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test2/source/blender/blenkernel/intern/subdiv_eval.c
Sergey Sharybin 913b8396d9 Multires: Initial groundwork to hook up displacement to new Subdiv object 
Adds a displacement support for OpenSubdiov based subsurf object implemented
as a callback which gives vector displacement in object space. Currently is
implemented to calculate displacement based on myltires displacement grids,
but we can support things in the future if needed.

Submitting to review to see if there is something obviously wrong in the
direction (old multires code was sharing same displacement code to both
calculate final displaced mesh and reshape an existing one, which is rather
confusing and probably can be done more cleanly?).

Reviewers: brecht

Reviewed By: brecht

Differential Revision: https://developer.blender.org/D3604
2018-08-15 15:40:08 +02:00

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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_eval.c
* \ingroup bke
*/
#include "BKE_subdiv.h"
#include "DNA_mesh_types.h"
#include "DNA_meshdata_types.h"
#include "BLI_utildefines.h"
#include "BLI_bitmap.h"
#include "BLI_math_vector.h"
#include "BKE_customdata.h"
#include "MEM_guardedalloc.h"
#include "opensubdiv_evaluator_capi.h"
#include "opensubdiv_topology_refiner_capi.h"
bool BKE_subdiv_eval_begin(Subdiv *subdiv)
{
if (subdiv->topology_refiner == NULL) {
/* Happens on input mesh with just loose geometry,
* or when OpenSubdiv is disabled
*/
return false;
}
else if (subdiv->evaluator == NULL) {
BKE_subdiv_stats_begin(&subdiv->stats, SUBDIV_STATS_EVALUATOR_CREATE);
subdiv->evaluator = openSubdiv_createEvaluatorFromTopologyRefiner(
subdiv->topology_refiner);
BKE_subdiv_stats_end(&subdiv->stats, SUBDIV_STATS_EVALUATOR_CREATE);
if (subdiv->evaluator == NULL) {
return false;
}
}
else {
/* TODO(sergey): Check for topology change. */
}
return true;
}
static void set_coarse_positions(Subdiv *subdiv, const Mesh *mesh)
{
const MVert *mvert = mesh->mvert;
const MLoop *mloop = mesh->mloop;
const MPoly *mpoly = mesh->mpoly;
/* Mark vertices which needs new coordinates. */
/* TODO(sergey): This is annoying to calculate this on every update,
* maybe it's better to cache this mapping. Or make it possible to have
* OpenSubdiv's vertices match mesh ones?
*/
BLI_bitmap *vertex_used_map =
BLI_BITMAP_NEW(mesh->totvert, "vert used map");
for (int poly_index = 0; poly_index < mesh->totpoly; poly_index++) {
const MPoly *poly = &mpoly[poly_index];
for (int corner = 0; corner < poly->totloop; corner++) {
const MLoop *loop = &mloop[poly->loopstart + corner];
BLI_BITMAP_ENABLE(vertex_used_map, loop->v);
}
}
for (int vertex_index = 0, manifold_veretx_index = 0;
vertex_index < mesh->totvert;
vertex_index++)
{
if (!BLI_BITMAP_TEST_BOOL(vertex_used_map, vertex_index)) {
continue;
}
const MVert *vertex = &mvert[vertex_index];
subdiv->evaluator->setCoarsePositions(
subdiv->evaluator,
vertex->co,
manifold_veretx_index, 1);
manifold_veretx_index++;
}
MEM_freeN(vertex_used_map);
}
static void set_face_varying_data_from_uv(Subdiv *subdiv,
const MLoopUV *mloopuv,
const int layer_index)
{
OpenSubdiv_TopologyRefiner *topology_refiner = subdiv->topology_refiner;
OpenSubdiv_Evaluator *evaluator = subdiv->evaluator;
const int num_faces = topology_refiner->getNumFaces(topology_refiner);
const MLoopUV *mluv = mloopuv;
/* TODO(sergey): OpenSubdiv's C-API converter can change winding of
* loops of a face, need to watch for that, to prevent wrong UVs assigned.
*/
for (int face_index = 0; face_index < num_faces; ++face_index) {
const int num_face_vertices = topology_refiner->getNumFaceVertices(
topology_refiner, face_index);
const int *uv_indicies = topology_refiner->getFaceFVarValueIndices(
topology_refiner, face_index, layer_index);
for (int vertex_index = 0;
vertex_index < num_face_vertices;
vertex_index++, mluv++)
{
evaluator->setFaceVaryingData(evaluator,
layer_index,
mluv->uv,
uv_indicies[vertex_index],
1);
}
}
}
bool BKE_subdiv_eval_update_from_mesh(Subdiv *subdiv, const Mesh *mesh)
{
if (!BKE_subdiv_eval_begin(subdiv)) {
return false;
}
if (subdiv->evaluator == NULL) {
/* NOTE: This situation is supposed to be handled by begin(). */
BLI_assert(!"Is not supposed to happen");
return false;
}
/* Set coordinates of base mesh vertices. */
set_coarse_positions(subdiv, mesh);
/* Set face-varyign data to UV maps. */
const int num_uv_layers =
CustomData_number_of_layers(&mesh->ldata, CD_MLOOPUV);
for (int layer_index = 0; layer_index < num_uv_layers; layer_index++) {
const MLoopUV *mloopuv = CustomData_get_layer_n(
&mesh->ldata, CD_MLOOPUV, layer_index);
set_face_varying_data_from_uv(subdiv, mloopuv, layer_index);
}
/* Update evaluator to the new coarse geometry. */
BKE_subdiv_stats_begin(&subdiv->stats, SUBDIV_STATS_EVALUATOR_REFINE);
subdiv->evaluator->refine(subdiv->evaluator);
BKE_subdiv_stats_end(&subdiv->stats, SUBDIV_STATS_EVALUATOR_REFINE);
return true;
}
/* ========================== Single point queries ========================== */
void BKE_subdiv_eval_limit_point(
Subdiv *subdiv,
const int ptex_face_index,
const float u, const float v,
float r_P[3])
{
BKE_subdiv_eval_limit_point_and_derivatives(subdiv,
ptex_face_index,
u, v,
r_P, NULL, NULL);
}
void BKE_subdiv_eval_limit_point_and_derivatives(
Subdiv *subdiv,
const int ptex_face_index,
const float u, const float v,
float r_P[3], float r_dPdu[3], float r_dPdv[3])
{
subdiv->evaluator->evaluateLimit(subdiv->evaluator,
ptex_face_index,
u, v,
r_P, r_dPdu, r_dPdv);
}
void BKE_subdiv_eval_limit_point_and_normal(
Subdiv *subdiv,
const int ptex_face_index,
const float u, const float v,
float r_P[3], float r_N[3])
{
float dPdu[3], dPdv[3];
BKE_subdiv_eval_limit_point_and_derivatives(subdiv,
ptex_face_index,
u, v,
r_P, dPdu, dPdv);
cross_v3_v3v3(r_N, dPdu, dPdv);
normalize_v3(r_N);
}
void BKE_subdiv_eval_limit_point_and_short_normal(
Subdiv *subdiv,
const int ptex_face_index,
const float u, const float v,
float r_P[3], short r_N[3])
{
float N_float[3];
BKE_subdiv_eval_limit_point_and_normal(subdiv,
ptex_face_index,
u, v,
r_P, N_float);
normal_float_to_short_v3(r_N, N_float);
}
void BKE_subdiv_eval_face_varying(
Subdiv *subdiv,
const int face_varying_channel,
const int ptex_face_index,
const float u, const float v,
float r_face_varying[2])
{
subdiv->evaluator->evaluateFaceVarying(subdiv->evaluator,
face_varying_channel,
ptex_face_index,
u, v,
r_face_varying);
}
void BKE_subdiv_eval_displacement(
Subdiv *subdiv,
const int ptex_face_index,
const float u, const float v,
const float dPdu[3], const float dPdv[3],
float r_D[3])
{
if (subdiv->displacement_evaluator == NULL) {
zero_v3(r_D);
return;
}
subdiv->displacement_evaluator->eval_displacement(
subdiv->displacement_evaluator,
ptex_face_index,
u, v,
dPdu, dPdv,
r_D);
}
void BKE_subdiv_eval_final_point(
Subdiv *subdiv,
const int ptex_face_index,
const float u, const float v,
float r_P[3])
{
if (subdiv->displacement_evaluator) {
float dPdu[3], dPdv[3], D[3];
BKE_subdiv_eval_limit_point_and_derivatives(
subdiv, ptex_face_index, u, v, r_P, dPdu, dPdv);
BKE_subdiv_eval_displacement(subdiv,
ptex_face_index, u, v,
dPdu, dPdv,
D);
add_v3_v3(r_P, D);
}
else {
BKE_subdiv_eval_limit_point(subdiv, ptex_face_index, u, v, r_P);
}
}
/* =================== Patch queries at given resolution =================== */
/* Move buffer forward by a given number of bytes. */
static void buffer_apply_offset(void **buffer, const int offset)
{
*buffer = ((unsigned char *)*buffer) + offset;
}
/* Write given number of floats to the beginning of given buffer. */
static void buffer_write_float_value(void **buffer,
const float *values_buffer, int num_values)
{
memcpy(*buffer, values_buffer, sizeof(float) * num_values);
}
/* Similar to above, just operates with short values. */
static void buffer_write_short_value(void **buffer,
const short *values_buffer, int num_values)
{
memcpy(*buffer, values_buffer, sizeof(short) * num_values);
}
void BKE_subdiv_eval_limit_patch_resolution_point(
Subdiv *subdiv,
const int ptex_face_index,
const int resolution,
void *buffer, const int offset, const int stride)
{
buffer_apply_offset(&buffer, offset);
const float inv_resolution_1 = 1.0f / (float)(resolution - 1);
for (int y = 0; y < resolution; y++) {
const float v = y * inv_resolution_1;
for (int x = 0; x < resolution; x++) {
const float u = x * inv_resolution_1;
BKE_subdiv_eval_limit_point(subdiv,
ptex_face_index,
u, v,
buffer);
buffer_apply_offset(&buffer, stride);
}
}
}
void BKE_subdiv_eval_limit_patch_resolution_point_and_derivatives(
Subdiv *subdiv,
const int ptex_face_index,
const int resolution,
void *point_buffer, const int point_offset, const int point_stride,
void *du_buffer, const int du_offset, const int du_stride,
void *dv_buffer, const int dv_offset, const int dv_stride)
{
buffer_apply_offset(&point_buffer, point_offset);
buffer_apply_offset(&du_buffer, du_offset);
buffer_apply_offset(&dv_buffer, dv_offset);
const float inv_resolution_1 = 1.0f / (float)(resolution - 1);
for (int y = 0; y < resolution; y++) {
const float v = y * inv_resolution_1;
for (int x = 0; x < resolution; x++) {
const float u = x * inv_resolution_1;
BKE_subdiv_eval_limit_point_and_derivatives(
subdiv,
ptex_face_index,
u, v,
point_buffer, du_buffer, dv_buffer);
buffer_apply_offset(&point_buffer, point_stride);
buffer_apply_offset(&du_buffer, du_stride);
buffer_apply_offset(&dv_buffer, dv_stride);
}
}
}
void BKE_subdiv_eval_limit_patch_resolution_point_and_normal(
Subdiv *subdiv,
const int ptex_face_index,
const int resolution,
void *point_buffer, const int point_offset, const int point_stride,
void *normal_buffer, const int normal_offset, const int normal_stride)
{
buffer_apply_offset(&point_buffer, point_offset);
buffer_apply_offset(&normal_buffer, normal_offset);
const float inv_resolution_1 = 1.0f / (float)(resolution - 1);
for (int y = 0; y < resolution; y++) {
const float v = y * inv_resolution_1;
for (int x = 0; x < resolution; x++) {
const float u = x * inv_resolution_1;
float normal[3];
BKE_subdiv_eval_limit_point_and_normal(
subdiv,
ptex_face_index,
u, v,
point_buffer, normal);
buffer_write_float_value(&normal_buffer, normal, 3);
buffer_apply_offset(&point_buffer, point_stride);
buffer_apply_offset(&normal_buffer, normal_stride);
}
}
}
void BKE_subdiv_eval_limit_patch_resolution_point_and_short_normal(
Subdiv *subdiv,
const int ptex_face_index,
const int resolution,
void *point_buffer, const int point_offset, const int point_stride,
void *normal_buffer, const int normal_offset, const int normal_stride)
{
buffer_apply_offset(&point_buffer, point_offset);
buffer_apply_offset(&normal_buffer, normal_offset);
const float inv_resolution_1 = 1.0f / (float)(resolution - 1);
for (int y = 0; y < resolution; y++) {
const float v = y * inv_resolution_1;
for (int x = 0; x < resolution; x++) {
const float u = x * inv_resolution_1;
short normal[3];
BKE_subdiv_eval_limit_point_and_short_normal(
subdiv,
ptex_face_index,
u, v,
point_buffer, normal);
buffer_write_short_value(&normal_buffer, normal, 3);
buffer_apply_offset(&point_buffer, point_stride);
buffer_apply_offset(&normal_buffer, normal_stride);
}
}
}
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