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// Copyright 2015 Blender Foundation. All rights reserved.
//
// 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 2
// 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, write to the Free Software Foundation,
// Inc., 51 Franklin Street, Fifth Floor, Boston, MA 02110-1301, USA.
//
// Author: Sergey Sharybin
#include "opensubdiv_evaluator_capi.h"
#include <opensubdiv/osd/glslPatchShaderSource.h>
#include "MEM_guardedalloc.h"
#include <new>
#include "internal/evaluator/evaluator_cache_impl.h"
#include "internal/evaluator/evaluator_impl.h"
namespace {
void setSettings(struct OpenSubdiv_Evaluator *evaluator,
const OpenSubdiv_EvaluatorSettings *settings)
{
evaluator->impl->eval_output->setSettings(settings);
}
void setCoarsePositions(OpenSubdiv_Evaluator *evaluator,
const float *positions,
const int start_vertex_index,
const int num_vertices)
{
evaluator->impl->eval_output->setCoarsePositions(positions, start_vertex_index, num_vertices);
}
void setVertexData(OpenSubdiv_Evaluator *evaluator,
const float *vertex_data,
const int start_vertex_index,
const int num_vertices)
{
evaluator->impl->eval_output->setVertexData(vertex_data, start_vertex_index, num_vertices);
}
void setVaryingData(OpenSubdiv_Evaluator *evaluator,
const float *varying_data,
const int start_vertex_index,
const int num_vertices)
{
evaluator->impl->eval_output->setVaryingData(varying_data, start_vertex_index, num_vertices);
}
void setFaceVaryingData(OpenSubdiv_Evaluator *evaluator,
const int face_varying_channel,
const float *face_varying_data,
const int start_vertex_index,
const int num_vertices)
{
evaluator->impl->eval_output->setFaceVaryingData(
face_varying_channel, face_varying_data, start_vertex_index, num_vertices);
}
void setCoarsePositionsFromBuffer(OpenSubdiv_Evaluator *evaluator,
const void *buffer,
const int start_offset,
const int stride,
const int start_vertex_index,
const int num_vertices)
{
evaluator->impl->eval_output->setCoarsePositionsFromBuffer(
buffer, start_offset, stride, start_vertex_index, num_vertices);
}
void setVaryingDataFromBuffer(OpenSubdiv_Evaluator *evaluator,
const void *buffer,
const int start_offset,
const int stride,
const int start_vertex_index,
const int num_vertices)
{
evaluator->impl->eval_output->setVaryingDataFromBuffer(
buffer, start_offset, stride, start_vertex_index, num_vertices);
}
void setFaceVaryingDataFromBuffer(OpenSubdiv_Evaluator *evaluator,
const int face_varying_channel,
const void *buffer,
const int start_offset,
const int stride,
const int start_vertex_index,
const int num_vertices)
{
evaluator->impl->eval_output->setFaceVaryingDataFromBuffer(
face_varying_channel, buffer, start_offset, stride, start_vertex_index, num_vertices);
}
void refine(OpenSubdiv_Evaluator *evaluator)
{
evaluator->impl->eval_output->refine();
}
void evaluateLimit(OpenSubdiv_Evaluator *evaluator,
const int ptex_face_index,
const float face_u,
const float face_v,
float P[3],
float dPdu[3],
float dPdv[3])
{
evaluator->impl->eval_output->evaluateLimit(ptex_face_index, face_u, face_v, P, dPdu, dPdv);
}
void evaluatePatchesLimit(OpenSubdiv_Evaluator *evaluator,
const OpenSubdiv_PatchCoord *patch_coords,
const int num_patch_coords,
float *P,
float *dPdu,
float *dPdv)
{
evaluator->impl->eval_output->evaluatePatchesLimit(
patch_coords, num_patch_coords, P, dPdu, dPdv);
}
void evaluateVertexData(OpenSubdiv_Evaluator *evaluator,
const int ptex_face_index,
float face_u,
float face_v,
float vertex_data[3])
{
evaluator->impl->eval_output->evaluateVertexData(ptex_face_index, face_u, face_v, vertex_data);
}
void evaluateVarying(OpenSubdiv_Evaluator *evaluator,
const int ptex_face_index,
float face_u,
float face_v,
float varying[3])
{
evaluator->impl->eval_output->evaluateVarying(ptex_face_index, face_u, face_v, varying);
}
void evaluateFaceVarying(OpenSubdiv_Evaluator *evaluator,
const int face_varying_channel,
const int ptex_face_index,
float face_u,
float face_v,
float face_varying[2])
{
evaluator->impl->eval_output->evaluateFaceVarying(
face_varying_channel, ptex_face_index, face_u, face_v, face_varying);
}
void getPatchMap(struct OpenSubdiv_Evaluator *evaluator,
struct OpenSubdiv_Buffer *patch_map_handles,
struct OpenSubdiv_Buffer *patch_map_quadtree,
int *min_patch_face,
int *max_patch_face,
int *max_depth,
int *patches_are_triangular)
{
evaluator->impl->eval_output->getPatchMap(patch_map_handles,
patch_map_quadtree,
min_patch_face,
max_patch_face,
max_depth,
patches_are_triangular);
}
void fillPatchArraysBuffer(struct OpenSubdiv_Evaluator *evaluator,
struct OpenSubdiv_Buffer *patch_array_buffer)
{
evaluator->impl->eval_output->fillPatchArraysBuffer(patch_array_buffer);
}
void wrapPatchIndexBuffer(struct OpenSubdiv_Evaluator *evaluator,
struct OpenSubdiv_Buffer *patch_index_buffer)
{
evaluator->impl->eval_output->wrapPatchIndexBuffer(patch_index_buffer);
}
void wrapPatchParamBuffer(struct OpenSubdiv_Evaluator *evaluator,
struct OpenSubdiv_Buffer *patch_param_buffer)
{
evaluator->impl->eval_output->wrapPatchParamBuffer(patch_param_buffer);
}
void wrapSrcBuffer(struct OpenSubdiv_Evaluator *evaluator, struct OpenSubdiv_Buffer *src_buffer)
{
evaluator->impl->eval_output->wrapSrcBuffer(src_buffer);
}
void wrapSrcVertexDataBuffer(struct OpenSubdiv_Evaluator *evaluator,
struct OpenSubdiv_Buffer *src_buffer)
{
evaluator->impl->eval_output->wrapSrcVertexDataBuffer(src_buffer);
}
void fillFVarPatchArraysBuffer(struct OpenSubdiv_Evaluator *evaluator,
const int face_varying_channel,
struct OpenSubdiv_Buffer *patch_array_buffer)
{
evaluator->impl->eval_output->fillFVarPatchArraysBuffer(face_varying_channel,
patch_array_buffer);
}
void wrapFVarPatchIndexBuffer(struct OpenSubdiv_Evaluator *evaluator,
const int face_varying_channel,
struct OpenSubdiv_Buffer *patch_index_buffer)
{
evaluator->impl->eval_output->wrapFVarPatchIndexBuffer(face_varying_channel, patch_index_buffer);
}
void wrapFVarPatchParamBuffer(struct OpenSubdiv_Evaluator *evaluator,
const int face_varying_channel,
struct OpenSubdiv_Buffer *patch_param_buffer)
{
evaluator->impl->eval_output->wrapFVarPatchParamBuffer(face_varying_channel, patch_param_buffer);
}
void wrapFVarSrcBuffer(struct OpenSubdiv_Evaluator *evaluator,
const int face_varying_channel,
struct OpenSubdiv_Buffer *src_buffer)
{
evaluator->impl->eval_output->wrapFVarSrcBuffer(face_varying_channel, src_buffer);
}
bool hasVertexData(struct OpenSubdiv_Evaluator *evaluator)
{
return evaluator->impl->eval_output->hasVertexData();
}
void assignFunctionPointers(OpenSubdiv_Evaluator *evaluator)
{
evaluator->setSettings = setSettings;
evaluator->setCoarsePositions = setCoarsePositions;
evaluator->setVertexData = setVertexData;
evaluator->setVaryingData = setVaryingData;
evaluator->setFaceVaryingData = setFaceVaryingData;
evaluator->setCoarsePositionsFromBuffer = setCoarsePositionsFromBuffer;
evaluator->setVaryingDataFromBuffer = setVaryingDataFromBuffer;
evaluator->setFaceVaryingDataFromBuffer = setFaceVaryingDataFromBuffer;
evaluator->refine = refine;
evaluator->evaluateLimit = evaluateLimit;
evaluator->evaluateVarying = evaluateVarying;
evaluator->evaluateVertexData = evaluateVertexData;
evaluator->evaluateFaceVarying = evaluateFaceVarying;
evaluator->evaluatePatchesLimit = evaluatePatchesLimit;
evaluator->getPatchMap = getPatchMap;
evaluator->fillPatchArraysBuffer = fillPatchArraysBuffer;
evaluator->wrapPatchIndexBuffer = wrapPatchIndexBuffer;
evaluator->wrapPatchParamBuffer = wrapPatchParamBuffer;
evaluator->wrapSrcBuffer = wrapSrcBuffer;
evaluator->wrapSrcVertexDataBuffer = wrapSrcVertexDataBuffer;
evaluator->fillFVarPatchArraysBuffer = fillFVarPatchArraysBuffer;
evaluator->wrapFVarPatchIndexBuffer = wrapFVarPatchIndexBuffer;
evaluator->wrapFVarPatchParamBuffer = wrapFVarPatchParamBuffer;
evaluator->wrapFVarSrcBuffer = wrapFVarSrcBuffer;
evaluator->hasVertexData = hasVertexData;
}
} // namespace
OpenSubdiv_Evaluator *openSubdiv_createEvaluatorFromTopologyRefiner(
OpenSubdiv_TopologyRefiner *topology_refiner,
eOpenSubdivEvaluator evaluator_type,
OpenSubdiv_EvaluatorCache *evaluator_cache)
{
OpenSubdiv_Evaluator *evaluator = MEM_new<OpenSubdiv_Evaluator>(__func__);
assignFunctionPointers(evaluator);
evaluator->impl = openSubdiv_createEvaluatorInternal(
topology_refiner, evaluator_type, evaluator_cache ? evaluator_cache->impl : nullptr);
evaluator->type = evaluator->impl ? evaluator_type : static_cast<eOpenSubdivEvaluator>(0);
return evaluator;
}
void openSubdiv_deleteEvaluator(OpenSubdiv_Evaluator *evaluator)
{
openSubdiv_deleteEvaluatorInternal(evaluator->impl);
MEM_delete(evaluator);
}
OpenSubdiv_EvaluatorCache *openSubdiv_createEvaluatorCache(eOpenSubdivEvaluator evaluator_type)
{
OpenSubdiv_EvaluatorCache *evaluator_cache = MEM_new<OpenSubdiv_EvaluatorCache>(__func__);
evaluator_cache->impl = openSubdiv_createEvaluatorCacheInternal(evaluator_type);
return evaluator_cache;
}
void openSubdiv_deleteEvaluatorCache(OpenSubdiv_EvaluatorCache *evaluator_cache)
{
if (!evaluator_cache) {
return;
}
openSubdiv_deleteEvaluatorCacheInternal(evaluator_cache->impl);
MEM_delete(evaluator_cache);
}
const char *openSubdiv_getGLSLPatchBasisSource(void)
{
/* Using a global string to avoid dealing with memory allocation/ownership. */
static std::string patch_basis_source;
if (patch_basis_source.empty()) {
patch_basis_source = OpenSubdiv::Osd::GLSLPatchShaderSource::GetPatchBasisShaderSource();
}
return patch_basis_source.c_str();
}
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