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test2/source/blender/editors/object/object_bake.c
Hans Goudey 05952aa94d Mesh: Remove redundant custom data pointers 
For copy-on-write, we want to share attribute arrays between meshes
where possible. Mutable pointers like `Mesh.mvert` make that difficult
by making ownership vague. They also make code more complex by adding
redundancy.

The simplest solution is just removing them and retrieving layers from
`CustomData` as needed. Similar changes have already been applied to
curves and point clouds (e9f82d3dc7, 410a6efb74). Removing use of
the pointers generally makes code more obvious and more reusable.

Mesh data is now accessed with a C++ API (`Mesh::edges()` or
`Mesh::edges_for_write()`), and a C API (`BKE_mesh_edges(mesh)`).

The CoW changes this commit makes possible are described in T95845
and T95842, and started in D14139 and D14140. The change also simplifies
the ongoing mesh struct-of-array refactors from T95965.

**RNA/Python Access Performance**
Theoretically, accessing mesh elements with the RNA API may become
slower, since the layer needs to be found on every random access.
However, overhead is already high enough that this doesn't make a
noticible differenc, and performance is actually improved in some
cases. Random access can be up to 10% faster, but other situations
might be a bit slower. Generally using `foreach_get/set` are the best
way to improve performance. See the differential revision for more
discussion about Python performance.

Cycles has been updated to use raw pointers and the internal Blender
mesh types, mostly because there is no sense in having this overhead
when it's already compiled with Blender. In my tests this roughly
halves the Cycles mesh creation time (0.19s to 0.10s for a 1 million
face grid).

Differential Revision: https://developer.blender.org/D15488
2022-09-05 11:56:34 -05:00

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/* SPDX-License-Identifier: GPL-2.0-or-later
* Copyright 2004 Blender Foundation. All rights reserved. */
/** \file
* \ingroup edobj
*/
#include <string.h>
#include "MEM_guardedalloc.h"
#include "DNA_material_types.h"
#include "DNA_mesh_types.h"
#include "DNA_meshdata_types.h"
#include "DNA_object_types.h"
#include "DNA_scene_types.h"
#include "DNA_screen_types.h"
#include "DNA_space_types.h"
#include "DNA_world_types.h"
#include "BLI_blenlib.h"
#include "BLI_utildefines.h"
#include "BKE_DerivedMesh.h"
#include "BKE_blender.h"
#include "BKE_cdderivedmesh.h"
#include "BKE_context.h"
#include "BKE_global.h"
#include "BKE_image.h"
#include "BKE_material.h"
#include "BKE_mesh.h"
#include "BKE_modifier.h"
#include "BKE_multires.h"
#include "BKE_report.h"
#include "BKE_scene.h"
#include "DEG_depsgraph.h"
#include "RE_multires_bake.h"
#include "RE_pipeline.h"
#include "RE_texture.h"
#include "PIL_time.h"
#include "IMB_imbuf.h"
#include "IMB_imbuf_types.h"
#include "WM_api.h"
#include "WM_types.h"
#include "ED_object.h"
#include "ED_screen.h"
#include "ED_uvedit.h"
#include "object_intern.h"
static Image *bake_object_image_get(Object *ob, int mat_nr)
{
Image *image = NULL;
ED_object_get_active_image(ob, mat_nr + 1, &image, NULL, NULL, NULL);
return image;
}
static Image **bake_object_image_get_array(Object *ob)
{
Image **image_array = MEM_mallocN(sizeof(Material *) * ob->totcol, __func__);
for (int i = 0; i < ob->totcol; i++) {
image_array[i] = bake_object_image_get(ob, i);
}
return image_array;
}
/* ****************** multires BAKING ********************** */
/* holder of per-object data needed for bake job
* needed to make job totally thread-safe */
typedef struct MultiresBakerJobData {
struct MultiresBakerJobData *next, *prev;
/* material aligned image array (for per-face bake image) */
struct {
Image **array;
int len;
} ob_image;
DerivedMesh *lores_dm, *hires_dm;
int lvl, tot_lvl;
ListBase images;
} MultiresBakerJobData;
/* data passing to multires-baker job */
typedef struct {
Scene *scene;
ListBase data;
/** Clear the images before baking */
bool bake_clear;
/** Margin size in pixels. */
int bake_margin;
/** margin type */
char bake_margin_type;
/** mode of baking (displacement, normals, AO) */
short mode;
/** Use low-resolution mesh when baking displacement maps */
bool use_lores_mesh;
/** Number of rays to be cast when doing AO baking */
int number_of_rays;
/** Bias between object and start ray point when doing AO baking */
float bias;
/** Number of threads to be used for baking */
int threads;
/** User scale used to scale displacement when baking derivative map. */
float user_scale;
} MultiresBakeJob;
static bool multiresbake_check(bContext *C, wmOperator *op)
{
Scene *scene = CTX_data_scene(C);
Object *ob;
Mesh *me;
MultiresModifierData *mmd;
bool ok = true;
int a;
CTX_DATA_BEGIN (C, Base *, base, selected_editable_bases) {
ob = base->object;
if (ob->type != OB_MESH) {
BKE_report(
op->reports, RPT_ERROR, "Baking of multires data only works with an active mesh object");
ok = false;
break;
}
me = (Mesh *)ob->data;
mmd = get_multires_modifier(scene, ob, 0);
/* Multi-resolution should be and be last in the stack */
if (ok && mmd) {
ModifierData *md;
ok = mmd->totlvl > 0;
for (md = (ModifierData *)mmd->modifier.next; md && ok; md = md->next) {
if (BKE_modifier_is_enabled(scene, md, eModifierMode_Realtime)) {
ok = false;
}
}
}
else {
ok = false;
}
if (!ok) {
BKE_report(op->reports, RPT_ERROR, "Multires data baking requires multi-resolution object");
break;
}
if (!CustomData_has_layer(&me->ldata, CD_MLOOPUV)) {
BKE_report(op->reports, RPT_ERROR, "Mesh should be unwrapped before multires data baking");
ok = false;
}
else {
const int *material_indices = BKE_mesh_material_indices(me);
a = me->totpoly;
while (ok && a--) {
Image *ima = bake_object_image_get(ob, material_indices ? material_indices[a] : 0);
if (!ima) {
BKE_report(
op->reports, RPT_ERROR, "You should have active texture to use multires baker");
ok = false;
}
else {
LISTBASE_FOREACH (ImageTile *, tile, &ima->tiles) {
ImageUser iuser;
BKE_imageuser_default(&iuser);
iuser.tile = tile->tile_number;
ImBuf *ibuf = BKE_image_acquire_ibuf(ima, &iuser, NULL);
if (!ibuf) {
BKE_report(
op->reports, RPT_ERROR, "Baking should happen to image with image buffer");
ok = false;
}
else {
if (ibuf->rect == NULL && ibuf->rect_float == NULL) {
ok = false;
}
if (ibuf->rect_float && !(ELEM(ibuf->channels, 0, 4))) {
ok = false;
}
if (!ok) {
BKE_report(op->reports, RPT_ERROR, "Baking to unsupported image type");
}
}
BKE_image_release_ibuf(ima, ibuf, NULL);
}
}
}
}
if (!ok) {
break;
}
}
CTX_DATA_END;
return ok;
}
static DerivedMesh *multiresbake_create_loresdm(Scene *scene, Object *ob, int *lvl)
{
DerivedMesh *dm;
MultiresModifierData *mmd = get_multires_modifier(scene, ob, 0);
Mesh *me = (Mesh *)ob->data;
MultiresModifierData tmp_mmd = *mmd;
*lvl = mmd->lvl;
if (mmd->lvl == 0) {
DerivedMesh *cddm = CDDM_from_mesh(me);
DM_set_only_copy(cddm, &CD_MASK_BAREMESH);
return cddm;
}
DerivedMesh *cddm = CDDM_from_mesh(me);
DM_set_only_copy(cddm, &CD_MASK_BAREMESH);
tmp_mmd.lvl = mmd->lvl;
tmp_mmd.sculptlvl = mmd->lvl;
dm = multires_make_derived_from_derived(cddm, &tmp_mmd, scene, ob, 0);
cddm->release(cddm);
return dm;
}
static DerivedMesh *multiresbake_create_hiresdm(Scene *scene, Object *ob, int *lvl)
{
Mesh *me = (Mesh *)ob->data;
MultiresModifierData *mmd = get_multires_modifier(scene, ob, 0);
MultiresModifierData tmp_mmd = *mmd;
DerivedMesh *cddm = CDDM_from_mesh(me);
DerivedMesh *dm;
DM_set_only_copy(cddm, &CD_MASK_BAREMESH);
/* TODO: DM_set_only_copy wouldn't set mask for loop and poly data,
* but we really need BAREMESH only to save lots of memory
*/
CustomData_set_only_copy(&cddm->loopData, CD_MASK_BAREMESH.lmask);
CustomData_set_only_copy(&cddm->polyData, CD_MASK_BAREMESH.pmask);
*lvl = mmd->totlvl;
tmp_mmd.lvl = mmd->totlvl;
tmp_mmd.sculptlvl = mmd->totlvl;
dm = multires_make_derived_from_derived(cddm, &tmp_mmd, scene, ob, 0);
cddm->release(cddm);
return dm;
}
typedef enum ClearFlag {
CLEAR_TANGENT_NORMAL = 1,
CLEAR_DISPLACEMENT = 2,
} ClearFlag;
static void clear_single_image(Image *image, ClearFlag flag)
{
const float vec_alpha[4] = {0.0f, 0.0f, 0.0f, 0.0f};
const float vec_solid[4] = {0.0f, 0.0f, 0.0f, 1.0f};
const float nor_alpha[4] = {0.5f, 0.5f, 1.0f, 0.0f};
const float nor_solid[4] = {0.5f, 0.5f, 1.0f, 1.0f};
const float disp_alpha[4] = {0.5f, 0.5f, 0.5f, 0.0f};
const float disp_solid[4] = {0.5f, 0.5f, 0.5f, 1.0f};
if ((image->id.tag & LIB_TAG_DOIT) == 0) {
LISTBASE_FOREACH (ImageTile *, tile, &image->tiles) {
ImageUser iuser;
BKE_imageuser_default(&iuser);
iuser.tile = tile->tile_number;
ImBuf *ibuf = BKE_image_acquire_ibuf(image, &iuser, NULL);
if (flag == CLEAR_TANGENT_NORMAL) {
IMB_rectfill(ibuf, (ibuf->planes == R_IMF_PLANES_RGBA) ? nor_alpha : nor_solid);
}
else if (flag == CLEAR_DISPLACEMENT) {
IMB_rectfill(ibuf, (ibuf->planes == R_IMF_PLANES_RGBA) ? disp_alpha : disp_solid);
}
else {
IMB_rectfill(ibuf, (ibuf->planes == R_IMF_PLANES_RGBA) ? vec_alpha : vec_solid);
}
image->id.tag |= LIB_TAG_DOIT;
BKE_image_release_ibuf(image, ibuf, NULL);
}
}
}
static void clear_images_poly(Image **ob_image_array, int ob_image_array_len, ClearFlag flag)
{
for (int i = 0; i < ob_image_array_len; i++) {
Image *image = ob_image_array[i];
if (image) {
image->id.tag &= ~LIB_TAG_DOIT;
}
}
for (int i = 0; i < ob_image_array_len; i++) {
Image *image = ob_image_array[i];
if (image) {
clear_single_image(image, flag);
}
}
for (int i = 0; i < ob_image_array_len; i++) {
Image *image = ob_image_array[i];
if (image) {
image->id.tag &= ~LIB_TAG_DOIT;
}
}
}
static int multiresbake_image_exec_locked(bContext *C, wmOperator *op)
{
Object *ob;
Scene *scene = CTX_data_scene(C);
int objects_baked = 0;
if (!multiresbake_check(C, op)) {
return OPERATOR_CANCELLED;
}
if (scene->r.bake_flag & R_BAKE_CLEAR) { /* clear images */
CTX_DATA_BEGIN (C, Base *, base, selected_editable_bases) {
ClearFlag clear_flag = 0;
ob = base->object;
// me = (Mesh *)ob->data;
if (scene->r.bake_mode == RE_BAKE_NORMALS) {
clear_flag = CLEAR_TANGENT_NORMAL;
}
else if (scene->r.bake_mode == RE_BAKE_DISPLACEMENT) {
clear_flag = CLEAR_DISPLACEMENT;
}
{
Image **ob_image_array = bake_object_image_get_array(ob);
clear_images_poly(ob_image_array, ob->totcol, clear_flag);
MEM_freeN(ob_image_array);
}
}
CTX_DATA_END;
}
CTX_DATA_BEGIN (C, Base *, base, selected_editable_bases) {
MultiresBakeRender bkr = {NULL};
ob = base->object;
multires_flush_sculpt_updates(ob);
/* copy data stored in job descriptor */
bkr.scene = scene;
bkr.bake_margin = scene->r.bake_margin;
if (scene->r.bake_mode == RE_BAKE_NORMALS) {
bkr.bake_margin_type = R_BAKE_EXTEND;
}
else {
bkr.bake_margin_type = scene->r.bake_margin_type;
}
bkr.mode = scene->r.bake_mode;
bkr.use_lores_mesh = scene->r.bake_flag & R_BAKE_LORES_MESH;
bkr.bias = scene->r.bake_biasdist;
bkr.number_of_rays = scene->r.bake_samples;
bkr.threads = BKE_scene_num_threads(scene);
bkr.user_scale = (scene->r.bake_flag & R_BAKE_USERSCALE) ? scene->r.bake_user_scale : -1.0f;
// bkr.reports= op->reports;
/* create low-resolution DM (to bake to) and hi-resolution DM (to bake from) */
bkr.ob_image.array = bake_object_image_get_array(ob);
bkr.ob_image.len = ob->totcol;
bkr.hires_dm = multiresbake_create_hiresdm(scene, ob, &bkr.tot_lvl);
bkr.lores_dm = multiresbake_create_loresdm(scene, ob, &bkr.lvl);
RE_multires_bake_images(&bkr);
MEM_freeN(bkr.ob_image.array);
BLI_freelistN(&bkr.image);
bkr.lores_dm->release(bkr.lores_dm);
bkr.hires_dm->release(bkr.hires_dm);
objects_baked++;
}
CTX_DATA_END;
if (!objects_baked) {
BKE_report(op->reports, RPT_ERROR, "No objects found to bake from");
}
return OPERATOR_FINISHED;
}
/* Multiresbake adopted for job-system executing */
static void init_multiresbake_job(bContext *C, MultiresBakeJob *bkj)
{
Scene *scene = CTX_data_scene(C);
Object *ob;
/* backup scene settings, so their changing in UI would take no effect on baker */
bkj->scene = scene;
bkj->bake_margin = scene->r.bake_margin;
if (scene->r.bake_mode == RE_BAKE_NORMALS) {
bkj->bake_margin_type = R_BAKE_EXTEND;
}
else {
bkj->bake_margin_type = scene->r.bake_margin_type;
}
bkj->mode = scene->r.bake_mode;
bkj->use_lores_mesh = scene->r.bake_flag & R_BAKE_LORES_MESH;
bkj->bake_clear = scene->r.bake_flag & R_BAKE_CLEAR;
bkj->bias = scene->r.bake_biasdist;
bkj->number_of_rays = scene->r.bake_samples;
bkj->threads = BKE_scene_num_threads(scene);
bkj->user_scale = (scene->r.bake_flag & R_BAKE_USERSCALE) ? scene->r.bake_user_scale : -1.0f;
// bkj->reports = op->reports;
CTX_DATA_BEGIN (C, Base *, base, selected_editable_bases) {
MultiresBakerJobData *data;
int lvl;
ob = base->object;
multires_flush_sculpt_updates(ob);
data = MEM_callocN(sizeof(MultiresBakerJobData), "multiresBaker derivedMesh_data");
data->ob_image.array = bake_object_image_get_array(ob);
data->ob_image.len = ob->totcol;
/* create low-resolution DM (to bake to) and hi-resolution DM (to bake from) */
data->hires_dm = multiresbake_create_hiresdm(scene, ob, &data->tot_lvl);
data->lores_dm = multiresbake_create_loresdm(scene, ob, &lvl);
data->lvl = lvl;
BLI_addtail(&bkj->data, data);
}
CTX_DATA_END;
}
static void multiresbake_startjob(void *bkv, short *stop, short *do_update, float *progress)
{
MultiresBakerJobData *data;
MultiresBakeJob *bkj = bkv;
int baked_objects = 0, tot_obj;
tot_obj = BLI_listbase_count(&bkj->data);
if (bkj->bake_clear) { /* clear images */
for (data = bkj->data.first; data; data = data->next) {
ClearFlag clear_flag = 0;
if (bkj->mode == RE_BAKE_NORMALS) {
clear_flag = CLEAR_TANGENT_NORMAL;
}
else if (bkj->mode == RE_BAKE_DISPLACEMENT) {
clear_flag = CLEAR_DISPLACEMENT;
}
clear_images_poly(data->ob_image.array, data->ob_image.len, clear_flag);
}
}
for (data = bkj->data.first; data; data = data->next) {
MultiresBakeRender bkr = {NULL};
/* copy data stored in job descriptor */
bkr.scene = bkj->scene;
bkr.bake_margin = bkj->bake_margin;
bkr.bake_margin_type = bkj->bake_margin_type;
bkr.mode = bkj->mode;
bkr.use_lores_mesh = bkj->use_lores_mesh;
bkr.user_scale = bkj->user_scale;
// bkr.reports = bkj->reports;
bkr.ob_image.array = data->ob_image.array;
bkr.ob_image.len = data->ob_image.len;
/* create low-resolution DM (to bake to) and hi-resolution DM (to bake from) */
bkr.lores_dm = data->lores_dm;
bkr.hires_dm = data->hires_dm;
bkr.tot_lvl = data->tot_lvl;
bkr.lvl = data->lvl;
/* needed for proper progress bar */
bkr.tot_obj = tot_obj;
bkr.baked_objects = baked_objects;
bkr.stop = stop;
bkr.do_update = do_update;
bkr.progress = progress;
bkr.bias = bkj->bias;
bkr.number_of_rays = bkj->number_of_rays;
bkr.threads = bkj->threads;
RE_multires_bake_images(&bkr);
data->images = bkr.image;
baked_objects++;
}
}
static void multiresbake_freejob(void *bkv)
{
MultiresBakeJob *bkj = bkv;
MultiresBakerJobData *data, *next;
LinkData *link;
data = bkj->data.first;
while (data) {
next = data->next;
data->lores_dm->release(data->lores_dm);
data->hires_dm->release(data->hires_dm);
/* delete here, since this delete will be called from main thread */
for (link = data->images.first; link; link = link->next) {
Image *ima = (Image *)link->data;
BKE_image_partial_update_mark_full_update(ima);
}
MEM_freeN(data->ob_image.array);
BLI_freelistN(&data->images);
MEM_freeN(data);
data = next;
}
MEM_freeN(bkj);
}
static int multiresbake_image_exec(bContext *C, wmOperator *op)
{
Scene *scene = CTX_data_scene(C);
MultiresBakeJob *bkr;
wmJob *wm_job;
if (!multiresbake_check(C, op)) {
return OPERATOR_CANCELLED;
}
bkr = MEM_callocN(sizeof(MultiresBakeJob), "MultiresBakeJob data");
init_multiresbake_job(C, bkr);
if (!bkr->data.first) {
BKE_report(op->reports, RPT_ERROR, "No objects found to bake from");
return OPERATOR_CANCELLED;
}
/* setup job */
wm_job = WM_jobs_get(CTX_wm_manager(C),
CTX_wm_window(C),
scene,
"Multires Bake",
WM_JOB_EXCL_RENDER | WM_JOB_PRIORITY | WM_JOB_PROGRESS,
WM_JOB_TYPE_OBJECT_BAKE_TEXTURE);
WM_jobs_customdata_set(wm_job, bkr, multiresbake_freejob);
WM_jobs_timer(wm_job, 0.5, NC_IMAGE, 0); /* TODO: only draw bake image, can we enforce this. */
WM_jobs_callbacks(wm_job, multiresbake_startjob, NULL, NULL, NULL);
G.is_break = false;
WM_jobs_start(CTX_wm_manager(C), wm_job);
WM_cursor_wait(false);
/* add modal handler for ESC */
WM_event_add_modal_handler(C, op);
return OPERATOR_RUNNING_MODAL;
}
/* ****************** render BAKING ********************** */
/** Catch escape key to cancel. */
static int objects_bake_render_modal(bContext *C, wmOperator *UNUSED(op), const wmEvent *event)
{
/* no running blender, remove handler and pass through */
if (0 == WM_jobs_test(CTX_wm_manager(C), CTX_data_scene(C), WM_JOB_TYPE_OBJECT_BAKE_TEXTURE)) {
return OPERATOR_FINISHED | OPERATOR_PASS_THROUGH;
}
/* running render */
switch (event->type) {
case EVT_ESCKEY:
return OPERATOR_RUNNING_MODAL;
}
return OPERATOR_PASS_THROUGH;
}
static bool is_multires_bake(Scene *scene)
{
if (ELEM(scene->r.bake_mode, RE_BAKE_NORMALS, RE_BAKE_DISPLACEMENT, RE_BAKE_AO)) {
return scene->r.bake_flag & R_BAKE_MULTIRES;
}
return 0;
}
static int objects_bake_render_invoke(bContext *C, wmOperator *op, const wmEvent *UNUSED(_event))
{
Scene *scene = CTX_data_scene(C);
int result = OPERATOR_CANCELLED;
result = multiresbake_image_exec(C, op);
WM_event_add_notifier(C, NC_SCENE | ND_RENDER_RESULT, scene);
return result;
}
static int bake_image_exec(bContext *C, wmOperator *op)
{
Scene *scene = CTX_data_scene(C);
int result = OPERATOR_CANCELLED;
if (!is_multires_bake(scene)) {
BLI_assert(0);
return result;
}
result = multiresbake_image_exec_locked(C, op);
WM_event_add_notifier(C, NC_SCENE | ND_RENDER_RESULT, scene);
return result;
}
void OBJECT_OT_bake_image(wmOperatorType *ot)
{
/* identifiers */
ot->name = "Bake";
ot->description = "Bake image textures of selected objects";
ot->idname = "OBJECT_OT_bake_image";
/* api callbacks */
ot->exec = bake_image_exec;
ot->invoke = objects_bake_render_invoke;
ot->modal = objects_bake_render_modal;
ot->poll = ED_operator_object_active;
}
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