/*

Copyright (C) 2017-2026 Topological Manifold

This program is free software: you can redistribute it and/or modify

it under the terms of the GNU General Public License as published by

the Free Software Foundation, either version 3 of the License, or

(at your option) any later version.

This program is distributed in the hope that it will be useful,

but WITHOUT ANY WARRANTY; without even the implied warranty of

MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the

GNU General Public License for more details.

You should have received a copy of the GNU General Public License

along with this program. If not, see <http://www.gnu.org/licenses/>.

*/

#include "computing.h"

#include "compute_meshes.h"

#include "compute_volume.h"

#include <src/com/error.h>

#include <src/com/print.h>

#include <src/gui/dialogs/bound_cocone.h>

#include <src/gui/dialogs/image_slice.h>

#include <src/model/mesh_object.h>

#include <src/model/volume_object.h>

#include <src/progress/progress_list.h>

#include <src/storage/types.h>

#include <cstddef>

#include <functional>

#include <memory>

#include <optional>

#include <variant>

#include <vector>

namespace ns::process

{

namespace

{

std::vector<int> volume_image_size(const storage::VolumeObjectConst& object)

{

std::vector<int> size;

std::visit(

[&]<std::size_t N>(const std::shared_ptr<const model::volume::VolumeObject<N>>& volume_object)

{

const model::volume::Reading reading(*volume_object);

size = [](const auto& array)

{

return std::vector(array.cbegin(), array.cend());

}(reading.volume().image.size);

},

object);

return size;

}

}

std::function<void(progress::RatioList*)> action_bound_cocone(const storage::MeshObjectConst& object)

{

std::optional<gui::dialogs::BoundCoconeParameters> parameters =

gui::dialogs::BoundCoconeParametersDialog::show();

if (!parameters)

{

return nullptr;

}

return std::visit(

[&]<std::size_t N>(const std::shared_ptr<const model::mesh::MeshObject<N>>& mesh_object)

{

std::function<void(progress::RatioList*)> f = [=](progress::RatioList* const progress_list)

{

constexpr bool CONVEX_HULL = false;

constexpr bool COCONE = false;

constexpr bool BOUND_COCONE = true;

constexpr bool MST = false;

compute_meshes(

progress_list, CONVEX_HULL, COCONE, BOUND_COCONE, MST, *mesh_object,

parameters->rho, parameters->alpha);

};

return f;

},

object);

}

std::function<void(progress::RatioList*)> action_3d_slice(const storage::VolumeObjectConst& object)

{

constexpr std::size_t DIMENSION = 3;

const std::vector<int> size = volume_image_size(object);

if (size.size() <= DIMENSION)

{

error("Volume dimension (" + to_string(size.size()) + ") is not suitable for 3D slice");

}

std::optional<gui::dialogs::ImageSliceParameters> parameters =

gui::dialogs::ImageSliceDialog::show(size, DIMENSION);

if (!parameters)

{

return nullptr;

}

return std::visit(

[&]<std::size_t N>(const std::shared_ptr<const model::volume::VolumeObject<N>>& volume_object)

{

std::function<void(progress::RatioList*)> f = [=](progress::RatioList* const progress_list)

{

if constexpr (N > DIMENSION)

{

compute_slice<DIMENSION>(progress_list, *volume_object, parameters->slices);

}

};

return f;

},

object);

}

}