s;a++){let r=a;E&&(r=E.getX(r)),i.expandByPoint(qn.fromBufferAttribute(e,r))}B.boxInitialized=!0}return I.copy(i),I}getBoundingSphereAt(A,I){if(this._active[A]===!1)return null;const B=this._bounds[A],i=B.sphere,Q=this.geometry;if(B.sphereInitialized===!1){i.makeEmpty(),this.getBoundingBoxAt(A,ED),ED.getCenter(i.center);const E=Q.index,e=Q.attributes.position,n=this._drawRanges[A];let a=0;for(let s=n.start,r=n.start+n.count;s<r;s++){let D=s;E&&(D=E.getX(D)),qn.fromBufferAttribute(e,D),a=Math.max(a,i.center.distanceToSquared(qn))}i.radius=Math.sqrt(a),B.sphereInitialized=!0}return I.copy(i),I}setMatrixAt(A,I){const C=this._active,B=this._matricesTexture,i=this._matricesTexture.image.data,Q=this._geometryCount;return A>=Q||C[A]===!1?this:(I.toArray(i,A*16),B.needsUpdate=!0,this)}getMatrixAt(A,I){const C=this._active,B=this._matricesTexture.image.data,i=this._geometryCount;return A>=i||C[A]===!1?null:I.fromArray(B,A*16)}setColorAt(A,I){this._colorsTexture===null&&this._initColorsTexture();const C=this._active,B=this._colorsTexture,i=this._colorsTexture.image.data,Q=this._geometryCount;return A>=Q||C[A]===!1?this:(I.toArray(i,A*4),B.needsUpdate=!0,this)}getColorAt(A,I){const C=this._active,B=this._colorsTexture.image.data,i=this._geometryCount;return A>=i||C[A]===!1?null:I.fromArray(B,A*4)}setVisibleAt(A,I){const C=this._visibility,B=this._active,i=this._geometryCount;return A>=i||B[A]===!1||C[A]===I?this:(C[A]=I,this._visibilityChanged=!0,this)}getVisibleAt(A){const I=this._visibility,C=this._active,B=this._geometryCount;return A>=B||C[A]===!1?!1:I[A]}raycast(A,I){const C=this._visibility,B=this._active,i=this._drawRanges,Q=this._geometryCount,E=this.matrixWorld,e=this.geometry;vC.material=this.material,vC.geometry.index=e.index,vC.geometry.attributes=e.attributes,vC.geometry.boundingBox===null&&(vC.geometry.boundingBox=new bC),vC.geometry.boundingSphere===null&&(vC.geometry.boundingSphere=new NC);for(let n=0;n<Q;n++){if(!C[n]||!B[n])continue;const a=i[n];vC.geometry.setDrawRange(a.start,a.count),this.getMatrixAt(n,vC.matrixWorld).premultiply(E),this.getBoundingBoxAt(n,vC.geometry.boundingBox),this.getBoundingSphereAt(n,vC.geometry.boundingSphere),vC.raycast(A,eD);for(let s=0,r=eD.length;s<r;s++){const D=eD[s];D.object=this,D.batchId=n,I.push(D)}eD.length=0}vC.material=null,vC.geometry.index=null,vC.geometry.attributes={},vC.geometry.setDrawRange(0,1/0)}copy(A){return super.copy(A),this.geometry=A.geometry.clone(),this.perObjectFrustumCulled=A.perObjectFrustumCulled,this.sortObjects=A.sortObjects,this.boundingBox=A.boundingBox!==null?A.boundingBox.clone():null,this.boundingSphere=A.boundingSphere!==null?A.boundingSphere.clone():null,this._drawRanges=A._drawRanges.map(I=>({...I})),this._reservedRanges=A._reservedRanges.map(I=>({...I})),this._visibility=A._visibility.slice(),this._active=A._active.slice(),this._bounds=A._bounds.map(I=>({boxInitialized:I.boxInitialized,box:I.box.clone(),sphereInitialized:I.sphereInitialized,sphere:I.sphere.clone()})),this._maxGeometryCount=A._maxGeometryCount,this._maxVertexCount=A._maxVertexCount,this._maxIndexCount=A._maxIndexCount,this._geometryInitialized=A._geometryInitialized,this._geometryCount=A._geometryCount,this._multiDrawCounts=A._multiDrawCounts.slice(),this._multiDrawStarts=A._multiDrawStarts.slice(),this._matricesTexture=A._matricesTexture.clone(),this._matricesTexture.image.data=this._matricesTexture.image.slice(),this._colorsTexture!==null&&(this._colorsTexture=A._colorsTexture.clone(),this._colorsTexture.image.data=this._colorsTexture.image.slice()),this}dispose(){return this.geometry.dispose(),this._matricesTexture.dispose(),this._matricesTexture=null,this._colorsTexture!==null&&(this._colorsTexture.dispose(),this._colorsTexture=null),this}onBeforeRender(A,I,C,B,i){if(!this._visibilityChanged&&!this.perObjectFrustumCulled&&!this.sortObjects)return;const Q=B.getIndex(),E=Q===null?1:Q.array.BYTES_PER_ELEMENT,e=this._active,n=this._visibility,a=this._multiDrawStarts,s=this._multiDrawCounts,r=this._drawRanges,D=this.perObjectFrustumCulled;D&&(Qp.multiplyMatrices(C.projectionMatrix,C.matrixWorldInverse).multiply(this.matrixWorld),rw.setFromProjectionMatrix(Qp,A.coordinateSystem));let c=0;if(this.sortObjects){sw.copy(this.matrixWorld).invert(),qn.setFromMatrixPosition(C.matrixWorld).applyMatrix4(sw),Ep.set(0,0,-1).transformDirection(C.matrixWorld).transformDirection(sw);for(let l=0,w=n.length;l<w;l++)if(n[l]&&e[l]){this.getMatrixAt(l,AE),this.getBoundingSphereAt(l,Ce).applyMatrix4(AE);let k=!1;if(D&&(k=!rw.intersectsSphere(Ce)),!k){const U=aO.subVectors(Ce.center,qn).dot(Ep);Dw.push(r[l],U)}}const y=Dw.list,S=this.customSort;S===null?y.sort(i.transparent?eO:EO):S.call(this,y,C);for(let l=0,w=y.length;l<w;l++){const k=y[l];a[c]=k.start*E,s[c]=k.count,c++}Dw.reset()}else for(let y=0,S=n.length;y<S;y++)if(n[y]&&e[y]){let l=!1;if(D&&(this.getMatrixAt(y,AE),this.getBoundingSphereAt(y,Ce).applyMatrix4(AE),l=!rw.intersectsSphere(Ce)),!l){const w=r[y];a[c]=w.start*E,s[c]=w.count,c++}}this._multiDrawCount=c,this._visibilityChanged=!1}onBeforeShadow(A,I,C,B,i,Q){this.onBeforeRender(A,null,B,i,Q)}}class PC extends BC{constructor(A){super(),this.isLineBasicMaterial=!0,this.type="LineBasicMaterial",this.color=new VA(16777215),this.map=null,this.linewidth=1,this.linecap="round",this.linejoin="round",this.fog=!0,this.setValues(A)}copy(A){return super.copy(A),this.color.copy(A.color),this.map=A.map,this.linewidth=A.linewidth,this.linecap=A.linecap,this.linejoin=A.linejoin,this.fog=A.fog,this}}const Fl=new T,Kl=new T,ep=new hI,Yn=new bo,tD=new NC,lw=new T,tp=new T;class KQ extends VI{constructor(A=new FI,I=new PC){super(),this.isLine=!0,this.type="Line",this.geometry=A,this.material=I,this.updateMorphTargets()}copy(A,I){return super.copy(A,I),this.material=Array.isArray(A.material)?A.material.slice():A.material,this.geometry=A.geometry,this}computeLineDistances(){const A=this.geometry;if(A.index===null){const I=A.attributes.position,C=[0];for(let B=1,i=I.count;B<i;B++)Fl.fromBufferAttribute(I,B-1),Kl.fromBufferAttribute(I,B),C[B]=C[B-1],C[B]+=Fl.distanceTo(Kl);A.setAttribute("lineDistance",new aI(C,1))}else console.warn("THREE.Line.computeLineDistances(): Computation only possible with non-indexed BufferGeometry.");return this}raycast(A,I){const C=this.geometry,B=this.matrixWorld,i=A.params.Line.threshold,Q=C.drawRange;if(C.boundingSphere===null&&C.computeBoundingSphere(),tD.copy(C.boundingSphere),tD.applyMatrix4(B),tD.radius+=i,A.ray.intersectsSphere(tD)===!1)return;ep.copy(B).invert(),Yn.copy(A.ray).applyMatrix4(ep);const E=i/((this.scale.x+this.scale.y+this.scale.z)/3),e=E*E,n=this.isLineSegments?2:1,a=C.index,r=C.attributes.position;if(a!==null){const D=Math.max(0,Q.start),c=Math.min(a.count,Q.start+Q.count);for(let y=D,S=c-1;y<S;y+=n){const l=a.getX(y),w=a.getX(y+1),k=oD(this,A,Yn,e,l,w);k&&I.push(k)}if(this.isLineLoop){const y=a.getX(c-1),S=a.getX(D),l=oD(this,A,Yn,e,y,S);l&&I.push(l)}}else{const D=Math.max(0,Q.start),c=Math.min(r.count,Q.start+Q.count);for(let y=D,S=c-1;y<S;y+=n){const l=oD(this,A,Yn,e,y,y+1);l&&I.push(l)}if(this.isLineLoop){const y=oD(this,A,Yn,e,c-1,D);y&&I.push(y)}}}updateMorphTargets(){const I=this.geometry.morphAttributes,C=Object.keys(I);if(C.length>0){const B=I[C[0]];if(B!==void 0){this.morphTargetInfluences=[],this.morphTargetDictionary={};for(let i=0,Q=B.length;i<Q;i++){const E=B[i].name||String(i);this.morphTargetInfluences.push(0),this.morphTargetDictionary[E]=i}}}}}function oD(g,A,I,C,B,i){const Q=g.geometry.attributes.position;if(Fl.fromBufferAttribute(Q,B),Kl.fromBufferAttribute(Q,i),I.distanceSqToSegment(Fl,Kl,lw,tp)>C)return;lw.applyMatrix4(g.matrixWorld);const e=A.ray.origin.distanceTo(lw);if(!(e<A.near||e>A.far))return{distance:e,point:tp.clone().applyMatrix4(g.matrixWorld),index:B,face:null,faceIndex:null,object:g}}const op=new T,np=new T;class Ui extends KQ{constructor(A,I){super(A,I),this.isLineSegments=!0,this.type="LineSegments"}computeLineDistances(){const A=this.geometry;if(A.index===null){const I=A.attributes.position,C=[];for(let B=0,i=I.count;B<i;B+=2)op.fromBufferAttribute(I,B),np.fromBufferAttribute(I,B+1),C[B]=B===0?0:C[B-1],C[B+1]=C[B]+op.distanceTo(np);A.setAttribute("lineDistance",new aI(C,1))}else console.warn("THREE.LineSegments.computeLineDistances(): Computation only possible with non-indexed BufferGeometry.");return this}}class gM extends KQ{constructor(A,I){super(A,I),this.isLineLoop=!0,this.type="LineLoop"}}class Gh extends BC{constructor(A){super(),this.isPointsMaterial=!0,this.type="PointsMaterial",this.color=new VA(16777215),this.map=null,this.alphaMap=null,this.size=1,this.sizeAttenuation=!0,this.fog=!0,this.setValues(A)}copy(A){return super.copy(A),this.color.copy(A.color),this.map=A.map,this.alphaMap=A.alphaMap,this.size=A.size,this.sizeAttenuation=A.sizeAttenuation,this.fog=A.fog,this}}const ap=new hI,Gy=new bo,nD=new NC,aD=new T;class CM extends VI{constructor(A=new FI,I=new Gh){super(),this.isPoints=!0,this.type="Points",this.geometry=A,this.material=I,this.updateMorphTargets()}copy(A,I){return super.copy(A,I),this.material=Array.isArray(A.material)?A.material.slice():A.material,this.geometry=A.geometry,this}raycast(A,I){const C=this.geometry,B=this.matrixWorld,i=A.params.Points.threshold,Q=C.drawRange;if(C.boundingSphere===null&&C.computeBoundingSphere(),nD.copy(C.boundingSphere),nD.applyMatrix4(B),nD.radius+=i,A.ray.intersectsSphere(nD)===!1)return;ap.copy(B).invert(),Gy.copy(A.ray).applyMatrix4(ap);const E=i/((this.scale.x+this.scale.y+this.scale.z)/3),e=E*E,n=C.index,s=C.attributes.position;if(n!==null){const r=Math.max(0,Q.start),D=Math.min(n.count,Q.start+Q.count);for(let c=r,y=D;c<y;c++){const S=n.getX(c);aD.fromBufferAttribute(s,S),sp(aD,S,e,B,A,I,this)}}else{const r=Math.max(0,Q.start),D=Math.min(s.count,Q.start+Q.count);for(let c=r,y=D;c<y;c++)aD.fromBufferAttribute(s,c),sp(aD,c,e,B,A,I,this)}}updateMorphTargets(){const I=this.geometry.morphAttributes,C=Object.keys(I);if(C.length>0){const B=I[C[0]];if(B!==void 0){this.morphTargetInfluences=[],this.morphTargetDictionary={};for(let i=0,Q=B.length;i<Q;i++){const E=B[i].name||String(i);this.morphTargetInfluences.push(0),this.morphTargetDictionary[E]=i}}}}}function sp(g,A,I,C,B,i,Q){const E=Gy.distanceSqToPoint(g);if(E<I){const e=new T;Gy.closestPointToPoint(g,e),e.applyMatrix4(C);const n=B.ray.origin.distanceTo(e);if(n<B.near||n>B.far)return;i.push({distance:n,distanceToRay:Math.sqrt(E),point:e,index:A,face:null,object:Q})}}class rO extends Ig{constructor(A,I,C,B,i,Q,E,e,n){super(A,I,C,B,i,Q,E,e,n),this.isVideoTexture=!0,this.minFilter=Q!==void 0?Q:tg,this.magFilter=i!==void 0?i:tg,this.generateMipmaps=!1;const a=this;function s(){a.needsUpdate=!0,A.requestVideoFrameCallback(s)}"requestVideoFrameCallback"in A&&A.requestVideoFrameCallback(s)}clone(){return new this.constructor(this.image).copy(this)}update(){const A=this.image;"requestVideoFrameCallback"in A===!1&&A.readyState>=A.HAVE_CURRENT_DATA&&(this.needsUpdate=!0)}}class DO extends Ig{constructor(A,I){super({width:A,height:I}),this.isFramebufferTexture=!0,this.magFilter=oC,this.minFilter=oC,this.generateMipmaps=!1,this.needsUpdate=!0}}class yh extends Ig{constructor(A,I,C,B,i,Q,E,e,n,a,s,r){super(null,Q,E,e,n,a,B,i,s,r),this.isCompressedTexture=!0,this.image={width:I,height:C},this.mipmaps=A,this.flipY=!1,this.generateMipmaps=!1}}class lO extends yh{constructor(A,I,C,B,i,Q){super(A,I,C,i,Q),this.isCompressedArrayTexture=!0,this.image.depth=B,this.wrapR=Vg,this.layerUpdates=new Set}addLayerUpdates(A){this.layerUpdates.add(A)}clearLayerUpdates(){this.layerUpdates.clear()}}class hO extends yh{constructor(A,I,C){super(void 0,A[0].width,A[0].height,I,C,$i),this.isCompressedCubeTexture=!0,this.isCubeTexture=!0,this.image=A}}class cO extends Ig{constructor(A,I,C,B,i,Q,E,e,n){super(A,I,C,B,i,Q,E,e,n),this.isCanvasTexture=!0,this.needsUpdate=!0}}class di{constructor(){this.type="Curve",this.arcLengthDivisions=200}getPoint(){return console.warn("THREE.Curve: .getPoint() not implemented."),null}getPointAt(A,I){const C=this.getUtoTmapping(A);return this.getPoint(C,I)}getPoints(A=5){const I=[];for(let C=0;C<=A;C++)I.push(this.getPoint(C/A));return I}getSpacedPoints(A=5){const I=[];for(let C=0;C<=A;C++)I.push(this.getPointAt(C/A));return I}getLength(){const A=this.getLengths();return A[A.length-1]}getLengths(A=this.arcLengthDivisions){if(this.cacheArcLengths&&this.cacheArcLengths.length===A+1&&!this.needsUpdate)return this.cacheArcLengths;this.needsUpdate=!1;const I=[];let C,B=this.getPoint(0),i=0;I.push(0);for(let Q=1;Q<=A;Q++)C=this.getPoint(Q/A),i+=C.distanceTo(B),I.push(i),B=C;return this.cacheArcLengths=I,I}updateArcLengths(){this.needsUpdate=!0,this.getLengths()}getUtoTmapping(A,I){const C=this.getLengths();let B=0;const i=C.length;let Q;I?Q=I:Q=A*C[i-1];let E=0,e=i-1,n;for(;E<=e;)if(B=Math.floor(E+(e-E)/2),n=C[B]-Q,n<0)E=B+1;else if(n>0)e=B-1;else{e=B;break}if(B=e,C[B]===Q)return B/(i-1);const a=C[B],r=C[B+1]-a,D=(Q-a)/r;return(B+D)/(i-1)}getTangent(A,I){let B=A-1e-4,i=A+1e-4;B<0&&(B=0),i>1&&(i=1);const Q=this.getPoint(B),E=this.getPoint(i),e=I||(Q.isVector2?new pA:new T);return e.copy(E).sub(Q).normalize(),e}getTangentAt(A,I){const C=this.getUtoTmapping(A);return this.getTangent(C,I)}computeFrenetFrames(A,I){const C=new T,B=[],i=[],Q=[],E=new T,e=new hI;for(let D=0;D<=A;D++){const c=D/A;B[D]=this.getTangentAt(c,new T)}i[0]=new T,Q[0]=new T;let n=Number.MAX_VALUE;const a=Math.abs(B[0].x),s=Math.abs(B[0].y),r=Math.abs(B[0].z);a<=n&&(n=a,C.set(1,0,0)),s<=n&&(n=s,C.set(0,1,0)),r<=n&&C.set(0,0,1),E.crossVectors(B[0],C).normalize(),i[0].crossVectors(B[0],E),Q[0].crossVectors(B[0],i[0]);for(let D=1;D<=A;D++){if(i[D]=i[D-1].clone(),Q[D]=Q[D-1].clone(),E.crossVectors(B[D-1],B[D]),E.length()>Number.EPSILON){E.normalize();const c=Math.acos(bg(B[D-1].dot(B[D]),-1,1));i[D].applyMatrix4(e.makeRotationAxis(E,c))}Q[D].crossVectors(B[D],i[D])}if(I===!0){let D=Math.acos(bg(i[0].dot(i[A]),-1,1));D/=A,B[0].dot(E.crossVectors(i[0],i[A]))>0&&(D=-D);for(let c=1;c<=A;c++)i[c].applyMatrix4(e.makeRotationAxis(B[c],D*c)),Q[c].crossVectors(B[c],i[c])}return{tangents:B,normals:i,binormals:Q}}clone(){return new this.constructor().copy(this)}copy(A){return this.arcLengthDivisions=A.arcLengthDivisions,this}toJSON(){const A={metadata:{version:4.6,type:"Curve",generator:"Curve.toJSON"}};return A.arcLengthDivisions=this.arcLengthDivisions,A.type=this.type,A}fromJSON(A){return this.arcLengthDivisions=A.arcLengthDivisions,this}}class kh extends di{constructor(A=0,I=0,C=1,B=1,i=0,Q=Math.PI*2,E=!1,e=0){super(),this.isEllipseCurve=!0,this.type="EllipseCurve",this.aX=A,this.aY=I,this.xRadius=C,this.yRadius=B,this.aStartAngle=i,this.aEndAngle=Q,this.aClockwise=E,this.aRotation=e}getPoint(A,I=new pA){const C=I,B=Math.PI*2;let i=this.aEndAngle-this.aStartAngle;const Q=Math.abs(i)<Number.EPSILON;for(;i<0;)i+=B;for(;i>B;)i-=B;i<Number.EPSILON&&(Q?i=0:i=B),this.aClockwise===!0&&!Q&&(i===B?i=-B:i=i-B);const E=this.aStartAngle+A*i;let e=this.aX+this.xRadius*Math.cos(E),n=this.aY+this.yRadius*Math.sin(E);if(this.aRotation!==0){const a=Math.cos(this.aRotation),s=Math.sin(this.aRotation),r=e-this.aX,D=n-this.aY;e=r*a-D*s+this.aX,n=r*s+D*a+this.aY}return C.set(e,n)}copy(A){return super.copy(A),this.aX=A.aX,this.aY=A.aY,this.xRadius=A.xRadius,this.yRadius=A.yRadius,this.aStartAngle=A.aStartAngle,this.aEndAngle=A.aEndAngle,this.aClockwise=A.aClockwise,this.aRotation=A.aRotation,this}toJSON(){const A=super.toJSON();return A.aX=this.aX,A.aY=this.aY,A.xRadius=this.xRadius,A.yRadius=this.yRadius,A.aStartAngle=this.aStartAngle,A.aEndAngle=this.aEndAngle,A.aClockwise=this.aClockwise,A.aRotation=this.aRotation,A}fromJSON(A){return super.fromJSON(A),this.aX=A.aX,this.aY=A.aY,this.xRadius=A.xRadius,this.yRadius=A.yRadius,this.aStartAngle=A.aStartAngle,this.aEndAngle=A.aEndAngle,this.aClockwise=A.aClockwise,this.aRotation=A.aRotation,this}}class $J extends kh{constructor(A,I,C,B,i,Q){super(A,I,C,C,B,i,Q),this.isArcCurve=!0,this.type="ArcCurve"}}function BM(){let g=0,A=0,I=0,C=0;function B(i,Q,E,e){g=i,A=E,I=-3*i+3*Q-2*E-e,C=2*i-2*Q+E+e}return{initCatmullRom:function(i,Q,E,e,n){B(Q,E,n*(E-i),n*(e-Q))},initNonuniformCatmullRom:function(i,Q,E,e,n,a,s){let r=(Q-i)/n-(E-i)/(n+a)+(E-Q)/a,D=(E-Q)/a-(e-Q)/(a+s)+(e-E)/s;r*=a,D*=a,B(Q,E,r,D)},calc:function(i){const Q=i*i,E=Q*i;return g+A*i+I*Q+C*E}}}const sD=new T,hw=new BM,cw=new BM,Sw=new BM;class iM extends di{constructor(A=[],I=!1,C="centripetal",B=.5){super(),this.isCatmullRomCurve3=!0,this.type="CatmullRomCurve3",this.points=A,this.closed=I,this.curveType=C,this.tension=B}getPoint(A,I=new T){const C=I,B=this.points,i=B.length,Q=(i-(this.closed?0:1))*A;let E=Math.floor(Q),e=Q-E;this.closed?E+=E>0?0:(Math.floor(Math.abs(E)/i)+1)*i:e===0&&E===i-1&&(E=i-2,e=1);let n,a;this.closed||E>0?n=B[(E-1)%i]:(sD.subVectors(B[0],B[1]).add(B[0]),n=sD);const s=B[E%i],r=B[(E+1)%i];if(this.closed||E+2<i?a=B[(E+2)%i]:(sD.subVectors(B[i-1],B[i-2]).add(B[i-1]),a=sD),this.curveType==="centripetal"||this.curveType==="chordal"){const D=this.curveType==="chordal"?.5:.25;let c=Math.pow(n.distanceToSquared(s),D),y=Math.pow(s.distanceToSquared(r),D),S=Math.pow(r.distanceToSquared(a),D);y<1e-4&&(y=1),c<1e-4&&(c=y),S<1e-4&&(S=y),hw.initNonuniformCatmullRom(n.x,s.x,r.x,a.x,c,y,S),cw.initNonuniformCatmullRom(n.y,s.y,r.y,a.y,c,y,S),Sw.initNonuniformCatmullRom(n.z,s.z,r.z,a.z,c,y,S)}else this.curveType==="catmullrom"&&(hw.initCatmullRom(n.x,s.x,r.x,a.x,this.tension),cw.initCatmullRom(n.y,s.y,r.y,a.y,this.tension),Sw.initCatmullRom(n.z,s.z,r.z,a.z,this.tension));return C.set(hw.calc(e),cw.calc(e),Sw.calc(e)),C}copy(A){super.copy(A),this.points=[];for(let I=0,C=A.points.length;I<C;I++){const B=A.points[I];this.points.push(B.clone())}return this.closed=A.closed,this.curveType=A.curveType,this.tension=A.tension,this}toJSON(){const A=super.toJSON();A.points=[];for(let I=0,C=this.points.length;I<C;I++){const B=this.points[I];A.points.push(B.toArray())}return A.closed=this.closed,A.curveType=this.curveType,A.tension=this.tension,A}fromJSON(A){super.fromJSON(A),this.points=[];for(let I=0,C=A.points.length;I<C;I++){const B=A.points[I];this.points.push(new T().fromArray(B))}return this.closed=A.closed,this.curveType=A.curveType,this.tension=A.tension,this}}function rp(g,A,I,C,B){const i=(C-A)*.5,Q=(B-I)*.5,E=g*g,e=g*E;return(2*I-2*C+i+Q)*e+(-3*I+3*C-2*i-Q)*E+i*g+I}function SO(g,A){const I=1-g;return I*I*A}function wO(g,A){return 2*(1-g)*g*A}function GO(g,A){return g*g*A}function na(g,A,I,C){return SO(g,A)+wO(g,I)+GO(g,C)}function yO(g,A){const I=1-g;return I*I*I*A}function kO(g,A){const I=1-g;return 3*I*I*g*A}function MO(g,A){return 3*(1-g)*g*g*A}function uO(g,A){return g*g*g*A}function aa(g,A,I,C,B){return yO(g,A)+kO(g,I)+MO(g,C)+uO(g,B)}class QM extends di{constructor(A=new pA,I=new pA,C=new pA,B=new pA){super(),this.isCubicBezierCurve=!0,this.type="CubicBezierCurve",this.v0=A,this.v1=I,this.v2=C,this.v3=B}getPoint(A,I=new pA){const C=I,B=this.v0,i=this.v1,Q=this.v2,E=this.v3;return C.set(aa(A,B.x,i.x,Q.x,E.x),aa(A,B.y,i.y,Q.y,E.y)),C}copy(A){return super.copy(A),this.v0.copy(A.v0),this.v1.copy(A.v1),this.v2.copy(A.v2),this.v3.copy(A.v3),this}toJSON(){const A=super.toJSON();return A.v0=this.v0.toArray(),A.v1=this.v1.toArray(),A.v2=this.v2.toArray(),A.v3=this.v3.toArray(),A}fromJSON(A){return super.fromJSON(A),this.v0.fromArray(A.v0),this.v1.fromArray(A.v1),this.v2.fromArray(A.v2),this.v3.fromArray(A.v3),this}}class AR extends di{constructor(A=new T,I=new T,C=new T,B=new T){super(),this.isCubicBezierCurve3=!0,this.type="CubicBezierCurve3",this.v0=A,this.v1=I,this.v2=C,this.v3=B}getPoint(A,I=new T){const C=I,B=this.v0,i=this.v1,Q=this.v2,E=this.v3;return C.set(aa(A,B.x,i.x,Q.x,E.x),aa(A,B.y,i.y,Q.y,E.y),aa(A,B.z,i.z,Q.z,E.z)),C}copy(A){return super.copy(A),this.v0.copy(A.v0),this.v1.copy(A.v1),this.v2.copy(A.v2),this.v3.copy(A.v3),this}toJSON(){const A=super.toJSON();return A.v0=this.v0.toArray(),A.v1=this.v1.toArray(),A.v2=this.v2.toArray(),A.v3=this.v3.toArray(),A}fromJSON(A){return super.fromJSON(A),this.v0.fromArray(A.v0),this.v1.fromArray(A.v1),this.v2.fromArray(A.v2),this.v3.fromArray(A.v3),this}}class EM extends di{constructor(A=new pA,I=new pA){super(),this.isLineCurve=!0,this.type="LineCurve",this.v1=A,this.v2=I}getPoint(A,I=new pA){const C=I;return A===1?C.copy(this.v2):(C.copy(this.v2).sub(this.v1),C.multiplyScalar(A).add(this.v1)),C}getPointAt(A,I){return this.getPoint(A,I)}getTangent(A,I=new pA){return I.subVectors(this.v2,this.v1).normalize()}getTangentAt(A,I){return this.getTangent(A,I)}copy(A){return super.copy(A),this.v1.copy(A.v1),this.v2.copy(A.v2),this}toJSON(){const A=super.toJSON();return A.v1=this.v1.toArray(),A.v2=this.v2.toArray(),A}fromJSON(A){return super.fromJSON(A),this.v1.fromArray(A.v1),this.v2.fromArray(A.v2),this}}class IR extends di{constructor(A=new T,I=new T){super(),this.isLineCurve3=!0,this.type="LineCurve3",this.v1=A,this.v2=I}getPoint(A,I=new T){const C=I;return A===1?C.copy(this.v2):(C.copy(this.v2).sub(this.v1),C.multiplyScalar(A).add(this.v1)),C}getPointAt(A,I){return this.getPoint(A,I)}getTangent(A,I=new T){return I.subVectors(this.v2,this.v1).normalize()}getTangentAt(A,I){return this.getTangent(A,I)}copy(A){return super.copy(A),this.v1.copy(A.v1),this.v2.copy(A.v2),this}toJSON(){const A=super.toJSON();return A.v1=this.v1.toArray(),A.v2=this.v2.toArray(),A}fromJSON(A){return super.fromJSON(A),this.v1.fromArray(A.v1),this.v2.fromArray(A.v2),this}}class eM extends di{constructor(A=new pA,I=new pA,C=new pA){super(),this.isQuadraticBezierCurve=!0,this.type="QuadraticBezierCurve",this.v0=A,this.v1=I,this.v2=C}getPoint(A,I=new pA){const C=I,B=this.v0,i=this.v1,Q=this.v2;return C.set(na(A,B.x,i.x,Q.x),na(A,B.y,i.y,Q.y)),C}copy(A){return super.copy(A),this.v0.copy(A.v0),this.v1.copy(A.v1),this.v2.copy(A.v2),this}toJSON(){const A=super.toJSON();return A.v0=this.v0.toArray(),A.v1=this.v1.toArray(),A.v2=this.v2.toArray(),A}fromJSON(A){return super.fromJSON(A),this.v0.fromArray(A.v0),this.v1.fromArray(A.v1),this.v2.fromArray(A.v2),this}}class tM extends di{constructor(A=new T,I=new T,C=new T){super(),this.isQuadraticBezierCurve3=!0,this.type="QuadraticBezierCurve3",this.v0=A,this.v1=I,this.v2=C}getPoint(A,I=new T){const C=I,B=this.v0,i=this.v1,Q=this.v2;return C.set(na(A,B.x,i.x,Q.x),na(A,B.y,i.y,Q.y),na(A,B.z,i.z,Q.z)),C}copy(A){return super.copy(A),this.v0.copy(A.v0),this.v1.copy(A.v1),this.v2.copy(A.v2),this}toJSON(){const A=super.toJSON();return A.v0=this.v0.toArray(),A.v1=this.v1.toArray(),A.v2=this.v2.toArray(),A}fromJSON(A){return super.fromJSON(A),this.v0.fromArray(A.v0),this.v1.fromArray(A.v1),this.v2.fromArray(A.v2),this}}class oM extends di{constructor(A=[]){super(),this.isSplineCurve=!0,this.type="SplineCurve",this.points=A}getPoint(A,I=new pA){const C=I,B=this.points,i=(B.length-1)*A,Q=Math.floor(i),E=i-Q,e=B[Q===0?Q:Q-1],n=B[Q],a=B[Q>B.length-2?B.length-1:Q+1],s=B[Q>B.length-3?B.length-1:Q+2];return C.set(rp(E,e.x,n.x,a.x,s.x),rp(E,e.y,n.y,a.y,s.y)),C}copy(A){super.copy(A),this.points=[];for(let I=0,C=A.points.length;I<C;I++){const B=A.points[I];this.points.push(B.clone())}return this}toJSON(){const A=super.toJSON();A.points=[];for(let I=0,C=this.points.length;I<C;I++){const B=this.points[I];A.points.push(B.toArray())}return A}fromJSON(A){super.fromJSON(A),this.points=[];for(let I=0,C=A.points.length;I<C;I++){const B=A.points[I];this.points.push(new pA().fromArray(B))}return this}}var Jl=Object.freeze({__proto__:null,ArcCurve:$J,CatmullRomCurve3:iM,CubicBezierCurve:QM,CubicBezierCurve3:AR,EllipseCurve:kh,LineCurve:EM,LineCurve3:IR,QuadraticBezierCurve:eM,QuadraticBezierCurve3:tM,SplineCurve:oM});class gR extends di{constructor(){super(),this.type="CurvePath",this.curves=[],this.autoClose=!1}add(A){this.curves.push(A)}closePath(){const A=this.curves[0].getPoint(0),I=this.curves[this.curves.length-1].getPoint(1);if(!A.equals(I)){const C=A.isVector2===!0?"LineCurve":"LineCurve3";this.curves.push(new Jl[C](I,A))}return this}getPoint(A,I){const C=A*this.getLength(),B=this.getCurveLengths();let i=0;for(;i<B.length;){if(B[i]>=C){const Q=B[i]-C,E=this.curves[i],e=E.getLength(),n=e===0?0:1-Q/e;return E.getPointAt(n,I)}i++}return null}getLength(){const A=this.getCurveLengths();return A[A.length-1]}updateArcLengths(){this.needsUpdate=!0,this.cacheLengths=null,this.getCurveLengths()}getCurveLengths(){if(this.cacheLengths&&this.cacheLengths.length===this.curves.length)return this.cacheLengths;const A=[];let I=0;for(let C=0,B=this.curves.length;C<B;C++)I+=this.curves[C].getLength(),A.push(I);return this.cacheLengths=A,A}getSpacedPoints(A=40){const I=[];for(let C=0;C<=A;C++)I.push(this.getPoint(C/A));return this.autoClose&&I.push(I[0]),I}getPoints(A=12){const I=[];let C;for(let B=0,i=this.curves;B<i.length;B++){const Q=i[B],E=Q.isEllipseCurve?A*2:Q.isLineCurve||Q.isLineCurve3?1:Q.isSplineCurve?A*Q.points.length:A,e=Q.getPoints(E);for(let n=0;n<e.length;n++){const a=e[n];C&&C.equals(a)||(I.push(a),C=a)}}return this.autoClose&&I.length>1&&!I[I.length-1].equals(I[0])&&I.push(I[0]),I}copy(A){super.copy(A),this.curves=[];for(let I=0,C=A.curves.length;I<C;I++){const B=A.curves[I];this.curves.push(B.clone())}return this.autoClose=A.autoClose,this}toJSON(){const A=super.toJSON();A.autoClose=this.autoClose,A.curves=[];for(let I=0,C=this.curves.length;I<C;I++){const B=this.curves[I];A.curves.push(B.toJSON())}return A}fromJSON(A){super.fromJSON(A),this.autoClose=A.autoClose,this.curves=[];for(let I=0,C=A.curves.length;I<C;I++){const B=A.curves[I];this.curves.push(new Jl[B.type]().fromJSON(B))}return this}}class va extends gR{constructor(A){super(),this.type="Path",this.currentPoint=new pA,A&&this.setFromPoints(A)}setFromPoints(A){this.moveTo(A[0].x,A[0].y);for(let I=1,C=A.length;I<C;I++)this.lineTo(A[I].x,A[I].y);return this}moveTo(A,I){return this.currentPoint.set(A,I),this}lineTo(A,I){const C=new EM(this.currentPoint.clone(),new pA(A,I));return this.curves.push(C),this.currentPoint.set(A,I),this}quadraticCurveTo(A,I,C,B){const i=new eM(this.currentPoint.clone(),new pA(A,I),new pA(C,B));return this.curves.push(i),this.currentPoint.set(C,B),this}bezierCurveTo(A,I,C,B,i,Q){const E=new QM(this.currentPoint.clone(),new pA(A,I),new pA(C,B),new pA(i,Q));return this.curves.push(E),this.currentPoint.set(i,Q),this}splineThru(A){const I=[this.currentPoint.clone()].concat(A),C=new oM(I);return this.curves.push(C),this.currentPoint.copy(A[A.length-1]),this}arc(A,I,C,B,i,Q){const E=this.currentPoint.x,e=this.currentPoint.y;return this.absarc(A+E,I+e,C,B,i,Q),this}absarc(A,I,C,B,i,Q){return this.absellipse(A,I,C,C,B,i,Q),this}ellipse(A,I,C,B,i,Q,E,e){const n=this.currentPoint.x,a=this.currentPoint.y;return this.absellipse(A+n,I+a,C,B,i,Q,E,e),this}absellipse(A,I,C,B,i,Q,E,e){const n=new kh(A,I,C,B,i,Q,E,e);if(this.curves.length>0){const s=n.getPoint(0);s.equals(this.currentPoint)||this.lineTo(s.x,s.y)}this.curves.push(n);const a=n.getPoint(1);return this.currentPoint.copy(a),this}copy(A){return super.copy(A),this.currentPoint.copy(A.currentPoint),this}toJSON(){const A=super.toJSON();return A.currentPoint=this.currentPoint.toArray(),A}fromJSON(A){return super.fromJSON(A),this.currentPoint.fromArray(A.currentPoint),this}}class rs extends FI{constructor(A=[new pA(0,-.5),new pA(.5,0),new pA(0,.5)],I=12,C=0,B=Math.PI*2){super(),this.type="LatheGeometry",this.parameters={points:A,segments:I,phiStart:C,phiLength:B},I=Math.floor(I),B=bg(B,0,Math.PI*2);const i=[],Q=[],E=[],e=[],n=[],a=1/I,s=new T,r=new pA,D=new T,c=new T,y=new T;let S=0,l=0;for(let w=0;w<=A.length-1;w++)switch(w){case 0:S=A[w+1].x-A[w].x,l=A[w+1].y-A[w].y,D.x=l*1,D.y=-S,D.z=l*0,y.copy(D),D.normalize(),e.push(D.x,D.y,D.z);break;case A.length-1:e.push(y.x,y.y,y.z);break;default:S=A[w+1].x-A[w].x,l=A[w+1].y-A[w].y,D.x=l*1,D.y=-S,D.z=l*0,c.copy(D),D.x+=y.x,D.y+=y.y,D.z+=y.z,D.normalize(),e.push(D.x,D.y,D.z),y.copy(c)}for(let w=0;w<=I;w++){const k=C+w*a*B,U=Math.sin(k),f=Math.cos(k);for(let F=0;F<=A.length-1;F++){s.x=A[F].x*U,s.y=A[F].y,s.z=A[F].x*f,Q.push(s.x,s.y,s.z),r.x=w/I,r.y=F/(A.length-1),E.push(r.x,r.y);const J=e[3*F+0]*U,q=e[3*F+1],K=e[3*F+0]*f;n.push(J,q,K)}}for(let w=0;w<I;w++)for(let k=0;k<A.length-1;k++){const U=k+w*A.length,f=U,F=U+A.length,J=U+A.length+1,q=U+1;i.push(f,F,q),i.push(J,q,F)}this.setIndex(i),this.setAttribute("position",new aI(Q,3)),this.setAttribute("uv",new aI(E,2)),this.setAttribute("normal",new aI(n,3))}copy(A){return super.copy(A),this.parameters=Object.assign({},A.parameters),this}static fromJSON(A){return new rs(A.points,A.segments,A.phiStart,A.phiLength)}}class Mh extends rs{constructor(A=1,I=1,C=4,B=8){const i=new va;i.absarc(0,-I/2,A,Math.PI*1.5,0),i.absarc(0,I/2,A,0,Math.PI*.5),super(i.getPoints(C),B),this.type="CapsuleGeometry",this.parameters={radius:A,length:I,capSegments:C,radialSegments:B}}static fromJSON(A){return new Mh(A.radius,A.length,A.capSegments,A.radialSegments)}}class uh extends FI{constructor(A=1,I=32,C=0,B=Math.PI*2){super(),this.type="CircleGeometry",this.parameters={radius:A,segments:I,thetaStart:C,thetaLength:B},I=Math.max(3,I);const i=[],Q=[],E=[],e=[],n=new T,a=new pA;Q.push(0,0,0),E.push(0,0,1),e.push(.5,.5);for(let s=0,r=3;s<=I;s++,r+=3){const D=C+s/I*B;n.x=A*Math.cos(D),n.y=A*Math.sin(D),Q.push(n.x,n.y,n.z),E.push(0,0,1),a.x=(Q[r]/A+1)/2,a.y=(Q[r+1]/A+1)/2,e.push(a.x,a.y)}for(let s=1;s<=I;s++)i.push(s,s+1,0);this.setIndex(i),this.setAttribute("position",new aI(Q,3)),this.setAttribute("normal",new aI(E,3)),this.setAttribute("uv",new aI(e,2))}copy(A){return super.copy(A),this.parameters=Object.assign({},A.parameters),this}static fromJSON(A){return new uh(A.radius,A.segments,A.thetaStart,A.thetaLength)}}class Zo extends FI{constructor(A=1,I=1,C=1,B=32,i=1,Q=!1,E=0,e=Math.PI*2){super(),this.type="CylinderGeometry",this.parameters={radiusTop:A,radiusBottom:I,height:C,radialSegments:B,heightSegments:i,openEnded:Q,thetaStart:E,thetaLength:e};const n=this;B=Math.floor(B),i=Math.floor(i);const a=[],s=[],r=[],D=[];let c=0;const y=[],S=C/2;let l=0;w(),Q===!1&&(A>0&&k(!0),I>0&&k(!1)),this.setIndex(a),this.setAttribute("position",new aI(s,3)),this.setAttribute("normal",new aI(r,3)),this.setAttribute("uv",new aI(D,2));function w(){const U=new T,f=new T;let F=0;const J=(I-A)/C;for(let q=0;q<=i;q++){const K=[],N=q/i,m=N*(I-A)+A;for(let P=0;P<=B;P++){const z=P/B,IA=z*e+E,tA=Math.sin(IA),$=Math.cos(IA);f.x=m*tA,f.y=-N*C+S,f.z=m*$,s.push(f.x,f.y,f.z),U.set(tA,J,$).normalize(),r.push(U.x,U.y,U.z),D.push(z,1-N),K.push(c++)}y.push(K)}for(let q=0;q<B;q++)for(let K=0;K<i;K++){const N=y[K][q],m=y[K+1][q],P=y[K+1][q+1],z=y[K][q+1];a.push(N,m,z),a.push(m,P,z),F+=6}n.addGroup(l,F,0),l+=F}function k(U){const f=c,F=new pA,J=new T;let q=0;const K=U===!0?A:I,N=U===!0?1:-1;for(let P=1;P<=B;P++)s.push(0,S*N,0),r.push(0,N,0),D.push(.5,.5),c++;const m=c;for(let P=0;P<=B;P++){const IA=P/B*e+E,tA=Math.cos(IA),$=Math.sin(IA);J.x=K*$,J.y=S*N,J.z=K*tA,s.push(J.x,J.y,J.z),r.push(0,N,0),F.x=tA*.5+.5,F.y=$*.5*N+.5,D.push(F.x,F.y),c++}for(let P=0;P<B;P++){const z=f+P,IA=m+P;U===!0?a.push(IA,IA+1,z):a.push(IA+1,IA,z),q+=3}n.addGroup(l,q,U===!0?1:2),l+=q}}copy(A){return super.copy(A),this.parameters=Object.assign({},A.parameters),this}static fromJSON(A){return new Zo(A.radiusTop,A.radiusBottom,A.height,A.radialSegments,A.heightSegments,A.openEnded,A.thetaStart,A.thetaLength)}}class Uh extends Zo{constructor(A=1,I=1,C=32,B=1,i=!1,Q=0,E=Math.PI*2){super(0,A,I,C,B,i,Q,E),this.type="ConeGeometry",this.parameters={radius:A,height:I,radialSegments:C,heightSegments:B,openEnded:i,thetaStart:Q,thetaLength:E}}static fromJSON(A){return new Uh(A.radius,A.height,A.radialSegments,A.heightSegments,A.openEnded,A.thetaStart,A.thetaLength)}}class LE extends FI{constructor(A=[],I=[],C=1,B=0){super(),this.type="PolyhedronGeometry",this.parameters={vertices:A,indices:I,radius:C,detail:B};const i=[],Q=[];E(B),n(C),a(),this.setAttribute("position",new aI(i,3)),this.setAttribute("normal",new aI(i.slice(),3)),this.setAttribute("uv",new aI(Q,2)),B===0?this.computeVertexNormals():this.normalizeNormals();function E(w){const k=new T,U=new T,f=new T;for(let F=0;F<I.length;F+=3)D(I[F+0],k),D(I[F+1],U),D(I[F+2],f),e(k,U,f,w)}function e(w,k,U,f){const F=f+1,J=[];for(let q=0;q<=F;q++){J[q]=[];const K=w.clone().lerp(U,q/F),N=k.clone().lerp(U,q/F),m=F-q;for(let P=0;P<=m;P++)P===0&&q===F?J[q][P]=K:J[q][P]=K.clone().lerp(N,P/m)}for(let q=0;q<F;q++)for(let K=0;K<2*(F-q)-1;K++){const N=Math.floor(K/2);K%2===0?(r(J[q][N+1]),r(J[q+1][N]),r(J[q][N])):(r(J[q][N+1]),r(J[q+1][N+1]),r(J[q+1][N]))}}function n(w){const k=new T;for(let U=0;U<i.length;U+=3)k.x=i[U+0],k.y=i[U+1],k.z=i[U+2],k.normalize().multiplyScalar(w),i[U+0]=k.x,i[U+1]=k.y,i[U+2]=k.z}function a(){const w=new T;for(let k=0;k<i.length;k+=3){w.x=i[k+0],w.y=i[k+1],w.z=i[k+2];const U=S(w)/2/Math.PI+.5,f=l(w)/Math.PI+.5;Q.push(U,1-f)}c(),s()}function s(){for(let w=0;w<Q.length;w+=6){const k=Q[w+0],U=Q[w+2],f=Q[w+4],F=Math.max(k,U,f),J=Math.min(k,U,f);F>.9&&J<.1&&(k<.2&&(Q[w+0]+=1),U<.2&&(Q[w+2]+=1),f<.2&&(Q[w+4]+=1))}}function r(w){i.push(w.x,w.y,w.z)}function D(w,k){const U=w*3;k.x=A[U+0],k.y=A[U+1],k.z=A[U+2]}function c(){const w=new T,k=new T,U=new T,f=new T,F=new pA,J=new pA,q=new pA;for(let K=0,N=0;K<i.length;K+=9,N+=6){w.set(i[K+0],i[K+1],i[K+2]),k.set(i[K+3],i[K+4],i[K+5]),U.set(i[K+6],i[K+7],i[K+8]),F.set(Q[N+0],Q[N+1]),J.set(Q[N+2],Q[N+3]),q.set(Q[N+4],Q[N+5]),f.copy(w).add(k).add(U).divideScalar(3);const m=S(f);y(F,N+0,w,m),y(J,N+2,k,m),y(q,N+4,U,m)}}function y(w,k,U,f){f<0&&w.x===1&&(Q[k]=w.x-1),U.x===0&&U.z===0&&(Q[k]=f/2/Math.PI+.5)}function S(w){return Math.atan2(w.z,-w.x)}function l(w){return Math.atan2(-w.y,Math.sqrt(w.x*w.x+w.z*w.z))}}copy(A){return super.copy(A),this.parameters=Object.assign({},A.parameters),this}static fromJSON(A){return new LE(A.vertices,A.indices,A.radius,A.details)}}class dh extends LE{constructor(A=1,I=0){const 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NA=Math.sqrt(DA),RA=Math.sqrt(_*_+Y*Y),oI=GA.x-wI/NA,_A=GA.y+PA/NA,ZA=qA.x-Y/RA,SI=qA.y+_/RA,mA=((ZA-oI)*Y-(SI-_A)*_)/(PA*Y-wI*_);KA=oI+PA*mA-kA.x,fA=_A+wI*mA-kA.y;const CI=KA*KA+fA*fA;if(CI<=2)return new pA(KA,fA);WA=Math.sqrt(CI/2)}else{let NA=!1;PA>Number.EPSILON?_>Number.EPSILON&&(NA=!0):PA<-Number.EPSILON?_<-Number.EPSILON&&(NA=!0):Math.sign(wI)===Math.sign(Y)&&(NA=!0),NA?(KA=-wI,fA=PA,WA=Math.sqrt(DA)):(KA=PA,fA=wI,WA=Math.sqrt(DA/2))}return new pA(KA/WA,fA/WA)}const EA=[];for(let kA=0,GA=IA.length,qA=GA-1,KA=kA+1;kA<GA;kA++,qA++,KA++)qA===GA&&(qA=0),KA===GA&&(KA=0),EA[kA]=O(IA[kA],IA[qA],IA[KA]);const X=[];let oA,MA=EA.concat();for(let kA=0,GA=m.length;kA<GA;kA++){const qA=m[kA];oA=[];for(let KA=0,fA=qA.length,WA=fA-1,PA=KA+1;KA<fA;KA++,WA++,PA++)WA===fA&&(WA=0),PA===fA&&(PA=0),oA[KA]=O(qA[KA],qA[WA],qA[PA]);X.push(oA),MA=MA.concat(oA)}for(let kA=0;kA<S;kA++){const GA=kA/S,qA=D*Math.cos(GA*Math.PI/2),KA=c*Math.sin(GA*Math.PI/2)+y;for(let fA=0,WA=IA.length;fA<WA;fA++){const PA=tA(IA[fA],EA[fA],KA);uA(PA.x,PA.y,-qA)}for(let fA=0,WA=m.length;fA<WA;fA++){const PA=m[fA];oA=X[fA];for(let wI=0,_=PA.length;wI<_;wI++){const Y=tA(PA[wI],oA[wI],KA);uA(Y.x,Y.y,-qA)}}}const xA=c+y;for(let kA=0;kA<$;kA++){const GA=r?tA(N[kA],MA[kA],xA):N[kA];U?(J.copy(f.normals[0]).multiplyScalar(GA.x),F.copy(f.binormals[0]).multiplyScalar(GA.y),q.copy(k[0]).add(J).add(F),uA(q.x,q.y,q.z)):uA(GA.x,GA.y,0)}for(let kA=1;kA<=a;kA++)for(let GA=0;GA<$;GA++){const qA=r?tA(N[GA],MA[GA],xA):N[GA];U?(J.copy(f.normals[kA]).multiplyScalar(qA.x),F.copy(f.binormals[kA]).multiplyScalar(qA.y),q.copy(k[kA]).add(J).add(F),uA(q.x,q.y,q.z)):uA(qA.x,qA.y,s/a*kA)}for(let kA=S-1;kA>=0;kA--){const GA=kA/S,qA=D*Math.cos(GA*Math.PI/2),KA=c*Math.sin(GA*Math.PI/2)+y;for(let fA=0,WA=IA.length;fA<WA;fA++){const PA=tA(IA[fA],EA[fA],KA);uA(PA.x,PA.y,s+qA)}for(let fA=0,WA=m.length;fA<WA;fA++){const PA=m[fA];oA=X[fA];for(let wI=0,_=PA.length;wI<_;wI++){const Y=tA(PA[wI],oA[wI],KA);U?uA(Y.x,Y.y+k[a-1].y,k[a-1].x+qA):uA(Y.x,Y.y,s+qA)}}}aA(),UA();function aA(){const kA=B.length/3;if(r){let GA=0,qA=$*GA;for(let KA=0;KA<SA;KA++){const fA=z[KA];gI(fA[2]+qA,fA[1]+qA,fA[0]+qA)}GA=a+S*2,qA=$*GA;for(let KA=0;KA<SA;KA++){const fA=z[KA];gI(fA[0]+qA,fA[1]+qA,fA[2]+qA)}}else{for(let GA=0;GA<SA;GA++){const qA=z[GA];gI(qA[2],qA[1],qA[0])}for(let GA=0;GA<SA;GA++){const qA=z[GA];gI(qA[0]+$*a,qA[1]+$*a,qA[2]+$*a)}}C.addGroup(kA,B.length/3-kA,0)}function UA(){const kA=B.length/3;let GA=0;nA(IA,GA),GA+=IA.length;for(let qA=0,KA=m.length;qA<KA;qA++){const fA=m[qA];nA(fA,GA),GA+=fA.length}C.addGroup(kA,B.length/3-kA,1)}function nA(kA,GA){let qA=kA.length;for(;--qA>=0;){const KA=qA;let fA=qA-1;fA<0&&(fA=kA.length-1);for(let WA=0,PA=a+S*2;WA<PA;WA++){const wI=$*WA,_=$*(WA+1),Y=GA+KA+wI,DA=GA+fA+wI,FA=GA+fA+_,NA=GA+KA+_;bA(Y,DA,FA,NA)}}}function uA(kA,GA,qA){e.push(kA),e.push(GA),e.push(qA)}function gI(kA,GA,qA){$A(kA),$A(GA),$A(qA);const KA=B.length/3,fA=w.generateTopUV(C,B,KA-3,KA-2,KA-1);W(fA[0]),W(fA[1]),W(fA[2])}function bA(kA,GA,qA,KA){$A(kA),$A(GA),$A(KA),$A(GA),$A(qA),$A(KA);const fA=B.length/3,WA=w.generateSideWallUV(C,B,fA-6,fA-3,fA-2,fA-1);W(WA[0]),W(WA[1]),W(WA[3]),W(WA[1]),W(WA[2]),W(WA[3])}function $A(kA){B.push(e[kA*3+0]),B.push(e[kA*3+1]),B.push(e[kA*3+2])}function W(kA){i.push(kA.x),i.push(kA.y)}}}copy(A){return super.copy(A),this.parameters=Object.assign({},A.parameters),this}toJSON(){const A=super.toJSON(),I=this.parameters.shapes,C=this.parameters.options;return bO(I,C,A)}static fromJSON(A,I){const C=[];for(let i=0,Q=A.shapes.length;i<Q;i++){const E=I[A.shapes[i]];C.push(E)}const B=A.options.extrudePath;return B!==void 0&&(A.options.extrudePath=new Jl[B.type]().fromJSON(B)),new Nh(C,A.options)}}const OO={generateTopUV:function(g,A,I,C,B){const i=A[I*3],Q=A[I*3+1],E=A[C*3],e=A[C*3+1],n=A[B*3],a=A[B*3+1];return[new pA(i,Q),new pA(E,e),new pA(n,a)]},generateSideWallUV:function(g,A,I,C,B,i){const Q=A[I*3],E=A[I*3+1],e=A[I*3+2],n=A[C*3],a=A[C*3+1],s=A[C*3+2],r=A[B*3],D=A[B*3+1],c=A[B*3+2],y=A[i*3],S=A[i*3+1],l=A[i*3+2];return Math.abs(E-a)<Math.abs(Q-n)?[new pA(Q,1-e),new pA(n,1-s),new pA(r,1-c),new pA(y,1-l)]:[new pA(E,1-e),new pA(a,1-s),new pA(D,1-c),new pA(S,1-l)]}};function bO(g,A,I){if(I.shapes=[],Array.isArray(g))for(let C=0,B=g.length;C<B;C++){const i=g[C];I.shapes.push(i.uuid)}else I.shapes.push(g.uuid);return I.options=Object.assign({},A),A.extrudePath!==void 0&&(I.options.extrudePath=A.extrudePath.toJSON()),I}class Ds extends LE{constructor(A=1,I=0){const C=(1+Math.sqrt(5))/2,B=[-1,C,0,1,C,0,-1,-C,0,1,-C,0,0,-1,C,0,1,C,0,-1,-C,0,1,-C,C,0,-1,C,0,1,-C,0,-1,-C,0,1],i=[0,11,5,0,5,1,0,1,7,0,7,10,0,10,11,1,5,9,5,11,4,11,10,2,10,7,6,7,1,8,3,9,4,3,4,2,3,2,6,3,6,8,3,8,9,4,9,5,2,4,11,6,2,10,8,6,7,9,8,1];super(B,i,A,I),this.type="IcosahedronGeometry",this.parameters={radius:A,detail:I}}static fromJSON(A){return new Ds(A.radius,A.detail)}}class ls extends LE{constructor(A=1,I=0){const C=[1,0,0,-1,0,0,0,1,0,0,-1,0,0,0,1,0,0,-1],B=[0,2,4,0,4,3,0,3,5,0,5,2,1,2,5,1,5,3,1,3,4,1,4,2];super(C,B,A,I),this.type="OctahedronGeometry",this.parameters={radius:A,detail:I}}static fromJSON(A){return new ls(A.radius,A.detail)}}class Fh extends FI{constructor(A=.5,I=1,C=32,B=1,i=0,Q=Math.PI*2){super(),this.type="RingGeometry",this.parameters={innerRadius:A,outerRadius:I,thetaSegments:C,phiSegments:B,thetaStart:i,thetaLength:Q},C=Math.max(3,C),B=Math.max(1,B);const E=[],e=[],n=[],a=[];let s=A;const r=(I-A)/B,D=new T,c=new pA;for(let y=0;y<=B;y++){for(let S=0;S<=C;S++){const l=i+S/C*Q;D.x=s*Math.cos(l),D.y=s*Math.sin(l),e.push(D.x,D.y,D.z),n.push(0,0,1),c.x=(D.x/I+1)/2,c.y=(D.y/I+1)/2,a.push(c.x,c.y)}s+=r}for(let y=0;y<B;y++){const S=y*(C+1);for(let l=0;l<C;l++){const w=l+S,k=w,U=w+C+1,f=w+C+2,F=w+1;E.push(k,U,F),E.push(U,f,F)}}this.setIndex(E),this.setAttribute("position",new aI(e,3)),this.setAttribute("normal",new aI(n,3)),this.setAttribute("uv",new aI(a,2))}copy(A){return super.copy(A),this.parameters=Object.assign({},A.parameters),this}static fromJSON(A){return new Fh(A.innerRadius,A.outerRadius,A.thetaSegments,A.phiSegments,A.thetaStart,A.thetaLength)}}class Kh extends FI{constructor(A=new fe([new pA(0,.5),new pA(-.5,-.5),new pA(.5,-.5)]),I=12){super(),this.type="ShapeGeometry",this.parameters={shapes:A,curveSegments:I};const C=[],B=[],i=[],Q=[];let E=0,e=0;if(Array.isArray(A)===!1)n(A);else for(let a=0;a<A.length;a++)n(A[a]),this.addGroup(E,e,a),E+=e,e=0;this.setIndex(C),this.setAttribute("position",new aI(B,3)),this.setAttribute("normal",new aI(i,3)),this.setAttribute("uv",new aI(Q,2));function n(a){const s=B.length/3,r=a.extractPoints(I);let D=r.shape;const c=r.holes;zi.isClockWise(D)===!1&&(D=D.reverse());for(let S=0,l=c.length;S<l;S++){const w=c[S];zi.isClockWise(w)===!0&&(c[S]=w.reverse())}const y=zi.triangulateShape(D,c);for(let S=0,l=c.length;S<l;S++){const w=c[S];D=D.concat(w)}for(let S=0,l=D.length;S<l;S++){const w=D[S];B.push(w.x,w.y,0),i.push(0,0,1),Q.push(w.x,w.y)}for(let S=0,l=y.length;S<l;S++){const w=y[S],k=w[0]+s,U=w[1]+s,f=w[2]+s;C.push(k,U,f),e+=3}}}copy(A){return super.copy(A),this.parameters=Object.assign({},A.parameters),this}toJSON(){const A=super.toJSON(),I=this.parameters.shapes;return _O(I,A)}static fromJSON(A,I){const C=[];for(let B=0,i=A.shapes.length;B<i;B++){const Q=I[A.shapes[B]];C.push(Q)}return new Kh(C,A.curveSegments)}}function _O(g,A){if(A.shapes=[],Array.isArray(g))for(let I=0,C=g.length;I<C;I++){const B=g[I];A.shapes.push(B.uuid)}else A.shapes.push(g.uuid);return A}class hs extends FI{constructor(A=1,I=32,C=16,B=0,i=Math.PI*2,Q=0,E=Math.PI){super(),this.type="SphereGeometry",this.parameters={radius:A,widthSegments:I,heightSegments:C,phiStart:B,phiLength:i,thetaStart:Q,thetaLength:E},I=Math.max(3,Math.floor(I)),C=Math.max(2,Math.floor(C));const e=Math.min(Q+E,Math.PI);let n=0;const a=[],s=new T,r=new T,D=[],c=[],y=[],S=[];for(let l=0;l<=C;l++){const w=[],k=l/C;let U=0;l===0&&Q===0?U=.5/I:l===C&&e===Math.PI&&(U=-.5/I);for(let f=0;f<=I;f++){const F=f/I;s.x=-A*Math.cos(B+F*i)*Math.sin(Q+k*E),s.y=A*Math.cos(Q+k*E),s.z=A*Math.sin(B+F*i)*Math.sin(Q+k*E),c.push(s.x,s.y,s.z),r.copy(s).normalize(),y.push(r.x,r.y,r.z),S.push(F+U,1-k),w.push(n++)}a.push(w)}for(let l=0;l<C;l++)for(let w=0;w<I;w++){const k=a[l][w+1],U=a[l][w],f=a[l+1][w],F=a[l+1][w+1];(l!==0||Q>0)&&D.push(k,U,F),(l!==C-1||e<Math.PI)&&D.push(U,f,F)}this.setIndex(D),this.setAttribute("position",new aI(c,3)),this.setAttribute("normal",new aI(y,3)),this.setAttribute("uv",new aI(S,2))}copy(A){return super.copy(A),this.parameters=Object.assign({},A.parameters),this}static fromJSON(A){return new hs(A.radius,A.widthSegments,A.heightSegments,A.phiStart,A.phiLength,A.thetaStart,A.thetaLength)}}class Jh extends LE{constructor(A=1,I=0){const C=[1,1,1,-1,-1,1,-1,1,-1,1,-1,-1],B=[2,1,0,0,3,2,1,3,0,2,3,1];super(C,B,A,I),this.type="TetrahedronGeometry",this.parameters={radius:A,detail:I}}static fromJSON(A){return new Jh(A.radius,A.detail)}}class Rh extends FI{constructor(A=1,I=.4,C=12,B=48,i=Math.PI*2){super(),this.type="TorusGeometry",this.parameters={radius:A,tube:I,radialSegments:C,tubularSegments:B,arc:i},C=Math.floor(C),B=Math.floor(B);const Q=[],E=[],e=[],n=[],a=new T,s=new T,r=new T;for(let D=0;D<=C;D++)for(let c=0;c<=B;c++){const y=c/B*i,S=D/C*Math.PI*2;s.x=(A+I*Math.cos(S))*Math.cos(y),s.y=(A+I*Math.cos(S))*Math.sin(y),s.z=I*Math.sin(S),E.push(s.x,s.y,s.z),a.x=A*Math.cos(y),a.y=A*Math.sin(y),r.subVectors(s,a).normalize(),e.push(r.x,r.y,r.z),n.push(c/B),n.push(D/C)}for(let D=1;D<=C;D++)for(let c=1;c<=B;c++){const y=(B+1)*D+c-1,S=(B+1)*(D-1)+c-1,l=(B+1)*(D-1)+c,w=(B+1)*D+c;Q.push(y,S,w),Q.push(S,l,w)}this.setIndex(Q),this.setAttribute("position",new aI(E,3)),this.setAttribute("normal",new aI(e,3)),this.setAttribute("uv",new aI(n,2))}copy(A){return super.copy(A),this.parameters=Object.assign({},A.parameters),this}static fromJSON(A){return new Rh(A.radius,A.tube,A.radialSegments,A.tubularSegments,A.arc)}}class fh extends FI{constructor(A=1,I=.4,C=64,B=8,i=2,Q=3){super(),this.type="TorusKnotGeometry",this.parameters={radius:A,tube:I,tubularSegments:C,radialSegments:B,p:i,q:Q},C=Math.floor(C),B=Math.floor(B);const E=[],e=[],n=[],a=[],s=new T,r=new T,D=new T,c=new T,y=new T,S=new T,l=new T;for(let k=0;k<=C;++k){const U=k/C*i*Math.PI*2;w(U,i,Q,A,D),w(U+.01,i,Q,A,c),S.subVectors(c,D),l.addVectors(c,D),y.crossVectors(S,l),l.crossVectors(y,S),y.normalize(),l.normalize();for(let f=0;f<=B;++f){const F=f/B*Math.PI*2,J=-I*Math.cos(F),q=I*Math.sin(F);s.x=D.x+(J*l.x+q*y.x),s.y=D.y+(J*l.y+q*y.y),s.z=D.z+(J*l.z+q*y.z),e.push(s.x,s.y,s.z),r.subVectors(s,D).normalize(),n.push(r.x,r.y,r.z),a.push(k/C),a.push(f/B)}}for(let k=1;k<=C;k++)for(let U=1;U<=B;U++){const f=(B+1)*(k-1)+(U-1),F=(B+1)*k+(U-1),J=(B+1)*k+U,q=(B+1)*(k-1)+U;E.push(f,F,q),E.push(F,J,q)}this.setIndex(E),this.setAttribute("position",new aI(e,3)),this.setAttribute("normal",new aI(n,3)),this.setAttribute("uv",new aI(a,2));function w(k,U,f,F,J){const q=Math.cos(k),K=Math.sin(k),N=f/U*k,m=Math.cos(N);J.x=F*(2+m)*.5*q,J.y=F*(2+m)*K*.5,J.z=F*Math.sin(N)*.5}}copy(A){return super.copy(A),this.parameters=Object.assign({},A.parameters),this}static fromJSON(A){return new fh(A.radius,A.tube,A.tubularSegments,A.radialSegments,A.p,A.q)}}class qh extends FI{constructor(A=new tM(new T(-1,-1,0),new T(-1,1,0),new T(1,1,0)),I=64,C=1,B=8,i=!1){super(),this.type="TubeGeometry",this.parameters={path:A,tubularSegments:I,radius:C,radialSegments:B,closed:i};const Q=A.computeFrenetFrames(I,i);this.tangents=Q.tangents,this.normals=Q.normals,this.binormals=Q.binormals;const E=new T,e=new T,n=new pA;let a=new T;const s=[],r=[],D=[],c=[];y(),this.setIndex(c),this.setAttribute("position",new aI(s,3)),this.setAttribute("normal",new aI(r,3)),this.setAttribute("uv",new aI(D,2));function y(){for(let k=0;k<I;k++)S(k);S(i===!1?I:0),w(),l()}function S(k){a=A.getPointAt(k/I,a);const U=Q.normals[k],f=Q.binormals[k];for(let F=0;F<=B;F++){const J=F/B*Math.PI*2,q=Math.sin(J),K=-Math.cos(J);e.x=K*U.x+q*f.x,e.y=K*U.y+q*f.y,e.z=K*U.z+q*f.z,e.normalize(),r.push(e.x,e.y,e.z),E.x=a.x+C*e.x,E.y=a.y+C*e.y,E.z=a.z+C*e.z,s.push(E.x,E.y,E.z)}}function l(){for(let k=1;k<=I;k++)for(let U=1;U<=B;U++){const f=(B+1)*(k-1)+(U-1),F=(B+1)*k+(U-1),J=(B+1)*k+U,q=(B+1)*(k-1)+U;c.push(f,F,q),c.push(F,J,q)}}function w(){for(let k=0;k<=I;k++)for(let U=0;U<=B;U++)n.x=k/I,n.y=U/B,D.push(n.x,n.y)}}copy(A){return super.copy(A),this.parameters=Object.assign({},A.parameters),this}toJSON(){const A=super.toJSON();return A.path=this.parameters.path.toJSON(),A}static fromJSON(A){return new qh(new Jl[A.path.type]().fromJSON(A.path),A.tubularSegments,A.radius,A.radialSegments,A.closed)}}class ER extends FI{constructor(A=null){if(super(),this.type="WireframeGeometry",this.parameters={geometry:A},A!==null){const I=[],C=new Set,B=new T,i=new T;if(A.index!==null){const Q=A.attributes.position,E=A.index;let e=A.groups;e.length===0&&(e=[{start:0,count:E.count,materialIndex:0}]);for(let n=0,a=e.length;n<a;++n){const s=e[n],r=s.start,D=s.count;for(let c=r,y=r+D;c<y;c+=3)for(let S=0;S<3;S++){const l=E.getX(c+S),w=E.getX(c+(S+1)%3);B.fromBufferAttribute(Q,l),i.fromBufferAttribute(Q,w),cp(B,i,C)===!0&&(I.push(B.x,B.y,B.z),I.push(i.x,i.y,i.z))}}}else{const Q=A.attributes.position;for(let E=0,e=Q.count/3;E<e;E++)for(let n=0;n<3;n++){const a=3*E+n,s=3*E+(n+1)%3;B.fromBufferAttribute(Q,a),i.fromBufferAttribute(Q,s),cp(B,i,C)===!0&&(I.push(B.x,B.y,B.z),I.push(i.x,i.y,i.z))}}this.setAttribute("position",new aI(I,3))}}copy(A){return super.copy(A),this.parameters=Object.assign({},A.parameters),this}}function cp(g,A,I){const C=`${g.x},${g.y},${g.z}-${A.x},${A.y},${A.z}`,B=`${A.x},${A.y},${A.z}-${g.x},${g.y},${g.z}`;return I.has(C)===!0||I.has(B)===!0?!1:(I.add(C),I.add(B),!0)}var Sp=Object.freeze({__proto__:null,BoxGeometry:It,CapsuleGeometry:Mh,CircleGeometry:uh,ConeGeometry:Uh,CylinderGeometry:Zo,DodecahedronGeometry:dh,EdgesGeometry:CR,ExtrudeGeometry:Nh,IcosahedronGeometry:Ds,LatheGeometry:rs,OctahedronGeometry:ls,PlaneGeometry:mE,PolyhedronGeometry:LE,RingGeometry:Fh,ShapeGeometry:Kh,SphereGeometry:hs,TetrahedronGeometry:Jh,TorusGeometry:Rh,TorusKnotGeometry:fh,TubeGeometry:qh,WireframeGeometry:ER});class eR extends BC{constructor(A){super(),this.isShadowMaterial=!0,this.type="ShadowMaterial",this.color=new VA(0),this.transparent=!0,this.fog=!0,this.setValues(A)}copy(A){return super.copy(A),this.color.copy(A.color),this.fog=A.fog,this}}class tR extends iB{constructor(A){super(A),this.isRawShaderMaterial=!0,this.type="RawShaderMaterial"}}class cs extends BC{constructor(A){super(),this.isMeshStandardMaterial=!0,this.defines={STANDARD:""},this.type="MeshStandardMaterial",this.color=new VA(16777215),this.roughness=1,this.metalness=0,this.map=null,this.lightMap=null,this.lightMapIntensity=1,this.aoMap=null,this.aoMapIntensity=1,this.emissive=new VA(0),this.emissiveIntensity=1,this.emissiveMap=null,this.bumpMap=null,this.bumpScale=1,this.normalMap=null,this.normalMapType=YE,this.normalScale=new pA(1,1),this.displacementMap=null,this.displacementScale=1,this.displacementBias=0,this.roughnessMap=null,this.metalnessMap=null,this.alphaMap=null,this.envMap=null,this.envMapRotation=new ZC,this.envMapIntensity=1,this.wireframe=!1,this.wireframeLinewidth=1,this.wireframeLinecap="round",this.wireframeLinejoin="round",this.flatShading=!1,this.fog=!0,this.setValues(A)}copy(A){return super.copy(A),this.defines={STANDARD:""},this.color.copy(A.color),this.roughness=A.roughness,this.metalness=A.metalness,this.map=A.map,this.lightMap=A.lightMap,this.lightMapIntensity=A.lightMapIntensity,this.aoMap=A.aoMap,this.aoMapIntensity=A.aoMapIntensity,this.emissive.copy(A.emissive),this.emissiveMap=A.emissiveMap,this.emissiveIntensity=A.emissiveIntensity,this.bumpMap=A.bumpMap,this.bumpScale=A.bumpScale,this.normalMap=A.normalMap,this.normalMapType=A.normalMapType,this.normalScale.copy(A.normalScale),this.displacementMap=A.displacementMap,this.displacementScale=A.displacementScale,this.displacementBias=A.displacementBias,this.roughnessMap=A.roughnessMap,this.metalnessMap=A.metalnessMap,this.alphaMap=A.alphaMap,this.envMap=A.envMap,this.envMapRotation.copy(A.envMapRotation),this.envMapIntensity=A.envMapIntensity,this.wireframe=A.wireframe,this.wireframeLinewidth=A.wireframeLinewidth,this.wireframeLinecap=A.wireframeLinecap,this.wireframeLinejoin=A.wireframeLinejoin,this.flatShading=A.flatShading,this.fog=A.fog,this}}class Ei extends cs{constructor(A){super(),this.isMeshPhysicalMaterial=!0,this.defines={STANDARD:"",PHYSICAL:""},this.type="MeshPhysicalMaterial",this.anisotropyRotation=0,this.anisotropyMap=null,this.clearcoatMap=null,this.clearcoatRoughness=0,this.clearcoatRoughnessMap=null,this.clearcoatNormalScale=new pA(1,1),this.clearcoatNormalMap=null,this.ior=1.5,Object.defineProperty(this,"reflectivity",{get:function(){return bg(2.5*(this.ior-1)/(this.ior+1),0,1)},set:function(I){this.ior=(1+.4*I)/(1-.4*I)}}),this.iridescenceMap=null,this.iridescenceIOR=1.3,this.iridescenceThicknessRange=[100,400],this.iridescenceThicknessMap=null,this.sheenColor=new VA(0),this.sheenColorMap=null,this.sheenRoughness=1,this.sheenRoughnessMap=null,this.transmissionMap=null,this.thickness=0,this.thicknessMap=null,this.attenuationDistance=1/0,this.attenuationColor=new VA(1,1,1),this.specularIntensity=1,this.specularIntensityMap=null,this.specularColor=new VA(1,1,1),this.specularColorMap=null,this._anisotropy=0,this._clearcoat=0,this._dispersion=0,this._iridescence=0,this._sheen=0,this._transmission=0,this.setValues(A)}get anisotropy(){return this._anisotropy}set anisotropy(A){this._anisotropy>0!=A>0&&this.version++,this._anisotropy=A}get clearcoat(){return this._clearcoat}set clearcoat(A){this._clearcoat>0!=A>0&&this.version++,this._clearcoat=A}get iridescence(){return this._iridescence}set iridescence(A){this._iridescence>0!=A>0&&this.version++,this._iridescence=A}get dispersion(){return this._dispersion}set dispersion(A){this._dispersion>0!=A>0&&this.version++,this._dispersion=A}get sheen(){return this._sheen}set sheen(A){this._sheen>0!=A>0&&this.version++,this._sheen=A}get transmission(){return this._transmission}set transmission(A){this._transmission>0!=A>0&&this.version++,this._transmission=A}copy(A){return super.copy(A),this.defines={STANDARD:"",PHYSICAL:""},this.anisotropy=A.anisotropy,this.anisotropyRotation=A.anisotropyRotation,this.anisotropyMap=A.anisotropyMap,this.clearcoat=A.clearcoat,this.clearcoatMap=A.clearcoatMap,this.clearcoatRoughness=A.clearcoatRoughness,this.clearcoatRoughnessMap=A.clearcoatRoughnessMap,this.clearcoatNormalMap=A.clearcoatNormalMap,this.clearcoatNormalScale.copy(A.clearcoatNormalScale),this.dispersion=A.dispersion,this.ior=A.ior,this.iridescence=A.iridescence,this.iridescenceMap=A.iridescenceMap,this.iridescenceIOR=A.iridescenceIOR,this.iridescenceThicknessRange=[...A.iridescenceThicknessRange],this.iridescenceThicknessMap=A.iridescenceThicknessMap,this.sheen=A.sheen,this.sheenColor.copy(A.sheenColor),this.sheenColorMap=A.sheenColorMap,this.sheenRoughness=A.sheenRoughness,this.sheenRoughnessMap=A.sheenRoughnessMap,this.transmission=A.transmission,this.transmissionMap=A.transmissionMap,this.thickness=A.thickness,this.thicknessMap=A.thicknessMap,this.attenuationDistance=A.attenuationDistance,this.attenuationColor.copy(A.attenuationColor),this.specularIntensity=A.specularIntensity,this.specularIntensityMap=A.specularIntensityMap,this.specularColor.copy(A.specularColor),this.specularColorMap=A.specularColorMap,this}}class oR extends BC{constructor(A){super(),this.isMeshPhongMaterial=!0,this.type="MeshPhongMaterial",this.color=new VA(16777215),this.specular=new VA(1118481),this.shininess=30,this.map=null,this.lightMap=null,this.lightMapIntensity=1,this.aoMap=null,this.aoMapIntensity=1,this.emissive=new VA(0),this.emissiveIntensity=1,this.emissiveMap=null,this.bumpMap=null,this.bumpScale=1,this.normalMap=null,this.normalMapType=YE,this.normalScale=new pA(1,1),this.displacementMap=null,this.displacementScale=1,this.displacementBias=0,this.specularMap=null,this.alphaMap=null,this.envMap=null,this.envMapRotation=new ZC,this.combine=Es,this.reflectivity=1,this.refractionRatio=.98,this.wireframe=!1,this.wireframeLinewidth=1,this.wireframeLinecap="round",this.wireframeLinejoin="round",this.flatShading=!1,this.fog=!0,this.setValues(A)}copy(A){return super.copy(A),this.color.copy(A.color),this.specular.copy(A.specular),this.shininess=A.shininess,this.map=A.map,this.lightMap=A.lightMap,this.lightMapIntensity=A.lightMapIntensity,this.aoMap=A.aoMap,this.aoMapIntensity=A.aoMapIntensity,this.emissive.copy(A.emissive),this.emissiveMap=A.emissiveMap,this.emissiveIntensity=A.emissiveIntensity,this.bumpMap=A.bumpMap,this.bumpScale=A.bumpScale,this.normalMap=A.normalMap,this.normalMapType=A.normalMapType,this.normalScale.copy(A.normalScale),this.displacementMap=A.displacementMap,this.displacementScale=A.displacementScale,this.displacementBias=A.displacementBias,this.specularMap=A.specularMap,this.alphaMap=A.alphaMap,this.envMap=A.envMap,this.envMapRotation.copy(A.envMapRotation),this.combine=A.combine,this.reflectivity=A.reflectivity,this.refractionRatio=A.refractionRatio,this.wireframe=A.wireframe,this.wireframeLinewidth=A.wireframeLinewidth,this.wireframeLinecap=A.wireframeLinecap,this.wireframeLinejoin=A.wireframeLinejoin,this.flatShading=A.flatShading,this.fog=A.fog,this}}class nR extends BC{constructor(A){super(),this.isMeshToonMaterial=!0,this.defines={TOON:""},this.type="MeshToonMaterial",this.color=new VA(16777215),this.map=null,this.gradientMap=null,this.lightMap=null,this.lightMapIntensity=1,this.aoMap=null,this.aoMapIntensity=1,this.emissive=new VA(0),this.emissiveIntensity=1,this.emissiveMap=null,this.bumpMap=null,this.bumpScale=1,this.normalMap=null,this.normalMapType=YE,this.normalScale=new pA(1,1),this.displacementMap=null,this.displacementScale=1,this.displacementBias=0,this.alphaMap=null,this.wireframe=!1,this.wireframeLinewidth=1,this.wireframeLinecap="round",this.wireframeLinejoin="round",this.fog=!0,this.setValues(A)}copy(A){return super.copy(A),this.color.copy(A.color),this.map=A.map,this.gradientMap=A.gradientMap,this.lightMap=A.lightMap,this.lightMapIntensity=A.lightMapIntensity,this.aoMap=A.aoMap,this.aoMapIntensity=A.aoMapIntensity,this.emissive.copy(A.emissive),this.emissiveMap=A.emissiveMap,this.emissiveIntensity=A.emissiveIntensity,this.bumpMap=A.bumpMap,this.bumpScale=A.bumpScale,this.normalMap=A.normalMap,this.normalMapType=A.normalMapType,this.normalScale.copy(A.normalScale),this.displacementMap=A.displacementMap,this.displacementScale=A.displacementScale,this.displacementBias=A.displacementBias,this.alphaMap=A.alphaMap,this.wireframe=A.wireframe,this.wireframeLinewidth=A.wireframeLinewidth,this.wireframeLinecap=A.wireframeLinecap,this.wireframeLinejoin=A.wireframeLinejoin,this.fog=A.fog,this}}class aR extends BC{constructor(A){super(),this.isMeshNormalMaterial=!0,this.type="MeshNormalMaterial",this.bumpMap=null,this.bumpScale=1,this.normalMap=null,this.normalMapType=YE,this.normalScale=new pA(1,1),this.displacementMap=null,this.displacementScale=1,this.displacementBias=0,this.wireframe=!1,this.wireframeLinewidth=1,this.flatShading=!1,this.setValues(A)}copy(A){return super.copy(A),this.bumpMap=A.bumpMap,this.bumpScale=A.bumpScale,this.normalMap=A.normalMap,this.normalMapType=A.normalMapType,this.normalScale.copy(A.normalScale),this.displacementMap=A.displacementMap,this.displacementScale=A.displacementScale,this.displacementBias=A.displacementBias,this.wireframe=A.wireframe,this.wireframeLinewidth=A.wireframeLinewidth,this.flatShading=A.flatShading,this}}class sR extends BC{constructor(A){super(),this.isMeshLambertMaterial=!0,this.type="MeshLambertMaterial",this.color=new VA(16777215),this.map=null,this.lightMap=null,this.lightMapIntensity=1,this.aoMap=null,this.aoMapIntensity=1,this.emissive=new VA(0),this.emissiveIntensity=1,this.emissiveMap=null,this.bumpMap=null,this.bumpScale=1,this.normalMap=null,this.normalMapType=YE,this.normalScale=new pA(1,1),this.displacementMap=null,this.displacementScale=1,this.displacementBias=0,this.specularMap=null,this.alphaMap=null,this.envMap=null,this.envMapRotation=new ZC,this.combine=Es,this.reflectivity=1,this.refractionRatio=.98,this.wireframe=!1,this.wireframeLinewidth=1,this.wireframeLinecap="round",this.wireframeLinejoin="round",this.flatShading=!1,this.fog=!0,this.setValues(A)}copy(A){return super.copy(A),this.color.copy(A.color),this.map=A.map,this.lightMap=A.lightMap,this.lightMapIntensity=A.lightMapIntensity,this.aoMap=A.aoMap,this.aoMapIntensity=A.aoMapIntensity,this.emissive.copy(A.emissive),this.emissiveMap=A.emissiveMap,this.emissiveIntensity=A.emissiveIntensity,this.bumpMap=A.bumpMap,this.bumpScale=A.bumpScale,this.normalMap=A.normalMap,this.normalMapType=A.normalMapType,this.normalScale.copy(A.normalScale),this.displacementMap=A.displacementMap,this.displacementScale=A.displacementScale,this.displacementBias=A.displacementBias,this.specularMap=A.specularMap,this.alphaMap=A.alphaMap,this.envMap=A.envMap,this.envMapRotation.copy(A.envMapRotation),this.combine=A.combine,this.reflectivity=A.reflectivity,this.refractionRatio=A.refractionRatio,this.wireframe=A.wireframe,this.wireframeLinewidth=A.wireframeLinewidth,this.wireframeLinecap=A.wireframeLinecap,this.wireframeLinejoin=A.wireframeLinejoin,this.flatShading=A.flatShading,this.fog=A.fog,this}}class rR extends BC{constructor(A){super(),this.isMeshMatcapMaterial=!0,this.defines={MATCAP:""},this.type="MeshMatcapMaterial",this.color=new VA(16777215),this.matcap=null,this.map=null,this.bumpMap=null,this.bumpScale=1,this.normalMap=null,this.normalMapType=YE,this.normalScale=new pA(1,1),this.displacementMap=null,this.displacementScale=1,this.displacementBias=0,this.alphaMap=null,this.flatShading=!1,this.fog=!0,this.setValues(A)}copy(A){return super.copy(A),this.defines={MATCAP:""},this.color.copy(A.color),this.matcap=A.matcap,this.map=A.map,this.bumpMap=A.bumpMap,this.bumpScale=A.bumpScale,this.normalMap=A.normalMap,this.normalMapType=A.normalMapType,this.normalScale.copy(A.normalScale),this.displacementMap=A.displacementMap,this.displacementScale=A.displacementScale,this.displacementBias=A.displacementBias,this.alphaMap=A.alphaMap,this.flatShading=A.flatShading,this.fog=A.fog,this}}class DR extends PC{constructor(A){super(),this.isLineDashedMaterial=!0,this.type="LineDashedMaterial",this.scale=1,this.dashSize=3,this.gapSize=1,this.setValues(A)}copy(A){return super.copy(A),this.scale=A.scale,this.dashSize=A.dashSize,this.gapSize=A.gapSize,this}}function ue(g,A,I){return!g||!I&&g.constructor===A?g:typeof A.BYTES_PER_ELEMENT=="number"?new A(g):Array.prototype.slice.call(g)}function lR(g){return ArrayBuffer.isView(g)&&!(g instanceof DataView)}function hR(g){function A(B,i){return g[B]-g[i]}const I=g.length,C=new Array(I);for(let B=0;B!==I;++B)C[B]=B;return C.sort(A),C}function My(g,A,I){const C=g.length,B=new g.constructor(C);for(let i=0,Q=0;Q!==C;++i){const E=I[i]*A;for(let e=0;e!==A;++e)B[Q++]=g[E+e]}return B}function nM(g,A,I,C){let B=1,i=g[0];for(;i!==void 0&&i[C]===void 0;)i=g[B++];if(i===void 0)return;let Q=i[C];if(Q!==void 0)if(Array.isArray(Q))do Q=i[C],Q!==void 0&&(A.push(i.time),I.push.apply(I,Q)),i=g[B++];while(i!==void 0);else if(Q.toArray!==void 0)do Q=i[C],Q!==void 0&&(A.push(i.time),Q.toArray(I,I.length)),i=g[B++];while(i!==void 0);else do Q=i[C],Q!==void 0&&(A.push(i.time),I.push(Q)),i=g[B++];while(i!==void 0)}function ZO(g,A,I,C,B=30){const i=g.clone();i.name=A;const Q=[];for(let e=0;e<i.tracks.length;++e){const n=i.tracks[e],a=n.getValueSize(),s=[],r=[];for(let D=0;D<n.times.length;++D){const c=n.times[D]*B;if(!(c<I||c>=C)){s.push(n.times[D]);for(let y=0;y<a;++y)r.push(n.values[D*a+y])}}s.length!==0&&(n.times=ue(s,n.times.constructor),n.values=ue(r,n.values.constructor),Q.push(n))}i.tracks=Q;let E=1/0;for(let e=0;e<i.tracks.length;++e)E>i.tracks[e].times[0]&&(E=i.tracks[e].times[0]);for(let e=0;e<i.tracks.length;++e)i.tracks[e].shift(-1*E);return i.resetDuration(),i}function PO(g,A=0,I=g,C=30){C<=0&&(C=30);const B=I.tracks.length,i=A/C;for(let Q=0;Q<B;++Q){const E=I.tracks[Q],e=E.ValueTypeName;if(e==="bool"||e==="string")continue;const n=g.tracks.find(function(l){return l.name===E.name&&l.ValueTypeName===e});if(n===void 0)continue;let 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FC(this.manager);e.setPath(this.path),e.setResponseType("arraybuffer"),e.setRequestHeader(this.requestHeader),e.setWithCredentials(i.withCredentials);let n=0;function a(s){e.load(A[s],function(r){const D=i.parse(r,!0);Q[s]={width:D.width,height:D.height,format:D.format,mipmaps:D.mipmaps},n+=1,n===6&&(D.mipmapCount===1&&(E.minFilter=tg),E.image=Q,E.format=D.format,E.needsUpdate=!0,I&&I(E))},C,B)}if(Array.isArray(A))for(let s=0,r=A.length;s<r;++s)a(s);else e.load(A,function(s){const r=i.parse(s,!0);if(r.isCubemap){const D=r.mipmaps.length/r.mipmapCount;for(let c=0;c<D;c++){Q[c]={mipmaps:[]};for(let y=0;y<r.mipmapCount;y++)Q[c].mipmaps.push(r.mipmaps[c*r.mipmapCount+y]),Q[c].format=r.format,Q[c].width=r.width,Q[c].height=r.height}E.image=Q}else E.image.width=r.width,E.image.height=r.height,E.mipmaps=r.mipmaps;r.mipmapCount===1&&(E.minFilter=tg),E.format=r.format,E.needsUpdate=!0,I&&I(E)},C,B);return E}}class Za extends JC{constructor(A){super(A)}load(A,I,C,B){this.path!==void 0&&(A=this.path+A),A=this.manager.resolveURL(A);const i=this,Q=yQ.get(A);if(Q!==void 0)return i.manager.itemStart(A),setTimeout(function(){I&&I(Q),i.manager.itemEnd(A)},0),Q;const E=xa("img");function e(){a(),yQ.add(A,this),I&&I(this),i.manager.itemEnd(A)}function n(s){a(),B&&B(s),i.manager.itemError(A),i.manager.itemEnd(A)}function a(){E.removeEventListener("load",e,!1),E.removeEventListener("error",n,!1)}return E.addEventListener("load",e,!1),E.addEventListener("error",n,!1),A.slice(0,5)!=="data:"&&this.crossOrigin!==void 0&&(E.crossOrigin=this.crossOrigin),i.manager.itemStart(A),E.src=A,E}}class yR extends JC{constructor(A){super(A)}load(A,I,C,B){const i=new os;i.colorSpace=UB;const Q=new Za(this.manager);Q.setCrossOrigin(this.crossOrigin),Q.setPath(this.path);let E=0;function e(n){Q.load(A[n],function(a){i.images[n]=a,E++,E===6&&(i.needsUpdate=!0,I&&I(i))},void 0,B)}for(let n=0;n<A.length;++n)e(n);return i}}class rM extends JC{constructor(A){super(A)}load(A,I,C,B){const i=this,Q=new ji,E=new FC(this.manager);return E.setResponseType("arraybuffer"),E.setRequestHeader(this.requestHeader),E.setPath(this.path),E.setWithCredentials(i.withCredentials),E.load(A,function(e){let n;try{n=i.parse(e)}catch(a){if(B!==void 0)B(a);else{console.error(a);return}}n.image!==void 0?Q.image=n.image:n.data!==void 0&&(Q.image.width=n.width,Q.image.height=n.height,Q.image.data=n.data),Q.wrapS=n.wrapS!==void 0?n.wrapS:Vg,Q.wrapT=n.wrapT!==void 0?n.wrapT:Vg,Q.magFilter=n.magFilter!==void 0?n.magFilter:tg,Q.minFilter=n.minFilter!==void 0?n.minFilter:tg,Q.anisotropy=n.anisotropy!==void 0?n.anisotropy:1,n.colorSpace!==void 0&&(Q.colorSpace=n.colorSpace),n.flipY!==void 0&&(Q.flipY=n.flipY),n.format!==void 0&&(Q.format=n.format),n.type!==void 0&&(Q.type=n.type),n.mipmaps!==void 0&&(Q.mipmaps=n.mipmaps,Q.minFilter=Ii),n.mipmapCount===1&&(Q.minFilter=tg),n.generateMipmaps!==void 0&&(Q.generateMipmaps=n.generateMipmaps),Q.needsUpdate=!0,I&&I(Q,n)},C,B),Q}}class Ss extends JC{constructor(A){super(A)}load(A,I,C,B){const i=new Ig,Q=new Za(this.manager);return Q.setCrossOrigin(this.crossOrigin),Q.setPath(this.path),Q.load(A,function(E){i.image=E,i.needsUpdate=!0,I!==void 0&&I(i)},C,B),i}}class HE extends VI{constructor(A,I=1){super(),this.isLight=!0,this.type="Light",this.color=new VA(A),this.intensity=I}dispose(){}copy(A,I){return super.copy(A,I),this.color.copy(A.color),this.intensity=A.intensity,this}toJSON(A){const I=super.toJSON(A);return I.object.color=this.color.getHex(),I.object.intensity=this.intensity,this.groundColor!==void 0&&(I.object.groundColor=this.groundColor.getHex()),this.distance!==void 0&&(I.object.distance=this.distance),this.angle!==void 0&&(I.object.angle=this.angle),this.decay!==void 0&&(I.object.decay=this.decay),this.penumbra!==void 0&&(I.object.penumbra=this.penumbra),this.shadow!==void 0&&(I.object.shadow=this.shadow.toJSON()),I}}class kR extends HE{constructor(A,I,C){super(A,C),this.isHemisphereLight=!0,this.type="HemisphereLight",this.position.copy(VI.DEFAULT_UP),this.updateMatrix(),this.groundColor=new VA(I)}copy(A,I){return super.copy(A,I),this.groundColor.copy(A.groundColor),this}}const Gw=new hI,wp=new T,Gp=new T;class DM{constructor(A){this.camera=A,this.bias=0,this.normalBias=0,this.radius=1,this.blurSamples=8,this.mapSize=new pA(512,512),this.map=null,this.mapPass=null,this.matrix=new hI,this.autoUpdate=!0,this.needsUpdate=!1,this._frustum=new ns,this._frameExtents=new pA(1,1),this._viewportCount=1,this._viewports=[new Dg(0,0,1,1)]}getViewportCount(){return this._viewportCount}getFrustum(){return this._frustum}updateMatrices(A){const I=this.camera,C=this.matrix;wp.setFromMatrixPosition(A.matrixWorld),I.position.copy(wp),Gp.setFromMatrixPosition(A.target.matrixWorld),I.lookAt(Gp),I.updateMatrixWorld(),Gw.multiplyMatrices(I.projectionMatrix,I.matrixWorldInverse),this._frustum.setFromProjectionMatrix(Gw),C.set(.5,0,0,.5,0,.5,0,.5,0,0,.5,.5,0,0,0,1),C.multiply(Gw)}getViewport(A){return this._viewports[A]}getFrameExtents(){return this._frameExtents}dispose(){this.map&&this.map.dispose(),this.mapPass&&this.mapPass.dispose()}copy(A){return this.camera=A.camera.clone(),this.bias=A.bias,this.radius=A.radius,this.mapSize.copy(A.mapSize),this}clone(){return new this.constructor().copy(this)}toJSON(){const A={};return this.bias!==0&&(A.bias=this.bias),this.normalBias!==0&&(A.normalBias=this.normalBias),this.radius!==1&&(A.radius=this.radius),(this.mapSize.x!==512||this.mapSize.y!==512)&&(A.mapSize=this.mapSize.toArray()),A.camera=this.camera.toJSON(!1).object,delete A.camera.matrix,A}}class Ab extends DM{constructor(){super(new eC(50,1,.5,500)),this.isSpotLightShadow=!0,this.focus=1}updateMatrices(A){const I=this.camera,C=Jo*2*A.angle*this.focus,B=this.mapSize.width/this.mapSize.height,i=A.distance||I.far;(C!==I.fov||B!==I.aspect||i!==I.far)&&(I.fov=C,I.aspect=B,I.far=i,I.updateProjectionMatrix()),super.updateMatrices(A)}copy(A){return super.copy(A),this.focus=A.focus,this}}class lM extends HE{constructor(A,I,C=0,B=Math.PI/3,i=0,Q=2){super(A,I),this.isSpotLight=!0,this.type="SpotLight",this.position.copy(VI.DEFAULT_UP),this.updateMatrix(),this.target=new VI,this.distance=C,this.angle=B,this.penumbra=i,this.decay=Q,this.map=null,this.shadow=new Ab}get power(){return this.intensity*Math.PI}set power(A){this.intensity=A/Math.PI}dispose(){this.shadow.dispose()}copy(A,I){return super.copy(A,I),this.distance=A.distance,this.angle=A.angle,this.penumbra=A.penumbra,this.decay=A.decay,this.target=A.target.clone(),this.shadow=A.shadow.clone(),this}}const yp=new hI,mn=new T,yw=new T;class Ib extends DM{constructor(){super(new eC(90,1,.5,500)),this.isPointLightShadow=!0,this._frameExtents=new pA(4,2),this._viewportCount=6,this._viewports=[new Dg(2,1,1,1),new Dg(0,1,1,1),new Dg(3,1,1,1),new Dg(1,1,1,1),new Dg(3,0,1,1),new Dg(1,0,1,1)],this._cubeDirections=[new T(1,0,0),new T(-1,0,0),new T(0,0,1),new T(0,0,-1),new T(0,1,0),new T(0,-1,0)],this._cubeUps=[new T(0,1,0),new T(0,1,0),new T(0,1,0),new T(0,1,0),new T(0,0,1),new T(0,0,-1)]}updateMatrices(A,I=0){const C=this.camera,B=this.matrix,i=A.distance||C.far;i!==C.far&&(C.far=i,C.updateProjectionMatrix()),mn.setFromMatrixPosition(A.matrixWorld),C.position.copy(mn),yw.copy(C.position),yw.add(this._cubeDirections[I]),C.up.copy(this._cubeUps[I]),C.lookAt(yw),C.updateMatrixWorld(),B.makeTranslation(-mn.x,-mn.y,-mn.z),yp.multiplyMatrices(C.projectionMatrix,C.matrixWorldInverse),this._frustum.setFromProjectionMatrix(yp)}}class hM extends HE{constructor(A,I,C=0,B=2){super(A,I),this.isPointLight=!0,this.type="PointLight",this.distance=C,this.decay=B,this.shadow=new Ib}get power(){return this.intensity*4*Math.PI}set power(A){this.intensity=A/(4*Math.PI)}dispose(){this.shadow.dispose()}copy(A,I){return super.copy(A,I),this.distance=A.distance,this.decay=A.decay,this.shadow=A.shadow.clone(),this}}class gb extends DM{constructor(){super(new gt(-5,5,5,-5,.5,500)),this.isDirectionalLightShadow=!0}}class cM extends HE{constructor(A,I){super(A,I),this.isDirectionalLight=!0,this.type="DirectionalLight",this.position.copy(VI.DEFAULT_UP),this.updateMatrix(),this.target=new VI,this.shadow=new gb}dispose(){this.shadow.dispose()}copy(A){return super.copy(A),this.target=A.target.clone(),this.shadow=A.shadow.clone(),this}}class MR extends HE{constructor(A,I){super(A,I),this.isAmbientLight=!0,this.type="AmbientLight"}}class uR extends HE{constructor(A,I,C=10,B=10){super(A,I),this.isRectAreaLight=!0,this.type="RectAreaLight",this.width=C,this.height=B}get power(){return this.intensity*this.width*this.height*Math.PI}set power(A){this.intensity=A/(this.width*this.height*Math.PI)}copy(A){return super.copy(A),this.width=A.width,this.height=A.height,this}toJSON(A){const I=super.toJSON(A);return I.object.width=this.width,I.object.height=this.height,I}}class UR{constructor(){this.isSphericalHarmonics3=!0,this.coefficients=[];for(let A=0;A<9;A++)this.coefficients.push(new T)}set(A){for(let I=0;I<9;I++)this.coefficients[I].copy(A[I]);return this}zero(){for(let A=0;A<9;A++)this.coefficients[A].set(0,0,0);return this}getAt(A,I){const C=A.x,B=A.y,i=A.z,Q=this.coefficients;return I.copy(Q[0]).multiplyScalar(.282095),I.addScaledVector(Q[1],.488603*B),I.addScaledVector(Q[2],.488603*i),I.addScaledVector(Q[3],.488603*C),I.addScaledVector(Q[4],1.092548*(C*B)),I.addScaledVector(Q[5],1.092548*(B*i)),I.addScaledVector(Q[6],.315392*(3*i*i-1)),I.addScaledVector(Q[7],1.092548*(C*i)),I.addScaledVector(Q[8],.546274*(C*C-B*B)),I}getIrradianceAt(A,I){const C=A.x,B=A.y,i=A.z,Q=this.coefficients;return I.copy(Q[0]).multiplyScalar(.886227),I.addScaledVector(Q[1],2*.511664*B),I.addScaledVector(Q[2],2*.511664*i),I.addScaledVector(Q[3],2*.511664*C),I.addScaledVector(Q[4],2*.429043*C*B),I.addScaledVector(Q[5],2*.429043*B*i),I.addScaledVector(Q[6],.743125*i*i-.247708),I.addScaledVector(Q[7],2*.429043*C*i),I.addScaledVector(Q[8],.429043*(C*C-B*B)),I}add(A){for(let I=0;I<9;I++)this.coefficients[I].add(A.coefficients[I]);return this}addScaledSH(A,I){for(let C=0;C<9;C++)this.coefficients[C].addScaledVector(A.coefficients[C],I);return this}scale(A){for(let I=0;I<9;I++)this.coefficients[I].multiplyScalar(A);return this}lerp(A,I){for(let C=0;C<9;C++)this.coefficients[C].lerp(A.coefficients[C],I);return this}equals(A){for(let I=0;I<9;I++)if(!this.coefficients[I].equals(A.coefficients[I]))return!1;return!0}copy(A){return this.set(A.coefficients)}clone(){return new this.constructor().copy(this)}fromArray(A,I=0){const C=this.coefficients;for(let B=0;B<9;B++)C[B].fromArray(A,I+B*3);return this}toArray(A=[],I=0){const C=this.coefficients;for(let B=0;B<9;B++)C[B].toArray(A,I+B*3);return A}static getBasisAt(A,I){const C=A.x,B=A.y,i=A.z;I[0]=.282095,I[1]=.488603*B,I[2]=.488603*i,I[3]=.488603*C,I[4]=1.092548*C*B,I[5]=1.092548*B*i,I[6]=.315392*(3*i*i-1),I[7]=1.092548*C*i,I[8]=.546274*(C*C-B*B)}}class dR extends HE{constructor(A=new UR,I=1){super(void 0,I),this.isLightProbe=!0,this.sh=A}copy(A){return super.copy(A),this.sh.copy(A.sh),this}fromJSON(A){return this.intensity=A.intensity,this.sh.fromArray(A.sh),this}toJSON(A){const I=super.toJSON(A);return I.object.sh=this.sh.toArray(),I}}class mh extends JC{constructor(A){super(A),this.textures={}}load(A,I,C,B){const i=this,Q=new FC(i.manager);Q.setPath(i.path),Q.setRequestHeader(i.requestHeader),Q.setWithCredentials(i.withCredentials),Q.load(A,function(E){try{I(i.parse(JSON.parse(E)))}catch(e){B?B(e):console.error(e),i.manager.itemError(A)}},C,B)}parse(A){const I=this.textures;function C(i){return I[i]===void 0&&console.warn("THREE.MaterialLoader: Undefined texture",i),I[i]}const B=mh.createMaterialFromType(A.type);if(A.uuid!==void 0&&(B.uuid=A.uuid),A.name!==void 0&&(B.name=A.name),A.color!==void 0&&B.color!==void 0&&B.color.setHex(A.color),A.roughness!==void 0&&(B.roughness=A.roughness),A.metalness!==void 0&&(B.metalness=A.metalness),A.sheen!==void 0&&(B.sheen=A.sheen),A.sheenColor!==void 0&&(B.sheenColor=new VA().setHex(A.sheenColor)),A.sheenRoughness!==void 0&&(B.sheenRoughness=A.sheenRoughness),A.emissive!==void 0&&B.emissive!==void 0&&B.emissive.setHex(A.emissive),A.specular!==void 0&&B.specular!==void 0&&B.specular.setHex(A.specular),A.specularIntensity!==void 0&&(B.specularIntensity=A.specularIntensity),A.specularColor!==void 0&&B.specularColor!==void 0&&B.specularColor.setHex(A.specularColor),A.shininess!==void 0&&(B.shininess=A.shininess),A.clearcoat!==void 0&&(B.clearcoat=A.clearcoat),A.clearcoatRoughness!==void 0&&(B.clearcoatRoughness=A.clearcoatRoughness),A.dispersion!==void 0&&(B.dispersion=A.dispersion),A.iridescence!==void 0&&(B.iridescence=A.iridescence),A.iridescenceIOR!==void 0&&(B.iridescenceIOR=A.iridescenceIOR),A.iridescenceThicknessRange!==void 0&&(B.iridescenceThicknessRange=A.iridescenceThicknessRange),A.transmission!==void 0&&(B.transmission=A.transmission),A.thickness!==void 0&&(B.thickness=A.thickness),A.attenuationDistance!==void 0&&(B.attenuationDistance=A.attenuationDistance),A.attenuationColor!==void 0&&B.attenuationColor!==void 0&&B.attenuationColor.setHex(A.attenuationColor),A.anisotropy!==void 0&&(B.anisotropy=A.anisotropy),A.anisotropyRotation!==void 0&&(B.anisotropyRotation=A.anisotropyRotation),A.fog!==void 0&&(B.fog=A.fog),A.flatShading!==void 0&&(B.flatShading=A.flatShading),A.blending!==void 0&&(B.blending=A.blending),A.combine!==void 0&&(B.combine=A.combine),A.side!==void 0&&(B.side=A.side),A.shadowSide!==void 0&&(B.shadowSide=A.shadowSide),A.opacity!==void 0&&(B.opacity=A.opacity),A.transparent!==void 0&&(B.transparent=A.transparent),A.alphaTest!==void 0&&(B.alphaTest=A.alphaTest),A.alphaHash!==void 0&&(B.alphaHash=A.alphaHash),A.depthFunc!==void 0&&(B.depthFunc=A.depthFunc),A.depthTest!==void 0&&(B.depthTest=A.depthTest),A.depthWrite!==void 0&&(B.depthWrite=A.depthWrite),A.colorWrite!==void 0&&(B.colorWrite=A.colorWrite),A.blendSrc!==void 0&&(B.blendSrc=A.blendSrc),A.blendDst!==void 0&&(B.blendDst=A.blendDst),A.blendEquation!==void 0&&(B.blendEquation=A.blendEquation),A.blendSrcAlpha!==void 0&&(B.blendSrcAlpha=A.blendSrcAlpha),A.blendDstAlpha!==void 0&&(B.blendDstAlpha=A.blendDstAlpha),A.blendEquationAlpha!==void 0&&(B.blendEquationAlpha=A.blendEquationAlpha),A.blendColor!==void 0&&B.blendColor!==void 0&&B.blendColor.setHex(A.blendColor),A.blendAlpha!==void 0&&(B.blendAlpha=A.blendAlpha),A.stencilWriteMask!==void 0&&(B.stencilWriteMask=A.stencilWriteMask),A.stencilFunc!==void 0&&(B.stencilFunc=A.stencilFunc),A.stencilRef!==void 0&&(B.stencilRef=A.stencilRef),A.stencilFuncMask!==void 0&&(B.stencilFuncMask=A.stencilFuncMask),A.stencilFail!==void 0&&(B.stencilFail=A.stencilFail),A.stencilZFail!==void 0&&(B.stencilZFail=A.stencilZFail),A.stencilZPass!==void 0&&(B.stencilZPass=A.stencilZPass),A.stencilWrite!==void 0&&(B.stencilWrite=A.stencilWrite),A.wireframe!==void 0&&(B.wireframe=A.wireframe),A.wireframeLinewidth!==void 0&&(B.wireframeLinewidth=A.wireframeLinewidth),A.wireframeLinecap!==void 0&&(B.wireframeLinecap=A.wireframeLinecap),A.wireframeLinejoin!==void 0&&(B.wireframeLinejoin=A.wireframeLinejoin),A.rotation!==void 0&&(B.rotation=A.rotation),A.linewidth!==void 0&&(B.linewidth=A.linewidth),A.dashSize!==void 0&&(B.dashSize=A.dashSize),A.gapSize!==void 0&&(B.gapSize=A.gapSize),A.scale!==void 0&&(B.scale=A.scale),A.polygonOffset!==void 0&&(B.polygonOffset=A.polygonOffset),A.polygonOffsetFactor!==void 0&&(B.polygonOffsetFactor=A.polygonOffsetFactor),A.polygonOffsetUnits!==void 0&&(B.polygonOffsetUnits=A.polygonOffsetUnits),A.dithering!==void 0&&(B.dithering=A.dithering),A.alphaToCoverage!==void 0&&(B.alphaToCoverage=A.alphaToCoverage),A.premultipliedAlpha!==void 0&&(B.premultipliedAlpha=A.premultipliedAlpha),A.forceSinglePass!==void 0&&(B.forceSinglePass=A.forceSinglePass),A.visible!==void 0&&(B.visible=A.visible),A.toneMapped!==void 0&&(B.toneMapped=A.toneMapped),A.userData!==void 0&&(B.userData=A.userData),A.vertexColors!==void 0&&(typeof A.vertexColors=="number"?B.vertexColors=A.vertexColors>0:B.vertexColors=A.vertexColors),A.uniforms!==void 0)for(const i in A.uniforms){const Q=A.uniforms[i];switch(B.uniforms[i]={},Q.type){case"t":B.uniforms[i].value=C(Q.value);break;case"c":B.uniforms[i].value=new VA().setHex(Q.value);break;case"v2":B.uniforms[i].value=new pA().fromArray(Q.value);break;case"v3":B.uniforms[i].value=new T().fromArray(Q.value);break;case"v4":B.uniforms[i].value=new Dg().fromArray(Q.value);break;case"m3":B.uniforms[i].value=new YI().fromArray(Q.value);break;case"m4":B.uniforms[i].value=new hI().fromArray(Q.value);break;default:B.uniforms[i].value=Q.value}}if(A.defines!==void 0&&(B.defines=A.defines),A.vertexShader!==void 0&&(B.vertexShader=A.vertexShader),A.fragmentShader!==void 0&&(B.fragmentShader=A.fragmentShader),A.glslVersion!==void 0&&(B.glslVersion=A.glslVersion),A.extensions!==void 0)for(const i in A.extensions)B.extensions[i]=A.extensions[i];if(A.lights!==void 0&&(B.lights=A.lights),A.clipping!==void 0&&(B.clipping=A.clipping),A.size!==void 0&&(B.size=A.size),A.sizeAttenuation!==void 0&&(B.sizeAttenuation=A.sizeAttenuation),A.map!==void 0&&(B.map=C(A.map)),A.matcap!==void 0&&(B.matcap=C(A.matcap)),A.alphaMap!==void 0&&(B.alphaMap=C(A.alphaMap)),A.bumpMap!==void 0&&(B.bumpMap=C(A.bumpMap)),A.bumpScale!==void 0&&(B.bumpScale=A.bumpScale),A.normalMap!==void 0&&(B.normalMap=C(A.normalMap)),A.normalMapType!==void 0&&(B.normalMapType=A.normalMapType),A.normalScale!==void 0){let i=A.normalScale;Array.isArray(i)===!1&&(i=[i,i]),B.normalScale=new pA().fromArray(i)}return A.displacementMap!==void 0&&(B.displacementMap=C(A.displacementMap)),A.displacementScale!==void 0&&(B.displacementScale=A.displacementScale),A.displacementBias!==void 0&&(B.displacementBias=A.displacementBias),A.roughnessMap!==void 0&&(B.roughnessMap=C(A.roughnessMap)),A.metalnessMap!==void 0&&(B.metalnessMap=C(A.metalnessMap)),A.emissiveMap!==void 0&&(B.emissiveMap=C(A.emissiveMap)),A.emissiveIntensity!==void 0&&(B.emissiveIntensity=A.emissiveIntensity),A.specularMap!==void 0&&(B.specularMap=C(A.specularMap)),A.specularIntensityMap!==void 0&&(B.specularIntensityMap=C(A.specularIntensityMap)),A.specularColorMap!==void 0&&(B.specularColorMap=C(A.specularColorMap)),A.envMap!==void 0&&(B.envMap=C(A.envMap)),A.envMapRotation!==void 0&&B.envMapRotation.fromArray(A.envMapRotation),A.envMapIntensity!==void 0&&(B.envMapIntensity=A.envMapIntensity),A.reflectivity!==void 0&&(B.reflectivity=A.reflectivity),A.refractionRatio!==void 0&&(B.refractionRatio=A.refractionRatio),A.lightMap!==void 0&&(B.lightMap=C(A.lightMap)),A.lightMapIntensity!==void 0&&(B.lightMapIntensity=A.lightMapIntensity),A.aoMap!==void 0&&(B.aoMap=C(A.aoMap)),A.aoMapIntensity!==void 0&&(B.aoMapIntensity=A.aoMapIntensity),A.gradientMap!==void 0&&(B.gradientMap=C(A.gradientMap)),A.clearcoatMap!==void 0&&(B.clearcoatMap=C(A.clearcoatMap)),A.clearcoatRoughnessMap!==void 0&&(B.clearcoatRoughnessMap=C(A.clearcoatRoughnessMap)),A.clearcoatNormalMap!==void 0&&(B.clearcoatNormalMap=C(A.clearcoatNormalMap)),A.clearcoatNormalScale!==void 0&&(B.clearcoatNormalScale=new pA().fromArray(A.clearcoatNormalScale)),A.iridescenceMap!==void 0&&(B.iridescenceMap=C(A.iridescenceMap)),A.iridescenceThicknessMap!==void 0&&(B.iridescenceThicknessMap=C(A.iridescenceThicknessMap)),A.transmissionMap!==void 0&&(B.transmissionMap=C(A.transmissionMap)),A.thicknessMap!==void 0&&(B.thicknessMap=C(A.thicknessMap)),A.anisotropyMap!==void 0&&(B.anisotropyMap=C(A.anisotropyMap)),A.sheenColorMap!==void 0&&(B.sheenColorMap=C(A.sheenColorMap)),A.sheenRoughnessMap!==void 0&&(B.sheenRoughnessMap=C(A.sheenRoughnessMap)),B}setTextures(A){return this.textures=A,this}static createMaterialFromType(A){const I={ShadowMaterial:eR,SpriteMaterial:$k,RawShaderMaterial:tR,ShaderMaterial:iB,PointsMaterial:Gh,MeshPhysicalMaterial:Ei,MeshStandardMaterial:cs,MeshPhongMaterial:oR,MeshToonMaterial:nR,MeshNormalMaterial:aR,MeshLambertMaterial:sR,MeshDepthMaterial:jk,MeshDistanceMaterial:zk,MeshBasicMaterial:rB,MeshMatcapMaterial:rR,LineDashedMaterial:DR,LineBasicMaterial:PC,Material:BC};return new I[A]}}class kE{static decodeText(A){if(console.warn("THREE.LoaderUtils: decodeText() has been deprecated with r165 and will be removed with r175. Use TextDecoder instead."),typeof TextDecoder<"u")return new TextDecoder().decode(A);let I="";for(let C=0,B=A.length;C<B;C++)I+=String.fromCharCode(A[C]);try{return decodeURIComponent(escape(I))}catch{return I}}static extractUrlBase(A){const I=A.lastIndexOf("/");return I===-1?"./":A.slice(0,I+1)}static resolveURL(A,I){return typeof A!="string"||A===""?"":(/^https?:\/\//i.test(I)&&/^\//.test(A)&&(I=I.replace(/(^https?:\/\/[^\/]+).*/i,"$1")),/^(https?:)?\/\//i.test(A)||/^data:.*,.*$/i.test(A)||/^blob:.*$/i.test(A)?A:I+A)}}class pR extends FI{constructor(){super(),this.isInstancedBufferGeometry=!0,this.type="InstancedBufferGeometry",this.instanceCount=1/0}copy(A){return super.copy(A),this.instanceCount=A.instanceCount,this}toJSON(){const A=super.toJSON();return A.instanceCount=this.instanceCount,A.isInstancedBufferGeometry=!0,A}}class NR extends JC{constructor(A){super(A)}load(A,I,C,B){const i=this,Q=new FC(i.manager);Q.setPath(i.path),Q.setRequestHeader(i.requestHeader),Q.setWithCredentials(i.withCredentials),Q.load(A,function(E){try{I(i.parse(JSON.parse(E)))}catch(e){B?B(e):console.error(e),i.manager.itemError(A)}},C,B)}parse(A){const I={},C={};function B(D,c){if(I[c]!==void 0)return I[c];const S=D.interleavedBuffers[c],l=i(D,S.buffer),w=Qo(S.type,l),k=new as(w,S.stride);return k.uuid=S.uuid,I[c]=k,k}function i(D,c){if(C[c]!==void 0)return C[c];const S=D.arrayBuffers[c],l=new Uint32Array(S).buffer;return C[c]=l,l}const Q=A.isInstancedBufferGeometry?new pR:new FI,E=A.data.index;if(E!==void 0){const D=Qo(E.type,E.array);Q.setIndex(new pI(D,1))}const e=A.data.attributes;for(const D in e){const c=e[D];let y;if(c.isInterleavedBufferAttribute){const S=B(A.data,c.data);y=new FE(S,c.itemSize,c.offset,c.normalized)}else{const S=Qo(c.type,c.array),l=c.isInstancedBufferAttribute?ve:pI;y=new l(S,c.itemSize,c.normalized)}c.name!==void 0&&(y.name=c.name),c.usage!==void 0&&y.setUsage(c.usage),Q.setAttribute(D,y)}const n=A.data.morphAttributes;if(n)for(const D in n){const c=n[D],y=[];for(let S=0,l=c.length;S<l;S++){const w=c[S];let k;if(w.isInterleavedBufferAttribute){const U=B(A.data,w.data);k=new FE(U,w.itemSize,w.offset,w.normalized)}else{const U=Qo(w.type,w.array);k=new pI(U,w.itemSize,w.normalized)}w.name!==void 0&&(k.name=w.name),y.push(k)}Q.morphAttributes[D]=y}A.data.morphTargetsRelative&&(Q.morphTargetsRelative=!0);const s=A.data.groups||A.data.drawcalls||A.data.offsets;if(s!==void 0)for(let D=0,c=s.length;D!==c;++D){const y=s[D];Q.addGroup(y.start,y.count,y.materialIndex)}const r=A.data.boundingSphere;if(r!==void 0){const D=new T;r.center!==void 0&&D.fromArray(r.center),Q.boundingSphere=new NC(D,r.radius)}return A.name&&(Q.name=A.name),A.userData&&(Q.userData=A.userData),Q}}class Cb extends JC{constructor(A){super(A)}load(A,I,C,B){const i=this,Q=this.path===""?kE.extractUrlBase(A):this.path;this.resourcePath=this.resourcePath||Q;const E=new FC(this.manager);E.setPath(this.path),E.setRequestHeader(this.requestHeader),E.setWithCredentials(this.withCredentials),E.load(A,function(e){let n=null;try{n=JSON.parse(e)}catch(s){B!==void 0&&B(s),console.error("THREE:ObjectLoader: Can't parse "+A+".",s.message);return}const a=n.metadata;if(a===void 0||a.type===void 0||a.type.toLowerCase()==="geometry"){B!==void 0&&B(new Error("THREE.ObjectLoader: Can't load "+A)),console.error("THREE.ObjectLoader: Can't load "+A);return}i.parse(n,I)},C,B)}async loadAsync(A,I){const C=this,B=this.path===""?kE.extractUrlBase(A):this.path;this.resourcePath=this.resourcePath||B;const i=new FC(this.manager);i.setPath(this.path),i.setRequestHeader(this.requestHeader),i.setWithCredentials(this.withCredentials);const Q=await i.loadAsync(A,I),E=JSON.parse(Q),e=E.metadata;if(e===void 0||e.type===void 0||e.type.toLowerCase()==="geometry")throw new Error("THREE.ObjectLoader: Can't load "+A);return await C.parseAsync(E)}parse(A,I){const C=this.parseAnimations(A.animations),B=this.parseShapes(A.shapes),i=this.parseGeometries(A.geometries,B),Q=this.parseImages(A.images,function(){I!==void 0&&I(n)}),E=this.parseTextures(A.textures,Q),e=this.parseMaterials(A.materials,E),n=this.parseObject(A.object,i,e,E,C),a=this.parseSkeletons(A.skeletons,n);if(this.bindSkeletons(n,a),I!==void 0){let s=!1;for(const r in Q)if(Q[r].data instanceof HTMLImageElement){s=!0;break}s===!1&&I(n)}return n}async parseAsync(A){const I=this.parseAnimations(A.animations),C=this.parseShapes(A.shapes),B=this.parseGeometries(A.geometries,C),i=await this.parseImagesAsync(A.images),Q=this.parseTextures(A.textures,i),E=this.parseMaterials(A.materials,Q),e=this.parseObject(A.object,B,E,Q,I),n=this.parseSkeletons(A.skeletons,e);return this.bindSkeletons(e,n),e}parseShapes(A){const I={};if(A!==void 0)for(let C=0,B=A.length;C<B;C++){const i=new fe().fromJSON(A[C]);I[i.uuid]=i}return I}parseSkeletons(A,I){const C={},B={};if(I.traverse(function(i){i.isBone&&(B[i.uuid]=i)}),A!==void 0)for(let i=0,Q=A.length;i<Q;i++){const E=new ss().fromJSON(A[i],B);C[E.uuid]=E}return C}parseGeometries(A,I){const C={};if(A!==void 0){const B=new NR;for(let i=0,Q=A.length;i<Q;i++){let E;const e=A[i];switch(e.type){case"BufferGeometry":case"InstancedBufferGeometry":E=B.parse(e);break;default:e.type in Sp?E=Sp[e.type].fromJSON(e,I):console.warn(`THREE.ObjectLoader: Unsupported geometry type "${e.type}"`)}E.uuid=e.uuid,e.name!==void 0&&(E.name=e.name),e.userData!==void 0&&(E.userData=e.userData),C[e.uuid]=E}}return C}parseMaterials(A,I){const C={},B={};if(A!==void 0){const i=new mh;i.setTextures(I);for(let Q=0,E=A.length;Q<E;Q++){const e=A[Q];C[e.uuid]===void 0&&(C[e.uuid]=i.parse(e)),B[e.uuid]=C[e.uuid]}}return B}parseAnimations(A){const I={};if(A!==void 0)for(let C=0;C<A.length;C++){const B=A[C],i=qo.parse(B);I[i.uuid]=i}return I}parseImages(A,I){const C=this,B={};let i;function Q(e){return C.manager.itemStart(e),i.load(e,function(){C.manager.itemEnd(e)},void 0,function(){C.manager.itemError(e),C.manager.itemEnd(e)})}function E(e){if(typeof e=="string"){const n=e,a=/^(\/\/)|([a-z]+:(\/\/)?)/i.test(n)?n:C.resourcePath+n;return Q(a)}else return e.data?{data:Qo(e.type,e.data),width:e.width,height:e.height}:null}if(A!==void 0&&A.length>0){const e=new Yh(I);i=new Za(e),i.setCrossOrigin(this.crossOrigin);for(let n=0,a=A.length;n<a;n++){const s=A[n],r=s.url;if(Array.isArray(r)){const D=[];for(let c=0,y=r.length;c<y;c++){const S=r[c],l=E(S);l!==null&&(l instanceof HTMLImageElement?D.push(l):D.push(new ji(l.data,l.width,l.height)))}B[s.uuid]=new ke(D)}else{const D=E(s.url);B[s.uuid]=new ke(D)}}}return B}async parseImagesAsync(A){const I=this,C={};let B;async function i(Q){if(typeof Q=="string"){const E=Q,e=/^(\/\/)|([a-z]+:(\/\/)?)/i.test(E)?E:I.resourcePath+E;return await B.loadAsync(e)}else return Q.data?{data:Qo(Q.type,Q.data),width:Q.width,height:Q.height}:null}if(A!==void 0&&A.length>0){B=new Za(this.manager),B.setCrossOrigin(this.crossOrigin);for(let Q=0,E=A.length;Q<E;Q++){const e=A[Q],n=e.url;if(Array.isArray(n)){const a=[];for(let s=0,r=n.length;s<r;s++){const D=n[s],c=await i(D);c!==null&&(c instanceof HTMLImageElement?a.push(c):a.push(new ji(c.data,c.width,c.height)))}C[e.uuid]=new ke(a)}else{const a=await i(e.url);C[e.uuid]=new ke(a)}}}return C}parseTextures(A,I){function C(i,Q){return typeof i=="number"?i:(console.warn("THREE.ObjectLoader.parseTexture: Constant should be in numeric form.",i),Q[i])}const B={};if(A!==void 0)for(let i=0,Q=A.length;i<Q;i++){const E=A[i];E.image===void 0&&console.warn('THREE.ObjectLoader: No "image" specified for',E.uuid),I[E.image]===void 0&&console.warn("THREE.ObjectLoader: Undefined image",E.image);const e=I[E.image],n=e.data;let a;Array.isArray(n)?(a=new os,n.length===6&&(a.needsUpdate=!0)):(n&&n.data?a=new ji:a=new Ig,n&&(a.needsUpdate=!0)),a.source=e,a.uuid=E.uuid,E.name!==void 0&&(a.name=E.name),E.mapping!==void 0&&(a.mapping=C(E.mapping,Bb)),E.channel!==void 0&&(a.channel=E.channel),E.offset!==void 0&&a.offset.fromArray(E.offset),E.repeat!==void 0&&a.repeat.fromArray(E.repeat),E.center!==void 0&&a.center.fromArray(E.center),E.rotation!==void 0&&(a.rotation=E.rotation),E.wrap!==void 0&&(a.wrapS=C(E.wrap[0],kp),a.wrapT=C(E.wrap[1],kp)),E.format!==void 0&&(a.format=E.format),E.internalFormat!==void 0&&(a.internalFormat=E.internalFormat),E.type!==void 0&&(a.type=E.type),E.colorSpace!==void 0&&(a.colorSpace=E.colorSpace),E.minFilter!==void 0&&(a.minFilter=C(E.minFilter,Mp)),E.magFilter!==void 0&&(a.magFilter=C(E.magFilter,Mp)),E.anisotropy!==void 0&&(a.anisotropy=E.anisotropy),E.flipY!==void 0&&(a.flipY=E.flipY),E.generateMipmaps!==void 0&&(a.generateMipmaps=E.generateMipmaps),E.premultiplyAlpha!==void 0&&(a.premultiplyAlpha=E.premultiplyAlpha),E.unpackAlignment!==void 0&&(a.unpackAlignment=E.unpackAlignment),E.compareFunction!==void 0&&(a.compareFunction=E.compareFunction),E.userData!==void 0&&(a.userData=E.userData),B[E.uuid]=a}return B}parseObject(A,I,C,B,i){let Q;function E(r){return I[r]===void 0&&console.warn("THREE.ObjectLoader: Undefined geometry",r),I[r]}function e(r){if(r!==void 0){if(Array.isArray(r)){const D=[];for(let c=0,y=r.length;c<y;c++){const S=r[c];C[S]===void 0&&console.warn("THREE.ObjectLoader: Undefined material",S),D.push(C[S])}return D}return C[r]===void 0&&console.warn("THREE.ObjectLoader: Undefined material",r),C[r]}}function n(r){return B[r]===void 0&&console.warn("THREE.ObjectLoader: Undefined texture",r),B[r]}let a,s;switch(A.type){case"Scene":Q=new fo,A.background!==void 0&&(Number.isInteger(A.background)?Q.background=new VA(A.background):Q.background=n(A.background)),A.environment!==void 0&&(Q.environment=n(A.environment)),A.fog!==void 0&&(A.fog.type==="Fog"?Q.fog=new Sh(A.fog.color,A.fog.near,A.fog.far):A.fog.type==="FogExp2"&&(Q.fog=new ch(A.fog.color,A.fog.density)),A.fog.name!==""&&(Q.fog.name=A.fog.name)),A.backgroundBlurriness!==void 0&&(Q.backgroundBlurriness=A.backgroundBlurriness),A.backgroundIntensity!==void 0&&(Q.backgroundIntensity=A.backgroundIntensity),A.backgroundRotation!==void 0&&Q.backgroundRotation.fromArray(A.backgroundRotation),A.environmentIntensity!==void 0&&(Q.environmentIntensity=A.environmentIntensity),A.environmentRotation!==void 0&&Q.environmentRotation.fromArray(A.environmentRotation);break;case"PerspectiveCamera":Q=new eC(A.fov,A.aspect,A.near,A.far),A.focus!==void 0&&(Q.focus=A.focus),A.zoom!==void 0&&(Q.zoom=A.zoom),A.filmGauge!==void 0&&(Q.filmGauge=A.filmGauge),A.filmOffset!==void 0&&(Q.filmOffset=A.filmOffset),A.view!==void 0&&(Q.view=Object.assign({},A.view));break;case"OrthographicCamera":Q=new gt(A.left,A.right,A.top,A.bottom,A.near,A.far),A.zoom!==void 0&&(Q.zoom=A.zoom),A.view!==void 0&&(Q.view=Object.assign({},A.view));break;case"AmbientLight":Q=new MR(A.color,A.intensity);break;case"DirectionalLight":Q=new cM(A.color,A.intensity);break;case"PointLight":Q=new hM(A.color,A.intensity,A.distance,A.decay);break;case"RectAreaLight":Q=new uR(A.color,A.intensity,A.width,A.height);break;case"SpotLight":Q=new lM(A.color,A.intensity,A.distance,A.angle,A.penumbra,A.decay);break;case"HemisphereLight":Q=new kR(A.color,A.groundColor,A.intensity);break;case"LightProbe":Q=new dR().fromJSON(A);break;case"SkinnedMesh":a=E(A.geometry),s=e(A.material),Q=new AM(a,s),A.bindMode!==void 0&&(Q.bindMode=A.bindMode),A.bindMatrix!==void 0&&Q.bindMatrix.fromArray(A.bindMatrix),A.skeleton!==void 0&&(Q.skeleton=A.skeleton);break;case"Mesh":a=E(A.geometry),s=e(A.material),Q=new Jg(a,s);break;case"InstancedMesh":a=E(A.geometry),s=e(A.material);const r=A.count,D=A.instanceMatrix,c=A.instanceColor;Q=new IM(a,s,r),Q.instanceMatrix=new ve(new Float32Array(D.array),16),c!==void 0&&(Q.instanceColor=new ve(new Float32Array(c.array),c.itemSize));break;case"BatchedMesh":a=E(A.geometry),s=e(A.material),Q=new XJ(A.maxGeometryCount,A.maxVertexCount,A.maxIndexCount,s),Q.geometry=a,Q.perObjectFrustumCulled=A.perObjectFrustumCulled,Q.sortObjects=A.sortObjects,Q._drawRanges=A.drawRanges,Q._reservedRanges=A.reservedRanges,Q._visibility=A.visibility,Q._active=A.active,Q._bounds=A.bounds.map(y=>{const S=new bC;S.min.fromArray(y.boxMin),S.max.fromArray(y.boxMax);const l=new NC;return l.radius=y.sphereRadius,l.center.fromArray(y.sphereCenter),{boxInitialized:y.boxInitialized,box:S,sphereInitialized:y.sphereInitialized,sphere:l}}),Q._maxGeometryCount=A.maxGeometryCount,Q._maxVertexCount=A.maxVertexCount,Q._maxIndexCount=A.maxIndexCount,Q._geometryInitialized=A.geometryInitialized,Q._geometryCount=A.geometryCount,Q._matricesTexture=n(A.matricesTexture.uuid),A.colorsTexture!==void 0&&(Q._colorsTexture=n(A.colorsTexture.uuid));break;case"LOD":Q=new zJ;break;case"Line":Q=new KQ(E(A.geometry),e(A.material));break;case"LineLoop":Q=new gM(E(A.geometry),e(A.material));break;case"LineSegments":Q=new Ui(E(A.geometry),e(A.material));break;case"PointCloud":case"Points":Q=new CM(E(A.geometry),e(A.material));break;case"Sprite":Q=new jJ(e(A.material));break;case"Group":Q=new GQ;break;case"Bone":Q=new wh;break;default:Q=new VI}if(Q.uuid=A.uuid,A.name!==void 0&&(Q.name=A.name),A.matrix!==void 0?(Q.matrix.fromArray(A.matrix),A.matrixAutoUpdate!==void 0&&(Q.matrixAutoUpdate=A.matrixAutoUpdate),Q.matrixAutoUpdate&&Q.matrix.decompose(Q.position,Q.quaternion,Q.scale)):(A.position!==void 0&&Q.position.fromArray(A.position),A.rotation!==void 0&&Q.rotation.fromArray(A.rotation),A.quaternion!==void 0&&Q.quaternion.fromArray(A.quaternion),A.scale!==void 0&&Q.scale.fromArray(A.scale)),A.up!==void 0&&Q.up.fromArray(A.up),A.castShadow!==void 0&&(Q.castShadow=A.castShadow),A.receiveShadow!==void 0&&(Q.receiveShadow=A.receiveShadow),A.shadow&&(A.shadow.bias!==void 0&&(Q.shadow.bias=A.shadow.bias),A.shadow.normalBias!==void 0&&(Q.shadow.normalBias=A.shadow.normalBias),A.shadow.radius!==void 0&&(Q.shadow.radius=A.shadow.radius),A.shadow.mapSize!==void 0&&Q.shadow.mapSize.fromArray(A.shadow.mapSize),A.shadow.camera!==void 0&&(Q.shadow.camera=this.parseObject(A.shadow.camera))),A.visible!==void 0&&(Q.visible=A.visible),A.frustumCulled!==void 0&&(Q.frustumCulled=A.frustumCulled),A.renderOrder!==void 0&&(Q.renderOrder=A.renderOrder),A.userData!==void 0&&(Q.userData=A.userData),A.layers!==void 0&&(Q.layers.mask=A.layers),A.children!==void 0){const r=A.children;for(let D=0;D<r.length;D++)Q.add(this.parseObject(r[D],I,C,B,i))}if(A.animations!==void 0){const r=A.animations;for(let D=0;D<r.length;D++){const c=r[D];Q.animations.push(i[c])}}if(A.type==="LOD"){A.autoUpdate!==void 0&&(Q.autoUpdate=A.autoUpdate);const r=A.levels;for(let D=0;D<r.length;D++){const c=r[D],y=Q.getObjectByProperty("uuid",c.object);y!==void 0&&Q.addLevel(y,c.distance,c.hysteresis)}}return Q}bindSkeletons(A,I){Object.keys(I).length!==0&&A.traverse(function(C){if(C.isSkinnedMesh===!0&&C.skeleton!==void 0){const B=I[C.skeleton];B===void 0?console.warn("THREE.ObjectLoader: No skeleton found with UUID:",C.skeleton):C.bind(B,C.bindMatrix)}})}}const Bb={UVMapping:dE,CubeReflectionMapping:$i,CubeRefractionMapping:pE,EquirectangularReflectionMapping:po,EquirectangularRefractionMapping:Ra,CubeUVReflectionMapping:Oo},kp={RepeatWrapping:FQ,ClampToEdgeWrapping:Vg,MirroredRepeatWrapping:No},Mp={NearestFilter:oC,NearestMipmapNearestFilter:nh,NearestMipmapLinearFilter:we,LinearFilter:tg,LinearMipmapNearestFilter:lo,LinearMipmapLinearFilter:Ii};class FR extends JC{constructor(A){super(A),this.isImageBitmapLoader=!0,typeof createImageBitmap>"u"&&console.warn("THREE.ImageBitmapLoader: createImageBitmap() not supported."),typeof fetch>"u"&&console.warn("THREE.ImageBitmapLoader: fetch() not supported."),this.options={premultiplyAlpha:"none"}}setOptions(A){return this.options=A,this}load(A,I,C,B){A===void 0&&(A=""),this.path!==void 0&&(A=this.path+A),A=this.manager.resolveURL(A);const i=this,Q=yQ.get(A);if(Q!==void 0){if(i.manager.itemStart(A),Q.then){Q.then(n=>{I&&I(n),i.manager.itemEnd(A)}).catch(n=>{B&&B(n)});return}return setTimeout(function(){I&&I(Q),i.manager.itemEnd(A)},0),Q}const E={};E.credentials=this.crossOrigin==="anonymous"?"same-origin":"include",E.headers=this.requestHeader;const e=fetch(A,E).then(function(n){return n.blob()}).then(function(n){return createImageBitmap(n,Object.assign(i.options,{colorSpaceConversion:"none"}))}).then(function(n){return yQ.add(A,n),I&&I(n),i.manager.itemEnd(A),n}).catch(function(n){B&&B(n),yQ.remove(A),i.manager.itemError(A),i.manager.itemEnd(A)});yQ.add(A,e),i.manager.itemStart(A)}}let SD;class SM{static getContext(){return SD===void 0&&(SD=new(window.AudioContext||window.webkitAudioContext)),SD}static setContext(A){SD=A}}class ib extends JC{constructor(A){super(A)}load(A,I,C,B){const i=this,Q=new FC(this.manager);Q.setResponseType("arraybuffer"),Q.setPath(this.path),Q.setRequestHeader(this.requestHeader),Q.setWithCredentials(this.withCredentials),Q.load(A,function(e){try{const n=e.slice(0);SM.getContext().decodeAudioData(n,function(s){I(s)}).catch(E)}catch(n){E(n)}},C,B);function E(e){B?B(e):console.error(e),i.manager.itemError(A)}}}const up=new hI,Up=new hI,Be=new hI;class Qb{constructor(){this.type="StereoCamera",this.aspect=1,this.eyeSep=.064,this.cameraL=new eC,this.cameraL.layers.enable(1),this.cameraL.matrixAutoUpdate=!1,this.cameraR=new eC,this.cameraR.layers.enable(2),this.cameraR.matrixAutoUpdate=!1,this._cache={focus:null,fov:null,aspect:null,near:null,far:null,zoom:null,eyeSep:null}}update(A){const I=this._cache;if(I.focus!==A.focus||I.fov!==A.fov||I.aspect!==A.aspect*this.aspect||I.near!==A.near||I.far!==A.far||I.zoom!==A.zoom||I.eyeSep!==this.eyeSep){I.focus=A.focus,I.fov=A.fov,I.aspect=A.aspect*this.aspect,I.near=A.near,I.far=A.far,I.zoom=A.zoom,I.eyeSep=this.eyeSep,Be.copy(A.projectionMatrix);const B=I.eyeSep/2,i=B*I.near/I.focus,Q=I.near*Math.tan(Je*I.fov*.5)/I.zoom;let E,e;Up.elements[12]=-B,up.elements[12]=B,E=-Q*I.aspect+i,e=Q*I.aspect+i,Be.elements[0]=2*I.near/(e-E),Be.elements[8]=(e+E)/(e-E),this.cameraL.projectionMatrix.copy(Be),E=-Q*I.aspect-i,e=Q*I.aspect-i,Be.elements[0]=2*I.near/(e-E),Be.elements[8]=(e+E)/(e-E),this.cameraR.projectionMatrix.copy(Be)}this.cameraL.matrixWorld.copy(A.matrixWorld).multiply(Up),this.cameraR.matrixWorld.copy(A.matrixWorld).multiply(up)}}class wM{constructor(A=!0){this.autoStart=A,this.startTime=0,this.oldTime=0,this.elapsedTime=0,this.running=!1}start(){this.startTime=dp(),this.oldTime=this.startTime,this.elapsedTime=0,this.running=!0}stop(){this.getElapsedTime(),this.running=!1,this.autoStart=!1}getElapsedTime(){return this.getDelta(),this.elapsedTime}getDelta(){let A=0;if(this.autoStart&&!this.running)return this.start(),0;if(this.running){const I=dp();A=(I-this.oldTime)/1e3,this.oldTime=I,this.elapsedTime+=A}return A}}function dp(){return(typeof performance>"u"?Date:performance).now()}const ie=new T,pp=new nC,Eb=new T,Qe=new T;class eb extends VI{constructor(){super(),this.type="AudioListener",this.context=SM.getContext(),this.gain=this.context.createGain(),this.gain.connect(this.context.destination),this.filter=null,this.timeDelta=0,this._clock=new wM}getInput(){return this.gain}removeFilter(){return this.filter!==null&&(this.gain.disconnect(this.filter),this.filter.disconnect(this.context.destination),this.gain.connect(this.context.destination),this.filter=null),this}getFilter(){return this.filter}setFilter(A){return this.filter!==null?(this.gain.disconnect(this.filter),this.filter.disconnect(this.context.destination)):this.gain.disconnect(this.context.destination),this.filter=A,this.gain.connect(this.filter),this.filter.connect(this.context.destination),this}getMasterVolume(){return this.gain.gain.value}setMasterVolume(A){return this.gain.gain.setTargetAtTime(A,this.context.currentTime,.01),this}updateMatrixWorld(A){super.updateMatrixWorld(A);const I=this.context.listener,C=this.up;if(this.timeDelta=this._clock.getDelta(),this.matrixWorld.decompose(ie,pp,Eb),Qe.set(0,0,-1).applyQuaternion(pp),I.positionX){const B=this.context.currentTime+this.timeDelta;I.positionX.linearRampToValueAtTime(ie.x,B),I.positionY.linearRampToValueAtTime(ie.y,B),I.positionZ.linearRampToValueAtTime(ie.z,B),I.forwardX.linearRampToValueAtTime(Qe.x,B),I.forwardY.linearRampToValueAtTime(Qe.y,B),I.forwardZ.linearRampToValueAtTime(Qe.z,B),I.upX.linearRampToValueAtTime(C.x,B),I.upY.linearRampToValueAtTime(C.y,B),I.upZ.linearRampToValueAtTime(C.z,B)}else I.setPosition(ie.x,ie.y,ie.z),I.setOrientation(Qe.x,Qe.y,Qe.z,C.x,C.y,C.z)}}class KR extends VI{constructor(A){super(),this.type="Audio",this.listener=A,this.context=A.context,this.gain=this.context.createGain(),this.gain.connect(A.getInput()),this.autoplay=!1,this.buffer=null,this.detune=0,this.loop=!1,this.loopStart=0,this.loopEnd=0,this.offset=0,this.duration=void 0,this.playbackRate=1,this.isPlaying=!1,this.hasPlaybackControl=!0,this.source=null,this.sourceType="empty",this._startedAt=0,this._progress=0,this._connected=!1,this.filters=[]}getOutput(){return this.gain}setNodeSource(A){return this.hasPlaybackControl=!1,this.sourceType="audioNode",this.source=A,this.connect(),this}setMediaElementSource(A){return this.hasPlaybackControl=!1,this.sourceType="mediaNode",this.source=this.context.createMediaElementSource(A),this.connect(),this}setMediaStreamSource(A){return this.hasPlaybackControl=!1,this.sourceType="mediaStreamNode",this.source=this.context.createMediaStreamSource(A),this.connect(),this}setBuffer(A){return this.buffer=A,this.sourceType="buffer",this.autoplay&&this.play(),this}play(A=0){if(this.isPlaying===!0){console.warn("THREE.Audio: Audio is already playing.");return}if(this.hasPlaybackControl===!1){console.warn("THREE.Audio: this Audio has no playback control.");return}this._startedAt=this.context.currentTime+A;const I=this.context.createBufferSource();return I.buffer=this.buffer,I.loop=this.loop,I.loopStart=this.loopStart,I.loopEnd=this.loopEnd,I.onended=this.onEnded.bind(this),I.start(this._startedAt,this._progress+this.offset,this.duration),this.isPlaying=!0,this.source=I,this.setDetune(this.detune),this.setPlaybackRate(this.playbackRate),this.connect()}pause(){if(this.hasPlaybackControl===!1){console.warn("THREE.Audio: this Audio has no playback control.");return}return this.isPlaying===!0&&(this._progress+=Math.max(this.context.currentTime-this._startedAt,0)*this.playbackRate,this.loop===!0&&(this._progress=this._progress%(this.duration||this.buffer.duration)),this.source.stop(),this.source.onended=null,this.isPlaying=!1),this}stop(){if(this.hasPlaybackControl===!1){console.warn("THREE.Audio: this Audio has no playback control.");return}return this._progress=0,this.source!==null&&(this.source.stop(),this.source.onended=null),this.isPlaying=!1,this}connect(){if(this.filters.length>0){this.source.connect(this.filters[0]);for(let A=1,I=this.filters.length;A<I;A++)this.filters[A-1].connect(this.filters[A]);this.filters[this.filters.length-1].connect(this.getOutput())}else this.source.connect(this.getOutput());return this._connected=!0,this}disconnect(){if(this._connected!==!1){if(this.filters.length>0){this.source.disconnect(this.filters[0]);for(let A=1,I=this.filters.length;A<I;A++)this.filters[A-1].disconnect(this.filters[A]);this.filters[this.filters.length-1].disconnect(this.getOutput())}else this.source.disconnect(this.getOutput());return this._connected=!1,this}}getFilters(){return this.filters}setFilters(A){return A||(A=[]),this._connected===!0?(this.disconnect(),this.filters=A.slice(),this.connect()):this.filters=A.slice(),this}setDetune(A){return this.detune=A,this.isPlaying===!0&&this.source.detune!==void 0&&this.source.detune.setTargetAtTime(this.detune,this.context.currentTime,.01),this}getDetune(){return this.detune}getFilter(){return this.getFilters()[0]}setFilter(A){return this.setFilters(A?[A]:[])}setPlaybackRate(A){if(this.hasPlaybackControl===!1){console.warn("THREE.Audio: this Audio has no playback control.");return}return this.playbackRate=A,this.isPlaying===!0&&this.source.playbackRate.setTargetAtTime(this.playbackRate,this.context.currentTime,.01),this}getPlaybackRate(){return this.playbackRate}onEnded(){this.isPlaying=!1}getLoop(){return this.hasPlaybackControl===!1?(console.warn("THREE.Audio: this Audio has no playback control."),!1):this.loop}setLoop(A){if(this.hasPlaybackControl===!1){console.warn("THREE.Audio: this Audio has no playback control.");return}return this.loop=A,this.isPlaying===!0&&(this.source.loop=this.loop),this}setLoopStart(A){return this.loopStart=A,this}setLoopEnd(A){return this.loopEnd=A,this}getVolume(){return this.gain.gain.value}setVolume(A){return this.gain.gain.setTargetAtTime(A,this.context.currentTime,.01),this}}const Ee=new T,Np=new nC,tb=new T,ee=new T;class ob extends KR{constructor(A){super(A),this.panner=this.context.createPanner(),this.panner.panningModel="HRTF",this.panner.connect(this.gain)}connect(){super.connect(),this.panner.connect(this.gain)}disconnect(){super.disconnect(),this.panner.disconnect(this.gain)}getOutput(){return this.panner}getRefDistance(){return this.panner.refDistance}setRefDistance(A){return this.panner.refDistance=A,this}getRolloffFactor(){return this.panner.rolloffFactor}setRolloffFactor(A){return this.panner.rolloffFactor=A,this}getDistanceModel(){return this.panner.distanceModel}setDistanceModel(A){return this.panner.distanceModel=A,this}getMaxDistance(){return this.panner.maxDistance}setMaxDistance(A){return this.panner.maxDistance=A,this}setDirectionalCone(A,I,C){return this.panner.coneInnerAngle=A,this.panner.coneOuterAngle=I,this.panner.coneOuterGain=C,this}updateMatrixWorld(A){if(super.updateMatrixWorld(A),this.hasPlaybackControl===!0&&this.isPlaying===!1)return;this.matrixWorld.decompose(Ee,Np,tb),ee.set(0,0,1).applyQuaternion(Np);const I=this.panner;if(I.positionX){const C=this.context.currentTime+this.listener.timeDelta;I.positionX.linearRampToValueAtTime(Ee.x,C),I.positionY.linearRampToValueAtTime(Ee.y,C),I.positionZ.linearRampToValueAtTime(Ee.z,C),I.orientationX.linearRampToValueAtTime(ee.x,C),I.orientationY.linearRampToValueAtTime(ee.y,C),I.orientationZ.linearRampToValueAtTime(ee.z,C)}else I.setPosition(Ee.x,Ee.y,Ee.z),I.setOrientation(ee.x,ee.y,ee.z)}}class nb{constructor(A,I=2048){this.analyser=A.context.createAnalyser(),this.analyser.fftSize=I,this.data=new Uint8Array(this.analyser.frequencyBinCount),A.getOutput().connect(this.analyser)}getFrequencyData(){return this.analyser.getByteFrequencyData(this.data),this.data}getAverageFrequency(){let A=0;const I=this.getFrequencyData();for(let C=0;C<I.length;C++)A+=I[C];return A/I.length}}class JR{constructor(A,I,C){this.binding=A,this.valueSize=C;let B,i,Q;switch(I){case"quaternion":B=this._slerp,i=this._slerpAdditive,Q=this._setAdditiveIdentityQuaternion,this.buffer=new Float64Array(C*6),this._workIndex=5;break;case"string":case"bool":B=this._select,i=this._select,Q=this._setAdditiveIdentityOther,this.buffer=new Array(C*5);break;default:B=this._lerp,i=this._lerpAdditive,Q=this._setAdditiveIdentityNumeric,this.buffer=new Float64Array(C*5)}this._mixBufferRegion=B,this._mixBufferRegionAdditive=i,this._setIdentity=Q,this._origIndex=3,this._addIndex=4,this.cumulativeWeight=0,this.cumulativeWeightAdditive=0,this.useCount=0,this.referenceCount=0}accumulate(A,I){const C=this.buffer,B=this.valueSize,i=A*B+B;let Q=this.cumulativeWeight;if(Q===0){for(let E=0;E!==B;++E)C[i+E]=C[E];Q=I}else{Q+=I;const E=I/Q;this._mixBufferRegion(C,i,0,E,B)}this.cumulativeWeight=Q}accumulateAdditive(A){const I=this.buffer,C=this.valueSize,B=C*this._addIndex;this.cumulativeWeightAdditive===0&&this._setIdentity(),this._mixBufferRegionAdditive(I,B,0,A,C),this.cumulativeWeightAdditive+=A}apply(A){const I=this.valueSize,C=this.buffer,B=A*I+I,i=this.cumulativeWeight,Q=this.cumulativeWeightAdditive,E=this.binding;if(this.cumulativeWeight=0,this.cumulativeWeightAdditive=0,i<1){const e=I*this._origIndex;this._mixBufferRegion(C,B,e,1-i,I)}Q>0&&this._mixBufferRegionAdditive(C,B,this._addIndex*I,1,I);for(let e=I,n=I+I;e!==n;++e)if(C[e]!==C[e+I]){E.setValue(C,B);break}}saveOriginalState(){const A=this.binding,I=this.buffer,C=this.valueSize,B=C*this._origIndex;A.getValue(I,B);for(let i=C,Q=B;i!==Q;++i)I[i]=I[B+i%C];this._setIdentity(),this.cumulativeWeight=0,this.cumulativeWeightAdditive=0}restoreOriginalState(){const A=this.valueSize*3;this.binding.setValue(this.buffer,A)}_setAdditiveIdentityNumeric(){const A=this._addIndex*this.valueSize,I=A+this.valueSize;for(let C=A;C<I;C++)this.buffer[C]=0}_setAdditiveIdentityQuaternion(){this._setAdditiveIdentityNumeric(),this.buffer[this._addIndex*this.valueSize+3]=1}_setAdditiveIdentityOther(){const A=this._origIndex*this.valueSize,I=this._addIndex*this.valueSize;for(let C=0;C<this.valueSize;C++)this.buffer[I+C]=this.buffer[A+C]}_select(A,I,C,B,i){if(B>=.5)for(let Q=0;Q!==i;++Q)A[I+Q]=A[C+Q]}_slerp(A,I,C,B){nC.slerpFlat(A,I,A,I,A,C,B)}_slerpAdditive(A,I,C,B,i){const Q=this._workIndex*i;nC.multiplyQuaternionsFlat(A,Q,A,I,A,C),nC.slerpFlat(A,I,A,I,A,Q,B)}_lerp(A,I,C,B,i){const Q=1-B;for(let E=0;E!==i;++E){const e=I+E;A[e]=A[e]*Q+A[C+E]*B}}_lerpAdditive(A,I,C,B,i){for(let Q=0;Q!==i;++Q){const E=I+Q;A[E]=A[E]+A[C+Q]*B}}}const GM="\\[\\]\\.:\\/",ab=new RegExp("["+GM+"]","g"),yM="[^"+GM+"]",sb="[^"+GM.replace("\\.","")+"]",rb=/((?:WC+[\/:])*)/.source.replace("WC",yM),Db=/(WCOD+)?/.source.replace("WCOD",sb),lb=/(?:\.(WC+)(?:\[(.+)\])?)?/.source.replace("WC",yM),hb=/\.(WC+)(?:\[(.+)\])?/.source.replace("WC",yM),cb=new RegExp("^"+rb+Db+lb+hb+"$"),Sb=["material","materials","bones","map"];class wb{constructor(A,I,C){const B=C||$I.parseTrackName(I);this._targetGroup=A,this._bindings=A.subscribe_(I,B)}getValue(A,I){this.bind();const C=this._targetGroup.nCachedObjects_,B=this._bindings[C];B!==void 0&&B.getValue(A,I)}setValue(A,I){const C=this._bindings;for(let B=this._targetGroup.nCachedObjects_,i=C.length;B!==i;++B)C[B].setValue(A,I)}bind(){const A=this._bindings;for(let I=this._targetGroup.nCachedObjects_,C=A.length;I!==C;++I)A[I].bind()}unbind(){const A=this._bindings;for(let I=this._targetGroup.nCachedObjects_,C=A.length;I!==C;++I)A[I].unbind()}}class $I{constructor(A,I,C){this.path=I,this.parsedPath=C||$I.parseTrackName(I),this.node=$I.findNode(A,this.parsedPath.nodeName),this.rootNode=A,this.getValue=this._getValue_unbound,this.setValue=this._setValue_unbound}static create(A,I,C){return A&&A.isAnimationObjectGroup?new $I.Composite(A,I,C):new $I(A,I,C)}static sanitizeNodeName(A){return A.replace(/\s/g,"_").replace(ab,"")}static parseTrackName(A){const I=cb.exec(A);if(I===null)throw new Error("PropertyBinding: Cannot parse trackName: "+A);const C={nodeName:I[2],objectName:I[3],objectIndex:I[4],propertyName:I[5],propertyIndex:I[6]},B=C.nodeName&&C.nodeName.lastIndexOf(".");if(B!==void 0&&B!==-1){const i=C.nodeName.substring(B+1);Sb.indexOf(i)!==-1&&(C.nodeName=C.nodeName.substring(0,B),C.objectName=i)}if(C.propertyName===null||C.propertyName.length===0)throw new Error("PropertyBinding: can not parse propertyName from trackName: "+A);return C}static findNode(A,I){if(I===void 0||I===""||I==="."||I===-1||I===A.name||I===A.uuid)return A;if(A.skeleton){const C=A.skeleton.getBoneByName(I);if(C!==void 0)return C}if(A.children){const C=function(i){for(let Q=0;Q<i.length;Q++){const E=i[Q];if(E.name===I||E.uuid===I)return E;const e=C(E.children);if(e)return e}return null},B=C(A.children);if(B)return B}return null}_getValue_unavailable(){}_setValue_unavailable(){}_getValue_direct(A,I){A[I]=this.targetObject[this.propertyName]}_getValue_array(A,I){const C=this.resolvedProperty;for(let B=0,i=C.length;B!==i;++B)A[I++]=C[B]}_getValue_arrayElement(A,I){A[I]=this.resolvedProperty[this.propertyIndex]}_getValue_toArray(A,I){this.resolvedProperty.toArray(A,I)}_setValue_direct(A,I){this.targetObject[this.propertyName]=A[I]}_setValue_direct_setNeedsUpdate(A,I){this.targetObject[this.propertyName]=A[I],this.targetObject.needsUpdate=!0}_setValue_direct_setMatrixWorldNeedsUpdate(A,I){this.targetObject[this.propertyName]=A[I],this.targetObject.matrixWorldNeedsUpdate=!0}_setValue_array(A,I){const C=this.resolvedProperty;for(let B=0,i=C.length;B!==i;++B)C[B]=A[I++]}_setValue_array_setNeedsUpdate(A,I){const C=this.resolvedProperty;for(let B=0,i=C.length;B!==i;++B)C[B]=A[I++];this.targetObject.needsUpdate=!0}_setValue_array_setMatrixWorldNeedsUpdate(A,I){const C=this.resolvedProperty;for(let B=0,i=C.length;B!==i;++B)C[B]=A[I++];this.targetObject.matrixWorldNeedsUpdate=!0}_setValue_arrayElement(A,I){this.resolvedProperty[this.propertyIndex]=A[I]}_setValue_arrayElement_setNeedsUpdate(A,I){this.resolvedProperty[this.propertyIndex]=A[I],this.targetObject.needsUpdate=!0}_setValue_arrayElement_setMatrixWorldNeedsUpdate(A,I){this.resolvedProperty[this.propertyIndex]=A[I],this.targetObject.matrixWorldNeedsUpdate=!0}_setValue_fromArray(A,I){this.resolvedProperty.fromArray(A,I)}_setValue_fromArray_setNeedsUpdate(A,I){this.resolvedProperty.fromArray(A,I),this.targetObject.needsUpdate=!0}_setValue_fromArray_setMatrixWorldNeedsUpdate(A,I){this.resolvedProperty.fromArray(A,I),this.targetObject.matrixWorldNeedsUpdate=!0}_getValue_unbound(A,I){this.bind(),this.getValue(A,I)}_setValue_unbound(A,I){this.bind(),this.setValue(A,I)}bind(){let A=this.node;const I=this.parsedPath,C=I.objectName,B=I.propertyName;let i=I.propertyIndex;if(A||(A=$I.findNode(this.rootNode,I.nodeName),this.node=A),this.getValue=this._getValue_unavailable,this.setValue=this._setValue_unavailable,!A){console.warn("THREE.PropertyBinding: No target node found for track: "+this.path+".");return}if(C){let n=I.objectIndex;switch(C){case"materials":if(!A.material){console.error("THREE.PropertyBinding: Can not bind to material as node does not have a material.",this);return}if(!A.material.materials){console.error("THREE.PropertyBinding: Can not bind to material.materials as node.material does not have a materials array.",this);return}A=A.material.materials;break;case"bones":if(!A.skeleton){console.error("THREE.PropertyBinding: Can not bind to bones as node does not have a skeleton.",this);return}A=A.skeleton.bones;for(let a=0;a<A.length;a++)if(A[a].name===n){n=a;break}break;case"map":if("map"in A){A=A.map;break}if(!A.material){console.error("THREE.PropertyBinding: Can not bind to material as node does not have a material.",this);return}if(!A.material.map){console.error("THREE.PropertyBinding: Can not bind to material.map as node.material does not have a map.",this);return}A=A.material.map;break;default:if(A[C]===void 0){console.error("THREE.PropertyBinding: Can not bind to objectName of node undefined.",this);return}A=A[C]}if(n!==void 0){if(A[n]===void 0){console.error("THREE.PropertyBinding: Trying to bind to objectIndex of objectName, but is undefined.",this,A);return}A=A[n]}}const Q=A[B];if(Q===void 0){const n=I.nodeName;console.error("THREE.PropertyBinding: Trying to update property for track: "+n+"."+B+" but it wasn't found.",A);return}let E=this.Versioning.None;this.targetObject=A,A.needsUpdate!==void 0?E=this.Versioning.NeedsUpdate:A.matrixWorldNeedsUpdate!==void 0&&(E=this.Versioning.MatrixWorldNeedsUpdate);let e=this.BindingType.Direct;if(i!==void 0){if(B==="morphTargetInfluences"){if(!A.geometry){console.error("THREE.PropertyBinding: Can not bind to morphTargetInfluences because node does not have a geometry.",this);return}if(!A.geometry.morphAttributes){console.error("THREE.PropertyBinding: Can not bind to morphTargetInfluences because node does not have a geometry.morphAttributes.",this);return}A.morphTargetDictionary[i]!==void 0&&(i=A.morphTargetDictionary[i])}e=this.BindingType.ArrayElement,this.resolvedProperty=Q,this.propertyIndex=i}else Q.fromArray!==void 0&&Q.toArray!==void 0?(e=this.BindingType.HasFromToArray,this.resolvedProperty=Q):Array.isArray(Q)?(e=this.BindingType.EntireArray,this.resolvedProperty=Q):this.propertyName=B;this.getValue=this.GetterByBindingType[e],this.setValue=this.SetterByBindingTypeAndVersioning[e][E]}unbind(){this.node=null,this.getValue=this._getValue_unbound,this.setValue=this._setValue_unbound}}$I.Composite=wb;$I.prototype.BindingType={Direct:0,EntireArray:1,ArrayElement:2,HasFromToArray:3};$I.prototype.Versioning={None:0,NeedsUpdate:1,MatrixWorldNeedsUpdate:2};$I.prototype.GetterByBindingType=[$I.prototype._getValue_direct,$I.prototype._getValue_array,$I.prototype._getValue_arrayElement,$I.prototype._getValue_toArray];$I.prototype.SetterByBindingTypeAndVersioning=[[$I.prototype._setValue_direct,$I.prototype._setValue_direct_setNeedsUpdate,$I.prototype._setValue_direct_setMatrixWorldNeedsUpdate],[$I.prototype._setValue_array,$I.prototype._setValue_array_setNeedsUpdate,$I.prototype._setValue_array_setMatrixWorldNeedsUpdate],[$I.prototype._setValue_arrayElement,$I.prototype._setValue_arrayElement_setNeedsUpdate,$I.prototype._setValue_arrayElement_setMatrixWorldNeedsUpdate],[$I.prototype._setValue_fromArray,$I.prototype._setValue_fromArray_setNeedsUpdate,$I.prototype._setValue_fromArray_setMatrixWorldNeedsUpdate]];class Gb{constructor(){this.isAnimationObjectGroup=!0,this.uuid=KB(),this._objects=Array.prototype.slice.call(arguments),this.nCachedObjects_=0;const A={};this._indicesByUUID=A;for(let C=0,B=arguments.length;C!==B;++C)A[arguments[C].uuid]=C;this._paths=[],this._parsedPaths=[],this._bindings=[],this._bindingsIndicesByPath={};const I=this;this.stats={objects:{get total(){return I._objects.length},get inUse(){return this.total-I.nCachedObjects_}},get bindingsPerObject(){return I._bindings.length}}}add(){const A=this._objects,I=this._indicesByUUID,C=this._paths,B=this._parsedPaths,i=this._bindings,Q=i.length;let E,e=A.length,n=this.nCachedObjects_;for(let a=0,s=arguments.length;a!==s;++a){const r=arguments[a],D=r.uuid;let c=I[D];if(c===void 0){c=e++,I[D]=c,A.push(r);for(let y=0,S=Q;y!==S;++y)i[y].push(new $I(r,C[y],B[y]))}else if(c<n){E=A[c];const y=--n,S=A[y];I[S.uuid]=c,A[c]=S,I[D]=y,A[y]=r;for(let l=0,w=Q;l!==w;++l){const k=i[l],U=k[y];let f=k[c];k[c]=U,f===void 0&&(f=new $I(r,C[l],B[l])),k[y]=f}}else A[c]!==E&&console.error("THREE.AnimationObjectGroup: Different objects with the same UUID detected. Clean the caches or recreate your infrastructure when reloading scenes.")}this.nCachedObjects_=n}remove(){const A=this._objects,I=this._indicesByUUID,C=this._bindings,B=C.length;let i=this.nCachedObjects_;for(let Q=0,E=arguments.length;Q!==E;++Q){const e=arguments[Q],n=e.uuid,a=I[n];if(a!==void 0&&a>=i){const s=i++,r=A[s];I[r.uuid]=a,A[a]=r,I[n]=s,A[s]=e;for(let D=0,c=B;D!==c;++D){const y=C[D],S=y[s],l=y[a];y[a]=S,y[s]=l}}}this.nCachedObjects_=i}uncache(){const A=this._objects,I=this._indicesByUUID,C=this._bindings,B=C.length;let i=this.nCachedObjects_,Q=A.length;for(let E=0,e=arguments.length;E!==e;++E){const n=arguments[E],a=n.uuid,s=I[a];if(s!==void 0)if(delete I[a],s<i){const r=--i,D=A[r],c=--Q,y=A[c];I[D.uuid]=s,A[s]=D,I[y.uuid]=r,A[r]=y,A.pop();for(let S=0,l=B;S!==l;++S){const w=C[S],k=w[r],U=w[c];w[s]=k,w[r]=U,w.pop()}}else{const r=--Q,D=A[r];r>0&&(I[D.uuid]=s),A[s]=D,A.pop();for(let c=0,y=B;c!==y;++c){const S=C[c];S[s]=S[r],S.pop()}}}this.nCachedObjects_=i}subscribe_(A,I){const C=this._bindingsIndicesByPath;let B=C[A];const i=this._bindings;if(B!==void 0)return i[B];const Q=this._paths,E=this._parsedPaths,e=this._objects,n=e.length,a=this.nCachedObjects_,s=new Array(n);B=i.length,C[A]=B,Q.push(A),E.push(I),i.push(s);for(let r=a,D=e.length;r!==D;++r){const c=e[r];s[r]=new $I(c,A,I)}return s}unsubscribe_(A){const I=this._bindingsIndicesByPath,C=I[A];if(C!==void 0){const B=this._paths,i=this._parsedPaths,Q=this._bindings,E=Q.length-1,e=Q[E],n=A[E];I[n]=C,Q[C]=e,Q.pop(),i[C]=i[E],i.pop(),B[C]=B[E],B.pop()}}}class RR{constructor(A,I,C=null,B=I.blendMode){this._mixer=A,this._clip=I,this._localRoot=C,this.blendMode=B;const i=I.tracks,Q=i.length,E=new Array(Q),e={endingStart:Ge,endingEnd:Ge};for(let n=0;n!==Q;++n){const a=i[n].createInterpolant(null);E[n]=a,a.settings=e}this._interpolantSettings=e,this._interpolants=E,this._propertyBindings=new Array(Q),this._cacheIndex=null,this._byClipCacheIndex=null,this._timeScaleInterpolant=null,this._weightInterpolant=null,this.loop=SJ,this._loopCount=-1,this._startTime=null,this.time=0,this.timeScale=1,this._effectiveTimeScale=1,this.weight=1,this._effectiveWeight=1,this.repetitions=1/0,this.paused=!1,this.enabled=!0,this.clampWhenFinished=!1,this.zeroSlopeAtStart=!0,this.zeroSlopeAtEnd=!0}play(){return this._mixer._activateAction(this),this}stop(){return this._mixer._deactivateAction(this),this.reset()}reset(){return this.paused=!1,this.enabled=!0,this.time=0,this._loopCount=-1,this._startTime=null,this.stopFading().stopWarping()}isRunning(){return this.enabled&&!this.paused&&this.timeScale!==0&&this._startTime===null&&this._mixer._isActiveAction(this)}isScheduled(){return this._mixer._isActiveAction(this)}startAt(A){return this._startTime=A,this}setLoop(A,I){return this.loop=A,this.repetitions=I,this}setEffectiveWeight(A){return this.weight=A,this._effectiveWeight=this.enabled?A:0,this.stopFading()}getEffectiveWeight(){return this._effectiveWeight}fadeIn(A){return this._scheduleFading(A,0,1)}fadeOut(A){return this._scheduleFading(A,1,0)}crossFadeFrom(A,I,C){if(A.fadeOut(I),this.fadeIn(I),C){const B=this._clip.duration,i=A._clip.duration,Q=i/B,E=B/i;A.warp(1,Q,I),this.warp(E,1,I)}return this}crossFadeTo(A,I,C){return A.crossFadeFrom(this,I,C)}stopFading(){const A=this._weightInterpolant;return A!==null&&(this._weightInterpolant=null,this._mixer._takeBackControlInterpolant(A)),this}setEffectiveTimeScale(A){return this.timeScale=A,this._effectiveTimeScale=this.paused?0:A,this.stopWarping()}getEffectiveTimeScale(){return this._effectiveTimeScale}setDuration(A){return this.timeScale=this._clip.duration/A,this.stopWarping()}syncWith(A){return this.time=A.time,this.timeScale=A.timeScale,this.stopWarping()}halt(A){return this.warp(this._effectiveTimeScale,0,A)}warp(A,I,C){const B=this._mixer,i=B.time,Q=this.timeScale;let E=this._timeScaleInterpolant;E===null&&(E=B._lendControlInterpolant(),this._timeScaleInterpolant=E);const e=E.parameterPositions,n=E.sampleValues;return e[0]=i,e[1]=i+C,n[0]=A/Q,n[1]=I/Q,this}stopWarping(){const A=this._timeScaleInterpolant;return A!==null&&(this._timeScaleInterpolant=null,this._mixer._takeBackControlInterpolant(A)),this}getMixer(){return this._mixer}getClip(){return this._clip}getRoot(){return this._localRoot||this._mixer._root}_update(A,I,C,B){if(!this.enabled){this._updateWeight(A);return}const i=this._startTime;if(i!==null){const e=(A-i)*C;e<0||C===0?I=0:(this._startTime=null,I=C*e)}I*=this._updateTimeScale(A);const Q=this._updateTime(I),E=this._updateWeight(A);if(E>0){const e=this._interpolants,n=this._propertyBindings;switch(this.blendMode){case Lk:for(let a=0,s=e.length;a!==s;++a)e[a].evaluate(Q),n[a].accumulateAdditive(E);break;case rh:default:for(let a=0,s=e.length;a!==s;++a)e[a].evaluate(Q),n[a].accumulate(B,E)}}}_updateWeight(A){let I=0;if(this.enabled){I=this.weight;const C=this._weightInterpolant;if(C!==null){const B=C.evaluate(A)[0];I*=B,A>C.parameterPositions[1]&&(this.stopFading(),B===0&&(this.enabled=!1))}}return this._effectiveWeight=I,I}_updateTimeScale(A){let I=0;if(!this.paused){I=this.timeScale;const C=this._timeScaleInterpolant;if(C!==null){const B=C.evaluate(A)[0];I*=B,A>C.parameterPositions[1]&&(this.stopWarping(),I===0?this.paused=!0:this.timeScale=I)}}return this._effectiveTimeScale=I,I}_updateTime(A){const I=this._clip.duration,C=this.loop;let B=this.time+A,i=this._loopCount;const Q=C===wJ;if(A===0)return i===-1?B:Q&&(i&1)===1?I-B:B;if(C===cJ){i===-1&&(this._loopCount=0,this._setEndings(!0,!0,!1));A:{if(B>=I)B=I;else if(B<0)B=0;else{this.time=B;break A}this.clampWhenFinished?this.paused=!0:this.enabled=!1,this.time=B,this._mixer.dispatchEvent({type:"finished",action:this,direction:A<0?-1:1})}}else{if(i===-1&&(A>=0?(i=0,this._setEndings(!0,this.repetitions===0,Q)):this._setEndings(this.repetitions===0,!0,Q)),B>=I||B<0){const E=Math.floor(B/I);B-=I*E,i+=Math.abs(E);const e=this.repetitions-i;if(e<=0)this.clampWhenFinished?this.paused=!0:this.enabled=!1,B=A>0?I:0,this.time=B,this._mixer.dispatchEvent({type:"finished",action:this,direction:A>0?1:-1});else{if(e===1){const n=A<0;this._setEndings(n,!n,Q)}else this._setEndings(!1,!1,Q);this._loopCount=i,this.time=B,this._mixer.dispatchEvent({type:"loop",action:this,loopDelta:E})}}else this.time=B;if(Q&&(i&1)===1)return I-B}return B}_setEndings(A,I,C){const B=this._interpolantSettings;C?(B.endingStart=ye,B.endingEnd=ye):(A?B.endingStart=this.zeroSlopeAtStart?ye:Ge:B.endingStart=qa,I?B.endingEnd=this.zeroSlopeAtEnd?ye:Ge:B.endingEnd=qa)}_scheduleFading(A,I,C){const B=this._mixer,i=B.time;let Q=this._weightInterpolant;Q===null&&(Q=B._lendControlInterpolant(),this._weightInterpolant=Q);const E=Q.parameterPositions,e=Q.sampleValues;return E[0]=i,e[0]=I,E[1]=i+A,e[1]=C,this}}const yb=new Float32Array(1);class kb extends mQ{constructor(A){super(),this._root=A,this._initMemoryManager(),this._accuIndex=0,this.time=0,this.timeScale=1}_bindAction(A,I){const C=A._localRoot||this._root,B=A._clip.tracks,i=B.length,Q=A._propertyBindings,E=A._interpolants,e=C.uuid,n=this._bindingsByRootAndName;let a=n[e];a===void 0&&(a={},n[e]=a);for(let s=0;s!==i;++s){const r=B[s],D=r.name;let c=a[D];if(c!==void 0)++c.referenceCount,Q[s]=c;else{if(c=Q[s],c!==void 0){c._cacheIndex===null&&(++c.referenceCount,this._addInactiveBinding(c,e,D));continue}const y=I&&I._propertyBindings[s].binding.parsedPath;c=new JR($I.create(C,D,y),r.ValueTypeName,r.getValueSize()),++c.referenceCount,this._addInactiveBinding(c,e,D),Q[s]=c}E[s].resultBuffer=c.buffer}}_activateAction(A){if(!this._isActiveAction(A)){if(A._cacheIndex===null){const C=(A._localRoot||this._root).uuid,B=A._clip.uuid,i=this._actionsByClip[B];this._bindAction(A,i&&i.knownActions[0]),this._addInactiveAction(A,B,C)}const I=A._propertyBindings;for(let C=0,B=I.length;C!==B;++C){const i=I[C];i.useCount++===0&&(this._lendBinding(i),i.saveOriginalState())}this._lendAction(A)}}_deactivateAction(A){if(this._isActiveAction(A)){const I=A._propertyBindings;for(let C=0,B=I.length;C!==B;++C){const i=I[C];--i.useCount===0&&(i.restoreOriginalState(),this._takeBackBinding(i))}this._takeBackAction(A)}}_initMemoryManager(){this._actions=[],this._nActiveActions=0,this._actionsByClip={},this._bindings=[],this._nActiveBindings=0,this._bindingsByRootAndName={},this._controlInterpolants=[],this._nActiveControlInterpolants=0;const A=this;this.stats={actions:{get total(){return A._actions.length},get inUse(){return A._nActiveActions}},bindings:{get total(){return A._bindings.length},get inUse(){return A._nActiveBindings}},controlInterpolants:{get total(){return A._controlInterpolants.length},get inUse(){return A._nActiveControlInterpolants}}}}_isActiveAction(A){const I=A._cacheIndex;return I!==null&&I<this._nActiveActions}_addInactiveAction(A,I,C){const B=this._actions,i=this._actionsByClip;let Q=i[I];if(Q===void 0)Q={knownActions:[A],actionByRoot:{}},A._byClipCacheIndex=0,i[I]=Q;else{const E=Q.knownActions;A._byClipCacheIndex=E.length,E.push(A)}A._cacheIndex=B.length,B.push(A),Q.actionByRoot[C]=A}_removeInactiveAction(A){const I=this._actions,C=I[I.length-1],B=A._cacheIndex;C._cacheIndex=B,I[B]=C,I.pop(),A._cacheIndex=null;const i=A._clip.uuid,Q=this._actionsByClip,E=Q[i],e=E.knownActions,n=e[e.length-1],a=A._byClipCacheIndex;n._byClipCacheIndex=a,e[a]=n,e.pop(),A._byClipCacheIndex=null;const s=E.actionByRoot,r=(A._localRoot||this._root).uuid;delete s[r],e.length===0&&delete Q[i],this._removeInactiveBindingsForAction(A)}_removeInactiveBindingsForAction(A){const I=A._propertyBindings;for(let C=0,B=I.length;C!==B;++C){const i=I[C];--i.referenceCount===0&&this._removeInactiveBinding(i)}}_lendAction(A){const I=this._actions,C=A._cacheIndex,B=this._nActiveActions++,i=I[B];A._cacheIndex=B,I[B]=A,i._cacheIndex=C,I[C]=i}_takeBackAction(A){const I=this._actions,C=A._cacheIndex,B=--this._nActiveActions,i=I[B];A._cacheIndex=B,I[B]=A,i._cacheIndex=C,I[C]=i}_addInactiveBinding(A,I,C){const B=this._bindingsByRootAndName,i=this._bindings;let Q=B[I];Q===void 0&&(Q={},B[I]=Q),Q[C]=A,A._cacheIndex=i.length,i.push(A)}_removeInactiveBinding(A){const I=this._bindings,C=A.binding,B=C.rootNode.uuid,i=C.path,Q=this._bindingsByRootAndName,E=Q[B],e=I[I.length-1],n=A._cacheIndex;e._cacheIndex=n,I[n]=e,I.pop(),delete E[i],Object.keys(E).length===0&&delete Q[B]}_lendBinding(A){const I=this._bindings,C=A._cacheIndex,B=this._nActiveBindings++,i=I[B];A._cacheIndex=B,I[B]=A,i._cacheIndex=C,I[C]=i}_takeBackBinding(A){const I=this._bindings,C=A._cacheIndex,B=--this._nActiveBindings,i=I[B];A._cacheIndex=B,I[B]=A,i._cacheIndex=C,I[C]=i}_lendControlInterpolant(){const A=this._controlInterpolants,I=this._nActiveControlInterpolants++;let C=A[I];return C===void 0&&(C=new aM(new Float32Array(2),new Float32Array(2),1,yb),C.__cacheIndex=I,A[I]=C),C}_takeBackControlInterpolant(A){const I=this._controlInterpolants,C=A.__cacheIndex,B=--this._nActiveControlInterpolants,i=I[B];A.__cacheIndex=B,I[B]=A,i.__cacheIndex=C,I[C]=i}clipAction(A,I,C){const B=I||this._root,i=B.uuid;let Q=typeof A=="string"?qo.findByName(B,A):A;const E=Q!==null?Q.uuid:A,e=this._actionsByClip[E];let n=null;if(C===void 0&&(Q!==null?C=Q.blendMode:C=rh),e!==void 0){const s=e.actionByRoot[i];if(s!==void 0&&s.blendMode===C)return s;n=e.knownActions[0],Q===null&&(Q=n._clip)}if(Q===null)return null;const a=new RR(this,Q,I,C);return this._bindAction(a,n),this._addInactiveAction(a,E,i),a}existingAction(A,I){const C=I||this._root,B=C.uuid,i=typeof A=="string"?qo.findByName(C,A):A,Q=i?i.uuid:A,E=this._actionsByClip[Q];return E!==void 0&&E.actionByRoot[B]||null}stopAllAction(){const A=this._actions,I=this._nActiveActions;for(let C=I-1;C>=0;--C)A[C].stop();return this}update(A){A*=this.timeScale;const I=this._actions,C=this._nActiveActions,B=this.time+=A,i=Math.sign(A),Q=this._accuIndex^=1;for(let n=0;n!==C;++n)I[n]._update(B,A,i,Q);const E=this._bindings,e=this._nActiveBindings;for(let n=0;n!==e;++n)E[n].apply(Q);return this}setTime(A){this.time=0;for(let I=0;I<this._actions.length;I++)this._actions[I].time=0;return this.update(A)}getRoot(){return this._root}uncacheClip(A){const I=this._actions,C=A.uuid,B=this._actionsByClip,i=B[C];if(i!==void 0){const Q=i.knownActions;for(let E=0,e=Q.length;E!==e;++E){const n=Q[E];this._deactivateAction(n);const a=n._cacheIndex,s=I[I.length-1];n._cacheIndex=null,n._byClipCacheIndex=null,s._cacheIndex=a,I[a]=s,I.pop(),this._removeInactiveBindingsForAction(n)}delete B[C]}}uncacheRoot(A){const I=A.uuid,C=this._actionsByClip;for(const Q in C){const E=C[Q].actionByRoot,e=E[I];e!==void 0&&(this._deactivateAction(e),this._removeInactiveAction(e))}const B=this._bindingsByRootAndName,i=B[I];if(i!==void 0)for(const Q in i){const E=i[Q];E.restoreOriginalState(),this._removeInactiveBinding(E)}}uncacheAction(A,I){const C=this.existingAction(A,I);C!==null&&(this._deactivateAction(C),this._removeInactiveAction(C))}}class kM{constructor(A){this.value=A}clone(){return new kM(this.value.clone===void 0?this.value:this.value.clone())}}let Mb=0;class ub extends mQ{constructor(){super(),this.isUniformsGroup=!0,Object.defineProperty(this,"id",{value:Mb++}),this.name="",this.usage=Ha,this.uniforms=[]}add(A){return this.uniforms.push(A),this}remove(A){const I=this.uniforms.indexOf(A);return I!==-1&&this.uniforms.splice(I,1),this}setName(A){return this.name=A,this}setUsage(A){return this.usage=A,this}dispose(){return this.dispatchEvent({type:"dispose"}),this}copy(A){this.name=A.name,this.usage=A.usage;const I=A.uniforms;this.uniforms.length=0;for(let C=0,B=I.length;C<B;C++){const i=Array.isArray(I[C])?I[C]:[I[C]];for(let Q=0;Q<i.length;Q++)this.uniforms.push(i[Q].clone())}return this}clone(){return new this.constructor().copy(this)}}class Ub extends as{constructor(A,I,C=1){super(A,I),this.isInstancedInterleavedBuffer=!0,this.meshPerAttribute=C}copy(A){return super.copy(A),this.meshPerAttribute=A.meshPerAttribute,this}clone(A){const I=super.clone(A);return I.meshPerAttribute=this.meshPerAttribute,I}toJSON(A){const I=super.toJSON(A);return I.isInstancedInterleavedBuffer=!0,I.meshPerAttribute=this.meshPerAttribute,I}}class db{constructor(A,I,C,B,i){this.isGLBufferAttribute=!0,this.name="",this.buffer=A,this.type=I,this.itemSize=C,this.elementSize=B,this.count=i,this.version=0}set needsUpdate(A){A===!0&&this.version++}setBuffer(A){return this.buffer=A,this}setType(A,I){return this.type=A,this.elementSize=I,this}setItemSize(A){return this.itemSize=A,this}setCount(A){return this.count=A,this}}const Fp=new hI;class MM{constructor(A,I,C=0,B=1/0){this.ray=new bo(A,I),this.near=C,this.far=B,this.camera=null,this.layers=new Re,this.params={Mesh:{},Line:{threshold:1},LOD:{},Points:{threshold:1},Sprite:{}}}set(A,I){this.ray.set(A,I)}setFromCamera(A,I){I.isPerspectiveCamera?(this.ray.origin.setFromMatrixPosition(I.matrixWorld),this.ray.direction.set(A.x,A.y,.5).unproject(I).sub(this.ray.origin).normalize(),this.camera=I):I.isOrthographicCamera?(this.ray.origin.set(A.x,A.y,(I.near+I.far)/(I.near-I.far)).unproject(I),this.ray.direction.set(0,0,-1).transformDirection(I.matrixWorld),this.camera=I):console.error("THREE.Raycaster: Unsupported camera type: "+I.type)}setFromXRController(A){return Fp.identity().extractRotation(A.matrixWorld),this.ray.origin.setFromMatrixPosition(A.matrixWorld),this.ray.direction.set(0,0,-1).applyMatrix4(Fp),this}intersectObject(A,I=!0,C=[]){return uy(A,this,C,I),C.sort(Kp),C}intersectObjects(A,I=!0,C=[]){for(let B=0,i=A.length;B<i;B++)uy(A[B],this,C,I);return C.sort(Kp),C}}function Kp(g,A){return g.distance-A.distance}function uy(g,A,I,C){let B=!0;if(g.layers.test(A.layers)&&g.raycast(A,I)===!1&&(B=!1),B===!0&&C===!0){const i=g.children;for(let Q=0,E=i.length;Q<E;Q++)uy(i[Q],A,I,!0)}}class pb{constructor(A=1,I=0,C=0){return this.radius=A,this.phi=I,this.theta=C,this}set(A,I,C){return this.radius=A,this.phi=I,this.theta=C,this}copy(A){return this.radius=A.radius,this.phi=A.phi,this.theta=A.theta,this}makeSafe(){return this.phi=Math.max(1e-6,Math.min(Math.PI-1e-6,this.phi)),this}setFromVector3(A){return this.setFromCartesianCoords(A.x,A.y,A.z)}setFromCartesianCoords(A,I,C){return this.radius=Math.sqrt(A*A+I*I+C*C),this.radius===0?(this.theta=0,this.phi=0):(this.theta=Math.atan2(A,C),this.phi=Math.acos(bg(I/this.radius,-1,1))),this}clone(){return new this.constructor().copy(this)}}class Nb{constructor(A=1,I=0,C=0){return this.radius=A,this.theta=I,this.y=C,this}set(A,I,C){return this.radius=A,this.theta=I,this.y=C,this}copy(A){return this.radius=A.radius,this.theta=A.theta,this.y=A.y,this}setFromVector3(A){return this.setFromCartesianCoords(A.x,A.y,A.z)}setFromCartesianCoords(A,I,C){return this.radius=Math.sqrt(A*A+C*C),this.theta=Math.atan2(A,C),this.y=I,this}clone(){return new this.constructor().copy(this)}}const Jp=new pA;class Fb{constructor(A=new pA(1/0,1/0),I=new pA(-1/0,-1/0)){this.isBox2=!0,this.min=A,this.max=I}set(A,I){return this.min.copy(A),this.max.copy(I),this}setFromPoints(A){this.makeEmpty();for(let I=0,C=A.length;I<C;I++)this.expandByPoint(A[I]);return this}setFromCenterAndSize(A,I){const C=Jp.copy(I).multiplyScalar(.5);return this.min.copy(A).sub(C),this.max.copy(A).add(C),this}clone(){return new this.constructor().copy(this)}copy(A){return this.min.copy(A.min),this.max.copy(A.max),this}makeEmpty(){return this.min.x=this.min.y=1/0,this.max.x=this.max.y=-1/0,this}isEmpty(){return this.max.x<this.min.x||this.max.y<this.min.y}getCenter(A){return this.isEmpty()?A.set(0,0):A.addVectors(this.min,this.max).multiplyScalar(.5)}getSize(A){return this.isEmpty()?A.set(0,0):A.subVectors(this.max,this.min)}expandByPoint(A){return this.min.min(A),this.max.max(A),this}expandByVector(A){return this.min.sub(A),this.max.add(A),this}expandByScalar(A){return this.min.addScalar(-A),this.max.addScalar(A),this}containsPoint(A){return!(A.x<this.min.x||A.x>this.max.x||A.y<this.min.y||A.y>this.max.y)}containsBox(A){return this.min.x<=A.min.x&&A.max.x<=this.max.x&&this.min.y<=A.min.y&&A.max.y<=this.max.y}getParameter(A,I){return I.set((A.x-this.min.x)/(this.max.x-this.min.x),(A.y-this.min.y)/(this.max.y-this.min.y))}intersectsBox(A){return!(A.max.x<this.min.x||A.min.x>this.max.x||A.max.y<this.min.y||A.min.y>this.max.y)}clampPoint(A,I){return I.copy(A).clamp(this.min,this.max)}distanceToPoint(A){return this.clampPoint(A,Jp).distanceTo(A)}intersect(A){return this.min.max(A.min),this.max.min(A.max),this.isEmpty()&&this.makeEmpty(),this}union(A){return this.min.min(A.min),this.max.max(A.max),this}translate(A){return this.min.add(A),this.max.add(A),this}equals(A){return A.min.equals(this.min)&&A.max.equals(this.max)}}const Rp=new T,wD=new T;class Kb{constructor(A=new T,I=new T){this.start=A,this.end=I}set(A,I){return this.start.copy(A),this.end.copy(I),this}copy(A){return this.start.copy(A.start),this.end.copy(A.end),this}getCenter(A){return A.addVectors(this.start,this.end).multiplyScalar(.5)}delta(A){return A.subVectors(this.end,this.start)}distanceSq(){return this.start.distanceToSquared(this.end)}distance(){return this.start.distanceTo(this.end)}at(A,I){return this.delta(I).multiplyScalar(A).add(this.start)}closestPointToPointParameter(A,I){Rp.subVectors(A,this.start),wD.subVectors(this.end,this.start);const C=wD.dot(wD);let i=wD.dot(Rp)/C;return I&&(i=bg(i,0,1)),i}closestPointToPoint(A,I,C){const B=this.closestPointToPointParameter(A,I);return this.delta(C).multiplyScalar(B).add(this.start)}applyMatrix4(A){return this.start.applyMatrix4(A),this.end.applyMatrix4(A),this}equals(A){return A.start.equals(this.start)&&A.end.equals(this.end)}clone(){return new this.constructor().copy(this)}}const fp=new T;class Jb extends VI{constructor(A,I){super(),this.light=A,this.matrixAutoUpdate=!1,this.color=I,this.type="SpotLightHelper";const C=new FI,B=[0,0,0,0,0,1,0,0,0,1,0,1,0,0,0,-1,0,1,0,0,0,0,1,1,0,0,0,0,-1,1];for(let Q=0,E=1,e=32;Q<e;Q++,E++){const n=Q/e*Math.PI*2,a=E/e*Math.PI*2;B.push(Math.cos(n),Math.sin(n),1,Math.cos(a),Math.sin(a),1)}C.setAttribute("position",new aI(B,3));const i=new PC({fog:!1,toneMapped:!1});this.cone=new Ui(C,i),this.add(this.cone),this.update()}dispose(){this.cone.geometry.dispose(),this.cone.material.dispose()}update(){this.light.updateWorldMatrix(!0,!1),this.light.target.updateWorldMatrix(!0,!1),this.parent?(this.parent.updateWorldMatrix(!0),this.matrix.copy(this.parent.matrixWorld).invert().multiply(this.light.matrixWorld)):this.matrix.copy(this.light.matrixWorld),this.matrixWorld.copy(this.light.matrixWorld);const A=this.light.distance?this.light.distance:1e3,I=A*Math.tan(this.light.angle);this.cone.scale.set(I,I,A),fp.setFromMatrixPosition(this.light.target.matrixWorld),this.cone.lookAt(fp),this.color!==void 0?this.cone.material.color.set(this.color):this.cone.material.color.copy(this.light.color)}}const IE=new T,GD=new hI,kw=new hI;class Rb extends Ui{constructor(A){const I=fR(A),C=new FI,B=[],i=[],Q=new VA(0,0,1),E=new VA(0,1,0);for(let n=0;n<I.length;n++){const a=I[n];a.parent&&a.parent.isBone&&(B.push(0,0,0),B.push(0,0,0),i.push(Q.r,Q.g,Q.b),i.push(E.r,E.g,E.b))}C.setAttribute("position",new aI(B,3)),C.setAttribute("color",new aI(i,3));const e=new PC({vertexColors:!0,depthTest:!1,depthWrite:!1,toneMapped:!1,transparent:!0});super(C,e),this.isSkeletonHelper=!0,this.type="SkeletonHelper",this.root=A,this.bones=I,this.matrix=A.matrixWorld,this.matrixAutoUpdate=!1}updateMatrixWorld(A){const I=this.bones,C=this.geometry,B=C.getAttribute("position");kw.copy(this.root.matrixWorld).invert();for(let i=0,Q=0;i<I.length;i++){const E=I[i];E.parent&&E.parent.isBone&&(GD.multiplyMatrices(kw,E.matrixWorld),IE.setFromMatrixPosition(GD),B.setXYZ(Q,IE.x,IE.y,IE.z),GD.multiplyMatrices(kw,E.parent.matrixWorld),IE.setFromMatrixPosition(GD),B.setXYZ(Q+1,IE.x,IE.y,IE.z),Q+=2)}C.getAttribute("position").needsUpdate=!0,super.updateMatrixWorld(A)}dispose(){this.geometry.dispose(),this.material.dispose()}}function fR(g){const A=[];g.isBone===!0&&A.push(g);for(let I=0;I<g.children.length;I++)A.push.apply(A,fR(g.children[I]));return A}class fb extends Jg{constructor(A,I,C){const B=new hs(I,4,2),i=new rB({wireframe:!0,fog:!1,toneMapped:!1});super(B,i),this.light=A,this.color=C,this.type="PointLightHelper",this.matrix=this.light.matrixWorld,this.matrixAutoUpdate=!1,this.update()}dispose(){this.geometry.dispose(),this.material.dispose()}update(){this.light.updateWorldMatrix(!0,!1),this.color!==void 0?this.material.color.set(this.color):this.material.color.copy(this.light.color)}}const qb=new T,qp=new VA,Yp=new VA;class Yb extends VI{constructor(A,I,C){super(),this.light=A,this.matrix=A.matrixWorld,this.matrixAutoUpdate=!1,this.color=C,this.type="HemisphereLightHelper";const B=new ls(I);B.rotateY(Math.PI*.5),this.material=new rB({wireframe:!0,fog:!1,toneMapped:!1}),this.color===void 0&&(this.material.vertexColors=!0);const i=B.getAttribute("position"),Q=new Float32Array(i.count*3);B.setAttribute("color",new pI(Q,3)),this.add(new Jg(B,this.material)),this.update()}dispose(){this.children[0].geometry.dispose(),this.children[0].material.dispose()}update(){const A=this.children[0];if(this.color!==void 0)this.material.color.set(this.color);else{const I=A.geometry.getAttribute("color");qp.copy(this.light.color),Yp.copy(this.light.groundColor);for(let C=0,B=I.count;C<B;C++){const i=C<B/2?qp:Yp;I.setXYZ(C,i.r,i.g,i.b)}I.needsUpdate=!0}this.light.updateWorldMatrix(!0,!1),A.lookAt(qb.setFromMatrixPosition(this.light.matrixWorld).negate())}}class mb extends Ui{constructor(A=10,I=10,C=4473924,B=8947848){C=new VA(C),B=new VA(B);const i=I/2,Q=A/I,E=A/2,e=[],n=[];for(let r=0,D=0,c=-E;r<=I;r++,c+=Q){e.push(-E,0,c,E,0,c),e.push(c,0,-E,c,0,E);const y=r===i?C:B;y.toArray(n,D),D+=3,y.toArray(n,D),D+=3,y.toArray(n,D),D+=3,y.toArray(n,D),D+=3}const a=new FI;a.setAttribute("position",new aI(e,3)),a.setAttribute("color",new aI(n,3));const s=new PC({vertexColors:!0,toneMapped:!1});super(a,s),this.type="GridHelper"}dispose(){this.geometry.dispose(),this.material.dispose()}}class Lb extends Ui{constructor(A=10,I=16,C=8,B=64,i=4473924,Q=8947848){i=new VA(i),Q=new VA(Q);const E=[],e=[];if(I>1)for(let s=0;s<I;s++){const r=s/I*(Math.PI*2),D=Math.sin(r)*A,c=Math.cos(r)*A;E.push(0,0,0),E.push(D,0,c);const y=s&1?i:Q;e.push(y.r,y.g,y.b),e.push(y.r,y.g,y.b)}for(let s=0;s<C;s++){const r=s&1?i:Q,D=A-A/C*s;for(let c=0;c<B;c++){let y=c/B*(Math.PI*2),S=Math.sin(y)*D,l=Math.cos(y)*D;E.push(S,0,l),e.push(r.r,r.g,r.b),y=(c+1)/B*(Math.PI*2),S=Math.sin(y)*D,l=Math.cos(y)*D,E.push(S,0,l),e.push(r.r,r.g,r.b)}}const n=new FI;n.setAttribute("position",new aI(E,3)),n.setAttribute("color",new aI(e,3));const a=new PC({vertexColors:!0,toneMapped:!1});super(n,a),this.type="PolarGridHelper"}dispose(){this.geometry.dispose(),this.material.dispose()}}const mp=new T,yD=new T,Lp=new T;class Hb extends VI{constructor(A,I,C){super(),this.light=A,this.matrix=A.matrixWorld,this.matrixAutoUpdate=!1,this.color=C,this.type="DirectionalLightHelper",I===void 0&&(I=1);let B=new FI;B.setAttribute("position",new aI([-I,I,0,I,I,0,I,-I,0,-I,-I,0,-I,I,0],3));const i=new PC({fog:!1,toneMapped:!1});this.lightPlane=new KQ(B,i),this.add(this.lightPlane),B=new FI,B.setAttribute("position",new aI([0,0,0,0,0,1],3)),this.targetLine=new KQ(B,i),this.add(this.targetLine),this.update()}dispose(){this.lightPlane.geometry.dispose(),this.lightPlane.material.dispose(),this.targetLine.geometry.dispose(),this.targetLine.material.dispose()}update(){this.light.updateWorldMatrix(!0,!1),this.light.target.updateWorldMatrix(!0,!1),mp.setFromMatrixPosition(this.light.matrixWorld),yD.setFromMatrixPosition(this.light.target.matrixWorld),Lp.subVectors(yD,mp),this.lightPlane.lookAt(yD),this.color!==void 0?(this.lightPlane.material.color.set(this.color),this.targetLine.material.color.set(this.color)):(this.lightPlane.material.color.copy(this.light.color),this.targetLine.material.color.copy(this.light.color)),this.targetLine.lookAt(yD),this.targetLine.scale.z=Lp.length()}}const kD=new T,Tg=new ts;class Tb extends Ui{constructor(A){const I=new FI,C=new PC({color:16777215,vertexColors:!0,toneMapped:!1}),B=[],i=[],Q={};E("n1","n2"),E("n2","n4"),E("n4","n3"),E("n3","n1"),E("f1","f2"),E("f2","f4"),E("f4","f3"),E("f3","f1"),E("n1","f1"),E("n2","f2"),E("n3","f3"),E("n4","f4"),E("p","n1"),E("p","n2"),E("p","n3"),E("p","n4"),E("u1","u2"),E("u2","u3"),E("u3","u1"),E("c","t"),E("p","c"),E("cn1","cn2"),E("cn3","cn4"),E("cf1","cf2"),E("cf3","cf4");function E(c,y){e(c),e(y)}function e(c){B.push(0,0,0),i.push(0,0,0),Q[c]===void 0&&(Q[c]=[]),Q[c].push(B.length/3-1)}I.setAttribute("position",new aI(B,3)),I.setAttribute("color",new aI(i,3)),super(I,C),this.type="CameraHelper",this.camera=A,this.camera.updateProjectionMatrix&&this.camera.updateProjectionMatrix(),this.matrix=A.matrixWorld,this.matrixAutoUpdate=!1,this.pointMap=Q,this.update();const n=new VA(16755200),a=new VA(16711680),s=new VA(43775),r=new VA(16777215),D=new VA(3355443);this.setColors(n,a,s,r,D)}setColors(A,I,C,B,i){const E=this.geometry.getAttribute("color");E.setXYZ(0,A.r,A.g,A.b),E.setXYZ(1,A.r,A.g,A.b),E.setXYZ(2,A.r,A.g,A.b),E.setXYZ(3,A.r,A.g,A.b),E.setXYZ(4,A.r,A.g,A.b),E.setXYZ(5,A.r,A.g,A.b),E.setXYZ(6,A.r,A.g,A.b),E.setXYZ(7,A.r,A.g,A.b),E.setXYZ(8,A.r,A.g,A.b),E.setXYZ(9,A.r,A.g,A.b),E.setXYZ(10,A.r,A.g,A.b),E.setXYZ(11,A.r,A.g,A.b),E.setXYZ(12,A.r,A.g,A.b),E.setXYZ(13,A.r,A.g,A.b),E.setXYZ(14,A.r,A.g,A.b),E.setXYZ(15,A.r,A.g,A.b),E.setXYZ(16,A.r,A.g,A.b),E.setXYZ(17,A.r,A.g,A.b),E.setXYZ(18,A.r,A.g,A.b),E.setXYZ(19,A.r,A.g,A.b),E.setXYZ(20,A.r,A.g,A.b),E.setXYZ(21,A.r,A.g,A.b),E.setXYZ(22,A.r,A.g,A.b),E.setXYZ(23,A.r,A.g,A.b),E.setXYZ(24,I.r,I.g,I.b),E.setXYZ(25,I.r,I.g,I.b),E.setXYZ(26,I.r,I.g,I.b),E.setXYZ(27,I.r,I.g,I.b),E.setXYZ(28,I.r,I.g,I.b),E.setXYZ(29,I.r,I.g,I.b),E.setXYZ(30,I.r,I.g,I.b),E.setXYZ(31,I.r,I.g,I.b),E.setXYZ(32,C.r,C.g,C.b),E.setXYZ(33,C.r,C.g,C.b),E.setXYZ(34,C.r,C.g,C.b),E.setXYZ(35,C.r,C.g,C.b),E.setXYZ(36,C.r,C.g,C.b),E.setXYZ(37,C.r,C.g,C.b),E.setXYZ(38,B.r,B.g,B.b),E.setXYZ(39,B.r,B.g,B.b),E.setXYZ(40,i.r,i.g,i.b),E.setXYZ(41,i.r,i.g,i.b),E.setXYZ(42,i.r,i.g,i.b),E.setXYZ(43,i.r,i.g,i.b),E.setXYZ(44,i.r,i.g,i.b),E.setXYZ(45,i.r,i.g,i.b),E.setXYZ(46,i.r,i.g,i.b),E.setXYZ(47,i.r,i.g,i.b),E.setXYZ(48,i.r,i.g,i.b),E.setXYZ(49,i.r,i.g,i.b),E.needsUpdate=!0}update(){const A=this.geometry,I=this.pointMap,C=1,B=1;Tg.projectionMatrixInverse.copy(this.camera.projectionMatrixInverse),Pg("c",I,A,Tg,0,0,-1),Pg("t",I,A,Tg,0,0,1),Pg("n1",I,A,Tg,-C,-B,-1),Pg("n2",I,A,Tg,C,-B,-1),Pg("n3",I,A,Tg,-C,B,-1),Pg("n4",I,A,Tg,C,B,-1),Pg("f1",I,A,Tg,-C,-B,1),Pg("f2",I,A,Tg,C,-B,1),Pg("f3",I,A,Tg,-C,B,1),Pg("f4",I,A,Tg,C,B,1),Pg("u1",I,A,Tg,C*.7,B*1.1,-1),Pg("u2",I,A,Tg,-C*.7,B*1.1,-1),Pg("u3",I,A,Tg,0,B*2,-1),Pg("cf1",I,A,Tg,-C,0,1),Pg("cf2",I,A,Tg,C,0,1),Pg("cf3",I,A,Tg,0,-B,1),Pg("cf4",I,A,Tg,0,B,1),Pg("cn1",I,A,Tg,-C,0,-1),Pg("cn2",I,A,Tg,C,0,-1),Pg("cn3",I,A,Tg,0,-B,-1),Pg("cn4",I,A,Tg,0,B,-1),A.getAttribute("position").needsUpdate=!0}dispose(){this.geometry.dispose(),this.material.dispose()}}function Pg(g,A,I,C,B,i,Q){kD.set(B,i,Q).unproject(C);const E=A[g];if(E!==void 0){const e=I.getAttribute("position");for(let n=0,a=E.length;n<a;n++)e.setXYZ(E[n],kD.x,kD.y,kD.z)}}const MD=new bC;class xb extends Ui{constructor(A,I=16776960){const C=new Uint16Array([0,1,1,2,2,3,3,0,4,5,5,6,6,7,7,4,0,4,1,5,2,6,3,7]),B=new Float32Array(8*3),i=new FI;i.setIndex(new pI(C,1)),i.setAttribute("position",new pI(B,3)),super(i,new PC({color:I,toneMapped:!1})),this.object=A,this.type="BoxHelper",this.matrixAutoUpdate=!1,this.update()}update(A){if(A!==void 0&&console.warn("THREE.BoxHelper: .update() has no longer arguments."),this.object!==void 0&&MD.setFromObject(this.object),MD.isEmpty())return;const I=MD.min,C=MD.max,B=this.geometry.attributes.position,i=B.array;i[0]=C.x,i[1]=C.y,i[2]=C.z,i[3]=I.x,i[4]=C.y,i[5]=C.z,i[6]=I.x,i[7]=I.y,i[8]=C.z,i[9]=C.x,i[10]=I.y,i[11]=C.z,i[12]=C.x,i[13]=C.y,i[14]=I.z,i[15]=I.x,i[16]=C.y,i[17]=I.z,i[18]=I.x,i[19]=I.y,i[20]=I.z,i[21]=C.x,i[22]=I.y,i[23]=I.z,B.needsUpdate=!0,this.geometry.computeBoundingSphere()}setFromObject(A){return this.object=A,this.update(),this}copy(A,I){return super.copy(A,I),this.object=A.object,this}dispose(){this.geometry.dispose(),this.material.dispose()}}class vb extends Ui{constructor(A,I=16776960){const C=new Uint16Array([0,1,1,2,2,3,3,0,4,5,5,6,6,7,7,4,0,4,1,5,2,6,3,7]),B=[1,1,1,-1,1,1,-1,-1,1,1,-1,1,1,1,-1,-1,1,-1,-1,-1,-1,1,-1,-1],i=new FI;i.setIndex(new pI(C,1)),i.setAttribute("position",new aI(B,3)),super(i,new PC({color:I,toneMapped:!1})),this.box=A,this.type="Box3Helper",this.geometry.computeBoundingSphere()}updateMatrixWorld(A){const I=this.box;I.isEmpty()||(I.getCenter(this.position),I.getSize(this.scale),this.scale.multiplyScalar(.5),super.updateMatrixWorld(A))}dispose(){this.geometry.dispose(),this.material.dispose()}}class Ob extends KQ{constructor(A,I=1,C=16776960){const B=C,i=[1,-1,0,-1,1,0,-1,-1,0,1,1,0,-1,1,0,-1,-1,0,1,-1,0,1,1,0],Q=new FI;Q.setAttribute("position",new aI(i,3)),Q.computeBoundingSphere(),super(Q,new PC({color:B,toneMapped:!1})),this.type="PlaneHelper",this.plane=A,this.size=I;const E=[1,1,0,-1,1,0,-1,-1,0,1,1,0,-1,-1,0,1,-1,0],e=new FI;e.setAttribute("position",new aI(E,3)),e.computeBoundingSphere(),this.add(new Jg(e,new rB({color:B,opacity:.2,transparent:!0,depthWrite:!1,toneMapped:!1})))}updateMatrixWorld(A){this.position.set(0,0,0),this.scale.set(.5*this.size,.5*this.size,1),this.lookAt(this.plane.normal),this.translateZ(-this.plane.constant),super.updateMatrixWorld(A)}dispose(){this.geometry.dispose(),this.material.dispose(),this.children[0].geometry.dispose(),this.children[0].material.dispose()}}const Hp=new T;let uD,Mw;class bb extends VI{constructor(A=new T(0,0,1),I=new T(0,0,0),C=1,B=16776960,i=C*.2,Q=i*.2){super(),this.type="ArrowHelper",uD===void 0&&(uD=new FI,uD.setAttribute("position",new aI([0,0,0,0,1,0],3)),Mw=new Zo(0,.5,1,5,1),Mw.translate(0,-.5,0)),this.position.copy(I),this.line=new KQ(uD,new PC({color:B,toneMapped:!1})),this.line.matrixAutoUpdate=!1,this.add(this.line),this.cone=new Jg(Mw,new rB({color:B,toneMapped:!1})),this.cone.matrixAutoUpdate=!1,this.add(this.cone),this.setDirection(A),this.setLength(C,i,Q)}setDirection(A){if(A.y>.99999)this.quaternion.set(0,0,0,1);else if(A.y<-.99999)this.quaternion.set(1,0,0,0);else{Hp.set(A.z,0,-A.x).normalize();const I=Math.acos(A.y);this.quaternion.setFromAxisAngle(Hp,I)}}setLength(A,I=A*.2,C=I*.2){this.line.scale.set(1,Math.max(1e-4,A-I),1),this.line.updateMatrix(),this.cone.scale.set(C,I,C),this.cone.position.y=A,this.cone.updateMatrix()}setColor(A){this.line.material.color.set(A),this.cone.material.color.set(A)}copy(A){return super.copy(A,!1),this.line.copy(A.line),this.cone.copy(A.cone),this}dispose(){this.line.geometry.dispose(),this.line.material.dispose(),this.cone.geometry.dispose(),this.cone.material.dispose()}}class _b extends Ui{constructor(A=1){const I=[0,0,0,A,0,0,0,0,0,0,A,0,0,0,0,0,0,A],C=[1,0,0,1,.6,0,0,1,0,.6,1,0,0,0,1,0,.6,1],B=new FI;B.setAttribute("position",new aI(I,3)),B.setAttribute("color",new aI(C,3));const i=new PC({vertexColors:!0,toneMapped:!1});super(B,i),this.type="AxesHelper"}setColors(A,I,C){const B=new VA,i=this.geometry.attributes.color.array;return B.set(A),B.toArray(i,0),B.toArray(i,3),B.set(I),B.toArray(i,6),B.toArray(i,9),B.set(C),B.toArray(i,12),B.toArray(i,15),this.geometry.attributes.color.needsUpdate=!0,this}dispose(){this.geometry.dispose(),this.material.dispose()}}class Zb{constructor(){this.type="ShapePath",this.color=new VA,this.subPaths=[],this.currentPath=null}moveTo(A,I){return this.currentPath=new va,this.subPaths.push(this.currentPath),this.currentPath.moveTo(A,I),this}lineTo(A,I){return this.currentPath.lineTo(A,I),this}quadraticCurveTo(A,I,C,B){return this.currentPath.quadraticCurveTo(A,I,C,B),this}bezierCurveTo(A,I,C,B,i,Q){return this.currentPath.bezierCurveTo(A,I,C,B,i,Q),this}splineThru(A){return this.currentPath.splineThru(A),this}toShapes(A){function I(l){const w=[];for(let k=0,U=l.length;k<U;k++){const f=l[k],F=new fe;F.curves=f.curves,w.push(F)}return w}function C(l,w){const k=w.length;let U=!1;for(let f=k-1,F=0;F<k;f=F++){let J=w[f],q=w[F],K=q.x-J.x,N=q.y-J.y;if(Math.abs(N)>Number.EPSILON){if(N<0&&(J=w[F],K=-K,q=w[f],N=-N),l.y<J.y||l.y>q.y)continue;if(l.y===J.y){if(l.x===J.x)return!0}else{const m=N*(l.x-J.x)-K*(l.y-J.y);if(m===0)return!0;if(m<0)continue;U=!U}}else{if(l.y!==J.y)continue;if(q.x<=l.x&&l.x<=J.x||J.x<=l.x&&l.x<=q.x)return!0}}return U}const B=zi.isClockWise,i=this.subPaths;if(i.length===0)return[];let Q,E,e;const n=[];if(i.length===1)return E=i[0],e=new fe,e.curves=E.curves,n.push(e),n;let a=!B(i[0].getPoints());a=A?!a:a;const s=[],r=[];let D=[],c=0,y;r[c]=void 0,D[c]=[];for(let l=0,w=i.length;l<w;l++)E=i[l],y=E.getPoints(),Q=B(y),Q=A?!Q:Q,Q?(!a&&r[c]&&c++,r[c]={s:new fe,p:y},r[c].s.curves=E.curves,a&&c++,D[c]=[]):D[c].push({h:E,p:y[0]});if(!r[0])return I(i);if(r.length>1){let l=!1,w=0;for(let k=0,U=r.length;k<U;k++)s[k]=[];for(let k=0,U=r.length;k<U;k++){const f=D[k];for(let F=0;F<f.length;F++){const J=f[F];let q=!0;for(let K=0;K<r.length;K++)C(J.p,r[K].p)&&(k!==K&&w++,q?(q=!1,s[K].push(J)):l=!0);q&&s[k].push(J)}}w>0&&l===!1&&(D=s)}let S;for(let l=0,w=r.length;l<w;l++){e=r[l].s,n.push(e),S=D[l];for(let k=0,U=S.length;k<U;k++)e.holes.push(S[k].h)}return n}}class Pb extends fB{constructor(A=1,I=1,C=1,B={}){console.warn('THREE.WebGLMultipleRenderTargets has been deprecated and will be removed in r172. Use THREE.WebGLRenderTarget and set the "count" parameter to enable MRT.'),super(A,I,{...B,count:C}),this.isWebGLMultipleRenderTargets=!0}get texture(){return this.textures}}typeof __THREE_DEVTOOLS__<"u"&&__THREE_DEVTOOLS__.dispatchEvent(new CustomEvent("register",{detail:{revision:At}}));typeof window<"u"&&(window.__THREE__?console.warn("WARNING: Multiple instances of Three.js being imported."):window.__THREE__=At);const Wb=Object.freeze(Object.defineProperty({__proto__:null,ACESFilmicToneMapping:Fk,AddEquation:oE,AddOperation:CJ,AdditiveAnimationBlendMode:Lk,AdditiveBlending:TG,AgXToneMapping:eJ,AlphaFormat:aJ,AlwaysCompare:KJ,AlwaysDepth:jK,AlwaysStencilFunc:hy,AmbientLight:MR,AnimationAction:RR,AnimationClip:qo,AnimationLoader:XO,AnimationMixer:kb,AnimationObjectGroup:Gb,AnimationUtils:WO,ArcCurve:$J,ArrayCamera:WJ,ArrowHelper:bb,AttachedBindMode:OG,Audio:KR,AudioAnalyser:nb,AudioContext:SM,AudioListener:eb,AudioLoader:ib,AxesHelper:_b,BackSide:BB,BasicDepthPacking:yJ,BasicShadowMap:FK,BatchedMesh:XJ,Bone:wh,BooleanKeyframeTrack:Ct,Box2:Fb,Box3:bC,Box3Helper:vb,BoxGeometry:It,BoxHelper:xb,BufferAttribute:pI,BufferGeometry:FI,BufferGeometryLoader:NR,ByteType:Kk,Cache:yQ,Camera:ts,CameraHelper:Tb,CanvasTexture:cO,CapsuleGeometry:Mh,CatmullRomCurve3:iM,CineonToneMapping:QJ,CircleGeometry:uh,ClampToEdgeWrapping:Vg,Clock:wM,Color:VA,ColorKeyframeTrack:sM,ColorManagement:ag,CompressedArrayTexture:lO,CompressedCubeTexture:hO,CompressedTexture:yh,CompressedTextureLoader:$O,ConeGeometry:Uh,ConstantAlphaFactor:PK,ConstantColorFactor:_K,CubeCamera:TJ,CubeReflectionMapping:$i,CubeRefractionMapping:pE,CubeTexture:os,CubeTextureLoader:yR,CubeUVReflectionMapping:Oo,CubicBezierCurve:QM,CubicBezierCurve3:AR,CubicInterpolant:cR,CullFaceBack:HG,CullFaceFront:NK,CullFaceFrontBack:tL,CullFaceNone:pK,Curve:di,CurvePath:gR,CustomBlending:KK,CustomToneMapping:EJ,CylinderGeometry:Zo,Cylindrical:Nb,Data3DTexture:bk,DataArrayTexture:lh,DataTexture:ji,DataTextureLoader:rM,DataUtils:Me,DecrementStencilOp:lL,DecrementWrapStencilOp:cL,DefaultLoadingManager:GR,DepthFormat:Ke,DepthStencilFormat:xe,DepthTexture:Vk,DetachedBindMode:oJ,DirectionalLight:cM,DirectionalLightHelper:Hb,DiscreteInterpolant:SR,DisplayP3ColorSpace:Dh,DodecahedronGeometry:dh,DoubleSide:dB,DstAlphaFactor:TK,DstColorFactor:vK,DynamicCopyUsage:JL,DynamicDrawUsage:JJ,DynamicReadUsage:NL,EdgesGeometry:CR,EllipseCurve:kh,EqualCompare:dJ,EqualDepth:XK,EqualStencilFunc:yL,EquirectangularReflectionMapping:po,EquirectangularRefractionMapping:Ra,Euler:ZC,EventDispatcher:mQ,ExtrudeGeometry:Nh,FileLoader:FC,Float16BufferAttribute:cH,Float32BufferAttribute:aI,FloatType:_g,Fog:Sh,FogExp2:ch,FramebufferTexture:DO,FrontSide:Xi,Frustum:ns,GLBufferAttribute:db,GLSL1:fL,GLSL3:cy,GreaterCompare:pJ,GreaterDepth:AJ,GreaterEqualCompare:FJ,GreaterEqualDepth:$K,GreaterEqualStencilFunc:UL,GreaterStencilFunc:ML,GridHelper:mb,Group:GQ,HalfFloatType:dC,HemisphereLight:kR,HemisphereLightHelper:Yb,IcosahedronGeometry:Ds,ImageBitmapLoader:FR,ImageLoader:Za,ImageUtils:qJ,IncrementStencilOp:DL,IncrementWrapStencilOp:hL,InstancedBufferAttribute:ve,InstancedBufferGeometry:pR,InstancedInterleavedBuffer:Ub,InstancedMesh:IM,Int16BufferAttribute:lH,Int32BufferAttribute:hH,Int8BufferAttribute:sH,IntType:ah,InterleavedBuffer:as,InterleavedBufferAttribute:FE,Interpolant:Po,InterpolateDiscrete:Fo,InterpolateLinear:Ko,InterpolateSmooth:$D,InvertStencilOp:SL,KeepStencilOp:se,KeyframeTrack:pi,LOD:zJ,LatheGeometry:rs,Layers:Re,LessCompare:UJ,LessDepth:zK,LessEqualCompare:Tk,LessEqualDepth:Ja,LessEqualStencilFunc:kL,LessStencilFunc:GL,Light:HE,LightProbe:dR,Line:KQ,Line3:Kb,LineBasicMaterial:PC,LineCurve:EM,LineCurve3:IR,LineDashedMaterial:DR,LineLoop:gM,LineSegments:Ui,LinearDisplayP3ColorSpace:es,LinearFilter:tg,LinearInterpolant:aM,LinearMipMapLinearFilter:bG,LinearMipMapNearestFilter:aL,LinearMipmapLinearFilter:Ii,LinearMipmapNearestFilter:lo,LinearSRGBColorSpace:ii,LinearToneMapping:BJ,LinearTransfer:Ya,Loader:JC,LoaderUtils:kE,LoadingManager:Yh,LoopOnce:cJ,LoopPingPong:wJ,LoopRepeat:SJ,LuminanceAlphaFormat:DJ,LuminanceFormat:rJ,MOUSE:EL,Material:BC,MaterialLoader:mh,MathUtils:vk,Matrix3:YI,Matrix4:hI,MaxEquation:qK,Mesh:Jg,MeshBasicMaterial:rB,MeshDepthMaterial:jk,MeshDistanceMaterial:zk,MeshLambertMaterial:sR,MeshMatcapMaterial:rR,MeshNormalMaterial:aR,MeshPhongMaterial:oR,MeshPhysicalMaterial:Ei,MeshStandardMaterial:cs,MeshToonMaterial:nR,MinEquation:fK,MirroredRepeatWrapping:No,MixOperation:gJ,MultiplyBlending:vG,MultiplyOperation:Es,NearestFilter:oC,NearestMipMapLinearFilter:nL,NearestMipMapNearestFilter:oL,NearestMipmapLinearFilter:we,NearestMipmapNearestFilter:nh,NeutralToneMapping:tJ,NeverCompare:uJ,NeverDepth:VK,NeverStencilFunc:wL,NoBlending:Wi,NoColorSpace:hQ,NoToneMapping:Vi,NormalAnimationBlendMode:rh,NormalBlending:Fe,NotEqualCompare:NJ,NotEqualDepth:IJ,NotEqualStencilFunc:uL,NumberKeyframeTrack:be,Object3D:VI,ObjectLoader:Cb,ObjectSpaceNormalMap:MJ,OctahedronGeometry:ls,OneFactor:mK,OneMinusConstantAlphaFactor:WK,OneMinusConstantColorFactor:ZK,OneMinusDstAlphaFactor:xK,OneMinusDstColorFactor:OK,OneMinusSrcAlphaFactor:pl,OneMinusSrcColorFactor:HK,OrthographicCamera:gt,P3Primaries:La,PCFShadowMap:oh,PCFSoftShadowMap:ta,PMREMGenerator:Sy,Path:va,PerspectiveCamera:eC,Plane:EE,PlaneGeometry:mE,PlaneHelper:Ob,PointLight:hM,PointLightHelper:fb,Points:CM,PointsMaterial:Gh,PolarGridHelper:Lb,PolyhedronGeometry:LE,Positi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qR={exports:{}},it={};/**
 * @license React
 * react-reconciler-constants.production.min.js
 *
 * Copyright (c) Facebook, Inc. and its affiliates.
 *
 * This source code is licensed under the MIT license found in the
 * LICENSE file in the root directory of this source tree.
 */it.ConcurrentRoot=1;it.ContinuousEventPriority=4;it.DefaultEventPriority=16;it.DiscreteEventPriority=1;it.IdleEventPriority=536870912;it.LegacyRoot=0;qR.exports=it;var to=qR.exports;function Vb(g){let A;const I=new Set,C=(n,a)=>{const s=typeof n=="function"?n(A):n;if(s!==A){const r=A;A=a?s:Object.assign({},A,s),I.forEach(D=>D(A,r))}},B=()=>A,i=(n,a=B,s=Object.is)=>{console.warn("[DEPRECATED] Please use `subscribeWithSelector` middleware");let r=a(A);function D(){const c=a(A);if(!s(r,c)){const y=r;n(r=c,y)}}return I.add(D),()=>I.delete(D)},e={setState:C,getState:B,subscribe:(n,a,s)=>a||s?i(n,a,s):(I.add(n),()=>I.delete(n)),destroy:()=>I.clear()};return A=g(C,B,e),e}const jb=typeof window>"u"||!window.navigator||/ServerSideRendering|^Deno\//.test(window.navigator.userAgent),Tp=jb?eA.useEffect:eA.useLayoutEffect;function YR(g){const A=typeof g=="function"?Vb(g):g,I=(C=A.getState,B=Object.is)=>{const[,i]=eA.useReducer(S=>S+1,0),Q=A.getState(),E=eA.useRef(Q),e=eA.useRef(C),n=eA.useRef(B),a=eA.useRef(!1),s=eA.useRef();s.current===void 0&&(s.current=C(Q));let r,D=!1;(E.current!==Q||e.current!==C||n.current!==B||a.current)&&(r=C(Q),D=!B(s.current,r)),Tp(()=>{D&&(s.current=r),E.current=Q,e.current=C,n.current=B,a.current=!1});const c=eA.useRef(Q);Tp(()=>{const S=()=>{try{const w=A.getState(),k=e.current(w);n.current(s.current,k)||(E.current=w,s.current=k,i())}catch{a.current=!0,i()}},l=A.subscribe(S);return A.getState()!==c.current&&S(),l},[]);const y=D?r:s.current;return eA.useDebugValue(y),y};return Object.assign(I,A),I[Symbol.iterator]=function(){console.warn("[useStore, api] = create() is deprecated and will be removed in v4");const C=[I,A];return{next(){const B=C.length<=0;return{value:C.shift(),done:B}}}},I}var mR={exports:{}},LR={exports:{}},HR={};/**
 * @license React
 * scheduler.production.min.js
 *
 * Copyright (c) Facebook, Inc. and its affiliates.
 *
 * This source code is licensed under the MIT license found in the
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M=o.type;if(t!==null&&o.stateNode!=null)Ps(t,o,M,G,h),t.ref!==o.ref&&(o.flags|=512,o.flags|=2097152);else{if(!G){if(o.stateNode===null)throw Error(Q(166));return YC(o),null}if(t=mi(xB.current),In(o)){if(!GA)throw Error(Q(175));t=R(o.stateNode,o.type,o.memoizedProps,h,t,o,!An),o.updateQueue=t,t!==null&&Hi(o)}else{var p=oA(M,G,h,t,o);on(p,o,!1,!1),o.stateNode=p,xA(p,M,G,h,t)&&Hi(o)}o.ref!==null&&(o.flags|=512,o.flags|=2097152)}return YC(o),null;case 6:if(t&&o.stateNode!=null)Ws(t,o,t.memoizedProps,G);else{if(typeof G!="string"&&o.stateNode===null)throw Error(Q(166));if(t=mi(Dt.current),h=mi(xB.current),In(o)){if(!GA)throw Error(Q(176));if(t=o.stateNode,G=o.memoizedProps,(h=H(t,G,o,!An))&&(M=cB,M!==null))switch(p=(M.mode&1)!==0,M.tag){case 3:lA(M.stateNode.containerInfo,t,G,p);break;case 5:hA(M.type,M.memoizedProps,M.stateNode,t,G,p)}h&&Hi(o)}else o.stateNode=nA(G,t,h,o)}return YC(o),null;case 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G=o.pendingProps,M=G.children,p=t!==null?t.memoizedState:null;if(G.mode==="hidden")if(!(o.mode&1))o.memoizedState={baseLanes:0,cachePool:null},rI(ct,GB),GB|=h;else if(h&1073741824)o.memoizedState={baseLanes:0,cachePool:null},G=p!==null?p.baseLanes:h,rI(ct,GB),GB|=G;else return t=p!==null?p.baseLanes|h:h,o.lanes=o.childLanes=1073741824,o.memoizedState={baseLanes:t,cachePool:null},o.updateQueue=null,rI(ct,GB),GB|=t,null;else p!==null?(G=p.baseLanes|h,o.memoizedState=null):G=h,rI(ct,GB),GB|=G;return zC(t,o,M,h),o.child}function lu(t,o){var h=o.ref;(t===null&&h!==null||t!==null&&t.ref!==h)&&(o.flags|=512,o.flags|=2097152)}function Tc(t,o,h,G,M){var p=OI(h)?jI:_I.current;return p=zg(o,p),ot(o,M),h=Rc(t,o,h,G,p,M),G=fc(),t!==null&&!wB?(o.updateQueue=t.updateQueue,o.flags&=-2053,t.lanes&=~M,QQ(t,o,M)):(Ng&&G&&kc(o),o.flags|=1,zC(t,o,h,M),o.child)}function hu(t,o,h,G,M){if(OI(h)){var p=!0;Cg(o)}else 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b.componentDidMount=="function"&&(o.flags|=4194308)):(typeof b.componentDidMount=="function"&&(o.flags|=4194308),o.memoizedProps=G,o.memoizedState=yA),b.props=G,b.state=yA,b.context=OA,G=gA):(typeof b.componentDidMount=="function"&&(o.flags|=4194308),G=!1)}else{b=o.stateNode,U0(t,o),gA=o.memoizedProps,OA=o.type===o.elementType?gA:ti(o.type,gA),b.props=OA,JI=o.pendingProps,GI=b.context,yA=h.contextType,typeof yA=="object"&&yA!==null?yA=LB(yA):(yA=OI(h)?jI:_I.current,yA=zg(o,yA));var cg=h.getDerivedStateFromProps;(eI=typeof cg=="function"||typeof b.getSnapshotBeforeUpdate=="function")||typeof b.UNSAFE_componentWillReceiveProps!="function"&&typeof b.componentWillReceiveProps!="function"||(gA!==JI||GI!==yA)&&J0(o,b,G,yA),HQ=!1,GI=o.memoizedState,b.state=GI,fs(o,G,b,M);var lI=o.memoizedState;gA!==JI||GI!==lI||NI.current||HQ?(typeof cg=="function"&&(Gc(o,h,cg,G),lI=o.memoizedState),(OA=HQ||F0(o,h,OA,G,GI,lI,yA)||!1)?(eI||typeof b.UNSAFE_componentWillUpdate!="function"&&typeof b.componentWillUpdate!="function"||(typeof b.componentWillUpdate=="function"&&b.componentWillUpdate(G,lI,yA),typeof b.UNSAFE_componentWillUpdate=="function"&&b.UNSAFE_componentWillUpdate(G,lI,yA)),typeof b.componentDidUpdate=="function"&&(o.flags|=4),typeof b.getSnapshotBeforeUpdate=="function"&&(o.flags|=1024)):(typeof b.componentDidUpdate!="function"||gA===t.memoizedProps&&GI===t.memoizedState||(o.flags|=4),typeof b.getSnapshotBeforeUpdate!="function"||gA===t.memoizedProps&&GI===t.memoizedState||(o.flags|=1024),o.memoizedProps=G,o.memoizedState=lI),b.props=G,b.state=lI,b.context=yA,G=OA):(typeof b.componentDidUpdate!="function"||gA===t.memoizedProps&&GI===t.memoizedState||(o.flags|=4),typeof b.getSnapshotBeforeUpdate!="function"||gA===t.memoizedProps&&GI===t.memoizedState||(o.flags|=1024),G=!1)}return xc(t,o,h,G,p,M)}function xc(t,o,h,G,M,p){lu(t,o);var b=(o.flags&128)!==0;if(!G&&!b)return M&&XI(o,h,!1),QQ(t,o,p);G=o.stateNode,rq.current=o;var gA=b&&typeof h.getDerivedStateFromError!="function"?null:G.render();return o.flags|=1,t!==null&&b?(o.child=rt(o,t.child,null,p),o.child=rt(o,null,gA,p)):zC(t,o,gA,p),o.memoizedState=G.state,M&&XI(o,h,!0),o.child}function cu(t){var o=t.stateNode;o.pendingContext?zI(t,o.pendingContext,o.pendingContext!==o.context):o.context&&zI(t,o.context,!1),pc(t,o.containerInfo)}function Su(t,o,h,G,M){return st(),dc(M),o.flags|=256,zC(t,o,h,G),o.child}var Vs={dehydrated:null,treeContext:null,retryLane:0};function js(t){return{baseLanes:t,cachePool:null}}function wu(t,o,h){var G=o.pendingProps,M=Rg.current,p=!1,b=(o.flags&128)!==0,gA;if((gA=b)||(gA=t!==null&&t.memoizedState===null?!1:(M&2)!==0),gA?(p=!0,o.flags&=-129):(t===null||t.memoizedState!==null)&&(M|=1),rI(Rg,M&1),t===null)return Uc(o),t=o.memoizedState,t!==null&&(t=t.dehydrated,t!==null)?(o.mode&1?Fi(t)?o.lanes=8:o.lanes=1073741824:o.lanes=1,null):(M=G.children,t=G.fallback,p?(G=o.mode,p=o.child,M={mode:"hidden",children:M},!(G&1)&&p!==null?(p.childLanes=0,p.pendingProps=M):p=lr(M,G,0,null),t=jE(t,G,h,null),p.return=o,t.return=o,p.sibling=t,o.child=p,o.child.memoizedState=js(h),o.memoizedState=Vs,t):vc(o,M));if(M=t.memoizedState,M!==null){if(gA=M.dehydrated,gA!==null){if(b)return o.flags&256?(o.flags&=-257,zs(t,o,h,Error(Q(422)))):o.memoizedState!==null?(o.child=t.child,o.flags|=128,null):(p=G.fallback,M=o.mode,G=lr({mode:"visible",children:G.children},M,0,null),p=jE(p,M,h,null),p.flags|=2,G.return=o,p.return=o,G.sibling=p,o.child=G,o.mode&1&&rt(o,t.child,null,h),o.child.memoizedState=js(h),o.memoizedState=Vs,p);if(!(o.mode&1))o=zs(t,o,h,null);else if(Fi(gA))o=zs(t,o,h,Error(Q(419)));else if(G=(h&t.childLanes)!==0,wB||G){if(G=Xg,G!==null){switch(h&-h){case 4:p=2;break;case 16:p=8;break;case 64:case 128:case 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p?(G=yu(t,o,G.children,G.fallback,h),p=o.child,M=t.child.memoizedState,p.memoizedState=M===null?js(h):{baseLanes:M.baseLanes|h,cachePool:null},p.childLanes=t.childLanes&~h,o.memoizedState=Vs,G):(h=Gu(t,o,G.children,h),o.memoizedState=null,h)}function vc(t,o){return o=lr({mode:"visible",children:o},t.mode,0,null),o.return=t,t.child=o}function Gu(t,o,h,G){var M=t.child;return t=M.sibling,h=_Q(M,{mode:"visible",children:h}),!(o.mode&1)&&(h.lanes=G),h.return=o,h.sibling=null,t!==null&&(G=o.deletions,G===null?(o.deletions=[t],o.flags|=16):G.push(t)),o.child=h}function yu(t,o,h,G,M){var p=o.mode;t=t.child;var b=t.sibling,gA={mode:"hidden",children:h};return!(p&1)&&o.child!==t?(h=o.child,h.childLanes=0,h.pendingProps=gA,o.deletions=null):(h=_Q(t,gA),h.subtreeFlags=t.subtreeFlags&14680064),b!==null?G=_Q(b,G):(G=jE(G,p,M,null),G.flags|=2),G.return=o,h.return=o,h.sibling=G,o.child=h,G}function zs(t,o,h,G){return 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        varying vec3 vWorldPosition;
        void main() 
        {
            vec4 worldPosition = ( modelMatrix * vec4( position, 1.0 ) );
            vWorldPosition = worldPosition.xyz;
            
            gl_Position = projectionMatrix * modelViewMatrix * vec4( position, 1.0 );
        }
        `,c=r.join(`
`)+`
        #define ENVMAP_TYPE_CUBE_UV
        varying vec3 vWorldPosition;
        uniform float radius;
        uniform float height;
        uniform float angle;
        #ifdef ENVMAP_TYPE_CUBE
            uniform samplerCube map;
        #else
            uniform sampler2D map;
        #endif
        // From: https://www.shadertoy.com/view/4tsBD7
        float diskIntersectWithBackFaceCulling( vec3 ro, vec3 rd, vec3 c, vec3 n, float r ) 
        {
            float d = dot ( rd, n );
            
            if( d > 0.0 ) { return 1e6; }
            
            vec3  o = ro - c;
            float t = - dot( n, o ) / d;
            vec3  q = o + rd * t;
            
            return ( dot( q, q ) < r * r ) ? t : 1e6;
        }
        // From: https://www.iquilezles.org/www/articles/intersectors/intersectors.htm
        float sphereIntersect( vec3 ro, vec3 rd, vec3 ce, float ra ) 
        {
            vec3 oc = ro - ce;
            float b = dot( oc, rd );
            float c = dot( oc, oc ) - ra * ra;
            float h = b * b - c;
            
            if( h < 0.0 ) { return -1.0; }
            
            h = sqrt( h );
            
            return - b + h;
        }
        vec3 project() 
        {
            vec3 p = normalize( vWorldPosition );
            vec3 camPos = cameraPosition;
            camPos.y -= height;
            float intersection = sphereIntersect( camPos, p, vec3( 0.0 ), radius );
            if( intersection > 0.0 ) {
                
                vec3 h = vec3( 0.0, - height, 0.0 );
                float intersection2 = diskIntersectWithBackFaceCulling( camPos, p, h, vec3( 0.0, 1.0, 0.0 ), radius );
                p = ( camPos + min( intersection, intersection2 ) * p ) / radius;
            } else {
                p = vec3( 0.0, 1.0, 0.0 );
            }
            return p;
        }
        #include <common>
        #include <cube_uv_reflection_fragment>
        void main() 
        {
            vec3 projectedWorldPosition = project();
            
            #ifdef ENVMAP_TYPE_CUBE
                vec3 outcolor = textureCube( map, projectedWorldPosition ).rgb;
            #else
                vec3 direction = normalize( projectedWorldPosition );
                vec2 uv = equirectUv( direction );
                vec3 outcolor = texture2D( map, uv ).rgb;
            #endif
            gl_FragColor = vec4( outcolor, 1.0 );
            #include <tonemapping_fragment>
            #include <${parseInt(At.replace(/\D+/g,""))>=154?"colorspace_fragment":"encodings_fragment"}>
        }
        `,y={map:{value:A},height:{value:(I==null?void 0:I.height)||15},radius:{value:(I==null?void 0:I.radius)||100}},S=new Ds(1,16),l=new iB({uniforms:y,fragmentShader:c,vertexShader:D,side:dB});super(S,l)}set radius(A){this.material.uniforms.radius.value=A}get radius(){return this.material.uniforms.radius.value}set height(A){this.material.uniforms.height.value=A}get height(){return this.material.uniforms.height.value}}function fl(g){if(typeof TextDecoder<"u")return new TextDecoder().decode(g);let A="";for(let I=0,C=g.length;I<C;I++)A+=String.fromCharCode(g[I]);try{return decodeURIComponent(escape(A))}catch{return A}}const de="srgb",uQ="srgb-linear",CN=3001,i3=3e3;class FM extends JC{constructor(A){super(A),this.dracoLoader=null,this.ktx2Loader=null,this.meshoptDecoder=null,this.pluginCallbacks=[],this.register(function(I){return new o3(I)}),this.register(function(I){return new n3(I)}),this.register(function(I){return new w3(I)}),this.register(function(I){return new G3(I)}),this.register(function(I){return new y3(I)}),this.register(function(I){return new s3(I)}),this.register(function(I){return new r3(I)}),this.register(function(I){return new D3(I)}),this.register(function(I){return new l3(I)}),this.register(function(I){return new t3(I)}),this.register(function(I){return new h3(I)}),this.register(function(I){return new a3(I)}),this.register(function(I){return new S3(I)}),this.register(function(I){return new c3(I)}),this.register(function(I){return new E3(I)}),this.register(function(I){return new k3(I)}),this.register(function(I){return new M3(I)})}load(A,I,C,B){const i=this;let Q;if(this.resourcePath!=="")Q=this.resourcePath;else if(this.path!==""){const n=kE.extractUrlBase(A);Q=kE.resolveURL(n,this.path)}else Q=kE.extractUrlBase(A);this.manager.itemStart(A);const E=function(n){B?B(n):console.error(n),i.manager.itemError(A),i.manager.itemEnd(A)},e=new FC(this.manager);e.setPath(this.path),e.setResponseType("arraybuffer"),e.setRequestHeader(this.requestHeader),e.setWithCredentials(this.withCredentials),e.load(A,function(n){try{i.parse(n,Q,function(a){I(a),i.manager.itemEnd(A)},E)}catch(a){E(a)}},C,E)}setDRACOLoader(A){return this.dracoLoader=A,this}setDDSLoader(){throw new Error('THREE.GLTFLoader: "MSFT_texture_dds" no longer supported. Please update to "KHR_texture_basisu".')}setKTX2Loader(A){return this.ktx2Loader=A,this}setMeshoptDecoder(A){return this.meshoptDecoder=A,this}register(A){return this.pluginCallbacks.indexOf(A)===-1&&this.pluginCallbacks.push(A),this}unregister(A){return this.pluginCallbacks.indexOf(A)!==-1&&this.pluginCallbacks.splice(this.pluginCallbacks.indexOf(A),1),this}parse(A,I,C,B){let i;const Q={},E={};if(typeof A=="string")i=JSON.parse(A);else if(A instanceof ArrayBuffer)if(fl(new Uint8Array(A.slice(0,4)))===af){try{Q[PI.KHR_BINARY_GLTF]=new u3(A)}catch(a){B&&B(a);return}i=JSON.parse(Q[PI.KHR_BINARY_GLTF].content)}else i=JSON.parse(fl(new Uint8Array(A)));else i=A;if(i.asset===void 0||i.asset.version[0]<2){B&&B(new Error("THREE.GLTFLoader: Unsupported asset. glTF versions >=2.0 are supported."));return}const e=new L3(i,{path:I||this.resourcePath||"",crossOrigin:this.crossOrigin,requestHeader:this.requestHeader,manager:this.manager,ktx2Loader:this.ktx2Loader,meshoptDecoder:this.meshoptDecoder});e.fileLoader.setRequestHeader(this.requestHeader);for(let n=0;n<this.pluginCallbacks.length;n++){const a=this.pluginCallbacks[n](e);a.name||console.error("THREE.GLTFLoader: Invalid plugin found: missing name"),E[a.name]=a,Q[a.name]=!0}if(i.extensionsUsed)for(let n=0;n<i.extensionsUsed.length;++n){const a=i.extensionsUsed[n],s=i.extensionsRequired||[];switch(a){case PI.KHR_MATERIALS_UNLIT:Q[a]=new e3;break;case PI.KHR_DRACO_MESH_COMPRESSION:Q[a]=new U3(i,this.dracoLoader);break;case PI.KHR_TEXTURE_TRANSFORM:Q[a]=new d3;break;case PI.KHR_MESH_QUANTIZATION:Q[a]=new p3;break;default:s.indexOf(a)>=0&&E[a]===void 0&&console.warn('THREE.GLTFLoader: Unknown extension "'+a+'".')}}e.setExtensions(Q),e.setPlugins(E),e.parse(C,B)}parseAsync(A,I){const C=this;return new Promise(function(B,i){C.parse(A,I,B,i)})}}function Q3(){let g={};return{get:function(A){return g[A]},add:function(A,I){g[A]=I},remove:function(A){delete g[A]},removeAll:function(){g={}}}}const PI={KHR_BINARY_GLTF:"KHR_binary_glTF",KHR_DRACO_MESH_COMPRESSION:"KHR_draco_mesh_compression",KHR_LIGHTS_PUNCTUAL:"KHR_lights_punctual",KHR_MATERIALS_CLEARCOAT:"KHR_materials_clearcoat",KHR_MATERIALS_DISPERSION:"KHR_materials_dispersion",KHR_MATERIALS_IOR:"KHR_materials_ior",KHR_MATERIALS_SHEEN:"KHR_materials_sheen",KHR_MATERIALS_SPECULAR:"KHR_materials_specular",KHR_MATERIALS_TRANSMISSION:"KHR_materials_transmission",KHR_MATERIALS_IRIDESCENCE:"KHR_materials_iridescence",KHR_MATERIALS_ANISOTROPY:"KHR_materials_anisotropy",KHR_MATERIALS_UNLIT:"KHR_materials_unlit",KHR_MATERIALS_VOLUME:"KHR_materials_volume",KHR_TEXTURE_BASISU:"KHR_texture_basisu",KHR_TEXTURE_TRANSFORM:"KHR_texture_transform",KHR_MESH_QUANTIZATION:"KHR_mesh_quantization",KHR_MATERIALS_EMISSIVE_STRENGTH:"KHR_materials_emissive_strength",EXT_MATERIALS_BUMP:"EXT_materials_bump",EXT_TEXTURE_WEBP:"EXT_texture_webp",EXT_TEXTURE_AVIF:"EXT_texture_avif",EXT_MESHOPT_COMPRESSION:"EXT_meshopt_compression",EXT_MESH_GPU_INSTANCING:"EXT_mesh_gpu_instancing"};class E3{constructor(A){this.parser=A,this.name=PI.KHR_LIGHTS_PUNCTUAL,this.cache={refs:{},uses:{}}}_markDefs(){const A=this.parser,I=this.parser.json.nodes||[];for(let C=0,B=I.length;C<B;C++){const i=I[C];i.extensions&&i.extensions[this.name]&&i.extensions[this.name].light!==void 0&&A._addNodeRef(this.cache,i.extensions[this.name].light)}}_loadLight(A){const I=this.parser,C="light:"+A;let B=I.cache.get(C);if(B)return B;const i=I.json,e=((i.extensions&&i.extensions[this.name]||{}).lights||[])[A];let n;const a=new VA(16777215);e.color!==void 0&&a.setRGB(e.color[0],e.color[1],e.color[2],uQ);const s=e.range!==void 0?e.range:0;switch(e.type){case"directional":n=new cM(a),n.target.position.set(0,0,-1),n.add(n.target);break;case"point":n=new hM(a),n.distance=s;break;case"spot":n=new lM(a),n.distance=s,e.spot=e.spot||{},e.spot.innerConeAngle=e.spot.innerConeAngle!==void 0?e.spot.innerConeAngle:0,e.spot.outerConeAngle=e.spot.outerConeAngle!==void 0?e.spot.outerConeAngle:Math.PI/4,n.angle=e.spot.outerConeAngle,n.penumbra=1-e.spot.innerConeAngle/e.spot.outerConeAngle,n.target.position.set(0,0,-1),n.add(n.target);break;default:throw new Error("THREE.GLTFLoader: Unexpected light type: "+e.type)}return n.position.set(0,0,0),n.decay=2,rQ(n,e),e.intensity!==void 0&&(n.intensity=e.intensity),n.name=I.createUniqueName(e.name||"light_"+A),B=Promise.resolve(n),I.cache.add(C,B),B}getDependency(A,I){if(A==="light")return this._loadLight(I)}createNodeAttachment(A){const I=this,C=this.parser,i=C.json.nodes[A],E=(i.extensions&&i.extensions[this.name]||{}).light;return E===void 0?null:this._loadLight(E).then(function(e){return C._getNodeRef(I.cache,E,e)})}}class e3{constructor(){this.name=PI.KHR_MATERIALS_UNLIT}getMaterialType(){return rB}extendParams(A,I,C){const B=[];A.color=new VA(1,1,1),A.opacity=1;const i=I.pbrMetallicRoughness;if(i){if(Array.isArray(i.baseColorFactor)){const Q=i.baseColorFactor;A.color.setRGB(Q[0],Q[1],Q[2],uQ),A.opacity=Q[3]}i.baseColorTexture!==void 0&&B.push(C.assignTexture(A,"map",i.baseColorTexture,de))}return Promise.all(B)}}class t3{constructor(A){this.parser=A,this.name=PI.KHR_MATERIALS_EMISSIVE_STRENGTH}extendMaterialParams(A,I){const B=this.parser.json.materials[A];if(!B.extensions||!B.extensions[this.name])return Promise.resolve();const i=B.extensions[this.name].emissiveStrength;return i!==void 0&&(I.emissiveIntensity=i),Promise.resolve()}}class o3{constructor(A){this.parser=A,this.name=PI.KHR_MATERIALS_CLEARCOAT}getMaterialType(A){const C=this.parser.json.materials[A];return!C.extensions||!C.extensions[this.name]?null:Ei}extendMaterialParams(A,I){const C=this.parser,B=C.json.materials[A];if(!B.extensions||!B.extensions[this.name])return Promise.resolve();const i=[],Q=B.extensions[this.name];if(Q.clearcoatFactor!==void 0&&(I.clearcoat=Q.clearcoatFactor),Q.clearcoatTexture!==void 0&&i.push(C.assignTexture(I,"clearcoatMap",Q.clearcoatTexture)),Q.clearcoatRoughnessFactor!==void 0&&(I.clearcoatRoughness=Q.clearcoatRoughnessFactor),Q.clearcoatRoughnessTexture!==void 0&&i.push(C.assignTexture(I,"clearcoatRoughnessMap",Q.clearcoatRoughnessTexture)),Q.clearcoatNormalTexture!==void 0&&(i.push(C.assignTexture(I,"clearcoatNormalMap",Q.clearcoatNormalTexture)),Q.clearcoatNormalTexture.scale!==void 0)){const E=Q.clearcoatNormalTexture.scale;I.clearcoatNormalScale=new pA(E,E)}return Promise.all(i)}}class n3{constructor(A){this.parser=A,this.name=PI.KHR_MATERIALS_DISPERSION}getMaterialType(A){const C=this.parser.json.materials[A];return!C.extensions||!C.extensions[this.name]?null:Ei}extendMaterialParams(A,I){const B=this.parser.json.materials[A];if(!B.extensions||!B.extensions[this.name])return Promise.resolve();const i=B.extensions[this.name];return I.dispersion=i.dispersion!==void 0?i.dispersion:0,Promise.resolve()}}class a3{constructor(A){this.parser=A,this.name=PI.KHR_MATERIALS_IRIDESCENCE}getMaterialType(A){const C=this.parser.json.materials[A];return!C.extensions||!C.extensions[this.name]?null:Ei}extendMaterialParams(A,I){const C=this.parser,B=C.json.materials[A];if(!B.extensions||!B.extensions[this.name])return Promise.resolve();const i=[],Q=B.extensions[this.name];return Q.iridescenceFactor!==void 0&&(I.iridescence=Q.iridescenceFactor),Q.iridescenceTexture!==void 0&&i.push(C.assignTexture(I,"iridescenceMap",Q.iridescenceTexture)),Q.iridescenceIor!==void 0&&(I.iridescenceIOR=Q.iridescenceIor),I.iridescenceThicknessRange===void 0&&(I.iridescenceThicknessRange=[100,400]),Q.iridescenceThicknessMinimum!==void 0&&(I.iridescenceThicknessRange[0]=Q.iridescenceThicknessMinimum),Q.iridescenceThicknessMaximum!==void 0&&(I.iridescenceThicknessRange[1]=Q.iridescenceThicknessMaximum),Q.iridescenceThicknessTexture!==void 0&&i.push(C.assignTexture(I,"iridescenceThicknessMap",Q.iridescenceThicknessTexture)),Promise.all(i)}}class s3{constructor(A){this.parser=A,this.name=PI.KHR_MATERIALS_SHEEN}getMaterialType(A){const C=this.parser.json.materials[A];return!C.extensions||!C.extensions[this.name]?null:Ei}extendMaterialParams(A,I){const C=this.parser,B=C.json.materials[A];if(!B.extensions||!B.extensions[this.name])return Promise.resolve();const i=[];I.sheenColor=new VA(0,0,0),I.sheenRoughness=0,I.sheen=1;const Q=B.extensions[this.name];if(Q.sheenColorFactor!==void 0){const E=Q.sheenColorFactor;I.sheenColor.setRGB(E[0],E[1],E[2],uQ)}return Q.sheenRoughnessFactor!==void 0&&(I.sheenRoughness=Q.sheenRoughnessFactor),Q.sheenColorTexture!==void 0&&i.push(C.assignTexture(I,"sheenColorMap",Q.sheenColorTexture,de)),Q.sheenRoughnessTexture!==void 0&&i.push(C.assignTexture(I,"sheenRoughnessMap",Q.sheenRoughnessTexture)),Promise.all(i)}}class r3{constructor(A){this.parser=A,this.name=PI.KHR_MATERIALS_TRANSMISSION}getMaterialType(A){const C=this.parser.json.materials[A];return!C.extensions||!C.extensions[this.name]?null:Ei}extendMaterialParams(A,I){const C=this.parser,B=C.json.materials[A];if(!B.extensions||!B.extensions[this.name])return Promise.resolve();const i=[],Q=B.extensions[this.name];return Q.transmissionFactor!==void 0&&(I.transmission=Q.transmissionFactor),Q.transmissionTexture!==void 0&&i.push(C.assignTexture(I,"transmissionMap",Q.transmissionTexture)),Promise.all(i)}}class D3{constructor(A){this.parser=A,this.name=PI.KHR_MATERIALS_VOLUME}getMaterialType(A){const C=this.parser.json.materials[A];return!C.extensions||!C.extensions[this.name]?null:Ei}extendMaterialParams(A,I){const C=this.parser,B=C.json.materials[A];if(!B.extensions||!B.extensions[this.name])return Promise.resolve();const i=[],Q=B.extensions[this.name];I.thickness=Q.thicknessFactor!==void 0?Q.thicknessFactor:0,Q.thicknessTexture!==void 0&&i.push(C.assignTexture(I,"thicknessMap",Q.thicknessTexture)),I.attenuationDistance=Q.attenuationDistance||1/0;const E=Q.attenuationColor||[1,1,1];return I.attenuationColor=new VA().setRGB(E[0],E[1],E[2],uQ),Promise.all(i)}}class l3{constructor(A){this.parser=A,this.name=PI.KHR_MATERIALS_IOR}getMaterialType(A){const C=this.parser.json.materials[A];return!C.extensions||!C.extensions[this.name]?null:Ei}extendMaterialParams(A,I){const B=this.parser.json.materials[A];if(!B.extensions||!B.extensions[this.name])return Promise.resolve();const i=B.extensions[this.name];return I.ior=i.ior!==void 0?i.ior:1.5,Promise.resolve()}}class h3{constructor(A){this.parser=A,this.name=PI.KHR_MATERIALS_SPECULAR}getMaterialType(A){const C=this.parser.json.materials[A];return!C.extensions||!C.extensions[this.name]?null:Ei}extendMaterialParams(A,I){const C=this.parser,B=C.json.materials[A];if(!B.extensions||!B.extensions[this.name])return Promise.resolve();const i=[],Q=B.extensions[this.name];I.specularIntensity=Q.specularFactor!==void 0?Q.specularFactor:1,Q.specularTexture!==void 0&&i.push(C.assignTexture(I,"specularIntensityMap",Q.specularTexture));const E=Q.specularColorFactor||[1,1,1];return I.specularColor=new VA().setRGB(E[0],E[1],E[2],uQ),Q.specularColorTexture!==void 0&&i.push(C.assignTexture(I,"specularColorMap",Q.specularColorTexture,de)),Promise.all(i)}}class c3{constructor(A){this.parser=A,this.name=PI.EXT_MATERIALS_BUMP}getMaterialType(A){const C=this.parser.json.materials[A];return!C.extensions||!C.extensions[this.name]?null:Ei}extendMaterialParams(A,I){const C=this.parser,B=C.json.materials[A];if(!B.extensions||!B.extensions[this.name])return Promise.resolve();const i=[],Q=B.extensions[this.name];return I.bumpScale=Q.bumpFactor!==void 0?Q.bumpFactor:1,Q.bumpTexture!==void 0&&i.push(C.assignTexture(I,"bumpMap",Q.bumpTexture)),Promise.all(i)}}class S3{constructor(A){this.parser=A,this.name=PI.KHR_MATERIALS_ANISOTROPY}getMaterialType(A){const C=this.parser.json.materials[A];return!C.extensions||!C.extensions[this.name]?null:Ei}extendMaterialParams(A,I){const C=this.parser,B=C.json.materials[A];if(!B.extensions||!B.extensions[this.name])return Promise.resolve();const i=[],Q=B.extensions[this.name];return Q.anisotropyStrength!==void 0&&(I.anisotropy=Q.anisotropyStrength),Q.anisotropyRotation!==void 0&&(I.anisotropyRotation=Q.anisotropyRotation),Q.anisotropyTexture!==void 0&&i.push(C.assignTexture(I,"anisotropyMap",Q.anisotropyTexture)),Promise.all(i)}}class w3{constructor(A){this.parser=A,this.name=PI.KHR_TEXTURE_BASISU}loadTexture(A){const I=this.parser,C=I.json,B=C.textures[A];if(!B.extensions||!B.extensions[this.name])return null;const i=B.extensions[this.name],Q=I.options.ktx2Loader;if(!Q){if(C.extensionsRequired&&C.extensionsRequired.indexOf(this.name)>=0)throw new Error("THREE.GLTFLoader: setKTX2Loader must be called before loading KTX2 textures");return null}return I.loadTextureImage(A,i.source,Q)}}class G3{constructor(A){this.parser=A,this.name=PI.EXT_TEXTURE_WEBP,this.isSupported=null}loadTexture(A){const I=this.name,C=this.parser,B=C.json,i=B.textures[A];if(!i.extensions||!i.extensions[I])return null;const Q=i.extensions[I],E=B.images[Q.source];let e=C.textureLoader;if(E.uri){const n=C.options.manager.getHandler(E.uri);n!==null&&(e=n)}return this.detectSupport().then(function(n){if(n)return C.loadTextureImage(A,Q.source,e);if(B.extensionsRequired&&B.extensionsRequired.indexOf(I)>=0)throw new Error("THREE.GLTFLoader: WebP required by asset but unsupported.");return C.loadTexture(A)})}detectSupport(){return this.isSupported||(this.isSupported=new Promise(function(A){const I=new Image;I.src="data:image/webp;base64,UklGRiIAAABXRUJQVlA4IBYAAAAwAQCdASoBAAEADsD+JaQAA3AAAAAA",I.onload=I.onerror=function(){A(I.height===1)}})),this.isSupported}}class y3{constructor(A){this.parser=A,this.name=PI.EXT_TEXTURE_AVIF,this.isSupported=null}loadTexture(A){const I=this.name,C=this.parser,B=C.json,i=B.textures[A];if(!i.extensions||!i.extensions[I])return null;const Q=i.extensions[I],E=B.images[Q.source];let e=C.textureLoader;if(E.uri){const n=C.options.manager.getHandler(E.uri);n!==null&&(e=n)}return this.detectSupport().then(function(n){if(n)return C.loadTextureImage(A,Q.source,e);if(B.extensionsRequired&&B.extensionsRequired.indexOf(I)>=0)throw new Error("THREE.GLTFLoader: AVIF required by asset but unsupported.");return C.loadTexture(A)})}detectSupport(){return this.isSupported||(this.isSupported=new Promise(function(A){const I=new Image;I.src="data:image/avif;base64,AAAAIGZ0eXBhdmlmAAAAAGF2aWZtaWYxbWlhZk1BMUIAAADybWV0YQAAAAAAAAAoaGRscgAAAAAAAAAAcGljdAAAAAAAAAAAAAAAAGxpYmF2aWYAAAAADnBpdG0AAAAAAAEAAAAeaWxvYwAAAABEAAABAAEAAAABAAABGgAAABcAAAAoaWluZgAAAAAAAQAAABppbmZlAgAAAAABAABhdjAxQ29sb3IAAAAAamlwcnAAAABLaXBjbwAAABRpc3BlAAAAAAAAAAEAAAABAAAAEHBpeGkAAAAAAwgICAAAAAxhdjFDgQAMAAAAABNjb2xybmNseAACAAIABoAAAAAXaXBtYQAAAAAAAAABAAEEAQKDBAAAAB9tZGF0EgAKCBgABogQEDQgMgkQAAAAB8dSLfI=",I.onload=I.onerror=function(){A(I.height===1)}})),this.isSupported}}class k3{constructor(A){this.name=PI.EXT_MESHOPT_COMPRESSION,this.parser=A}loadBufferView(A){const I=this.parser.json,C=I.bufferViews[A];if(C.extensions&&C.extensions[this.name]){const B=C.extensions[this.name],i=this.parser.getDependency("buffer",B.buffer),Q=this.parser.options.meshoptDecoder;if(!Q||!Q.supported){if(I.extensionsRequired&&I.extensionsRequired.indexOf(this.name)>=0)throw new Error("THREE.GLTFLoader: setMeshoptDecoder must be called before loading compressed files");return null}return i.then(function(E){const e=B.byteOffset||0,n=B.byteLength||0,a=B.count,s=B.byteStride,r=new Uint8Array(E,e,n);return Q.decodeGltfBufferAsync?Q.decodeGltfBufferAsync(a,s,r,B.mode,B.filter).then(function(D){return D.buffer}):Q.ready.then(function(){const D=new ArrayBuffer(a*s);return Q.decodeGltfBuffer(new Uint8Array(D),a,s,r,B.mode,B.filter),D})})}else return null}}class M3{constructor(A){this.name=PI.EXT_MESH_GPU_INSTANCING,this.parser=A}createNodeMesh(A){const I=this.parser.json,C=I.nodes[A];if(!C.extensions||!C.extensions[this.name]||C.mesh===void 0)return null;const B=I.meshes[C.mesh];for(const n of B.primitives)if(n.mode!==WB.TRIANGLES&&n.mode!==WB.TRIANGLE_STRIP&&n.mode!==WB.TRIANGLE_FAN&&n.mode!==void 0)return null;const Q=C.extensions[this.name].attributes,E=[],e={};for(const n in Q)E.push(this.parser.getDependency("accessor",Q[n]).then(a=>(e[n]=a,e[n])));return E.length<1?null:(E.push(this.parser.createNodeMesh(A)),Promise.all(E).then(n=>{const a=n.pop(),s=a.isGroup?a.children:[a],r=n[0].count,D=[];for(const c of s){const y=new hI,S=new T,l=new nC,w=new T(1,1,1),k=new IM(c.geometry,c.material,r);for(let U=0;U<r;U++)e.TRANSLATION&&S.fromBufferAttribute(e.TRANSLATION,U),e.ROTATION&&l.fromBufferAttribute(e.ROTATION,U),e.SCALE&&w.fromBufferAttribute(e.SCALE,U),k.setMatrixAt(U,y.compose(S,l,w));for(const U in e)if(U==="_COLOR_0"){const f=e[U];k.instanceColor=new ve(f.array,f.itemSize,f.normalized)}else U!=="TRANSLATION"&&U!=="ROTATION"&&U!=="SCALE"&&c.geometry.setAttribute(U,e[U]);VI.prototype.copy.call(k,c),this.parser.assignFinalMaterial(k),D.push(k)}return a.isGroup?(a.clear(),a.add(...D),a):D[0]}))}}const af="glTF",Tn=12,BN={JSON:1313821514,BIN:5130562};class u3{constructor(A){this.name=PI.KHR_BINARY_GLTF,this.content=null,this.body=null;const I=new DataView(A,0,Tn);if(this.header={magic:fl(new Uint8Array(A.slice(0,4))),version:I.getUint32(4,!0),length:I.getUint32(8,!0)},this.header.magic!==af)throw new Error("THREE.GLTFLoader: Unsupported glTF-Binary header.");if(this.header.version<2)throw new Error("THREE.GLTFLoader: Legacy binary file detected.");const C=this.header.length-Tn,B=new DataView(A,Tn);let i=0;for(;i<C;){const Q=B.getUint32(i,!0);i+=4;const E=B.getUint32(i,!0);if(i+=4,E===BN.JSON){const e=new Uint8Array(A,Tn+i,Q);this.content=fl(e)}else if(E===BN.BIN){const e=Tn+i;this.body=A.slice(e,e+Q)}i+=Q}if(this.content===null)throw new Error("THREE.GLTFLoader: JSON content not found.")}}class U3{constructor(A,I){if(!I)throw new Error("THREE.GLTFLoader: No DRACOLoader instance provided.");this.name=PI.KHR_DRACO_MESH_COMPRESSION,this.json=A,this.dracoLoader=I,this.dracoLoader.preload()}decodePrimitive(A,I){const C=this.json,B=this.dracoLoader,i=A.extensions[this.name].bufferView,Q=A.extensions[this.name].attributes,E={},e={},n={};for(const a in Q){const s=Jy[a]||a.toLowerCase();E[s]=Q[a]}for(const a in A.attributes){const s=Jy[a]||a.toLowerCase();if(Q[a]!==void 0){const r=C.accessors[A.attributes[a]],D=co[r.componentType];n[s]=D.name,e[s]=r.normalized===!0}}return I.getDependency("bufferView",i).then(function(a){return new Promise(function(s,r){B.decodeDracoFile(a,function(D){for(const c in D.attributes){const y=D.attributes[c],S=e[c];S!==void 0&&(y.normalized=S)}s(D)},E,n,uQ,r)})})}}class d3{constructor(){this.name=PI.KHR_TEXTURE_TRANSFORM}extendTexture(A,I){return(I.texCoord===void 0||I.texCoord===A.channel)&&I.offset===void 0&&I.rotation===void 0&&I.scale===void 0||(A=A.clone(),I.texCoord!==void 0&&(A.channel=I.texCoord),I.offset!==void 0&&A.offset.fromArray(I.offset),I.rotation!==void 0&&(A.rotation=I.rotation),I.scale!==void 0&&A.repeat.fromArray(I.scale),A.needsUpdate=!0),A}}class p3{constructor(){this.name=PI.KHR_MESH_QUANTIZATION}}class sf extends Po{constructor(A,I,C,B){super(A,I,C,B)}copySampleValue_(A){const I=this.resultBuffer,C=this.sampleValues,B=this.valueSize,i=A*B*3+B;for(let Q=0;Q!==B;Q++)I[Q]=C[i+Q];return I}interpolate_(A,I,C,B){const i=this.resultBuffer,Q=this.sampleValues,E=this.valueSize,e=E*2,n=E*3,a=B-I,s=(C-I)/a,r=s*s,D=r*s,c=A*n,y=c-n,S=-2*D+3*r,l=D-r,w=1-S,k=l-r+s;for(let U=0;U!==E;U++){const f=Q[y+U+E],F=Q[y+U+e]*a,J=Q[c+U+E],q=Q[c+U]*a;i[U]=w*f+k*F+S*J+l*q}return i}}const N3=new nC;class F3 extends sf{interpolate_(A,I,C,B){const i=super.interpolate_(A,I,C,B);return N3.fromArray(i).normalize().toArray(i),i}}const WB={FLOAT:5126,FLOAT_MAT3:35675,FLOAT_MAT4:35676,FLOAT_VEC2:35664,FLOAT_VEC3:35665,FLOAT_VEC4:35666,LINEAR:9729,REPEAT:10497,SAMPLER_2D:35678,POINTS:0,LINES:1,LINE_LOOP:2,LINE_STRIP:3,TRIANGLES:4,TRIANGLE_STRIP:5,TRIANGLE_FAN:6,UNSIGNED_BYTE:5121,UNSIGNED_SHORT:5123},co={5120:Int8Array,5121:Uint8Array,5122:Int16Array,5123:Uint16Array,5125:Uint32Array,5126:Float32Array},iN={9728:oC,9729:tg,9984:nh,9985:lo,9986:we,9987:Ii},QN={33071:Vg,33648:No,10497:FQ},qw={SCALAR:1,VEC2:2,VEC3:3,VEC4:4,MAT2:4,MAT3:9,MAT4:16},Jy={POSITION:"position",NORMAL:"normal",TANGENT:"tangent",...O_>=152?{TEXCOORD_0:"uv",TEXCOORD_1:"uv1",TEXCOORD_2:"uv2",TEXCOORD_3:"uv3"}:{TEXCOORD_0:"uv",TEXCOORD_1:"uv2"},COLOR_0:"color",WEIGHTS_0:"skinWeight",JOINTS_0:"skinIndex"},CE={scale:"scale",translation:"position",rotation:"quaternion",weights:"morphTargetInfluences"},K3={CUBICSPLINE:void 0,LINEAR:Ko,STEP:Fo},Yw={OPAQUE:"OPAQUE",MASK:"MASK",BLEND:"BLEND"};function J3(g){return g.DefaultMaterial===void 0&&(g.DefaultMaterial=new cs({color:16777215,emissive:0,metalness:1,roughness:1,transparent:!1,depthTest:!0,side:Xi})),g.DefaultMaterial}function te(g,A,I){for(const C in I.extensions)g[C]===void 0&&(A.userData.gltfExtensions=A.userData.gltfExtensions||{},A.userData.gltfExtensions[C]=I.extensions[C])}function rQ(g,A){A.extras!==void 0&&(typeof A.extras=="object"?Object.assign(g.userData,A.extras):console.warn("THREE.GLTFLoader: Ignoring primitive type .extras, "+A.extras))}function R3(g,A,I){let C=!1,B=!1,i=!1;for(let n=0,a=A.length;n<a;n++){const s=A[n];if(s.POSITION!==void 0&&(C=!0),s.NORMAL!==void 0&&(B=!0),s.COLOR_0!==void 0&&(i=!0),C&&B&&i)break}if(!C&&!B&&!i)return Promise.resolve(g);const Q=[],E=[],e=[];for(let n=0,a=A.length;n<a;n++){const s=A[n];if(C){const r=s.POSITION!==void 0?I.getDependency("accessor",s.POSITION):g.attributes.position;Q.push(r)}if(B){const r=s.NORMAL!==void 0?I.getDependency("accessor",s.NORMAL):g.attributes.normal;E.push(r)}if(i){const r=s.COLOR_0!==void 0?I.getDependency("accessor",s.COLOR_0):g.attributes.color;e.push(r)}}return Promise.all([Promise.all(Q),Promise.all(E),Promise.all(e)]).then(function(n){const a=n[0],s=n[1],r=n[2];return C&&(g.morphAttributes.position=a),B&&(g.morphAttributes.normal=s),i&&(g.morphAttributes.color=r),g.morphTargetsRelative=!0,g})}function f3(g,A){if(g.updateMorphTargets(),A.weights!==void 0)for(let I=0,C=A.weights.length;I<C;I++)g.morphTargetInfluences[I]=A.weights[I];if(A.extras&&Array.isArray(A.extras.targetNames)){const I=A.extras.targetNames;if(g.morphTargetInfluences.length===I.length){g.morphTargetDictionary={};for(let C=0,B=I.length;C<B;C++)g.morphTargetDictionary[I[C]]=C}else console.warn("THREE.GLTFLoader: Invalid extras.targetNames length. Ignoring names.")}}function q3(g){let A;const I=g.extensions&&g.extensions[PI.KHR_DRACO_MESH_COMPRESSION];if(I?A="draco:"+I.bufferView+":"+I.indices+":"+mw(I.attributes):A=g.indices+":"+mw(g.attributes)+":"+g.mode,g.targets!==void 0)for(let C=0,B=g.targets.length;C<B;C++)A+=":"+mw(g.targets[C]);return A}function mw(g){let A="";const I=Object.keys(g).sort();for(let C=0,B=I.length;C<B;C++)A+=I[C]+":"+g[I[C]]+";";return A}function Ry(g){switch(g){case Int8Array:return 1/127;case Uint8Array:return 1/255;case Int16Array:return 1/32767;case Uint16Array:return 1/65535;default:throw new Error("THREE.GLTFLoader: Unsupported normalized accessor component type.")}}function Y3(g){return g.search(/\.jpe?g($|\?)/i)>0||g.search(/^data\:image\/jpeg/)===0?"image/jpeg":g.search(/\.webp($|\?)/i)>0||g.search(/^data\:image\/webp/)===0?"image/webp":"image/png"}const m3=new hI;class L3{constructor(A={},I={}){this.json=A,this.extensions={},this.plugins={},this.options=I,this.cache=new Q3,this.associations=new Map,this.primitiveCache={},this.nodeCache={},this.meshCache={refs:{},uses:{}},this.cameraCache={refs:{},uses:{}},this.lightCache={refs:{},uses:{}},this.sourceCache={},this.textureCache={},this.nodeNamesUsed={};let C=!1,B=!1,i=-1;typeof navigator<"u"&&typeof navigator.userAgent<"u"&&(C=/^((?!chrome|android).)*safari/i.test(navigator.userAgent)===!0,B=navigator.userAgent.indexOf("Firefox")>-1,i=B?navigator.userAgent.match(/Firefox\/([0-9]+)\./)[1]:-1),typeof createImageBitmap>"u"||C||B&&i<98?this.textureLoader=new Ss(this.options.manager):this.textureLoader=new FR(this.options.manager),this.textureLoader.setCrossOrigin(this.options.crossOrigin),this.textureLoader.setRequestHeader(this.options.requestHeader),this.fileLoader=new FC(this.options.manager),this.fileLoader.setResponseType("arraybuffer"),this.options.crossOrigin==="use-credentials"&&this.fileLoader.setWithCredentials(!0)}setExtensions(A){this.extensions=A}setPlugins(A){this.plugins=A}parse(A,I){const C=this,B=this.json,i=this.extensions;this.cache.removeAll(),this.nodeCache={},this._invokeAll(function(Q){return Q._markDefs&&Q._markDefs()}),Promise.all(this._invokeAll(function(Q){return Q.beforeRoot&&Q.beforeRoot()})).then(function(){return Promise.all([C.getDependencies("scene"),C.getDependencies("animation"),C.getDependencies("camera")])}).then(function(Q){const E={scene:Q[0][B.scene||0],scenes:Q[0],animations:Q[1],cameras:Q[2],asset:B.asset,parser:C,userData:{}};return te(i,E,B),rQ(E,B),Promise.all(C._invokeAll(function(e){return e.afterRoot&&e.afterRoot(E)})).then(function(){for(const e of E.scenes)e.updateMatrixWorld();A(E)})}).catch(I)}_markDefs(){const A=this.json.nodes||[],I=this.json.skins||[],C=this.json.meshes||[];for(let B=0,i=I.length;B<i;B++){const Q=I[B].joints;for(let E=0,e=Q.length;E<e;E++)A[Q[E]].isBone=!0}for(let B=0,i=A.length;B<i;B++){const Q=A[B];Q.mesh!==void 0&&(this._addNodeRef(this.meshCache,Q.mesh),Q.skin!==void 0&&(C[Q.mesh].isSkinnedMesh=!0)),Q.camera!==void 0&&this._addNodeRef(this.cameraCache,Q.camera)}}_addNodeRef(A,I){I!==void 0&&(A.refs[I]===void 0&&(A.refs[I]=A.uses[I]=0),A.refs[I]++)}_getNodeRef(A,I,C){if(A.refs[I]<=1)return C;const B=C.clone(),i=(Q,E)=>{const e=this.associations.get(Q);e!=null&&this.associations.set(E,e);for(const[n,a]of Q.children.entries())i(a,E.children[n])};return i(C,B),B.name+="_instance_"+A.uses[I]++,B}_invokeOne(A){const I=Object.values(this.plugins);I.push(this);for(let C=0;C<I.length;C++){const B=A(I[C]);if(B)return B}return null}_invokeAll(A){const I=Object.values(this.plugins);I.unshift(this);const C=[];for(let B=0;B<I.length;B++){const i=A(I[B]);i&&C.push(i)}return C}getDependency(A,I){const C=A+":"+I;let B=this.cache.get(C);if(!B){switch(A){case"scene":B=this.loadScene(I);break;case"node":B=this._invokeOne(function(i){return i.loadNode&&i.loadNode(I)});break;case"mesh":B=this._invokeOne(function(i){return i.loadMesh&&i.loadMesh(I)});break;case"accessor":B=this.loadAccessor(I);break;case"bufferView":B=this._invokeOne(function(i){return i.loadBufferView&&i.loadBufferView(I)});break;case"buffer":B=this.loadBuffer(I);break;case"material":B=this._invokeOne(function(i){return i.loadMaterial&&i.loadMaterial(I)});break;case"texture":B=this._invokeOne(function(i){return i.loadTexture&&i.loadTexture(I)});break;case"skin":B=this.loadSkin(I);break;case"animation":B=this._invokeOne(function(i){return i.loadAnimation&&i.loadAnimation(I)});break;case"camera":B=this.loadCamera(I);break;default:if(B=this._invokeOne(function(i){return i!=this&&i.getDependency&&i.getDependency(A,I)}),!B)throw new Error("Unknown type: "+A);break}this.cache.add(C,B)}return B}getDependencies(A){let I=this.cache.get(A);if(!I){const C=this,B=this.json[A+(A==="mesh"?"es":"s")]||[];I=Promise.all(B.map(function(i,Q){return C.getDependency(A,Q)})),this.cache.add(A,I)}return I}loadBuffer(A){const I=this.json.buffers[A],C=this.fileLoader;if(I.type&&I.type!=="arraybuffer")throw new Error("THREE.GLTFLoader: "+I.type+" buffer type is not supported.");if(I.uri===void 0&&A===0)return Promise.resolve(this.extensions[PI.KHR_BINARY_GLTF].body);const B=this.options;return new Promise(function(i,Q){C.load(kE.resolveURL(I.uri,B.path),i,void 0,function(){Q(new Error('THREE.GLTFLoader: Failed to load buffer "'+I.uri+'".'))})})}loadBufferView(A){const I=this.json.bufferViews[A];return this.getDependency("buffer",I.buffer).then(function(C){const B=I.byteLength||0,i=I.byteOffset||0;return C.slice(i,i+B)})}loadAccessor(A){const I=this,C=this.json,B=this.json.accessors[A];if(B.bufferView===void 0&&B.sparse===void 0){const Q=qw[B.type],E=co[B.componentType],e=B.normalized===!0,n=new E(B.count*Q);return Promise.resolve(new pI(n,Q,e))}const i=[];return B.bufferView!==void 0?i.push(this.getDependency("bufferView",B.bufferView)):i.push(null),B.sparse!==void 0&&(i.push(this.getDependency("bufferView",B.sparse.indices.bufferView)),i.push(this.getDependency("bufferView",B.sparse.values.bufferView))),Promise.all(i).then(function(Q){const E=Q[0],e=qw[B.type],n=co[B.componentType],a=n.BYTES_PER_ELEMENT,s=a*e,r=B.byteOffset||0,D=B.bufferView!==void 0?C.bufferViews[B.bufferView].byteStride:void 0,c=B.normalized===!0;let y,S;if(D&&D!==s){const l=Math.floor(r/D),w="InterleavedBuffer:"+B.bufferView+":"+B.componentType+":"+l+":"+B.count;let k=I.cache.get(w);k||(y=new n(E,l*D,B.count*D/a),k=new as(y,D/a),I.cache.add(w,k)),S=new FE(k,e,r%D/a,c)}else E===null?y=new n(B.count*e):y=new n(E,r,B.count*e),S=new pI(y,e,c);if(B.sparse!==void 0){const l=qw.SCALAR,w=co[B.sparse.indices.componentType],k=B.sparse.indices.byteOffset||0,U=B.sparse.values.byteOffset||0,f=new w(Q[1],k,B.sparse.count*l),F=new n(Q[2],U,B.sparse.count*e);E!==null&&(S=new pI(S.array.slice(),S.itemSize,S.normalized));for(let J=0,q=f.length;J<q;J++){const K=f[J];if(S.setX(K,F[J*e]),e>=2&&S.setY(K,F[J*e+1]),e>=3&&S.setZ(K,F[J*e+2]),e>=4&&S.setW(K,F[J*e+3]),e>=5)throw new Error("THREE.GLTFLoader: Unsupported itemSize in sparse BufferAttribute.")}}return S})}loadTexture(A){const I=this.json,C=this.options,i=I.textures[A].source,Q=I.images[i];let E=this.textureLoader;if(Q.uri){const e=C.manager.getHandler(Q.uri);e!==null&&(E=e)}return this.loadTextureImage(A,i,E)}loadTextureImage(A,I,C){const B=this,i=this.json,Q=i.textures[A],E=i.images[I],e=(E.uri||E.bufferView)+":"+Q.sampler;if(this.textureCache[e])return this.textureCache[e];const n=this.loadImageSource(I,C).then(function(a){a.flipY=!1,a.name=Q.name||E.name||"",a.name===""&&typeof E.uri=="string"&&E.uri.startsWith("data:image/")===!1&&(a.name=E.uri);const r=(i.samplers||{})[Q.sampler]||{};return a.magFilter=iN[r.magFilter]||tg,a.minFilter=iN[r.minFilter]||Ii,a.wrapS=QN[r.wrapS]||FQ,a.wrapT=QN[r.wrapT]||FQ,B.associations.set(a,{textures:A}),a}).catch(function(){return null});return this.textureCache[e]=n,n}loadImageSource(A,I){const C=this,B=this.json,i=this.options;if(this.sourceCache[A]!==void 0)return this.sourceCache[A].then(s=>s.clone());const Q=B.images[A],E=self.URL||self.webkitURL;let e=Q.uri||"",n=!1;if(Q.bufferView!==void 0)e=C.getDependency("bufferView",Q.bufferView).then(function(s){n=!0;const r=new Blob([s],{type:Q.mimeType});return e=E.createObjectURL(r),e});else if(Q.uri===void 0)throw new Error("THREE.GLTFLoader: Image "+A+" is missing URI and bufferView");const a=Promise.resolve(e).then(function(s){return new Promise(function(r,D){let c=r;I.isImageBitmapLoader===!0&&(c=function(y){const S=new Ig(y);S.needsUpdate=!0,r(S)}),I.load(kE.resolveURL(s,i.path),c,void 0,D)})}).then(function(s){return n===!0&&E.revokeObjectURL(e),rQ(s,Q),s.userData.mimeType=Q.mimeType||Y3(Q.uri),s}).catch(function(s){throw console.error("THREE.GLTFLoader: Couldn't load texture",e),s});return this.sourceCache[A]=a,a}assignTexture(A,I,C,B){const i=this;return this.getDependency("texture",C.index).then(function(Q){if(!Q)return null;if(C.texCoord!==void 0&&C.texCoord>0&&(Q=Q.clone(),Q.channel=C.texCoord),i.extensions[PI.KHR_TEXTURE_TRANSFORM]){const E=C.extensions!==void 0?C.extensions[PI.KHR_TEXTURE_TRANSFORM]:void 0;if(E){const e=i.associations.get(Q);Q=i.extensions[PI.KHR_TEXTURE_TRANSFORM].extendTexture(Q,E),i.associations.set(Q,e)}}return B!==void 0&&(typeof B=="number"&&(B=B===CN?de:uQ),"colorSpace"in Q?Q.colorSpace=B:Q.encoding=B===de?CN:i3),A[I]=Q,Q})}assignFinalMaterial(A){const I=A.geometry;let C=A.material;const B=I.attributes.tangent===void 0,i=I.attributes.color!==void 0,Q=I.attributes.normal===void 0;if(A.isPoints){const E="PointsMaterial:"+C.uuid;let e=this.cache.get(E);e||(e=new Gh,BC.prototype.copy.call(e,C),e.color.copy(C.color),e.map=C.map,e.sizeAttenuation=!1,this.cache.add(E,e)),C=e}else if(A.isLine){const E="LineBasicMaterial:"+C.uuid;let e=this.cache.get(E);e||(e=new PC,BC.prototype.copy.call(e,C),e.color.copy(C.color),e.map=C.map,this.cache.add(E,e)),C=e}if(B||i||Q){let E="ClonedMaterial:"+C.uuid+":";B&&(E+="derivative-tangents:"),i&&(E+="vertex-colors:"),Q&&(E+="flat-shading:");let e=this.cache.get(E);e||(e=C.clone(),i&&(e.vertexColors=!0),Q&&(e.flatShading=!0),B&&(e.normalScale&&(e.normalScale.y*=-1),e.clearcoatNormalScale&&(e.clearcoatNormalScale.y*=-1)),this.cache.add(E,e),this.associations.set(e,this.associations.get(C))),C=e}A.material=C}getMaterialType(){return cs}loadMaterial(A){const I=this,C=this.json,B=this.extensions,i=C.materials[A];let Q;const E={},e=i.extensions||{},n=[];if(e[PI.KHR_MATERIALS_UNLIT]){const s=B[PI.KHR_MATERIALS_UNLIT];Q=s.getMaterialType(),n.push(s.extendParams(E,i,I))}else{const s=i.pbrMetallicRoughness||{};if(E.color=new VA(1,1,1),E.opacity=1,Array.isArray(s.baseColorFactor)){const r=s.baseColorFactor;E.color.setRGB(r[0],r[1],r[2],uQ),E.opacity=r[3]}s.baseColorTexture!==void 0&&n.push(I.assignTexture(E,"map",s.baseColorTexture,de)),E.metalness=s.metallicFactor!==void 0?s.metallicFactor:1,E.roughness=s.roughnessFactor!==void 0?s.roughnessFactor:1,s.metallicRoughnessTexture!==void 0&&(n.push(I.assignTexture(E,"metalnessMap",s.metallicRoughnessTexture)),n.push(I.assignTexture(E,"roughnessMap",s.metallicRoughnessTexture))),Q=this._invokeOne(function(r){return r.getMaterialType&&r.getMaterialType(A)}),n.push(Promise.all(this._invokeAll(function(r){return r.extendMaterialParams&&r.extendMaterialParams(A,E)})))}i.doubleSided===!0&&(E.side=dB);const a=i.alphaMode||Yw.OPAQUE;if(a===Yw.BLEND?(E.transparent=!0,E.depthWrite=!1):(E.transparent=!1,a===Yw.MASK&&(E.alphaTest=i.alphaCutoff!==void 0?i.alphaCutoff:.5)),i.normalTexture!==void 0&&Q!==rB&&(n.push(I.assignTexture(E,"normalMap",i.normalTexture)),E.normalScale=new pA(1,1),i.normalTexture.scale!==void 0)){const s=i.normalTexture.scale;E.normalScale.set(s,s)}if(i.occlusionTexture!==void 0&&Q!==rB&&(n.push(I.assignTexture(E,"aoMap",i.occlusionTexture)),i.occlusionTexture.strength!==void 0&&(E.aoMapIntensity=i.occlusionTexture.strength)),i.emissiveFactor!==void 0&&Q!==rB){const s=i.emissiveFactor;E.emissive=new VA().setRGB(s[0],s[1],s[2],uQ)}return i.emissiveTexture!==void 0&&Q!==rB&&n.push(I.assignTexture(E,"emissiveMap",i.emissiveTexture,de)),Promise.all(n).then(function(){const s=new Q(E);return i.name&&(s.name=i.name),rQ(s,i),I.associations.set(s,{materials:A}),i.extensions&&te(B,s,i),s})}createUniqueName(A){const I=$I.sanitizeNodeName(A||"");return I in this.nodeNamesUsed?I+"_"+ ++this.nodeNamesUsed[I]:(this.nodeNamesUsed[I]=0,I)}loadGeometries(A){const I=this,C=this.extensions,B=this.primitiveCache;function i(E){return C[PI.KHR_DRACO_MESH_COMPRESSION].decodePrimitive(E,I).then(function(e){return EN(e,E,I)})}const Q=[];for(let E=0,e=A.length;E<e;E++){const n=A[E],a=q3(n),s=B[a];if(s)Q.push(s.promise);else{let r;n.extensions&&n.extensions[PI.KHR_DRACO_MESH_COMPRESSION]?r=i(n):r=EN(new FI,n,I),B[a]={primitive:n,promise:r},Q.push(r)}}return Promise.all(Q)}loadMesh(A){const I=this,C=this.json,B=this.extensions,i=C.meshes[A],Q=i.primitives,E=[];for(let e=0,n=Q.length;e<n;e++){const a=Q[e].material===void 0?J3(this.cache):this.getDependency("material",Q[e].material);E.push(a)}return E.push(I.loadGeometries(Q)),Promise.all(E).then(function(e){const n=e.slice(0,e.length-1),a=e[e.length-1],s=[];for(let D=0,c=a.length;D<c;D++){const y=a[D],S=Q[D];let l;const w=n[D];if(S.mode===WB.TRIANGLES||S.mode===WB.TRIANGLE_STRIP||S.mode===WB.TRIANGLE_FAN||S.mode===void 0)l=i.isSkinnedMesh===!0?new AM(y,w):new Jg(y,w),l.isSkinnedMesh===!0&&l.normalizeSkinWeights(),S.mode===WB.TRIANGLE_STRIP?l.geometry=gN(l.geometry,Hk):S.mode===WB.TRIANGLE_FAN&&(l.geometry=gN(l.geometry,Nl));else if(S.mode===WB.LINES)l=new Ui(y,w);else if(S.mode===WB.LINE_STRIP)l=new KQ(y,w);else if(S.mode===WB.LINE_LOOP)l=new gM(y,w);else if(S.mode===WB.POINTS)l=new CM(y,w);else throw new Error("THREE.GLTFLoader: Primitive mode unsupported: "+S.mode);Object.keys(l.geometry.morphAttributes).length>0&&f3(l,i),l.name=I.createUniqueName(i.name||"mesh_"+A),rQ(l,i),S.extensions&&te(B,l,S),I.assignFinalMaterial(l),s.push(l)}for(let D=0,c=s.length;D<c;D++)I.associations.set(s[D],{meshes:A,primitives:D});if(s.length===1)return i.extensions&&te(B,s[0],i),s[0];const r=new GQ;i.extensions&&te(B,r,i),I.associations.set(r,{meshes:A});for(let D=0,c=s.length;D<c;D++)r.add(s[D]);return r})}loadCamera(A){let I;const C=this.json.cameras[A],B=C[C.type];if(!B){console.warn("THREE.GLTFLoader: Missing camera parameters.");return}return C.type==="perspective"?I=new eC(vk.radToDeg(B.yfov),B.aspectRatio||1,B.znear||1,B.zfar||2e6):C.type==="orthographic"&&(I=new gt(-B.xmag,B.xmag,B.ymag,-B.ymag,B.znear,B.zfar)),C.name&&(I.name=this.createUniqueName(C.name)),rQ(I,C),Promise.resolve(I)}loadSkin(A){const I=this.json.skins[A],C=[];for(let B=0,i=I.joints.length;B<i;B++)C.push(this._loadNodeShallow(I.joints[B]));return I.inverseBindMatrices!==void 0?C.push(this.getDependency("accessor",I.inverseBindMatrices)):C.push(null),Promise.all(C).then(function(B){const i=B.pop(),Q=B,E=[],e=[];for(let n=0,a=Q.length;n<a;n++){const s=Q[n];if(s){E.push(s);const r=new hI;i!==null&&r.fromArray(i.array,n*16),e.push(r)}else console.warn('THREE.GLTFLoader: Joint "%s" could not be found.',I.joints[n])}return new ss(E,e)})}loadAnimation(A){const I=this.json,C=this,B=I.animations[A],i=B.name?B.name:"animation_"+A,Q=[],E=[],e=[],n=[],a=[];for(let s=0,r=B.channels.length;s<r;s++){const D=B.channels[s],c=B.samplers[D.sampler],y=D.target,S=y.node,l=B.parameters!==void 0?B.parameters[c.input]:c.input,w=B.parameters!==void 0?B.parameters[c.output]:c.output;y.node!==void 0&&(Q.push(this.getDependency("node",S)),E.push(this.getDependency("accessor",l)),e.push(this.getDependency("accessor",w)),n.push(c),a.push(y))}return Promise.all([Promise.all(Q),Promise.all(E),Promise.all(e),Promise.all(n),Promise.all(a)]).then(function(s){const r=s[0],D=s[1],c=s[2],y=s[3],S=s[4],l=[];for(let w=0,k=r.length;w<k;w++){const U=r[w],f=D[w],F=c[w],J=y[w],q=S[w];if(U===void 0)continue;U.updateMatrix&&U.updateMatrix();const K=C._createAnimationTracks(U,f,F,J,q);if(K)for(let N=0;N<K.length;N++)l.push(K[N])}return new qo(i,void 0,l)})}createNodeMesh(A){const I=this.json,C=this,B=I.nodes[A];return B.mesh===void 0?null:C.getDependency("mesh",B.mesh).then(function(i){const Q=C._getNodeRef(C.meshCache,B.mesh,i);return B.weights!==void 0&&Q.traverse(function(E){if(E.isMesh)for(let e=0,n=B.weights.length;e<n;e++)E.morphTargetInfluences[e]=B.weights[e]}),Q})}loadNode(A){const I=this.json,C=this,B=I.nodes[A],i=C._loadNodeShallow(A),Q=[],E=B.children||[];for(let n=0,a=E.length;n<a;n++)Q.push(C.getDependency("node",E[n]));const e=B.skin===void 0?Promise.resolve(null):C.getDependency("skin",B.skin);return 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TE(R,H,d){const L={};if(R.getUint32(0,!0)!=20000630)throw"THREE.EXRLoader: provided file doesn't appear to be in OpenEXR format.";L.version=R.getUint8(4);const x=R.getUint8(5);L.spec={singleTile:!!(x&2),longName:!!(x&4),deepFormat:!!(x&8),multiPart:!!(x&16)},d.value=8;for(var v=!0;v;){var Z=SI(H,d);if(Z==0)v=!1;else{var BA=SI(H,d),sA=HA(R,d),lA=ei(R,H,d,BA,sA);lA===void 0?console.warn(`EXRLoader.parse: skipped unknown header attribute type '${BA}'.`):L[Z]=lA}}if(x&-5)throw console.error("EXRHeader:",L),"THREE.EXRLoader: provided file is currently unsupported.";return L}function et(R,H,d,L,x){const v={size:0,viewer:H,array:d,offset:L,width:R.dataWindow.xMax-R.dataWindow.xMin+1,height:R.dataWindow.yMax-R.dataWindow.yMin+1,channels:R.channels.length,bytesPerLine:null,lines:null,inputSize:null,type:R.channels[0].pixelType,uncompress:null,getter:null,format:null,[xn?"colorSpace":"encoding"]:null};switch(R.compression){case"NO_COMPRESSION":v.lines=1,v.uncompress=FA;break;case"RLE_COMPRESSION":v.lines=1,v.uncompress=NA;break;case"ZIPS_COMPRESSION":v.lines=1,v.uncompress=RA;break;case"ZIP_COMPRESSION":v.lines=16,v.uncompress=RA;break;case"PIZ_COMPRESSION":v.lines=32,v.uncompress=oI;break;case"PXR24_COMPRESSION":v.lines=16,v.uncompress=_A;break;case"DWAA_COMPRESSION":v.lines=32,v.uncompress=ZA;break;case"DWAB_COMPRESSION":v.lines=256,v.uncompress=ZA;break;default:throw"EXRLoader.parse: "+R.compression+" is unsupported"}if(v.scanlineBlockSize=v.lines,v.type==1)switch(x){case _g:v.getter=TA,v.inputSize=2;break;case dC:v.getter=dA,v.inputSize=2;break}else if(v.type==2)switch(x){case _g:v.getter=V,v.inputSize=4;break;case dC:v.getter=jA,v.inputSize=4}else throw"EXRLoader.parse: unsupported pixelType "+v.type+" for "+R.compression+".";v.blockCount=(R.dataWindow.yMax+1)/v.scanlineBlockSize;for(var Z=0;Z<v.blockCount;Z++)qI(H,L);v.outputChannels=v.channels==3?4:v.channels;const BA=v.width*v.height*v.outputChannels;switch(x){case _g:v.byteArray=new Float32Array(BA),v.channels<v.outputChannels&&v.byteArray.fill(1,0,BA);break;case dC:v.byteArray=new Uint16Array(BA),v.channels<v.outputChannels&&v.byteArray.fill(15360,0,BA);break;default:console.error("THREE.EXRLoader: unsupported type: ",x);break}return v.bytesPerLine=v.width*v.inputSize*v.channels,v.outputChannels==4?v.format=CC:v.format=sh,xn?v.colorSpace="srgb-linear":v.encoding=3e3,v}const Ni=new DataView(A),Fi=new Uint8Array(A),Ki={value:0},RC=TE(Ni,A,Ki),xI=et(RC,Ni,Fi,Ki,this.type),xE={value:0},zo={R:0,G:1,B:2,A:3,Y:0};for(let R=0;R<xI.height/xI.scanlineBlockSize;R++){const H=HA(Ni,Ki);xI.size=HA(Ni,Ki),xI.lines=H+xI.scanlineBlockSize>xI.height?xI.height-H:xI.scanlineBlockSize;const L=xI.size<xI.lines*xI.bytesPerLine?xI.uncompress(xI):FA(xI);Ki.value+=xI.size;for(let x=0;x<xI.scanlineBlockSize;x++){const v=x+R*xI.scanlineBlockSize;if(v>=xI.height)break;for(let Z=0;Z<xI.channels;Z++){const BA=zo[RC.channels[Z].name];for(let sA=0;sA<xI.width;sA++){xE.value=(x*(xI.channels*xI.width)+Z*xI.width+sA)*xI.inputSize;const lA=(xI.height-1-v)*(xI.width*xI.outputChannels)+sA*xI.outputChannels+BA;xI.byteArray[lA]=xI.getter(L,xE)}}}}return{header:RC,width:xI.width,height:xI.height,data:xI.byteArray,format:xI.format,[xn?"colorSpace":"encoding"]:xI[xn?"colorSpace":"encoding"],type:this.type}}setDataType(A){return this.type=A,this}load(A,I,C,B){function i(Q,E){xn?Q.colorSpace=E.colorSpace:Q.encoding=E.encoding,Q.minFilter=tg,Q.magFilter=tg,Q.generateMipmaps=!1,Q.flipY=!1,I&&I(Q,E)}return super.load(A,i,C,B)}}const Lw=new WeakMap;class v3 extends JC{constructor(A){super(A),this.decoderPath="",this.decoderConfig={},this.decoderBinary=null,this.decoderPending=null,this.workerLimit=4,this.workerPool=[],this.workerNextTaskID=1,this.workerSourceURL="",this.defaultAttributeIDs={position:"POSITION",normal:"NORMAL",color:"COLOR",uv:"TEX_COORD"},this.defaultAttributeTypes={position:"Float32Array",normal:"Float32Array",color:"Float32Array",uv:"Float32Array"}}setDecoderPath(A){return this.decoderPath=A,this}setDecoderConfig(A){return this.decoderConfig=A,this}setWorkerLimit(A){return this.workerLimit=A,this}load(A,I,C,B){const i=new FC(this.manager);i.setPath(this.path),i.setResponseType("arraybuffer"),i.setRequestHeader(this.requestHeader),i.setWithCredentials(this.withCredentials),i.load(A,Q=>{const E={attributeIDs:this.defaultAttributeIDs,attributeTypes:this.defaultAttributeTypes,useUniqueIDs:!1};this.decodeGeometry(Q,E).then(I).catch(B)},C,B)}decodeDracoFile(A,I,C,B){const i={attributeIDs:C||this.defaultAttributeIDs,attributeTypes:B||this.defaultAttributeTypes,useUniqueIDs:!!C};this.decodeGeometry(A,i).then(I)}decodeGeometry(A,I){for(const e in I.attributeTypes){const n=I.attributeTypes[e];n.BYTES_PER_ELEMENT!==void 0&&(I.attributeTypes[e]=n.name)}const C=JSON.stringify(I);if(Lw.has(A)){const e=Lw.get(A);if(e.key===C)return e.promise;if(A.byteLength===0)throw new Error("THREE.DRACOLoader: Unable to re-decode a buffer with different settings. Buffer has already been transferred.")}let B;const i=this.workerNextTaskID++,Q=A.byteLength,E=this._getWorker(i,Q).then(e=>(B=e,new Promise((n,a)=>{B._callbacks[i]={resolve:n,reject:a},B.postMessage({type:"decode",id:i,taskConfig:I,buffer:A},[A])}))).then(e=>this._createGeometry(e.geometry));return E.catch(()=>!0).then(()=>{B&&i&&this._releaseTask(B,i)}),Lw.set(A,{key:C,promise:E}),E}_createGeometry(A){const I=new FI;A.index&&I.setIndex(new pI(A.index.array,1));for(let C=0;C<A.attributes.length;C++){const B=A.attributes[C],i=B.name,Q=B.array,E=B.itemSize;I.setAttribute(i,new pI(Q,E))}return I}_loadLibrary(A,I){const C=new FC(this.manager);return C.setPath(this.decoderPath),C.setResponseType(I),C.setWithCredentials(this.withCredentials),new Promise((B,i)=>{C.load(A,B,void 0,i)})}preload(){return this._initDecoder(),this}_initDecoder(){if(this.decoderPending)return this.decoderPending;const A=typeof WebAssembly!="object"||this.decoderConfig.type==="js",I=[];return A?I.push(this._loadLibrary("draco_decoder.js","text")):(I.push(this._loadLibrary("draco_wasm_wrapper.js","text")),I.push(this._loadLibrary("draco_decoder.wasm","arraybuffer"))),this.decoderPending=Promise.all(I).then(C=>{const B=C[0];A||(this.decoderConfig.wasmBinary=C[1]);const i=O3.toString(),Q=["/* draco decoder */",B,"","/* worker */",i.substring(i.indexOf("{")+1,i.lastIndexOf("}"))].join(`
`);this.workerSourceURL=URL.createObjectURL(new Blob([Q]))}),this.decoderPending}_getWorker(A,I){return this._initDecoder().then(()=>{if(this.workerPool.length<this.workerLimit){const B=new Worker(this.workerSourceURL);B._callbacks={},B._taskCosts={},B._taskLoad=0,B.postMessage({type:"init",decoderConfig:this.decoderConfig}),B.onmessage=function(i){const Q=i.data;switch(Q.type){case"decode":B._callbacks[Q.id].resolve(Q);break;case"error":B._callbacks[Q.id].reject(Q);break;default:console.error('THREE.DRACOLoader: Unexpected message, "'+Q.type+'"')}},this.workerPool.push(B)}else this.workerPool.sort(function(B,i){return B._taskLoad>i._taskLoad?-1:1});const C=this.workerPool[this.workerPool.length-1];return C._taskCosts[A]=I,C._taskLoad+=I,C})}_releaseTask(A,I){A._taskLoad-=A._taskCosts[I],delete A._callbacks[I],delete A._taskCosts[I]}debug(){console.log("Task load: ",this.workerPool.map(A=>A._taskLoad))}dispose(){for(let A=0;A<this.workerPool.length;++A)this.workerPool[A].terminate();return this.workerPool.length=0,this}}function O3(){let g,A;onmessage=function(Q){const E=Q.data;switch(E.type){case"init":g=E.decoderConfig,A=new Promise(function(a){g.onModuleLoaded=function(s){a({draco:s})},DracoDecoderModule(g)});break;case"decode":const e=E.buffer,n=E.taskConfig;A.then(a=>{const s=a.draco,r=new s.Decoder,D=new s.DecoderBuffer;D.Init(new Int8Array(e),e.byteLength);try{const c=I(s,r,D,n),y=c.attributes.map(S=>S.array.buffer);c.index&&y.push(c.index.array.buffer),self.postMessage({type:"decode",id:E.id,geometry:c},y)}catch(c){console.error(c),self.postMessage({type:"error",id:E.id,error:c.message})}finally{s.destroy(D),s.destroy(r)}});break}};function I(Q,E,e,n){const a=n.attributeIDs,s=n.attributeTypes;let r,D;const c=E.GetEncodedGeometryType(e);if(c===Q.TRIANGULAR_MESH)r=new Q.Mesh,D=E.DecodeBufferToMesh(e,r);else if(c===Q.POINT_CLOUD)r=new Q.PointCloud,D=E.DecodeBufferToPointCloud(e,r);else throw new Error("THREE.DRACOLoader: Unexpected geometry type.");if(!D.ok()||r.ptr===0)throw new Error("THREE.DRACOLoader: Decoding failed: "+D.error_msg());const y={index:null,attributes:[]};for(const S in a){const l=self[s[S]];let w,k;if(n.useUniqueIDs)k=a[S],w=E.GetAttributeByUniqueId(r,k);else{if(k=E.GetAttributeId(r,Q[a[S]]),k===-1)continue;w=E.GetAttribute(r,k)}y.attributes.push(B(Q,E,r,S,l,w))}return c===Q.TRIANGULAR_MESH&&(y.index=C(Q,E,r)),Q.destroy(r),y}function C(Q,E,e){const a=e.num_faces()*3,s=a*4,r=Q._malloc(s);E.GetTrianglesUInt32Array(e,s,r);const D=new Uint32Array(Q.HEAPF32.buffer,r,a).slice();return Q._free(r),{array:D,itemSize:1}}function B(Q,E,e,n,a,s){const r=s.num_components(),c=e.num_points()*r,y=c*a.BYTES_PER_ELEMENT,S=i(Q,a),l=Q._malloc(y);E.GetAttributeDataArrayForAllPoints(e,s,S,y,l);const w=new a(Q.HEAPF32.buffer,l,c).slice();return Q._free(l),{name:n,array:w,itemSize:r}}function i(Q,E){switch(E){case Float32Array:return Q.DT_FLOAT32;case Int8Array:return Q.DT_INT8;case Int16Array:return Q.DT_INT16;case Int32Array:return Q.DT_INT32;case Uint8Array:return Q.DT_UINT8;case Uint16Array:return Q.DT_UINT16;case Uint32Array:return Q.DT_UINT32}}}let ND;const Hw=()=>{if(ND)return ND;const g="B9h9z9tFBBBF8fL9gBB9gLaaaaaFa9gEaaaB9gFaFa9gEaaaFaEMcBFFFGGGEIIILF9wFFFLEFBFKNFaFCx/IFMO/LFVK9tv9t9vq95GBt9f9f939h9z9t9f9j9h9s9s9f9jW9vq9zBBp9tv9z9o9v9wW9f9kv9j9v9kv9WvqWv94h919m9mvqBF8Z9tv9z9o9v9wW9f9kv9j9v9kv9J9u9kv94h919m9mvqBGy9tv9z9o9v9wW9f9kv9j9v9kv9J9u9kv949TvZ91v9u9jvBEn9tv9z9o9v9wW9f9kv9j9v9kv69p9sWvq9P9jWBIi9tv9z9o9v9wW9f9kv9j9v9kv69p9sWvq9R919hWBLn9tv9z9o9v9wW9f9kv9j9v9kv69p9sWvq9F949wBKI9z9iqlBOc+x8ycGBM/qQFTa8jUUUUBCU/EBlHL8kUUUUBC9+RKGXAGCFJAI9LQBCaRKAE2BBC+gF9HQBALAEAIJHOAGlAGTkUUUBRNCUoBAG9uC/wgBZHKCUGAKCUG9JyRVAECFJRICBRcGXEXAcAF9PQFAVAFAclAcAVJAF9JyRMGXGXAG9FQBAMCbJHKC9wZRSAKCIrCEJCGrRQANCUGJRfCBRbAIRTEXGXAOATlAQ9PQBCBRISEMATAQJRIGXAS9FQBCBRtCBREEXGXAOAIlCi9PQBCBRISLMANCU/CBJAEJRKGXGXGXGXGXATAECKrJ2BBAtCKZrCEZfIBFGEBMAKhB83EBAKCNJhB83EBSEMAKAI2BIAI2BBHmCKrHYAYCE6HYy86BBAKCFJAICIJAYJHY2BBAmCIrCEZHPAPCE6HPy86BBAKCGJAYAPJHY2BBAmCGrCEZHPAPCE6HPy86BBAKCEJAYAPJHY2BBAmCEZHmAmCE6Hmy86BBAKCIJAYAmJHY2BBAI2BFHmCKrHPAPCE6HPy86BBAKCLJAYAPJHY2BBAmCIrCEZHPAPCE6HPy86BBAKCKJAYAPJHY2BBAmCGrCEZHPAPCE6HPy86BBAKCOJAYAPJHY2BBAmCEZHmAmCE6Hmy86BBAKCNJAYAmJHY2BBAI2BGHmCKrHPAPCE6HPy86BBAKCVJAYAPJHY2BBAmCIrCEZHPAPCE6HPy86BBAKCcJAYAPJHY2BBAmCGrCEZHPAPCE6HPy86BBAKCMJAYAPJHY2BBAmCEZHmAmCE6Hmy86BBAKCSJAYAmJHm2BBAI2BEHICKrHYAYCE6HYy86BBAKCQJAmAYJHm2BBAICIrCEZHYAYCE6HYy86BBAKCfJAmAYJHm2BBAICGrCEZHYAYCE6HYy86BBAKCbJAmAYJHK2BBAICEZHIAICE6HIy86BBAKAIJRISGMAKAI2BNAI2BBHmCIrHYAYCb6HYy86BBAKCFJAICNJAYJHY2BBAmCbZHmAmCb6Hmy86BBAKCGJAYAmJHm2BBAI2BFHYCIrHPAPCb6HPy86BBAKCEJAmAPJHm2BBAYCbZHYAYCb6HYy86BBAKCIJAmAYJHm2BBAI2BGHYCIrHPAPCb6HPy86BBAKCLJAmAPJHm2BBAYCbZHYAYCb6HYy86BBAKCKJAmAYJHm2BBAI2BEHYCIrHPAPCb6HPy86BBAKCOJAmAPJHm2BBAYCbZHYAYCb6HYy86BBAKCNJAmAYJHm2BBAI2BIHYCIrHPAPCb6HPy86BBAKCVJAmAPJHm2BBAYCbZHYAYCb6HYy86BBAKCcJAmAYJHm2BBAI2BLHYCIrHPAPCb6HPy86BBAKCMJAmAPJHm2BBAYCbZHYAYCb6HYy86BBAKCSJAmAYJHm2BBAI2BKHYCIrHPAPCb6HPy86BBAKCQJAmAPJHm2BBAYCbZHYAYCb6HYy86BBAKCfJAmAYJHm2BBAI2BOHICIrHYAYCb6HYy86BBAKCbJAmAYJHK2BBAICbZHIAICb6HIy86BBAKAIJRISFMAKAI8pBB83BBAKCNJAICNJ8pBB83BBAICTJRIMAtCGJRtAECTJHEAS9JQBMMGXAIQBCBRISEMGXAM9FQBANAbJ2BBRtCBRKAfREEXAEANCU/CBJAKJ2BBHTCFrCBATCFZl9zAtJHt86BBAEAGJREAKCFJHKAM9HQBMMAfCFJRfAIRTAbCFJHbAG9HQBMMABAcAG9sJANCUGJAMAG9sTkUUUBpANANCUGJAMCaJAG9sJAGTkUUUBpMAMCBAIyAcJRcAIQBMC9+RKSFMCBC99AOAIlAGCAAGCA9Ly6yRKMALCU/EBJ8kUUUUBAKM+OmFTa8jUUUUBCoFlHL8kUUUUBC9+RKGXAFCE9uHOCtJAI9LQBCaRKAE2BBHNC/wFZC/gF9HQBANCbZHVCF9LQBALCoBJCgFCUFT+JUUUBpALC84Jha83EBALC8wJha83EBALC8oJha83EBALCAJha83EBALCiJha83EBALCTJha83EBALha83ENALha83EBAEAIJC9wJRcAECFJHNAOJRMGXAF9FQBCQCbAVCF6yRSABRECBRVCBRQCBRfCBRICBRKEXGXAMAcuQBC9+RKSEMGXGXAN2BBHOC/vF9LQBALCoBJAOCIrCa9zAKJCbZCEWJHb8oGIRTAb8oGBRtGXAOCbZHbAS9PQBALAOCa9zAIJCbZCGWJ8oGBAVAbyROAb9FRbGXGXAGCG9HQBABAt87FBABCIJAO87FBABCGJAT87FBSFMAEAtjGBAECNJAOjGBAECIJATjGBMAVAbJRVALCoBJAKCEWJHmAOjGBAmATjGIALAICGWJAOjGBALCoBJAKCFJCbZHKCEWJHTAtjGBATAOjGIAIAbJRIAKCFJRKSGMGXGXAbCb6QBAQAbJAbC989zJCFJRQSFMAM1BBHbCgFZROGXGXAbCa9MQBAMCFJRMSFMAM1BFHbCgBZCOWAOCgBZqROGXAbCa9MQBAMCGJRMSFMAM1BGHbCgBZCfWAOqROGXAbCa9MQBAMCEJRMSFMAM1BEHbCgBZCdWAOqROGXAbCa9MQBAMCIJRMSFMAM2BIC8cWAOqROAMCLJRMMAOCFrCBAOCFZl9zAQJRQMGXGXAGCG9HQBABAt87FBABCIJAQ87FBABCGJAT87FBSFMAEAtjGBAECNJAQjGBAECIJATjGBMALCoBJAKCEWJHOAQjGBAOATjGIALAICGWJAQjGBALCoBJAKCFJCbZHKCEWJHOAtjGBAOAQjGIAICFJRIAKCFJRKSFMGXAOCDF9LQBALAIAcAOCbZJ2BBHbCIrHTlCbZCGWJ8oGBAVCFJHtATyROALAIAblCbZCGWJ8oGBAtAT9FHmJHtAbCbZHTyRbAT9FRTGXGXAGCG9HQBABAV87FBABCIJAb87FBABCGJAO87FBSFMAEAVjGBAECNJAbjGBAECIJAOjGBMALAICGWJAVjGBALCoBJAKCEWJHYAOjGBAYAVjGIALAICFJHICbZCGWJAOjGBALCoBJAKCFJCbZCEWJHYAbjGBAYAOjGIALAIAmJCbZHICGWJAbjGBALCoBJAKCGJCbZHKCEWJHOAVjGBAOAbjGIAKCFJRKAIATJRIAtATJRVSFMAVCBAM2BBHYyHTAOC/+F6HPJROAYCbZRtGXGXAYCIrHmQBAOCFJRbSFMAORbALAIAmlCbZCGWJ8oGBROMGXGXAtQBAbCFJRVSFMAbRVALAIAYlCbZCGWJ8oGBRbMGXGXAP9FQBAMCFJRYSFMAM1BFHYCgFZRTGXGXAYCa9MQBAMCGJRYSFMAM1BGHYCgBZCOWATCgBZqRTGXAYCa9MQBAMCEJRYSFMAM1BEHYCgBZCfWATqRTGXAYCa9MQBAMCIJRYSFMAM1BIHYCgBZCdWATqRTGXAYCa9MQBAMCLJRYSFMAMCKJRYAM2BLC8cWATqRTMATCFrCBATCFZl9zAQJHQRTMGXGXAmCb6QBAYRPSFMAY1BBHMCgFZROGXGXAMCa9MQBAYCFJRPSFMAY1BFHMCgBZCOWAOCgBZqROGXAMCa9MQBAYCGJRPSFMAY1BGHMCgBZCfWAOqROGXAMCa9MQBAYCEJRPSFMAY1BEHMCgBZCdWAOqROGXAMCa9MQBAYCIJRPSFMAYCLJRPAY2BIC8cWAOqROMAOCFrCBAOCFZl9zAQJHQROMGXGXAtCb6QBAPRMSFMAP1BBHMCgFZRbGXGXAMCa9MQBAPCFJRMSFMAP1BFHMCgBZCOWAbCgBZqRbGXAMCa9MQBAPCGJRMSFMAP1BGHMCgBZCfWAbqRbGXAMCa9MQBAPCEJRMSFMAP1BEHMCgBZCdWAbqRbGXAMCa9MQBAPCIJRMSFMAPCLJRMAP2BIC8cWAbqRbMAbCFrCBAbCFZl9zAQJHQRbMGXGXAGCG9HQBABAT87FBABCIJAb87FBABCGJAO87FBSFMAEATjGBAECNJAbjGBAECIJAOjGBMALCoBJAKCEWJHYAOjGBAYATjGIALAICGWJATjGBALCoBJAKCFJCbZCEWJHYAbjGBAYAOjGIALAICFJHICbZCGWJAOjGBALCoBJAKCGJCbZCEWJHOATjGBAOAbjGIALAIAm9FAmCb6qJHICbZCGWJAbjGBAIAt9FAtCb6qJRIAKCEJRKMANCFJRNABCKJRBAECSJREAKCbZRKAICbZRIAfCEJHfAF9JQBMMCBC99AMAc6yRKMALCoFJ8kUUUUBAKM/tIFGa8jUUUUBCTlRLC9+RKGXAFCLJAI9LQBCaRKAE2BBC/+FZC/QF9HQBALhB83ENAECFJRKAEAIJC98JREGXAF9FQBGXAGCG6QBEXGXAKAE9JQBC9+bMAK1BBHGCgFZRIGXGXAGCa9MQBAKCFJRKSFMAK1BFHGCgBZCOWAICgBZqRIGXAGCa9MQBAKCGJRKSFMAK1BGHGCgBZCfWAIqRIGXAGCa9MQBAKCEJRKSFMAK1BEHGCgBZCdWAIqRIGXAGCa9MQBAKCIJRKSFMAK2BIC8cWAIqRIAKCLJRKMALCNJAICFZCGWqHGAICGrCBAICFrCFZl9zAG8oGBJHIjGBABAIjGBABCIJRBAFCaJHFQBSGMMEXGXAKAE9JQBC9+bMAK1BBHGCgFZRIGXGXAGCa9MQBAKCFJRKSFMAK1BFHGCgBZCOWAICgBZqRIGXAGCa9MQBAKCGJRKSFMAK1BGHGCgBZCfWAIqRIGXAGCa9MQBAKCEJRKSFMAK1BEHGCgBZCdWAIqRIGXAGCa9MQBAKCIJRKSFMAK2BIC8cWAIqRIAKCLJRKMABAICGrCBAICFrCFZl9zALCNJAICFZCGWqHI8oGBJHG87FBAIAGjGBABCGJRBAFCaJHFQBMMCBC99AKAE6yRKMAKM+lLKFaF99GaG99FaG99GXGXAGCI9HQBAF9FQFEXGXGX9DBBB8/9DBBB+/ABCGJHG1BB+yAB1BBHE+yHI+L+TABCFJHL1BBHK+yHO+L+THN9DBBBB9gHVyAN9DBB/+hANAN+U9DBBBBANAVyHcAc+MHMAECa3yAI+SHIAI+UAcAMAKCa3yAO+SHcAc+U+S+S+R+VHO+U+SHN+L9DBBB9P9d9FQBAN+oRESFMCUUUU94REMAGAE86BBGXGX9DBBB8/9DBBB+/Ac9DBBBB9gyAcAO+U+SHN+L9DBBB9P9d9FQBAN+oRGSFMCUUUU94RGMALAG86BBGXGX9DBBB8/9DBBB+/AI9DBBBB9gyAIAO+U+SHN+L9DBBB9P9d9FQBAN+oRGSFMCUUUU94RGMABAG86BBABCIJRBAFCaJHFQBSGMMAF9FQBEXGXGX9DBBB8/9DBBB+/ABCIJHG8uFB+yAB8uFBHE+yHI+L+TABCGJHL8uFBHK+yHO+L+THN9DBBBB9gHVyAN9DB/+g6ANAN+U9DBBBBANAVyHcAc+MHMAECa3yAI+SHIAI+UAcAMAKCa3yAO+SHcAc+U+S+S+R+VHO+U+SHN+L9DBBB9P9d9FQBAN+oRESFMCUUUU94REMAGAE87FBGXGX9DBBB8/9DBBB+/Ac9DBBBB9gyAcAO+U+SHN+L9DBBB9P9d9FQBAN+oRGSFMCUUUU94RGMALAG87FBGXGX9DBBB8/9DBBB+/AI9DBBBB9gyAIAO+U+SHN+L9DBBB9P9d9FQBAN+oRGSFMCUUUU94RGMABAG87FBABCNJRBAFCaJHFQBMMM/SEIEaE99EaF99GXAF9FQBCBREABRIEXGXGX9D/zI818/AICKJ8uFBHLCEq+y+VHKAI8uFB+y+UHO9DB/+g6+U9DBBB8/9DBBB+/AO9DBBBB9gy+SHN+L9DBBB9P9d9FQBAN+oRVSFMCUUUU94RVMAICIJ8uFBRcAICGJ8uFBRMABALCFJCEZAEqCFWJAV87FBGXGXAKAM+y+UHN9DB/+g6+U9DBBB8/9DBBB+/AN9DBBBB9gy+SHS+L9DBBB9P9d9FQBAS+oRMSFMCUUUU94RMMABALCGJCEZAEqCFWJAM87FBGXGXAKAc+y+UHK9DB/+g6+U9DBBB8/9DBBB+/AK9DBBBB9gy+SHS+L9DBBB9P9d9FQBAS+oRcSFMCUUUU94RcMABALCaJCEZAEqCFWJAc87FBGXGX9DBBU8/AOAO+U+TANAN+U+TAKAK+U+THO9DBBBBAO9DBBBB9gy+R9DB/+g6+U9DBBB8/+SHO+L9DBBB9P9d9FQBAO+oRcSFMCUUUU94RcMABALCEZAEqCFWJAc87FBAICNJRIAECIJREAFCaJHFQBMMM9JBGXAGCGrAF9sHF9FQBEXABAB8oGBHGCNWCN91+yAGCi91CnWCUUU/8EJ+++U84GBABCIJRBAFCaJHFQBMMM9TFEaCBCB8oGUkUUBHFABCEJC98ZJHBjGUkUUBGXGXAB8/BCTWHGuQBCaREABAGlCggEJCTrXBCa6QFMAFREMAEM/lFFFaGXGXAFABqCEZ9FQBABRESFMGXGXAGCT9PQBABRESFMABREEXAEAF8oGBjGBAECIJAFCIJ8oGBjGBAECNJAFCNJ8oGBjGBAECSJAFCSJ8oGBjGBAECTJREAFCTJRFAGC9wJHGCb9LQBMMAGCI9JQBEXAEAF8oGBjGBAFCIJRFAECIJREAGC98JHGCE9LQBMMGXAG9FQBEXAEAF2BB86BBAECFJREAFCFJRFAGCaJHGQBMMABMoFFGaGXGXABCEZ9FQBABRESFMAFCgFZC+BwsN9sRIGXGXAGCT9PQBABRESFMABREEXAEAIjGBAECSJAIjGBAECNJAIjGBAECIJAIjGBAECTJREAGC9wJHGCb9LQBMMAGCI9JQBEXAEAIjGBAECIJREAGC98JHGCE9LQBMMGXAG9FQBEXAEAF86BBAECFJREAGCaJHGQBMMABMMMFBCUNMIT9kBB",A="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",I=new 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F=s(k,D,c,U,y.length);if(F===0&&S&&S(k,w,c),r.set(f.subarray(k,k+D*c)),l(k-l(0)),F!==0)throw new Error(`Malformed buffer data: ${F}`)}const n={0:"",1:"meshopt_decodeFilterOct",2:"meshopt_decodeFilterQuat",3:"meshopt_decodeFilterExp",NONE:"",OCTAHEDRAL:"meshopt_decodeFilterOct",QUATERNION:"meshopt_decodeFilterQuat",EXPONENTIAL:"meshopt_decodeFilterExp"},a={0:"meshopt_decodeVertexBuffer",1:"meshopt_decodeIndexBuffer",2:"meshopt_decodeIndexSequence",ATTRIBUTES:"meshopt_decodeVertexBuffer",TRIANGLES:"meshopt_decodeIndexBuffer",INDICES:"meshopt_decodeIndexSequence"};return ND={ready:Q,supported:!0,decodeVertexBuffer(s,r,D,c,y){e(i.exports.meshopt_decodeVertexBuffer,s,r,D,c,i.exports[n[y]])},decodeIndexBuffer(s,r,D,c){e(i.exports.meshopt_decodeIndexBuffer,s,r,D,c)},decodeIndexSequence(s,r,D,c){e(i.exports.meshopt_decodeIndexSequence,s,r,D,c)},decodeGltfBuffer(s,r,D,c,y,S){e(i.exports[a[y]],s,r,D,c,i.exports[n[S]])}},ND},Tw=g=>g===Object(g)&&!Array.isArray(g)&&typeof g!="function";function Hh(g,A){const I=KE(i=>i.gl),C=LQ(Ss,Tw(g)?Object.values(g):g);return eA.useLayoutEffect(()=>{A==null||A(C)},[A]),eA.useEffect(()=>{if("initTexture"in I){let i=[];Array.isArray(C)?i=C:C instanceof Ig?i=[C]:Tw(C)&&(i=Object.values(C)),i.forEach(Q=>{Q instanceof Ig&&I.initTexture(Q)})}},[I,C]),eA.useMemo(()=>{if(Tw(g)){const i={};let Q=0;for(const E in g)i[E]=C[Q++];return console.log("keyed",i),i}else return C},[g,C])}Hh.preload=g=>LQ.preload(Ss,g);Hh.clear=g=>LQ.clear(Ss,g);var b3=Object.defineProperty,_3=(g,A,I)=>A in g?b3(g,A,{enumerable:!0,configurable:!0,writable:!0,value:I}):g[A]=I,ng=(g,A,I)=>(_3(g,typeof A!="symbol"?A+"":A,I),I);function xw(g,A,I,C,B){let i;if(g=g.subarray||g.slice?g:g.buffer,I=I.subarray||I.slice?I:I.buffer,g=A?g.subarray?g.subarray(A,B&&A+B):g.slice(A,B&&A+B):g,I.set)I.set(g,C);else for(i=0;i<g.length;i++)I[i+C]=g[i];return I}function Z3(g){return g instanceof Float32Array?g:g instanceof FI?g.getAttribute("position").array:g.map(A=>{const I=Array.isArray(A);return A instanceof T?[A.x,A.y,A.z]:A instanceof pA?[A.x,A.y,0]:I&&A.length===3?[A[0],A[1],A[2]]:I&&A.length===2?[A[0],A[1],0]:A}).flat()}class P3 extends FI{constructor(){super(),ng(this,"type","MeshLine"),ng(this,"isMeshLine",!0),ng(this,"positions",[]),ng(this,"previous",[]),ng(this,"next",[]),ng(this,"side",[]),ng(this,"width",[]),ng(this,"indices_array",[]),ng(this,"uvs",[]),ng(this,"counters",[]),ng(this,"widthCallback",null),ng(this,"_attributes"),ng(this,"_points",[]),ng(this,"points"),ng(this,"matrixWorld",new hI),Object.defineProperties(this,{points:{enumerable:!0,get(){return this._points},set(A){this.setPoints(A,this.widthCallback)}}})}setMatrixWorld(A){this.matrixWorld=A}setPoints(A,I){if(A=Z3(A),this._points=A,this.widthCallback=I??null,this.positions=[],this.counters=[],A.length&&A[0]instanceof T)for(let C=0;C<A.length;C++){const B=A[C],i=C/(A.length-1);this.positions.push(B.x,B.y,B.z),this.positions.push(B.x,B.y,B.z),this.counters.push(i),this.counters.push(i)}else for(let C=0;C<A.length;C+=3){const B=C/(A.length-1);this.positions.push(A[C],A[C+1],A[C+2]),this.positions.push(A[C],A[C+1],A[C+2]),this.counters.push(B),this.counters.push(B)}this.process()}compareV3(A,I){const C=A*6,B=I*6;return this.positions[C]===this.positions[B]&&this.positions[C+1]===this.positions[B+1]&&this.positions[C+2]===this.positions[B+2]}copyV3(A){const I=A*6;return[this.positions[I],this.positions[I+1],this.positions[I+2]]}process(){const A=this.positions.length/6;this.previous=[],this.next=[],this.side=[],this.width=[],this.indices_array=[],this.uvs=[];let I,C;this.compareV3(0,A-1)?C=this.copyV3(A-2):C=this.copyV3(0),this.previous.push(C[0],C[1],C[2]),this.previous.push(C[0],C[1],C[2]);for(let B=0;B<A;B++){if(this.side.push(1),this.side.push(-1),this.widthCallback?I=this.widthCallback(B/(A-1)):I=1,this.width.push(I),this.width.push(I),this.uvs.push(B/(A-1),0),this.uvs.push(B/(A-1),1),B<A-1){C=this.copyV3(B),this.previous.push(C[0],C[1],C[2]),this.previous.push(C[0],C[1],C[2]);const i=B*2;this.indices_array.push(i,i+1,i+2),this.indices_array.push(i+2,i+1,i+3)}B>0&&(C=this.copyV3(B),this.next.push(C[0],C[1],C[2]),this.next.push(C[0],C[1],C[2]))}this.compareV3(A-1,0)?C=this.copyV3(1):C=this.copyV3(A-1),this.next.push(C[0],C[1],C[2]),this.next.push(C[0],C[1],C[2]),!this._attributes||this._attributes.position.count!==this.counters.length?this._attributes={position:new pI(new Float32Array(this.positions),3),previous:new pI(new Float32Array(this.previous),3),next:new pI(new Float32Array(this.next),3),side:new pI(new Float32Array(this.side),1),width:new pI(new Float32Array(this.width),1),uv:new pI(new Float32Array(this.uvs),2),index:new pI(new Uint16Array(this.indices_array),1),counters:new pI(new Float32Array(this.counters),1)}:(this._attributes.position.copyArray(new Float32Array(this.positions)),this._attributes.position.needsUpdate=!0,this._attributes.previous.copyArray(new Float32Array(this.previous)),this._attributes.previous.needsUpdate=!0,this._attributes.next.copyArray(new Float32Array(this.next)),this._attributes.next.needsUpdate=!0,this._attributes.side.copyArray(new Float32Array(this.side)),this._attributes.side.needsUpdate=!0,this._attributes.width.copyArray(new Float32Array(this.width)),this._attributes.width.needsUpdate=!0,this._attributes.uv.copyArray(new Float32Array(this.uvs)),this._attributes.uv.needsUpdate=!0,this._attributes.index.copyArray(new Uint16Array(this.indices_array)),this._attributes.index.needsUpdate=!0),this.setAttribute("position",this._attributes.position),this.setAttribute("previous",this._attributes.previous),this.setAttribute("next",this._attributes.next),this.setAttribute("side",this._attributes.side),this.setAttribute("width",this._attributes.width),this.setAttribute("uv",this._attributes.uv),this.setAttribute("counters",this._attributes.counters),this.setAttribute("position",this._attributes.position),this.setAttribute("previous",this._attributes.previous),this.setAttribute("next",this._attributes.next),this.setAttribute("side",this._attributes.side),this.setAttribute("width",this._attributes.width),this.setAttribute("uv",this._attributes.uv),this.setAttribute("counters",this._attributes.counters),this.setIndex(this._attributes.index),this.computeBoundingSphere(),this.computeBoundingBox()}advance({x:A,y:I,z:C}){const B=this._attributes.position.array,i=this._attributes.previous.array,Q=this._attributes.next.array,E=B.length;xw(B,0,i,0,E),xw(B,6,B,0,E-6),B[E-6]=A,B[E-5]=I,B[E-4]=C,B[E-3]=A,B[E-2]=I,B[E-1]=C,xw(B,6,Q,0,E-6),Q[E-6]=A,Q[E-5]=I,Q[E-4]=C,Q[E-3]=A,Q[E-2]=I,Q[E-1]=C,this._attributes.position.needsUpdate=!0,this._attributes.previous.needsUpdate=!0,this._attributes.next.needsUpdate=!0}}const W3=`
  #include <common>
  #include <logdepthbuf_pars_vertex>
  #include <fog_pars_vertex>
  #include <clipping_planes_pars_vertex>

  attribute vec3 previous;
  attribute vec3 next;
  attribute float side;
  attribute float width;
  attribute float counters;
  
  uniform vec2 resolution;
  uniform float lineWidth;
  uniform vec3 color;
  uniform float opacity;
  uniform float sizeAttenuation;
  
  varying vec2 vUV;
  varying vec4 vColor;
  varying float vCounters;
  
  vec2 fix(vec4 i, float aspect) {
    vec2 res = i.xy / i.w;
    res.x *= aspect;
    return res;
  }
  
  void main() {
    float aspect = resolution.x / resolution.y;
    vColor = vec4(color, opacity);
    vUV = uv;
    vCounters = counters;
  
    mat4 m = projectionMatrix * modelViewMatrix;
    vec4 finalPosition = m * vec4(position, 1.0) * aspect;
    vec4 prevPos = m * vec4(previous, 1.0);
    vec4 nextPos = m * vec4(next, 1.0);
  
    vec2 currentP = fix(finalPosition, aspect);
    vec2 prevP = fix(prevPos, aspect);
    vec2 nextP = fix(nextPos, aspect);
  
    float w = lineWidth * width;
  
    vec2 dir;
    if (nextP == currentP) dir = normalize(currentP - prevP);
    else if (prevP == currentP) dir = normalize(nextP - currentP);
    else {
      vec2 dir1 = normalize(currentP - prevP);
      vec2 dir2 = normalize(nextP - currentP);
      dir = normalize(dir1 + dir2);
  
      vec2 perp = vec2(-dir1.y, dir1.x);
      vec2 miter = vec2(-dir.y, dir.x);
      //w = clamp(w / dot(miter, perp), 0., 4. * lineWidth * width);
    }
  
    //vec2 normal = (cross(vec3(dir, 0.), vec3(0., 0., 1.))).xy;
    vec4 normal = vec4(-dir.y, dir.x, 0., 1.);
    normal.xy *= .5 * w;
    //normal *= projectionMatrix;
    if (sizeAttenuation == 0.) {
      normal.xy *= finalPosition.w;
      normal.xy /= (vec4(resolution, 0., 1.) * projectionMatrix).xy * aspect;
    }
  
    finalPosition.xy += normal.xy * side;
    gl_Position = finalPosition;
    #include <logdepthbuf_vertex>
    #include <fog_vertex>
    vec4 mvPosition = modelViewMatrix * vec4(position, 1.0);
    #include <clipping_planes_vertex>
    #include <fog_vertex>
  }
`,V3=parseInt(At.replace(/\D+/g,"")),j3=V3>=154?"colorspace_fragment":"encodings_fragment",z3=`
  #include <fog_pars_fragment>
  #include <logdepthbuf_pars_fragment>
  #include <clipping_planes_pars_fragment>
  
  uniform sampler2D map;
  uniform sampler2D alphaMap;
  uniform float useGradient;
  uniform float useMap;
  uniform float useAlphaMap;
  uniform float useDash;
  uniform float dashArray;
  uniform float dashOffset;
  uniform float dashRatio;
  uniform float visibility;
  uniform float alphaTest;
  uniform vec2 repeat;
  uniform vec3 gradient[2];
  
  varying vec2 vUV;
  varying vec4 vColor;
  varying float vCounters;
  
  void main() {
    #include <logdepthbuf_fragment>
    vec4 diffuseColor = vColor;
    if (useGradient == 1.) diffuseColor = vec4(mix(gradient[0], gradient[1], vCounters), 1.0);
    if (useMap == 1.) diffuseColor *= texture2D(map, vUV * repeat);
    if (useAlphaMap == 1.) diffuseColor.a *= texture2D(alphaMap, vUV * repeat).a;
    if (diffuseColor.a < alphaTest) discard;
    if (useDash == 1.) diffuseColor.a *= ceil(mod(vCounters + dashOffset, dashArray) - (dashArray * dashRatio));
    diffuseColor.a *= step(vCounters, visibility);
    #include <clipping_planes_fragment>
    gl_FragColor = diffuseColor;     
    #include <fog_fragment>
    #include <tonemapping_fragment>
    #include <${j3}>
  }
`;class X3 extends iB{constructor(A){super({uniforms:{...zA.fog,lineWidth:{value:1},map:{value:null},useMap:{value:0},alphaMap:{value:null},useAlphaMap:{value:0},color:{value:new VA(16777215)},gradient:{value:[new VA(16711680),new VA(65280)]},opacity:{value:1},resolution:{value:new pA(1,1)},sizeAttenuation:{value:1},dashArray:{value:0},dashOffset:{value:0},dashRatio:{value:.5},useDash:{value:0},useGradient:{value:0},visibility:{value:1},alphaTest:{value:0},repeat:{value:new pA(1,1)}},vertexShader:W3,fragmentShader:z3}),ng(this,"lineWidth"),ng(this,"map"),ng(this,"useMap"),ng(this,"alphaMap"),ng(this,"useAlphaMap"),ng(this,"color"),ng(this,"gradient"),ng(this,"resolution"),ng(this,"sizeAttenuation"),ng(this,"dashArray"),ng(this,"dashOffset"),ng(this,"dashRatio"),ng(this,"useDash"),ng(this,"useGradient"),ng(this,"visibility"),ng(this,"repeat"),this.type="MeshLineMaterial",Object.defineProperties(this,{lineWidth:{enumerable:!0,get(){return this.uniforms.lineWidth.value},set(I){this.uniforms.lineWidth.value=I}},map:{enumerable:!0,get(){return this.uniforms.map.value},set(I){this.uniforms.map.value=I}},useMap:{enumerable:!0,get(){return this.uniforms.useMap.value},set(I){this.uniforms.useMap.value=I}},alphaMap:{enumerable:!0,get(){return this.uniforms.alphaMap.value},set(I){this.uniforms.alphaMap.value=I}},useAlphaMap:{enumerable:!0,get(){return this.uniforms.useAlphaMap.value},set(I){this.uniforms.useAlphaMap.value=I}},color:{enumerable:!0,get(){return this.uniforms.color.value},set(I){this.uniforms.color.value=I}},gradient:{enumerable:!0,get(){return this.uniforms.gradient.value},set(I){this.uniforms.gradient.value=I}},opacity:{enumerable:!0,get(){return this.uniforms.opacity.value},set(I){this.uniforms.opacity.value=I}},resolution:{enumerable:!0,get(){return this.uniforms.resolution.value},set(I){this.uniforms.resolution.value.copy(I)}},sizeAttenuation:{enumerable:!0,get(){return this.uniforms.sizeAttenuation.value},set(I){this.uniforms.sizeAttenuation.value=I}},dashArray:{enumerable:!0,get(){return this.uniforms.dashArray.value},set(I){this.uniforms.dashArray.value=I,this.useDash=I!==0?1:0}},dashOffset:{enumerable:!0,get(){return this.uniforms.dashOffset.value},set(I){this.uniforms.dashOffset.value=I}},dashRatio:{enumerable:!0,get(){return this.uniforms.dashRatio.value},set(I){this.uniforms.dashRatio.value=I}},useDash:{enumerable:!0,get(){return this.uniforms.useDash.value},set(I){this.uniforms.useDash.value=I}},useGradient:{enumerable:!0,get(){return this.uniforms.useGradient.value},set(I){this.uniforms.useGradient.value=I}},visibility:{enumerable:!0,get(){return this.uniforms.visibility.value},set(I){this.uniforms.visibility.value=I}},alphaTest:{enumerable:!0,get(){return this.uniforms.alphaTest.value},set(I){this.uniforms.alphaTest.value=I}},repeat:{enumerable:!0,get(){return this.uniforms.repeat.value},set(I){this.uniforms.repeat.value.copy(I)}}}),this.setValues(A)}copy(A){return super.copy(A),this.lineWidth=A.lineWidth,this.map=A.map,this.useMap=A.useMap,this.alphaMap=A.alphaMap,this.useAlphaMap=A.useAlphaMap,this.color.copy(A.color),this.gradient=A.gradient,this.opacity=A.opacity,this.resolution.copy(A.resolution),this.sizeAttenuation=A.sizeAttenuation,this.dashArray=A.dashArray,this.dashOffset=A.dashOffset,this.dashRatio=A.dashRatio,this.useDash=A.useDash,this.useGradient=A.useGradient,this.visibility=A.visibility,this.alphaTest=A.alphaTest,this.repeat.copy(A.repeat),this}}let FD=null,rf="https://www.gstatic.com/draco/versioned/decoders/1.5.5/";function Df(g,A,I){return C=>{I&&I(C),g&&(FD||(FD=new v3),FD.setDecoderPath(typeof g=="string"?g:rf),C.setDRACOLoader(FD)),A&&C.setMeshoptDecoder(typeof Hw=="function"?Hw():Hw)}}function ys(g,A=!0,I=!0,C){return LQ(FM,g,Df(A,I,C))}ys.preload=(g,A=!0,I=!0,C)=>LQ.preload(FM,g,Df(A,I,C));ys.clear=g=>LQ.clear(FM,g);ys.setDecoderPath=g=>{rf=g};const $3="modulepreload",A4=function(g){return"/"+g},eN={},I4=function(A,I,C){let B=Promise.resolve();if(I&&I.length>0){document.getElementsByTagName("link");const i=document.querySelector("meta[property=csp-nonce]"),Q=(i==null?void 0:i.nonce)||(i==null?void 0:i.getAttribute("nonce"));B=Promise.all(I.map(E=>{if(E=A4(E),E in eN)return;eN[E]=!0;const e=E.endsWith(".css"),n=e?'[rel="stylesheet"]':"";if(document.querySelector(`link[href="proxy.php?url=https%3A%2F%2Fpascalraszyk.de%2F%24%7BE%7D"]${n}`))return;const a=document.createElement("link");if(a.rel=e?"stylesheet":$3,e||(a.as="script",a.crossOrigin=""),a.href=E,Q&&a.setAttribute("nonce",Q),document.head.appendChild(a),e)return new Promise((s,r)=>{a.addEventListener("load",s),a.addEventListener("error",()=>r(new Error(`Unable to preload CSS for ${E}`)))})}))}return B.then(()=>A()).catch(i=>{const Q=new Event("vite:preloadError",{cancelable:!0});if(Q.payload=i,window.dispatchEvent(Q),!Q.defaultPrevented)throw i})},g4=3e3,C4=3001,lf=(g,A,I)=>{let C;switch(g){case RB:C=new Uint8ClampedArray(A*I*4);break;case dC:C=new Uint16Array(A*I*4);break;case NE:C=new Uint32Array(A*I*4);break;case Kk:C=new Int8Array(A*I*4);break;case Jk:C=new Int16Array(A*I*4);break;case ah:C=new Int32Array(A*I*4);break;case _g:C=new Float32Array(A*I*4);break;default:throw new Error("Unsupported data type")}return C};let KD;const B4=(g,A,I,C)=>{if(KD!==void 0)return KD;const B=new fB(1,1,C);A.setRenderTarget(B);const i=new Jg(new mE,new rB({color:16777215}));A.render(i,I),A.setRenderTarget(null);const Q=lf(g,B.width,B.height);return A.readRenderTargetPixels(B,0,0,B.width,B.height,Q),B.dispose(),i.geometry.dispose(),i.material.dispose(),KD=Q[0]!==0,KD};class KM{constructor(A){var I,C,B,i,Q,E,e,n,a,s,r,D,c,y,S,l;this._rendererIsDisposable=!1,this._supportsReadPixels=!0,this.render=()=>{this._renderer.setRenderTarget(this._renderTarget);try{this._renderer.render(this._scene,this._camera)}catch(k){throw this._renderer.setRenderTarget(null),k}this._renderer.setRenderTarget(null)},this._width=A.width,this._height=A.height,this._type=A.type,this._colorSpace=A.colorSpace;const w={format:CC,depthBuffer:!1,stencilBuffer:!1,type:this._type,colorSpace:this._colorSpace,anisotropy:((I=A.renderTargetOptions)===null||I===void 0?void 0:I.anisotropy)!==void 0?(C=A.renderTargetOptions)===null||C===void 0?void 0:C.anisotropy:1,generateMipmaps:((B=A.renderTargetOptions)===null||B===void 0?void 0:B.generateMipmaps)!==void 0?(i=A.renderTargetOptions)===null||i===void 0?void 0:i.generateMipmaps:!1,magFilter:((Q=A.renderTargetOptions)===null||Q===void 0?void 0:Q.magFilter)!==void 0?(E=A.renderTargetOptions)===null||E===void 0?void 0:E.magFilter:tg,minFilter:((e=A.renderTargetOptions)===null||e===void 0?void 0:e.minFilter)!==void 0?(n=A.renderTargetOptions)===null||n===void 0?void 0:n.minFilter:tg,samples:((a=A.renderTargetOptions)===null||a===void 0?void 0:a.samples)!==void 0?(s=A.renderTargetOptions)===null||s===void 0?void 0:s.samples:void 0,wrapS:((r=A.renderTargetOptions)===null||r===void 0?void 0:r.wrapS)!==void 0?(D=A.renderTargetOptions)===null||D===void 0?void 0:D.wrapS:Vg,wrapT:((c=A.renderTargetOptions)===null||c===void 0?void 0:c.wrapT)!==void 0?(y=A.renderTargetOptions)===null||y===void 0?void 0:y.wrapT:Vg};if(this._material=A.material,A.renderer?this._renderer=A.renderer:(this._renderer=KM.instantiateRenderer(),this._rendererIsDisposable=!0),this._scene=new fo,this._camera=new gt,this._camera.position.set(0,0,10),this._camera.left=-.5,this._camera.right=.5,this._camera.top=.5,this._camera.bottom=-.5,this._camera.updateProjectionMatrix(),!B4(this._type,this._renderer,this._camera,w)){let k;switch(this._type){case dC:k=this._renderer.extensions.has("EXT_color_buffer_float")?_g:void 0;break}k!==void 0?(console.warn(`This browser does not support reading pixels from ${this._type} RenderTargets, switching to ${_g}`),this._type=k):(this._supportsReadPixels=!1,console.warn("This browser dos not support toArray or toDataTexture, calls to those methods will result in an error thrown"))}this._quad=new Jg(new mE,this._material),this._quad.geometry.computeBoundingBox(),this._scene.add(this._quad),this._renderTarget=new fB(this.width,this.height,w),this._renderTarget.texture.mapping=((S=A.renderTargetOptions)===null||S===void 0?void 0:S.mapping)!==void 0?(l=A.renderTargetOptions)===null||l===void 0?void 0:l.mapping:dE}static instantiateRenderer(){const A=new Xk;return A.setSize(128,128),A}toArray(){if(!this._supportsReadPixels)throw new Error("Can't read pixels in this browser");const A=lf(this._type,this._width,this._height);return this._renderer.readRenderTargetPixels(this._renderTarget,0,0,this._width,this._height,A),A}toDataTexture(A){const I=new ji(this.toArray(),this.width,this.height,CC,this._type,(A==null?void 0:A.mapping)||dE,(A==null?void 0:A.wrapS)||Vg,(A==null?void 0:A.wrapT)||Vg,(A==null?void 0:A.magFilter)||tg,(A==null?void 0:A.minFilter)||tg,(A==null?void 0:A.anisotropy)||1,ii);return I.generateMipmaps=(A==null?void 0:A.generateMipmaps)!==void 0?A==null?void 0:A.generateMipmaps:!1,I}disposeOnDemandRenderer(){this._renderer.setRenderTarget(null),this._rendererIsDisposable&&(this._renderer.dispose(),this._renderer.forceContextLoss())}dispose(A){this.disposeOnDemandRenderer(),A&&this.renderTarget.dispose(),this.material instanceof iB&&Object.values(this.material.uniforms).forEach(I=>{I.value instanceof Ig&&I.value.dispose()}),Object.values(this.material).forEach(I=>{I instanceof Ig&&I.dispose()}),this.material.dispose(),this._quad.geometry.dispose()}get width(){return this._width}set width(A){this._width=A,this._renderTarget.setSize(this._width,this._height)}get height(){return this._height}set height(A){this._height=A,this._renderTarget.setSize(this._width,this._height)}get renderer(){return this._renderer}get renderTarget(){return this._renderTarget}set renderTarget(A){this._renderTarget=A,this._width=A.width,this._height=A.height}get material(){return this._material}get type(){return this._type}get colorSpace(){return this._colorSpace}}const i4=`
varying vec2 vUv;

void main() {
  vUv = uv;
  gl_Position = projectionMatrix * modelViewMatrix * vec4(position, 1.0);
}
`,Q4=`
// min half float value
#define HALF_FLOAT_MIN vec3( -65504, -65504, -65504 )
// max half float value
#define HALF_FLOAT_MAX vec3( 65504, 65504, 65504 )

uniform sampler2D sdr;
uniform sampler2D gainMap;
uniform vec3 gamma;
uniform vec3 offsetHdr;
uniform vec3 offsetSdr;
uniform vec3 gainMapMin;
uniform vec3 gainMapMax;
uniform float weightFactor;

varying vec2 vUv;

void main() {
  vec3 rgb = texture2D( sdr, vUv ).rgb;
  vec3 recovery = texture2D( gainMap, vUv ).rgb;
  vec3 logRecovery = pow( recovery, gamma );
  vec3 logBoost = gainMapMin * ( 1.0 - logRecovery ) + gainMapMax * logRecovery;
  vec3 hdrColor = (rgb + offsetSdr) * exp2( logBoost * weightFactor ) - offsetHdr;
  vec3 clampedHdrColor = max( HALF_FLOAT_MIN, min( HALF_FLOAT_MAX, hdrColor ));
  gl_FragColor = vec4( clampedHdrColor , 1.0 );
}
`;class E4 extends iB{constructor({gamma:A,offsetHdr:I,offsetSdr:C,gainMapMin:B,gainMapMax:i,maxDisplayBoost:Q,hdrCapacityMin:E,hdrCapacityMax:e,sdr:n,gainMap:a}){super({name:"GainMapDecoderMaterial",vertexShader:i4,fragmentShader:Q4,uniforms:{sdr:{value:n},gainMap:{value:a},gamma:{value:new T(1/A[0],1/A[1],1/A[2])},offsetHdr:{value:new T().fromArray(I)},offsetSdr:{value:new T().fromArray(C)},gainMapMin:{value:new T().fromArray(B)},gainMapMax:{value:new T().fromArray(i)},weightFactor:{value:(Math.log2(Q)-E)/(e-E)}},blending:Wi,depthTest:!1,depthWrite:!1}),this._maxDisplayBoost=Q,this._hdrCapacityMin=E,this._hdrCapacityMax=e,this.needsUpdate=!0,this.uniformsNeedUpdate=!0}get sdr(){return this.uniforms.sdr.value}set sdr(A){this.uniforms.sdr.value=A}get gainMap(){return this.uniforms.gainMap.value}set gainMap(A){this.uniforms.gainMap.value=A}get offsetHdr(){return this.uniforms.offsetHdr.value.toArray()}set offsetHdr(A){this.uniforms.offsetHdr.value.fromArray(A)}get offsetSdr(){return this.uniforms.offsetSdr.value.toArray()}set offsetSdr(A){this.uniforms.offsetSdr.value.fromArray(A)}get gainMapMin(){return this.uniforms.gainMapMin.value.toArray()}set gainMapMin(A){this.uniforms.gainMapMin.value.fromArray(A)}get gainMapMax(){return this.uniforms.gainMapMax.value.toArray()}set gainMapMax(A){this.uniforms.gainMapMax.value.fromArray(A)}get gamma(){const A=this.uniforms.gamma.value;return[1/A.x,1/A.y,1/A.z]}set gamma(A){const I=this.uniforms.gamma.value;I.x=1/A[0],I.y=1/A[1],I.z=1/A[2]}get hdrCapacityMin(){return this._hdrCapacityMin}set hdrCapacityMin(A){this._hdrCapacityMin=A,this.calculateWeight()}get hdrCapacityMax(){return this._hdrCapacityMax}set hdrCapacityMax(A){this._hdrCapacityMax=A,this.calculateWeight()}get maxDisplayBoost(){return this._maxDisplayBoost}set maxDisplayBoost(A){this._maxDisplayBoost=Math.max(1,Math.min(65504,A)),this.calculateWeight()}calculateWeight(){const A=(Math.log2(this._maxDisplayBoost)-this._hdrCapacityMin)/(this._hdrCapacityMax-this._hdrCapacityMin);this.uniforms.weightFactor.value=Math.max(0,Math.min(1,A))}}class hf extends Error{}class cf extends Error{}const vn=(g,A,I)=>{var C;let B;const i=(C=g.attributes.getNamedItem(A))===null||C===void 0?void 0:C.nodeValue;if(i)B=i;else{const Q=g.getElementsByTagName(A)[0];if(Q){const E=Q.getElementsByTagName("rdf:li");if(E.length===3)B=Array.from(E).map(e=>e.innerHTML);else throw new Error(`Gainmap metadata contains an array of items for ${A} but its length is not 3`)}else{if(I)return I;throw new Error(`Can't find ${A} in gainmap metadata`)}}return B},e4=g=>{var A,I;let C;typeof TextDecoder<"u"?C=new TextDecoder().decode(g):C=g.toString();let B=C.indexOf("<x:xmpmeta");const i=new DOMParser;for(;B!==-1;){const Q=C.indexOf("x:xmpmeta>",B);C.slice(B,Q+10);const E=C.slice(B,Q+10);try{const n=i.parseFromString(E,"text/xml").getElementsByTagName("rdf:Description")[0],a=vn(n,"hdrgm:GainMapMin","0"),s=vn(n,"hdrgm:GainMapMax"),r=vn(n,"hdrgm:Gamma","1"),D=vn(n,"hdrgm:OffsetSDR","0.015625"),c=vn(n,"hdrgm:OffsetHDR","0.015625");let y=(A=n.attributes.getNamedItem("hdrgm:HDRCapacityMin"))===null||A===void 0?void 0:A.nodeValue;y||(y="0");const S=(I=n.attributes.getNamedItem("hdrgm:HDRCapacityMax"))===null||I===void 0?void 0:I.nodeValue;if(!S)throw new Error("Incomplete gainmap metadata");return{gainMapMin:Array.isArray(a)?a.map(l=>parseFloat(l)):[parseFloat(a),parseFloat(a),parseFloat(a)],gainMapMax:Array.isArray(s)?s.map(l=>parseFloat(l)):[parseFloat(s),parseFloat(s),parseFloat(s)],gamma:Array.isArray(r)?r.map(l=>parseFloat(l)):[parseFloat(r),parseFloat(r),parseFloat(r)],offsetSdr:Array.isArray(D)?D.map(l=>parseFloat(l)):[parseFloat(D),parseFloat(D),parseFloat(D)],offsetHdr:Array.isArray(c)?c.map(l=>parseFloat(l)):[parseFloat(c),parseFloat(c),parseFloat(c)],hdrCapacityMin:parseFloat(y),hdrCapacityMax:parseFloat(S)}}catch{}B=C.indexOf("<x:xmpmeta",Q)}};class t4{constructor(A){this.options={debug:A&&A.debug!==void 0?A.debug:!1,extractFII:A&&A.extractFII!==void 0?A.extractFII:!0,extractNonFII:A&&A.extractNonFII!==void 0?A.extractNonFII:!0}}extract(A){return new Promise((I,C)=>{const B=this.options.debug,i=new DataView(A.buffer);if(i.getUint16(0)!==65496){C(new Error("Not a valid jpeg"));return}const Q=i.byteLength;let E=2,e=0,n;for(;E<Q;){if(++e>250){C(new Error(`Found no marker after ${e} loops 😵`));return}if(i.getUint8(E)!==255){C(new Error(`Not a valid marker at offset 0x${E.toString(16)}, found: 0x${i.getUint8(E).toString(16)}`));return}if(n=i.getUint8(E+1),B&&console.log(`Marker: ${n.toString(16)}`),n===226){B&&console.log("Found APP2 marker (0xffe2)");const a=E+4;if(i.getUint32(a)===1297106432){const s=a+4;let r;if(i.getUint16(s)===18761)r=!1;else if(i.getUint16(s)===19789)r=!0;else{C(new Error("No valid endianness marker found in TIFF header"));return}if(i.getUint16(s+2,!r)!==42){C(new Error("Not valid TIFF data! (no 0x002A marker)"));return}const D=i.getUint32(s+4,!r);if(D<8){C(new Error("Not valid TIFF data! (First offset less than 8)"));return}const c=s+D,y=i.getUint16(c,!r),S=c+2;let l=0;for(let f=S;f<S+12*y;f+=12)i.getUint16(f,!r)===45057&&(l=i.getUint32(f+8,!r));const k=c+2+y*12+4,U=[];for(let f=k;f<k+l*16;f+=16){const F={MPType:i.getUint32(f,!r),size:i.getUint32(f+4,!r),dataOffset:i.getUint32(f+8,!r),dependantImages:i.getUint32(f+12,!r),start:-1,end:-1,isFII:!1};F.dataOffset?(F.start=s+F.dataOffset,F.isFII=!1):(F.start=0,F.isFII=!0),F.end=F.start+F.size,U.push(F)}if(this.options.extractNonFII&&U.length){const f=new Blob([i]),F=[];for(const J of U){if(J.isFII&&!this.options.extractFII)continue;const q=f.slice(J.start,J.end+1,"image/jpeg");F.push(q)}I(F)}}}E+=2+i.getUint16(E+2)}})}}const o4=async g=>{const A=e4(g);if(!A)throw new cf("Gain map XMP metadata not found");const C=await new t4({extractFII:!0,extractNonFII:!0}).extract(g);if(C.length!==2)throw new hf("Gain map recovery image not found");return{sdr:new Uint8Array(await C[0].arrayBuffer()),gainMap:new Uint8Array(await C[1].arrayBuffer()),metadata:A}},tN=g=>new Promise((A,I)=>{const C=document.createElement("img");C.onload=()=>{A(C)},C.onerror=B=>{I(B)},C.src=URL.createObjectURL(g)});class Sf extends JC{constructor(A,I){super(I),A&&(this._renderer=A),this._internalLoadingManager=new Yh}setRenderer(A){return this._renderer=A,this}setRenderTargetOptions(A){return this._renderTargetOptions=A,this}prepareQuadRenderer(){this._renderer||console.warn("WARNING: An existing WebGL Renderer was not passed to this Loader constructor or in setRenderer, the result of this Loader will need to be converted to a Data Texture with toDataTexture() before you can use it in your renderer.");const A=new E4({gainMapMax:[1,1,1],gainMapMin:[0,0,0],gamma:[1,1,1],offsetHdr:[1,1,1],offsetSdr:[1,1,1],hdrCapacityMax:1,hdrCapacityMin:0,maxDisplayBoost:1,gainMap:new Ig,sdr:new Ig});return new KM({width:16,height:16,type:dC,colorSpace:ii,material:A,renderer:this._renderer,renderTargetOptions:this._renderTargetOptions})}async render(A,I,C,B){const i=B?new Blob([B],{type:"image/jpeg"}):void 0,Q=new Blob([C],{type:"image/jpeg"});let E,e,n=!1;if(typeof createImageBitmap>"u"){const r=await Promise.all([i?tN(i):Promise.resolve(void 0),tN(Q)]);e=r[0],E=r[1],n=!0}else{const r=await Promise.all([i?createImageBitmap(i,{imageOrientation:"flipY"}):Promise.resolve(void 0),createImageBitmap(Q,{imageOrientation:"flipY"})]);e=r[0],E=r[1]}const a=new Ig(e||new ImageData(2,2),dE,Vg,Vg,tg,bG,CC,RB,1,ii);a.flipY=n,a.needsUpdate=!0;const s=new Ig(E,dE,Vg,Vg,tg,bG,CC,RB,1,UB);s.flipY=n,s.needsUpdate=!0,A.width=E.width,A.height=E.height,A.material.gainMap=a,A.material.sdr=s,A.material.gainMapMin=I.gainMapMin,A.material.gainMapMax=I.gainMapMax,A.material.offsetHdr=I.offsetHdr,A.material.offsetSdr=I.offsetSdr,A.material.gamma=I.gamma,A.material.hdrCapacityMin=I.hdrCapacityMin,A.material.hdrCapacityMax=I.hdrCapacityMax,A.material.maxDisplayBoost=Math.pow(2,I.hdrCapacityMax),A.material.needsUpdate=!0,A.render()}}class n4 extends 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MC=Object.freeze({Ball:0,0:"Ball",Cuboid:1,1:"Cuboid",Capsule:2,2:"Capsule",Segment:3,3:"Segment",Polyline:4,4:"Polyline",Triangle:5,5:"Triangle",TriMesh:6,6:"TriMesh",HeightField:7,7:"HeightField",Compound:8,8:"Compound",ConvexPolyhedron:9,9:"ConvexPolyhedron",Cylinder:10,10:"Cylinder",Cone:11,11:"Cone",RoundCuboid:12,12:"RoundCuboid",RoundTriangle:13,13:"RoundTriangle",RoundCylinder:14,14:"RoundCylinder",RoundCone:15,15:"RoundCone",RoundConvexPolyhedron:16,16:"RoundConvexPolyhedron",HalfSpace:17,17:"HalfSpace"}),Th=Object.freeze({X:0,0:"X",Y:1,1:"Y",Z:2,2:"Z",AngX:3,3:"AngX",AngY:4,4:"AngY",AngZ:5,5:"AngZ"}),Si=Object.freeze({Revolute:0,0:"Revolute",Fixed:1,1:"Fixed",Prismatic:2,2:"Prismatic",Rope:3,3:"Rope",Spring:4,4:"Spring",Spherical:5,5:"Spherical",Generic:6,6:"Generic"});class Pe{static __wrap(A){A>>>=0;const I=Object.create(Pe.prototype);return I.__wbg_ptr=A,I}__destroy_into_raw(){const A=this.__wbg_ptr;return this.__wbg_ptr=0,A}free(){const A=this.__destroy_into_raw();u.__wbg_rawbroadphase_free(A)}constructor(){const A=u.rawbroadphase_new();return this.__wbg_ptr=A>>>0,this}}class fy{__destroy_into_raw(){const A=this.__wbg_ptr;return this.__wbg_ptr=0,A}free(){const A=this.__destroy_into_raw();u.__wbg_rawccdsolver_free(A)}constructor(){const A=u.rawccdsolver_new();return this.__wbg_ptr=A>>>0,this}}class uf{__destroy_into_raw(){const A=this.__wbg_ptr;return this.__wbg_ptr=0,A}free(){const A=this.__destroy_into_raw();u.__wbg_rawcharactercollision_free(A)}constructor(){const A=u.rawcharactercollision_new();return this.__wbg_ptr=A>>>0,this}handle(){return u.rawcharactercollision_handle(this.__wbg_ptr)}translationDeltaApplied(){const A=u.rawcharactercollision_translationDeltaApplied(this.__wbg_ptr);return iA.__wrap(A)}translationDeltaRemaining(){const A=u.rawcharactercollision_translationDeltaRemaining(this.__wbg_ptr);return iA.__wrap(A)}toi(){return u.rawcharactercollision_toi(this.__wbg_ptr)}worldWitness1(){const A=u.rawcharactercollision_worldWitness1(this.__wbg_ptr);return iA.__wrap(A)}worldWitness2(){const A=u.rawcharactercollision_worldWitness2(this.__wbg_ptr);return iA.__wrap(A)}worldNormal1(){const A=u.rawcharactercollision_worldNormal1(this.__wbg_ptr);return iA.__wrap(A)}worldNormal2(){const A=u.rawcharactercollision_worldNormal2(this.__wbg_ptr);return iA.__wrap(A)}}class fg{static __wrap(A){A>>>=0;const I=Object.create(fg.prototype);return I.__wbg_ptr=A,I}__destroy_into_raw(){const A=this.__wbg_ptr;return this.__wbg_ptr=0,A}free(){const A=this.__destroy_into_raw();u.__wbg_rawcolliderset_free(A)}coTranslation(A){const I=u.rawcolliderset_coTranslation(this.__wbg_ptr,A);return iA.__wrap(I)}coRotation(A){const I=u.rawcolliderset_coRotation(this.__wbg_ptr,A);return ZI.__wrap(I)}coSetTranslation(A,I,C,B){u.rawcolliderset_coSetTranslation(this.__wbg_ptr,A,I,C,B)}coSetTranslationWrtParent(A,I,C,B){u.rawcolliderset_coSetTranslationWrtParent(this.__wbg_ptr,A,I,C,B)}coSetRotation(A,I,C,B,i){u.rawcolliderset_coSetRotation(this.__wbg_ptr,A,I,C,B,i)}coSetRotationWrtParent(A,I,C,B,i){u.rawcolliderset_coSetRotationWrtParent(this.__wbg_ptr,A,I,C,B,i)}coIsSensor(A){return u.rawcolliderset_coIsSensor(this.__wbg_ptr,A)!==0}coShapeType(A){return u.rawcolliderset_coShapeType(this.__wbg_ptr,A)}coHalfspaceNormal(A){const I=u.rawcolliderset_coHalfspaceNormal(this.__wbg_ptr,A);return I===0?void 0:iA.__wrap(I)}coHalfExtents(A){const I=u.rawcolliderset_coHalfExtents(this.__wbg_ptr,A);return I===0?void 0:iA.__wrap(I)}coSetHalfExtents(A,I){j(I,iA),u.rawcolliderset_coSetHalfExtents(this.__wbg_ptr,A,I.__wbg_ptr)}coRadius(A){try{const B=u.__wbindgen_add_to_stack_pointer(-16);u.rawcolliderset_coRadius(B,this.__wbg_ptr,A);var I=kI()[B/4+0],C=Ug()[B/4+1];return I===0?void 0:C}finally{u.__wbindgen_add_to_stack_pointer(16)}}coSetRadius(A,I){u.rawcolliderset_coSetRadius(this.__wbg_ptr,A,I)}coHalfHeight(A){try{const B=u.__wbindgen_add_to_stack_pointer(-16);u.rawcolliderset_coHalfHeight(B,this.__wbg_ptr,A);var I=kI()[B/4+0],C=Ug()[B/4+1];return I===0?void 0:C}finally{u.__wbindgen_add_to_stack_pointer(16)}}coSetHalfHeight(A,I){u.rawcolliderset_coSetHalfHeight(this.__wbg_ptr,A,I)}coRoundRadius(A){try{const B=u.__wbindgen_add_to_stack_pointer(-16);u.rawcolliderset_coRoundRadius(B,this.__wbg_ptr,A);var I=kI()[B/4+0],C=Ug()[B/4+1];return I===0?void 0:C}finally{u.__wbindgen_add_to_stack_pointer(16)}}coSetRoundRadius(A,I){u.rawcolliderset_coSetRoundRadius(this.__wbg_ptr,A,I)}coVertices(A){try{const B=u.__wbindgen_add_to_stack_pointer(-16);u.rawcolliderset_coVertices(B,this.__wbg_ptr,A);var I=kI()[B/4+0],C=kI()[B/4+1];let i;return I!==0&&(i=oN(I,C).slice(),u.__wbindgen_free(I,4*C,4)),i}finally{u.__wbindgen_add_to_stack_pointer(16)}}coIndices(A){try{const B=u.__wbindgen_add_to_stack_pointer(-16);u.rawcolliderset_coIndices(B,this.__wbg_ptr,A);var I=kI()[B/4+0],C=kI()[B/4+1];let i;return I!==0&&(i=function(Q,E){return Q>>>=0,Mf().subarray(Q/4,Q/4+E)}(I,C).slice(),u.__wbindgen_free(I,4*C,4)),i}finally{u.__wbindgen_add_to_stack_pointer(16)}}coTriMeshFlags(A){try{const B=u.__wbindgen_add_to_stack_pointer(-16);u.rawcolliderset_coTriMeshFlags(B,this.__wbg_ptr,A);var I=kI()[B/4+0],C=kI()[B/4+1];return I===0?void 0:C>>>0}finally{u.__wbindgen_add_to_stack_pointer(16)}}coHeightFieldFlags(A){try{const B=u.__wbindgen_add_to_stack_pointer(-16);u.rawcolliderset_coHeightFieldFlags(B,this.__wbg_ptr,A);var I=kI()[B/4+0],C=kI()[B/4+1];return I===0?void 0:C>>>0}finally{u.__wbindgen_add_to_stack_pointer(16)}}coHeightfieldHeights(A){try{const B=u.__wbindgen_add_to_stack_pointer(-16);u.rawcolliderset_coHeightfieldHeights(B,this.__wbg_ptr,A);var I=kI()[B/4+0],C=kI()[B/4+1];let i;return I!==0&&(i=oN(I,C).slice(),u.__wbindgen_free(I,4*C,4)),i}finally{u.__wbindgen_add_to_stack_pointer(16)}}coHeightfieldScale(A){const I=u.rawcolliderset_coHeightfieldScale(this.__wbg_ptr,A);return I===0?void 0:iA.__wrap(I)}coHeightfieldNRows(A){try{const B=u.__wbindgen_add_to_stack_pointer(-16);u.rawcolliderset_coHeightfieldNRows(B,this.__wbg_ptr,A);var I=kI()[B/4+0],C=kI()[B/4+1];return I===0?void 0:C>>>0}finally{u.__wbindgen_add_to_stack_pointer(16)}}coHeightfieldNCols(A){try{const B=u.__wbindgen_add_to_stack_pointer(-16);u.rawcolliderset_coHeightfieldNCols(B,this.__wbg_ptr,A);var I=kI()[B/4+0],C=kI()[B/4+1];return I===0?void 0:C>>>0}finally{u.__wbindgen_add_to_stack_pointer(16)}}coParent(A){try{const B=u.__wbindgen_add_to_stack_pointer(-16);u.rawcolliderset_coParent(B,this.__wbg_ptr,A);var I=kI()[B/4+0],C=Va()[B/8+1];return I===0?void 0:C}finally{u.__wbindgen_add_to_stack_pointer(16)}}coSetEnabled(A,I){u.rawcolliderset_coSetEnabled(this.__wbg_ptr,A,I)}coIsEnabled(A){return u.rawcolliderset_coIsEnabled(this.__wbg_ptr,A)!==0}coSetContactSkin(A,I){u.rawcolliderset_coSetContactSkin(this.__wbg_ptr,A,I)}coContactSkin(A){return u.rawcolliderset_coContactSkin(this.__wbg_ptr,A)}coFriction(A){return u.rawcolliderset_coFriction(this.__wbg_ptr,A)}coRestitution(A){return u.rawcolliderset_coRestitution(this.__wbg_ptr,A)}coDensity(A){return u.rawcolliderset_coDensity(this.__wbg_ptr,A)}coMass(A){return u.rawcolliderset_coMass(this.__wbg_ptr,A)}coVolume(A){return u.rawcolliderset_coVolume(this.__wbg_ptr,A)}coCollisionGroups(A){return u.rawcolliderset_coCollisionGroups(this.__wbg_ptr,A)>>>0}coSolverGroups(A){return u.rawcolliderset_coSolverGroups(this.__wbg_ptr,A)>>>0}coActiveHooks(A){return u.rawcolliderset_coActiveHooks(this.__wbg_ptr,A)>>>0}coActiveCollisionTypes(A){return u.rawcolliderset_coActiveCollisionTypes(this.__wbg_ptr,A)}coActiveEvents(A){return u.rawcolliderset_coActiveEvents(this.__wbg_ptr,A)>>>0}coContactForceEventThreshold(A){return u.rawcolliderset_coContactForceEventThreshold(this.__wbg_ptr,A)}coContainsPoint(A,I){return j(I,iA),u.rawcolliderset_coContainsPoint(this.__wbg_ptr,A,I.__wbg_ptr)!==0}coCastShape(A,I,C,B,i,Q,E,e,n){j(I,iA),j(C,yI),j(B,iA),j(i,ZI),j(Q,iA);const a=u.rawcolliderset_coCastShape(this.__wbg_ptr,A,I.__wbg_ptr,C.__wbg_ptr,B.__wbg_ptr,i.__wbg_ptr,Q.__wbg_ptr,E,e,n);return a===0?void 0:_h.__wrap(a)}coCastCollider(A,I,C,B,i,Q,E){j(I,iA),j(B,iA);const e=u.rawcolliderset_coCastCollider(this.__wbg_ptr,A,I.__wbg_ptr,C,B.__wbg_ptr,i,Q,E);return e===0?void 0:xh.__wrap(e)}coIntersectsShape(A,I,C,B){return j(I,yI),j(C,iA),j(B,ZI),u.rawcolliderset_coIntersectsShape(this.__wbg_ptr,A,I.__wbg_ptr,C.__wbg_ptr,B.__wbg_ptr)!==0}coContactShape(A,I,C,B,i){j(I,yI),j(C,iA),j(B,ZI);const Q=u.rawcolliderset_coContactShape(this.__wbg_ptr,A,I.__wbg_ptr,C.__wbg_ptr,B.__wbg_ptr,i);return Q===0?void 0:ja.__wrap(Q)}coContactCollider(A,I,C){const B=u.rawcolliderset_coContactCollider(this.__wbg_ptr,A,I,C);return B===0?void 0:ja.__wrap(B)}coProjectPoint(A,I,C){j(I,iA);const B=u.rawcolliderset_coProjectPoint(this.__wbg_ptr,A,I.__wbg_ptr,C);return vh.__wrap(B)}coIntersectsRay(A,I,C,B){return j(I,iA),j(C,iA),u.rawcolliderset_coIntersectsRay(this.__wbg_ptr,A,I.__wbg_ptr,C.__wbg_ptr,B)!==0}coCastRay(A,I,C,B,i){return j(I,iA),j(C,iA),u.rawcolliderset_coCastRay(this.__wbg_ptr,A,I.__wbg_ptr,C.__wbg_ptr,B,i)}coCastRayAndGetNormal(A,I,C,B,i){j(I,iA),j(C,iA);const Q=u.rawcolliderset_coCastRayAndGetNormal(this.__wbg_ptr,A,I.__wbg_ptr,C.__wbg_ptr,B,i);return Q===0?void 0:bh.__wrap(Q)}coSetSensor(A,I){u.rawcolliderset_coSetSensor(this.__wbg_ptr,A,I)}coSetRestitution(A,I){u.rawcolliderset_coSetRestitution(this.__wbg_ptr,A,I)}coSetFriction(A,I){u.rawcolliderset_coSetFriction(this.__wbg_ptr,A,I)}coFrictionCombineRule(A){return u.rawcolliderset_coFrictionCombineRule(this.__wbg_ptr,A)>>>0}coSetFrictionCombineRule(A,I){u.rawcolliderset_coSetFrictionCombineRule(this.__wbg_ptr,A,I)}coRestitutionCombineRule(A){return u.rawcolliderset_coRestitutionCombineRule(this.__wbg_ptr,A)>>>0}coSetRestitutionCombineRule(A,I){u.rawcolliderset_coSetRestitutionCombineRule(this.__wbg_ptr,A,I)}coSetCollisionGroups(A,I){u.rawcolliderset_coSetCollisionGroups(this.__wbg_ptr,A,I)}coSetSolverGroups(A,I){u.rawcolliderset_coSetSolverGroups(this.__wbg_ptr,A,I)}coSetActiveHooks(A,I){u.rawcolliderset_coSetActiveHooks(this.__wbg_ptr,A,I)}coSetActiveEvents(A,I){u.rawcolliderset_coSetActiveEvents(this.__wbg_ptr,A,I)}coSetActiveCollisionTypes(A,I){u.rawcolliderset_coSetActiveCollisionTypes(this.__wbg_ptr,A,I)}coSetShape(A,I){j(I,yI),u.rawcolliderset_coSetShape(this.__wbg_ptr,A,I.__wbg_ptr)}coSetContactForceEventThreshold(A,I){u.rawcolliderset_coSetContactForceEventThreshold(this.__wbg_ptr,A,I)}coSetDensity(A,I){u.rawcolliderset_coSetDensity(this.__wbg_ptr,A,I)}coSetMass(A,I){u.rawcolliderset_coSetMass(this.__wbg_ptr,A,I)}coSetMassProperties(A,I,C,B,i){j(C,iA),j(B,iA),j(i,ZI),u.rawcolliderset_coSetMassProperties(this.__wbg_ptr,A,I,C.__wbg_ptr,B.__wbg_ptr,i.__wbg_ptr)}constructor(){const A=u.rawcolliderset_new();return this.__wbg_ptr=A>>>0,this}len(){return u.rawcolliderset_len(this.__wbg_ptr)>>>0}contains(A){return u.rawcolliderset_contains(this.__wbg_ptr,A)!==0}createCollider(A,I,C,B,i,Q,E,e,n,a,s,r,D,c,y,S,l,w,k,U,f,F,J,q,K){try{const P=u.__wbindgen_add_to_stack_pointer(-16);j(I,yI),j(C,iA),j(B,ZI),j(E,iA),j(e,iA),j(n,ZI),j(K,vg),u.rawcolliderset_createCollider(P,this.__wbg_ptr,A,I.__wbg_ptr,C.__wbg_ptr,B.__wbg_ptr,i,Q,E.__wbg_ptr,e.__wbg_ptr,n.__wbg_ptr,a,s,r,D,c,y,S,l,w,k,U,f,F,J,q,K.__wbg_ptr);var N=kI()[P/4+0],m=Va()[P/8+1];return N===0?void 0:m}finally{u.__wbindgen_add_to_stack_pointer(16)}}remove(A,I,C,B){j(I,RQ),j(C,vg),u.rawcolliderset_remove(this.__wbg_ptr,A,I.__wbg_ptr,C.__wbg_ptr,B)}isHandleValid(A){return u.rawcolliderset_contains(this.__wbg_ptr,A)!==0}forEachColliderHandle(A){try{u.rawcolliderset_forEachColliderHandle(this.__wbg_ptr,Fg(A))}finally{Ag[Sg++]=void 0}}}class xh{static __wrap(A){A>>>=0;const I=Object.create(xh.prototype);return I.__wbg_ptr=A,I}__destroy_into_raw(){const A=this.__wbg_ptr;return this.__wbg_ptr=0,A}free(){const A=this.__destroy_into_raw();u.__wbg_rawcollidershapecasthit_free(A)}colliderHandle(){return u.rawcharactercollision_handle(this.__wbg_ptr)}time_of_impact(){return u.rawcollidershapecasthit_time_of_impact(this.__wbg_ptr)}witness1(){const A=u.rawcollidershapecasthit_witness1(this.__wbg_ptr);return iA.__wrap(A)}witness2(){const A=u.rawcollidershapecasthit_witness2(this.__wbg_ptr);return iA.__wrap(A)}normal1(){const A=u.rawcharactercollision_translationDeltaApplied(this.__wbg_ptr);return iA.__wrap(A)}normal2(){const A=u.rawcharactercollision_translationDeltaRemaining(this.__wbg_ptr);return iA.__wrap(A)}}class fM{static __wrap(A){A>>>=0;const I=Object.create(fM.prototype);return I.__wbg_ptr=A,I}__destroy_into_raw(){const A=this.__wbg_ptr;return this.__wbg_ptr=0,A}free(){const A=this.__destroy_into_raw();u.__wbg_rawcontactforceevent_free(A)}collider1(){return u.rawcharactercollision_handle(this.__wbg_ptr)}collider2(){return u.rawcontactforceevent_collider2(this.__wbg_ptr)}total_force(){const A=u.rawcontactforceevent_total_force(this.__wbg_ptr);return iA.__wrap(A)}total_force_magnitude(){return u.rawcontactforceevent_total_force_magnitude(this.__wbg_ptr)}max_force_direction(){const A=u.rawcontactforceevent_max_force_direction(this.__wbg_ptr);return iA.__wrap(A)}max_force_magnitude(){return u.rawcontactforceevent_max_force_magnitude(this.__wbg_ptr)}}class qM{static __wrap(A){A>>>=0;const I=Object.create(qM.prototype);return I.__wbg_ptr=A,I}__destroy_into_raw(){const A=this.__wbg_ptr;return this.__wbg_ptr=0,A}free(){const A=this.__destroy_into_raw();u.__wbg_rawcontactmanifold_free(A)}normal(){const A=u.rawcontactmanifold_normal(this.__wbg_ptr);return iA.__wrap(A)}local_n1(){const A=u.rawcontactmanifold_local_n1(this.__wbg_ptr);return iA.__wrap(A)}local_n2(){const A=u.rawcontactmanifold_local_n2(this.__wbg_ptr);return iA.__wrap(A)}subshape1(){return u.rawcontactmanifold_subshape1(this.__wbg_ptr)>>>0}subshape2(){return u.rawcontactmanifold_subshape2(this.__wbg_ptr)>>>0}num_contacts(){return u.rawcontactmanifold_num_contacts(this.__wbg_ptr)>>>0}contact_local_p1(A){const I=u.rawcontactmanifold_contact_local_p1(this.__wbg_ptr,A);return I===0?void 0:iA.__wrap(I)}contact_local_p2(A){const I=u.rawcontactmanifold_contact_local_p2(this.__wbg_ptr,A);return I===0?void 0:iA.__wrap(I)}contact_dist(A){return u.rawcontactmanifold_contact_dist(this.__wbg_ptr,A)}contact_fid1(A){return u.rawcontactmanifold_contact_fid1(this.__wbg_ptr,A)>>>0}contact_fid2(A){return u.rawcontactmanifold_contact_fid2(this.__wbg_ptr,A)>>>0}contact_impulse(A){return u.rawcontactmanifold_contact_impulse(this.__wbg_ptr,A)}contact_tangent_impulse_x(A){return u.rawcontactmanifold_contact_tangent_impulse_x(this.__wbg_ptr,A)}contact_tangent_impulse_y(A){return u.rawcontactmanifold_contact_tangent_impulse_y(this.__wbg_ptr,A)}num_solver_contacts(){return u.rawcontactmanifold_num_solver_contacts(this.__wbg_ptr)>>>0}solver_contact_point(A){const I=u.rawcontactmanifold_solver_contact_point(this.__wbg_ptr,A);return I===0?void 0:iA.__wrap(I)}solver_contact_dist(A){return u.rawcontactmanifold_solver_contact_dist(this.__wbg_ptr,A)}solver_contact_friction(A){return u.rawcontactmanifold_solver_contact_friction(this.__wbg_ptr,A)}solver_contact_restitution(A){return u.rawcontactmanifold_solver_contact_restitution(this.__wbg_ptr,A)}solver_contact_tangent_velocity(A){const I=u.rawcontactmanifold_solver_contact_tangent_velocity(this.__wbg_ptr,A);return iA.__wrap(I)}}class YM{static __wrap(A){A>>>=0;const I=Object.create(YM.prototype);return I.__wbg_ptr=A,I}__destroy_into_raw(){const A=this.__wbg_ptr;return this.__wbg_ptr=0,A}free(){const A=this.__destroy_into_raw();u.__wbg_rawcontactpair_free(A)}collider1(){return u.rawcontactpair_collider1(this.__wbg_ptr)}collider2(){return u.rawcontactpair_collider2(this.__wbg_ptr)}numContactManifolds(){return u.rawcontactpair_numContactManifolds(this.__wbg_ptr)>>>0}contactManifold(A){const I=u.rawcontactpair_contactManifold(this.__wbg_ptr,A);return I===0?void 0:qM.__wrap(I)}}class S4{__destroy_into_raw(){const A=this.__wbg_ptr;return this.__wbg_ptr=0,A}free(){const A=this.__destroy_into_raw();u.__wbg_rawdebugrenderpipeline_free(A)}constructor(){const A=u.rawdebugrenderpipeline_new();return this.__wbg_ptr=A>>>0,this}vertices(){return Wa(u.rawdebugrenderpipeline_vertices(this.__wbg_ptr))}colors(){return Wa(u.rawdebugrenderpipeline_colors(this.__wbg_ptr))}render(A,I,C,B,i){j(A,vg),j(I,fg),j(C,JQ),j(B,fQ),j(i,JE),u.rawdebugrenderpipeline_render(this.__wbg_ptr,A.__wbg_ptr,I.__wbg_ptr,C.__wbg_ptr,B.__wbg_ptr,i.__wbg_ptr)}}class mM{static __wrap(A){A>>>=0;const I=Object.create(mM.prototype);return I.__wbg_ptr=A,I}__destroy_into_raw(){const A=this.__wbg_ptr;return this.__wbg_ptr=0,A}free(){const A=this.__destroy_into_raw();u.__wbg_rawdeserializedworld_free(A)}takeGravity(){const A=u.rawdeserializedworld_takeGravity(this.__wbg_ptr);return A===0?void 0:iA.__wrap(A)}takeIntegrationParameters(){const A=u.rawdeserializedworld_takeIntegrationParameters(this.__wbg_ptr);return A===0?void 0:We.__wrap(A)}takeIslandManager(){const A=u.rawdeserializedworld_takeIslandManager(this.__wbg_ptr);return A===0?void 0:RQ.__wrap(A)}takeBroadPhase(){const A=u.rawdeserializedworld_takeBroadPhase(this.__wbg_ptr);return A===0?void 0:Pe.__wrap(A)}takeNarrowPhase(){const A=u.rawdeserializedworld_takeNarrowPhase(this.__wbg_ptr);return A===0?void 0:JE.__wrap(A)}takeBodies(){const A=u.rawdeserializedworld_takeBodies(this.__wbg_ptr);return A===0?void 0:vg.__wrap(A)}takeColliders(){const A=u.rawdeserializedworld_takeColliders(this.__wbg_ptr);return A===0?void 0:fg.__wrap(A)}takeImpulseJoints(){const A=u.rawdeserializedworld_takeImpulseJoints(this.__wbg_ptr);return A===0?void 0:JQ.__wrap(A)}takeMultibodyJoints(){const A=u.rawdeserializedworld_takeMultibodyJoints(this.__wbg_ptr);return A===0?void 0:fQ.__wrap(A)}}class w4{__destroy_into_raw(){const A=this.__wbg_ptr;return this.__wbg_ptr=0,A}free(){const A=this.__destroy_into_raw();u.__wbg_rawdynamicraycastvehiclecontroller_free(A)}constructor(A){const I=u.rawdynamicraycastvehiclecontroller_new(A);return this.__wbg_ptr=I>>>0,this}current_vehicle_speed(){return u.rawdynamicraycastvehiclecontroller_current_vehicle_speed(this.__wbg_ptr)}chassis(){return u.rawdynamicraycastvehiclecontroller_chassis(this.__wbg_ptr)}index_up_axis(){return u.rawdynamicraycastvehiclecontroller_index_up_axis(this.__wbg_ptr)>>>0}set_index_up_axis(A){u.rawdynamicraycastvehiclecontroller_set_index_up_axis(this.__wbg_ptr,A)}index_forward_axis(){return u.rawdynamicraycastvehiclecontroller_index_forward_axis(this.__wbg_ptr)>>>0}set_index_forward_axis(A){u.rawdynamicraycastvehiclecontroller_set_index_forward_axis(this.__wbg_ptr,A)}add_wheel(A,I,C,B,i){j(A,iA),j(I,iA),j(C,iA),u.rawdynamicraycastvehiclecontroller_add_wheel(this.__wbg_ptr,A.__wbg_ptr,I.__wbg_ptr,C.__wbg_ptr,B,i)}num_wheels(){return u.rawdynamicraycastvehiclecontroller_num_wheels(this.__wbg_ptr)>>>0}update_vehicle(A,I,C,B,i,Q,E){try{j(I,vg),j(C,fg),j(B,LM),u.rawdynamicraycastvehiclecontroller_update_vehicle(this.__wbg_ptr,A,I.__wbg_ptr,C.__wbg_ptr,B.__wbg_ptr,i,!nI(Q),nI(Q)?0:Q,Fg(E))}finally{Ag[Sg++]=void 0}}wheel_chassis_connection_point_cs(A){const I=u.rawdynamicraycastvehiclecontroller_wheel_chassis_connection_point_cs(this.__wbg_ptr,A);return I===0?void 0:iA.__wrap(I)}set_wheel_chassis_connection_point_cs(A,I){j(I,iA),u.rawdynamicraycastvehiclecontroller_set_wheel_chassis_connection_point_cs(this.__wbg_ptr,A,I.__wbg_ptr)}wheel_suspension_rest_length(A){try{const B=u.__wbindgen_add_to_stack_pointer(-16);u.rawdynamicraycastvehiclecontroller_wheel_suspension_rest_length(B,this.__wbg_ptr,A);var I=kI()[B/4+0],C=Ug()[B/4+1];return I===0?void 0:C}finally{u.__wbindgen_add_to_stack_pointer(16)}}set_wheel_suspension_rest_length(A,I){u.rawdynamicraycastvehiclecontroller_set_wheel_suspension_rest_length(this.__wbg_ptr,A,I)}wheel_max_suspension_travel(A){try{const B=u.__wbindgen_add_to_stack_pointer(-16);u.rawdynamicraycastvehiclecontroller_wheel_max_suspension_travel(B,this.__wbg_ptr,A);var I=kI()[B/4+0],C=Ug()[B/4+1];return I===0?void 0:C}finally{u.__wbindgen_add_to_stack_pointer(16)}}set_wheel_max_suspension_travel(A,I){u.rawdynamicraycastvehiclecontroller_set_wheel_max_suspension_travel(this.__wbg_ptr,A,I)}wheel_radius(A){try{const B=u.__wbindgen_add_to_stack_pointer(-16);u.rawdynamicraycastvehiclecontroller_wheel_radius(B,this.__wbg_ptr,A);var I=kI()[B/4+0],C=Ug()[B/4+1];return I===0?void 0:C}finally{u.__wbindgen_add_to_stack_pointer(16)}}set_wheel_radius(A,I){u.rawdynamicraycastvehiclecontroller_set_wheel_radius(this.__wbg_ptr,A,I)}wheel_suspension_stiffness(A){try{const B=u.__wbindgen_add_to_stack_pointer(-16);u.rawdynamicraycastvehiclecontroller_wheel_suspension_stiffness(B,this.__wbg_ptr,A);var I=kI()[B/4+0],C=Ug()[B/4+1];return I===0?void 0:C}finally{u.__wbindgen_add_to_stack_pointer(16)}}set_wheel_suspension_stiffness(A,I){u.rawdynamicraycastvehiclecontroller_set_wheel_suspension_stiffness(this.__wbg_ptr,A,I)}wheel_suspension_compression(A){try{const B=u.__wbindgen_add_to_stack_pointer(-16);u.rawdynamicraycastvehiclecontroller_wheel_suspension_compression(B,this.__wbg_ptr,A);var I=kI()[B/4+0],C=Ug()[B/4+1];return I===0?void 0:C}finally{u.__wbindgen_add_to_stack_pointer(16)}}set_wheel_suspension_compression(A,I){u.rawdynamicraycastvehiclecontroller_set_wheel_suspension_compression(this.__wbg_ptr,A,I)}wheel_suspension_relaxation(A){try{const B=u.__wbindgen_add_to_stack_pointer(-16);u.rawdynamicraycastvehiclecontroller_wheel_suspension_relaxation(B,this.__wbg_ptr,A);var I=kI()[B/4+0],C=Ug()[B/4+1];return I===0?void 0:C}finally{u.__wbindgen_add_to_stack_pointer(16)}}set_wheel_suspension_relaxation(A,I){u.rawdynamicraycastvehiclecontroller_set_wheel_suspension_relaxation(this.__wbg_ptr,A,I)}wheel_max_suspension_force(A){try{const B=u.__wbindgen_add_to_stack_pointer(-16);u.rawdynamicraycastvehiclecontroller_wheel_max_suspension_force(B,this.__wbg_ptr,A);var I=kI()[B/4+0],C=Ug()[B/4+1];return I===0?void 0:C}finally{u.__wbindgen_add_to_stack_pointer(16)}}set_wheel_max_suspension_force(A,I){u.rawdynamicraycastvehiclecontroller_set_wheel_max_suspension_force(this.__wbg_ptr,A,I)}wheel_brake(A){try{const B=u.__wbindgen_add_to_stack_pointer(-16);u.rawdynamicraycastvehiclecontroller_wheel_brake(B,this.__wbg_ptr,A);var I=kI()[B/4+0],C=Ug()[B/4+1];return I===0?void 0:C}finally{u.__wbindgen_add_to_stack_pointer(16)}}set_wheel_brake(A,I){u.rawdynamicraycastvehiclecontroller_set_wheel_brake(this.__wbg_ptr,A,I)}wheel_steering(A){try{const B=u.__wbindgen_add_to_stack_pointer(-16);u.rawdynamicraycastvehiclecontroller_wheel_steering(B,this.__wbg_ptr,A);var I=kI()[B/4+0],C=Ug()[B/4+1];return I===0?void 0:C}finally{u.__wbindgen_add_to_stack_pointer(16)}}set_wheel_steering(A,I){u.rawdynamicraycastvehiclecontroller_set_wheel_steering(this.__wbg_ptr,A,I)}wheel_engine_force(A){try{const B=u.__wbindgen_add_to_stack_pointer(-16);u.rawdynamicraycastvehiclecontroller_wheel_engine_force(B,this.__wbg_ptr,A);var I=kI()[B/4+0],C=Ug()[B/4+1];return I===0?void 0:C}finally{u.__wbindgen_add_to_stack_pointer(16)}}set_wheel_engine_force(A,I){u.rawdynamicraycastvehiclecontroller_set_wheel_engine_force(this.__wbg_ptr,A,I)}wheel_direction_cs(A){const I=u.rawdynamicraycastvehiclecontroller_wheel_direction_cs(this.__wbg_ptr,A);return I===0?void 0:iA.__wrap(I)}set_wheel_direction_cs(A,I){j(I,iA),u.rawdynamicraycastvehiclecontroller_set_wheel_direction_cs(this.__wbg_ptr,A,I.__wbg_ptr)}wheel_axle_cs(A){const I=u.rawdynamicraycastvehiclecontroller_wheel_axle_cs(this.__wbg_ptr,A);return I===0?void 0:iA.__wrap(I)}set_wheel_axle_cs(A,I){j(I,iA),u.rawdynamicraycastvehiclecontroller_set_wheel_axle_cs(this.__wbg_ptr,A,I.__wbg_ptr)}wheel_friction_slip(A){try{const B=u.__wbindgen_add_to_stack_pointer(-16);u.rawdynamicraycastvehiclecontroller_wheel_friction_slip(B,this.__wbg_ptr,A);var I=kI()[B/4+0],C=Ug()[B/4+1];return I===0?void 0:C}finally{u.__wbindgen_add_to_stack_pointer(16)}}set_wheel_friction_slip(A,I){u.rawdynamicraycastvehiclecontroller_set_wheel_friction_slip(this.__wbg_ptr,A,I)}wheel_side_friction_stiffness(A){try{const B=u.__wbindgen_add_to_stack_pointer(-16);u.rawdynamicraycastvehiclecontroller_wheel_side_friction_stiffness(B,this.__wbg_ptr,A);var I=kI()[B/4+0],C=Ug()[B/4+1];return I===0?void 0:C}finally{u.__wbindgen_add_to_stack_pointer(16)}}set_wheel_side_friction_stiffness(A,I){u.rawdynamicraycastvehiclecontroller_set_wheel_side_friction_stiffness(this.__wbg_ptr,A,I)}wheel_rotation(A){try{const B=u.__wbindgen_add_to_stack_pointer(-16);u.rawdynamicraycastvehiclecontroller_wheel_rotation(B,this.__wbg_ptr,A);var I=kI()[B/4+0],C=Ug()[B/4+1];return I===0?void 0:C}finally{u.__wbindgen_add_to_stack_pointer(16)}}wheel_forward_impulse(A){try{const B=u.__wbindgen_add_to_stack_pointer(-16);u.rawdynamicraycastvehiclecontroller_wheel_forward_impulse(B,this.__wbg_ptr,A);var I=kI()[B/4+0],C=Ug()[B/4+1];return I===0?void 0:C}finally{u.__wbindgen_add_to_stack_pointer(16)}}wheel_side_impulse(A){try{const B=u.__wbindgen_add_to_stack_pointer(-16);u.rawdynamicraycastvehiclecontroller_wheel_side_impulse(B,this.__wbg_ptr,A);var I=kI()[B/4+0],C=Ug()[B/4+1];return I===0?void 0:C}finally{u.__wbindgen_add_to_stack_pointer(16)}}wheel_suspension_force(A){try{const B=u.__wbindgen_add_to_stack_pointer(-16);u.rawdynamicraycastvehiclecontroller_wheel_suspension_force(B,this.__wbg_ptr,A);var I=kI()[B/4+0],C=Ug()[B/4+1];return I===0?void 0:C}finally{u.__wbindgen_add_to_stack_pointer(16)}}wheel_contact_normal_ws(A){const I=u.rawdynamicraycastvehiclecontroller_wheel_contact_normal_ws(this.__wbg_ptr,A);return I===0?void 0:iA.__wrap(I)}wheel_contact_point_ws(A){const I=u.rawdynamicraycastvehiclecontroller_wheel_contact_point_ws(this.__wbg_ptr,A);return I===0?void 0:iA.__wrap(I)}wheel_suspension_length(A){try{const B=u.__wbindgen_add_to_stack_pointer(-16);u.rawdynamicraycastvehiclecontroller_wheel_suspension_length(B,this.__wbg_ptr,A);var I=kI()[B/4+0],C=Ug()[B/4+1];return I===0?void 0:C}finally{u.__wbindgen_add_to_stack_pointer(16)}}wheel_hard_point_ws(A){const I=u.rawdynamicraycastvehiclecontroller_wheel_hard_point_ws(this.__wbg_ptr,A);return I===0?void 0:iA.__wrap(I)}wheel_is_in_contact(A){return u.rawdynamicraycastvehiclecontroller_wheel_is_in_contact(this.__wbg_ptr,A)!==0}wheel_ground_object(A){try{const B=u.__wbindgen_add_to_stack_pointer(-16);u.rawdynamicraycastvehiclecontroller_wheel_ground_object(B,this.__wbg_ptr,A);var I=kI()[B/4+0],C=Va()[B/8+1];return I===0?void 0:C}finally{u.__wbindgen_add_to_stack_pointer(16)}}}class Uf{__destroy_into_raw(){const A=this.__wbg_ptr;return this.__wbg_ptr=0,A}free(){const A=this.__destroy_into_raw();u.__wbg_raweventqueue_free(A)}constructor(A){const I=u.raweventqueue_new(A);return this.__wbg_ptr=I>>>0,this}drainCollisionEvents(A){try{u.raweventqueue_drainCollisionEvents(this.__wbg_ptr,Fg(A))}finally{Ag[Sg++]=void 0}}drainContactForceEvents(A){try{u.raweventqueue_drainContactForceEvents(this.__wbg_ptr,Fg(A))}finally{Ag[Sg++]=void 0}}clear(){u.raweventqueue_clear(this.__wbg_ptr)}}class wC{static __wrap(A){A>>>=0;const I=Object.create(wC.prototype);return I.__wbg_ptr=A,I}__destroy_into_raw(){const A=this.__wbg_ptr;return this.__wbg_ptr=0,A}free(){const A=this.__destroy_into_raw();u.__wbg_rawgenericjoint_free(A)}static generic(A,I,C,B){j(A,iA),j(I,iA),j(C,iA);const i=u.rawgenericjoint_generic(A.__wbg_ptr,I.__wbg_ptr,C.__wbg_ptr,B);return i===0?void 0:wC.__wrap(i)}static spring(A,I,C,B,i){j(B,iA),j(i,iA);const Q=u.rawgenericjoint_spring(A,I,C,B.__wbg_ptr,i.__wbg_ptr);return wC.__wrap(Q)}static rope(A,I,C){j(I,iA),j(C,iA);const B=u.rawgenericjoint_rope(A,I.__wbg_ptr,C.__wbg_ptr);return wC.__wrap(B)}static spherical(A,I){j(A,iA),j(I,iA);const C=u.rawgenericjoint_spherical(A.__wbg_ptr,I.__wbg_ptr);return wC.__wrap(C)}static prismatic(A,I,C,B,i,Q){j(A,iA),j(I,iA),j(C,iA);const E=u.rawgenericjoint_prismatic(A.__wbg_ptr,I.__wbg_ptr,C.__wbg_ptr,B,i,Q);return E===0?void 0:wC.__wrap(E)}static fixed(A,I,C,B){j(A,iA),j(I,ZI),j(C,iA),j(B,ZI);const i=u.rawgenericjoint_fixed(A.__wbg_ptr,I.__wbg_ptr,C.__wbg_ptr,B.__wbg_ptr);return wC.__wrap(i)}static revolute(A,I,C){j(A,iA),j(I,iA),j(C,iA);const B=u.rawgenericjoint_revolute(A.__wbg_ptr,I.__wbg_ptr,C.__wbg_ptr);return B===0?void 0:wC.__wrap(B)}}class JQ{static __wrap(A){A>>>=0;const I=Object.create(JQ.prototype);return I.__wbg_ptr=A,I}__destroy_into_raw(){const A=this.__wbg_ptr;return this.__wbg_ptr=0,A}free(){const A=this.__destroy_into_raw();u.__wbg_rawimpulsejointset_free(A)}jointType(A){return u.rawimpulsejointset_jointType(this.__wbg_ptr,A)}jointBodyHandle1(A){return u.rawimpulsejointset_jointBodyHandle1(this.__wbg_ptr,A)}jointBodyHandle2(A){return u.rawimpulsejointset_jointBodyHandle2(this.__wbg_ptr,A)}jointFrameX1(A){const I=u.rawimpulsejointset_jointFrameX1(this.__wbg_ptr,A);return ZI.__wrap(I)}jointFrameX2(A){const I=u.rawimpulsejointset_jointFrameX2(this.__wbg_ptr,A);return ZI.__wrap(I)}jointAnchor1(A){const I=u.rawimpulsejointset_jointAnchor1(this.__wbg_ptr,A);return iA.__wrap(I)}jointAnchor2(A){const I=u.rawimpulsejointset_jointAnchor2(this.__wbg_ptr,A);return iA.__wrap(I)}jointSetAnchor1(A,I){j(I,iA),u.rawimpulsejointset_jointSetAnchor1(this.__wbg_ptr,A,I.__wbg_ptr)}jointSetAnchor2(A,I){j(I,iA),u.rawimpulsejointset_jointSetAnchor2(this.__wbg_ptr,A,I.__wbg_ptr)}jointContactsEnabled(A){return u.rawimpulsejointset_jointContactsEnabled(this.__wbg_ptr,A)!==0}jointSetContactsEnabled(A,I){u.rawimpulsejointset_jointSetContactsEnabled(this.__wbg_ptr,A,I)}jointLimitsEnabled(A,I){return u.rawimpulsejointset_jointLimitsEnabled(this.__wbg_ptr,A,I)!==0}jointLimitsMin(A,I){return u.rawimpulsejointset_jointLimitsMin(this.__wbg_ptr,A,I)}jointLimitsMax(A,I){return u.rawimpulsejointset_jointLimitsMax(this.__wbg_ptr,A,I)}jointSetLimits(A,I,C,B){u.rawimpulsejointset_jointSetLimits(this.__wbg_ptr,A,I,C,B)}jointConfigureMotorModel(A,I,C){u.rawimpulsejointset_jointConfigureMotorModel(this.__wbg_ptr,A,I,C)}jointConfigureMotorVelocity(A,I,C,B){u.rawimpulsejointset_jointConfigureMotorVelocity(this.__wbg_ptr,A,I,C,B)}jointConfigureMotorPosition(A,I,C,B,i){u.rawimpulsejointset_jointConfigureMotorPosition(this.__wbg_ptr,A,I,C,B,i)}jointConfigureMotor(A,I,C,B,i,Q){u.rawimpulsejointset_jointConfigureMotor(this.__wbg_ptr,A,I,C,B,i,Q)}constructor(){const A=u.rawimpulsejointset_new();return this.__wbg_ptr=A>>>0,this}createJoint(A,I,C,B){return j(A,wC),u.rawimpulsejointset_createJoint(this.__wbg_ptr,A.__wbg_ptr,I,C,B)}remove(A,I){u.rawimpulsejointset_remove(this.__wbg_ptr,A,I)}len(){return u.rawimpulsejointset_len(this.__wbg_ptr)>>>0}contains(A){return u.rawimpulsejointset_contains(this.__wbg_ptr,A)!==0}forEachJointHandle(A){try{u.rawimpulsejointset_forEachJointHandle(this.__wbg_ptr,Fg(A))}finally{Ag[Sg++]=void 0}}forEachJointAttachedToRigidBody(A,I){try{u.rawimpulsejointset_forEachJointAttachedToRigidBody(this.__wbg_ptr,A,Fg(I))}finally{Ag[Sg++]=void 0}}}class We{static __wrap(A){A>>>=0;const I=Object.create(We.prototype);return I.__wbg_ptr=A,I}__destroy_into_raw(){const A=this.__wbg_ptr;return this.__wbg_ptr=0,A}free(){const A=this.__destroy_into_raw();u.__wbg_rawintegrationparameters_free(A)}constructor(){const A=u.rawintegrationparameters_new();return this.__wbg_ptr=A>>>0,this}get dt(){return u.rawintegrationparameters_dt(this.__wbg_ptr)}get erp(){return u.rawintegrationparameters_erp(this.__wbg_ptr)}get normalizedAllowedLinearError(){return u.rawdynamicraycastvehiclecontroller_current_vehicle_speed(this.__wbg_ptr)}get normalizedPredictionDistance(){return u.rawcontactforceevent_max_force_magnitude(this.__wbg_ptr)}get numSolverIterations(){return u.rawintegrationparameters_numSolverIterations(this.__wbg_ptr)>>>0}get numAdditionalFrictionIterations(){return u.rawdynamicraycastvehiclecontroller_index_up_axis(this.__wbg_ptr)>>>0}get numInternalPgsIterations(){return u.rawdynamicraycastvehiclecontroller_index_forward_axis(this.__wbg_ptr)>>>0}get minIslandSize(){return u.rawimpulsejointset_len(this.__wbg_ptr)>>>0}get maxCcdSubsteps(){return u.rawintegrationparameters_maxCcdSubsteps(this.__wbg_ptr)>>>0}get lengthUnit(){return u.rawintegrationparameters_lengthUnit(this.__wbg_ptr)}set dt(A){u.rawintegrationparameters_set_dt(this.__wbg_ptr,A)}set erp(A){u.rawintegrationparameters_set_erp(this.__wbg_ptr,A)}set normalizedAllowedLinearError(A){u.rawintegrationparameters_set_normalizedAllowedLinearError(this.__wbg_ptr,A)}set normalizedPredictionDistance(A){u.rawintegrationparameters_set_normalizedPredictionDistance(this.__wbg_ptr,A)}set numSolverIterations(A){u.rawintegrationparameters_set_numSolverIterations(this.__wbg_ptr,A)}set numAdditionalFrictionIterations(A){u.rawdynamicraycastvehiclecontroller_set_index_up_axis(this.__wbg_ptr,A)}set numInternalPgsIterations(A){u.rawdynamicraycastvehiclecontroller_set_index_forward_axis(this.__wbg_ptr,A)}set minIslandSize(A){u.rawintegrationparameters_set_minIslandSize(this.__wbg_ptr,A)}set maxCcdSubsteps(A){u.rawintegrationparameters_set_maxCcdSubsteps(this.__wbg_ptr,A)}set lengthUnit(A){u.rawintegrationparameters_set_lengthUnit(this.__wbg_ptr,A)}switchToStandardPgsSolver(){u.rawintegrationparameters_switchToStandardPgsSolver(this.__wbg_ptr)}switchToSmallStepsPgsSolver(){u.rawintegrationparameters_switchToSmallStepsPgsSolver(this.__wbg_ptr)}switchToSmallStepsPgsSolverWithoutWarmstart(){u.rawintegrationparameters_switchToSmallStepsPgsSolverWithoutWarmstart(this.__wbg_ptr)}}class RQ{static __wrap(A){A>>>=0;const I=Object.create(RQ.prototype);return I.__wbg_ptr=A,I}__destroy_into_raw(){const A=this.__wbg_ptr;return this.__wbg_ptr=0,A}free(){const A=this.__destroy_into_raw();u.__wbg_rawislandmanager_free(A)}constructor(){const A=u.rawislandmanager_new();return this.__wbg_ptr=A>>>0,this}forEachActiveRigidBodyHandle(A){try{u.rawislandmanager_forEachActiveRigidBodyHandle(this.__wbg_ptr,Fg(A))}finally{Ag[Sg++]=void 0}}}class G4{__destroy_into_raw(){const A=this.__wbg_ptr;return this.__wbg_ptr=0,A}free(){const A=this.__destroy_into_raw();u.__wbg_rawkinematiccharactercontroller_free(A)}constructor(A){const I=u.rawkinematiccharactercontroller_new(A);return this.__wbg_ptr=I>>>0,this}up(){const A=u.rawcharactercollision_translationDeltaApplied(this.__wbg_ptr);return iA.__wrap(A)}setUp(A){j(A,iA),u.rawkinematiccharactercontroller_setUp(this.__wbg_ptr,A.__wbg_ptr)}normalNudgeFactor(){return u.rawkinematiccharactercontroller_normalNudgeFactor(this.__wbg_ptr)}setNormalNudgeFactor(A){u.rawkinematiccharactercontroller_setNormalNudgeFactor(this.__wbg_ptr,A)}offset(){return u.rawintegrationparameters_dt(this.__wbg_ptr)}setOffset(A){u.rawkinematiccharactercontroller_setOffset(this.__wbg_ptr,A)}slideEnabled(){return u.rawkinematiccharactercontroller_slideEnabled(this.__wbg_ptr)!==0}setSlideEnabled(A){u.rawkinematiccharactercontroller_setSlideEnabled(this.__wbg_ptr,A)}autostepMaxHeight(){try{const C=u.__wbindgen_add_to_stack_pointer(-16);u.rawkinematiccharactercontroller_autostepMaxHeight(C,this.__wbg_ptr);var A=kI()[C/4+0],I=Ug()[C/4+1];return A===0?void 0:I}finally{u.__wbindgen_add_to_stack_pointer(16)}}autostepMinWidth(){try{const C=u.__wbindgen_add_to_stack_pointer(-16);u.rawkinematiccharactercontroller_autostepMinWidth(C,this.__wbg_ptr);var A=kI()[C/4+0],I=Ug()[C/4+1];return A===0?void 0:I}finally{u.__wbindgen_add_to_stack_pointer(16)}}autostepIncludesDynamicBodies(){const A=u.rawkinematiccharactercontroller_autostepIncludesDynamicBodies(this.__wbg_ptr);return A===16777215?void 0:A!==0}autostepEnabled(){return u.rawkinematiccharactercontroller_autostepEnabled(this.__wbg_ptr)!==0}enableAutostep(A,I,C){u.rawkinematiccharactercontroller_enableAutostep(this.__wbg_ptr,A,I,C)}disableAutostep(){u.rawkinematiccharactercontroller_disableAutostep(this.__wbg_ptr)}maxSlopeClimbAngle(){return u.rawkinematiccharactercontroller_maxSlopeClimbAngle(this.__wbg_ptr)}setMaxSlopeClimbAngle(A){u.rawkinematiccharactercontroller_setMaxSlopeClimbAngle(this.__wbg_ptr,A)}minSlopeSlideAngle(){return u.rawkinematiccharactercontroller_minSlopeSlideAngle(this.__wbg_ptr)}setMinSlopeSlideAngle(A){u.rawkinematiccharactercontroller_setMinSlopeSlideAngle(this.__wbg_ptr,A)}snapToGroundDistance(){try{const C=u.__wbindgen_add_to_stack_pointer(-16);u.rawkinematiccharactercontroller_snapToGroundDistance(C,this.__wbg_ptr);var A=kI()[C/4+0],I=Ug()[C/4+1];return A===0?void 0:I}finally{u.__wbindgen_add_to_stack_pointer(16)}}enableSnapToGround(A){u.rawkinematiccharactercontroller_enableSnapToGround(this.__wbg_ptr,A)}disableSnapToGround(){u.rawkinematiccharactercontroller_disableSnapToGround(this.__wbg_ptr)}snapToGroundEnabled(){return u.rawkinematiccharactercontroller_snapToGroundEnabled(this.__wbg_ptr)!==0}computeColliderMovement(A,I,C,B,i,Q,E,e,n,a,s){try{j(I,vg),j(C,fg),j(B,LM),j(Q,iA),u.rawkinematiccharactercontroller_computeColliderMovement(this.__wbg_ptr,A,I.__wbg_ptr,C.__wbg_ptr,B.__wbg_ptr,i,Q.__wbg_ptr,E,!nI(e),nI(e)?0:e,n,!nI(a),nI(a)?0:a,Fg(s))}finally{Ag[Sg++]=void 0}}computedMovement(){const A=u.rawkinematiccharactercontroller_computedMovement(this.__wbg_ptr);return iA.__wrap(A)}computedGrounded(){return u.rawkinematiccharactercontroller_computedGrounded(this.__wbg_ptr)!==0}numComputedCollisions(){return u.rawkinematiccharactercontroller_numComputedCollisions(this.__wbg_ptr)>>>0}computedCollision(A,I){return j(I,uf),u.rawkinematiccharactercontroller_computedCollision(this.__wbg_ptr,A,I.__wbg_ptr)!==0}}class fQ{static __wrap(A){A>>>=0;const I=Object.create(fQ.prototype);return I.__wbg_ptr=A,I}__destroy_into_raw(){const A=this.__wbg_ptr;return this.__wbg_ptr=0,A}free(){const A=this.__destroy_into_raw();u.__wbg_rawmultibodyjointset_free(A)}jointType(A){return u.rawmultibodyjointset_jointType(this.__wbg_ptr,A)}jointFrameX1(A){const I=u.rawmultibodyjointset_jointFrameX1(this.__wbg_ptr,A);return ZI.__wrap(I)}jointFrameX2(A){const I=u.rawmultibodyjointset_jointFrameX2(this.__wbg_ptr,A);return ZI.__wrap(I)}jointAnchor1(A){const I=u.rawmultibodyjointset_jointAnchor1(this.__wbg_ptr,A);return iA.__wrap(I)}jointAnchor2(A){const I=u.rawmultibodyjointset_jointAnchor2(this.__wbg_ptr,A);return iA.__wrap(I)}jointContactsEnabled(A){return u.rawmultibodyjointset_jointContactsEnabled(this.__wbg_ptr,A)!==0}jointSetContactsEnabled(A,I){u.rawmultibodyjointset_jointSetContactsEnabled(this.__wbg_ptr,A,I)}jointLimitsEnabled(A,I){return u.rawmultibodyjointset_jointLimitsEnabled(this.__wbg_ptr,A,I)!==0}jointLimitsMin(A,I){return u.rawmultibodyjointset_jointLimitsMin(this.__wbg_ptr,A,I)}jointLimitsMax(A,I){return u.rawmultibodyjointset_jointLimitsMax(this.__wbg_ptr,A,I)}constructor(){const A=u.rawmultibodyjointset_new();return this.__wbg_ptr=A>>>0,this}createJoint(A,I,C,B){return j(A,wC),u.rawmultibodyjointset_createJoint(this.__wbg_ptr,A.__wbg_ptr,I,C,B)}remove(A,I){u.rawmultibodyjointset_remove(this.__wbg_ptr,A,I)}contains(A){return u.rawmultibodyjointset_contains(this.__wbg_ptr,A)!==0}forEachJointHandle(A){try{u.rawmultibodyjointset_forEachJointHandle(this.__wbg_ptr,Fg(A))}finally{Ag[Sg++]=void 0}}forEachJointAttachedToRigidBody(A,I){try{u.rawmultibodyjointset_forEachJointAttachedToRigidBody(this.__wbg_ptr,A,Fg(I))}finally{Ag[Sg++]=void 0}}}class JE{static __wrap(A){A>>>=0;const I=Object.create(JE.prototype);return I.__wbg_ptr=A,I}__destroy_into_raw(){const A=this.__wbg_ptr;return this.__wbg_ptr=0,A}free(){const A=this.__destroy_into_raw();u.__wbg_rawnarrowphase_free(A)}constructor(){const A=u.rawnarrowphase_new();return this.__wbg_ptr=A>>>0,this}contact_pairs_with(A,I){u.rawnarrowphase_contact_pairs_with(this.__wbg_ptr,A,IC(I))}contact_pair(A,I){const C=u.rawnarrowphase_contact_pair(this.__wbg_ptr,A,I);return C===0?void 0:YM.__wrap(C)}intersection_pairs_with(A,I){u.rawnarrowphase_intersection_pairs_with(this.__wbg_ptr,A,IC(I))}intersection_pair(A,I){return u.rawnarrowphase_intersection_pair(this.__wbg_ptr,A,I)!==0}}class y4{__destroy_into_raw(){const A=this.__wbg_ptr;return this.__wbg_ptr=0,A}free(){const A=this.__destroy_into_raw();u.__wbg_rawphysicspipeline_free(A)}constructor(){const A=u.rawphysicspipeline_new();return this.__wbg_ptr=A>>>0,this}step(A,I,C,B,i,Q,E,e,n,a){j(A,iA),j(I,We),j(C,RQ),j(B,Pe),j(i,JE),j(Q,vg),j(E,fg),j(e,JQ),j(n,fQ),j(a,fy),u.rawphysicspipeline_step(this.__wbg_ptr,A.__wbg_ptr,I.__wbg_ptr,C.__wbg_ptr,B.__wbg_ptr,i.__wbg_ptr,Q.__wbg_ptr,E.__wbg_ptr,e.__wbg_ptr,n.__wbg_ptr,a.__wbg_ptr)}stepWithEvents(A,I,C,B,i,Q,E,e,n,a,s,r,D,c){j(A,iA),j(I,We),j(C,RQ),j(B,Pe),j(i,JE),j(Q,vg),j(E,fg),j(e,JQ),j(n,fQ),j(a,fy),j(s,Uf),u.rawphysicspipeline_stepWithEvents(this.__wbg_ptr,A.__wbg_ptr,I.__wbg_ptr,C.__wbg_ptr,B.__wbg_ptr,i.__wbg_ptr,Q.__wbg_ptr,E.__wbg_ptr,e.__wbg_ptr,n.__wbg_ptr,a.__wbg_ptr,s.__wbg_ptr,IC(r),IC(D),IC(c))}}class ql{static __wrap(A){A>>>=0;const I=Object.create(ql.prototype);return I.__wbg_ptr=A,I}__destroy_into_raw(){const A=this.__wbg_ptr;return this.__wbg_ptr=0,A}free(){const A=this.__destroy_into_raw();u.__wbg_rawpointcolliderprojection_free(A)}colliderHandle(){return u.rawpointcolliderprojection_colliderHandle(this.__wbg_ptr)}point(){const A=u.rawpointcolliderprojection_point(this.__wbg_ptr);return iA.__wrap(A)}isInside(){return u.rawpointcolliderprojection_isInside(this.__wbg_ptr)!==0}featureType(){return u.rawpointcolliderprojection_featureType(this.__wbg_ptr)}featureId(){try{const C=u.__wbindgen_add_to_stack_pointer(-16);u.rawpointcolliderprojection_featureId(C,this.__wbg_ptr);var A=kI()[C/4+0],I=kI()[C/4+1];return A===0?void 0:I>>>0}finally{u.__wbindgen_add_to_stack_pointer(16)}}}class vh{static __wrap(A){A>>>=0;const I=Object.create(vh.prototype);return I.__wbg_ptr=A,I}__destroy_into_raw(){const A=this.__wbg_ptr;return this.__wbg_ptr=0,A}free(){const A=this.__destroy_into_raw();u.__wbg_rawpointprojection_free(A)}point(){const A=u.rawpointprojection_point(this.__wbg_ptr);return iA.__wrap(A)}isInside(){return u.rawpointprojection_isInside(this.__wbg_ptr)!==0}}class LM{__destroy_into_raw(){const A=this.__wbg_ptr;return this.__wbg_ptr=0,A}free(){const A=this.__destroy_into_raw();u.__wbg_rawquerypipeline_free(A)}constructor(){const A=u.rawquerypipeline_new();return this.__wbg_ptr=A>>>0,this}update(A,I){j(A,vg),j(I,fg),u.rawquerypipeline_update(this.__wbg_ptr,A.__wbg_ptr,I.__wbg_ptr)}castRay(A,I,C,B,i,Q,E,e,n,a,s){try{j(A,vg),j(I,fg),j(C,iA),j(B,iA);const r=u.rawquerypipeline_castRay(this.__wbg_ptr,A.__wbg_ptr,I.__wbg_ptr,C.__wbg_ptr,B.__wbg_ptr,i,Q,E,!nI(e),nI(e)?0:e,!nI(n),nI(n)?0:n,!nI(a),nI(a)?0:a,Fg(s));return r===0?void 0:HM.__wrap(r)}finally{Ag[Sg++]=void 0}}castRayAndGetNormal(A,I,C,B,i,Q,E,e,n,a,s){try{j(A,vg),j(I,fg),j(C,iA),j(B,iA);const r=u.rawquerypipeline_castRayAndGetNormal(this.__wbg_ptr,A.__wbg_ptr,I.__wbg_ptr,C.__wbg_ptr,B.__wbg_ptr,i,Q,E,!nI(e),nI(e)?0:e,!nI(n),nI(n)?0:n,!nI(a),nI(a)?0:a,Fg(s));return r===0?void 0:Oh.__wrap(r)}finally{Ag[Sg++]=void 0}}intersectionsWithRay(A,I,C,B,i,Q,E,e,n,a,s,r){try{j(A,vg),j(I,fg),j(C,iA),j(B,iA),u.rawquerypipeline_intersectionsWithRay(this.__wbg_ptr,A.__wbg_ptr,I.__wbg_ptr,C.__wbg_ptr,B.__wbg_ptr,i,Q,Fg(E),e,!nI(n),nI(n)?0:n,!nI(a),nI(a)?0:a,!nI(s),nI(s)?0:s,Fg(r))}finally{Ag[Sg++]=void 0,Ag[Sg++]=void 0}}intersectionWithShape(A,I,C,B,i,Q,E,e,n,a){try{const D=u.__wbindgen_add_to_stack_pointer(-16);j(A,vg),j(I,fg),j(C,iA),j(B,ZI),j(i,yI),u.rawquerypipeline_intersectionWithShape(D,this.__wbg_ptr,A.__wbg_ptr,I.__wbg_ptr,C.__wbg_ptr,B.__wbg_ptr,i.__wbg_ptr,Q,!nI(E),nI(E)?0:E,!nI(e),nI(e)?0:e,!nI(n),nI(n)?0:n,Fg(a));var s=kI()[D/4+0],r=Va()[D/8+1];return s===0?void 0:r}finally{u.__wbindgen_add_to_stack_pointer(16),Ag[Sg++]=void 0}}projectPoint(A,I,C,B,i,Q,E,e,n){try{j(A,vg),j(I,fg),j(C,iA);const a=u.rawquerypipeline_projectPoint(this.__wbg_ptr,A.__wbg_ptr,I.__wbg_ptr,C.__wbg_ptr,B,i,!nI(Q),nI(Q)?0:Q,!nI(E),nI(E)?0:E,!nI(e),nI(e)?0:e,Fg(n));return a===0?void 0:ql.__wrap(a)}finally{Ag[Sg++]=void 0}}projectPointAndGetFeature(A,I,C,B,i,Q,E,e){try{j(A,vg),j(I,fg),j(C,iA);const n=u.rawquerypipeline_projectPointAndGetFeature(this.__wbg_ptr,A.__wbg_ptr,I.__wbg_ptr,C.__wbg_ptr,B,!nI(i),nI(i)?0:i,!nI(Q),nI(Q)?0:Q,!nI(E),nI(E)?0:E,Fg(e));return n===0?void 0:ql.__wrap(n)}finally{Ag[Sg++]=void 0}}intersectionsWithPoint(A,I,C,B,i,Q,E,e,n){try{j(A,vg),j(I,fg),j(C,iA),u.rawquerypipeline_intersectionsWithPoint(this.__wbg_ptr,A.__wbg_ptr,I.__wbg_ptr,C.__wbg_ptr,Fg(B),i,!nI(Q),nI(Q)?0:Q,!nI(E),nI(E)?0:E,!nI(e),nI(e)?0:e,Fg(n))}finally{Ag[Sg++]=void 0,Ag[Sg++]=void 0}}castShape(A,I,C,B,i,Q,E,e,n,a,s,r,D,c){try{j(A,vg),j(I,fg),j(C,iA),j(B,ZI),j(i,iA),j(Q,yI);const y=u.rawquerypipeline_castShape(this.__wbg_ptr,A.__wbg_ptr,I.__wbg_ptr,C.__wbg_ptr,B.__wbg_ptr,i.__wbg_ptr,Q.__wbg_ptr,E,e,n,a,!nI(s),nI(s)?0:s,!nI(r),nI(r)?0:r,!nI(D),nI(D)?0:D,Fg(c));return y===0?void 0:xh.__wrap(y)}finally{Ag[Sg++]=void 0}}intersectionsWithShape(A,I,C,B,i,Q,E,e,n,a,s){try{j(A,vg),j(I,fg),j(C,iA),j(B,ZI),j(i,yI),u.rawquerypipeline_intersectionsWithShape(this.__wbg_ptr,A.__wbg_ptr,I.__wbg_ptr,C.__wbg_ptr,B.__wbg_ptr,i.__wbg_ptr,Fg(Q),E,!nI(e),nI(e)?0:e,!nI(n),nI(n)?0:n,!nI(a),nI(a)?0:a,Fg(s))}finally{Ag[Sg++]=void 0,Ag[Sg++]=void 0}}collidersWithAabbIntersectingAabb(A,I,C){try{j(A,iA),j(I,iA),u.rawquerypipeline_collidersWithAabbIntersectingAabb(this.__wbg_ptr,A.__wbg_ptr,I.__wbg_ptr,Fg(C))}finally{Ag[Sg++]=void 0}}}class HM{static __wrap(A){A>>>=0;const I=Object.create(HM.prototype);return I.__wbg_ptr=A,I}__destroy_into_raw(){const A=this.__wbg_ptr;return this.__wbg_ptr=0,A}free(){const A=this.__destroy_into_raw();u.__wbg_rawraycolliderhit_free(A)}colliderHandle(){return u.rawcharactercollision_handle(this.__wbg_ptr)}timeOfImpact(){return u.rawcollidershapecasthit_time_of_impact(this.__wbg_ptr)}}class Oh{static __wrap(A){A>>>=0;const I=Object.create(Oh.prototype);return I.__wbg_ptr=A,I}__destroy_into_raw(){const A=this.__wbg_ptr;return this.__wbg_ptr=0,A}free(){const A=this.__destroy_into_raw();u.__wbg_rawraycolliderintersection_free(A)}colliderHandle(){return u.rawpointcolliderprojection_colliderHandle(this.__wbg_ptr)}normal(){const A=u.rawcollidershapecasthit_witness1(this.__wbg_ptr);return iA.__wrap(A)}time_of_impact(){return u.rawcollidershapecasthit_time_of_impact(this.__wbg_ptr)}featureType(){return u.rawpointcolliderprojection_featureType(this.__wbg_ptr)}featureId(){try{const C=u.__wbindgen_add_to_stack_pointer(-16);u.rawpointcolliderprojection_featureId(C,this.__wbg_ptr);var A=kI()[C/4+0],I=kI()[C/4+1];return A===0?void 0:I>>>0}finally{u.__wbindgen_add_to_stack_pointer(16)}}}class bh{static __wrap(A){A>>>=0;const I=Object.create(bh.prototype);return I.__wbg_ptr=A,I}__destroy_into_raw(){const A=this.__wbg_ptr;return this.__wbg_ptr=0,A}free(){const A=this.__destroy_into_raw();u.__wbg_rawrayintersection_free(A)}normal(){const A=u.rawcollidershapecasthit_witness1(this.__wbg_ptr);return iA.__wrap(A)}time_of_impact(){return u.rawcollidershapecasthit_time_of_impact(this.__wbg_ptr)}featureType(){return u.rawpointcolliderprojection_featureType(this.__wbg_ptr)}featureId(){try{const C=u.__wbindgen_add_to_stack_pointer(-16);u.rawpointcolliderprojection_featureId(C,this.__wbg_ptr);var A=kI()[C/4+0],I=kI()[C/4+1];return A===0?void 0:I>>>0}finally{u.__wbindgen_add_to_stack_pointer(16)}}}class vg{static __wrap(A){A>>>=0;const I=Object.create(vg.prototype);return I.__wbg_ptr=A,I}__destroy_into_raw(){const A=this.__wbg_ptr;return this.__wbg_ptr=0,A}free(){const A=this.__destroy_into_raw();u.__wbg_rawrigidbodyset_free(A)}rbTranslation(A){const I=u.rawrigidbodyset_rbTranslation(this.__wbg_ptr,A);return iA.__wrap(I)}rbRotation(A){const I=u.rawrigidbodyset_rbRotation(this.__wbg_ptr,A);return ZI.__wrap(I)}rbSleep(A){u.rawrigidbodyset_rbSleep(this.__wbg_ptr,A)}rbIsSleeping(A){return u.rawrigidbodyset_rbIsSleeping(this.__wbg_ptr,A)!==0}rbIsMoving(A){return u.rawrigidbodyset_rbIsMoving(this.__wbg_ptr,A)!==0}rbNextTranslation(A){const I=u.rawrigidbodyset_rbNextTranslation(this.__wbg_ptr,A);return iA.__wrap(I)}rbNextRotation(A){const I=u.rawrigidbodyset_rbNextRotation(this.__wbg_ptr,A);return ZI.__wrap(I)}rbSetTranslation(A,I,C,B,i){u.rawrigidbodyset_rbSetTranslation(this.__wbg_ptr,A,I,C,B,i)}rbSetRotation(A,I,C,B,i,Q){u.rawrigidbodyset_rbSetRotation(this.__wbg_ptr,A,I,C,B,i,Q)}rbSetLinvel(A,I,C){j(I,iA),u.rawrigidbodyset_rbSetLinvel(this.__wbg_ptr,A,I.__wbg_ptr,C)}rbSetAngvel(A,I,C){j(I,iA),u.rawrigidbodyset_rbSetAngvel(this.__wbg_ptr,A,I.__wbg_ptr,C)}rbSetNextKinematicTranslation(A,I,C,B){u.rawrigidbodyset_rbSetNextKinematicTranslation(this.__wbg_ptr,A,I,C,B)}rbSetNextKinematicRotation(A,I,C,B,i){u.rawrigidbodyset_rbSetNextKinematicRotation(this.__wbg_ptr,A,I,C,B,i)}rbRecomputeMassPropertiesFromColliders(A,I){j(I,fg),u.rawrigidbodyset_rbRecomputeMassPropertiesFromColliders(this.__wbg_ptr,A,I.__wbg_ptr)}rbSetAdditionalMass(A,I,C){u.rawrigidbodyset_rbSetAdditionalMass(this.__wbg_ptr,A,I,C)}rbSetAdditionalMassProperties(A,I,C,B,i,Q){j(C,iA),j(B,iA),j(i,ZI),u.rawrigidbodyset_rbSetAdditionalMassProperties(this.__wbg_ptr,A,I,C.__wbg_ptr,B.__wbg_ptr,i.__wbg_ptr,Q)}rbLinvel(A){const I=u.rawrigidbodyset_rbLinvel(this.__wbg_ptr,A);return iA.__wrap(I)}rbAngvel(A){const I=u.rawrigidbodyset_rbAngvel(this.__wbg_ptr,A);return iA.__wrap(I)}rbLockTranslations(A,I,C){u.rawrigidbodyset_rbLockTranslations(this.__wbg_ptr,A,I,C)}rbSetEnabledTranslations(A,I,C,B,i){u.rawrigidbodyset_rbSetEnabledTranslations(this.__wbg_ptr,A,I,C,B,i)}rbLockRotations(A,I,C){u.rawrigidbodyset_rbLockRotations(this.__wbg_ptr,A,I,C)}rbSetEnabledRotations(A,I,C,B,i){u.rawrigidbodyset_rbSetEnabledRotations(this.__wbg_ptr,A,I,C,B,i)}rbDominanceGroup(A){return u.rawrigidbodyset_rbDominanceGroup(this.__wbg_ptr,A)}rbSetDominanceGroup(A,I){u.rawrigidbodyset_rbSetDominanceGroup(this.__wbg_ptr,A,I)}rbEnableCcd(A,I){u.rawrigidbodyset_rbEnableCcd(this.__wbg_ptr,A,I)}rbSetSoftCcdPrediction(A,I){u.rawrigidbodyset_rbSetSoftCcdPrediction(this.__wbg_ptr,A,I)}rbMass(A){return u.rawrigidbodyset_rbMass(this.__wbg_ptr,A)}rbInvMass(A){return u.rawrigidbodyset_rbInvMass(this.__wbg_ptr,A)}rbEffectiveInvMass(A){const I=u.rawrigidbodyset_rbEffectiveInvMass(this.__wbg_ptr,A);return iA.__wrap(I)}rbLocalCom(A){const I=u.rawrigidbodyset_rbLocalCom(this.__wbg_ptr,A);return iA.__wrap(I)}rbWorldCom(A){const I=u.rawrigidbodyset_rbWorldCom(this.__wbg_ptr,A);return iA.__wrap(I)}rbInvPrincipalInertiaSqrt(A){const I=u.rawrigidbodyset_rbInvPrincipalInertiaSqrt(this.__wbg_ptr,A);return iA.__wrap(I)}rbPrincipalInertiaLocalFrame(A){const I=u.rawrigidbodyset_rbPrincipalInertiaLocalFrame(this.__wbg_ptr,A);return ZI.__wrap(I)}rbPrincipalInertia(A){const I=u.rawrigidbodyset_rbPrincipalInertia(this.__wbg_ptr,A);return iA.__wrap(I)}rbEffectiveWorldInvInertiaSqrt(A){const I=u.rawrigidbodyset_rbEffectiveWorldInvInertiaSqrt(this.__wbg_ptr,A);return Yl.__wrap(I)}rbEffectiveAngularInertia(A){const I=u.rawrigidbodyset_rbEffectiveAngularInertia(this.__wbg_ptr,A);return Yl.__wrap(I)}rbWakeUp(A){u.rawrigidbodyset_rbWakeUp(this.__wbg_ptr,A)}rbIsCcdEnabled(A){return u.rawrigidbodyset_rbIsCcdEnabled(this.__wbg_ptr,A)!==0}rbSoftCcdPrediction(A){return u.rawrigidbodyset_rbSoftCcdPrediction(this.__wbg_ptr,A)}rbNumColliders(A){return u.rawrigidbodyset_rbNumColliders(this.__wbg_ptr,A)>>>0}rbCollider(A,I){return u.rawrigidbodyset_rbCollider(this.__wbg_ptr,A,I)}rbBodyType(A){return u.rawrigidbodyset_rbBodyType(this.__wbg_ptr,A)}rbSetBodyType(A,I,C){u.rawrigidbodyset_rbSetBodyType(this.__wbg_ptr,A,I,C)}rbIsFixed(A){return u.rawrigidbodyset_rbIsFixed(this.__wbg_ptr,A)!==0}rbIsKinematic(A){return u.rawrigidbodyset_rbIsKinematic(this.__wbg_ptr,A)!==0}rbIsDynamic(A){return u.rawrigidbodyset_rbIsDynamic(this.__wbg_ptr,A)!==0}rbLinearDamping(A){return u.rawrigidbodyset_rbLinearDamping(this.__wbg_ptr,A)}rbAngularDamping(A){return u.rawrigidbodyset_rbAngularDamping(this.__wbg_ptr,A)}rbSetLinearDamping(A,I){u.rawrigidbodyset_rbSetLinearDamping(this.__wbg_ptr,A,I)}rbSetAngularDamping(A,I){u.rawrigidbodyset_rbSetAngularDamping(this.__wbg_ptr,A,I)}rbSetEnabled(A,I){u.rawrigidbodyset_rbSetEnabled(this.__wbg_ptr,A,I)}rbIsEnabled(A){return u.rawrigidbodyset_rbIsEnabled(this.__wbg_ptr,A)!==0}rbGravityScale(A){return u.rawrigidbodyset_rbGravityScale(this.__wbg_ptr,A)}rbSetGravityScale(A,I,C){u.rawrigidbodyset_rbSetGravityScale(this.__wbg_ptr,A,I,C)}rbResetForces(A,I){u.rawrigidbodyset_rbResetForces(this.__wbg_ptr,A,I)}rbResetTorques(A,I){u.rawrigidbodyset_rbResetTorques(this.__wbg_ptr,A,I)}rbAddForce(A,I,C){j(I,iA),u.rawrigidbodyset_rbAddForce(this.__wbg_ptr,A,I.__wbg_ptr,C)}rbApplyImpulse(A,I,C){j(I,iA),u.rawrigidbodyset_rbApplyImpulse(this.__wbg_ptr,A,I.__wbg_ptr,C)}rbAddTorque(A,I,C){j(I,iA),u.rawrigidbodyset_rbAddTorque(this.__wbg_ptr,A,I.__wbg_ptr,C)}rbApplyTorqueImpulse(A,I,C){j(I,iA),u.rawrigidbodyset_rbApplyTorqueImpulse(this.__wbg_ptr,A,I.__wbg_ptr,C)}rbAddForceAtPoint(A,I,C,B){j(I,iA),j(C,iA),u.rawrigidbodyset_rbAddForceAtPoint(this.__wbg_ptr,A,I.__wbg_ptr,C.__wbg_ptr,B)}rbApplyImpulseAtPoint(A,I,C,B){j(I,iA),j(C,iA),u.rawrigidbodyset_rbApplyImpulseAtPoint(this.__wbg_ptr,A,I.__wbg_ptr,C.__wbg_ptr,B)}rbAdditionalSolverIterations(A){return u.rawrigidbodyset_rbAdditionalSolverIterations(this.__wbg_ptr,A)>>>0}rbSetAdditionalSolverIterations(A,I){u.rawrigidbodyset_rbSetAdditionalSolverIterations(this.__wbg_ptr,A,I)}rbUserData(A){return u.rawrigidbodyset_rbUserData(this.__wbg_ptr,A)>>>0}rbSetUserData(A,I){u.rawrigidbodyset_rbSetUserData(this.__wbg_ptr,A,I)}constructor(){const A=u.rawrigidbodyset_new();return this.__wbg_ptr=A>>>0,this}createRigidBody(A,I,C,B,i,Q,E,e,n,a,s,r,D,c,y,S,l,w,k,U,f,F,J,q,K,N){return j(I,iA),j(C,ZI),j(E,iA),j(e,iA),j(n,iA),j(a,iA),j(s,ZI),u.rawrigidbodyset_createRigidBody(this.__wbg_ptr,A,I.__wbg_ptr,C.__wbg_ptr,B,i,Q,E.__wbg_ptr,e.__wbg_ptr,n.__wbg_ptr,a.__wbg_ptr,s.__wbg_ptr,r,D,c,y,S,l,w,k,U,f,F,J,q,K,N)}remove(A,I,C,B,i){j(I,RQ),j(C,fg),j(B,JQ),j(i,fQ),u.rawrigidbodyset_remove(this.__wbg_ptr,A,I.__wbg_ptr,C.__wbg_ptr,B.__wbg_ptr,i.__wbg_ptr)}len(){return u.rawcolliderset_len(this.__wbg_ptr)>>>0}contains(A){return u.rawrigidbodyset_contains(this.__wbg_ptr,A)!==0}forEachRigidBodyHandle(A){try{u.rawrigidbodyset_forEachRigidBodyHandle(this.__wbg_ptr,Fg(A))}finally{Ag[Sg++]=void 0}}propagateModifiedBodyPositionsToColliders(A){j(A,fg),u.rawrigidbodyset_propagateModifiedBodyPositionsToColliders(this.__wbg_ptr,A.__wbg_ptr)}}class ZI{static __wrap(A){A>>>=0;const I=Object.create(ZI.prototype);return I.__wbg_ptr=A,I}__destroy_into_raw(){const A=this.__wbg_ptr;return this.__wbg_ptr=0,A}free(){const A=this.__destroy_into_raw();u.__wbg_rawrotation_free(A)}constructor(A,I,C,B){const i=u.rawrotation_new(A,I,C,B);return this.__wbg_ptr=i>>>0,this}static identity(){const A=u.rawrotation_identity();return ZI.__wrap(A)}get x(){return u.rawrotation_x(this.__wbg_ptr)}get y(){return u.rawintegrationparameters_dt(this.__wbg_ptr)}get z(){return u.rawcollidershapecasthit_time_of_impact(this.__wbg_ptr)}get w(){return u.rawintegrationparameters_erp(this.__wbg_ptr)}}class Yl{static __wrap(A){A>>>=0;const I=Object.create(Yl.prototype);return I.__wbg_ptr=A,I}__destroy_into_raw(){const A=this.__wbg_ptr;return this.__wbg_ptr=0,A}free(){const A=this.__destroy_into_raw();u.__wbg_rawsdpmatrix3_free(A)}elements(){return Wa(u.rawsdpmatrix3_elements(this.__wbg_ptr))}}class k4{__destroy_into_raw(){const A=this.__wbg_ptr;return this.__wbg_ptr=0,A}free(){const A=this.__destroy_into_raw();u.__wbg_rawserializationpipeline_free(A)}constructor(){const A=u.rawserializationpipeline_new();return this.__wbg_ptr=A>>>0,this}serializeAll(A,I,C,B,i,Q,E,e,n){return j(A,iA),j(I,We),j(C,RQ),j(B,Pe),j(i,JE),j(Q,vg),j(E,fg),j(e,JQ),j(n,fQ),Wa(u.rawserializationpipeline_serializeAll(this.__wbg_ptr,A.__wbg_ptr,I.__wbg_ptr,C.__wbg_ptr,B.__wbg_ptr,i.__wbg_ptr,Q.__wbg_ptr,E.__wbg_ptr,e.__wbg_ptr,n.__wbg_ptr))}deserializeAll(A){const I=u.rawserializationpipeline_deserializeAll(this.__wbg_ptr,IC(A));return I===0?void 0:mM.__wrap(I)}}class yI{static __wrap(A){A>>>=0;const I=Object.create(yI.prototype);return 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this.elements[0]}get m12(){return this.elements[1]}get m21(){return this.m12}get m13(){return this.elements[2]}get m31(){return this.m13}get m22(){return this.elements[3]}get m23(){return this.elements[4]}get m32(){return this.m23}get m33(){return this.elements[5]}}class Ll{static fromRaw(A){const I=new TM(A.elements());return A.free(),I}}var VB,cC,Hl,Tl,mo,Ve,jg,xl,vl,Ol,kQ,za,bl,Xa,rE;(function(g){g[g.Dynamic=0]="Dynamic",g[g.Fixed=1]="Fixed",g[g.KinematicPositionBased=2]="KinematicPositionBased",g[g.KinematicVelocityBased=3]="KinematicVelocityBased"})(VB||(VB={}));class _l{constructor(A,I,C){this.rawSet=A,this.colliderSet=I,this.handle=C}finalizeDeserialization(A){this.colliderSet=A}isValid(){return this.rawSet.contains(this.handle)}lockTranslations(A,I){return this.rawSet.rbLockTranslations(this.handle,A,I)}lockRotations(A,I){return this.rawSet.rbLockRotations(this.handle,A,I)}setEnabledTranslations(A,I,C,B){return this.rawSet.rbSetEnabledTranslations(this.handle,A,I,C,B)}restrictTranslations(A,I,C,B){this.setEnabledTranslations(A,I,C,B)}setEnabledRotations(A,I,C,B){return this.rawSet.rbSetEnabledRotations(this.handle,A,I,C,B)}restrictRotations(A,I,C,B){this.setEnabledRotations(A,I,C,B)}dominanceGroup(){return this.rawSet.rbDominanceGroup(this.handle)}setDominanceGroup(A){this.rawSet.rbSetDominanceGroup(this.handle,A)}additionalSolverIterations(){return this.rawSet.rbAdditionalSolverIterations(this.handle)}setAdditionalSolverIterations(A){this.rawSet.rbSetAdditionalSolverIterations(this.handle,A)}enableCcd(A){this.rawSet.rbEnableCcd(this.handle,A)}setSoftCcdPrediction(A){this.rawSet.rbSetSoftCcdPrediction(this.handle,A)}softCcdPrediction(){return this.rawSet.rbSoftCcdPrediction(this.handle)}translation(){let A=this.rawSet.rbTranslation(this.handle);return CA.fromRaw(A)}rotation(){let A=this.rawSet.rbRotation(this.handle);return HI.fromRaw(A)}nextTranslation(){let 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CA.fromRaw(this.rawSet.rbEffectiveInvMass(this.handle))}invMass(){return this.rawSet.rbInvMass(this.handle)}localCom(){return CA.fromRaw(this.rawSet.rbLocalCom(this.handle))}worldCom(){return CA.fromRaw(this.rawSet.rbWorldCom(this.handle))}invPrincipalInertiaSqrt(){return CA.fromRaw(this.rawSet.rbInvPrincipalInertiaSqrt(this.handle))}principalInertia(){return CA.fromRaw(this.rawSet.rbPrincipalInertia(this.handle))}principalInertiaLocalFrame(){return HI.fromRaw(this.rawSet.rbPrincipalInertiaLocalFrame(this.handle))}effectiveWorldInvInertiaSqrt(){return Ll.fromRaw(this.rawSet.rbEffectiveWorldInvInertiaSqrt(this.handle))}effectiveAngularInertia(){return Ll.fromRaw(this.rawSet.rbEffectiveAngularInertia(this.handle))}sleep(){this.rawSet.rbSleep(this.handle)}wakeUp(){this.rawSet.rbWakeUp(this.handle)}isCcdEnabled(){return this.rawSet.rbIsCcdEnabled(this.handle)}numColliders(){return this.rawSet.rbNumColliders(this.handle)}collider(A){return this.colliderSet.get(this.rawSet.rbCollider(this.handle,A))}setEnabled(A){this.rawSet.rbSetEnabled(this.handle,A)}isEnabled(){return this.rawSet.rbIsEnabled(this.handle)}bodyType(){return this.rawSet.rbBodyType(this.handle)}setBodyType(A,I){return this.rawSet.rbSetBodyType(this.handle,A,I)}isSleeping(){return this.rawSet.rbIsSleeping(this.handle)}isMoving(){return this.rawSet.rbIsMoving(this.handle)}isFixed(){return this.rawSet.rbIsFixed(this.handle)}isKinematic(){return this.rawSet.rbIsKinematic(this.handle)}isDynamic(){return this.rawSet.rbIsDynamic(this.handle)}linearDamping(){return this.rawSet.rbLinearDamping(this.handle)}angularDamping(){return this.rawSet.rbAngularDamping(this.handle)}setLinearDamping(A){this.rawSet.rbSetLinearDamping(this.handle,A)}recomputeMassPropertiesFromColliders(){this.rawSet.rbRecomputeMassPropertiesFromColliders(this.handle,this.colliderSet.raw)}setAdditionalMass(A,I){this.rawSet.rbSetAdditionalMass(this.handle,A,I)}setAdditionalMassProperties(A,I,C,B,i){let Q=CA.intoRaw(I),E=CA.intoRaw(C),e=HI.intoRaw(B);this.rawSet.rbSetAdditionalMassProperties(this.handle,A,Q,E,e,i),Q.free(),E.free(),e.free()}setAngularDamping(A){this.rawSet.rbSetAngularDamping(this.handle,A)}resetForces(A){this.rawSet.rbResetForces(this.handle,A)}resetTorques(A){this.rawSet.rbResetTorques(this.handle,A)}addForce(A,I){const C=CA.intoRaw(A);this.rawSet.rbAddForce(this.handle,C,I),C.free()}applyImpulse(A,I){const C=CA.intoRaw(A);this.rawSet.rbApplyImpulse(this.handle,C,I),C.free()}addTorque(A,I){const C=CA.intoRaw(A);this.rawSet.rbAddTorque(this.handle,C,I),C.free()}applyTorqueImpulse(A,I){const C=CA.intoRaw(A);this.rawSet.rbApplyTorqueImpulse(this.handle,C,I),C.free()}addForceAtPoint(A,I,C){const B=CA.intoRaw(A),i=CA.intoRaw(I);this.rawSet.rbAddForceAtPoint(this.handle,B,i,C),B.free(),i.free()}applyImpulseAtPoint(A,I,C){const B=CA.intoRaw(A),i=CA.intoRaw(I);this.rawSet.rbApplyImpulseAtPoint(this.handle,B,i,C),B.free(),i.free()}}class jB{constructor(A){this.enabled=!0,this.status=A,this.translation=CA.zeros(),this.rotation=HI.identity(),this.gravityScale=1,this.linvel=CA.zeros(),this.mass=0,this.massOnly=!1,this.centerOfMass=CA.zeros(),this.translationsEnabledX=!0,this.translationsEnabledY=!0,this.angvel=CA.zeros(),this.principalAngularInertia=CA.zeros(),this.angularInertiaLocalFrame=HI.identity(),this.translationsEnabledZ=!0,this.rotationsEnabledX=!0,this.rotationsEnabledY=!0,this.rotationsEnabledZ=!0,this.linearDamping=0,this.angularDamping=0,this.canSleep=!0,this.sleeping=!1,this.ccdEnabled=!1,this.softCcdPrediction=0,this.dominanceGroup=0,this.additionalSolverIterations=0}static dynamic(){return new jB(VB.Dynamic)}static kinematicPositionBased(){return new jB(VB.KinematicPositionBased)}static kinematicVelocityBased(){return new jB(VB.KinematicVelocityBased)}static fixed(){return new jB(VB.Fixed)}static newDynamic(){return new jB(VB.Dynamic)}static newKinematicPositionBased(){return new jB(VB.KinematicPositionBased)}static newKinematicVelocityBased(){return new jB(VB.KinematicVelocityBased)}static newStatic(){return new jB(VB.Fixed)}setDominanceGroup(A){return this.dominanceGroup=A,this}setAdditionalSolverIterations(A){return this.additionalSolverIterations=A,this}setEnabled(A){return this.enabled=A,this}setTranslation(A,I,C){if(typeof A!="number"||typeof I!="number"||typeof C!="number")throw TypeError("The translation components must be numbers.");return this.translation={x:A,y:I,z:C},this}setRotation(A){return HI.copy(this.rotation,A),this}setGravityScale(A){return this.gravityScale=A,this}setAdditionalMass(A){return this.mass=A,this.massOnly=!0,this}setLinvel(A,I,C){if(typeof A!="number"||typeof I!="number"||typeof C!="number")throw TypeError("The linvel components must be numbers.");return this.linvel={x:A,y:I,z:C},this}setAngvel(A){return CA.copy(this.angvel,A),this}setAdditionalMassProperties(A,I,C,B){return this.mass=A,CA.copy(this.centerOfMass,I),CA.copy(this.principalAngularInertia,C),HI.copy(this.angularInertiaLocalFrame,B),this.massOnly=!1,this}enabledTranslations(A,I,C){return this.translationsEnabledX=A,this.translationsEnabledY=I,this.translationsEnabledZ=C,this}restrictTranslations(A,I,C){return this.enabledTranslations(A,I,C)}lockTranslations(){return this.enabledTranslations(!1,!1,!1)}enabledRotations(A,I,C){return this.rotationsEnabledX=A,this.rotationsEnabledY=I,this.rotationsEnabledZ=C,this}restrictRotations(A,I,C){return this.enabledRotations(A,I,C)}lockRotations(){return this.restrictRotations(!1,!1,!1)}setLinearDamping(A){return this.linearDamping=A,this}setAngularDamping(A){return this.angularDamping=A,this}setCanSleep(A){return this.canSleep=A,this}setSleeping(A){return this.sleeping=A,this}setCcdEnabled(A){return this.ccdEnabled=A,this}setSoftCcdPrediction(A){return this.softCcdPrediction=A,this}setUserData(A){return this.userData=A,this}}class Zh{constructor(){this.fconv=new Float64Array(1),this.uconv=new Uint32Array(this.fconv.buffer),this.data=new Array,this.size=0}set(A,I){let C=this.index(A);for(;this.data.length<=C;)this.data.push(null);this.data[C]==null&&(this.size+=1),this.data[C]=I}len(){return this.size}delete(A){let I=this.index(A);I<this.data.length&&(this.data[I]!=null&&(this.size-=1),this.data[I]=null)}clear(){this.data=new Array}get(A){let I=this.index(A);return I<this.data.length?this.data[I]:null}forEach(A){for(const I of this.data)I!=null&&A(I)}getAll(){return this.data.filter(A=>A!=null)}index(A){return this.fconv[0]=A,this.uconv[0]}}class xM{constructor(A){this.raw=A||new vg,this.map=new Zh,A&&A.forEachRigidBodyHandle(I=>{this.map.set(I,new _l(A,null,I))})}free(){this.raw&&this.raw.free(),this.raw=void 0,this.map&&this.map.clear(),this.map=void 0}finalizeDeserialization(A){this.map.forEach(I=>I.finalizeDeserialization(A))}createRigidBody(A,I){let C=CA.intoRaw(I.translation),B=HI.intoRaw(I.rotation),i=CA.intoRaw(I.linvel),Q=CA.intoRaw(I.centerOfMass),E=CA.intoRaw(I.angvel),e=CA.intoRaw(I.principalAngularInertia),n=HI.intoRaw(I.angularInertiaLocalFrame),a=this.raw.createRigidBody(I.enabled,C,B,I.gravityScale,I.mass,I.massOnly,Q,i,E,e,n,I.translationsEnabledX,I.translationsEnabledY,I.translationsEnabledZ,I.rotationsEnabledX,I.rotationsEnabledY,I.rotationsEnabledZ,I.linearDamping,I.angularDamping,I.status,I.canSleep,I.sleeping,I.softCcdPrediction,I.ccdEnabled,I.dominanceGroup,I.additionalSolverIterations);C.free(),B.free(),i.free(),Q.free(),E.free(),e.free(),n.free();const s=new _l(this.raw,A,a);return s.userData=I.userData,this.map.set(a,s),s}remove(A,I,C,B,i){for(let Q=0;Q<this.raw.rbNumColliders(A);Q+=1)C.unmap(this.raw.rbCollider(A,Q));B.forEachJointHandleAttachedToRigidBody(A,Q=>B.unmap(Q)),i.forEachJointHandleAttachedToRigidBody(A,Q=>i.unmap(Q)),this.raw.remove(A,I.raw,C.raw,B.raw,i.raw),this.map.delete(A)}len(){return this.map.len()}contains(A){return this.get(A)!=null}get(A){return this.map.get(A)}forEach(A){this.map.forEach(A)}forEachActiveRigidBody(A,I){A.forEachActiveRigidBodyHandle(C=>{I(this.get(C))})}getAll(){return this.map.getAll()}}class vM{constructor(A){this.raw=A||new We}free(){this.raw&&this.raw.free(),this.raw=void 0}get dt(){return this.raw.dt}get erp(){return this.raw.erp}get lengthUnit(){return this.raw.lengthUnit}get normalizedAllowedLinearError(){return this.raw.normalizedAllowedLinearError}get normalizedPredictionDistance(){return this.raw.normalizedPredictionDistance}get numSolverIterations(){return this.raw.numSolverIterations}get numAdditionalFrictionIterations(){return this.raw.numAdditionalFrictionIterations}get numInternalPgsIterations(){return this.raw.numInternalPgsIterations}get minIslandSize(){return this.raw.minIslandSize}get maxCcdSubsteps(){return this.raw.maxCcdSubsteps}set dt(A){this.raw.dt=A}set erp(A){this.raw.erp=A}set lengthUnit(A){this.raw.lengthUnit=A}set normalizedAllowedLinearError(A){this.raw.normalizedAllowedLinearError=A}set normalizedPredictionDistance(A){this.raw.normalizedPredictionDistance=A}set numSolverIterations(A){this.raw.numSolverIterations=A}set numAdditionalFrictionIterations(A){this.raw.numAdditionalFrictionIterations=A}set numInternalPgsIterations(A){this.raw.numInternalPgsIterations=A}set minIslandSize(A){this.raw.minIslandSize=A}set maxCcdSubsteps(A){this.raw.maxCcdSubsteps=A}switchToStandardPgsSolver(){this.raw.switchToStandardPgsSolver()}switchToSmallStepsPgsSolver(){this.raw.switchToSmallStepsPgsSolver()}switchToSmallStepsPgsSolverWithoutWarmstart(){this.raw.switchToSmallStepsPgsSolverWithoutWarmstart()}}(function(g){g[g.Revolute=0]="Revolute",g[g.Fixed=1]="Fixed",g[g.Prismatic=2]="Prismatic",g[g.Rope=3]="Rope",g[g.Spring=4]="Spring",g[g.Spherical=5]="Spherical",g[g.Generic=6]="Generic"})(cC||(cC={})),function(g){g[g.AccelerationBased=0]="AccelerationBased",g[g.ForceBased=1]="ForceBased"}(Hl||(Hl={})),function(g){g[g.X=1]="X",g[g.Y=2]="Y",g[g.Z=4]="Z",g[g.AngX=8]="AngX",g[g.AngY=16]="AngY",g[g.AngZ=32]="AngZ"}(Tl||(Tl={}));class Qi{constructor(A,I,C){this.rawSet=A,this.bodySet=I,this.handle=C}static newTyped(A,I,C){switch(A.jointType(C)){case Si.Revolute:return new PM(A,I,C);case Si.Prismatic:return new ZM(A,I,C);case Si.Fixed:return new OM(A,I,C);case Si.Spring:return new _M(A,I,C);case Si.Rope:return new bM(A,I,C);case Si.Spherical:return new VM(A,I,C);case Si.Generic:return new WM(A,I,C);default:return new Qi(A,I,C)}}finalizeDeserialization(A){this.bodySet=A}isValid(){return this.rawSet.contains(this.handle)}body1(){return this.bodySet.get(this.rawSet.jointBodyHandle1(this.handle))}body2(){return this.bodySet.get(this.rawSet.jointBodyHandle2(this.handle))}type(){return this.rawSet.jointType(this.handle)}frameX1(){return HI.fromRaw(this.rawSet.jointFrameX1(this.handle))}frameX2(){return HI.fromRaw(this.rawSet.jointFrameX2(this.handle))}anchor1(){return CA.fromRaw(this.rawSet.jointAnchor1(this.handle))}anchor2(){return CA.fromRaw(this.rawSet.jointAnchor2(this.handle))}setAnchor1(A){const I=CA.intoRaw(A);this.rawSet.jointSetAnchor1(this.handle,I),I.free()}setAnchor2(A){const I=CA.intoRaw(A);this.rawSet.jointSetAnchor2(this.handle,I),I.free()}setContactsEnabled(A){this.rawSet.jointSetContactsEnabled(this.handle,A)}contactsEnabled(){return this.rawSet.jointContactsEnabled(this.handle)}}class Ph extends Qi{limitsEnabled(){return this.rawSet.jointLimitsEnabled(this.handle,this.rawAxis())}limitsMin(){return this.rawSet.jointLimitsMin(this.handle,this.rawAxis())}limitsMax(){return this.rawSet.jointLimitsMax(this.handle,this.rawAxis())}setLimits(A,I){this.rawSet.jointSetLimits(this.handle,this.rawAxis(),A,I)}configureMotorModel(A){this.rawSet.jointConfigureMotorModel(this.handle,this.rawAxis(),A)}configureMotorVelocity(A,I){this.rawSet.jointConfigureMotorVelocity(this.handle,this.rawAxis(),A,I)}configureMotorPosition(A,I,C){this.rawSet.jointConfigureMotorPosition(this.handle,this.rawAxis(),A,I,C)}configureMotor(A,I,C,B){this.rawSet.jointConfigureMotor(this.handle,this.rawAxis(),A,I,C,B)}}class OM extends Qi{}class bM extends Qi{}class _M extends Qi{}class ZM extends Ph{rawAxis(){return Th.X}}class PM extends Ph{rawAxis(){return Th.AngX}}class WM extends Qi{}class VM extends Qi{}class vi{constructor(){}static fixed(A,I,C,B){let i=new vi;return i.anchor1=A,i.anchor2=C,i.frame1=I,i.frame2=B,i.jointType=cC.Fixed,i}static spring(A,I,C,B,i){let Q=new vi;return Q.anchor1=B,Q.anchor2=i,Q.length=A,Q.stiffness=I,Q.damping=C,Q.jointType=cC.Spring,Q}static rope(A,I,C){let B=new vi;return B.anchor1=I,B.anchor2=C,B.length=A,B.jointType=cC.Rope,B}static generic(A,I,C,B){let i=new vi;return i.anchor1=A,i.anchor2=I,i.axis=C,i.axesMask=B,i.jointType=cC.Generic,i}static spherical(A,I){let C=new vi;return C.anchor1=A,C.anchor2=I,C.jointType=cC.Spherical,C}static prismatic(A,I,C){let B=new vi;return B.anchor1=A,B.anchor2=I,B.axis=C,B.jointType=cC.Prismatic,B}static revolute(A,I,C){let B=new vi;return B.anchor1=A,B.anchor2=I,B.axis=C,B.jointType=cC.Revolute,B}intoRaw(){let A,I,C=CA.intoRaw(this.anchor1),B=CA.intoRaw(this.anchor2),i=!1,Q=0,E=0;switch(this.jointType){case cC.Fixed:let e=HI.intoRaw(this.frame1),n=HI.intoRaw(this.frame2);I=wC.fixed(C,e,B,n),e.free(),n.free();break;case cC.Spring:I=wC.spring(this.length,this.stiffness,this.damping,C,B);break;case cC.Rope:I=wC.rope(this.length,C,B);break;case cC.Prismatic:A=CA.intoRaw(this.axis),this.limitsEnabled&&(i=!0,Q=this.limits[0],E=this.limits[1]),I=wC.prismatic(C,B,A,i,Q,E),A.free();break;case cC.Generic:A=CA.intoRaw(this.axis);let a=this.axesMask;I=wC.generic(C,B,A,a);break;case cC.Spherical:I=wC.spherical(C,B);break;case cC.Revolute:A=CA.intoRaw(this.axis),I=wC.revolute(C,B,A),A.free()}return C.free(),B.free(),I}}class jM{constructor(A){this.raw=A||new JQ,this.map=new Zh,A&&A.forEachJointHandle(I=>{this.map.set(I,Qi.newTyped(A,null,I))})}free(){this.raw&&this.raw.free(),this.raw=void 0,this.map&&this.map.clear(),this.map=void 0}finalizeDeserialization(A){this.map.forEach(I=>I.finalizeDeserialization(A))}createJoint(A,I,C,B,i){const Q=I.intoRaw(),E=this.raw.createJoint(Q,C,B,i);Q.free();let e=Qi.newTyped(this.raw,A,E);return this.map.set(E,e),e}remove(A,I){this.raw.remove(A,I),this.unmap(A)}forEachJointHandleAttachedToRigidBody(A,I){this.raw.forEachJointAttachedToRigidBody(A,I)}unmap(A){this.map.delete(A)}len(){return this.map.len()}contains(A){return this.get(A)!=null}get(A){return this.map.get(A)}forEach(A){this.map.forEach(A)}getAll(){return this.map.getAll()}}class qQ{constructor(A,I){this.rawSet=A,this.handle=I}static newTyped(A,I){switch(A.jointType(I)){case Si.Revolute:return new $M(A,I);case Si.Prismatic:return new XM(A,I);case Si.Fixed:return new zM(A,I);case Si.Spherical:return new A0(A,I);default:return new qQ(A,I)}}isValid(){return this.rawSet.contains(this.handle)}setContactsEnabled(A){this.rawSet.jointSetContactsEnabled(this.handle,A)}contactsEnabled(){return this.rawSet.jointContactsEnabled(this.handle)}}class Wh extends qQ{}class zM extends qQ{}class XM extends Wh{rawAxis(){return Th.X}}class $M extends Wh{rawAxis(){return Th.AngX}}class A0 extends qQ{}class I0{constructor(A){this.raw=A||new fQ,this.map=new Zh,A&&A.forEachJointHandle(I=>{this.map.set(I,qQ.newTyped(this.raw,I))})}free(){this.raw&&this.raw.free(),this.raw=void 0,this.map&&this.map.clear(),this.map=void 0}createJoint(A,I,C,B){const i=A.intoRaw(),Q=this.raw.createJoint(i,I,C,B);i.free();let E=qQ.newTyped(this.raw,Q);return this.map.set(Q,E),E}remove(A,I){this.raw.remove(A,I),this.map.delete(A)}unmap(A){this.map.delete(A)}len(){return this.map.len()}contains(A){return this.get(A)!=null}get(A){return this.map.get(A)}forEach(A){this.map.forEach(A)}forEachJointHandleAttachedToRigidBody(A,I){this.raw.forEachJointAttachedToRigidBody(A,I)}getAll(){return this.map.getAll()}}(function(g){g[g.Average=0]="Average",g[g.Min=1]="Min",g[g.Multiply=2]="Multiply",g[g.Max=3]="Max"})(mo||(mo={}));class g0{constructor(A){this.raw=A||new fy}free(){this.raw&&this.raw.free(),this.raw=void 0}}class C0{constructor(A){this.raw=A||new RQ}free(){this.raw&&this.raw.free(),this.raw=void 0}forEachActiveRigidBodyHandle(A){this.raw.forEachActiveRigidBodyHandle(A)}}class B0{constructor(A){this.raw=A||new Pe}free(){this.raw&&this.raw.free(),this.raw=void 0}}class i0{constructor(A){this.raw=A||new JE,this.tempManifold=new Q0(null)}free(){this.raw&&this.raw.free(),this.raw=void 0}contactPairsWith(A,I){this.raw.contact_pairs_with(A,I)}intersectionPairsWith(A,I){this.raw.intersection_pairs_with(A,I)}contactPair(A,I,C){const B=this.raw.contact_pair(A,I);if(B){const i=B.collider1()!=A;let Q;for(Q=0;Q<B.numContactManifolds();++Q)this.tempManifold.raw=B.contactManifold(Q),this.tempManifold.raw&&C(this.tempManifold,i),this.tempManifold.free();B.free()}}intersectionPair(A,I){return this.raw.intersection_pair(A,I)}}class Q0{constructor(A){this.raw=A}free(){this.raw&&this.raw.free(),this.raw=void 0}normal(){return CA.fromRaw(this.raw.normal())}localNormal1(){return CA.fromRaw(this.raw.local_n1())}localNormal2(){return CA.fromRaw(this.raw.local_n2())}subshape1(){return this.raw.subshape1()}subshape2(){return this.raw.subshape2()}numContacts(){return this.raw.num_contacts()}localContactPoint1(A){return CA.fromRaw(this.raw.contact_local_p1(A))}localContactPoint2(A){return CA.fromRaw(this.raw.contact_local_p2(A))}contactDist(A){return this.raw.contact_dist(A)}contactFid1(A){return this.raw.contact_fid1(A)}contactFid2(A){return this.raw.contact_fid2(A)}contactImpulse(A){return this.raw.contact_impulse(A)}contactTangentImpulseX(A){return this.raw.contact_tangent_impulse_x(A)}contactTangentImpulseY(A){return this.raw.contact_tangent_impulse_y(A)}numSolverContacts(){return this.raw.num_solver_contacts()}solverContactPoint(A){return CA.fromRaw(this.raw.solver_contact_point(A))}solverContactDist(A){return this.raw.solver_contact_dist(A)}solverContactFriction(A){return this.raw.solver_contact_friction(A)}solverContactRestitution(A){return this.raw.solver_contact_restitution(A)}solverContactTangentVelocity(A){return CA.fromRaw(this.raw.solver_contact_tangent_velocity(A))}}class je{constructor(A,I,C,B,i){this.distance=A,this.point1=I,this.point2=C,this.normal1=B,this.normal2=i}static fromRaw(A){if(!A)return null;const I=new je(A.distance(),CA.fromRaw(A.point1()),CA.fromRaw(A.point2()),CA.fromRaw(A.normal1()),CA.fromRaw(A.normal2()));return A.free(),I}}(function(g){g[g.Vertex=0]="Vertex",g[g.Edge=1]="Edge",g[g.Face=2]="Face",g[g.Unknown=3]="Unknown"})(Ve||(Ve={}));class Wo{constructor(A,I){this.point=A,this.isInside=I}static fromRaw(A){if(!A)return null;const I=new Wo(CA.fromRaw(A.point()),A.isInside());return A.free(),I}}class Lo{constructor(A,I,C,B,i){this.featureType=Ve.Unknown,this.featureId=void 0,this.collider=A,this.point=I,this.isInside=C,i!==void 0&&(this.featureId=i),B!==void 0&&(this.featureType=B)}static fromRaw(A,I){if(!I)return null;const C=new Lo(A.get(I.colliderHandle()),CA.fromRaw(I.point()),I.isInside(),I.featureType(),I.featureId());return I.free(),C}}class pf{constructor(A,I){this.origin=A,this.dir=I}pointAt(A){return{x:this.origin.x+this.dir.x*A,y:this.origin.y+this.dir.y*A,z:this.origin.z+this.dir.z*A}}}class Vo{constructor(A,I,C,B){this.featureType=Ve.Unknown,this.featureId=void 0,this.timeOfImpact=A,this.normal=I,B!==void 0&&(this.featureId=B),C!==void 0&&(this.featureType=C)}static fromRaw(A){if(!A)return null;const I=new Vo(A.time_of_impact(),CA.fromRaw(A.normal()),A.featureType(),A.featureId());return A.free(),I}}class Ho{constructor(A,I,C,B,i){this.featureType=Ve.Unknown,this.featureId=void 0,this.collider=A,this.timeOfImpact=I,this.normal=C,i!==void 0&&(this.featureId=i),B!==void 0&&(this.featureType=B)}static fromRaw(A,I){if(!I)return null;const C=new Ho(A.get(I.colliderHandle()),I.time_of_impact(),CA.fromRaw(I.normal()),I.featureType(),I.featureId());return I.free(),C}}class ks{constructor(A,I){this.collider=A,this.timeOfImpact=I}static fromRaw(A,I){if(!I)return null;const C=new ks(A.get(I.colliderHandle()),I.timeOfImpact());return I.free(),C}}class Qt{constructor(A,I,C,B,i){this.time_of_impact=A,this.witness1=I,this.witness2=C,this.normal1=B,this.normal2=i}static fromRaw(A,I){if(!I)return null;const C=new Qt(I.time_of_impact(),CA.fromRaw(I.witness1()),CA.fromRaw(I.witness2()),CA.fromRaw(I.normal1()),CA.fromRaw(I.normal2()));return I.free(),C}}class jo extends Qt{constructor(A,I,C,B,i,Q){super(I,C,B,i,Q),this.collider=A}static fromRaw(A,I){if(!I)return null;const C=new jo(A.get(I.colliderHandle()),I.time_of_impact(),CA.fromRaw(I.witness1()),CA.fromRaw(I.witness2()),CA.fromRaw(I.normal1()),CA.fromRaw(I.normal2()));return I.free(),C}}class iC{static fromRaw(A,I){const C=A.coShapeType(I);let B,i,Q,E,e,n,a;switch(C){case MC.Ball:return new Vh(A.coRadius(I));case MC.Cuboid:return B=A.coHalfExtents(I),new jh(B.x,B.y,B.z);case MC.RoundCuboid:return B=A.coHalfExtents(I),i=A.coRoundRadius(I),new zh(B.x,B.y,B.z,i);case MC.Capsule:return e=A.coHalfHeight(I),n=A.coRadius(I),new Xh(e,n);case MC.Segment:return Q=A.coVertices(I),new $h(CA.new(Q[0],Q[1],Q[2]),CA.new(Q[3],Q[4],Q[5]));case MC.Polyline:return Q=A.coVertices(I),E=A.coIndices(I),new gc(Q,E);case MC.Triangle:return Q=A.coVertices(I),new Ac(CA.new(Q[0],Q[1],Q[2]),CA.new(Q[3],Q[4],Q[5]),CA.new(Q[6],Q[7],Q[8]));case MC.RoundTriangle:return Q=A.coVertices(I),i=A.coRoundRadius(I),new Ic(CA.new(Q[0],Q[1],Q[2]),CA.new(Q[3],Q[4],Q[5]),CA.new(Q[6],Q[7],Q[8]),i);case MC.HalfSpace:return a=CA.fromRaw(A.coHalfspaceNormal(I)),new E0(a);case MC.TriMesh:Q=A.coVertices(I),E=A.coIndices(I);const s=A.coTriMeshFlags(I);return new Cc(Q,E,s);case MC.HeightField:const r=A.coHeightfieldScale(I),D=A.coHeightfieldHeights(I),c=A.coHeightfieldNRows(I),y=A.coHeightfieldNCols(I),S=A.coHeightFieldFlags(I);return new Bc(c,y,D,r,S);case MC.ConvexPolyhedron:return Q=A.coVertices(I),E=A.coIndices(I),new $a(Q,E);case MC.RoundConvexPolyhedron:return Q=A.coVertices(I),E=A.coIndices(I),i=A.coRoundRadius(I),new As(Q,E,i);case MC.Cylinder:return e=A.coHalfHeight(I),n=A.coRadius(I),new ic(e,n);case MC.RoundCylinder:return e=A.coHalfHeight(I),n=A.coRadius(I),i=A.coRoundRadius(I),new Qc(e,n,i);case MC.Cone:return e=A.coHalfHeight(I),n=A.coRadius(I),new Ec(e,n);case MC.RoundCone:return e=A.coHalfHeight(I),n=A.coRadius(I),i=A.coRoundRadius(I),new ec(e,n,i);default:throw new Error("unknown shape type: "+C)}}castShape(A,I,C,B,i,Q,E,e,n,a){let s=CA.intoRaw(A),r=HI.intoRaw(I),D=CA.intoRaw(C),c=CA.intoRaw(i),y=HI.intoRaw(Q),S=CA.intoRaw(E),l=this.intoRaw(),w=B.intoRaw(),k=Qt.fromRaw(null,l.castShape(s,r,D,w,c,y,S,e,n,a));return s.free(),r.free(),D.free(),c.free(),y.free(),S.free(),l.free(),w.free(),k}intersectsShape(A,I,C,B,i){let Q=CA.intoRaw(A),E=HI.intoRaw(I),e=CA.intoRaw(B),n=HI.intoRaw(i),a=this.intoRaw(),s=C.intoRaw(),r=a.intersectsShape(Q,E,s,e,n);return Q.free(),E.free(),e.free(),n.free(),a.free(),s.free(),r}contactShape(A,I,C,B,i,Q){let E=CA.intoRaw(A),e=HI.intoRaw(I),n=CA.intoRaw(B),a=HI.intoRaw(i),s=this.intoRaw(),r=C.intoRaw(),D=je.fromRaw(s.contactShape(E,e,r,n,a,Q));return E.free(),e.free(),n.free(),a.free(),s.free(),r.free(),D}containsPoint(A,I,C){let B=CA.intoRaw(A),i=HI.intoRaw(I),Q=CA.intoRaw(C),E=this.intoRaw(),e=E.containsPoint(B,i,Q);return B.free(),i.free(),Q.free(),E.free(),e}projectPoint(A,I,C,B){let i=CA.intoRaw(A),Q=HI.intoRaw(I),E=CA.intoRaw(C),e=this.intoRaw(),n=Wo.fromRaw(e.projectPoint(i,Q,E,B));return i.free(),Q.free(),E.free(),e.free(),n}intersectsRay(A,I,C,B){let i=CA.intoRaw(I),Q=HI.intoRaw(C),E=CA.intoRaw(A.origin),e=CA.intoRaw(A.dir),n=this.intoRaw(),a=n.intersectsRay(i,Q,E,e,B);return i.free(),Q.free(),E.free(),e.free(),n.free(),a}castRay(A,I,C,B,i){let Q=CA.intoRaw(I),E=HI.intoRaw(C),e=CA.intoRaw(A.origin),n=CA.intoRaw(A.dir),a=this.intoRaw(),s=a.castRay(Q,E,e,n,B,i);return Q.free(),E.free(),e.free(),n.free(),a.free(),s}castRayAndGetNormal(A,I,C,B,i){let Q=CA.intoRaw(I),E=HI.intoRaw(C),e=CA.intoRaw(A.origin),n=CA.intoRaw(A.dir),a=this.intoRaw(),s=Vo.fromRaw(a.castRayAndGetNormal(Q,E,e,n,B,i));return Q.free(),E.free(),e.free(),n.free(),a.free(),s}}(function(g){g[g.Ball=0]="Ball",g[g.Cuboid=1]="Cuboid",g[g.Capsule=2]="Capsule",g[g.Segment=3]="Segment",g[g.Polyline=4]="Polyline",g[g.Triangle=5]="Triangle",g[g.TriMesh=6]="TriMesh",g[g.HeightField=7]="HeightField",g[g.ConvexPolyhedron=9]="ConvexPolyhedron",g[g.Cylinder=10]="Cylinder",g[g.Cone=11]="Cone",g[g.RoundCuboid=12]="RoundCuboid",g[g.RoundTriangle=13]="RoundTriangle",g[g.RoundCylinder=14]="RoundCylinder",g[g.RoundCone=15]="RoundCone",g[g.RoundConvexPolyhedron=16]="RoundConvexPolyhedron",g[g.HalfSpace=17]="HalfSpace"})(jg||(jg={})),function(g){g[g.FIX_INTERNAL_EDGES=1]="FIX_INTERNAL_EDGES"}(xl||(xl={})),function(g){g[g.DELETE_BAD_TOPOLOGY_TRIANGLES=4]="DELETE_BAD_TOPOLOGY_TRIANGLES",g[g.ORIENTED=8]="ORIENTED",g[g.MERGE_DUPLICATE_VERTICES=16]="MERGE_DUPLICATE_VERTICES",g[g.DELETE_DEGENERATE_TRIANGLES=32]="DELETE_DEGENERATE_TRIANGLES",g[g.DELETE_DUPLICATE_TRIANGLES=64]="DELETE_DUPLICATE_TRIANGLES",g[g.FIX_INTERNAL_EDGES=152]="FIX_INTERNAL_EDGES"}(vl||(vl={}));class Vh extends iC{constructor(A){super(),this.type=jg.Ball,this.radius=A}intoRaw(){return yI.ball(this.radius)}}class E0 extends iC{constructor(A){super(),this.type=jg.HalfSpace,this.normal=A}intoRaw(){let A=CA.intoRaw(this.normal),I=yI.halfspace(A);return A.free(),I}}class jh extends iC{constructor(A,I,C){super(),this.type=jg.Cuboid,this.halfExtents=CA.new(A,I,C)}intoRaw(){return yI.cuboid(this.halfExtents.x,this.halfExtents.y,this.halfExtents.z)}}class zh extends iC{constructor(A,I,C,B){super(),this.type=jg.RoundCuboid,this.halfExtents=CA.new(A,I,C),this.borderRadius=B}intoRaw(){return yI.roundCuboid(this.halfExtents.x,this.halfExtents.y,this.halfExtents.z,this.borderRadius)}}class Xh extends iC{constructor(A,I){super(),this.type=jg.Capsule,this.halfHeight=A,this.radius=I}intoRaw(){return yI.capsule(this.halfHeight,this.radius)}}class $h extends iC{constructor(A,I){super(),this.type=jg.Segment,this.a=A,this.b=I}intoRaw(){let A=CA.intoRaw(this.a),I=CA.intoRaw(this.b),C=yI.segment(A,I);return A.free(),I.free(),C}}class Ac extends iC{constructor(A,I,C){super(),this.type=jg.Triangle,this.a=A,this.b=I,this.c=C}intoRaw(){let A=CA.intoRaw(this.a),I=CA.intoRaw(this.b),C=CA.intoRaw(this.c),B=yI.triangle(A,I,C);return A.free(),I.free(),C.free(),B}}class Ic extends iC{constructor(A,I,C,B){super(),this.type=jg.RoundTriangle,this.a=A,this.b=I,this.c=C,this.borderRadius=B}intoRaw(){let A=CA.intoRaw(this.a),I=CA.intoRaw(this.b),C=CA.intoRaw(this.c),B=yI.roundTriangle(A,I,C,this.borderRadius);return A.free(),I.free(),C.free(),B}}class gc extends iC{constructor(A,I){super(),this.type=jg.Polyline,this.vertices=A,this.indices=I??new Uint32Array(0)}intoRaw(){return yI.polyline(this.vertices,this.indices)}}class Cc extends iC{constructor(A,I,C){super(),this.type=jg.TriMesh,this.vertices=A,this.indices=I,this.flags=C}intoRaw(){return yI.trimesh(this.vertices,this.indices,this.flags)}}class $a extends iC{constructor(A,I){super(),this.type=jg.ConvexPolyhedron,this.vertices=A,this.indices=I}intoRaw(){return this.indices?yI.convexMesh(this.vertices,this.indices):yI.convexHull(this.vertices)}}class As extends iC{constructor(A,I,C){super(),this.type=jg.RoundConvexPolyhedron,this.vertices=A,this.indices=I,this.borderRadius=C}intoRaw(){return this.indices?yI.roundConvexMesh(this.vertices,this.indices,this.borderRadius):yI.roundConvexHull(this.vertices,this.borderRadius)}}class Bc extends iC{constructor(A,I,C,B,i){super(),this.type=jg.HeightField,this.nrows=A,this.ncols=I,this.heights=C,this.scale=B,this.flags=i}intoRaw(){let A=CA.intoRaw(this.scale),I=yI.heightfield(this.nrows,this.ncols,this.heights,A,this.flags);return A.free(),I}}class ic extends iC{constructor(A,I){super(),this.type=jg.Cylinder,this.halfHeight=A,this.radius=I}intoRaw(){return yI.cylinder(this.halfHeight,this.radius)}}class Qc extends iC{constructor(A,I,C){super(),this.type=jg.RoundCylinder,this.borderRadius=C,this.halfHeight=A,this.radius=I}intoRaw(){return yI.roundCylinder(this.halfHeight,this.radius,this.borderRadius)}}class Ec extends iC{constructor(A,I){super(),this.type=jg.Cone,this.halfHeight=A,this.radius=I}intoRaw(){return yI.cone(this.halfHeight,this.radius)}}class ec extends iC{constructor(A,I,C){super(),this.type=jg.RoundCone,this.halfHeight=A,this.radius=I,this.borderRadius=C}intoRaw(){return yI.roundCone(this.halfHeight,this.radius,this.borderRadius)}}class e0{constructor(A){this.raw=A||new y4}free(){this.raw&&this.raw.free(),this.raw=void 0}step(A,I,C,B,i,Q,E,e,n,a,s,r){let D=CA.intoRaw(A);s?this.raw.stepWithEvents(D,I.raw,C.raw,B.raw,i.raw,Q.raw,E.raw,e.raw,n.raw,a.raw,s.raw,r,r?r.filterContactPair:null,r?r.filterIntersectionPair:null):this.raw.step(D,I.raw,C.raw,B.raw,i.raw,Q.raw,E.raw,e.raw,n.raw,a.raw),D.free()}}(function(g){g[g.EXCLUDE_FIXED=1]="EXCLUDE_FIXED",g[g.EXCLUDE_KINEMATIC=2]="EXCLUDE_KINEMATIC",g[g.EXCLUDE_DYNAMIC=4]="EXCLUDE_DYNAMIC",g[g.EXCLUDE_SENSORS=8]="EXCLUDE_SENSORS",g[g.EXCLUDE_SOLIDS=16]="EXCLUDE_SOLIDS",g[g.ONLY_DYNAMIC=3]="ONLY_DYNAMIC",g[g.ONLY_KINEMATIC=5]="ONLY_KINEMATIC",g[g.ONLY_FIXED=6]="ONLY_FIXED"})(Ol||(Ol={}));class t0{constructor(A){this.raw=A||new LM}free(){this.raw&&this.raw.free(),this.raw=void 0}update(A,I){this.raw.update(A.raw,I.raw)}castRay(A,I,C,B,i,Q,E,e,n,a){let s=CA.intoRaw(C.origin),r=CA.intoRaw(C.dir),D=ks.fromRaw(I,this.raw.castRay(A.raw,I.raw,s,r,B,i,Q,E,e,n,a));return s.free(),r.free(),D}castRayAndGetNormal(A,I,C,B,i,Q,E,e,n,a){let s=CA.intoRaw(C.origin),r=CA.intoRaw(C.dir),D=Ho.fromRaw(I,this.raw.castRayAndGetNormal(A.raw,I.raw,s,r,B,i,Q,E,e,n,a));return s.free(),r.free(),D}intersectionsWithRay(A,I,C,B,i,Q,E,e,n,a,s){let r=CA.intoRaw(C.origin),D=CA.intoRaw(C.dir);this.raw.intersectionsWithRay(A.raw,I.raw,r,D,B,i,c=>Q(Ho.fromRaw(I,c)),E,e,n,a,s),r.free(),D.free()}intersectionWithShape(A,I,C,B,i,Q,E,e,n,a){let s=CA.intoRaw(C),r=HI.intoRaw(B),D=i.intoRaw(),c=this.raw.intersectionWithShape(A.raw,I.raw,s,r,D,Q,E,e,n,a);return s.free(),r.free(),D.free(),c}projectPoint(A,I,C,B,i,Q,E,e,n){let a=CA.intoRaw(C),s=Lo.fromRaw(I,this.raw.projectPoint(A.raw,I.raw,a,B,i,Q,E,e,n));return a.free(),s}projectPointAndGetFeature(A,I,C,B,i,Q,E,e){let n=CA.intoRaw(C),a=Lo.fromRaw(I,this.raw.projectPointAndGetFeature(A.raw,I.raw,n,B,i,Q,E,e));return n.free(),a}intersectionsWithPoint(A,I,C,B,i,Q,E,e,n){let a=CA.intoRaw(C);this.raw.intersectionsWithPoint(A.raw,I.raw,a,B,i,Q,E,e,n),a.free()}castShape(A,I,C,B,i,Q,E,e,n,a,s,r,D,c){let y=CA.intoRaw(C),S=HI.intoRaw(B),l=CA.intoRaw(i),w=Q.intoRaw(),k=jo.fromRaw(I,this.raw.castShape(A.raw,I.raw,y,S,l,w,E,e,n,a,s,r,D,c));return y.free(),S.free(),l.free(),w.free(),k}intersectionsWithShape(A,I,C,B,i,Q,E,e,n,a,s){let r=CA.intoRaw(C),D=HI.intoRaw(B),c=i.intoRaw();this.raw.intersectionsWithShape(A.raw,I.raw,r,D,c,Q,E,e,n,a,s),r.free(),D.free(),c.free()}collidersWithAabbIntersectingAabb(A,I,C){let B=CA.intoRaw(A),i=CA.intoRaw(I);this.raw.collidersWithAabbIntersectingAabb(B,i,C),B.free(),i.free()}}class Zl{constructor(A){this.raw=A||new k4}free(){this.raw&&this.raw.free(),this.raw=void 0}serializeAll(A,I,C,B,i,Q,E,e,n){let a=CA.intoRaw(A);const s=this.raw.serializeAll(a,I.raw,C.raw,B.raw,i.raw,Q.raw,E.raw,e.raw,n.raw);return a.free(),s}deserializeAll(A){return Ms.fromRaw(this.raw.deserializeAll(A))}}class o0{constructor(A,I){this.vertices=A,this.colors=I}}class n0{constructor(A){this.raw=A||new S4}free(){this.raw&&this.raw.free(),this.raw=void 0,this.vertices=void 0,this.colors=void 0}render(A,I,C,B,i){this.raw.render(A.raw,I.raw,C.raw,B.raw,i.raw),this.vertices=this.raw.vertices(),this.colors=this.raw.colors()}}class a0{}class s0{constructor(A,I,C,B,i){this.params=I,this.bodies=C,this.colliders=B,this.queries=i,this.raw=new G4(A),this.rawCharacterCollision=new uf,this._applyImpulsesToDynamicBodies=!1,this._characterMass=null}free(){this.raw&&(this.raw.free(),this.rawCharacterCollision.free()),this.raw=void 0,this.rawCharacterCollision=void 0}up(){return this.raw.up()}setUp(A){let I=CA.intoRaw(A);return this.raw.setUp(I)}applyImpulsesToDynamicBodies(){return this._applyImpulsesToDynamicBodies}setApplyImpulsesToDynamicBodies(A){this._applyImpulsesToDynamicBodies=A}characterMass(){return this._characterMass}setCharacterMass(A){this._characterMass=A}offset(){return this.raw.offset()}setOffset(A){this.raw.setOffset(A)}normalNudgeFactor(){return this.raw.normalNudgeFactor()}setNormalNudgeFactor(A){this.raw.setNormalNudgeFactor(A)}slideEnabled(){return this.raw.slideEnabled()}setSlideEnabled(A){this.raw.setSlideEnabled(A)}autostepMaxHeight(){return this.raw.autostepMaxHeight()}autostepMinWidth(){return this.raw.autostepMinWidth()}autostepIncludesDynamicBodies(){return this.raw.autostepIncludesDynamicBodies()}autostepEnabled(){return this.raw.autostepEnabled()}enableAutostep(A,I,C){this.raw.enableAutostep(A,I,C)}disableAutostep(){return this.raw.disableAutostep()}maxSlopeClimbAngle(){return this.raw.maxSlopeClimbAngle()}setMaxSlopeClimbAngle(A){this.raw.setMaxSlopeClimbAngle(A)}minSlopeSlideAngle(){return this.raw.minSlopeSlideAngle()}setMinSlopeSlideAngle(A){this.raw.setMinSlopeSlideAngle(A)}snapToGroundDistance(){return this.raw.snapToGroundDistance()}enableSnapToGround(A){this.raw.enableSnapToGround(A)}disableSnapToGround(){this.raw.disableSnapToGround()}snapToGroundEnabled(){return this.raw.snapToGroundEnabled()}computeColliderMovement(A,I,C,B,i){let Q=CA.intoRaw(I);this.raw.computeColliderMovement(this.params.dt,this.bodies.raw,this.colliders.raw,this.queries.raw,A.handle,Q,this._applyImpulsesToDynamicBodies,this._characterMass,C,B,this.colliders.castClosure(i)),Q.free()}computedMovement(){return CA.fromRaw(this.raw.computedMovement())}computedGrounded(){return this.raw.computedGrounded()}numComputedCollisions(){return this.raw.numComputedCollisions()}computedCollision(A,I){if(this.raw.computedCollision(A,this.rawCharacterCollision)){let C=this.rawCharacterCollision;return(I=I??new a0).translationDeltaApplied=CA.fromRaw(C.translationDeltaApplied()),I.translationDeltaRemaining=CA.fromRaw(C.translationDeltaRemaining()),I.toi=C.toi(),I.witness1=CA.fromRaw(C.worldWitness1()),I.witness2=CA.fromRaw(C.worldWitness2()),I.normal1=CA.fromRaw(C.worldNormal1()),I.normal2=CA.fromRaw(C.worldNormal2()),I.collider=this.colliders.get(C.handle()),I}return null}}class r0{constructor(A,I,C,B){this.raw=new w4(A.handle),this.bodies=I,this.colliders=C,this.queries=B,this._chassis=A}free(){this.raw&&this.raw.free(),this.raw=void 0}updateVehicle(A,I,C,B){this.raw.update_vehicle(A,this.bodies.raw,this.colliders.raw,this.queries.raw,I,C,this.colliders.castClosure(B))}currentVehicleSpeed(){return this.raw.current_vehicle_speed()}chassis(){return this._chassis}get indexUpAxis(){return this.raw.index_up_axis()}set indexUpAxis(A){this.raw.set_index_up_axis(A)}get indexForwardAxis(){return this.raw.index_forward_axis()}set setIndexForwardAxis(A){this.raw.set_index_forward_axis(A)}addWheel(A,I,C,B,i){let Q=CA.intoRaw(A),E=CA.intoRaw(I),e=CA.intoRaw(C);this.raw.add_wheel(Q,E,e,B,i),Q.free(),E.free(),e.free()}numWheels(){return this.raw.num_wheels()}wheelChassisConnectionPointCs(A){return CA.fromRaw(this.raw.wheel_chassis_connection_point_cs(A))}setWheelChassisConnectionPointCs(A,I){let C=CA.intoRaw(I);this.raw.set_wheel_chassis_connection_point_cs(A,C),C.free()}wheelSuspensionRestLength(A){return this.raw.wheel_suspension_rest_length(A)}setWheelSuspensionRestLength(A,I){this.raw.set_wheel_suspension_rest_length(A,I)}wheelMaxSuspensionTravel(A){return this.raw.wheel_max_suspension_travel(A)}setWheelMaxSuspensionTravel(A,I){this.raw.set_wheel_max_suspension_travel(A,I)}wheelRadius(A){return this.raw.wheel_radius(A)}setWheelRadius(A,I){this.raw.set_wheel_radius(A,I)}wheelSuspensionStiffness(A){return this.raw.wheel_suspension_stiffness(A)}setWheelSuspensionStiffness(A,I){this.raw.set_wheel_suspension_stiffness(A,I)}wheelSuspensionCompression(A){return this.raw.wheel_suspension_compression(A)}setWheelSuspensionCompression(A,I){this.raw.set_wheel_suspension_compression(A,I)}wheelSuspensionRelaxation(A){return this.raw.wheel_suspension_relaxation(A)}setWheelSuspensionRelaxation(A,I){this.raw.set_wheel_suspension_relaxation(A,I)}wheelMaxSuspensionForce(A){return this.raw.wheel_max_suspension_force(A)}setWheelMaxSuspensionForce(A,I){this.raw.set_wheel_max_suspension_force(A,I)}wheelBrake(A){return this.raw.wheel_brake(A)}setWheelBrake(A,I){this.raw.set_wheel_brake(A,I)}wheelSteering(A){return this.raw.wheel_steering(A)}setWheelSteering(A,I){this.raw.set_wheel_steering(A,I)}wheelEngineForce(A){return this.raw.wheel_engine_force(A)}setWheelEngineForce(A,I){this.raw.set_wheel_engine_force(A,I)}wheelDirectionCs(A){return CA.fromRaw(this.raw.wheel_direction_cs(A))}setWheelDirectionCs(A,I){let C=CA.intoRaw(I);this.raw.set_wheel_direction_cs(A,C),C.free()}wheelAxleCs(A){return CA.fromRaw(this.raw.wheel_axle_cs(A))}setWheelAxleCs(A,I){let C=CA.intoRaw(I);this.raw.set_wheel_axle_cs(A,C),C.free()}wheelFrictionSlip(A){return this.raw.wheel_friction_slip(A)}setWheelFrictionSlip(A,I){this.raw.set_wheel_friction_slip(A,I)}wheelSideFrictionStiffness(A){return this.raw.wheel_side_friction_stiffness(A)}setWheelSideFrictionStiffness(A,I){this.raw.set_wheel_side_friction_stiffness(A,I)}wheelRotation(A){return this.raw.wheel_rotation(A)}wheelForwardImpulse(A){return this.raw.wheel_forward_impulse(A)}wheelSideImpulse(A){return this.raw.wheel_side_impulse(A)}wheelSuspensionForce(A){return this.raw.wheel_suspension_force(A)}wheelContactNormal(A){return CA.fromRaw(this.raw.wheel_contact_normal_ws(A))}wheelContactPoint(A){return CA.fromRaw(this.raw.wheel_contact_point_ws(A))}wheelSuspensionLength(A){return this.raw.wheel_suspension_length(A)}wheelHardPoint(A){return CA.fromRaw(this.raw.wheel_hard_point_ws(A))}wheelIsInContact(A){return this.raw.wheel_is_in_contact(A)}wheelGroundObject(A){return this.colliders.get(this.raw.wheel_ground_object(A))}}class Ms{constructor(A,I,C,B,i,Q,E,e,n,a,s,r,D,c){this.gravity=A,this.integrationParameters=new vM(I),this.islands=new C0(C),this.broadPhase=new B0(B),this.narrowPhase=new i0(i),this.bodies=new xM(Q),this.colliders=new h0(E),this.impulseJoints=new jM(e),this.multibodyJoints=new I0(n),this.ccdSolver=new g0(a),this.queryPipeline=new t0(s),this.physicsPipeline=new e0(r),this.serializationPipeline=new Zl(D),this.debugRenderPipeline=new n0(c),this.characterControllers=new Set,this.vehicleControllers=new Set,this.impulseJoints.finalizeDeserialization(this.bodies),this.bodies.finalizeDeserialization(this.colliders),this.colliders.finalizeDeserialization(this.bodies)}free(){this.integrationParameters.free(),this.islands.free(),this.broadPhase.free(),this.narrowPhase.free(),this.bodies.free(),this.colliders.free(),this.impulseJoints.free(),this.multibodyJoints.free(),this.ccdSolver.free(),this.queryPipeline.free(),this.physicsPipeline.free(),this.serializationPipeline.free(),this.debugRenderPipeline.free(),this.characterControllers.forEach(A=>A.free()),this.vehicleControllers.forEach(A=>A.free()),this.integrationParameters=void 0,this.islands=void 0,this.broadPhase=void 0,this.narrowPhase=void 0,this.bodies=void 0,this.colliders=void 0,this.ccdSolver=void 0,this.impulseJoints=void 0,this.multibodyJoints=void 0,this.queryPipeline=void 0,this.physicsPipeline=void 0,this.serializationPipeline=void 0,this.debugRenderPipeline=void 0,this.characterControllers=void 0,this.vehicleControllers=void 0}static fromRaw(A){return A?new Ms(CA.fromRaw(A.takeGravity()),A.takeIntegrationParameters(),A.takeIslandManager(),A.takeBroadPhase(),A.takeNarrowPhase(),A.takeBodies(),A.takeColliders(),A.takeImpulseJoints(),A.takeMultibodyJoints()):null}takeSnapshot(){return this.serializationPipeline.serializeAll(this.gravity,this.integrationParameters,this.islands,this.broadPhase,this.narrowPhase,this.bodies,this.colliders,this.impulseJoints,this.multibodyJoints)}static restoreSnapshot(A){return new Zl().deserializeAll(A)}debugRender(){return this.debugRenderPipeline.render(this.bodies,this.colliders,this.impulseJoints,this.multibodyJoints,this.narrowPhase),new o0(this.debugRenderPipeline.vertices,this.debugRenderPipeline.colors)}step(A,I){this.physicsPipeline.step(this.gravity,this.integrationParameters,this.islands,this.broadPhase,this.narrowPhase,this.bodies,this.colliders,this.impulseJoints,this.multibodyJoints,this.ccdSolver,A,I),this.queryPipeline.update(this.bodies,this.colliders)}propagateModifiedBodyPositionsToColliders(){this.bodies.raw.propagateModifiedBodyPositionsToColliders(this.colliders.raw)}updateSceneQueries(){this.propagateModifiedBodyPositionsToColliders(),this.queryPipeline.update(this.bodies,this.colliders)}get timestep(){return this.integrationParameters.dt}set timestep(A){this.integrationParameters.dt=A}get lengthUnit(){return this.integrationParameters.lengthUnit}set lengthUnit(A){this.integrationParameters.lengthUnit=A}get numSolverIterations(){return this.integrationParameters.numSolverIterations}set numSolverIterations(A){this.integrationParameters.numSolverIterations=A}get numAdditionalFrictionIterations(){return this.integrationParameters.numAdditionalFrictionIterations}set numAdditionalFrictionIterations(A){this.integrationParameters.numAdditionalFrictionIterations=A}get numInternalPgsIterations(){return this.integrationParameters.numInternalPgsIterations}set numInternalPgsIterations(A){this.integrationParameters.numInternalPgsIterations=A}switchToStandardPgsSolver(){this.integrationParameters.switchToStandardPgsSolver()}switchToSmallStepsPgsSolver(){this.integrationParameters.switchToSmallStepsPgsSolver()}switchToSmallStepsPgsSolverWithoutWarmstart(){this.integrationParameters.switchToSmallStepsPgsSolverWithoutWarmstart()}createRigidBody(A){return this.bodies.createRigidBody(this.colliders,A)}createCharacterController(A){let I=new s0(A,this.integrationParameters,this.bodies,this.colliders,this.queryPipeline);return this.characterControllers.add(I),I}removeCharacterController(A){this.characterControllers.delete(A),A.free()}createVehicleController(A){let I=new r0(A,this.bodies,this.colliders,this.queryPipeline);return this.vehicleControllers.add(I),I}removeVehicleController(A){this.vehicleControllers.delete(A),A.free()}createCollider(A,I){let C=I?I.handle:void 0;return this.colliders.createCollider(this.bodies,A,C)}createImpulseJoint(A,I,C,B){return this.impulseJoints.createJoint(this.bodies,A,I.handle,C.handle,B)}createMultibodyJoint(A,I,C,B){return this.multibodyJoints.createJoint(A,I.handle,C.handle,B)}getRigidBody(A){return this.bodies.get(A)}getCollider(A){return this.colliders.get(A)}getImpulseJoint(A){return this.impulseJoints.get(A)}getMultibodyJoint(A){return this.multibodyJoints.get(A)}removeRigidBody(A){this.bodies&&this.bodies.remove(A.handle,this.islands,this.colliders,this.impulseJoints,this.multibodyJoints)}removeCollider(A,I){this.colliders&&this.colliders.remove(A.handle,this.islands,this.bodies,I)}removeImpulseJoint(A,I){this.impulseJoints&&this.impulseJoints.remove(A.handle,I)}removeMultibodyJoint(A,I){this.impulseJoints&&this.multibodyJoints.remove(A.handle,I)}forEachCollider(A){this.colliders.forEach(A)}forEachRigidBody(A){this.bodies.forEach(A)}forEachActiveRigidBody(A){this.bodies.forEachActiveRigidBody(this.islands,A)}castRay(A,I,C,B,i,Q,E,e){return this.queryPipeline.castRay(this.bodies,this.colliders,A,I,C,B,i,Q?Q.handle:null,E?E.handle:null,this.colliders.castClosure(e))}castRayAndGetNormal(A,I,C,B,i,Q,E,e){return this.queryPipeline.castRayAndGetNormal(this.bodies,this.colliders,A,I,C,B,i,Q?Q.handle:null,E?E.handle:null,this.colliders.castClosure(e))}intersectionsWithRay(A,I,C,B,i,Q,E,e,n){this.queryPipeline.intersectionsWithRay(this.bodies,this.colliders,A,I,C,B,i,Q,E?E.handle:null,e?e.handle:null,this.colliders.castClosure(n))}intersectionWithShape(A,I,C,B,i,Q,E,e){let n=this.queryPipeline.intersectionWithShape(this.bodies,this.colliders,A,I,C,B,i,Q?Q.handle:null,E?E.handle:null,this.colliders.castClosure(e));return n!=null?this.colliders.get(n):null}projectPoint(A,I,C,B,i,Q,E){return this.queryPipeline.projectPoint(this.bodies,this.colliders,A,I,C,B,i?i.handle:null,Q?Q.handle:null,this.colliders.castClosure(E))}projectPointAndGetFeature(A,I,C,B,i,Q){return this.queryPipeline.projectPointAndGetFeature(this.bodies,this.colliders,A,I,C,B?B.handle:null,i?i.handle:null,this.colliders.castClosure(Q))}intersectionsWithPoint(A,I,C,B,i,Q,E){this.queryPipeline.intersectionsWithPoint(this.bodies,this.colliders,A,this.colliders.castClosure(I),C,B,i?i.handle:null,Q?Q.handle:null,this.colliders.castClosure(E))}castShape(A,I,C,B,i,Q,E,e,n,a,s,r){return this.queryPipeline.castShape(this.bodies,this.colliders,A,I,C,B,i,Q,E,e,n,a?a.handle:null,s?s.handle:null,this.colliders.castClosure(r))}intersectionsWithShape(A,I,C,B,i,Q,E,e,n){this.queryPipeline.intersectionsWithShape(this.bodies,this.colliders,A,I,C,this.colliders.castClosure(B),i,Q,E?E.handle:null,e?e.handle:null,this.colliders.castClosure(n))}collidersWithAabbIntersectingAabb(A,I,C){this.queryPipeline.collidersWithAabbIntersectingAabb(A,I,this.colliders.castClosure(C))}contactPairsWith(A,I){this.narrowPhase.contactPairsWith(A.handle,this.colliders.castClosure(I))}intersectionPairsWith(A,I){this.narrowPhase.intersectionPairsWith(A.handle,this.colliders.castClosure(I))}contactPair(A,I,C){this.narrowPhase.contactPair(A.handle,I.handle,C)}intersectionPair(A,I){return this.narrowPhase.intersectionPair(A.handle,I.handle)}}(function(g){g[g.NONE=0]="NONE",g[g.COLLISION_EVENTS=1]="COLLISION_EVENTS",g[g.CONTACT_FORCE_EVENTS=2]="CONTACT_FORCE_EVENTS"})(kQ||(kQ={}));class D0{free(){this.raw&&this.raw.free(),this.raw=void 0}collider1(){return this.raw.collider1()}collider2(){return this.raw.collider2()}totalForce(){return CA.fromRaw(this.raw.total_force())}totalForceMagnitude(){return this.raw.total_force_magnitude()}maxForceDirection(){return CA.fromRaw(this.raw.max_force_direction())}maxForceMagnitude(){return this.raw.max_force_magnitude()}}class l0{constructor(A,I){this.raw=I||new Uf(A)}free(){this.raw&&this.raw.free(),this.raw=void 0}drainCollisionEvents(A){this.raw.drainCollisionEvents(A)}drainContactForceEvents(A){let I=new D0;this.raw.drainContactForceEvents(C=>{I.raw=C,A(I),I.free()})}clear(){this.raw.clear()}}(function(g){g[g.NONE=0]="NONE",g[g.FILTER_CONTACT_PAIRS=1]="FILTER_CONTACT_PAIRS",g[g.FILTER_INTERSECTION_PAIRS=2]="FILTER_INTERSECTION_PAIRS"})(za||(za={})),function(g){g[g.EMPTY=0]="EMPTY",g[g.COMPUTE_IMPULSE=1]="COMPUTE_IMPULSE"}(bl||(bl={})),function(g){g[g.DYNAMIC_DYNAMIC=1]="DYNAMIC_DYNAMIC",g[g.DYNAMIC_KINEMATIC=12]="DYNAMIC_KINEMATIC",g[g.DYNAMIC_FIXED=2]="DYNAMIC_FIXED",g[g.KINEMATIC_KINEMATIC=52224]="KINEMATIC_KINEMATIC",g[g.KINEMATIC_FIXED=8704]="KINEMATIC_FIXED",g[g.FIXED_FIXED=32]="FIXED_FIXED",g[g.DEFAULT=15]="DEFAULT",g[g.ALL=60943]="ALL"}(Xa||(Xa={}));class Pl{constructor(A,I,C,B){this.colliderSet=A,this.handle=I,this._parent=C,this._shape=B}finalizeDeserialization(A){this.handle!=null&&(this._parent=A.get(this.colliderSet.raw.coParent(this.handle)))}ensureShapeIsCached(){this._shape||(this._shape=iC.fromRaw(this.colliderSet.raw,this.handle))}get shape(){return this.ensureShapeIsCached(),this._shape}isValid(){return this.colliderSet.raw.contains(this.handle)}translation(){return CA.fromRaw(this.colliderSet.raw.coTranslation(this.handle))}rotation(){return HI.fromRaw(this.colliderSet.raw.coRotation(this.handle))}isSensor(){return this.colliderSet.raw.coIsSensor(this.handle)}setSensor(A){this.colliderSet.raw.coSetSensor(this.handle,A)}setShape(A){let I=A.intoRaw();this.colliderSet.raw.coSetShape(this.handle,I),I.free(),this._shape=A}setEnabled(A){this.colliderSet.raw.coSetEnabled(this.handle,A)}isEnabled(){return this.colliderSet.raw.coIsEnabled(this.handle)}setRestitution(A){this.colliderSet.raw.coSetRestitution(this.handle,A)}setFriction(A){this.colliderSet.raw.coSetFriction(this.handle,A)}frictionCombineRule(){return this.colliderSet.raw.coFrictionCombineRule(this.handle)}setFrictionCombineRule(A){this.colliderSet.raw.coSetFrictionCombineRule(this.handle,A)}restitutionCombineRule(){return this.colliderSet.raw.coRestitutionCombineRule(this.handle)}setRestitutionCombineRule(A){this.colliderSet.raw.coSetRestitutionCombineRule(this.handle,A)}setCollisionGroups(A){this.colliderSet.raw.coSetCollisionGroups(this.handle,A)}setSolverGroups(A){this.colliderSet.raw.coSetSolverGroups(this.handle,A)}contactSkin(){return this.colliderSet.raw.coContactSkin(this.handle)}setContactSkin(A){return this.colliderSet.raw.coSetContactSkin(this.handle,A)}activeHooks(){return this.colliderSet.raw.coActiveHooks(this.handle)}setActiveHooks(A){this.colliderSet.raw.coSetActiveHooks(this.handle,A)}activeEvents(){return this.colliderSet.raw.coActiveEvents(this.handle)}setActiveEvents(A){this.colliderSet.raw.coSetActiveEvents(this.handle,A)}activeCollisionTypes(){return this.colliderSet.raw.coActiveCollisionTypes(this.handle)}setContactForceEventThreshold(A){return this.colliderSet.raw.coSetContactForceEventThreshold(this.handle,A)}contactForceEventThreshold(){return this.colliderSet.raw.coContactForceEventThreshold(this.handle)}setActiveCollisionTypes(A){this.colliderSet.raw.coSetActiveCollisionTypes(this.handle,A)}setDensity(A){this.colliderSet.raw.coSetDensity(this.handle,A)}setMass(A){this.colliderSet.raw.coSetMass(this.handle,A)}setMassProperties(A,I,C,B){let i=CA.intoRaw(I),Q=CA.intoRaw(C),E=HI.intoRaw(B);this.colliderSet.raw.coSetMassProperties(this.handle,A,i,Q,E),i.free(),Q.free(),E.free()}setTranslation(A){this.colliderSet.raw.coSetTranslation(this.handle,A.x,A.y,A.z)}setTranslationWrtParent(A){this.colliderSet.raw.coSetTranslationWrtParent(this.handle,A.x,A.y,A.z)}setRotation(A){this.colliderSet.raw.coSetRotation(this.handle,A.x,A.y,A.z,A.w)}setRotationWrtParent(A){this.colliderSet.raw.coSetRotationWrtParent(this.handle,A.x,A.y,A.z,A.w)}shapeType(){return this.colliderSet.raw.coShapeType(this.handle)}halfExtents(){return CA.fromRaw(this.colliderSet.raw.coHalfExtents(this.handle))}setHalfExtents(A){const I=CA.intoRaw(A);this.colliderSet.raw.coSetHalfExtents(this.handle,I)}radius(){return this.colliderSet.raw.coRadius(this.handle)}setRadius(A){this.colliderSet.raw.coSetRadius(this.handle,A)}roundRadius(){return this.colliderSet.raw.coRoundRadius(this.handle)}setRoundRadius(A){this.colliderSet.raw.coSetRoundRadius(this.handle,A)}halfHeight(){return this.colliderSet.raw.coHalfHeight(this.handle)}setHalfHeight(A){this.colliderSet.raw.coSetHalfHeight(this.handle,A)}vertices(){return this.colliderSet.raw.coVertices(this.handle)}indices(){return this.colliderSet.raw.coIndices(this.handle)}heightfieldHeights(){return this.colliderSet.raw.coHeightfieldHeights(this.handle)}heightfieldScale(){let A=this.colliderSet.raw.coHeightfieldScale(this.handle);return CA.fromRaw(A)}heightfieldNRows(){return this.colliderSet.raw.coHeightfieldNRows(this.handle)}heightfieldNCols(){return this.colliderSet.raw.coHeightfieldNCols(this.handle)}parent(){return this._parent}friction(){return this.colliderSet.raw.coFriction(this.handle)}restitution(){return this.colliderSet.raw.coRestitution(this.handle)}density(){return this.colliderSet.raw.coDensity(this.handle)}mass(){return this.colliderSet.raw.coMass(this.handle)}volume(){return this.colliderSet.raw.coVolume(this.handle)}collisionGroups(){return this.colliderSet.raw.coCollisionGroups(this.handle)}solverGroups(){return this.colliderSet.raw.coSolverGroups(this.handle)}containsPoint(A){let I=CA.intoRaw(A),C=this.colliderSet.raw.coContainsPoint(this.handle,I);return I.free(),C}projectPoint(A,I){let C=CA.intoRaw(A),B=Wo.fromRaw(this.colliderSet.raw.coProjectPoint(this.handle,C,I));return C.free(),B}intersectsRay(A,I){let C=CA.intoRaw(A.origin),B=CA.intoRaw(A.dir),i=this.colliderSet.raw.coIntersectsRay(this.handle,C,B,I);return C.free(),B.free(),i}castShape(A,I,C,B,i,Q,E,e){let n=CA.intoRaw(A),a=CA.intoRaw(C),s=HI.intoRaw(B),r=CA.intoRaw(i),D=I.intoRaw(),c=Qt.fromRaw(this.colliderSet,this.colliderSet.raw.coCastShape(this.handle,n,D,a,s,r,Q,E,e));return n.free(),a.free(),s.free(),r.free(),D.free(),c}castCollider(A,I,C,B,i,Q){let E=CA.intoRaw(A),e=CA.intoRaw(C),n=jo.fromRaw(this.colliderSet,this.colliderSet.raw.coCastCollider(this.handle,E,I.handle,e,B,i,Q));return E.free(),e.free(),n}intersectsShape(A,I,C){let B=CA.intoRaw(I),i=HI.intoRaw(C),Q=A.intoRaw(),E=this.colliderSet.raw.coIntersectsShape(this.handle,Q,B,i);return B.free(),i.free(),Q.free(),E}contactShape(A,I,C,B){let i=CA.intoRaw(I),Q=HI.intoRaw(C),E=A.intoRaw(),e=je.fromRaw(this.colliderSet.raw.coContactShape(this.handle,E,i,Q,B));return i.free(),Q.free(),E.free(),e}contactCollider(A,I){return je.fromRaw(this.colliderSet.raw.coContactCollider(this.handle,A.handle,I))}castRay(A,I,C){let B=CA.intoRaw(A.origin),i=CA.intoRaw(A.dir),Q=this.colliderSet.raw.coCastRay(this.handle,B,i,I,C);return B.free(),i.free(),Q}castRayAndGetNormal(A,I,C){let B=CA.intoRaw(A.origin),i=CA.intoRaw(A.dir),Q=Vo.fromRaw(this.colliderSet.raw.coCastRayAndGetNormal(this.handle,B,i,I,C));return B.free(),i.free(),Q}}(function(g){g[g.Density=0]="Density",g[g.Mass=1]="Mass",g[g.MassProps=2]="MassProps"})(rE||(rE={}));class xg{constructor(A){this.enabled=!0,this.shape=A,this.massPropsMode=rE.Density,this.density=1,this.friction=.5,this.restitution=0,this.rotation=HI.identity(),this.translation=CA.zeros(),this.isSensor=!1,this.collisionGroups=4294967295,this.solverGroups=4294967295,this.frictionCombineRule=mo.Average,this.restitutionCombineRule=mo.Average,this.activeCollisionTypes=Xa.DEFAULT,this.activeEvents=kQ.NONE,this.activeHooks=za.NONE,this.mass=0,this.centerOfMass=CA.zeros(),this.contactForceEventThreshold=0,this.contactSkin=0,this.principalAngularInertia=CA.zeros(),this.angularInertiaLocalFrame=HI.identity()}static ball(A){const I=new Vh(A);return new xg(I)}static capsule(A,I){const C=new Xh(A,I);return new xg(C)}static segment(A,I){const C=new $h(A,I);return new xg(C)}static triangle(A,I,C){const B=new Ac(A,I,C);return new xg(B)}static roundTriangle(A,I,C,B){const i=new Ic(A,I,C,B);return new xg(i)}static polyline(A,I){const C=new gc(A,I);return new xg(C)}static trimesh(A,I,C){const B=new Cc(A,I,C);return new xg(B)}static cuboid(A,I,C){const B=new jh(A,I,C);return new xg(B)}static roundCuboid(A,I,C,B){const i=new zh(A,I,C,B);return new xg(i)}static heightfield(A,I,C,B,i){const Q=new Bc(A,I,C,B,i);return new xg(Q)}static cylinder(A,I){const C=new ic(A,I);return new xg(C)}static roundCylinder(A,I,C){const B=new Qc(A,I,C);return new xg(B)}static cone(A,I){const C=new Ec(A,I);return new xg(C)}static roundCone(A,I,C){const B=new ec(A,I,C);return new xg(B)}static convexHull(A){const I=new $a(A,null);return new xg(I)}static convexMesh(A,I){const C=new $a(A,I);return new xg(C)}static roundConvexHull(A,I){const C=new As(A,null,I);return new xg(C)}static roundConvexMesh(A,I,C){const B=new As(A,I,C);return new xg(B)}setTranslation(A,I,C){if(typeof A!="number"||typeof I!="number"||typeof C!="number")throw TypeError("The translation components must be numbers.");return this.translation={x:A,y:I,z:C},this}setRotation(A){return HI.copy(this.rotation,A),this}setSensor(A){return this.isSensor=A,this}setEnabled(A){return this.enabled=A,this}setContactSkin(A){return this.contactSkin=A,this}setDensity(A){return this.massPropsMode=rE.Density,this.density=A,this}setMass(A){return this.massPropsMode=rE.Mass,this.mass=A,this}setMassProperties(A,I,C,B){return this.massPropsMode=rE.MassProps,this.mass=A,CA.copy(this.centerOfMass,I),CA.copy(this.principalAngularInertia,C),HI.copy(this.angularInertiaLocalFrame,B),this}setRestitution(A){return this.restitution=A,this}setFriction(A){return this.friction=A,this}setFrictionCombineRule(A){return this.frictionCombineRule=A,this}setRestitutionCombineRule(A){return this.restitutionCombineRule=A,this}setCollisionGroups(A){return this.collisionGroups=A,this}setSolverGroups(A){return this.solverGroups=A,this}setActiveHooks(A){return this.activeHooks=A,this}setActiveEvents(A){return this.activeEvents=A,this}setActiveCollisionTypes(A){return this.activeCollisionTypes=A,this}setContactForceEventThreshold(A){return this.contactForceEventThreshold=A,this}}class h0{constructor(A){this.raw=A||new fg,this.map=new Zh,A&&A.forEachColliderHandle(I=>{this.map.set(I,new Pl(this,I,null))})}free(){this.raw&&this.raw.free(),this.raw=void 0,this.map&&this.map.clear(),this.map=void 0}castClosure(A){return I=>A?A(this.get(I)):void 0}finalizeDeserialization(A){this.map.forEach(I=>I.finalizeDeserialization(A))}createCollider(A,I,C){let B=C!=null&&C!=null;if(B&&isNaN(C))throw Error("Cannot create a collider with a parent rigid-body handle that is not a number.");let 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