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test/source/blender/blenkernel/intern/subdiv.c
Sergey Sharybin b0c6c65e7b Subdiv: Initial implementation of topology cache 
This commit makes it so OpenSubdiv's topology refiner is kept
in memory and reused for until topology changes. There are the
following modifications which causes topology refiner to become
invalid:

- Change in a mesh topology (for example, vertices, edges, and
  faces connectivity).
- Change in UV islands (adding new islands, merging them and
  so on),
- Change in UV smoothing options.
- Change in creases.
- Change in Catmull-Clark / Simple subdivisions.

The following limitations are known:

- CPU evaluator is not yet cached.
- UV islands topology is not checked.

The UV limitation is currently a stopper for making this cache
enabled by default.
2019-01-16 11:00:43 +01:00

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/*
* ***** BEGIN GPL LICENSE BLOCK *****
*
* 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.
*
* The Original Code is Copyright (C) 2018 by Blender Foundation.
* All rights reserved.
*
* Contributor(s): Sergey Sharybin.
*
* ***** END GPL LICENSE BLOCK *****
*/
/** \file blender/blenkernel/intern/subdiv.c
* \ingroup bke
*/
#include "BKE_subdiv.h"
#include "DNA_mesh_types.h"
#include "DNA_modifier_types.h"
#include "BLI_utildefines.h"
#include "MEM_guardedalloc.h"
#include "subdiv_converter.h"
#include "opensubdiv_capi.h"
#include "opensubdiv_converter_capi.h"
#include "opensubdiv_evaluator_capi.h"
#include "opensubdiv_topology_refiner_capi.h"
/* ========================== CONVERSION HELPERS ============================ */
eSubdivFVarLinearInterpolation
BKE_subdiv_fvar_interpolation_from_uv_smooth(int uv_smooth)
{
switch (uv_smooth) {
case SUBSURF_UV_SMOOTH_NONE:
return SUBDIV_FVAR_LINEAR_INTERPOLATION_ALL;
case SUBSURF_UV_SMOOTH_PRESERVE_CORNERS:
return SUBDIV_FVAR_LINEAR_INTERPOLATION_CORNERS_ONLY;
case SUBSURF_UV_SMOOTH_PRESERVE_CORNERS_AND_JUNCTIONS:
return SUBDIV_FVAR_LINEAR_INTERPOLATION_CORNERS_AND_JUNCTIONS;
case SUBSURF_UV_SMOOTH_PRESERVE_CORNERS_JUNCTIONS_AND_CONCAVE:
return SUBDIV_FVAR_LINEAR_INTERPOLATION_CORNERS_JUNCTIONS_AND_CONCAVE;
case SUBSURF_UV_SMOOTH_PRESERVE_BOUNDARIES:
return SUBDIV_FVAR_LINEAR_INTERPOLATION_BOUNDARIES;
case SUBSURF_UV_SMOOTH_ALL:
return SUBDIV_FVAR_LINEAR_INTERPOLATION_NONE;
}
BLI_assert(!"Unknown uv smooth flag");
return SUBDIV_FVAR_LINEAR_INTERPOLATION_ALL;
}
/* ================================ SETTINGS ================================ */
bool BKE_subdiv_settings_equal(const SubdivSettings *settings_a,
const SubdivSettings *settings_b)
{
return
(settings_a->is_simple == settings_b->is_simple &&
settings_a->is_adaptive == settings_b->is_adaptive &&
settings_a->level == settings_b->level &&
settings_a->vtx_boundary_interpolation ==
settings_b->vtx_boundary_interpolation &&
settings_a->fvar_linear_interpolation ==
settings_b->fvar_linear_interpolation);
}
/* ============================== CONSTRUCTION ============================== */
/* Creation from scratch. */
Subdiv *BKE_subdiv_new_from_converter(const SubdivSettings *settings,
struct OpenSubdiv_Converter *converter)
{
SubdivStats stats;
BKE_subdiv_stats_init(&stats);
BKE_subdiv_stats_begin(&stats, SUBDIV_STATS_TOPOLOGY_REFINER_CREATION_TIME);
OpenSubdiv_TopologyRefinerSettings topology_refiner_settings;
topology_refiner_settings.level = settings->level;
topology_refiner_settings.is_adaptive = settings->is_adaptive;
struct OpenSubdiv_TopologyRefiner *osd_topology_refiner = NULL;
if (converter->getNumVertices(converter) != 0) {
osd_topology_refiner =
openSubdiv_createTopologyRefinerFromConverter(
converter, &topology_refiner_settings);
}
else {
/* TODO(sergey): Check whether original geometry had any vertices.
* The thing here is: OpenSubdiv can only deal with faces, but our
* side of subdiv also deals with loose vertices and edges. */
}
Subdiv *subdiv = MEM_callocN(sizeof(Subdiv), "subdiv from converetr");
subdiv->settings = *settings;
subdiv->topology_refiner = osd_topology_refiner;
subdiv->evaluator = NULL;
subdiv->displacement_evaluator = NULL;
BKE_subdiv_stats_end(&stats, SUBDIV_STATS_TOPOLOGY_REFINER_CREATION_TIME);
subdiv->stats = stats;
return subdiv;
}
Subdiv *BKE_subdiv_new_from_mesh(const SubdivSettings *settings,
const Mesh *mesh)
{
if (mesh->totvert == 0) {
return NULL;
}
OpenSubdiv_Converter converter;
BKE_subdiv_converter_init_for_mesh(&converter, settings, mesh);
Subdiv *subdiv = BKE_subdiv_new_from_converter(settings, &converter);
BKE_subdiv_converter_free(&converter);
return subdiv;
}
/* Creation with cached-aware semantic. */
Subdiv *BKE_subdiv_update_from_converter(Subdiv *subdiv,
const SubdivSettings *settings,
OpenSubdiv_Converter *converter)
{
/* Check if the existing descriptor can be re-used. */
bool can_reuse_subdiv = true;
if (subdiv != NULL && subdiv->topology_refiner != NULL) {
if (!BKE_subdiv_settings_equal(&subdiv->settings, settings)) {
can_reuse_subdiv = false;
}
else {
BKE_subdiv_stats_begin(
&subdiv->stats, SUBDIV_STATS_TOPOLOGY_COMPARE);
can_reuse_subdiv = openSubdiv_topologyRefinerCompareWithConverter(
subdiv->topology_refiner, converter);
BKE_subdiv_stats_end(
&subdiv->stats, SUBDIV_STATS_TOPOLOGY_COMPARE);
}
}
else {
can_reuse_subdiv = false;
}
if (can_reuse_subdiv) {
return subdiv;
}
/* Create new subdiv. */
if (subdiv != NULL) {
BKE_subdiv_free(subdiv);
}
return BKE_subdiv_new_from_converter(settings, converter);
}
Subdiv *BKE_subdiv_update_from_mesh(Subdiv *subdiv,
const SubdivSettings *settings,
const Mesh *mesh)
{
OpenSubdiv_Converter converter;
BKE_subdiv_converter_init_for_mesh(&converter, settings, mesh);
subdiv = BKE_subdiv_update_from_converter(subdiv, settings, &converter);
BKE_subdiv_converter_free(&converter);
return subdiv;
}
/* Memory release. */
void BKE_subdiv_free(Subdiv *subdiv)
{
if (subdiv->evaluator != NULL) {
openSubdiv_deleteEvaluator(subdiv->evaluator);
}
if (subdiv->topology_refiner != NULL) {
openSubdiv_deleteTopologyRefiner(subdiv->topology_refiner);
}
BKE_subdiv_displacement_detach(subdiv);
if (subdiv->cache_.face_ptex_offset != NULL) {
MEM_freeN(subdiv->cache_.face_ptex_offset);
}
MEM_freeN(subdiv);
}
/* =========================== PTEX FACES AND GRIDS ========================= */
int *BKE_subdiv_face_ptex_offset_get(Subdiv *subdiv)
{
if (subdiv->cache_.face_ptex_offset != NULL) {
return subdiv->cache_.face_ptex_offset;
}
OpenSubdiv_TopologyRefiner *topology_refiner = subdiv->topology_refiner;
if (topology_refiner == NULL) {
return NULL;
}
const int num_coarse_faces =
topology_refiner->getNumFaces(topology_refiner);
subdiv->cache_.face_ptex_offset = MEM_malloc_arrayN(
num_coarse_faces, sizeof(int), "subdiv face_ptex_offset");
int ptex_offset = 0;
for (int face_index = 0; face_index < num_coarse_faces; face_index++) {
const int num_ptex_faces =
topology_refiner->getNumFacePtexFaces(
topology_refiner, face_index);
subdiv->cache_.face_ptex_offset[face_index] = ptex_offset;
ptex_offset += num_ptex_faces;
}
return subdiv->cache_.face_ptex_offset;
}
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