e955c94ed3
Listing the "Blender Foundation" as copyright holder implied the Blender Foundation holds copyright to files which may include work from many developers. While keeping copyright on headers makes sense for isolated libraries, Blender's own code may be refactored or moved between files in a way that makes the per file copyright holders less meaningful. Copyright references to the "Blender Foundation" have been replaced with "Blender Authors", with the exception of `./extern/` since these this contains libraries which are more isolated, any changed to license headers there can be handled on a case-by-case basis. Some directories in `./intern/` have also been excluded: - `./intern/cycles/` it's own `AUTHORS` file is planned. - `./intern/opensubdiv/`. An "AUTHORS" file has been added, using the chromium projects authors file as a template. Design task: #110784 Ref !110783.
451 lines
18 KiB
C++
451 lines
18 KiB
C++
/* SPDX-FileCopyrightText: 2018 Blender Authors
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*
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* SPDX-License-Identifier: GPL-2.0-or-later */
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/** \file
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* \ingroup bke
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*/
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#include <cmath>
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#include "BKE_subdiv.hh"
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#include "DNA_mesh_types.h"
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#include "DNA_meshdata_types.h"
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#include "DNA_modifier_types.h"
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#include "DNA_object_types.h"
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#include "BLI_math_matrix.h"
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#include "BLI_math_vector.h"
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#include "BLI_utildefines.h"
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#include "BKE_customdata.h"
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#include "BKE_mesh.hh"
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#include "BKE_multires.hh"
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#include "BKE_subdiv_eval.hh"
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#include "MEM_guardedalloc.h"
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struct PolyCornerIndex {
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int face_index;
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int corner;
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};
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struct MultiresDisplacementData {
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Subdiv *subdiv;
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int grid_size;
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/* Mesh is used to read external displacement. */
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Mesh *mesh;
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const MultiresModifierData *mmd;
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blender::OffsetIndices<int> faces;
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const MDisps *mdisps;
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/* Indexed by PTEX face index, contains face/corner which corresponds
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* to it.
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*
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* NOTE: For quad face this is an index of first corner only, since
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* there we only have one PTEX. */
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PolyCornerIndex *ptex_face_corner;
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/* Indexed by coarse face index, returns first PTEX face index corresponding
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* to that coarse face. */
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int *face_ptex_offset;
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/* Sanity check, is used in debug builds.
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* Controls that initialize() was called prior to eval_displacement(). */
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bool is_initialized;
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};
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/* Denotes which grid to use to average value of the displacement read from the
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* grid which corresponds to the PTEX face. */
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enum eAverageWith {
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AVERAGE_WITH_NONE,
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AVERAGE_WITH_ALL,
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AVERAGE_WITH_PREV,
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AVERAGE_WITH_NEXT,
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};
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static int displacement_get_grid_and_coord(SubdivDisplacement *displacement,
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const int ptex_face_index,
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const float u,
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const float v,
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const MDisps **r_displacement_grid,
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float *grid_u,
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float *grid_v)
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{
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MultiresDisplacementData *data = static_cast<MultiresDisplacementData *>(
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displacement->user_data);
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const PolyCornerIndex *face_corner = &data->ptex_face_corner[ptex_face_index];
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const blender::IndexRange face = data->faces[face_corner->face_index];
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const int start_grid_index = face.start() + face_corner->corner;
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int corner = 0;
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if (face.size() == 4) {
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float corner_u, corner_v;
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corner = BKE_subdiv_rotate_quad_to_corner(u, v, &corner_u, &corner_v);
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*r_displacement_grid = &data->mdisps[start_grid_index + corner];
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BKE_subdiv_ptex_face_uv_to_grid_uv(corner_u, corner_v, grid_u, grid_v);
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}
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else {
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*r_displacement_grid = &data->mdisps[start_grid_index];
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BKE_subdiv_ptex_face_uv_to_grid_uv(u, v, grid_u, grid_v);
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}
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return corner;
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}
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static const MDisps *displacement_get_other_grid(SubdivDisplacement *displacement,
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const int ptex_face_index,
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const int corner,
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const int corner_delta)
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{
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MultiresDisplacementData *data = static_cast<MultiresDisplacementData *>(
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displacement->user_data);
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const PolyCornerIndex *face_corner = &data->ptex_face_corner[ptex_face_index];
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const blender::IndexRange face = data->faces[face_corner->face_index];
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const int effective_corner = (face.size() == 4) ? corner : face_corner->corner;
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const int next_corner = (effective_corner + corner_delta + face.size()) % face.size();
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return &data->mdisps[face[next_corner]];
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}
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BLI_INLINE eAverageWith read_displacement_grid(const MDisps *displacement_grid,
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const int grid_size,
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const float grid_u,
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const float grid_v,
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float r_tangent_D[3])
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{
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if (displacement_grid->disps == nullptr) {
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zero_v3(r_tangent_D);
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return AVERAGE_WITH_NONE;
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}
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const int x = roundf(grid_u * (grid_size - 1));
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const int y = roundf(grid_v * (grid_size - 1));
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copy_v3_v3(r_tangent_D, displacement_grid->disps[y * grid_size + x]);
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if (x == 0 && y == 0) {
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return AVERAGE_WITH_ALL;
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}
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if (x == 0) {
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return AVERAGE_WITH_PREV;
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}
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if (y == 0) {
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return AVERAGE_WITH_NEXT;
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}
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return AVERAGE_WITH_NONE;
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}
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static void average_convert_grid_coord_to_ptex(const int num_corners,
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const int corner,
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const float grid_u,
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const float grid_v,
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float *r_ptex_face_u,
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float *r_ptex_face_v)
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{
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if (num_corners == 4) {
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BKE_subdiv_rotate_grid_to_quad(corner, grid_u, grid_v, r_ptex_face_u, r_ptex_face_v);
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}
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else {
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BKE_subdiv_grid_uv_to_ptex_face_uv(grid_u, grid_v, r_ptex_face_u, r_ptex_face_v);
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}
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}
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static void average_construct_tangent_matrix(Subdiv *subdiv,
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const int num_corners,
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const int ptex_face_index,
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const int corner,
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const float u,
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const float v,
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float r_tangent_matrix[3][3])
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{
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const bool is_quad = num_corners == 4;
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const int quad_corner = is_quad ? corner : 0;
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float dummy_P[3], dPdu[3], dPdv[3];
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BKE_subdiv_eval_limit_point_and_derivatives(subdiv, ptex_face_index, u, v, dummy_P, dPdu, dPdv);
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BKE_multires_construct_tangent_matrix(r_tangent_matrix, dPdu, dPdv, quad_corner);
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}
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static void average_read_displacement_tangent(MultiresDisplacementData *data,
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const MDisps *other_displacement_grid,
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const float grid_u,
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const float grid_v,
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float r_tangent_D[3])
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{
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read_displacement_grid(other_displacement_grid, data->grid_size, grid_u, grid_v, r_tangent_D);
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}
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static void average_read_displacement_object(MultiresDisplacementData *data,
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const MDisps *displacement_grid,
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const float grid_u,
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const float grid_v,
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const int ptex_face_index,
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const int corner_index,
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float r_D[3])
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{
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const PolyCornerIndex *face_corner = &data->ptex_face_corner[ptex_face_index];
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const int num_corners = data->faces[face_corner->face_index].size();
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/* Get (u, v) coordinate within the other PTEX face which corresponds to
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* the grid coordinates. */
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float u, v;
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average_convert_grid_coord_to_ptex(num_corners, corner_index, grid_u, grid_v, &u, &v);
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/* Construct tangent matrix which corresponds to partial derivatives
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* calculated for the other PTEX face. */
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float tangent_matrix[3][3];
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average_construct_tangent_matrix(
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data->subdiv, num_corners, ptex_face_index, corner_index, u, v, tangent_matrix);
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/* Read displacement from other grid in a tangent space. */
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float tangent_D[3];
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average_read_displacement_tangent(data, displacement_grid, grid_u, grid_v, tangent_D);
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/* Convert displacement to object space. */
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mul_v3_m3v3(r_D, tangent_matrix, tangent_D);
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}
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static void average_get_other_ptex_and_corner(MultiresDisplacementData *data,
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const int ptex_face_index,
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const int corner,
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const int corner_delta,
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int *r_other_ptex_face_index,
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int *r_other_corner_index)
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{
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const PolyCornerIndex *face_corner = &data->ptex_face_corner[ptex_face_index];
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const int face_index = face_corner->face_index;
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const int num_corners = data->faces[face_corner->face_index].size();
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const bool is_quad = (num_corners == 4);
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const int start_ptex_face_index = data->face_ptex_offset[face_index];
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*r_other_corner_index = (corner + corner_delta + num_corners) % num_corners;
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*r_other_ptex_face_index = is_quad ? start_ptex_face_index :
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start_ptex_face_index + *r_other_corner_index;
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}
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/* NOTE: Grid coordinates are relative to the other grid already. */
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static void average_with_other(SubdivDisplacement *displacement,
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const int ptex_face_index,
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const int corner,
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const float grid_u,
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const float grid_v,
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const int corner_delta,
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float r_D[3])
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{
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MultiresDisplacementData *data = static_cast<MultiresDisplacementData *>(
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displacement->user_data);
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const MDisps *other_displacement_grid = displacement_get_other_grid(
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displacement, ptex_face_index, corner, corner_delta);
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int other_ptex_face_index, other_corner_index;
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average_get_other_ptex_and_corner(
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data, ptex_face_index, corner, corner_delta, &other_ptex_face_index, &other_corner_index);
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/* Get displacement in object space. */
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float other_D[3];
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average_read_displacement_object(data,
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other_displacement_grid,
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grid_u,
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grid_v,
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other_ptex_face_index,
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other_corner_index,
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other_D);
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/* Average result with the other displacement vector. */
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add_v3_v3(r_D, other_D);
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mul_v3_fl(r_D, 0.5f);
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}
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static void average_with_all(SubdivDisplacement *displacement,
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const int ptex_face_index,
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const int corner,
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const float /*grid_u*/,
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const float /*grid_v*/,
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float r_D[3])
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{
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MultiresDisplacementData *data = static_cast<MultiresDisplacementData *>(
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displacement->user_data);
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const PolyCornerIndex *face_corner = &data->ptex_face_corner[ptex_face_index];
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const int num_corners = data->faces[face_corner->face_index].size();
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for (int corner_delta = 1; corner_delta < num_corners; corner_delta++) {
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average_with_other(displacement, ptex_face_index, corner, 0.0f, 0.0f, corner_delta, r_D);
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}
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}
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static void average_with_next(SubdivDisplacement *displacement,
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const int ptex_face_index,
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const int corner,
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const float grid_u,
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const float /*grid_v*/,
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float r_D[3])
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{
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average_with_other(displacement, ptex_face_index, corner, 0.0f, grid_u, 1, r_D);
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}
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static void average_with_prev(SubdivDisplacement *displacement,
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const int ptex_face_index,
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const int corner,
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const float /*grid_u*/,
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const float grid_v,
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float r_D[3])
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{
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average_with_other(displacement, ptex_face_index, corner, grid_v, 0.0f, -1, r_D);
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}
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static void average_displacement(SubdivDisplacement *displacement,
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eAverageWith average_with,
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const int ptex_face_index,
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const int corner,
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const float grid_u,
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const float grid_v,
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float r_D[3])
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{
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switch (average_with) {
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case AVERAGE_WITH_ALL:
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average_with_all(displacement, ptex_face_index, corner, grid_u, grid_v, r_D);
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break;
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case AVERAGE_WITH_PREV:
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average_with_prev(displacement, ptex_face_index, corner, grid_u, grid_v, r_D);
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break;
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case AVERAGE_WITH_NEXT:
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average_with_next(displacement, ptex_face_index, corner, grid_u, grid_v, r_D);
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break;
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case AVERAGE_WITH_NONE:
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break;
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}
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}
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static int displacement_get_face_corner(MultiresDisplacementData *data,
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const int ptex_face_index,
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const float u,
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const float v)
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{
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const PolyCornerIndex *face_corner = &data->ptex_face_corner[ptex_face_index];
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const int num_corners = data->faces[face_corner->face_index].size();
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const bool is_quad = (num_corners == 4);
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if (is_quad) {
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float dummy_corner_u, dummy_corner_v;
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return BKE_subdiv_rotate_quad_to_corner(u, v, &dummy_corner_u, &dummy_corner_v);
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}
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return face_corner->corner;
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}
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static void initialize(SubdivDisplacement *displacement)
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{
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MultiresDisplacementData *data = static_cast<MultiresDisplacementData *>(
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displacement->user_data);
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multiresModifier_ensure_external_read(data->mesh, data->mmd);
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data->is_initialized = true;
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}
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static void eval_displacement(SubdivDisplacement *displacement,
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const int ptex_face_index,
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const float u,
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const float v,
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const float dPdu[3],
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const float dPdv[3],
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float r_D[3])
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{
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MultiresDisplacementData *data = static_cast<MultiresDisplacementData *>(
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displacement->user_data);
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BLI_assert(data->is_initialized);
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const int grid_size = data->grid_size;
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/* Get displacement in tangent space. */
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const MDisps *displacement_grid;
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float grid_u, grid_v;
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const int corner_of_quad = displacement_get_grid_and_coord(
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displacement, ptex_face_index, u, v, &displacement_grid, &grid_u, &grid_v);
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/* Read displacement from the current displacement grid and see if any
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* averaging is needed. */
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float tangent_D[3];
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eAverageWith average_with = read_displacement_grid(
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displacement_grid, grid_size, grid_u, grid_v, tangent_D);
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/* Convert it to the object space. */
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float tangent_matrix[3][3];
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BKE_multires_construct_tangent_matrix(tangent_matrix, dPdu, dPdv, corner_of_quad);
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mul_v3_m3v3(r_D, tangent_matrix, tangent_D);
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/* For the boundary points of grid average two (or all) neighbor grids. */
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const int corner = displacement_get_face_corner(data, ptex_face_index, u, v);
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average_displacement(displacement, average_with, ptex_face_index, corner, grid_u, grid_v, r_D);
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}
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static void free_displacement(SubdivDisplacement *displacement)
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{
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MultiresDisplacementData *data = static_cast<MultiresDisplacementData *>(
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displacement->user_data);
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MEM_freeN(data->ptex_face_corner);
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MEM_freeN(data);
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}
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/* TODO(sergey): This seems to be generally used information, which almost
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* worth adding to a subdiv itself, with possible cache of the value. */
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static int count_num_ptex_faces(const Mesh *mesh)
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{
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int num_ptex_faces = 0;
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const blender::OffsetIndices faces = mesh->faces();
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for (int face_index = 0; face_index < mesh->faces_num; face_index++) {
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num_ptex_faces += (faces[face_index].size() == 4) ? 1 : faces[face_index].size();
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}
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return num_ptex_faces;
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}
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static void displacement_data_init_mapping(SubdivDisplacement *displacement, const Mesh *mesh)
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{
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MultiresDisplacementData *data = static_cast<MultiresDisplacementData *>(
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displacement->user_data);
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const blender::OffsetIndices faces = mesh->faces();
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const int num_ptex_faces = count_num_ptex_faces(mesh);
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/* Allocate memory. */
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data->ptex_face_corner = static_cast<PolyCornerIndex *>(
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MEM_malloc_arrayN(num_ptex_faces, sizeof(*data->ptex_face_corner), "PTEX face corner"));
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/* Fill in offsets. */
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int ptex_face_index = 0;
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PolyCornerIndex *ptex_face_corner = data->ptex_face_corner;
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for (int face_index = 0; face_index < mesh->faces_num; face_index++) {
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const blender::IndexRange face = faces[face_index];
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if (face.size() == 4) {
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ptex_face_corner[ptex_face_index].face_index = face_index;
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ptex_face_corner[ptex_face_index].corner = 0;
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ptex_face_index++;
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}
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else {
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for (int corner = 0; corner < face.size(); corner++) {
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ptex_face_corner[ptex_face_index].face_index = face_index;
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ptex_face_corner[ptex_face_index].corner = corner;
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ptex_face_index++;
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}
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}
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}
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}
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static void displacement_init_data(SubdivDisplacement *displacement,
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Subdiv *subdiv,
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Mesh *mesh,
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const MultiresModifierData *mmd)
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{
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MultiresDisplacementData *data = static_cast<MultiresDisplacementData *>(
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displacement->user_data);
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data->subdiv = subdiv;
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data->grid_size = BKE_subdiv_grid_size_from_level(mmd->totlvl);
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data->mesh = mesh;
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data->mmd = mmd;
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data->faces = mesh->faces();
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data->mdisps = static_cast<const MDisps *>(CustomData_get_layer(&mesh->loop_data, CD_MDISPS));
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data->face_ptex_offset = BKE_subdiv_face_ptex_offset_get(subdiv);
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data->is_initialized = false;
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displacement_data_init_mapping(displacement, mesh);
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}
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static void displacement_init_functions(SubdivDisplacement *displacement)
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{
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displacement->initialize = initialize;
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displacement->eval_displacement = eval_displacement;
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displacement->free = free_displacement;
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}
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void BKE_subdiv_displacement_attach_from_multires(Subdiv *subdiv,
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Mesh *mesh,
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const MultiresModifierData *mmd)
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{
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/* Make sure we don't have previously assigned displacement. */
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BKE_subdiv_displacement_detach(subdiv);
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/* It is possible to have mesh without CD_MDISPS layer. Happens when using
|
|
* dynamic topology. */
|
|
if (!CustomData_has_layer(&mesh->loop_data, CD_MDISPS)) {
|
|
return;
|
|
}
|
|
/* Allocate all required memory. */
|
|
SubdivDisplacement *displacement = MEM_cnew<SubdivDisplacement>("multires displacement");
|
|
displacement->user_data = MEM_callocN(sizeof(MultiresDisplacementData),
|
|
"multires displacement data");
|
|
displacement_init_data(displacement, subdiv, mesh, mmd);
|
|
displacement_init_functions(displacement);
|
|
/* Finish. */
|
|
subdiv->displacement_evaluator = displacement;
|
|
}
|