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c448196bb4c99b13cdaaf0e197a9f44a46b3bc18
blender-archive/source/blender/render/intern/source/pipeline.c
Campbell Barton c448196bb4 Cleanup: warnings
2015-04-14 10:34:32 +10:00

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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) 2006 Blender Foundation.
* All rights reserved.
*
* The Original Code is: all of this file.
*
* Contributor(s): none yet.
*
* ***** END GPL LICENSE BLOCK *****
*/
/** \file blender/render/intern/source/pipeline.c
* \ingroup render
*/
#include <math.h>
#include <limits.h>
#include <string.h>
#include <stdlib.h>
#include <stddef.h>
#include "DNA_image_types.h"
#include "DNA_node_types.h"
#include "DNA_object_types.h"
#include "DNA_scene_types.h"
#include "DNA_sequence_types.h"
#include "DNA_userdef_types.h"
#include "MEM_guardedalloc.h"
#include "BLI_math.h"
#include "BLI_rect.h"
#include "BLI_listbase.h"
#include "BLI_string.h"
#include "BLI_path_util.h"
#include "BLI_fileops.h"
#include "BLI_threads.h"
#include "BLI_rand.h"
#include "BLI_callbacks.h"
#include "BLF_translation.h"
#include "BKE_animsys.h" /* <------ should this be here?, needed for sequencer update */
#include "BKE_camera.h"
#include "BKE_depsgraph.h"
#include "BKE_global.h"
#include "BKE_image.h"
#include "BKE_library.h"
#include "BKE_main.h"
#include "BKE_modifier.h"
#include "BKE_node.h"
#include "BKE_pointcache.h"
#include "BKE_report.h"
#include "BKE_scene.h"
#include "BKE_sequencer.h"
#include "BKE_writeavi.h" /* <------ should be replaced once with generic movie module */
#include "BKE_object.h"
#include "PIL_time.h"
#include "IMB_colormanagement.h"
#include "IMB_imbuf.h"
#include "IMB_imbuf_types.h"
#include "RE_engine.h"
#include "RE_pipeline.h"
#ifdef WITH_FREESTYLE
# include "FRS_freestyle.h"
#endif
/* internal */
#include "render_result.h"
#include "render_types.h"
#include "renderpipeline.h"
#include "renderdatabase.h"
#include "rendercore.h"
#include "initrender.h"
#include "pixelblending.h"
#include "zbuf.h"
/* render flow
*
* 1) Initialize state
* - state data, tables
* - movie/image file init
* - everything that doesn't change during animation
*
* 2) Initialize data
* - camera, world, matrices
* - make render verts, faces, halos, strands
* - everything can change per frame/field
*
* 3) Render Processor
* - multiple layers
* - tiles, rect, baking
* - layers/tiles optionally to disk or directly in Render Result
*
* 4) Composite Render Result
* - also read external files etc
*
* 5) Image Files
* - save file or append in movie
*
*/
/* ********* globals ******** */
/* here we store all renders */
static struct {
ListBase renderlist;
} RenderGlobal = {{NULL, NULL}};
/* hardcopy of current render, used while rendering for speed */
Render R;
/* ********* alloc and free ******** */
static int do_write_image_or_movie(Render *re, Main *bmain, Scene *scene, bMovieHandle *mh, const size_t totvideos, const char *name_override);
static volatile int g_break = 0;
static int thread_break(void *UNUSED(arg))
{
return g_break;
}
/* default callbacks, set in each new render */
static void result_nothing(void *UNUSED(arg), RenderResult *UNUSED(rr)) {}
static void result_rcti_nothing(void *UNUSED(arg), RenderResult *UNUSED(rr), volatile struct rcti *UNUSED(rect)) {}
static void current_scene_nothing(void *UNUSED(arg), Scene *UNUSED(scene)) {}
static void stats_nothing(void *UNUSED(arg), RenderStats *UNUSED(rs)) {}
static void float_nothing(void *UNUSED(arg), float UNUSED(val)) {}
static int default_break(void *UNUSED(arg)) { return G.is_break == true; }
static void stats_background(void *UNUSED(arg), RenderStats *rs)
{
uintptr_t mem_in_use, mmap_in_use, peak_memory;
float megs_used_memory, mmap_used_memory, megs_peak_memory;
mem_in_use = MEM_get_memory_in_use();
mmap_in_use = MEM_get_mapped_memory_in_use();
peak_memory = MEM_get_peak_memory();
megs_used_memory = (mem_in_use - mmap_in_use) / (1024.0 * 1024.0);
mmap_used_memory = (mmap_in_use) / (1024.0 * 1024.0);
megs_peak_memory = (peak_memory) / (1024.0 * 1024.0);
fprintf(stdout, IFACE_("Fra:%d Mem:%.2fM (%.2fM, Peak %.2fM) "), rs->cfra,
megs_used_memory, mmap_used_memory, megs_peak_memory);
if (rs->curfield)
fprintf(stdout, IFACE_("Field %d "), rs->curfield);
if (rs->curblur)
fprintf(stdout, IFACE_("Blur %d "), rs->curblur);
if (rs->infostr) {
fprintf(stdout, "| %s", rs->infostr);
}
else {
if (rs->tothalo)
fprintf(stdout, IFACE_("Sce: %s Ve:%d Fa:%d Ha:%d La:%d"),
rs->scene_name, rs->totvert, rs->totface, rs->tothalo, rs->totlamp);
else
fprintf(stdout, IFACE_("Sce: %s Ve:%d Fa:%d La:%d"), rs->scene_name, rs->totvert, rs->totface, rs->totlamp);
}
BLI_callback_exec(G.main, NULL, BLI_CB_EVT_RENDER_STATS);
fputc('\n', stdout);
fflush(stdout);
}
void RE_FreeRenderResult(RenderResult *res)
{
render_result_free(res);
}
float *RE_RenderLayerGetPass(volatile RenderLayer *rl, int passtype, const char *viewname)
{
RenderPass *rpass;
float *rect = NULL;
for (rpass = rl->passes.last; rpass; rpass = rpass->prev) {
if (rpass->passtype == passtype) {
rect = rpass->rect;
if (viewname == NULL)
break;
else if (STREQ(rpass->view, viewname))
break;
}
}
return rect;
}
RenderLayer *RE_GetRenderLayer(RenderResult *rr, const char *name)
{
if (rr == NULL) {
return NULL;
}
else {
return BLI_findstring(&rr->layers, name, offsetof(RenderLayer, name));
}
}
RenderResult *RE_MultilayerConvert(void *exrhandle, const char *colorspace, bool predivide, int rectx, int recty)
{
return render_result_new_from_exr(exrhandle, colorspace, predivide, rectx, recty);
}
RenderLayer *render_get_active_layer(Render *re, RenderResult *rr)
{
RenderLayer *rl = BLI_findlink(&rr->layers, re->r.actlay);
if (rl)
return rl;
else
return rr->layers.first;
}
static int render_scene_needs_vector(Render *re)
{
SceneRenderLayer *srl;
for (srl = re->r.layers.first; srl; srl = srl->next)
if (!(srl->layflag & SCE_LAY_DISABLE))
if (srl->passflag & SCE_PASS_VECTOR)
return 1;
return 0;
}
static bool render_scene_has_layers_to_render(Scene *scene)
{
SceneRenderLayer *srl;
for (srl = scene->r.layers.first; srl; srl = srl->next) {
if (!(srl->layflag & SCE_LAY_DISABLE)) {
return true;
}
}
return false;
}
/* *************************************************** */
Render *RE_GetRender(const char *name)
{
Render *re;
/* search for existing renders */
for (re = RenderGlobal.renderlist.first; re; re = re->next)
if (STREQLEN(re->name, name, RE_MAXNAME))
break;
return re;
}
/* if you want to know exactly what has been done */
RenderResult *RE_AcquireResultRead(Render *re)
{
if (re) {
BLI_rw_mutex_lock(&re->resultmutex, THREAD_LOCK_READ);
return re->result;
}
return NULL;
}
RenderResult *RE_AcquireResultWrite(Render *re)
{
if (re) {
BLI_rw_mutex_lock(&re->resultmutex, THREAD_LOCK_WRITE);
return re->result;
}
return NULL;
}
void RE_SwapResult(Render *re, RenderResult **rr)
{
/* for keeping render buffers */
if (re) {
SWAP(RenderResult *, re->result, *rr);
}
}
void RE_ReleaseResult(Render *re)
{
if (re)
BLI_rw_mutex_unlock(&re->resultmutex);
}
/* displist.c util.... */
Scene *RE_GetScene(Render *re)
{
if (re)
return re->scene;
return NULL;
}
/**
* Same as #RE_AcquireResultImage but creating the necessary views to store the result
* fill provided result struct with a copy of thew views of what is done so far the
* #RenderResult.views #ListBase needs to be freed after with #RE_ReleaseResultImageViews
*/
void RE_AcquireResultImageViews(Render *re, RenderResult *rr)
{
memset(rr, 0, sizeof(RenderResult));
if (re) {
BLI_rw_mutex_lock(&re->resultmutex, THREAD_LOCK_READ);
if (re->result) {
RenderLayer *rl;
RenderView *rv, *rview;
rr->rectx = re->result->rectx;
rr->recty = re->result->recty;
/* creates a temporary duplication of views */
render_result_views_shallowcopy(rr, re->result);
rv = rr->views.first;
rr->have_combined = (rv->rectf != NULL);
/* active layer */
rl = render_get_active_layer(re, re->result);
if (rl) {
if (rv->rectf == NULL) {
for (rview = (RenderView *)rr->views.first; rview; rview = rview->next) {
rview->rectf = RE_RenderLayerGetPass(rl, SCE_PASS_COMBINED, rview->name);
}
}
if (rv->rectz == NULL) {
for (rview = (RenderView *)rr->views.first; rview; rview = rview->next) {
rview->rectz = RE_RenderLayerGetPass(rl, SCE_PASS_Z, rview->name);
}
}
}
rr->layers = re->result->layers;
rr->xof = re->disprect.xmin;
rr->yof = re->disprect.ymin;
}
}
}
/* clear temporary renderresult struct */
void RE_ReleaseResultImageViews(Render *re, RenderResult *rr)
{
if (re) {
if (rr) {
render_result_views_shallowdelete(rr);
}
BLI_rw_mutex_unlock(&re->resultmutex);
}
}
/* fill provided result struct with what's currently active or done */
void RE_AcquireResultImage(Render *re, RenderResult *rr, const int view_id)
{
memset(rr, 0, sizeof(RenderResult));
if (re) {
BLI_rw_mutex_lock(&re->resultmutex, THREAD_LOCK_READ);
if (re->result) {
RenderLayer *rl;
RenderView *rv;
rr->rectx = re->result->rectx;
rr->recty = re->result->recty;
/* actview view */
rv = BLI_findlink(&re->result->views, view_id);
if (rv == NULL)
rv = (RenderView *)re->result->views.first;
rr->rectf = rv ? rv->rectf : NULL;
rr->rectz = rv ? rv->rectz : NULL;
rr->rect32 = rv ? rv->rect32 : NULL;
/* active layer */
rl = render_get_active_layer(re, re->result);
if (rl && rv) {
if (rv->rectf == NULL)
rr->rectf = RE_RenderLayerGetPass(rl, SCE_PASS_COMBINED, rv->name);
if (rv->rectz == NULL)
rr->rectz = RE_RenderLayerGetPass(rl, SCE_PASS_Z, rv->name);
}
rr->have_combined = rv ? (rv->rectf != NULL) : false;
rr->layers = re->result->layers;
rr->views = re->result->views;
rr->xof = re->disprect.xmin;
rr->yof = re->disprect.ymin;
}
}
}
void RE_ReleaseResultImage(Render *re)
{
if (re)
BLI_rw_mutex_unlock(&re->resultmutex);
}
/* caller is responsible for allocating rect in correct size! */
void RE_ResultGet32(Render *re, unsigned int *rect)
{
RenderResult rres;
const size_t view_id = BKE_scene_multiview_view_id_get(&re->r, re->viewname);
RE_AcquireResultImage(re, &rres, view_id);
render_result_rect_get_pixels(&rres, rect, re->rectx, re->recty, &re->scene->view_settings, &re->scene->display_settings, 0);
RE_ReleaseResultImage(re);
}
/* caller is responsible for allocating rect in correct size! */
/* Only for acquired results, for lock */
void RE_AcquiredResultGet32(Render *re, RenderResult *result, unsigned int *rect, const int view_id)
{
render_result_rect_get_pixels(result, rect, re->rectx, re->recty, &re->scene->view_settings, &re->scene->display_settings, view_id);
}
RenderStats *RE_GetStats(Render *re)
{
return &re->i;
}
Render *RE_NewRender(const char *name)
{
Render *re;
/* only one render per name exists */
re = RE_GetRender(name);
if (re == NULL) {
/* new render data struct */
re = MEM_callocN(sizeof(Render), "new render");
BLI_addtail(&RenderGlobal.renderlist, re);
BLI_strncpy(re->name, name, RE_MAXNAME);
BLI_rw_mutex_init(&re->resultmutex);
BLI_rw_mutex_init(&re->partsmutex);
re->eval_ctx = MEM_callocN(sizeof(EvaluationContext), "re->eval_ctx");
re->eval_ctx->mode = DAG_EVAL_RENDER;
}
RE_InitRenderCB(re);
/* init some variables */
re->ycor = 1.0f;
return re;
}
/* called for new renders and when finishing rendering so
* we always have valid callbacks on a render */
void RE_InitRenderCB(Render *re)
{
/* set default empty callbacks */
re->display_init = result_nothing;
re->display_clear = result_nothing;
re->display_update = result_rcti_nothing;
re->current_scene_update = current_scene_nothing;
re->progress = float_nothing;
re->test_break = default_break;
if (G.background)
re->stats_draw = stats_background;
else
re->stats_draw = stats_nothing;
/* clear callback handles */
re->dih = re->dch = re->duh = re->sdh = re->prh = re->tbh = NULL;
}
/* only call this while you know it will remove the link too */
void RE_FreeRender(Render *re)
{
if (re->engine)
RE_engine_free(re->engine);
BLI_rw_mutex_end(&re->resultmutex);
BLI_rw_mutex_end(&re->partsmutex);
BLI_freelistN(&re->r.layers);
/* main dbase can already be invalid now, some database-free code checks it */
re->main = NULL;
re->scene = NULL;
RE_Database_Free(re); /* view render can still have full database */
free_sample_tables(re);
render_result_free(re->result);
render_result_free(re->pushedresult);
BLI_remlink(&RenderGlobal.renderlist, re);
MEM_freeN(re->eval_ctx);
MEM_freeN(re);
}
/* exit blender */
void RE_FreeAllRender(void)
{
while (RenderGlobal.renderlist.first) {
RE_FreeRender(RenderGlobal.renderlist.first);
}
#ifdef WITH_FREESTYLE
/* finalize Freestyle */
FRS_exit();
#endif
}
/* on file load, free all re */
void RE_FreeAllRenderResults(void)
{
Render *re;
for (re = RenderGlobal.renderlist.first; re; re = re->next) {
render_result_free(re->result);
render_result_free(re->pushedresult);
re->result = NULL;
re->pushedresult = NULL;
}
}
void RE_FreePersistentData(void)
{
Render *re;
/* render engines can be kept around for quick re-render, this clears all */
for (re = RenderGlobal.renderlist.first; re; re = re->next) {
if (re->engine) {
/* if engine is currently rendering, just tag it to be freed when render is finished */
if (!(re->engine->flag & RE_ENGINE_RENDERING))
RE_engine_free(re->engine);
re->engine = NULL;
}
}
}
/* ********* initialize state ******** */
/* clear full sample and tile flags if needed */
static int check_mode_full_sample(RenderData *rd)
{
int scemode = rd->scemode;
if (!STREQ(rd->engine, RE_engine_id_BLENDER_RENDER) &&
!STREQ(rd->engine, RE_engine_id_BLENDER_GAME))
{
scemode &= ~R_FULL_SAMPLE;
}
if ((rd->mode & R_OSA) == 0)
scemode &= ~R_FULL_SAMPLE;
#ifdef WITH_OPENEXR
if (scemode & R_FULL_SAMPLE)
scemode |= R_EXR_TILE_FILE; /* enable automatic */
/* Until use_border is made compatible with save_buffers/full_sample, render without the later instead of not rendering at all.*/
if (rd->mode & R_BORDER) {
scemode &= ~(R_EXR_TILE_FILE | R_FULL_SAMPLE);
}
#else
/* can't do this without openexr support */
scemode &= ~(R_EXR_TILE_FILE | R_FULL_SAMPLE);
#endif
return scemode;
}
static void re_init_resolution(Render *re, Render *source,
int winx, int winy, rcti *disprect)
{
re->winx = winx;
re->winy = winy;
if (source && (source->r.mode & R_BORDER)) {
/* eeh, doesn't seem original bordered disprect is storing anywhere
* after insertion on black happening in do_render_fields_blur_3d(),
* so for now simply re-calculate disprect using border from source
* renderer (sergey)
*/
re->disprect.xmin = source->r.border.xmin * winx;
re->disprect.xmax = source->r.border.xmax * winx;
re->disprect.ymin = source->r.border.ymin * winy;
re->disprect.ymax = source->r.border.ymax * winy;
re->rectx = BLI_rcti_size_x(&re->disprect);
re->recty = BLI_rcti_size_y(&re->disprect);
/* copy border itself, since it could be used by external engines */
re->r.border = source->r.border;
}
else if (disprect) {
re->disprect = *disprect;
re->rectx = BLI_rcti_size_x(&re->disprect);
re->recty = BLI_rcti_size_y(&re->disprect);
}
else {
re->disprect.xmin = re->disprect.ymin = 0;
re->disprect.xmax = winx;
re->disprect.ymax = winy;
re->rectx = winx;
re->recty = winy;
}
/* we clip faces with a minimum of 2 pixel boundary outside of image border. see zbuf.c */
re->clipcrop = 1.0f + 2.0f / (float)(re->winx > re->winy ? re->winy : re->winx);
}
/* what doesn't change during entire render sequence */
/* disprect is optional, if NULL it assumes full window render */
void RE_InitState(Render *re, Render *source, RenderData *rd,
SceneRenderLayer *srl,
int winx, int winy, rcti *disprect)
{
bool had_freestyle = (re->r.mode & R_EDGE_FRS) != 0;
re->ok = true; /* maybe flag */
re->i.starttime = PIL_check_seconds_timer();
/* copy render data and render layers for thread safety */
BLI_freelistN(&re->r.layers);
re->r = *rd;
BLI_duplicatelist(&re->r.layers, &rd->layers);
if (source) {
/* reuse border flags from source renderer */
re->r.mode &= ~(R_BORDER | R_CROP);
re->r.mode |= source->r.mode & (R_BORDER | R_CROP);
/* dimensions shall be shared between all renderers */
re->r.xsch = source->r.xsch;
re->r.ysch = source->r.ysch;
re->r.size = source->r.size;
}
re_init_resolution(re, source, winx, winy, disprect);
if (re->rectx < 1 || re->recty < 1 || (BKE_imtype_is_movie(rd->im_format.imtype) &&
(re->rectx < 16 || re->recty < 16) ))
{
BKE_report(re->reports, RPT_ERROR, "Image too small");
re->ok = 0;
return;
}
re->r.scemode = check_mode_full_sample(&re->r);
/* fullsample wants uniform osa levels */
if (source && (re->r.scemode & R_FULL_SAMPLE)) {
/* but, if source has no full sample we disable it */
if ((source->r.scemode & R_FULL_SAMPLE) == 0)
re->r.scemode &= ~R_FULL_SAMPLE;
else
re->r.osa = re->osa = source->osa;
}
else {
/* check state variables, osa? */
if (re->r.mode & (R_OSA)) {
re->osa = re->r.osa;
if (re->osa > 16) re->osa = 16;
}
else re->osa = 0;
}
if (srl) {
int index = BLI_findindex(&rd->layers, srl);
if (index != -1) {
re->r.actlay = index;
re->r.scemode |= R_SINGLE_LAYER;
}
}
/* always call, checks for gamma, gamma tables and jitter too */
make_sample_tables(re);
/* if preview render, we try to keep old result */
BLI_rw_mutex_lock(&re->resultmutex, THREAD_LOCK_WRITE);
if (re->r.scemode & (R_BUTS_PREVIEW|R_VIEWPORT_PREVIEW)) {
if (had_freestyle || (re->r.mode & R_EDGE_FRS)) {
/* freestyle manipulates render layers so always have to free */
render_result_free(re->result);
re->result = NULL;
}
else if (re->result) {
SceneRenderLayer *actsrl = BLI_findlink(&re->r.layers, re->r.actlay);
RenderLayer *rl;
bool have_layer = false;
for (rl = re->result->layers.first; rl; rl = rl->next)
if (STREQ(rl->name, actsrl->name))
have_layer = true;
if (re->result->rectx == re->rectx && re->result->recty == re->recty &&
have_layer)
{
/* keep render result, this avoids flickering black tiles
* when the preview changes */
}
else {
/* free because resolution changed */
render_result_free(re->result);
re->result = NULL;
}
}
}
else {
/* make empty render result, so display callbacks can initialize */
render_result_free(re->result);
re->result = MEM_callocN(sizeof(RenderResult), "new render result");
re->result->rectx = re->rectx;
re->result->recty = re->recty;
}
if (re->r.scemode & R_VIEWPORT_PREVIEW)
re->eval_ctx->mode = DAG_EVAL_PREVIEW;
else
re->eval_ctx->mode = DAG_EVAL_RENDER;
/* ensure renderdatabase can use part settings correct */
RE_parts_clamp(re);
BLI_rw_mutex_unlock(&re->resultmutex);
re->mblur_offs = re->field_offs = 0.f;
RE_init_threadcount(re);
}
/* This function is only called by view3d rendering, which doesn't support
* multiview at the moment. so handle only one view here */
static void render_result_rescale(Render *re)
{
RenderResult *result = re->result;
int x, y;
float scale_x, scale_y;
float *src_rectf;
src_rectf = result->rectf;
if (src_rectf == NULL) {
RenderLayer *rl = render_get_active_layer(re, re->result);
if (rl != NULL) {
src_rectf = RE_RenderLayerGetPass(rl, SCE_PASS_COMBINED, NULL);
}
}
if (src_rectf != NULL) {
float *dst_rectf = NULL;
re->result = render_result_new(re,
&re->disprect,
0,
RR_USE_MEM,
RR_ALL_LAYERS,
"");
if (re->result != NULL) {
dst_rectf = re->result->rectf;
if (dst_rectf == NULL) {
RenderLayer *rl;
rl = render_get_active_layer(re, re->result);
if (rl != NULL) {
dst_rectf = RE_RenderLayerGetPass(rl, SCE_PASS_COMBINED, NULL);
}
}
scale_x = (float) result->rectx / re->result->rectx;
scale_y = (float) result->recty / re->result->recty;
for (x = 0; x < re->result->rectx; ++x) {
for (y = 0; y < re->result->recty; ++y) {
int src_x = x * scale_x;
int src_y = y * scale_y;
int dst_index = y * re->result->rectx + x;
int src_index = src_y * result->rectx + src_x;
copy_v4_v4(dst_rectf + dst_index * 4,
src_rectf + src_index * 4);
}
}
}
render_result_free(result);
}
}
void RE_ChangeResolution(Render *re, int winx, int winy, rcti *disprect)
{
re_init_resolution(re, NULL, winx, winy, disprect);
RE_parts_clamp(re);
if (re->result) {
BLI_rw_mutex_lock(&re->resultmutex, THREAD_LOCK_WRITE);
render_result_rescale(re);
BLI_rw_mutex_unlock(&re->resultmutex);
}
}
/* TODO(sergey): This is a bit hackish, used to temporary disable freestyle when
* doing viewport render. Needs some better integration of BI viewport rendering
* into the pipeline.
*/
void RE_ChangeModeFlag(Render *re, int flag, bool clear)
{
if (clear) {
re->r.mode &= ~flag;
}
else {
re->r.mode |= flag;
}
}
/* update some variables that can be animated, and otherwise wouldn't be due to
* RenderData getting copied once at the start of animation render */
void render_update_anim_renderdata(Render *re, RenderData *rd)
{
/* filter */
re->r.gauss = rd->gauss;
/* motion blur */
re->r.mblur_samples = rd->mblur_samples;
re->r.blurfac = rd->blurfac;
/* freestyle */
re->r.line_thickness_mode = rd->line_thickness_mode;
re->r.unit_line_thickness = rd->unit_line_thickness;
/* render layers */
BLI_freelistN(&re->r.layers);
BLI_duplicatelist(&re->r.layers, &rd->layers);
}
void RE_SetWindow(Render *re, rctf *viewplane, float clipsta, float clipend)
{
/* re->ok flag? */
re->viewplane = *viewplane;
re->clipsta = clipsta;
re->clipend = clipend;
re->r.mode &= ~R_ORTHO;
perspective_m4(re->winmat,
re->viewplane.xmin, re->viewplane.xmax,
re->viewplane.ymin, re->viewplane.ymax, re->clipsta, re->clipend);
}
void RE_SetOrtho(Render *re, rctf *viewplane, float clipsta, float clipend)
{
/* re->ok flag? */
re->viewplane = *viewplane;
re->clipsta = clipsta;
re->clipend = clipend;
re->r.mode |= R_ORTHO;
orthographic_m4(re->winmat,
re->viewplane.xmin, re->viewplane.xmax,
re->viewplane.ymin, re->viewplane.ymax, re->clipsta, re->clipend);
}
void RE_SetView(Render *re, float mat[4][4])
{
/* re->ok flag? */
copy_m4_m4(re->viewmat, mat);
invert_m4_m4(re->viewinv, re->viewmat);
}
void RE_GetViewPlane(Render *re, rctf *viewplane, rcti *disprect)
{
*viewplane = re->viewplane;
/* make disprect zero when no border render, is needed to detect changes in 3d view render */
if (re->r.mode & R_BORDER)
*disprect = re->disprect;
else
BLI_rcti_init(disprect, 0, 0, 0, 0);
}
void RE_GetView(Render *re, float mat[4][4])
{
copy_m4_m4(mat, re->viewmat);
}
/* image and movie output has to move to either imbuf or kernel */
void RE_display_init_cb(Render *re, void *handle, void (*f)(void *handle, RenderResult *rr))
{
re->display_init = f;
re->dih = handle;
}
void RE_display_clear_cb(Render *re, void *handle, void (*f)(void *handle, RenderResult *rr))
{
re->display_clear = f;
re->dch = handle;
}
void RE_display_update_cb(Render *re, void *handle, void (*f)(void *handle, RenderResult *rr, volatile rcti *rect))
{
re->display_update = f;
re->duh = handle;
}
void RE_current_scene_update_cb(Render *re, void *handle, void (*f)(void *handle, Scene *scene))
{
re->current_scene_update = f;
re->suh = handle;
}
void RE_stats_draw_cb(Render *re, void *handle, void (*f)(void *handle, RenderStats *rs))
{
re->stats_draw = f;
re->sdh = handle;
}
void RE_progress_cb(Render *re, void *handle, void (*f)(void *handle, float))
{
re->progress = f;
re->prh = handle;
}
void RE_draw_lock_cb(Render *re, void *handle, void (*f)(void *handle, int i))
{
re->draw_lock = f;
re->dlh = handle;
}
void RE_test_break_cb(Render *re, void *handle, int (*f)(void *handle))
{
re->test_break = f;
re->tbh = handle;
}
/* ********* add object data (later) ******** */
/* object is considered fully prepared on correct time etc */
/* includes lights */
#if 0
void RE_AddObject(Render *UNUSED(re), Object *UNUSED(ob))
{
}
#endif
/* *************************************** */
static int render_display_update_enabled(Render *re)
{
/* don't show preprocess for previewrender sss */
if (re->sss_points)
return !(re->r.scemode & (R_BUTS_PREVIEW|R_VIEWPORT_PREVIEW));
else
return 1;
}
/* the main thread call, renders an entire part */
static void *do_part_thread(void *pa_v)
{
RenderPart *pa = pa_v;
pa->status = PART_STATUS_IN_PROGRESS;
/* need to return nicely all parts on esc */
if (R.test_break(R.tbh) == 0) {
if (!R.sss_points && (R.r.scemode & R_FULL_SAMPLE))
pa->result = render_result_new_full_sample(&R, &pa->fullresult, &pa->disprect, pa->crop, RR_USE_MEM, R.viewname);
else
pa->result = render_result_new(&R, &pa->disprect, pa->crop, RR_USE_MEM, RR_ALL_LAYERS, R.viewname);
/* Copy EXR tile settings, so pipeline knows whether this is a result
* for Save Buffers enabled rendering.
*
* TODO(sergey): This actually duplicates logic with external engine, so
* worth looking into more generic solution.
*/
pa->result->do_exr_tile = R.result->do_exr_tile;
if (R.sss_points)
zbufshade_sss_tile(pa);
else if (R.osa)
zbufshadeDA_tile(pa);
else
zbufshade_tile(pa);
/* we do actually write pixels, but don't allocate/deallocate anything,
* so it is safe with other threads reading at the same time */
BLI_rw_mutex_lock(&R.resultmutex, THREAD_LOCK_READ);
/* merge too on break! */
if (R.result->do_exr_tile) {
render_result_exr_file_merge(R.result, pa->result, R.viewname);
}
else if (render_display_update_enabled(&R)) {
/* on break, don't merge in result for preview renders, looks nicer */
if (R.test_break(R.tbh) && (R.r.scemode & (R_BUTS_PREVIEW|R_VIEWPORT_PREVIEW))) {
/* pass */
}
else {
render_result_merge(R.result, pa->result);
}
}
BLI_rw_mutex_unlock(&R.resultmutex);
}
pa->status = PART_STATUS_READY;
return NULL;
}
/* calculus for how much 1 pixel rendered should rotate the 3d geometry */
/* is not that simple, needs to be corrected for errors of larger viewplane sizes */
/* called in initrender.c, RE_parts_init() and convertblender.c, for speedvectors */
float panorama_pixel_rot(Render *re)
{
float psize, phi, xfac;
float borderfac = (float)BLI_rcti_size_x(&re->disprect) / (float)re->winx;
int xparts = (re->rectx + re->partx - 1) / re->partx;
/* size of 1 pixel mapped to viewplane coords */
psize = BLI_rctf_size_x(&re->viewplane) / (float)re->winx;
/* angle of a pixel */
phi = atan(psize / re->clipsta);
/* correction factor for viewplane shifting, first calculate how much the viewplane angle is */
xfac = borderfac * BLI_rctf_size_x(&re->viewplane) / (float)xparts;
xfac = atan(0.5f * xfac / re->clipsta);
/* and how much the same viewplane angle is wrapped */
psize = 0.5f * phi * ((float)re->partx);
/* the ratio applied to final per-pixel angle */
phi *= xfac / psize;
return phi;
}
/* for panorama, we render per Y slice, and update
* camera parameters when we go the next slice */
static bool find_next_pano_slice(Render *re, int *slice, int *minx, rctf *viewplane)
{
RenderPart *pa, *best = NULL;
bool found = false;
*minx = re->winx;
if (!(re->r.mode & R_PANORAMA)) {
/* for regular render, just one 'slice' */
found = (*slice == 0);
(*slice)++;
return found;
}
/* most left part of the non-rendering parts */
for (pa = re->parts.first; pa; pa = pa->next) {
if (pa->status == PART_STATUS_NONE && pa->nr == 0) {
if (pa->disprect.xmin < *minx) {
found = true;
best = pa;
*minx = pa->disprect.xmin;
}
}
}
if (best) {
float phi = panorama_pixel_rot(re);
R.panodxp = (re->winx - (best->disprect.xmin + best->disprect.xmax) ) / 2;
R.panodxv = (BLI_rctf_size_x(viewplane) * R.panodxp) / (float)(re->winx);
/* shift viewplane */
R.viewplane.xmin = viewplane->xmin + R.panodxv;
R.viewplane.xmax = viewplane->xmax + R.panodxv;
RE_SetWindow(re, &R.viewplane, R.clipsta, R.clipend);
copy_m4_m4(R.winmat, re->winmat);
/* rotate database according to part coordinates */
project_renderdata(re, projectverto, 1, -R.panodxp * phi, 1);
R.panosi = sinf(R.panodxp * phi);
R.panoco = cosf(R.panodxp * phi);
}
(*slice)++;
return found;
}
static RenderPart *find_next_part(Render *re, int minx)
{
RenderPart *pa, *best = NULL;
/* long long int's needed because of overflow [#24414] */
long long int centx = re->winx / 2, centy = re->winy / 2, tot = 1;
long long int mindist = (long long int)re->winx * (long long int)re->winy;
/* find center of rendered parts, image center counts for 1 too */
for (pa = re->parts.first; pa; pa = pa->next) {
if (pa->status == PART_STATUS_READY) {
centx += BLI_rcti_cent_x(&pa->disprect);
centy += BLI_rcti_cent_y(&pa->disprect);
tot++;
}
}
centx /= tot;
centy /= tot;
/* closest of the non-rendering parts */
for (pa = re->parts.first; pa; pa = pa->next) {
if (pa->status == PART_STATUS_NONE && pa->nr == 0) {
long long int distx = centx - BLI_rcti_cent_x(&pa->disprect);
long long int disty = centy - BLI_rcti_cent_y(&pa->disprect);
distx = (long long int)sqrt(distx * distx + disty * disty);
if (distx < mindist) {
if (re->r.mode & R_PANORAMA) {
if (pa->disprect.xmin == minx) {
best = pa;
mindist = distx;
}
}
else {
best = pa;
mindist = distx;
}
}
}
}
return best;
}
static void print_part_stats(Render *re, RenderPart *pa)
{
char str[64];
BLI_snprintf(str, sizeof(str), IFACE_("%s, Part %d-%d"), re->scene->id.name + 2, pa->nr, re->i.totpart);
re->i.infostr = str;
re->stats_draw(re->sdh, &re->i);
re->i.infostr = NULL;
}
typedef struct RenderThread {
ThreadQueue *workqueue;
ThreadQueue *donequeue;
int number;
void (*display_update)(void *handle, RenderResult *rr, volatile rcti *rect);
void *duh;
} RenderThread;
static void *do_render_thread(void *thread_v)
{
RenderThread *thread = thread_v;
RenderPart *pa;
while ((pa = BLI_thread_queue_pop(thread->workqueue))) {
pa->thread = thread->number;
do_part_thread(pa);
if (thread->display_update) {
thread->display_update(thread->duh, pa->result, NULL);
}
BLI_thread_queue_push(thread->donequeue, pa);
if (R.test_break(R.tbh))
break;
}
return NULL;
}
static void main_render_result_end(Render *re)
{
if (re->result->do_exr_tile) {
BLI_rw_mutex_lock(&re->resultmutex, THREAD_LOCK_WRITE);
render_result_exr_file_end(re);
BLI_rw_mutex_unlock(&re->resultmutex);
}
if (re->r.scemode & R_EXR_CACHE_FILE) {
BLI_rw_mutex_lock(&re->resultmutex, THREAD_LOCK_WRITE);
render_result_exr_file_cache_write(re);
BLI_rw_mutex_unlock(&re->resultmutex);
}
}
static void main_render_result_new(Render *re)
{
BLI_rw_mutex_lock(&re->resultmutex, THREAD_LOCK_WRITE);
/* first step; free the entire render result, make new, and/or prepare exr buffer saving */
if (re->result == NULL || !(re->r.scemode & (R_BUTS_PREVIEW|R_VIEWPORT_PREVIEW))) {
render_result_free(re->result);
if (re->sss_points && render_display_update_enabled(re))
re->result = render_result_new(re, &re->disprect, 0, RR_USE_MEM, RR_ALL_LAYERS, RR_ALL_VIEWS);
else if (re->r.scemode & R_FULL_SAMPLE)
re->result = render_result_new_full_sample(re, &re->fullresult, &re->disprect, 0, RR_USE_EXR, RR_ALL_VIEWS);
else
re->result = render_result_new(re, &re->disprect, 0,
(re->r.scemode & R_EXR_TILE_FILE) ? RR_USE_EXR : RR_USE_MEM, RR_ALL_LAYERS, RR_ALL_VIEWS);
}
BLI_rw_mutex_unlock(&re->resultmutex);
if (re->result->do_exr_tile)
render_result_exr_file_begin(re);
}
static void threaded_tile_processor(Render *re)
{
RenderThread thread[BLENDER_MAX_THREADS];
ThreadQueue *workqueue, *donequeue;
ListBase threads;
RenderPart *pa;
rctf viewplane = re->viewplane;
double lastdraw, elapsed, redrawtime = 1.0f;
int totpart = 0, minx = 0, slice = 0, a, wait;
if (re->result == NULL)
return;
/* warning; no return here without closing exr file */
RE_parts_init(re, true);
/* assuming no new data gets added to dbase... */
R = *re;
/* set threadsafe break */
R.test_break = thread_break;
/* create and fill work queue */
workqueue = BLI_thread_queue_init();
donequeue = BLI_thread_queue_init();
/* for panorama we loop over slices */
while (find_next_pano_slice(re, &slice, &minx, &viewplane)) {
/* gather parts into queue */
while ((pa = find_next_part(re, minx))) {
pa->nr = totpart + 1; /* for nicest part, and for stats */
totpart++;
BLI_thread_queue_push(workqueue, pa);
}
BLI_thread_queue_nowait(workqueue);
/* start all threads */
BLI_init_threads(&threads, do_render_thread, re->r.threads);
for (a = 0; a < re->r.threads; a++) {
thread[a].workqueue = workqueue;
thread[a].donequeue = donequeue;
thread[a].number = a;
if (render_display_update_enabled(re)) {
thread[a].display_update = re->display_update;
thread[a].duh = re->duh;
}
else {
thread[a].display_update = NULL;
thread[a].duh = NULL;
}
BLI_insert_thread(&threads, &thread[a]);
}
/* wait for results to come back */
lastdraw = PIL_check_seconds_timer();
while (1) {
elapsed = PIL_check_seconds_timer() - lastdraw;
wait = (redrawtime - elapsed)*1000;
/* handle finished part */
if ((pa=BLI_thread_queue_pop_timeout(donequeue, wait))) {
if (pa->result) {
print_part_stats(re, pa);
render_result_free_list(&pa->fullresult, pa->result);
pa->result = NULL;
re->i.partsdone++;
re->progress(re->prh, re->i.partsdone / (float)re->i.totpart);
}
totpart--;
}
/* check for render cancel */
if ((g_break=re->test_break(re->tbh)))
break;
/* or done with parts */
if (totpart == 0)
break;
/* redraw in progress parts */
elapsed = PIL_check_seconds_timer() - lastdraw;
if (elapsed > redrawtime) {
if (render_display_update_enabled(re))
for (pa = re->parts.first; pa; pa = pa->next)
if ((pa->status == PART_STATUS_IN_PROGRESS) && pa->nr && pa->result)
re->display_update(re->duh, pa->result, &pa->result->renrect);
lastdraw = PIL_check_seconds_timer();
}
}
BLI_end_threads(&threads);
if ((g_break=re->test_break(re->tbh)))
break;
}
if (g_break) {
/* review the done queue and handle all the render parts,
* so no unfreed render result are lurking around
*/
BLI_thread_queue_nowait(donequeue);
while ((pa = BLI_thread_queue_pop(donequeue))) {
if (pa->result) {
render_result_free_list(&pa->fullresult, pa->result);
pa->result = NULL;
}
}
}
BLI_thread_queue_free(donequeue);
BLI_thread_queue_free(workqueue);
/* unset threadsafety */
g_break = 0;
BLI_rw_mutex_lock(&re->partsmutex, THREAD_LOCK_WRITE);
RE_parts_free(re);
BLI_rw_mutex_unlock(&re->partsmutex);
re->viewplane = viewplane; /* restore viewplane, modified by pano render */
}
#ifdef WITH_FREESTYLE
static void add_freestyle(Render *re, int render);
static void free_all_freestyle_renders(void);
#endif
/* currently only called by preview renders and envmap */
void RE_TileProcessor(Render *re)
{
main_render_result_new(re);
threaded_tile_processor(re);
re->i.lastframetime = PIL_check_seconds_timer() - re->i.starttime;
re->stats_draw(re->sdh, &re->i);
#ifdef WITH_FREESTYLE
/* Freestyle */
if (re->r.mode & R_EDGE_FRS) {
if (!re->test_break(re->tbh)) {
add_freestyle(re, 1);
free_all_freestyle_renders();
re->i.lastframetime = PIL_check_seconds_timer() - re->i.starttime;
re->stats_draw(re->sdh, &re->i);
}
}
#endif
}
/* ************ This part uses API, for rendering Blender scenes ********** */
static void do_render_3d(Render *re)
{
RenderView *rv;
int cfra_backup;
re->current_scene_update(re->suh, re->scene);
/* try external */
if (RE_engine_render(re, 0))
return;
/* internal */
RE_parts_clamp(re);
/* add motion blur and fields offset to frames */
cfra_backup = re->scene->r.cfra;
BKE_scene_frame_set(re->scene, (double)re->scene->r.cfra + (double)re->mblur_offs + (double)re->field_offs);
/* init main render result */
main_render_result_new(re);
/* we need a new database for each view */
for (rv = re->result->views.first; rv; rv = rv->next) {
RE_SetActiveRenderView(re, rv->name);
/* lock drawing in UI during data phase */
if (re->draw_lock)
re->draw_lock(re->dlh, 1);
/* make render verts/faces/halos/lamps */
if (render_scene_needs_vector(re))
RE_Database_FromScene_Vectors(re, re->main, re->scene, re->lay);
else {
RE_Database_FromScene(re, re->main, re->scene, re->lay, 1);
RE_Database_Preprocess(re);
}
/* clear UI drawing locks */
if (re->draw_lock)
re->draw_lock(re->dlh, 0);
threaded_tile_processor(re);
#ifdef WITH_FREESTYLE
/* Freestyle */
if (re->r.mode & R_EDGE_FRS)
if (!re->test_break(re->tbh))
add_freestyle(re, 1);
#endif
/* do left-over 3d post effects (flares) */
if (re->flag & R_HALO)
if (!re->test_break(re->tbh))
add_halo_flare(re);
/* free all render verts etc */
RE_Database_Free(re);
}
main_render_result_end(re);
re->scene->r.cfra = cfra_backup;
re->scene->r.subframe = 0.f;
}
/* called by blur loop, accumulate RGBA key alpha */
static void addblur_rect_key(RenderResult *rr, float *rectf, float *rectf1, float blurfac)
{
float mfac = 1.0f - blurfac;
int a, b, stride = 4 * rr->rectx;
int len = stride * sizeof(float);
for (a = 0; a < rr->recty; a++) {
if (blurfac == 1.0f) {
memcpy(rectf, rectf1, len);
}
else {
float *rf = rectf, *rf1 = rectf1;
for (b = rr->rectx; b > 0; b--, rf += 4, rf1 += 4) {
if (rf1[3] < 0.01f)
rf[3] = mfac * rf[3];
else if (rf[3] < 0.01f) {
rf[0] = rf1[0];
rf[1] = rf1[1];
rf[2] = rf1[2];
rf[3] = blurfac * rf1[3];
}
else {
rf[0] = mfac * rf[0] + blurfac * rf1[0];
rf[1] = mfac * rf[1] + blurfac * rf1[1];
rf[2] = mfac * rf[2] + blurfac * rf1[2];
rf[3] = mfac * rf[3] + blurfac * rf1[3];
}
}
}
rectf += stride;
rectf1 += stride;
}
}
/* called by blur loop, accumulate renderlayers */
static void addblur_rect(RenderResult *rr, float *rectf, float *rectf1, float blurfac, int channels)
{
float mfac = 1.0f - blurfac;
int a, b, stride = channels * rr->rectx;
int len = stride * sizeof(float);
for (a = 0; a < rr->recty; a++) {
if (blurfac == 1.0f) {
memcpy(rectf, rectf1, len);
}
else {
float *rf = rectf, *rf1 = rectf1;
for (b = rr->rectx * channels; b > 0; b--, rf++, rf1++) {
rf[0] = mfac * rf[0] + blurfac * rf1[0];
}
}
rectf += stride;
rectf1 += stride;
}
}
/* called by blur loop, accumulate renderlayers */
static void merge_renderresult_blur(RenderResult *rr, RenderResult *brr, float blurfac, bool key_alpha)
{
RenderLayer *rl, *rl1;
RenderPass *rpass, *rpass1;
rl1 = brr->layers.first;
for (rl = rr->layers.first; rl && rl1; rl = rl->next, rl1 = rl1->next) {
/* passes are allocated in sync */
rpass1 = rl1->passes.first;
for (rpass = rl->passes.first; rpass && rpass1; rpass = rpass->next, rpass1 = rpass1->next) {
if ((rpass->passtype & SCE_PASS_COMBINED) && key_alpha)
addblur_rect_key(rr, rpass->rect, rpass1->rect, blurfac);
else
addblur_rect(rr, rpass->rect, rpass1->rect, blurfac, rpass->channels);
}
}
}
/* main blur loop, can be called by fields too */
static void do_render_blur_3d(Render *re)
{
RenderResult *rres;
float blurfac;
int blur = re->r.mblur_samples;
/* create accumulation render result */
rres = render_result_new(re, &re->disprect, 0, RR_USE_MEM, RR_ALL_LAYERS, RR_ALL_VIEWS);
/* do the blur steps */
while (blur--) {
re->mblur_offs = re->r.blurfac * ((float)(re->r.mblur_samples - blur)) / (float)re->r.mblur_samples;
re->i.curblur = re->r.mblur_samples - blur; /* stats */
do_render_3d(re);
blurfac = 1.0f / (float)(re->r.mblur_samples - blur);
merge_renderresult_blur(rres, re->result, blurfac, false);
if (re->test_break(re->tbh)) break;
}
/* swap results */
BLI_rw_mutex_lock(&re->resultmutex, THREAD_LOCK_WRITE);
render_result_free(re->result);
re->result = rres;
BLI_rw_mutex_unlock(&re->resultmutex);
re->mblur_offs = 0.0f;
re->i.curblur = 0; /* stats */
/* make sure motion blur changes get reset to current frame */
if ((re->r.scemode & (R_NO_FRAME_UPDATE|R_BUTS_PREVIEW|R_VIEWPORT_PREVIEW))==0) {
BKE_scene_update_for_newframe(re->eval_ctx, re->main, re->scene, re->lay);
}
/* weak... the display callback wants an active renderlayer pointer... */
re->result->renlay = render_get_active_layer(re, re->result);
re->display_update(re->duh, re->result, NULL);
}
/* function assumes rectf1 and rectf2 to be half size of rectf */
static void interleave_rect(RenderResult *rr, float *rectf, float *rectf1, float *rectf2, int channels)
{
int a, stride = channels * rr->rectx;
int len = stride * sizeof(float);
for (a = 0; a < rr->recty; a += 2) {
memcpy(rectf, rectf1, len);
rectf += stride;
rectf1 += stride;
memcpy(rectf, rectf2, len);
rectf += stride;
rectf2 += stride;
}
}
/* merge render results of 2 fields */
static void merge_renderresult_fields(RenderResult *rr, RenderResult *rr1, RenderResult *rr2)
{
RenderLayer *rl, *rl1, *rl2;
RenderPass *rpass, *rpass1, *rpass2;
rl1 = rr1->layers.first;
rl2 = rr2->layers.first;
for (rl = rr->layers.first; rl && rl1 && rl2; rl = rl->next, rl1 = rl1->next, rl2 = rl2->next) {
/* passes are allocated in sync */
rpass1 = rl1->passes.first;
rpass2 = rl2->passes.first;
for (rpass = rl->passes.first;
rpass && rpass1 && rpass2;
rpass = rpass->next, rpass1 = rpass1->next, rpass2 = rpass2->next)
{
interleave_rect(rr, rpass->rect, rpass1->rect, rpass2->rect, rpass->channels);
}
}
}
/* interleaves 2 frames */
static void do_render_fields_3d(Render *re)
{
Object *camera = RE_GetCamera(re);
RenderResult *rr1, *rr2 = NULL;
/* no render result was created, we can safely halve render y */
re->winy /= 2;
re->recty /= 2;
re->disprect.ymin /= 2;
re->disprect.ymax /= 2;
re->i.curfield = 1; /* stats */
/* first field, we have to call camera routine for correct aspect and subpixel offset */
RE_SetCamera(re, camera);
if (re->r.mode & R_MBLUR && (re->r.scemode & R_FULL_SAMPLE) == 0)
do_render_blur_3d(re);
else
do_render_3d(re);
BLI_rw_mutex_lock(&re->resultmutex, THREAD_LOCK_WRITE);
rr1 = re->result;
re->result = NULL;
BLI_rw_mutex_unlock(&re->resultmutex);
/* second field */
if (!re->test_break(re->tbh)) {
re->i.curfield = 2; /* stats */
re->flag |= R_SEC_FIELD;
if ((re->r.mode & R_FIELDSTILL) == 0) {
re->field_offs = 0.5f;
}
RE_SetCamera(re, camera);
if (re->r.mode & R_MBLUR && (re->r.scemode & R_FULL_SAMPLE) == 0)
do_render_blur_3d(re);
else
do_render_3d(re);
re->flag &= ~R_SEC_FIELD;
re->field_offs = 0.0f;
rr2 = re->result;
}
/* allocate original height new buffers */
re->winy *= 2;
re->recty *= 2;
re->disprect.ymin *= 2;
re->disprect.ymax *= 2;
BLI_rw_mutex_lock(&re->resultmutex, THREAD_LOCK_WRITE);
re->result = render_result_new(re, &re->disprect, 0, RR_USE_MEM, RR_ALL_LAYERS, RR_ALL_VIEWS);
if (rr2) {
if (re->r.mode & R_ODDFIELD)
merge_renderresult_fields(re->result, rr2, rr1);
else
merge_renderresult_fields(re->result, rr1, rr2);
render_result_free(rr2);
}
render_result_free(rr1);
re->i.curfield = 0; /* stats */
/* weak... the display callback wants an active renderlayer pointer... */
re->result->renlay = render_get_active_layer(re, re->result);
BLI_rw_mutex_unlock(&re->resultmutex);
re->display_update(re->duh, re->result, NULL);
}
/* make sure disprect is not affected by the render border */
static void render_result_disprect_to_full_resolution(Render *re)
{
re->disprect.xmin = re->disprect.ymin = 0;
re->disprect.xmax = re->winx;
re->disprect.ymax = re->winy;
re->rectx = re->winx;
re->recty = re->winy;
}
/* main render routine, no compositing */
static void do_render_fields_blur_3d(Render *re)
{
Object *camera = RE_GetCamera(re);
/* also check for camera here */
if (camera == NULL) {
BKE_report(re->reports, RPT_ERROR, "Cannot render, no camera");
G.is_break = true;
return;
}
/* now use renderdata and camera to set viewplane */
RE_SetCamera(re, camera);
if (re->r.mode & R_FIELDS)
do_render_fields_3d(re);
else if (re->r.mode & R_MBLUR && (re->r.scemode & R_FULL_SAMPLE) == 0)
do_render_blur_3d(re);
else
do_render_3d(re);
/* when border render, check if we have to insert it in black */
if (re->result) {
if (re->r.mode & R_BORDER) {
if ((re->r.mode & R_CROP) == 0) {
RenderResult *rres;
/* backup */
const rcti orig_disprect = re->disprect;
const int orig_rectx = re->rectx, orig_recty = re->recty;
BLI_rw_mutex_lock(&re->resultmutex, THREAD_LOCK_WRITE);
/* sub-rect for merge call later on */
re->result->tilerect = re->disprect;
/* weak is: it chances disprect from border */
render_result_disprect_to_full_resolution(re);
rres = render_result_new(re, &re->disprect, 0, RR_USE_MEM, RR_ALL_LAYERS, RR_ALL_VIEWS);
render_result_merge(rres, re->result);
render_result_free(re->result);
re->result = rres;
/* weak... the display callback wants an active renderlayer pointer... */
re->result->renlay = render_get_active_layer(re, re->result);
BLI_rw_mutex_unlock(&re->resultmutex);
re->display_init(re->dih, re->result);
re->display_update(re->duh, re->result, NULL);
/* restore the disprect from border */
re->disprect = orig_disprect;
re->rectx = orig_rectx;
re->recty = orig_recty;
}
else {
/* set offset (again) for use in compositor, disprect was manipulated. */
re->result->xof = 0;
re->result->yof = 0;
}
}
}
}
/* within context of current Render *re, render another scene.
* it uses current render image size and disprect, but doesn't execute composite
*/
static void render_scene(Render *re, Scene *sce, int cfra)
{
Render *resc = RE_NewRender(sce->id.name);
int winx = re->winx, winy = re->winy;
sce->r.cfra = cfra;
BKE_scene_camera_switch_update(sce);
/* exception: scene uses own size (unfinished code) */
if (0) {
winx = (sce->r.size * sce->r.xsch) / 100;
winy = (sce->r.size * sce->r.ysch) / 100;
}
/* initial setup */
RE_InitState(resc, re, &sce->r, NULL, winx, winy, &re->disprect);
/* We still want to use 'rendercache' setting from org (main) scene... */
resc->r.scemode = (resc->r.scemode & ~R_EXR_CACHE_FILE) | (re->r.scemode & R_EXR_CACHE_FILE);
/* still unsure entity this... */
resc->main = re->main;
resc->scene = sce;
resc->lay = sce->lay;
resc->scene_color_manage = BKE_scene_check_color_management_enabled(sce);
/* ensure scene has depsgraph, base flags etc OK */
BKE_scene_set_background(re->main, sce);
/* copy callbacks */
resc->display_update = re->display_update;
resc->duh = re->duh;
resc->test_break = re->test_break;
resc->tbh = re->tbh;
resc->stats_draw = re->stats_draw;
resc->sdh = re->sdh;
resc->current_scene_update = re->current_scene_update;
resc->suh = re->suh;
do_render_fields_blur_3d(resc);
}
/* helper call to detect if this scene needs a render, or if there's a any render layer to render */
static int composite_needs_render(Scene *sce, int this_scene)
{
bNodeTree *ntree = sce->nodetree;
bNode *node;
if (ntree == NULL) return 1;
if (sce->use_nodes == false) return 1;
if ((sce->r.scemode & R_DOCOMP) == 0) return 1;
for (node = ntree->nodes.first; node; node = node->next) {
if (node->type == CMP_NODE_R_LAYERS && (node->flag & NODE_MUTED) == 0)
if (this_scene == 0 || node->id == NULL || node->id == &sce->id)
return 1;
}
return 0;
}
static bool rlayer_node_uses_alpha(bNodeTree *ntree, bNode *node)
{
bNodeSocket *sock;
for (sock = node->outputs.first; sock; sock = sock->next) {
/* Weak! but how to make it better? */
if (STREQ(sock->name, "Alpha") && nodeCountSocketLinks(ntree, sock) > 0)
return true;
}
return false;
}
bool RE_allow_render_generic_object(Object *ob)
{
/* override not showing object when duplis are used with particles */
if (ob->transflag & OB_DUPLIPARTS) {
/* pass */ /* let particle system(s) handle showing vs. not showing */
}
else if ((ob->transflag & OB_DUPLI) && !(ob->transflag & OB_DUPLIFRAMES)) {
return false;
}
return true;
}
/* Issue here is that it's possible that object which is used by boolean,
* array or shrinkwrap modifiers weren't displayed in the viewport before
* rendering. This leads to situations when apply() of this modifiers
* could not get ob->derivedFinal and modifiers are not being applied.
*
* This was worked around by direct call of get_derived_final() from those
* modifiers, but such approach leads to write conflicts with threaded
* update.
*
* Here we make sure derivedFinal will be calculated by update_for_newframe
* function later in the pipeline and all the modifiers are applied
* properly without hacks from their side.
* - sergey -
*/
#define DEPSGRAPH_WORKAROUND_HACK
#ifdef DEPSGRAPH_WORKAROUND_HACK
static void tag_dependend_objects_for_render(Scene *scene, int renderlay)
{
Scene *sce_iter;
Base *base;
for (SETLOOPER(scene, sce_iter, base)) {
Object *object = base->object;
if ((base->lay & renderlay) == 0) {
continue;
}
if (object->type == OB_MESH) {
if (RE_allow_render_generic_object(object)) {
ModifierData *md;
VirtualModifierData virtualModifierData;
for (md = modifiers_getVirtualModifierList(object, &virtualModifierData);
md;
md = md->next)
{
if (!modifier_isEnabled(scene, md, eModifierMode_Render)) {
continue;
}
if (md->type == eModifierType_Boolean) {
BooleanModifierData *bmd = (BooleanModifierData *)md;
if (bmd->object && bmd->object->type == OB_MESH) {
DAG_id_tag_update(&bmd->object->id, OB_RECALC_DATA);
}
}
else if (md->type == eModifierType_Array) {
ArrayModifierData *amd = (ArrayModifierData *)md;
if (amd->start_cap && amd->start_cap->type == OB_MESH) {
DAG_id_tag_update(&amd->start_cap->id, OB_RECALC_DATA);
}
if (amd->end_cap && amd->end_cap->type == OB_MESH) {
DAG_id_tag_update(&amd->end_cap->id, OB_RECALC_DATA);
}
}
else if (md->type == eModifierType_Shrinkwrap) {
ShrinkwrapModifierData *smd = (ShrinkwrapModifierData *)md;
if (smd->target && smd->target->type == OB_MESH) {
DAG_id_tag_update(&smd->target->id, OB_RECALC_DATA);
}
}
}
}
}
}
}
#endif
static void tag_scenes_for_render(Render *re)
{
bNode *node;
Scene *sce;
#ifdef DEPSGRAPH_WORKAROUND_HACK
int renderlay = re->lay;
#endif
for (sce = re->main->scene.first; sce; sce = sce->id.next) {
sce->id.flag &= ~LIB_DOIT;
#ifdef DEPSGRAPH_WORKAROUND_HACK
tag_dependend_objects_for_render(sce, renderlay);
#endif
}
#ifdef WITH_FREESTYLE
if (re->freestyle_bmain) {
for (sce = re->freestyle_bmain->scene.first; sce; sce = sce->id.next) {
sce->id.flag &= ~LIB_DOIT;
#ifdef DEPSGRAPH_WORKAROUND_HACK
tag_dependend_objects_for_render(sce, renderlay);
#endif
}
}
#endif
if (RE_GetCamera(re) && composite_needs_render(re->scene, 1)) {
re->scene->id.flag |= LIB_DOIT;
#ifdef DEPSGRAPH_WORKAROUND_HACK
tag_dependend_objects_for_render(re->scene, renderlay);
#endif
}
if (re->scene->nodetree == NULL) return;
/* check for render-layers nodes using other scenes, we tag them LIB_DOIT */
for (node = re->scene->nodetree->nodes.first; node; node = node->next) {
node->flag &= ~NODE_TEST;
if (node->type == CMP_NODE_R_LAYERS && (node->flag & NODE_MUTED) == 0) {
if (node->id) {
if (!MAIN_VERSION_ATLEAST(re->main, 265, 5)) {
if (rlayer_node_uses_alpha(re->scene->nodetree, node)) {
Scene *scene = (Scene *)node->id;
if (scene->r.alphamode != R_ALPHAPREMUL) {
BKE_reportf(re->reports, RPT_WARNING, "Setting scene %s alpha mode to Premul", scene->id.name + 2);
/* also print, so feedback is immediate */
printf("2.66 versioning fix: setting scene %s alpha mode to Premul\n", scene->id.name + 2);
scene->r.alphamode = R_ALPHAPREMUL;
}
}
}
if (node->id != (ID *)re->scene) {
if ((node->id->flag & LIB_DOIT) == 0) {
Scene *scene = (Scene *) node->id;
if (render_scene_has_layers_to_render(scene)) {
node->flag |= NODE_TEST;
node->id->flag |= LIB_DOIT;
#ifdef DEPSGRAPH_WORKAROUND_HACK
tag_dependend_objects_for_render(scene, renderlay);
#endif
}
}
}
}
}
}
}
static void ntree_render_scenes(Render *re)
{
bNode *node;
int cfra = re->scene->r.cfra;
Scene *restore_scene = re->scene;
bool scene_changed = false;
if (re->scene->nodetree == NULL) return;
tag_scenes_for_render(re);
/* now foreach render-result node tagged we do a full render */
/* results are stored in a way compisitor will find it */
for (node = re->scene->nodetree->nodes.first; node; node = node->next) {
if (node->type == CMP_NODE_R_LAYERS && (node->flag & NODE_MUTED) == 0) {
if (node->id && node->id != (ID *)re->scene) {
if (node->flag & NODE_TEST) {
Scene *scene = (Scene *)node->id;
scene_changed |= scene != restore_scene;
render_scene(re, scene, cfra);
node->flag &= ~NODE_TEST;
nodeUpdate(restore_scene->nodetree, node);
}
}
}
}
/* restore scene if we rendered another last */
if (scene_changed)
BKE_scene_set_background(re->main, re->scene);
}
/* bad call... need to think over proper method still */
static void render_composit_stats(void *UNUSED(arg), const char *str)
{
R.i.infostr = str;
R.stats_draw(R.sdh, &R.i);
R.i.infostr = NULL;
}
#ifdef WITH_FREESTYLE
/* invokes Freestyle stroke rendering */
static void add_freestyle(Render *re, int render)
{
SceneRenderLayer *srl, *actsrl;
LinkData *link;
Render *r;
const bool do_link = (re->r.mode & R_MBLUR) == 0 || re->i.curblur == re->r.mblur_samples;
actsrl = BLI_findlink(&re->r.layers, re->r.actlay);
re->freestyle_bmain = BKE_main_new();
/* We use the same window manager for freestyle bmain as
* real bmain uses. This is needed because freestyle's
* bmain could be used to tag scenes for update, which
* implies call of ED_render_scene_update in some cases
* and that function requires proper window manager
* to present (sergey)
*/
re->freestyle_bmain->wm = re->main->wm;
FRS_init_stroke_rendering(re);
for (srl = (SceneRenderLayer *)re->r.layers.first; srl; srl = srl->next) {
if (do_link) {
link = (LinkData *)MEM_callocN(sizeof(LinkData), "LinkData to Freestyle render");
BLI_addtail(&re->freestyle_renders, link);
}
if ((re->r.scemode & R_SINGLE_LAYER) && srl != actsrl)
continue;
if (FRS_is_freestyle_enabled(srl)) {
r = FRS_do_stroke_rendering(re, srl, render);
if (do_link)
link->data = (void *)r;
}
}
FRS_finish_stroke_rendering(re);
/* restore the global R value (invalidated by nested execution of the internal renderer) */
R = *re;
}
/* merges the results of Freestyle stroke rendering into a given render result */
static void composite_freestyle_renders(Render *re, int sample)
{
Render *freestyle_render;
SceneRenderLayer *srl, *actsrl;
LinkData *link;
actsrl = BLI_findlink(&re->r.layers, re->r.actlay);
link = (LinkData *)re->freestyle_renders.first;
for (srl= (SceneRenderLayer *)re->r.layers.first; srl; srl= srl->next) {
if ((re->r.scemode & R_SINGLE_LAYER) && srl != actsrl)
continue;
if (FRS_is_freestyle_enabled(srl)) {
freestyle_render = (Render *)link->data;
/* may be NULL in case of empty render layer */
if (freestyle_render) {
render_result_exr_file_read_sample(freestyle_render, sample);
FRS_composite_result(re, srl, freestyle_render);
RE_FreeRenderResult(freestyle_render->result);
freestyle_render->result = NULL;
}
}
link = link->next;
}
}
/* releases temporary scenes and renders for Freestyle stroke rendering */
static void free_all_freestyle_renders(void)
{
Render *re1, *freestyle_render;
Scene *freestyle_scene;
LinkData *link;
for (re1= RenderGlobal.renderlist.first; re1; re1= re1->next) {
for (link = (LinkData *)re1->freestyle_renders.first; link; link = link->next) {
freestyle_render = (Render *)link->data;
if (freestyle_render) {
freestyle_scene = freestyle_render->scene;
RE_FreeRender(freestyle_render);
BKE_scene_unlink(re1->freestyle_bmain, freestyle_scene, NULL);
}
}
BLI_freelistN(&re1->freestyle_renders);
if (re1->freestyle_bmain) {
/* detach the window manager from freestyle bmain (see comments
* in add_freestyle() for more detail)
*/
re1->freestyle_bmain->wm.first = re1->freestyle_bmain->wm.last = NULL;
BKE_main_free(re1->freestyle_bmain);
re1->freestyle_bmain = NULL;
}
}
}
#endif
/* reads all buffers, calls optional composite, merges in first result->views rectf */
static void do_merge_fullsample(Render *re, bNodeTree *ntree)
{
ListBase *rectfs;
RenderView *rv;
float *rectf, filt[3][3];
int x, y, sample;
int nr, numviews;
/* interaction callbacks */
if (ntree) {
ntree->stats_draw = render_composit_stats;
ntree->test_break = re->test_break;
ntree->progress = re->progress;
ntree->sdh = re->sdh;
ntree->tbh = re->tbh;
ntree->prh = re->prh;
}
/* filtmask needs it */
R = *re;
/* temporary storage of the acccumulation buffers */
rectfs = MEM_callocN(sizeof(ListBase), "fullsample accumulation buffers");
numviews = BLI_listbase_count(&re->result->views);
for (nr = 0; nr < numviews; nr++) {
rv = MEM_callocN(sizeof(RenderView), "fullsample renderview");
/* we accumulate in here */
rv->rectf = MEM_mapallocN(re->rectx * re->recty * sizeof(float) * 4, "fullsample rgba");
BLI_addtail(rectfs, rv);
}
for (sample = 0; sample < re->r.osa; sample++) {
Scene *sce;
Render *re1;
RenderResult rres;
int mask;
/* enable full sample print */
R.i.curfsa = sample + 1;
/* set all involved renders on the samplebuffers (first was done by render itself, but needs tagged) */
/* also function below assumes this */
tag_scenes_for_render(re);
for (sce = re->main->scene.first; sce; sce = sce->id.next) {
if (sce->id.flag & LIB_DOIT) {
re1 = RE_GetRender(sce->id.name);
if (re1 && (re1->r.scemode & R_FULL_SAMPLE)) {
if (sample) {
BLI_rw_mutex_lock(&re->resultmutex, THREAD_LOCK_WRITE);
render_result_exr_file_read_sample(re1, sample);
#ifdef WITH_FREESTYLE
if (re1->r.mode & R_EDGE_FRS)
composite_freestyle_renders(re1, sample);
#endif
BLI_rw_mutex_unlock(&re->resultmutex);
}
ntreeCompositTagRender(re1->scene); /* ensure node gets exec to put buffers on stack */
}
}
}
/* composite */
if (ntree) {
ntreeCompositTagRender(re->scene);
ntreeCompositTagAnimated(ntree);
for (rv = re->result->views.first; rv; rv = rv->next) {
ntreeCompositExecTree(re->scene, ntree, &re->r, true, G.background == 0, &re->scene->view_settings, &re->scene->display_settings, rv->name);
}
}
for (nr = 0, rv = re->result->views.first; rv; rv = rv->next, nr++) {
rectf = rv->rectf;
/* ensure we get either composited result or the active layer */
RE_AcquireResultImage(re, &rres, nr);
/* accumulate with filter, and clip */
mask = (1 << sample);
mask_array(mask, filt);
for (y = 0; y < re->recty; y++) {
float *rf = rectf + 4 * y * re->rectx;
float *col = rres.rectf + 4 * y * re->rectx;
for (x = 0; x < re->rectx; x++, rf += 4, col += 4) {
/* clamping to 1.0 is needed for correct AA */
CLAMP(col[0], 0.0f, 1.0f);
CLAMP(col[1], 0.0f, 1.0f);
CLAMP(col[2], 0.0f, 1.0f);
add_filt_fmask_coord(filt, col, rf, re->rectx, re->recty, x, y);
}
}
RE_ReleaseResultImage(re);
/* show stuff */
if (sample != re->osa - 1) {
/* weak... the display callback wants an active renderlayer pointer... */
re->result->renlay = render_get_active_layer(re, re->result);
RE_SetActiveRenderView(re, rv->name);
re->display_update(re->duh, re->result, NULL);
}
}
}
for (nr = 0; nr < numviews; nr++) {
rectf = ((RenderView *)BLI_findlink(rectfs, nr))->rectf;
/* clamp alpha and RGB to 0..1 and 0..inf, can go outside due to filter */
for (y = 0; y < re->recty; y++) {
float *rf = rectf + 4 * y * re->rectx;
for (x = 0; x < re->rectx; x++, rf += 4) {
rf[0] = MAX2(rf[0], 0.0f);
rf[1] = MAX2(rf[1], 0.0f);
rf[2] = MAX2(rf[2], 0.0f);
CLAMP(rf[3], 0.0f, 1.0f);
}
}
/* store the final result */
BLI_rw_mutex_lock(&re->resultmutex, THREAD_LOCK_WRITE);
rv = BLI_findlink(&re->result->views, nr);
if (rv->rectf)
MEM_freeN(rv->rectf);
rv->rectf = rectf;
BLI_rw_mutex_unlock(&re->resultmutex);
}
/* clear interaction callbacks */
if (ntree) {
ntree->stats_draw = NULL;
ntree->test_break = NULL;
ntree->progress = NULL;
ntree->tbh = ntree->sdh = ntree->prh = NULL;
}
/* disable full sample print */
R.i.curfsa = 0;
/* garbage collection */
while (rectfs->first) {
RenderView *rv = rectfs->first;
BLI_remlink(rectfs, rv);
MEM_freeN(rv);
}
MEM_freeN(rectfs);
}
/* called externally, via compositor */
void RE_MergeFullSample(Render *re, Main *bmain, Scene *sce, bNodeTree *ntree)
{
Scene *scene;
bNode *node;
/* default start situation */
G.is_break = false;
re->main = bmain;
re->scene = sce;
re->scene_color_manage = BKE_scene_check_color_management_enabled(sce);
/* first call RE_ReadRenderResult on every renderlayer scene. this creates Render structs */
/* tag scenes unread */
for (scene = re->main->scene.first; scene; scene = scene->id.next)
scene->id.flag |= LIB_DOIT;
#ifdef WITH_FREESTYLE
if (re->freestyle_bmain) {
for (scene = re->freestyle_bmain->scene.first; scene; scene = scene->id.next)
scene->id.flag &= ~LIB_DOIT;
}
#endif
for (node = ntree->nodes.first; node; node = node->next) {
if (node->type == CMP_NODE_R_LAYERS && (node->flag & NODE_MUTED) == 0) {
Scene *nodescene = (Scene *)node->id;
if (nodescene == NULL) nodescene = sce;
if (nodescene->id.flag & LIB_DOIT) {
nodescene->r.mode |= R_OSA; /* render struct needs tables */
RE_ReadRenderResult(sce, nodescene);
nodescene->id.flag &= ~LIB_DOIT;
}
}
}
/* own render result should be read/allocated */
if (re->scene->id.flag & LIB_DOIT) {
RE_ReadRenderResult(re->scene, re->scene);
re->scene->id.flag &= ~LIB_DOIT;
}
/* and now we can draw (result is there) */
re->display_init(re->dih, re->result);
re->display_clear(re->dch, re->result);
#ifdef WITH_FREESTYLE
if (re->r.mode & R_EDGE_FRS)
add_freestyle(re, 0);
#endif
do_merge_fullsample(re, ntree);
#ifdef WITH_FREESTYLE
free_all_freestyle_renders();
#endif
}
/* returns fully composited render-result on given time step (in RenderData) */
static void do_render_composite_fields_blur_3d(Render *re)
{
bNodeTree *ntree = re->scene->nodetree;
int update_newframe = 0;
/* INIT seeding, compositor can use random texture */
BLI_srandom(re->r.cfra);
if (composite_needs_render(re->scene, 1)) {
/* save memory... free all cached images */
ntreeFreeCache(ntree);
/* render the frames
* it could be optimized to render only the needed view
* but what if a scene has a different number of views
* than the main scene? */
do_render_fields_blur_3d(re);
}
else {
re->i.cfra = re->r.cfra;
/* ensure new result gets added, like for regular renders */
BLI_rw_mutex_lock(&re->resultmutex, THREAD_LOCK_WRITE);
render_result_free(re->result);
if ((re->r.mode & R_CROP) == 0) {
render_result_disprect_to_full_resolution(re);
}
re->result = render_result_new(re, &re->disprect, 0, RR_USE_MEM, RR_ALL_LAYERS, RR_ALL_VIEWS);
BLI_rw_mutex_unlock(&re->resultmutex);
/* scene render process already updates animsys */
update_newframe = 1;
}
/* swap render result */
if (re->r.scemode & R_SINGLE_LAYER) {
BLI_rw_mutex_lock(&re->resultmutex, THREAD_LOCK_WRITE);
render_result_single_layer_end(re);
BLI_rw_mutex_unlock(&re->resultmutex);
}
if (!re->test_break(re->tbh)) {
if (ntree) {
ntreeCompositTagRender(re->scene);
ntreeCompositTagAnimated(ntree);
}
if (ntree && re->scene->use_nodes && re->r.scemode & R_DOCOMP) {
/* checks if there are render-result nodes that need scene */
if ((re->r.scemode & R_SINGLE_LAYER) == 0)
ntree_render_scenes(re);
if (!re->test_break(re->tbh)) {
ntree->stats_draw = render_composit_stats;
ntree->test_break = re->test_break;
ntree->progress = re->progress;
ntree->sdh = re->sdh;
ntree->tbh = re->tbh;
ntree->prh = re->prh;
/* in case it was never initialized */
R.sdh = re->sdh;
R.stats_draw = re->stats_draw;
if (update_newframe)
BKE_scene_update_for_newframe(re->eval_ctx, re->main, re->scene, re->lay);
if (re->r.scemode & R_FULL_SAMPLE)
do_merge_fullsample(re, ntree);
else {
RenderView *rv;
for (rv = re->result->views.first; rv; rv = rv->next) {
ntreeCompositExecTree(re->scene, ntree, &re->r, true, G.background == 0, &re->scene->view_settings, &re->scene->display_settings, rv->name);
}
}
ntree->stats_draw = NULL;
ntree->test_break = NULL;
ntree->progress = NULL;
ntree->tbh = ntree->sdh = ntree->prh = NULL;
}
}
else if (re->r.scemode & R_FULL_SAMPLE)
do_merge_fullsample(re, NULL);
}
#ifdef WITH_FREESTYLE
free_all_freestyle_renders();
#endif
/* weak... the display callback wants an active renderlayer pointer... */
re->result->renlay = render_get_active_layer(re, re->result);
re->display_update(re->duh, re->result, NULL);
}
static void renderresult_stampinfo(Render *re)
{
RenderResult rres;
RenderView *rv;
int nr;
/* this is the basic trick to get the displayed float or char rect from render result */
nr = 0;
for (rv = re->result->views.first;rv;rv = rv->next, nr++) {
RE_SetActiveRenderView(re, rv->name);
RE_AcquireResultImage(re, &rres, nr);
BKE_image_stamp_buf(re->scene, RE_GetCamera(re), (unsigned char *)rv->rect32, rv->rectf, rres.rectx, rres.recty, 4);
RE_ReleaseResultImage(re);
}
}
int RE_seq_render_active(Scene *scene, RenderData *rd)
{
Editing *ed;
Sequence *seq;
ed = scene->ed;
if (!(rd->scemode & R_DOSEQ) || !ed || !ed->seqbase.first)
return 0;
for (seq = ed->seqbase.first; seq; seq = seq->next) {
if (seq->type != SEQ_TYPE_SOUND_RAM)
return 1;
}
return 0;
}
static void do_render_seq(Render *re)
{
static int recurs_depth = 0;
struct ImBuf *out;
RenderResult *rr; /* don't assign re->result here as it might change during give_ibuf_seq */
int cfra = re->r.cfra;
SeqRenderData context;
size_t view_id, tot_views;
struct ImBuf **ibuf_arr;
int re_x, re_y;
re->i.cfra = cfra;
if (recurs_depth == 0) {
/* otherwise sequencer animation isn't updated */
BKE_animsys_evaluate_all_animation(re->main, re->scene, (float)cfra); // XXX, was BKE_scene_frame_get(re->scene)
}
recurs_depth++;
if ((re->r.mode & R_BORDER) && (re->r.mode & R_CROP) == 0) {
/* if border rendering is used and cropping is disabled, final buffer should
* be as large as the whole frame */
re_x = re->winx;
re_y = re->winy;
}
else {
re_x = re->result->rectx;
re_y = re->result->recty;
}
tot_views = BKE_scene_multiview_num_views_get(&re->r);
ibuf_arr = MEM_mallocN(sizeof(ImBuf *) * tot_views, "Sequencer Views ImBufs");
BKE_sequencer_new_render_data(
re->eval_ctx, re->main, re->scene,
re_x, re_y, 100,
&context);
/* the renderresult gets destroyed during the rendering, so we first collect all ibufs
* and then we populate the final renderesult */
for (view_id = 0; view_id < tot_views; view_id++) {
context.view_id = view_id;
out = BKE_sequencer_give_ibuf(&context, cfra, 0);
if (out) {
ibuf_arr[view_id] = IMB_dupImBuf(out);
IMB_freeImBuf(out);
BKE_sequencer_imbuf_from_sequencer_space(re->scene, ibuf_arr[view_id]);
}
else {
ibuf_arr[view_id] = NULL;
}
}
rr = re->result;
BLI_rw_mutex_lock(&re->resultmutex, THREAD_LOCK_WRITE);
render_result_views_new(rr, &re->r);
BLI_rw_mutex_unlock(&re->resultmutex);
for (view_id = 0; view_id < tot_views; view_id++) {
RenderView *rv = BLI_findlink(&rr->views, view_id);
BLI_rw_mutex_lock(&re->resultmutex, THREAD_LOCK_WRITE);
if (ibuf_arr[view_id]) {
/* copy ibuf into combined pixel rect */
render_result_rect_from_ibuf(rr, &re->r, ibuf_arr[view_id], view_id);
if (recurs_depth == 0) { /* with nested scenes, only free on toplevel... */
Editing *ed = re->scene->ed;
if (ed)
BKE_sequencer_free_imbuf(re->scene, &ed->seqbase, true);
}
IMB_freeImBuf(ibuf_arr[view_id]);
}
else {
/* render result is delivered empty in most cases, nevertheless we handle all cases */
render_result_rect_fill_zero(rr, view_id);
}
BLI_rw_mutex_unlock(&re->resultmutex);
/* would mark display buffers as invalid */
RE_SetActiveRenderView(re, rv->name);
re->display_update(re->duh, re->result, NULL);
}
MEM_freeN(ibuf_arr);
recurs_depth--;
/* just in case this flag went missing at some point */
re->r.scemode |= R_DOSEQ;
/* set overall progress of sequence rendering */
if (re->r.efra != re->r.sfra)
re->progress(re->prh, (float)(cfra - re->r.sfra) / (re->r.efra - re->r.sfra));
else
re->progress(re->prh, 1.0f);
}
/* ~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~ */
/* main loop: doing sequence + fields + blur + 3d render + compositing */
static void do_render_all_options(Render *re)
{
re->current_scene_update(re->suh, re->scene);
BKE_scene_camera_switch_update(re->scene);
re->i.starttime = PIL_check_seconds_timer();
/* ensure no images are in memory from previous animated sequences */
BKE_image_all_free_anim_ibufs(re->r.cfra);
if (RE_engine_render(re, 1)) {
/* in this case external render overrides all */
}
else if (RE_seq_render_active(re->scene, &re->r)) {
/* note: do_render_seq() frees rect32 when sequencer returns float images */
if (!re->test_break(re->tbh))
do_render_seq(re);
re->stats_draw(re->sdh, &re->i);
re->display_update(re->duh, re->result, NULL);
}
else {
re->pool = BKE_image_pool_new();
do_render_composite_fields_blur_3d(re);
BKE_image_pool_free(re->pool);
re->pool = NULL;
}
re->i.lastframetime = PIL_check_seconds_timer() - re->i.starttime;
re->stats_draw(re->sdh, &re->i);
/* stamp image info here */
if ((re->r.stamp & R_STAMP_ALL) && (re->r.stamp & R_STAMP_DRAW)) {
renderresult_stampinfo(re);
re->display_update(re->duh, re->result, NULL);
}
}
bool RE_force_single_renderlayer(Scene *scene)
{
int scemode = check_mode_full_sample(&scene->r);
if (scemode & R_SINGLE_LAYER) {
SceneRenderLayer *srl = BLI_findlink(&scene->r.layers, scene->r.actlay);
/* force layer to be enabled */
if (srl->layflag & SCE_LAY_DISABLE) {
srl->layflag &= ~SCE_LAY_DISABLE;
return true;
}
}
return false;
}
static bool check_valid_compositing_camera(Scene *scene, Object *camera_override)
{
if (scene->r.scemode & R_DOCOMP && scene->use_nodes) {
bNode *node = scene->nodetree->nodes.first;
while (node) {
if (node->type == CMP_NODE_R_LAYERS && (node->flag & NODE_MUTED) == 0) {
Scene *sce = node->id ? (Scene *)node->id : scene;
if (!sce->camera && !BKE_scene_camera_find(sce)) {
/* all render layers nodes need camera */
return false;
}
}
node = node->next;
}
return true;
}
else {
return (camera_override != NULL || scene->camera != NULL);
}
}
static bool check_valid_camera_multiview(Scene *scene, Object *camera, ReportList *reports)
{
SceneRenderView *srv;
bool active_view = false;
if ((scene->r.scemode & R_MULTIVIEW) == 0)
return true;
for (srv = scene->r.views.first; srv; srv = srv->next) {
if (BKE_scene_multiview_is_render_view_active(&scene->r, srv)) {
active_view = true;
if (scene->r.views_format == SCE_VIEWS_FORMAT_MULTIVIEW) {
Object *view_camera;
view_camera = BKE_camera_multiview_render(scene, camera, srv->name);
if (view_camera == camera) {
/* if the suffix is not in the camera, means we are using the fallback camera */
if (!BLI_str_endswith(view_camera->id.name + 2, srv->suffix)) {
BKE_reportf(reports, RPT_ERROR, "Camera \"%s\" is not a multi-view camera",
camera->id.name + 2);
return false;
}
}
}
}
}
if (!active_view) {
BKE_reportf(reports, RPT_ERROR, "No active view found in scene \"%s\"", scene->id.name + 2);
return false;
}
return true;
}
static int check_valid_camera(Scene *scene, Object *camera_override, ReportList *reports)
{
if (camera_override == NULL && scene->camera == NULL)
scene->camera = BKE_scene_camera_find(scene);
if (!check_valid_camera_multiview(scene, scene->camera, reports))
return false;
if (RE_seq_render_active(scene, &scene->r)) {
if (scene->ed) {
Sequence *seq = scene->ed->seqbase.first;
while (seq) {
if (seq->type == SEQ_TYPE_SCENE && seq->scene) {
if (!seq->scene_camera) {
if (!seq->scene->camera && !BKE_scene_camera_find(seq->scene)) {
/* camera could be unneeded due to composite nodes */
Object *override = (seq->scene == scene) ? camera_override : NULL;
if (!check_valid_compositing_camera(seq->scene, override)) {
BKE_reportf(reports, RPT_ERROR, "No camera found in scene \"%s\"", seq->scene->id.name+2);
return false;
}
}
}
else if (!check_valid_camera_multiview(seq->scene, seq->scene_camera, reports))
return false;
}
seq = seq->next;
}
}
}
else if (!check_valid_compositing_camera(scene, camera_override)) {
BKE_report(reports, RPT_ERROR, "No camera found in scene");
return false;
}
return true;
}
static bool node_tree_has_composite_output(bNodeTree *ntree)
{
bNode *node;
for (node = ntree->nodes.first; node; node = node->next) {
if (ELEM(node->type, CMP_NODE_COMPOSITE, CMP_NODE_OUTPUT_FILE)) {
return true;
}
else if (node->type == NODE_GROUP) {
if (node->id) {
if (node_tree_has_composite_output((bNodeTree *)node->id)) {
return true;
}
}
}
}
return false;
}
static int check_composite_output(Scene *scene)
{
return node_tree_has_composite_output(scene->nodetree);
}
bool RE_is_rendering_allowed(Scene *scene, Object *camera_override, ReportList *reports)
{
int scemode = check_mode_full_sample(&scene->r);
if (scene->r.mode & R_BORDER) {
if (scene->r.border.xmax <= scene->r.border.xmin ||
scene->r.border.ymax <= scene->r.border.ymin)
{
BKE_report(reports, RPT_ERROR, "No border area selected");
return 0;
}
}
if (scemode & (R_EXR_TILE_FILE | R_FULL_SAMPLE)) {
char str[FILE_MAX];
render_result_exr_file_path(scene, "", 0, str);
if (!BLI_file_is_writable(str)) {
BKE_report(reports, RPT_ERROR, "Cannot save render buffers, check the temp default path");
return 0;
}
/* no fullsample and edge */
if ((scemode & R_FULL_SAMPLE) && (scene->r.mode & R_EDGE)) {
BKE_report(reports, RPT_ERROR, "Full sample does not support edge enhance");
return 0;
}
}
if (scemode & R_DOCOMP) {
if (scene->use_nodes) {
if (!scene->nodetree) {
BKE_report(reports, RPT_ERROR, "No node tree in scene");
return 0;
}
if (!check_composite_output(scene)) {
BKE_report(reports, RPT_ERROR, "No render output node in scene");
return 0;
}
if (scemode & R_FULL_SAMPLE) {
if (composite_needs_render(scene, 0) == 0) {
BKE_report(reports, RPT_ERROR, "Full sample AA not supported without 3D rendering");
return 0;
}
}
}
}
/* check valid camera, without camera render is OK (compo, seq) */
if (!check_valid_camera(scene, camera_override, reports)) {
return 0;
}
/* get panorama & ortho, only after camera is set */
BKE_camera_object_mode(&scene->r, camera_override ? camera_override : scene->camera);
/* forbidden combinations */
if (scene->r.mode & R_PANORAMA) {
if (scene->r.mode & R_ORTHO) {
BKE_report(reports, RPT_ERROR, "No ortho render possible for panorama");
return 0;
}
#ifdef WITH_FREESTYLE
if (scene->r.mode & R_EDGE_FRS) {
BKE_report(reports, RPT_ERROR, "Panoramic camera not supported in Freestyle");
return 0;
}
#endif
}
#ifdef WITH_FREESTYLE
if (scene->r.mode & R_EDGE_FRS) {
if (scene->r.mode & R_FIELDS) {
BKE_report(reports, RPT_ERROR, "Fields not supported in Freestyle");
return false;
}
}
#endif
/* layer flag tests */
if (!render_scene_has_layers_to_render(scene)) {
BKE_report(reports, RPT_ERROR, "All render layers are disabled");
return 0;
}
return 1;
}
static void validate_render_settings(Render *re)
{
if (re->r.scemode & (R_EXR_TILE_FILE | R_FULL_SAMPLE)) {
/* no osa + fullsample won't work... */
if (re->r.osa == 0)
re->r.scemode &= ~R_FULL_SAMPLE;
}
if (RE_engine_is_external(re)) {
/* not supported yet */
re->r.scemode &= ~(R_FULL_SAMPLE);
re->r.mode &= ~(R_FIELDS | R_MBLUR);
}
}
static void update_physics_cache(Render *re, Scene *scene, int UNUSED(anim_init))
{
PTCacheBaker baker;
baker.main = re->main;
baker.scene = scene;
baker.pid = NULL;
baker.bake = 0;
baker.render = 1;
baker.anim_init = 1;
baker.quick_step = 1;
baker.break_test = re->test_break;
baker.break_data = re->tbh;
baker.progressbar = NULL;
BKE_ptcache_bake(&baker);
}
void RE_SetActiveRenderView(Render *re, const char *viewname)
{
BLI_strncpy(re->viewname, viewname, sizeof(re->viewname));
}
const char *RE_GetActiveRenderView(Render *re)
{
return re->viewname;
}
/* evaluating scene options for general Blender render */
static int render_initialize_from_main(Render *re, RenderData *rd, Main *bmain, Scene *scene, SceneRenderLayer *srl,
Object *camera_override, unsigned int lay_override, int anim, int anim_init)
{
int winx, winy;
rcti disprect;
/* r.xsch and r.ysch has the actual view window size
* r.border is the clipping rect */
/* calculate actual render result and display size */
winx = (rd->size * rd->xsch) / 100;
winy = (rd->size * rd->ysch) / 100;
/* we always render smaller part, inserting it in larger image is compositor bizz, it uses disprect for it */
if (scene->r.mode & R_BORDER) {
disprect.xmin = rd->border.xmin * winx;
disprect.xmax = rd->border.xmax * winx;
disprect.ymin = rd->border.ymin * winy;
disprect.ymax = rd->border.ymax * winy;
}
else {
disprect.xmin = disprect.ymin = 0;
disprect.xmax = winx;
disprect.ymax = winy;
}
re->main = bmain;
re->scene = scene;
re->scene_color_manage = BKE_scene_check_color_management_enabled(scene);
re->camera_override = camera_override;
re->lay = lay_override ? lay_override : scene->lay;
re->layer_override = lay_override;
re->i.localview = (re->lay & 0xFF000000) != 0;
re->viewname[0] = '\0';
/* not too nice, but it survives anim-border render */
if (anim) {
render_update_anim_renderdata(re, &scene->r);
re->disprect = disprect;
return 1;
}
/* check all scenes involved */
tag_scenes_for_render(re);
/*
* Disabled completely for now,
* can be later set as render profile option
* and default for background render.
*/
if (0) {
/* make sure dynamics are up to date */
update_physics_cache(re, scene, anim_init);
}
if (srl || scene->r.scemode & R_SINGLE_LAYER) {
BLI_rw_mutex_lock(&re->resultmutex, THREAD_LOCK_WRITE);
render_result_single_layer_begin(re);
BLI_rw_mutex_unlock(&re->resultmutex);
}
RE_InitState(re, NULL, &scene->r, srl, winx, winy, &disprect);
if (!re->ok) /* if an error was printed, abort */
return 0;
/* initstate makes new result, have to send changed tags around */
ntreeCompositTagRender(re->scene);
validate_render_settings(re);
re->display_init(re->dih, re->result);
re->display_clear(re->dch, re->result);
return 1;
}
void RE_SetReports(Render *re, ReportList *reports)
{
re->reports = reports;
}
/* general Blender frame render call */
void RE_BlenderFrame(Render *re, Main *bmain, Scene *scene, SceneRenderLayer *srl, Object *camera_override,
unsigned int lay_override, int frame, const bool write_still)
{
BLI_callback_exec(re->main, (ID *)scene, BLI_CB_EVT_RENDER_INIT);
/* ugly global still... is to prevent preview events and signal subsurfs etc to make full resol */
G.is_rendering = true;
scene->r.cfra = frame;
if (render_initialize_from_main(re, &scene->r, bmain, scene, srl, camera_override, lay_override, 0, 0)) {
MEM_reset_peak_memory();
BLI_callback_exec(re->main, (ID *)scene, BLI_CB_EVT_RENDER_PRE);
do_render_all_options(re);
if (write_still && !G.is_break) {
if (BKE_imtype_is_movie(scene->r.im_format.imtype)) {
/* operator checks this but in case its called from elsewhere */
printf("Error: cant write single images with a movie format!\n");
}
else {
char name[FILE_MAX];
BKE_image_path_from_imformat(
name, scene->r.pic, bmain->name, scene->r.cfra,
&scene->r.im_format, (scene->r.scemode & R_EXTENSION) != 0, false, NULL);
/* reports only used for Movie */
do_write_image_or_movie(re, bmain, scene, NULL, 0, name);
}
}
BLI_callback_exec(re->main, (ID *)scene, BLI_CB_EVT_RENDER_POST); /* keep after file save */
if (write_still) {
BLI_callback_exec(re->main, (ID *)scene, BLI_CB_EVT_RENDER_WRITE);
}
}
BLI_callback_exec(re->main, (ID *)scene, G.is_break ? BLI_CB_EVT_RENDER_CANCEL : BLI_CB_EVT_RENDER_COMPLETE);
/* UGLY WARNING */
G.is_rendering = false;
}
#ifdef WITH_FREESTYLE
void RE_RenderFreestyleStrokes(Render *re, Main *bmain, Scene *scene, int render)
{
re->result_ok= 0;
if (render_initialize_from_main(re, &scene->r, bmain, scene, NULL, NULL, scene->lay, 0, 0)) {
if (render)
do_render_fields_blur_3d(re);
}
re->result_ok = 1;
}
void RE_RenderFreestyleExternal(Render *re)
{
if (!re->test_break(re->tbh)) {
RE_Database_FromScene(re, re->main, re->scene, re->lay, 1);
RE_Database_Preprocess(re);
add_freestyle(re, 1);
RE_Database_Free(re);
}
}
#endif
bool RE_WriteRenderViewsImage(ReportList *reports, RenderResult *rr, Scene *scene, struct Object *camera, const bool stamp, char *name)
{
bool is_mono;
bool ok = true;
RenderData *rd = &scene->r;
if (!rr)
return false;
is_mono = BLI_listbase_count_ex(&rr->views, 2) < 2;
if (ELEM(rd->im_format.imtype, R_IMF_IMTYPE_OPENEXR, R_IMF_IMTYPE_MULTILAYER) &&
rd->im_format.views_format == R_IMF_VIEWS_MULTIVIEW)
{
RE_WriteRenderResult(reports, rr, name, &rd->im_format, true, NULL);
printf("Saved: %s\n", name);
}
/* mono, legacy code */
else if (is_mono || (rd->im_format.views_format == R_IMF_VIEWS_INDIVIDUAL))
{
RenderView *rv;
size_t view_id;
char filepath[FILE_MAX];
BLI_strncpy(filepath, name, sizeof(filepath));
for (view_id = 0, rv = rr->views.first; rv; rv = rv->next, view_id++) {
BKE_scene_multiview_view_filepath_get(&scene->r, filepath, rv->name, name);
if (rd->im_format.imtype == R_IMF_IMTYPE_MULTILAYER) {
RE_WriteRenderResult(reports, rr, name, &rd->im_format, false, rv->name);
printf("Saved: %s\n", name);
}
else {
ImBuf *ibuf = render_result_rect_to_ibuf(rr, rd, view_id);
IMB_colormanagement_imbuf_for_write(ibuf, true, false, &scene->view_settings,
&scene->display_settings, &rd->im_format);
if (stamp) {
/* writes the name of the individual cameras */
Object *view_camera = BKE_camera_multiview_render(scene, camera, rv->name);
ok = BKE_imbuf_write_stamp(scene, view_camera, ibuf, name, &rd->im_format);
}
else {
ok = BKE_imbuf_write(ibuf, name, &rd->im_format);
}
if (ok == false) {
printf("Render error: cannot save %s\n", name);
}
else printf("Saved: %s\n", name);
/* optional preview images for exr */
if (ok && rd->im_format.imtype == R_IMF_IMTYPE_OPENEXR && (rd->im_format.flag & R_IMF_FLAG_PREVIEW_JPG)) {
ImageFormatData imf = rd->im_format;
imf.imtype = R_IMF_IMTYPE_JPEG90;
if (BLI_testextensie(name, ".exr"))
name[strlen(name) - 4] = 0;
BKE_image_path_ensure_ext_from_imformat(name, &imf);
ibuf->planes = 24;
IMB_colormanagement_imbuf_for_write(ibuf, true, false, &scene->view_settings,
&scene->display_settings, &rd->im_format);
if (stamp) {
/* writes the name of the individual cameras */
Object *view_camera = BKE_camera_multiview_render(scene, camera, rv->name);
ok = BKE_imbuf_write_stamp(scene, view_camera, ibuf, name, &rd->im_format);
}
else {
ok = BKE_imbuf_write(ibuf, name, &rd->im_format);
}
printf("Saved: %s\n", name);
}
/* imbuf knows which rects are not part of ibuf */
IMB_freeImBuf(ibuf);
}
}
}
else { /* R_IMF_VIEWS_STEREO_3D */
BLI_assert(scene->r.im_format.views_format == R_IMF_VIEWS_STEREO_3D);
if (rd->im_format.imtype == R_IMF_IMTYPE_MULTILAYER) {
printf("Stereo 3D not support for MultiLayer image: %s\n", name);
}
else {
ImBuf *ibuf_arr[3] = {NULL};
const char *names[2] = {STEREO_LEFT_NAME, STEREO_RIGHT_NAME};
int i;
for (i = 0; i < 2; i++) {
int view_id = BLI_findstringindex(&rr->views, names[i], offsetof(RenderView, name));
ibuf_arr[i] = render_result_rect_to_ibuf(rr, rd, view_id);
IMB_colormanagement_imbuf_for_write(ibuf_arr[i], true, false, &scene->view_settings,
&scene->display_settings, &scene->r.im_format);
IMB_prepare_write_ImBuf(IMB_isfloat(ibuf_arr[i]), ibuf_arr[i]);
}
ibuf_arr[2] = IMB_stereo3d_ImBuf(&scene->r.im_format, ibuf_arr[0], ibuf_arr[1]);
if (stamp)
ok = BKE_imbuf_write_stamp(scene, camera, ibuf_arr[2], name, &rd->im_format);
else
ok = BKE_imbuf_write(ibuf_arr[2], name, &rd->im_format);
if (ok == false)
printf("Render error: cannot save %s\n", name);
else
printf("Saved: %s\n", name);
/* optional preview images for exr */
if (ok && rd->im_format.imtype == R_IMF_IMTYPE_OPENEXR &&
(rd->im_format.flag & R_IMF_FLAG_PREVIEW_JPG))
{
ImageFormatData imf = rd->im_format;
imf.imtype = R_IMF_IMTYPE_JPEG90;
if (BLI_testextensie(name, ".exr"))
name[strlen(name) - 4] = 0;
BKE_image_path_ensure_ext_from_imformat(name, &imf);
ibuf_arr[2]->planes = 24;
IMB_colormanagement_imbuf_for_write(ibuf_arr[2], true, false, &scene->view_settings,
&scene->display_settings, &imf);
if (stamp)
ok = BKE_imbuf_write_stamp(scene, camera, ibuf_arr[2], name, &rd->im_format);
else
ok = BKE_imbuf_write(ibuf_arr[2], name, &imf);
printf("Saved: %s\n", name);
}
/* imbuf knows which rects are not part of ibuf */
for (i = 0; i < 3; i++) {
IMB_freeImBuf(ibuf_arr[i]);
}
}
}
return ok;
}
bool RE_WriteRenderViewsMovie(ReportList *reports, RenderResult *rr, Scene *scene, RenderData *rd, bMovieHandle *mh,
const size_t width, const size_t height, void **movie_ctx_arr, const size_t totvideos, bool preview)
{
bool is_mono;
bool ok = true;
if (!rr)
return false;
is_mono = BLI_listbase_count_ex(&rr->views, 2) < 2;
if (is_mono || (scene->r.im_format.views_format == R_IMF_VIEWS_INDIVIDUAL)) {
size_t view_id;
for (view_id = 0; view_id < totvideos; view_id++) {
bool do_free = false;
const char *suffix = BKE_scene_multiview_view_id_suffix_get(&scene->r, view_id);
ImBuf *ibuf = render_result_rect_to_ibuf(rr, &scene->r, view_id);
/* note; the way it gets 32 bits rects is weak... */
if (ibuf->rect == NULL) {
ibuf->rect = MEM_mapallocN(sizeof(int) * rr->rectx * rr->recty, "temp 32 bits rect");
ibuf->mall |= IB_rect;
render_result_rect_get_pixels(rr, ibuf->rect, width, height, &scene->view_settings, &scene->display_settings, view_id);
do_free = true;
}
IMB_colormanagement_imbuf_for_write(ibuf, true, false, &scene->view_settings,
&scene->display_settings, &scene->r.im_format);
ok &= mh->append_movie(movie_ctx_arr[view_id], rd, preview ? scene->r.psfra : scene->r.sfra, scene->r.cfra,
(int *) ibuf->rect, ibuf->x, ibuf->y, suffix, reports);
if (do_free) {
MEM_freeN(ibuf->rect);
ibuf->rect = NULL;
ibuf->mall &= ~IB_rect;
}
/* imbuf knows which rects are not part of ibuf */
IMB_freeImBuf(ibuf);
}
printf("Append frame %d\n", scene->r.cfra);
}
else { /* R_IMF_VIEWS_STEREO_3D */
const char *names[2] = {STEREO_LEFT_NAME, STEREO_RIGHT_NAME};
ImBuf *ibuf_arr[3] = {NULL};
bool do_free[2] = {false, false};
size_t i;
BLI_assert((totvideos == 1) && (scene->r.im_format.views_format == R_IMF_VIEWS_STEREO_3D));
for (i = 0; i < 2; i++) {
int view_id = BLI_findstringindex(&rr->views, names[i], offsetof(RenderView, name));
ibuf_arr[i] = render_result_rect_to_ibuf(rr, &scene->r, view_id);
/* note; the way it gets 32 bits rects is weak... */
if (ibuf_arr[i]->rect == NULL) {
ibuf_arr[i]->rect = MEM_mapallocN(sizeof(int) * width * height, "temp 32 bits rect");
ibuf_arr[i]->mall |= IB_rect;
render_result_rect_get_pixels(rr, ibuf_arr[i]->rect, width, height, &scene->view_settings, &scene->display_settings, view_id);
do_free[i] = true;
}
IMB_colormanagement_imbuf_for_write(ibuf_arr[i], true, false, &scene->view_settings,
&scene->display_settings, &scene->r.im_format);
}
ibuf_arr[2] = IMB_stereo3d_ImBuf(&scene->r.im_format, ibuf_arr[0], ibuf_arr[1]);
ok = mh->append_movie(movie_ctx_arr[0], rd, preview ? scene->r.psfra : scene->r.sfra, scene->r.cfra, (int *) ibuf_arr[2]->rect,
ibuf_arr[2]->x, ibuf_arr[2]->y, "", reports);
for (i = 0; i < 2; i++) {
if (do_free[i]) {
MEM_freeN(ibuf_arr[i]->rect);
ibuf_arr[i]->rect = NULL;
ibuf_arr[i]->mall &= ~IB_rect;
}
/* imbuf knows which rects are not part of ibuf */
IMB_freeImBuf(ibuf_arr[i]);
}
}
return ok;
}
static int do_write_image_or_movie(Render *re, Main *bmain, Scene *scene, bMovieHandle *mh, const size_t totvideos, const char *name_override)
{
char name[FILE_MAX];
RenderResult rres;
double render_time;
bool ok = true;
Object *camera = RE_GetCamera(re);
RE_AcquireResultImageViews(re, &rres);
/* write movie or image */
if (BKE_imtype_is_movie(scene->r.im_format.imtype)) {
RE_WriteRenderViewsMovie(re->reports, &rres, scene, &re->r, mh, re->rectx, re->recty, re->movie_ctx_arr, totvideos, false);
}
else {
if (name_override)
BLI_strncpy(name, name_override, sizeof(name));
else
BKE_image_path_from_imformat(
name, scene->r.pic, bmain->name, scene->r.cfra,
&scene->r.im_format, (scene->r.scemode & R_EXTENSION) != 0, true, NULL);
/* write images as individual images or stereo */
ok = RE_WriteRenderViewsImage(re->reports, &rres, scene, camera, true, name);
}
RE_ReleaseResultImageViews(re, &rres);
render_time = re->i.lastframetime;
re->i.lastframetime = PIL_check_seconds_timer() - re->i.starttime;
BLI_timestr(re->i.lastframetime, name, sizeof(name));
printf(" Time: %s", name);
BLI_callback_exec(G.main, NULL, BLI_CB_EVT_RENDER_STATS);
BLI_timestr(re->i.lastframetime - render_time, name, sizeof(name));
printf(" (Saving: %s)\n", name);
fputc('\n', stdout);
fflush(stdout); /* needed for renderd !! (not anymore... (ton)) */
return ok;
}
static void get_videos_dimensions(Render *re, RenderData *rd, size_t *r_width, size_t *r_height)
{
size_t width, height;
if (re->r.mode & R_BORDER) {
if ((re->r.mode & R_CROP) == 0) {
width = re->winx;
height = re->winy;
}
else {
width = re->rectx;
height = re->recty;
}
}
else {
width = re->rectx;
height = re->recty;
}
BKE_scene_multiview_videos_dimensions_get(rd, width, height, r_width, r_height);
}
/* saves images to disk */
void RE_BlenderAnim(Render *re, Main *bmain, Scene *scene, Object *camera_override,
unsigned int lay_override, int sfra, int efra, int tfra)
{
RenderData rd = scene->r;
bMovieHandle *mh = NULL;
int cfrao = scene->r.cfra;
int nfra, totrendered = 0, totskipped = 0;
const size_t totvideos = BKE_scene_multiview_num_videos_get(&rd);
const bool is_movie = BKE_imtype_is_movie(scene->r.im_format.imtype);
const bool is_multiview_name = ((scene->r.scemode & R_MULTIVIEW) != 0 &&
(scene->r.im_format.views_format == R_IMF_VIEWS_INDIVIDUAL));
BLI_callback_exec(re->main, (ID *)scene, BLI_CB_EVT_RENDER_INIT);
/* do not fully call for each frame, it initializes & pops output window */
if (!render_initialize_from_main(re, &rd, bmain, scene, NULL, camera_override, lay_override, 0, 1))
return;
/* we don't support Frame Server and streaming of individual views */
if ((rd.im_format.imtype == R_IMF_IMTYPE_FRAMESERVER) && (totvideos > 1)) {
BKE_report(re->reports, RPT_ERROR, "Frame Server only support stereo output for multiview rendering");
return;
}
/* ugly global still... is to prevent renderwin events and signal subsurfs etc to make full resol */
/* is also set by caller renderwin.c */
G.is_rendering = true;
re->flag |= R_ANIMATION;
if (is_movie) {
size_t i, width, height;
get_videos_dimensions(re, &rd, &width, &height);
mh = BKE_movie_handle_get(scene->r.im_format.imtype);
re->movie_ctx_arr = MEM_mallocN(sizeof(void *) * totvideos, "Movies' Context");
for (i = 0; i < totvideos; i++) {
const char *suffix = BKE_scene_multiview_view_id_suffix_get(&re->r, i);
re->movie_ctx_arr[i] = mh->context_create();
if (!mh->start_movie(re->movie_ctx_arr[i], scene, &re->r, width, height, re->reports, false, suffix))
G.is_break = true;
}
}
if (mh && mh->get_next_frame) {
/* MULTIVIEW_TODO:
* in case a new video format is added that implements get_next_frame multiview has to be addressed
* or the error throwing for R_IMF_IMTYPE_FRAMESERVER has to be extended for those cases as well
*/
BLI_assert(totvideos < 2);
while (!(G.is_break == 1)) {
int nf = mh->get_next_frame(re->movie_ctx_arr[0], &re->r, re->reports);
if (nf >= 0 && nf >= scene->r.sfra && nf <= scene->r.efra) {
scene->r.cfra = re->r.cfra = nf;
BLI_callback_exec(re->main, (ID *)scene, BLI_CB_EVT_RENDER_PRE);
do_render_all_options(re);
totrendered++;
if (re->test_break(re->tbh) == 0) {
if (!do_write_image_or_movie(re, bmain, scene, mh, totvideos, NULL))
G.is_break = true;
}
if (G.is_break == false) {
BLI_callback_exec(re->main, (ID *)scene, BLI_CB_EVT_RENDER_POST); /* keep after file save */
BLI_callback_exec(re->main, (ID *)scene, BLI_CB_EVT_RENDER_WRITE);
}
}
else {
if (re->test_break(re->tbh)) {
G.is_break = true;
}
}
}
}
else {
for (nfra = sfra, scene->r.cfra = sfra; scene->r.cfra <= efra; scene->r.cfra++) {
char name[FILE_MAX];
/* only border now, todo: camera lens. (ton) */
render_initialize_from_main(re, &rd, bmain, scene, NULL, camera_override, lay_override, 1, 0);
if (nfra != scene->r.cfra) {
/*
* Skip this frame, but update for physics and particles system.
* From convertblender.c:
* in localview, lamps are using normal layers, objects only local bits.
*/
unsigned int updatelay;
if (re->lay & 0xFF000000)
updatelay = re->lay & 0xFF000000;
else
updatelay = re->lay;
BKE_scene_update_for_newframe(re->eval_ctx, bmain, scene, updatelay);
continue;
}
else
nfra += tfra;
/* Touch/NoOverwrite options are only valid for image's */
if (is_movie == false) {
if (scene->r.mode & (R_NO_OVERWRITE | R_TOUCH))
BKE_image_path_from_imformat(
name, scene->r.pic, bmain->name, scene->r.cfra,
&scene->r.im_format, (scene->r.scemode & R_EXTENSION) != 0, true, NULL);
if (scene->r.mode & R_NO_OVERWRITE) {
if (!is_multiview_name) {
if (BLI_exists(name)) {
printf("skipping existing frame \"%s\"\n", name);
totskipped++;
continue;
}
}
else {
SceneRenderView *srv;
bool is_skip = false;
char filepath[FILE_MAX];
for (srv = scene->r.views.first; srv; srv = srv->next) {
if (!BKE_scene_multiview_is_render_view_active(&scene->r, srv))
continue;
BKE_scene_multiview_filepath_get(srv, name, filepath);
if (BLI_exists(filepath)) {
is_skip = true;
printf("skipping existing frame \"%s\" for view \"%s\"\n", filepath, srv->name);
}
}
if (is_skip) {
totskipped++;
continue;
}
}
}
if (scene->r.mode & R_TOUCH) {
if (!is_multiview_name) {
if (!BLI_exists(name)) {
BLI_make_existing_file(name); /* makes the dir if its not there */
BLI_file_touch(name);
}
}
else {
SceneRenderView *srv;
char filepath[FILE_MAX];
for (srv = scene->r.views.first; srv; srv = srv->next) {
if (!BKE_scene_multiview_is_render_view_active(&scene->r, srv))
continue;
BKE_scene_multiview_filepath_get(srv, name, filepath);
if (!BLI_exists(filepath)) {
BLI_make_existing_file(filepath); /* makes the dir if its not there */
BLI_file_touch(filepath);
}
}
}
}
}
re->r.cfra = scene->r.cfra; /* weak.... */
/* run callbacs before rendering, before the scene is updated */
BLI_callback_exec(re->main, (ID *)scene, BLI_CB_EVT_RENDER_PRE);
do_render_all_options(re);
totrendered++;
if (re->test_break(re->tbh) == 0) {
if (!G.is_break)
if (!do_write_image_or_movie(re, bmain, scene, mh, totvideos, NULL))
G.is_break = true;
}
else
G.is_break = true;
if (G.is_break == true) {
/* remove touched file */
if (is_movie == false) {
if ((scene->r.mode & R_TOUCH)) {
if (!is_multiview_name) {
if ((BLI_file_size(name) == 0)) {
/* BLI_exists(name) is implicit */
BLI_delete(name, false, false);
}
}
else {
SceneRenderView *srv;
char filepath[FILE_MAX];
for (srv = scene->r.views.first; srv; srv = srv->next) {
if (!BKE_scene_multiview_is_render_view_active(&scene->r, srv))
continue;
BKE_scene_multiview_filepath_get(srv, name, filepath);
if ((BLI_file_size(filepath) == 0)) {
/* BLI_exists(filepath) is implicit */
BLI_delete(filepath, false, false);
}
}
}
}
}
break;
}
if (G.is_break == false) {
BLI_callback_exec(re->main, (ID *)scene, BLI_CB_EVT_RENDER_POST); /* keep after file save */
BLI_callback_exec(re->main, (ID *)scene, BLI_CB_EVT_RENDER_WRITE);
}
}
}
/* end movie */
if (is_movie) {
size_t i;
for (i = 0; i < totvideos; i++) {
mh->end_movie(re->movie_ctx_arr[i]);
mh->context_free(re->movie_ctx_arr[i]);
}
if (re->movie_ctx_arr) {
MEM_freeN(re->movie_ctx_arr);
}
}
if (totskipped && totrendered == 0)
BKE_report(re->reports, RPT_INFO, "No frames rendered, skipped to not overwrite");
scene->r.cfra = cfrao;
re->flag &= ~R_ANIMATION;
BLI_callback_exec(re->main, (ID *)scene, G.is_break ? BLI_CB_EVT_RENDER_CANCEL : BLI_CB_EVT_RENDER_COMPLETE);
/* UGLY WARNING */
G.is_rendering = false;
}
void RE_PreviewRender(Render *re, Main *bmain, Scene *sce)
{
Object *camera;
int winx, winy;
winx = (sce->r.size * sce->r.xsch) / 100;
winy = (sce->r.size * sce->r.ysch) / 100;
RE_InitState(re, NULL, &sce->r, NULL, winx, winy, NULL);
re->pool = BKE_image_pool_new();
re->main = bmain;
re->scene = sce;
re->scene_color_manage = BKE_scene_check_color_management_enabled(sce);
re->lay = sce->lay;
camera = RE_GetCamera(re);
RE_SetCamera(re, camera);
do_render_3d(re);
BKE_image_pool_free(re->pool);
re->pool = NULL;
}
/* note; repeated win/disprect calc... solve that nicer, also in compo */
/* only the temp file! */
bool RE_ReadRenderResult(Scene *scene, Scene *scenode)
{
Render *re;
int winx, winy;
bool success;
rcti disprect;
/* calculate actual render result and display size */
winx = (scene->r.size * scene->r.xsch) / 100;
winy = (scene->r.size * scene->r.ysch) / 100;
/* only in movie case we render smaller part */
if (scene->r.mode & R_BORDER) {
disprect.xmin = scene->r.border.xmin * winx;
disprect.xmax = scene->r.border.xmax * winx;
disprect.ymin = scene->r.border.ymin * winy;
disprect.ymax = scene->r.border.ymax * winy;
}
else {
disprect.xmin = disprect.ymin = 0;
disprect.xmax = winx;
disprect.ymax = winy;
}
if (scenode)
scene = scenode;
/* get render: it can be called from UI with draw callbacks */
re = RE_GetRender(scene->id.name);
if (re == NULL)
re = RE_NewRender(scene->id.name);
RE_InitState(re, NULL, &scene->r, NULL, winx, winy, &disprect);
re->scene = scene;
re->scene_color_manage = BKE_scene_check_color_management_enabled(scene);
BLI_rw_mutex_lock(&re->resultmutex, THREAD_LOCK_WRITE);
success = render_result_exr_file_cache_read(re);
BLI_rw_mutex_unlock(&re->resultmutex);
return success;
}
void RE_init_threadcount(Render *re)
{
re->r.threads = BKE_render_num_threads(&re->r);
}
/* loads in image into a result, size must match
* x/y offsets are only used on a partial copy when dimensions don't match */
void RE_layer_load_from_file(RenderLayer *layer, ReportList *reports, const char *filename, int x, int y)
{
/* OCIO_TODO: assume layer was saved in defaule color space */
ImBuf *ibuf = IMB_loadiffname(filename, IB_rect, NULL);
RenderPass *rpass = NULL;
/* multiview: since the API takes no 'view', we use the first combined pass found */
for (rpass = layer->passes.first; rpass; rpass = rpass->next)
if (rpass->passtype == SCE_PASS_COMBINED)
break;
if (rpass == NULL)
BKE_reportf(reports, RPT_ERROR, "%s: no Combined pass found in the render layer '%s'", __func__, filename);
if (ibuf && (ibuf->rect || ibuf->rect_float)) {
if (ibuf->x == layer->rectx && ibuf->y == layer->recty) {
if (ibuf->rect_float == NULL)
IMB_float_from_rect(ibuf);
memcpy(rpass->rect, ibuf->rect_float, sizeof(float) * 4 * layer->rectx * layer->recty);
}
else {
if ((ibuf->x - x >= layer->rectx) && (ibuf->y - y >= layer->recty)) {
ImBuf *ibuf_clip;
if (ibuf->rect_float == NULL)
IMB_float_from_rect(ibuf);
ibuf_clip = IMB_allocImBuf(layer->rectx, layer->recty, 32, IB_rectfloat);
if (ibuf_clip) {
IMB_rectcpy(ibuf_clip, ibuf, 0, 0, x, y, layer->rectx, layer->recty);
memcpy(rpass->rect, ibuf_clip->rect_float, sizeof(float) * 4 * layer->rectx * layer->recty);
IMB_freeImBuf(ibuf_clip);
}
else {
BKE_reportf(reports, RPT_ERROR, "%s: failed to allocate clip buffer '%s'", __func__, filename);
}
}
else {
BKE_reportf(reports, RPT_ERROR, "%s: incorrect dimensions for partial copy '%s'", __func__, filename);
}
}
IMB_freeImBuf(ibuf);
}
else {
BKE_reportf(reports, RPT_ERROR, "%s: failed to load '%s'", __func__, filename);
}
}
void RE_result_load_from_file(RenderResult *result, ReportList *reports, const char *filename)
{
if (!render_result_exr_file_read_path(result, NULL, filename)) {
BKE_reportf(reports, RPT_ERROR, "%s: failed to load '%s'", __func__, filename);
return;
}
}
const float default_envmap_layout[] = { 0, 0, 1, 0, 2, 0, 0, 1, 1, 1, 2, 1 };
bool RE_WriteEnvmapResult(struct ReportList *reports, Scene *scene, EnvMap *env, const char *relpath, const char imtype, float layout[12])
{
ImageFormatData imf;
ImBuf *ibuf = NULL;
int ok;
int dx;
int maxX = 0, maxY = 0, i = 0;
char filepath[FILE_MAX];
if (env->cube[1] == NULL) {
BKE_report(reports, RPT_ERROR, "There is no generated environment map available to save");
return 0;
}
imf = scene->r.im_format;
imf.imtype = imtype;
dx = env->cube[1]->x;
if (env->type == ENV_CUBE) {
for (i = 0; i < 12; i += 2) {
maxX = max_ii(maxX, (int)layout[i] + 1);
maxY = max_ii(maxY, (int)layout[i + 1] + 1);
}
ibuf = IMB_allocImBuf(maxX * dx, maxY * dx, 24, IB_rectfloat);
for (i = 0; i < 12; i += 2)
if (layout[i] > -1 && layout[i + 1] > -1)
IMB_rectcpy(ibuf, env->cube[i / 2], layout[i] * dx, layout[i + 1] * dx, 0, 0, dx, dx);
}
else if (env->type == ENV_PLANE) {
ibuf = IMB_allocImBuf(dx, dx, 24, IB_rectfloat);
IMB_rectcpy(ibuf, env->cube[1], 0, 0, 0, 0, dx, dx);
}
else {
BKE_report(reports, RPT_ERROR, "Invalid environment map type");
return 0;
}
IMB_colormanagement_imbuf_for_write(ibuf, true, false, &scene->view_settings, &scene->display_settings, &imf);
/* to save, we first get absolute path */
BLI_strncpy(filepath, relpath, sizeof(filepath));
BLI_path_abs(filepath, G.main->name);
ok = BKE_imbuf_write(ibuf, filepath, &imf);
IMB_freeImBuf(ibuf);
if (ok) {
return true;
}
else {
BKE_report(reports, RPT_ERROR, "Error writing environment map");
return false;
}
}
/* used in the interface to decide whether to show layers */
bool RE_layers_have_name(struct RenderResult *rr)
{
switch (BLI_listbase_count_ex(&rr->layers, 2)) {
case 0:
return false;
break;
case 1:
return (((RenderLayer *)rr->layers.first)->name[0] != '\0');
break;
default:
return true;
break;
}
return false;
}
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