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blender-archive/source/blender/blenkernel/intern/image.c

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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) 2001-2002 by NaN Holding BV.
* All rights reserved.
*
* Contributor(s): Blender Foundation, 2006, full recode
*
* ***** END GPL LICENSE BLOCK *****
*/
/** \file blender/blenkernel/intern/image.c
* \ingroup bke
*/
#include <stdio.h>
#include <string.h>
#include <fcntl.h>
#include <math.h>
#ifndef WIN32
# include <unistd.h>
#else
# include <io.h>
#endif
#include <time.h>
#include "MEM_guardedalloc.h"
#include "IMB_colormanagement.h"
#include "IMB_imbuf_types.h"
#include "IMB_imbuf.h"
#include "IMB_moviecache.h"
#ifdef WITH_OPENEXR
# include "intern/openexr/openexr_multi.h"
#endif
#include "DNA_packedFile_types.h"
#include "DNA_scene_types.h"
#include "DNA_object_types.h"
#include "DNA_camera_types.h"
#include "DNA_sequence_types.h"
#include "DNA_userdef_types.h"
#include "DNA_brush_types.h"
#include "DNA_mesh_types.h"
#include "DNA_meshdata_types.h"
#include "BLI_blenlib.h"
#include "BLI_threads.h"
#include "BLI_timecode.h" /* for stamp timecode format */
#include "BLI_utildefines.h"
#include "BKE_bmfont.h"
#include "BKE_colortools.h"
#include "BKE_global.h"
#include "BKE_icons.h"
#include "BKE_image.h"
#include "BKE_library.h"
#include "BKE_main.h"
#include "BKE_packedFile.h"
#include "BKE_scene.h"
#include "BKE_node.h"
#include "BKE_sequencer.h" /* seq_foreground_frame_get() */
#include "BLF_api.h"
#include "PIL_time.h"
#include "RE_pipeline.h"
#include "GPU_draw.h"
#include "BLI_sys_types.h" // for intptr_t support
/* for image user iteration */
#include "DNA_node_types.h"
#include "DNA_space_types.h"
#include "DNA_screen_types.h"
#include "DNA_view3d_types.h"
#include "WM_api.h"
static SpinLock image_spin;
/* max int, to indicate we don't store sequences in ibuf */
#define IMA_NO_INDEX 0x7FEFEFEF
/* quick lookup: supports 1 million frames, thousand passes */
#define IMA_MAKE_INDEX(frame, index) ((frame) << 10) + index
#define IMA_INDEX_FRAME(index) (index >> 10)
/*
#define IMA_INDEX_PASS(index) (index & ~1023)
*/
/* ******** IMAGE CACHE ************* */
typedef struct ImageCacheKey {
int index;
} ImageCacheKey;
static unsigned int imagecache_hashhash(const void *key_v)
{
const ImageCacheKey *key = (ImageCacheKey *) key_v;
return key->index;
}
static int imagecache_hashcmp(const void *a_v, const void *b_v)
{
const ImageCacheKey *a = (ImageCacheKey *) a_v;
const ImageCacheKey *b = (ImageCacheKey *) b_v;
return a->index - b->index;
}
static void imagecache_keydata(void *userkey, int *framenr, int *proxy, int *render_flags)
{
ImageCacheKey *key = (ImageCacheKey *)userkey;
*framenr = IMA_INDEX_FRAME(key->index);
*proxy = IMB_PROXY_NONE;
*render_flags = 0;
}
static void imagecache_put(Image *image, int index, ImBuf *ibuf)
{
ImageCacheKey key;
if (image->cache == NULL) {
// char cache_name[64];
// BLI_snprintf(cache_name, sizeof(cache_name), "Image Datablock %s", image->id.name);
image->cache = IMB_moviecache_create("Image Datablock Cache", sizeof(ImageCacheKey),
imagecache_hashhash, imagecache_hashcmp);
IMB_moviecache_set_getdata_callback(image->cache, imagecache_keydata);
}
key.index = index;
IMB_moviecache_put(image->cache, &key, ibuf);
}
static struct ImBuf *imagecache_get(Image *image, int index)
{
if (image->cache) {
ImageCacheKey key;
key.index = index;
return IMB_moviecache_get(image->cache, &key);
}
return NULL;
}
void BKE_images_init(void)
{
BLI_spin_init(&image_spin);
}
void BKE_images_exit(void)
{
BLI_spin_end(&image_spin);
}
/* ******** IMAGE PROCESSING ************* */
static void de_interlace_ng(struct ImBuf *ibuf) /* neogeo fields */
{
struct ImBuf *tbuf1, *tbuf2;
if (ibuf == NULL) return;
if (ibuf->flags & IB_fields) return;
ibuf->flags |= IB_fields;
if (ibuf->rect) {
/* make copies */
tbuf1 = IMB_allocImBuf(ibuf->x, (ibuf->y >> 1), (unsigned char)32, (int)IB_rect);
tbuf2 = IMB_allocImBuf(ibuf->x, (ibuf->y >> 1), (unsigned char)32, (int)IB_rect);
ibuf->x *= 2;
IMB_rectcpy(tbuf1, ibuf, 0, 0, 0, 0, ibuf->x, ibuf->y);
IMB_rectcpy(tbuf2, ibuf, 0, 0, tbuf2->x, 0, ibuf->x, ibuf->y);
ibuf->x /= 2;
IMB_rectcpy(ibuf, tbuf1, 0, 0, 0, 0, tbuf1->x, tbuf1->y);
IMB_rectcpy(ibuf, tbuf2, 0, tbuf2->y, 0, 0, tbuf2->x, tbuf2->y);
IMB_freeImBuf(tbuf1);
IMB_freeImBuf(tbuf2);
}
ibuf->y /= 2;
}
static void de_interlace_st(struct ImBuf *ibuf) /* standard fields */
{
struct ImBuf *tbuf1, *tbuf2;
if (ibuf == NULL) return;
if (ibuf->flags & IB_fields) return;
ibuf->flags |= IB_fields;
if (ibuf->rect) {
/* make copies */
tbuf1 = IMB_allocImBuf(ibuf->x, (ibuf->y >> 1), (unsigned char)32, IB_rect);
tbuf2 = IMB_allocImBuf(ibuf->x, (ibuf->y >> 1), (unsigned char)32, IB_rect);
ibuf->x *= 2;
IMB_rectcpy(tbuf1, ibuf, 0, 0, 0, 0, ibuf->x, ibuf->y);
IMB_rectcpy(tbuf2, ibuf, 0, 0, tbuf2->x, 0, ibuf->x, ibuf->y);
ibuf->x /= 2;
IMB_rectcpy(ibuf, tbuf2, 0, 0, 0, 0, tbuf2->x, tbuf2->y);
IMB_rectcpy(ibuf, tbuf1, 0, tbuf2->y, 0, 0, tbuf1->x, tbuf1->y);
IMB_freeImBuf(tbuf1);
IMB_freeImBuf(tbuf2);
}
ibuf->y /= 2;
}
void BKE_image_de_interlace(Image *ima, int odd)
{
ImBuf *ibuf = BKE_image_acquire_ibuf(ima, NULL, NULL);
if (ibuf) {
if (odd)
de_interlace_st(ibuf);
else
de_interlace_ng(ibuf);
}
BKE_image_release_ibuf(ima, ibuf, NULL);
}
/* ***************** ALLOC & FREE, DATA MANAGING *************** */
static void image_free_cahced_frames(Image *image)
{
if (image->cache) {
IMB_moviecache_free(image->cache);
image->cache = NULL;
}
}
/**
* Simply free the image data from memory,
* on display the image can load again (except for render buffers).
*/
void BKE_image_free_buffers(Image *ima)
{
image_free_cahced_frames(ima);
if (ima->anim) IMB_free_anim(ima->anim);
ima->anim = NULL;
if (ima->rr) {
RE_FreeRenderResult(ima->rr);
ima->rr = NULL;
}
GPU_free_image(ima);
ima->ok = IMA_OK;
}
/* called by library too, do not free ima itself */
void BKE_image_free(Image *ima)
{
int a;
BKE_image_free_buffers(ima);
if (ima->packedfile) {
freePackedFile(ima->packedfile);
ima->packedfile = NULL;
}
BKE_icon_delete(&ima->id);
ima->id.icon_id = 0;
BKE_previewimg_free(&ima->preview);
for (a = 0; a < IMA_MAX_RENDER_SLOT; a++) {
if (ima->renders[a]) {
RE_FreeRenderResult(ima->renders[a]);
ima->renders[a] = NULL;
}
}
}
/* only image block itself */
static Image *image_alloc(Main *bmain, const char *name, short source, short type)
{
Image *ima;
ima = BKE_libblock_alloc(bmain, ID_IM, name);
if (ima) {
ima->ok = IMA_OK;
ima->xrep = ima->yrep = 1;
ima->aspx = ima->aspy = 1.0;
ima->gen_x = 1024; ima->gen_y = 1024;
ima->gen_type = 1; /* no defines yet? */
ima->source = source;
ima->type = type;
if (source == IMA_SRC_VIEWER)
ima->flag |= IMA_VIEW_AS_RENDER;
BKE_color_managed_colorspace_settings_init(&ima->colorspace_settings);
}
return ima;
}
/* Get the ibuf from an image cache by it's index and frame.
* Local use here only.
*
* Returns referenced image buffer if it exists, callee is to
* call IMB_freeImBuf to de-reference the image buffer after
* it's done handling it.
*/
static ImBuf *image_get_cached_ibuf_for_index_frame(Image *ima, int index, int frame)
{
if (index != IMA_NO_INDEX) {
index = IMA_MAKE_INDEX(frame, index);
}
return imagecache_get(ima, index);
}
/* no ima->ibuf anymore, but listbase */
static void image_assign_ibuf(Image *ima, ImBuf *ibuf, int index, int frame)
{
if (ibuf) {
if (index != IMA_NO_INDEX)
index = IMA_MAKE_INDEX(frame, index);
imagecache_put(ima, index, ibuf);
}
}
/* empty image block, of similar type and filename */
Image *BKE_image_copy(Main *bmain, Image *ima)
{
Image *nima = image_alloc(bmain, ima->id.name + 2, ima->source, ima->type);
BLI_strncpy(nima->name, ima->name, sizeof(ima->name));
nima->flag = ima->flag;
nima->tpageflag = ima->tpageflag;
nima->gen_x = ima->gen_x;
nima->gen_y = ima->gen_y;
nima->gen_type = ima->gen_type;
nima->animspeed = ima->animspeed;
nima->aspx = ima->aspx;
nima->aspy = ima->aspy;
BKE_color_managed_colorspace_settings_copy(&nima->colorspace_settings, &ima->colorspace_settings);
if (ima->packedfile)
nima->packedfile = dupPackedFile(ima->packedfile);
return nima;
}
static void extern_local_image(Image *UNUSED(ima))
{
/* Nothing to do: images don't link to other IDs. This function exists to
* match id_make_local pattern. */
}
void BKE_image_make_local(struct Image *ima)
{
Main *bmain = G.main;
Tex *tex;
Brush *brush;
Mesh *me;
bool is_local = false, is_lib = false;
/* - only lib users: do nothing
* - only local users: set flag
* - mixed: make copy
*/
if (ima->id.lib == NULL) return;
/* Can't take short cut here: must check meshes at least because of bogus
* texface ID refs. - z0r */
#if 0
if (ima->id.us == 1) {
id_clear_lib_data(bmain, &ima->id);
extern_local_image(ima);
return;
}
#endif
for (tex = bmain->tex.first; tex; tex = tex->id.next) {
if (tex->ima == ima) {
if (tex->id.lib) is_lib = true;
else is_local = true;
}
}
for (brush = bmain->brush.first; brush; brush = brush->id.next) {
if (brush->clone.image == ima) {
if (brush->id.lib) is_lib = true;
else is_local = true;
}
}
for (me = bmain->mesh.first; me; me = me->id.next) {
if (me->mtface) {
MTFace *tface;
int a, i;
for (i = 0; i < me->fdata.totlayer; i++) {
if (me->fdata.layers[i].type == CD_MTFACE) {
tface = (MTFace *)me->fdata.layers[i].data;
for (a = 0; a < me->totface; a++, tface++) {
if (tface->tpage == ima) {
if (me->id.lib) is_lib = true;
else is_local = true;
}
}
}
}
}
if (me->mtpoly) {
MTexPoly *mtpoly;
int a, i;
for (i = 0; i < me->pdata.totlayer; i++) {
if (me->pdata.layers[i].type == CD_MTEXPOLY) {
mtpoly = (MTexPoly *)me->pdata.layers[i].data;
for (a = 0; a < me->totpoly; a++, mtpoly++) {
if (mtpoly->tpage == ima) {
if (me->id.lib) is_lib = true;
else is_local = true;
}
}
}
}
}
}
if (is_local && is_lib == false) {
id_clear_lib_data(bmain, &ima->id);
extern_local_image(ima);
}
else if (is_local && is_lib) {
Image *ima_new = BKE_image_copy(bmain, ima);
ima_new->id.us = 0;
/* Remap paths of new ID using old library as base. */
BKE_id_lib_local_paths(bmain, ima->id.lib, &ima_new->id);
tex = bmain->tex.first;
while (tex) {
if (tex->id.lib == NULL) {
if (tex->ima == ima) {
tex->ima = ima_new;
ima_new->id.us++;
ima->id.us--;
}
}
tex = tex->id.next;
}
brush = bmain->brush.first;
while (brush) {
if (brush->id.lib == NULL) {
if (brush->clone.image == ima) {
brush->clone.image = ima_new;
ima_new->id.us++;
ima->id.us--;
}
}
brush = brush->id.next;
}
/* Transfer references in texfaces. Texfaces don't add to image ID
* user count *unless* there are no other users. See
* readfile.c:lib_link_mtface. */
me = bmain->mesh.first;
while (me) {
if (me->mtface) {
MTFace *tface;
int a, i;
for (i = 0; i < me->fdata.totlayer; i++) {
if (me->fdata.layers[i].type == CD_MTFACE) {
tface = (MTFace *)me->fdata.layers[i].data;
for (a = 0; a < me->totface; a++, tface++) {
if (tface->tpage == ima) {
tface->tpage = ima_new;
if (ima_new->id.us == 0) {
tface->tpage->id.us = 1;
}
id_lib_extern((ID *)ima_new);
}
}
}
}
}
if (me->mtpoly) {
MTexPoly *mtpoly;
int a, i;
for (i = 0; i < me->pdata.totlayer; i++) {
if (me->pdata.layers[i].type == CD_MTEXPOLY) {
mtpoly = (MTexPoly *)me->pdata.layers[i].data;
for (a = 0; a < me->totpoly; a++, mtpoly++) {
if (mtpoly->tpage == ima) {
mtpoly->tpage = ima_new;
if (ima_new->id.us == 0) {
mtpoly->tpage->id.us = 1;
}
id_lib_extern((ID *)ima_new);
}
}
}
}
}
me = me->id.next;
}
}
}
void BKE_image_merge(Image *dest, Image *source)
{
/* sanity check */
if (dest && source && dest != source) {
BLI_spin_lock(&image_spin);
if (source->cache != NULL) {
struct MovieCacheIter *iter;
iter = IMB_moviecacheIter_new(source->cache);
while (!IMB_moviecacheIter_done(iter)) {
ImBuf *ibuf = IMB_moviecacheIter_getImBuf(iter);
ImageCacheKey *key = IMB_moviecacheIter_getUserKey(iter);
imagecache_put(dest, key->index, ibuf);
IMB_moviecacheIter_step(iter);
}
IMB_moviecacheIter_free(iter);
}
BLI_spin_unlock(&image_spin);
BKE_libblock_free(G.main, source);
}
}
/* note, we could be clever and scale all imbuf's but since some are mipmaps its not so simple */
bool BKE_image_scale(Image *image, int width, int height)
{
ImBuf *ibuf;
void *lock;
ibuf = BKE_image_acquire_ibuf(image, NULL, &lock);
if (ibuf) {
IMB_scaleImBuf(ibuf, width, height);
ibuf->userflags |= IB_BITMAPDIRTY;
}
BKE_image_release_ibuf(image, ibuf, lock);
return (ibuf != NULL);
}
static void image_init_color_management(Image *ima)
{
ImBuf *ibuf;
char name[FILE_MAX];
BKE_image_user_file_path(NULL, ima, name);
/* will set input color space to image format default's */
ibuf = IMB_loadiffname(name, IB_test | IB_alphamode_detect, ima->colorspace_settings.name);
if (ibuf) {
if (ibuf->flags & IB_alphamode_premul)
ima->alpha_mode = IMA_ALPHA_PREMUL;
else
ima->alpha_mode = IMA_ALPHA_STRAIGHT;
IMB_freeImBuf(ibuf);
}
}
char BKE_image_alpha_mode_from_extension_ex(const char *filepath)
{
if (BLI_testextensie_n(filepath, ".exr", ".cin", ".dpx", ".hdr", NULL)) {
return IMA_ALPHA_PREMUL;
}
else {
return IMA_ALPHA_STRAIGHT;
}
}
void BKE_image_alpha_mode_from_extension(Image *image)
{
image->alpha_mode = BKE_image_alpha_mode_from_extension_ex(image->name);
}
Image *BKE_image_load(Main *bmain, const char *filepath)
{
Image *ima;
int file, len;
const char *libname;
char str[FILE_MAX];
BLI_strncpy(str, filepath, sizeof(str));
BLI_path_abs(str, bmain->name);
/* exists? */
file = BLI_open(str, O_BINARY | O_RDONLY, 0);
if (file == -1)
return NULL;
close(file);
/* create a short library name */
len = strlen(filepath);
while (len > 0 && filepath[len - 1] != '/' && filepath[len - 1] != '\\') len--;
libname = filepath + len;
ima = image_alloc(bmain, libname, IMA_SRC_FILE, IMA_TYPE_IMAGE);
BLI_strncpy(ima->name, filepath, sizeof(ima->name));
if (BLI_testextensie_array(filepath, imb_ext_movie))
ima->source = IMA_SRC_MOVIE;
image_init_color_management(ima);
return ima;
}
/* checks if image was already loaded, then returns same image */
/* otherwise creates new. */
/* does not load ibuf itself */
/* pass on optional frame for #name images */
Image *BKE_image_load_exists(const char *filepath)
{
Image *ima;
char str[FILE_MAX], strtest[FILE_MAX];
BLI_strncpy(str, filepath, sizeof(str));
BLI_path_abs(str, G.main->name);
/* first search an identical image */
for (ima = G.main->image.first; ima; ima = ima->id.next) {
if (ima->source != IMA_SRC_VIEWER && ima->source != IMA_SRC_GENERATED) {
BLI_strncpy(strtest, ima->name, sizeof(ima->name));
BLI_path_abs(strtest, ID_BLEND_PATH(G.main, &ima->id));
if (BLI_path_cmp(strtest, str) == 0) {
if (ima->anim == NULL || ima->id.us == 0) {
BLI_strncpy(ima->name, filepath, sizeof(ima->name)); /* for stringcode */
ima->id.us++; /* officially should not, it doesn't link here! */
if (ima->ok == 0)
ima->ok = IMA_OK;
/* RETURN! */
return ima;
}
}
}
}
return BKE_image_load(G.main, filepath);
}
static ImBuf *add_ibuf_size(unsigned int width, unsigned int height, const char *name, int depth, int floatbuf, short gen_type,
const float color[4], ColorManagedColorspaceSettings *colorspace_settings)
{
ImBuf *ibuf;
unsigned char *rect = NULL;
float *rect_float = NULL;
if (floatbuf) {
ibuf = IMB_allocImBuf(width, height, depth, IB_rectfloat);
if (colorspace_settings->name[0] == '\0') {
const char *colorspace = IMB_colormanagement_role_colorspace_name_get(COLOR_ROLE_DEFAULT_FLOAT);
BLI_strncpy(colorspace_settings->name, colorspace, sizeof(colorspace_settings->name));
}
if (ibuf != NULL) {
rect_float = ibuf->rect_float;
IMB_colormanagement_check_is_data(ibuf, colorspace_settings->name);
}
}
else {
ibuf = IMB_allocImBuf(width, height, depth, IB_rect);
if (colorspace_settings->name[0] == '\0') {
const char *colorspace = IMB_colormanagement_role_colorspace_name_get(COLOR_ROLE_DEFAULT_BYTE);
BLI_strncpy(colorspace_settings->name, colorspace, sizeof(colorspace_settings->name));
}
if (ibuf != NULL) {
rect = (unsigned char *)ibuf->rect;
IMB_colormanagement_assign_rect_colorspace(ibuf, colorspace_settings->name);
}
}
if (!ibuf) {
return NULL;
}
BLI_strncpy(ibuf->name, name, sizeof(ibuf->name));
ibuf->userflags |= IB_BITMAPDIRTY;
switch (gen_type) {
case IMA_GENTYPE_GRID:
BKE_image_buf_fill_checker(rect, rect_float, width, height);
break;
case IMA_GENTYPE_GRID_COLOR:
BKE_image_buf_fill_checker_color(rect, rect_float, width, height);
break;
default:
BKE_image_buf_fill_color(rect, rect_float, width, height, color);
break;
}
if (rect_float) {
/* both byte and float buffers are filling in sRGB space, need to linearize float buffer after BKE_image_buf_fill* functions */
IMB_buffer_float_from_float(rect_float, rect_float, ibuf->channels, IB_PROFILE_LINEAR_RGB, IB_PROFILE_SRGB,
true, ibuf->x, ibuf->y, ibuf->x, ibuf->x);
}
return ibuf;
}
/* adds new image block, creates ImBuf and initializes color */
Image *BKE_image_add_generated(Main *bmain, unsigned int width, unsigned int height, const char *name, int depth, int floatbuf, short gen_type, const float color[4])
{
/* on save, type is changed to FILE in editsima.c */
Image *ima = image_alloc(bmain, name, IMA_SRC_GENERATED, IMA_TYPE_UV_TEST);
if (ima) {
ImBuf *ibuf;
/* BLI_strncpy(ima->name, name, FILE_MAX); */ /* don't do this, this writes in ain invalid filepath! */
ima->gen_x = width;
ima->gen_y = height;
ima->gen_type = gen_type;
ima->gen_flag |= (floatbuf ? IMA_GEN_FLOAT : 0);
ima->gen_depth = depth;
ibuf = add_ibuf_size(width, height, ima->name, depth, floatbuf, gen_type, color, &ima->colorspace_settings);
image_assign_ibuf(ima, ibuf, IMA_NO_INDEX, 0);
/* image_assign_ibuf puts buffer to the cache, which increments user counter. */
IMB_freeImBuf(ibuf);
ima->ok = IMA_OK_LOADED;
}
return ima;
}
/* creates an image image owns the imbuf passed */
Image *BKE_image_add_from_imbuf(ImBuf *ibuf)
{
/* on save, type is changed to FILE in editsima.c */
Image *ima;
ima = image_alloc(G.main, BLI_path_basename(ibuf->name), IMA_SRC_FILE, IMA_TYPE_IMAGE);
if (ima) {
BLI_strncpy(ima->name, ibuf->name, FILE_MAX);
image_assign_ibuf(ima, ibuf, IMA_NO_INDEX, 0);
ima->ok = IMA_OK_LOADED;
}
return ima;
}
/* packs rect from memory as PNG */
void BKE_image_memorypack(Image *ima)
{
ImBuf *ibuf = image_get_cached_ibuf_for_index_frame(ima, IMA_NO_INDEX, 0);
if (ibuf == NULL)
return;
if (ima->packedfile) {
freePackedFile(ima->packedfile);
ima->packedfile = NULL;
}
ibuf->ftype = PNG;
ibuf->planes = R_IMF_PLANES_RGBA;
IMB_saveiff(ibuf, ibuf->name, IB_rect | IB_mem);
if (ibuf->encodedbuffer == NULL) {
printf("memory save for pack error\n");
}
else {
PackedFile *pf = MEM_callocN(sizeof(*pf), "PackedFile");
pf->data = ibuf->encodedbuffer;
pf->size = ibuf->encodedsize;
ima->packedfile = pf;
ibuf->encodedbuffer = NULL;
ibuf->encodedsize = 0;
ibuf->userflags &= ~IB_BITMAPDIRTY;
if (ima->source == IMA_SRC_GENERATED) {
ima->source = IMA_SRC_FILE;
ima->type = IMA_TYPE_IMAGE;
}
}
IMB_freeImBuf(ibuf);
}
void BKE_image_tag_time(Image *ima)
{
ima->lastused = (int)PIL_check_seconds_timer();
}
#if 0
static void tag_all_images_time()
{
Image *ima;
int ctime = (int)PIL_check_seconds_timer();
ima = G.main->image.first;
while (ima) {
if (ima->bindcode || ima->repbind || ima->ibufs.first) {
ima->lastused = ctime;
}
}
}
#endif
static uintptr_t image_mem_size(Image *image)
{
uintptr_t size = 0;
/* viewers have memory depending on other rules, has no valid rect pointer */
if (image->source == IMA_SRC_VIEWER)
return 0;
BLI_spin_lock(&image_spin);
if (image->cache != NULL) {
struct MovieCacheIter *iter = IMB_moviecacheIter_new(image->cache);
while (!IMB_moviecacheIter_done(iter)) {
ImBuf *ibuf = IMB_moviecacheIter_getImBuf(iter);
ImBuf *ibufm;
int level;
if (ibuf->rect) {
size += MEM_allocN_len(ibuf->rect);
}
if (ibuf->rect_float) {
size += MEM_allocN_len(ibuf->rect_float);
}
for (level = 0; level < IB_MIPMAP_LEVELS; level++) {
ibufm = ibuf->mipmap[level];
if (ibufm) {
if (ibufm->rect) {
size += MEM_allocN_len(ibufm->rect);
}
if (ibufm->rect_float) {
size += MEM_allocN_len(ibufm->rect_float);
}
}
}
IMB_moviecacheIter_step(iter);
}
IMB_moviecacheIter_free(iter);
}
BLI_spin_unlock(&image_spin);
return size;
}
void BKE_image_print_memlist(void)
{
Image *ima;
uintptr_t size, totsize = 0;
for (ima = G.main->image.first; ima; ima = ima->id.next)
totsize += image_mem_size(ima);
printf("\ntotal image memory len: %.3f MB\n", (double)totsize / (double)(1024 * 1024));
for (ima = G.main->image.first; ima; ima = ima->id.next) {
size = image_mem_size(ima);
if (size)
printf("%s len: %.3f MB\n", ima->id.name + 2, (double)size / (double)(1024 * 1024));
}
}
static bool imagecache_check_dirty(ImBuf *ibuf, void *UNUSED(userkey), void *UNUSED(userdata))
{
return (ibuf->userflags & IB_BITMAPDIRTY) == 0;
}
void BKE_image_free_all_textures(void)
{
#undef CHECK_FREED_SIZE
Tex *tex;
Image *ima;
#ifdef CHECK_FREED_SIZE
uintptr_t tot_freed_size = 0;
#endif
for (ima = G.main->image.first; ima; ima = ima->id.next)
ima->id.flag &= ~LIB_DOIT;
for (tex = G.main->tex.first; tex; tex = tex->id.next)
if (tex->ima)
tex->ima->id.flag |= LIB_DOIT;
for (ima = G.main->image.first; ima; ima = ima->id.next) {
if (ima->cache && (ima->id.flag & LIB_DOIT)) {
#ifdef CHECK_FREED_SIZE
uintptr_t old_size = image_mem_size(ima);
#endif
IMB_moviecache_cleanup(ima->cache, imagecache_check_dirty, NULL);
#ifdef CHECK_FREED_SIZE
tot_freed_size += old_size - image_mem_size(ima);
#endif
}
}
#ifdef CHECK_FREED_SIZE
printf("%s: freed total %lu MB\n", __func__, tot_freed_size / (1024 * 1024));
#endif
}
static bool imagecache_check_free_anim(ImBuf *ibuf, void *UNUSED(userkey), void *userdata)
{
int except_frame = *(int *)userdata;
return (ibuf->userflags & IB_BITMAPDIRTY) == 0 &&
(ibuf->index != IMA_NO_INDEX) &&
(except_frame != IMA_INDEX_FRAME(ibuf->index));
}
/* except_frame is weak, only works for seqs without offset... */
void BKE_image_free_anim_ibufs(Image *ima, int except_frame)
{
BLI_spin_lock(&image_spin);
if (ima->cache != NULL) {
IMB_moviecache_cleanup(ima->cache, imagecache_check_free_anim, &except_frame);
}
BLI_spin_unlock(&image_spin);
}
void BKE_image_all_free_anim_ibufs(int cfra)
{
Image *ima;
for (ima = G.main->image.first; ima; ima = ima->id.next)
if (BKE_image_is_animated(ima))
BKE_image_free_anim_ibufs(ima, cfra);
}
/* *********** READ AND WRITE ************** */
int BKE_imtype_to_ftype(const char imtype)
{
if (imtype == R_IMF_IMTYPE_TARGA)
return TGA;
else if (imtype == R_IMF_IMTYPE_RAWTGA)
return RAWTGA;
else if (imtype == R_IMF_IMTYPE_IRIS)
return IMAGIC;
#ifdef WITH_HDR
else if (imtype == R_IMF_IMTYPE_RADHDR)
return RADHDR;
#endif
else if (imtype == R_IMF_IMTYPE_PNG)
return PNG | 15;
#ifdef WITH_DDS
else if (imtype == R_IMF_IMTYPE_DDS)
return DDS;
#endif
else if (imtype == R_IMF_IMTYPE_BMP)
return BMP;
#ifdef WITH_TIFF
else if (imtype == R_IMF_IMTYPE_TIFF)
return TIF;
#endif
else if (imtype == R_IMF_IMTYPE_OPENEXR || imtype == R_IMF_IMTYPE_MULTILAYER)
return OPENEXR;
#ifdef WITH_CINEON
else if (imtype == R_IMF_IMTYPE_CINEON)
return CINEON;
else if (imtype == R_IMF_IMTYPE_DPX)
return DPX;
#endif
#ifdef WITH_OPENJPEG
else if (imtype == R_IMF_IMTYPE_JP2)
return JP2;
#endif
else
return JPG | 90;
}
char BKE_ftype_to_imtype(const int ftype)
{
if (ftype == 0)
return R_IMF_IMTYPE_TARGA;
else if (ftype == IMAGIC)
return R_IMF_IMTYPE_IRIS;
#ifdef WITH_HDR
else if (ftype & RADHDR)
return R_IMF_IMTYPE_RADHDR;
#endif
else if (ftype & PNG)
return R_IMF_IMTYPE_PNG;
#ifdef WITH_DDS
else if (ftype & DDS)
return R_IMF_IMTYPE_DDS;
#endif
else if (ftype & BMP)
return R_IMF_IMTYPE_BMP;
#ifdef WITH_TIFF
else if (ftype & TIF)
return R_IMF_IMTYPE_TIFF;
#endif
else if (ftype & OPENEXR)
return R_IMF_IMTYPE_OPENEXR;
#ifdef WITH_CINEON
else if (ftype & CINEON)
return R_IMF_IMTYPE_CINEON;
else if (ftype & DPX)
return R_IMF_IMTYPE_DPX;
#endif
else if (ftype & TGA)
return R_IMF_IMTYPE_TARGA;
else if (ftype & RAWTGA)
return R_IMF_IMTYPE_RAWTGA;
#ifdef WITH_OPENJPEG
else if (ftype & JP2)
return R_IMF_IMTYPE_JP2;
#endif
else
return R_IMF_IMTYPE_JPEG90;
}
bool BKE_imtype_is_movie(const char imtype)
{
switch (imtype) {
case R_IMF_IMTYPE_AVIRAW:
case R_IMF_IMTYPE_AVIJPEG:
case R_IMF_IMTYPE_QUICKTIME:
case R_IMF_IMTYPE_FFMPEG:
case R_IMF_IMTYPE_H264:
case R_IMF_IMTYPE_THEORA:
case R_IMF_IMTYPE_XVID:
case R_IMF_IMTYPE_FRAMESERVER:
return true;
}
return false;
}
int BKE_imtype_supports_zbuf(const char imtype)
{
switch (imtype) {
case R_IMF_IMTYPE_IRIZ:
case R_IMF_IMTYPE_OPENEXR: /* but not R_IMF_IMTYPE_MULTILAYER */
return 1;
}
return 0;
}
int BKE_imtype_supports_compress(const char imtype)
{
switch (imtype) {
case R_IMF_IMTYPE_PNG:
return 1;
}
return 0;
}
int BKE_imtype_supports_quality(const char imtype)
{
switch (imtype) {
case R_IMF_IMTYPE_JPEG90:
case R_IMF_IMTYPE_JP2:
case R_IMF_IMTYPE_AVIJPEG:
return 1;
}
return 0;
}
int BKE_imtype_requires_linear_float(const char imtype)
{
switch (imtype) {
case R_IMF_IMTYPE_CINEON:
case R_IMF_IMTYPE_DPX:
case R_IMF_IMTYPE_RADHDR:
case R_IMF_IMTYPE_OPENEXR:
case R_IMF_IMTYPE_MULTILAYER:
return true;
}
return 0;
}
char BKE_imtype_valid_channels(const char imtype, bool write_file)
{
char chan_flag = IMA_CHAN_FLAG_RGB; /* assume all support rgb */
/* alpha */
switch (imtype) {
case R_IMF_IMTYPE_BMP:
if (write_file) break;
/* fall-through */
case R_IMF_IMTYPE_TARGA:
case R_IMF_IMTYPE_IRIS:
case R_IMF_IMTYPE_PNG:
case R_IMF_IMTYPE_RADHDR:
case R_IMF_IMTYPE_TIFF:
case R_IMF_IMTYPE_OPENEXR:
case R_IMF_IMTYPE_MULTILAYER:
case R_IMF_IMTYPE_DDS:
case R_IMF_IMTYPE_JP2:
case R_IMF_IMTYPE_QUICKTIME:
case R_IMF_IMTYPE_DPX:
chan_flag |= IMA_CHAN_FLAG_ALPHA;
break;
}
/* bw */
switch (imtype) {
case R_IMF_IMTYPE_PNG:
case R_IMF_IMTYPE_JPEG90:
case R_IMF_IMTYPE_TARGA:
case R_IMF_IMTYPE_RAWTGA:
case R_IMF_IMTYPE_TIFF:
case R_IMF_IMTYPE_IRIS:
chan_flag |= IMA_CHAN_FLAG_BW;
break;
}
return chan_flag;
}
char BKE_imtype_valid_depths(const char imtype)
{
switch (imtype) {
case R_IMF_IMTYPE_RADHDR:
return R_IMF_CHAN_DEPTH_32;
case R_IMF_IMTYPE_TIFF:
return R_IMF_CHAN_DEPTH_8 | R_IMF_CHAN_DEPTH_16;
case R_IMF_IMTYPE_OPENEXR:
return R_IMF_CHAN_DEPTH_16 | R_IMF_CHAN_DEPTH_32;
case R_IMF_IMTYPE_MULTILAYER:
return R_IMF_CHAN_DEPTH_32;
/* eeh, cineon does some strange 10bits per channel */
case R_IMF_IMTYPE_DPX:
return R_IMF_CHAN_DEPTH_8 | R_IMF_CHAN_DEPTH_10 | R_IMF_CHAN_DEPTH_12 | R_IMF_CHAN_DEPTH_16;
case R_IMF_IMTYPE_CINEON:
return R_IMF_CHAN_DEPTH_10;
case R_IMF_IMTYPE_JP2:
return R_IMF_CHAN_DEPTH_8 | R_IMF_CHAN_DEPTH_12 | R_IMF_CHAN_DEPTH_16;
case R_IMF_IMTYPE_PNG:
return R_IMF_CHAN_DEPTH_8 | R_IMF_CHAN_DEPTH_16;
/* most formats are 8bit only */
default:
return R_IMF_CHAN_DEPTH_8;
}
}
/* string is from command line --render-format arg, keep in sync with
* creator.c help info */
char BKE_imtype_from_arg(const char *imtype_arg)
{
if (!strcmp(imtype_arg, "TGA")) return R_IMF_IMTYPE_TARGA;
else if (!strcmp(imtype_arg, "IRIS")) return R_IMF_IMTYPE_IRIS;
#ifdef WITH_DDS
else if (!strcmp(imtype_arg, "DDS")) return R_IMF_IMTYPE_DDS;
#endif
else if (!strcmp(imtype_arg, "JPEG")) return R_IMF_IMTYPE_JPEG90;
else if (!strcmp(imtype_arg, "IRIZ")) return R_IMF_IMTYPE_IRIZ;
else if (!strcmp(imtype_arg, "RAWTGA")) return R_IMF_IMTYPE_RAWTGA;
else if (!strcmp(imtype_arg, "AVIRAW")) return R_IMF_IMTYPE_AVIRAW;
else if (!strcmp(imtype_arg, "AVIJPEG")) return R_IMF_IMTYPE_AVIJPEG;
else if (!strcmp(imtype_arg, "PNG")) return R_IMF_IMTYPE_PNG;
else if (!strcmp(imtype_arg, "QUICKTIME")) return R_IMF_IMTYPE_QUICKTIME;
else if (!strcmp(imtype_arg, "BMP")) return R_IMF_IMTYPE_BMP;
#ifdef WITH_HDR
else if (!strcmp(imtype_arg, "HDR")) return R_IMF_IMTYPE_RADHDR;
#endif
#ifdef WITH_TIFF
else if (!strcmp(imtype_arg, "TIFF")) return R_IMF_IMTYPE_TIFF;
#endif
#ifdef WITH_OPENEXR
else if (!strcmp(imtype_arg, "EXR")) return R_IMF_IMTYPE_OPENEXR;
else if (!strcmp(imtype_arg, "MULTILAYER")) return R_IMF_IMTYPE_MULTILAYER;
#endif
else if (!strcmp(imtype_arg, "MPEG")) return R_IMF_IMTYPE_FFMPEG;
else if (!strcmp(imtype_arg, "FRAMESERVER")) return R_IMF_IMTYPE_FRAMESERVER;
#ifdef WITH_CINEON
else if (!strcmp(imtype_arg, "CINEON")) return R_IMF_IMTYPE_CINEON;
else if (!strcmp(imtype_arg, "DPX")) return R_IMF_IMTYPE_DPX;
#endif
#ifdef WITH_OPENJPEG
else if (!strcmp(imtype_arg, "JP2")) return R_IMF_IMTYPE_JP2;
#endif
else return R_IMF_IMTYPE_INVALID;
}
static bool do_add_image_extension(char *string, const char imtype, const ImageFormatData *im_format)
{
const char *extension = NULL;
const char *extension_test;
(void)im_format; /* may be unused, depends on build options */
if (imtype == R_IMF_IMTYPE_IRIS) {
if (!BLI_testextensie(string, extension_test = ".rgb"))
extension = extension_test;
}
else if (imtype == R_IMF_IMTYPE_IRIZ) {
if (!BLI_testextensie(string, extension_test = ".rgb"))
extension = extension_test;
}
#ifdef WITH_HDR
else if (imtype == R_IMF_IMTYPE_RADHDR) {
if (!BLI_testextensie(string, extension_test = ".hdr"))
extension = extension_test;
}
#endif
else if (ELEM5(imtype, R_IMF_IMTYPE_PNG, R_IMF_IMTYPE_FFMPEG, R_IMF_IMTYPE_H264, R_IMF_IMTYPE_THEORA, R_IMF_IMTYPE_XVID)) {
if (!BLI_testextensie(string, extension_test = ".png"))
extension = extension_test;
}
#ifdef WITH_DDS
else if (imtype == R_IMF_IMTYPE_DDS) {
if (!BLI_testextensie(string, extension_test = ".dds"))
extension = extension_test;
}
#endif
else if (ELEM(imtype, R_IMF_IMTYPE_TARGA, R_IMF_IMTYPE_RAWTGA)) {
if (!BLI_testextensie(string, extension_test = ".tga"))
extension = extension_test;
}
else if (imtype == R_IMF_IMTYPE_BMP) {
if (!BLI_testextensie(string, extension_test = ".bmp"))
extension = extension_test;
}
#ifdef WITH_TIFF
else if (imtype == R_IMF_IMTYPE_TIFF) {
if (!BLI_testextensie_n(string, extension_test = ".tif", ".tiff", NULL)) {
extension = extension_test;
}
}
#endif
#ifdef WITH_OPENIMAGEIO
else if (imtype == R_IMF_IMTYPE_PSD) {
if (!BLI_testextensie(string, extension_test = ".psd"))
extension = extension_test;
}
#endif
#ifdef WITH_OPENEXR
else if (ELEM(imtype, R_IMF_IMTYPE_OPENEXR, R_IMF_IMTYPE_MULTILAYER)) {
if (!BLI_testextensie(string, extension_test = ".exr"))
extension = extension_test;
}
#endif
#ifdef WITH_CINEON
else if (imtype == R_IMF_IMTYPE_CINEON) {
if (!BLI_testextensie(string, extension_test = ".cin"))
extension = extension_test;
}
else if (imtype == R_IMF_IMTYPE_DPX) {
if (!BLI_testextensie(string, extension_test = ".dpx"))
extension = extension_test;
}
#endif
#ifdef WITH_OPENJPEG
else if (imtype == R_IMF_IMTYPE_JP2) {
if (im_format) {
if (im_format->jp2_codec == R_IMF_JP2_CODEC_JP2) {
if (!BLI_testextensie(string, extension_test = ".jp2"))
extension = extension_test;
}
else if (im_format->jp2_codec == R_IMF_JP2_CODEC_J2K) {
if (!BLI_testextensie(string, extension_test = ".j2c"))
extension = extension_test;
}
else
BLI_assert(!"Unsupported jp2 codec was specified in im_format->jp2_codec");
}
else {
if (!BLI_testextensie(string, extension_test = ".jp2"))
extension = extension_test;
}
}
#endif
else { // R_IMF_IMTYPE_AVIRAW, R_IMF_IMTYPE_AVIJPEG, R_IMF_IMTYPE_JPEG90, R_IMF_IMTYPE_QUICKTIME etc
if (!(BLI_testextensie_n(string, extension_test = ".jpg", ".jpeg", NULL)))
extension = extension_test;
}
if (extension) {
/* prefer this in many cases to avoid .png.tga, but in certain cases it breaks */
/* remove any other known image extension */
if (BLI_testextensie_array(string, imb_ext_image) ||
(G.have_quicktime && BLI_testextensie_array(string, imb_ext_image_qt)))
{
return BLI_replace_extension(string, FILE_MAX, extension);
}
else {
return BLI_ensure_extension(string, FILE_MAX, extension);
}
}
else {
return false;
}
}
int BKE_add_image_extension(char *string, const ImageFormatData *im_format)
{
return do_add_image_extension(string, im_format->imtype, im_format);
}
int BKE_add_image_extension_from_type(char *string, const char imtype)
{
return do_add_image_extension(string, imtype, NULL);
}
void BKE_imformat_defaults(ImageFormatData *im_format)
{
memset(im_format, 0, sizeof(*im_format));
im_format->planes = R_IMF_PLANES_RGBA;
im_format->imtype = R_IMF_IMTYPE_PNG;
im_format->depth = R_IMF_CHAN_DEPTH_8;
im_format->quality = 90;
im_format->compress = 15;
BKE_color_managed_display_settings_init(&im_format->display_settings);
BKE_color_managed_view_settings_init(&im_format->view_settings);
}
void BKE_imbuf_to_image_format(struct ImageFormatData *im_format, const ImBuf *imbuf)
{
int ftype = imbuf->ftype & ~IB_CUSTOM_FLAGS_MASK;
int custom_flags = imbuf->ftype & IB_CUSTOM_FLAGS_MASK;
BKE_imformat_defaults(im_format);
/* file type */
if (ftype == IMAGIC)
im_format->imtype = R_IMF_IMTYPE_IRIS;
#ifdef WITH_HDR
else if (ftype == RADHDR)
im_format->imtype = R_IMF_IMTYPE_RADHDR;
#endif
else if (ftype == PNG) {
im_format->imtype = R_IMF_IMTYPE_PNG;
if (custom_flags & PNG_16BIT)
im_format->depth = R_IMF_CHAN_DEPTH_16;
}
#ifdef WITH_DDS
else if (ftype == DDS)
im_format->imtype = R_IMF_IMTYPE_DDS;
#endif
else if (ftype == BMP)
im_format->imtype = R_IMF_IMTYPE_BMP;
#ifdef WITH_TIFF
else if (ftype == TIF) {
im_format->imtype = R_IMF_IMTYPE_TIFF;
if (custom_flags & TIF_16BIT)
im_format->depth = R_IMF_CHAN_DEPTH_16;
}
#endif
#ifdef WITH_OPENEXR
else if (ftype == OPENEXR) {
im_format->imtype = R_IMF_IMTYPE_OPENEXR;
if (custom_flags & OPENEXR_HALF)
im_format->depth = R_IMF_CHAN_DEPTH_16;
if (custom_flags & OPENEXR_COMPRESS)
im_format->exr_codec = R_IMF_EXR_CODEC_ZIP; // Can't determine compression
if (imbuf->zbuf_float)
im_format->flag |= R_IMF_FLAG_ZBUF;
}
#endif
#ifdef WITH_CINEON
else if (ftype == CINEON)
im_format->imtype = R_IMF_IMTYPE_CINEON;
else if (ftype == DPX)
im_format->imtype = R_IMF_IMTYPE_DPX;
#endif
else if (ftype == TGA) {
im_format->imtype = R_IMF_IMTYPE_TARGA;
}
else if (ftype == RAWTGA) {
im_format->imtype = R_IMF_IMTYPE_RAWTGA;
}
#ifdef WITH_OPENJPEG
else if (ftype & JP2) {
im_format->imtype = R_IMF_IMTYPE_JP2;
im_format->quality = custom_flags & ~JPG_MSK;
if (ftype & JP2_16BIT)
im_format->depth = R_IMF_CHAN_DEPTH_16;
else if (ftype & JP2_12BIT)
im_format->depth = R_IMF_CHAN_DEPTH_12;
if (ftype & JP2_YCC)
im_format->jp2_flag |= R_IMF_JP2_FLAG_YCC;
if (ftype & JP2_CINE) {
im_format->jp2_flag |= R_IMF_JP2_FLAG_CINE_PRESET;
if (ftype & JP2_CINE_48FPS)
im_format->jp2_flag |= R_IMF_JP2_FLAG_CINE_48;
}
if (ftype & JP2_JP2)
im_format->jp2_codec = R_IMF_JP2_CODEC_JP2;
else if (ftype & JP2_J2K)
im_format->jp2_codec = R_IMF_JP2_CODEC_J2K;
else
BLI_assert(!"Unsupported jp2 codec was specified in file type");
}
#endif
else {
im_format->imtype = R_IMF_IMTYPE_JPEG90;
im_format->quality = custom_flags & ~JPG_MSK;
}
/* planes */
/* TODO(sergey): Channels doesn't correspond actual planes used for image buffer
* For example byte buffer will have 4 channels but it might easily
* be BW or RGB image.
*
* Need to use im_format->planes = imbuf->planes instead?
*/
switch (imbuf->channels) {
case 0:
case 4: im_format->planes = R_IMF_PLANES_RGBA;
break;
case 3: im_format->planes = R_IMF_PLANES_RGB;
break;
case 1: im_format->planes = R_IMF_PLANES_BW;
break;
default: im_format->planes = R_IMF_PLANES_RGB;
break;
}
}
#define STAMP_NAME_SIZE ((MAX_ID_NAME - 2) + 16)
/* could allow access externally - 512 is for long names,
* STAMP_NAME_SIZE is for id names, allowing them some room for description */
typedef struct StampData {
char file[512];
char note[512];
char date[512];
char marker[512];
char time[512];
char frame[512];
char camera[STAMP_NAME_SIZE];
char cameralens[STAMP_NAME_SIZE];
char scene[STAMP_NAME_SIZE];
char strip[STAMP_NAME_SIZE];
char rendertime[STAMP_NAME_SIZE];
} StampData;
#undef STAMP_NAME_SIZE
static void stampdata(Scene *scene, Object *camera, StampData *stamp_data, int do_prefix)
{
char text[256];
struct tm *tl;
time_t t;
if (scene->r.stamp & R_STAMP_FILENAME) {
BLI_snprintf(stamp_data->file, sizeof(stamp_data->file), do_prefix ? "File %s" : "%s", G.relbase_valid ? G.main->name : "<untitled>");
}
else {
stamp_data->file[0] = '\0';
}
if (scene->r.stamp & R_STAMP_NOTE) {
/* Never do prefix for Note */
BLI_snprintf(stamp_data->note, sizeof(stamp_data->note), "%s", scene->r.stamp_udata);
}
else {
stamp_data->note[0] = '\0';
}
if (scene->r.stamp & R_STAMP_DATE) {
t = time(NULL);
tl = localtime(&t);
BLI_snprintf(text, sizeof(text), "%04d/%02d/%02d %02d:%02d:%02d", tl->tm_year + 1900, tl->tm_mon + 1, tl->tm_mday, tl->tm_hour, tl->tm_min, tl->tm_sec);
BLI_snprintf(stamp_data->date, sizeof(stamp_data->date), do_prefix ? "Date %s" : "%s", text);
}
else {
stamp_data->date[0] = '\0';
}
if (scene->r.stamp & R_STAMP_MARKER) {
const char *name = BKE_scene_find_last_marker_name(scene, CFRA);
if (name) BLI_strncpy(text, name, sizeof(text));
else BLI_strncpy(text, "<none>", sizeof(text));
BLI_snprintf(stamp_data->marker, sizeof(stamp_data->marker), do_prefix ? "Marker %s" : "%s", text);
}
else {
stamp_data->marker[0] = '\0';
}
if (scene->r.stamp & R_STAMP_TIME) {
const short timecode_style = USER_TIMECODE_SMPTE_FULL;
BLI_timecode_string_from_time(text, sizeof(text), 0, FRA2TIME(scene->r.cfra), FPS, timecode_style);
BLI_snprintf(stamp_data->time, sizeof(stamp_data->time), do_prefix ? "Timecode %s" : "%s", text);
}
else {
stamp_data->time[0] = '\0';
}
if (scene->r.stamp & R_STAMP_FRAME) {
char fmtstr[32];
int digits = 1;
if (scene->r.efra > 9)
digits = 1 + (int) log10(scene->r.efra);
BLI_snprintf(fmtstr, sizeof(fmtstr), do_prefix ? "Frame %%0%di" : "%%0%di", digits);
BLI_snprintf(stamp_data->frame, sizeof(stamp_data->frame), fmtstr, scene->r.cfra);
}
else {
stamp_data->frame[0] = '\0';
}
if (scene->r.stamp & R_STAMP_CAMERA) {
BLI_snprintf(stamp_data->camera, sizeof(stamp_data->camera), do_prefix ? "Camera %s" : "%s", camera ? camera->id.name + 2 : "<none>");
}
else {
stamp_data->camera[0] = '\0';
}
if (scene->r.stamp & R_STAMP_CAMERALENS) {
if (camera && camera->type == OB_CAMERA) {
BLI_snprintf(text, sizeof(text), "%.2f", ((Camera *)camera->data)->lens);
}
else {
BLI_strncpy(text, "<none>", sizeof(text));
}
BLI_snprintf(stamp_data->cameralens, sizeof(stamp_data->cameralens), do_prefix ? "Lens %s" : "%s", text);
}
else {
stamp_data->cameralens[0] = '\0';
}
if (scene->r.stamp & R_STAMP_SCENE) {
BLI_snprintf(stamp_data->scene, sizeof(stamp_data->scene), do_prefix ? "Scene %s" : "%s", scene->id.name + 2);
}
else {
stamp_data->scene[0] = '\0';
}
if (scene->r.stamp & R_STAMP_SEQSTRIP) {
Sequence *seq = BKE_sequencer_foreground_frame_get(scene, scene->r.cfra);
if (seq) BLI_strncpy(text, seq->name + 2, sizeof(text));
else BLI_strncpy(text, "<none>", sizeof(text));
BLI_snprintf(stamp_data->strip, sizeof(stamp_data->strip), do_prefix ? "Strip %s" : "%s", text);
}
else {
stamp_data->strip[0] = '\0';
}
{
Render *re = RE_GetRender(scene->id.name);
RenderStats *stats = re ? RE_GetStats(re) : NULL;
if (stats && (scene->r.stamp & R_STAMP_RENDERTIME)) {
BLI_timestr(stats->lastframetime, text, sizeof(text));
BLI_snprintf(stamp_data->rendertime, sizeof(stamp_data->rendertime), do_prefix ? "RenderTime %s" : "%s", text);
}
else {
stamp_data->rendertime[0] = '\0';
}
}
}
void BKE_stamp_buf(Scene *scene, Object *camera, unsigned char *rect, float *rectf, int width, int height, int channels)
{
struct StampData stamp_data;
float w, h, pad;
int x, y, y_ofs;
float h_fixed;
const int mono = blf_mono_font_render; // XXX
struct ColorManagedDisplay *display;
const char *display_device;
/* this could be an argument if we want to operate on non linear float imbuf's
* for now though this is only used for renders which use scene settings */
#define TEXT_SIZE_CHECK(str, w, h) \
((str[0]) && ((void)(h = h_fixed), (w = BLF_width(mono, str, sizeof(str)))))
#define BUFF_MARGIN_X 2
#define BUFF_MARGIN_Y 1
if (!rect && !rectf)
return;
display_device = scene->display_settings.display_device;
display = IMB_colormanagement_display_get_named(display_device);
stampdata(scene, camera, &stamp_data, 1);
/* TODO, do_versions */
if (scene->r.stamp_font_id < 8)
scene->r.stamp_font_id = 12;
/* set before return */
BLF_size(mono, scene->r.stamp_font_id, 72);
BLF_buffer(mono, rectf, rect, width, height, channels, display);
BLF_buffer_col(mono, scene->r.fg_stamp[0], scene->r.fg_stamp[1], scene->r.fg_stamp[2], 1.0);
pad = BLF_width_max(mono);
/* use 'h_fixed' rather than 'h', aligns better */
h_fixed = BLF_height_max(mono);
y_ofs = -BLF_descender(mono);
x = 0;
y = height;
if (TEXT_SIZE_CHECK(stamp_data.file, w, h)) {
/* Top left corner */
y -= h;
/* also a little of space to the background. */
buf_rectfill_area(rect, rectf, width, height, scene->r.bg_stamp, display,
x - BUFF_MARGIN_X, y - BUFF_MARGIN_Y, w + BUFF_MARGIN_X, y + h + BUFF_MARGIN_Y);
/* and draw the text. */
BLF_position(mono, x, y + y_ofs, 0.0);
BLF_draw_buffer(mono, stamp_data.file);
/* the extra pixel for background. */
y -= BUFF_MARGIN_Y * 2;
}
/* Top left corner, below File */
if (TEXT_SIZE_CHECK(stamp_data.note, w, h)) {
y -= h;
/* and space for background. */
buf_rectfill_area(rect, rectf, width, height, scene->r.bg_stamp, display,
0, y - BUFF_MARGIN_Y, w + BUFF_MARGIN_X, y + h + BUFF_MARGIN_Y);
BLF_position(mono, x, y + y_ofs, 0.0);
BLF_draw_buffer(mono, stamp_data.note);
/* the extra pixel for background. */
y -= BUFF_MARGIN_Y * 2;
}
/* Top left corner, below File (or Note) */
if (TEXT_SIZE_CHECK(stamp_data.date, w, h)) {
y -= h;
/* and space for background. */
buf_rectfill_area(rect, rectf, width, height, scene->r.bg_stamp, display,
0, y - BUFF_MARGIN_Y, w + BUFF_MARGIN_X, y + h + BUFF_MARGIN_Y);
BLF_position(mono, x, y + y_ofs, 0.0);
BLF_draw_buffer(mono, stamp_data.date);
/* the extra pixel for background. */
y -= BUFF_MARGIN_Y * 2;
}
/* Top left corner, below File, Date or Note */
if (TEXT_SIZE_CHECK(stamp_data.rendertime, w, h)) {
y -= h;
/* and space for background. */
buf_rectfill_area(rect, rectf, width, height, scene->r.bg_stamp, display,
0, y - BUFF_MARGIN_Y, w + BUFF_MARGIN_X, y + h + BUFF_MARGIN_Y);
BLF_position(mono, x, y + y_ofs, 0.0);
BLF_draw_buffer(mono, stamp_data.rendertime);
}
x = 0;
y = 0;
/* Bottom left corner, leaving space for timing */
if (TEXT_SIZE_CHECK(stamp_data.marker, w, h)) {
/* extra space for background. */
buf_rectfill_area(rect, rectf, width, height, scene->r.bg_stamp, display,
x - BUFF_MARGIN_X, y - BUFF_MARGIN_Y, w + BUFF_MARGIN_X, y + h + BUFF_MARGIN_Y);
/* and pad the text. */
BLF_position(mono, x, y + y_ofs, 0.0);
BLF_draw_buffer(mono, stamp_data.marker);
/* space width. */
x += w + pad;
}
/* Left bottom corner */
if (TEXT_SIZE_CHECK(stamp_data.time, w, h)) {
/* extra space for background */
buf_rectfill_area(rect, rectf, width, height, scene->r.bg_stamp, display,
x - BUFF_MARGIN_X, y, x + w + BUFF_MARGIN_X, y + h + BUFF_MARGIN_Y);
/* and pad the text. */
BLF_position(mono, x, y + y_ofs, 0.0);
BLF_draw_buffer(mono, stamp_data.time);
/* space width. */
x += w + pad;
}
if (TEXT_SIZE_CHECK(stamp_data.frame, w, h)) {
/* extra space for background. */
buf_rectfill_area(rect, rectf, width, height, scene->r.bg_stamp, display,
x - BUFF_MARGIN_X, y - BUFF_MARGIN_Y, x + w + BUFF_MARGIN_X, y + h + BUFF_MARGIN_Y);
/* and pad the text. */
BLF_position(mono, x, y + y_ofs, 0.0);
BLF_draw_buffer(mono, stamp_data.frame);
/* space width. */
x += w + pad;
}
if (TEXT_SIZE_CHECK(stamp_data.camera, w, h)) {
/* extra space for background. */
buf_rectfill_area(rect, rectf, width, height, scene->r.bg_stamp, display,
x - BUFF_MARGIN_X, y - BUFF_MARGIN_Y, x + w + BUFF_MARGIN_X, y + h + BUFF_MARGIN_Y);
BLF_position(mono, x, y + y_ofs, 0.0);
BLF_draw_buffer(mono, stamp_data.camera);
/* space width. */
x += w + pad;
}
if (TEXT_SIZE_CHECK(stamp_data.cameralens, w, h)) {
/* extra space for background. */
buf_rectfill_area(rect, rectf, width, height, scene->r.bg_stamp, display,
x - BUFF_MARGIN_X, y - BUFF_MARGIN_Y, x + w + BUFF_MARGIN_X, y + h + BUFF_MARGIN_Y);
BLF_position(mono, x, y + y_ofs, 0.0);
BLF_draw_buffer(mono, stamp_data.cameralens);
}
if (TEXT_SIZE_CHECK(stamp_data.scene, w, h)) {
/* Bottom right corner, with an extra space because blenfont is too strict! */
x = width - w - 2;
/* extra space for background. */
buf_rectfill_area(rect, rectf, width, height, scene->r.bg_stamp, display,
x - BUFF_MARGIN_X, y - BUFF_MARGIN_Y, x + w + BUFF_MARGIN_X, y + h + BUFF_MARGIN_Y);
/* and pad the text. */
BLF_position(mono, x, y + y_ofs, 0.0);
BLF_draw_buffer(mono, stamp_data.scene);
}
if (TEXT_SIZE_CHECK(stamp_data.strip, w, h)) {
/* Top right corner, with an extra space because blenfont is too strict! */
x = width - w - pad;
y = height - h;
/* extra space for background. */
buf_rectfill_area(rect, rectf, width, height, scene->r.bg_stamp, display,
x - BUFF_MARGIN_X, y - BUFF_MARGIN_Y, x + w + BUFF_MARGIN_X, y + h + BUFF_MARGIN_Y);
BLF_position(mono, x, y + y_ofs, 0.0);
BLF_draw_buffer(mono, stamp_data.strip);
}
/* cleanup the buffer. */
BLF_buffer(mono, NULL, NULL, 0, 0, 0, NULL);
#undef TEXT_SIZE_CHECK
#undef BUFF_MARGIN_X
#undef BUFF_MARGIN_Y
}
void BKE_imbuf_stamp_info(Scene *scene, Object *camera, struct ImBuf *ibuf)
{
struct StampData stamp_data;
if (!ibuf) return;
/* fill all the data values, no prefix */
stampdata(scene, camera, &stamp_data, 0);
if (stamp_data.file[0]) IMB_metadata_change_field(ibuf, "File", stamp_data.file);
if (stamp_data.note[0]) IMB_metadata_change_field(ibuf, "Note", stamp_data.note);
if (stamp_data.date[0]) IMB_metadata_change_field(ibuf, "Date", stamp_data.date);
if (stamp_data.marker[0]) IMB_metadata_change_field(ibuf, "Marker", stamp_data.marker);
if (stamp_data.time[0]) IMB_metadata_change_field(ibuf, "Time", stamp_data.time);
if (stamp_data.frame[0]) IMB_metadata_change_field(ibuf, "Frame", stamp_data.frame);
if (stamp_data.camera[0]) IMB_metadata_change_field(ibuf, "Camera", stamp_data.camera);
if (stamp_data.cameralens[0]) IMB_metadata_change_field(ibuf, "Lens", stamp_data.cameralens);
if (stamp_data.scene[0]) IMB_metadata_change_field(ibuf, "Scene", stamp_data.scene);
if (stamp_data.strip[0]) IMB_metadata_change_field(ibuf, "Strip", stamp_data.strip);
if (stamp_data.rendertime[0]) IMB_metadata_change_field(ibuf, "RenderTime", stamp_data.rendertime);
}
bool BKE_imbuf_alpha_test(ImBuf *ibuf)
{
int tot;
if (ibuf->rect_float) {
const float *buf = ibuf->rect_float;
for (tot = ibuf->x * ibuf->y; tot--; buf += 4) {
if (buf[3] < 1.0f) {
return true;
}
}
}
else if (ibuf->rect) {
unsigned char *buf = (unsigned char *)ibuf->rect;
for (tot = ibuf->x * ibuf->y; tot--; buf += 4) {
if (buf[3] != 255) {
return true;
}
}
}
return false;
}
/* note: imf->planes is ignored here, its assumed the image channels
* are already set */
int BKE_imbuf_write(ImBuf *ibuf, const char *name, ImageFormatData *imf)
{
char imtype = imf->imtype;
char compress = imf->compress;
char quality = imf->quality;
int ok;
if (imtype == R_IMF_IMTYPE_IRIS) {
ibuf->ftype = IMAGIC;
}
#ifdef WITH_HDR
else if (imtype == R_IMF_IMTYPE_RADHDR) {
ibuf->ftype = RADHDR;
}
#endif
else if (ELEM5(imtype, R_IMF_IMTYPE_PNG, R_IMF_IMTYPE_FFMPEG, R_IMF_IMTYPE_H264, R_IMF_IMTYPE_THEORA, R_IMF_IMTYPE_XVID)) {
ibuf->ftype = PNG;
if (imtype == R_IMF_IMTYPE_PNG) {
if (imf->depth == R_IMF_CHAN_DEPTH_16)
ibuf->ftype |= PNG_16BIT;
ibuf->ftype |= compress;
}
}
#ifdef WITH_DDS
else if (imtype == R_IMF_IMTYPE_DDS) {
ibuf->ftype = DDS;
}
#endif
else if (imtype == R_IMF_IMTYPE_BMP) {
ibuf->ftype = BMP;
}
#ifdef WITH_TIFF
else if (imtype == R_IMF_IMTYPE_TIFF) {
ibuf->ftype = TIF;
if (imf->depth == R_IMF_CHAN_DEPTH_16)
ibuf->ftype |= TIF_16BIT;
}
#endif
#ifdef WITH_OPENEXR
else if (imtype == R_IMF_IMTYPE_OPENEXR || imtype == R_IMF_IMTYPE_MULTILAYER) {
ibuf->ftype = OPENEXR;
if (imf->depth == R_IMF_CHAN_DEPTH_16)
ibuf->ftype |= OPENEXR_HALF;
ibuf->ftype |= (imf->exr_codec & OPENEXR_COMPRESS);
if (!(imf->flag & R_IMF_FLAG_ZBUF))
ibuf->zbuf_float = NULL; /* signal for exr saving */
}
#endif
#ifdef WITH_CINEON
else if (imtype == R_IMF_IMTYPE_CINEON) {
ibuf->ftype = CINEON;
if (imf->cineon_flag & R_IMF_CINEON_FLAG_LOG) {
ibuf->ftype |= CINEON_LOG;
}
if (imf->depth == R_IMF_CHAN_DEPTH_16) {
ibuf->ftype |= CINEON_16BIT;
}
else if (imf->depth == R_IMF_CHAN_DEPTH_12) {
ibuf->ftype |= CINEON_12BIT;
}
else if (imf->depth == R_IMF_CHAN_DEPTH_10) {
ibuf->ftype |= CINEON_10BIT;
}
}
else if (imtype == R_IMF_IMTYPE_DPX) {
ibuf->ftype = DPX;
if (imf->cineon_flag & R_IMF_CINEON_FLAG_LOG) {
ibuf->ftype |= CINEON_LOG;
}
if (imf->depth == R_IMF_CHAN_DEPTH_16) {
ibuf->ftype |= CINEON_16BIT;
}
else if (imf->depth == R_IMF_CHAN_DEPTH_12) {
ibuf->ftype |= CINEON_12BIT;
}
else if (imf->depth == R_IMF_CHAN_DEPTH_10) {
ibuf->ftype |= CINEON_10BIT;
}
}
#endif
else if (imtype == R_IMF_IMTYPE_TARGA) {
ibuf->ftype = TGA;
}
else if (imtype == R_IMF_IMTYPE_RAWTGA) {
ibuf->ftype = RAWTGA;
}
#ifdef WITH_OPENJPEG
else if (imtype == R_IMF_IMTYPE_JP2) {
if (quality < 10) quality = 90;
ibuf->ftype = JP2 | quality;
if (imf->depth == R_IMF_CHAN_DEPTH_16) {
ibuf->ftype |= JP2_16BIT;
}
else if (imf->depth == R_IMF_CHAN_DEPTH_12) {
ibuf->ftype |= JP2_12BIT;
}
if (imf->jp2_flag & R_IMF_JP2_FLAG_YCC) {
ibuf->ftype |= JP2_YCC;
}
if (imf->jp2_flag & R_IMF_JP2_FLAG_CINE_PRESET) {
ibuf->ftype |= JP2_CINE;
if (imf->jp2_flag & R_IMF_JP2_FLAG_CINE_48)
ibuf->ftype |= JP2_CINE_48FPS;
}
if (imf->jp2_codec == R_IMF_JP2_CODEC_JP2)
ibuf->ftype |= JP2_JP2;
else if (imf->jp2_codec == R_IMF_JP2_CODEC_J2K)
ibuf->ftype |= JP2_J2K;
else
BLI_assert(!"Unsupported jp2 codec was specified in im_format->jp2_codec");
}
#endif
else {
/* R_IMF_IMTYPE_JPEG90, etc. default we save jpegs */
if (quality < 10) quality = 90;
ibuf->ftype = JPG | quality;
}
BLI_make_existing_file(name);
ok = IMB_saveiff(ibuf, name, IB_rect | IB_zbuf | IB_zbuffloat);
if (ok == 0) {
perror(name);
}
return(ok);
}
/* same as BKE_imbuf_write() but crappy workaround not to perminantly modify
* _some_, values in the imbuf */
int BKE_imbuf_write_as(ImBuf *ibuf, const char *name, ImageFormatData *imf,
const bool save_copy)
{
ImBuf ibuf_back = *ibuf;
int ok;
/* all data is rgba anyway,
* this just controls how to save for some formats */
ibuf->planes = imf->planes;
ok = BKE_imbuf_write(ibuf, name, imf);
if (save_copy) {
/* note that we are not restoring _all_ settings */
ibuf->planes = ibuf_back.planes;
ibuf->ftype = ibuf_back.ftype;
}
return ok;
}
int BKE_imbuf_write_stamp(Scene *scene, struct Object *camera, ImBuf *ibuf, const char *name, struct ImageFormatData *imf)
{
if (scene && scene->r.stamp & R_STAMP_ALL)
BKE_imbuf_stamp_info(scene, camera, ibuf);
return BKE_imbuf_write(ibuf, name, imf);
}
static void do_makepicstring(char *string, const char *base, const char *relbase, int frame, const char imtype,
const ImageFormatData *im_format, const short use_ext, const short use_frames)
{
if (string == NULL) return;
BLI_strncpy(string, base, FILE_MAX - 10); /* weak assumption */
BLI_path_abs(string, relbase);
if (use_frames)
BLI_path_frame(string, frame, 4);
if (use_ext)
do_add_image_extension(string, imtype, im_format);
}
void BKE_makepicstring(char *string, const char *base, const char *relbase, int frame,
const ImageFormatData *im_format, const bool use_ext, const bool use_frames)
{
do_makepicstring(string, base, relbase, frame, im_format->imtype, im_format, use_ext, use_frames);
}
void BKE_makepicstring_from_type(char *string, const char *base, const char *relbase, int frame,
const char imtype, const bool use_ext, const bool use_frames)
{
do_makepicstring(string, base, relbase, frame, imtype, NULL, use_ext, use_frames);
}
/* used by sequencer too */
struct anim *openanim(const char *name, int flags, int streamindex, char colorspace[IMA_MAX_SPACE])
{
struct anim *anim;
struct ImBuf *ibuf;
anim = IMB_open_anim(name, flags, streamindex, colorspace);
if (anim == NULL) return NULL;
ibuf = IMB_anim_absolute(anim, 0, IMB_TC_NONE, IMB_PROXY_NONE);
if (ibuf == NULL) {
if (BLI_exists(name))
printf("not an anim: %s\n", name);
else
printf("anim file doesn't exist: %s\n", name);
IMB_free_anim(anim);
return NULL;
}
IMB_freeImBuf(ibuf);
return(anim);
}
/* ************************* New Image API *************** */
/* Notes about Image storage
* - packedfile
* -> written in .blend
* - filename
* -> written in .blend
* - movie
* -> comes from packedfile or filename
* - renderresult
* -> comes from packedfile or filename
* - listbase
* -> ibufs from exrhandle
* - flipbook array
* -> ibufs come from movie, temporary renderresult or sequence
* - ibuf
* -> comes from packedfile or filename or generated
*/
/* forces existence of 1 Image for renderout or nodes, returns Image */
/* name is only for default, when making new one */
Image *BKE_image_verify_viewer(int type, const char *name)
{
Image *ima;
for (ima = G.main->image.first; ima; ima = ima->id.next)
if (ima->source == IMA_SRC_VIEWER)
if (ima->type == type)
break;
if (ima == NULL)
ima = image_alloc(G.main, name, IMA_SRC_VIEWER, type);
/* happens on reload, imagewindow cannot be image user when hidden*/
if (ima->id.us == 0)
id_us_plus(&ima->id);
return ima;
}
void BKE_image_assign_ibuf(Image *ima, ImBuf *ibuf)
{
image_assign_ibuf(ima, ibuf, IMA_NO_INDEX, 0);
}
void BKE_image_walk_all_users(const Main *mainp, void *customdata,
void callback(Image *ima, ImageUser *iuser, void *customdata))
{
wmWindowManager *wm;
wmWindow *win;
Tex *tex;
/* texture users */
for (tex = mainp->tex.first; tex; tex = tex->id.next) {
if (tex->type == TEX_IMAGE && tex->ima) {
callback(tex->ima, &tex->iuser, customdata);
}
}
/* image window, compo node users */
for (wm = mainp->wm.first; wm; wm = wm->id.next) { /* only 1 wm */
for (win = wm->windows.first; win; win = win->next) {
ScrArea *sa;
for (sa = win->screen->areabase.first; sa; sa = sa->next) {
if (sa->spacetype == SPACE_VIEW3D) {
View3D *v3d = sa->spacedata.first;
BGpic *bgpic;
for (bgpic = v3d->bgpicbase.first; bgpic; bgpic = bgpic->next) {
callback(bgpic->ima, &bgpic->iuser, customdata);
}
}
else if (sa->spacetype == SPACE_IMAGE) {
SpaceImage *sima = sa->spacedata.first;
callback(sima->image, &sima->iuser, customdata);
}
else if (sa->spacetype == SPACE_NODE) {
SpaceNode *snode = sa->spacedata.first;
if (snode->nodetree && snode->nodetree->type == NTREE_COMPOSIT) {
bNode *node;
for (node = snode->nodetree->nodes.first; node; node = node->next) {
if (node->id && node->type == CMP_NODE_IMAGE) {
Image *ima = (Image *)node->id;
ImageUser *iuser = node->storage;
callback(ima, iuser, customdata);
}
}
}
}
}
}
}
}
static void image_tag_frame_recalc(Image *ima, ImageUser *iuser, void *customdata)
{
Image *changed_image = customdata;
if (ima == changed_image && BKE_image_is_animated(ima)) {
iuser->flag |= IMA_NEED_FRAME_RECALC;
}
}
void BKE_image_signal(Image *ima, ImageUser *iuser, int signal)
{
if (ima == NULL)
return;
BLI_spin_lock(&image_spin);
switch (signal) {
case IMA_SIGNAL_FREE:
BKE_image_free_buffers(ima);
if (iuser)
iuser->ok = 1;
break;
case IMA_SIGNAL_SRC_CHANGE:
if (ima->type == IMA_TYPE_UV_TEST)
if (ima->source != IMA_SRC_GENERATED)
ima->type = IMA_TYPE_IMAGE;
if (ima->source == IMA_SRC_GENERATED) {
if (ima->gen_x == 0 || ima->gen_y == 0) {
ImBuf *ibuf = image_get_cached_ibuf_for_index_frame(ima, IMA_NO_INDEX, 0);
if (ibuf) {
ima->gen_x = ibuf->x;
ima->gen_y = ibuf->y;
IMB_freeImBuf(ibuf);
}
}
/* Changing source type to generated will likely change file format
* used by generated image buffer. Saving different file format to
* the old name might confuse other applications.
*
* Here we ensure original image path wouldn't be used when saving
* generated image.
*/
ima->name[0] = '\0';
}
#if 0
/* force reload on first use, but not for multilayer, that makes nodes and buttons in ui drawing fail */
if (ima->type != IMA_TYPE_MULTILAYER)
BKE_image_free_buffers(ima);
#else
/* image buffers for non-sequence multilayer will share buffers with RenderResult,
* however sequence multilayer will own buffers. Such logic makes switching from
* single multilayer file to sequence completely unstable
* since changes in nodes seems this workaround isn't needed anymore, all sockets
* are nicely detecting anyway, but freeing buffers always here makes multilayer
* sequences behave stable
*/
BKE_image_free_buffers(ima);
#endif
ima->ok = 1;
if (iuser)
iuser->ok = 1;
BKE_image_walk_all_users(G.main, ima, image_tag_frame_recalc);
break;
case IMA_SIGNAL_RELOAD:
/* try to repack file */
if (ima->packedfile) {
PackedFile *pf;
pf = newPackedFile(NULL, ima->name, ID_BLEND_PATH(G.main, &ima->id));
if (pf) {
freePackedFile(ima->packedfile);
ima->packedfile = pf;
BKE_image_free_buffers(ima);
}
else {
printf("ERROR: Image not available. Keeping packed image\n");
}
}
else
BKE_image_free_buffers(ima);
if (iuser)
iuser->ok = 1;
break;
case IMA_SIGNAL_USER_NEW_IMAGE:
if (iuser) {
iuser->ok = 1;
if (ima->source == IMA_SRC_FILE || ima->source == IMA_SRC_SEQUENCE) {
if (ima->type == IMA_TYPE_MULTILAYER) {
iuser->multi_index = 0;
iuser->layer = iuser->pass = 0;
}
}
}
break;
case IMA_SIGNAL_COLORMANAGE:
BKE_image_free_buffers(ima);
ima->ok = 1;
if (iuser)
iuser->ok = 1;
break;
}
BLI_spin_unlock(&image_spin);
/* don't use notifiers because they are not 100% sure to succeeded
* this also makes sure all scenes are accounted for. */
{
Scene *scene;
for (scene = G.main->scene.first; scene; scene = scene->id.next) {
if (scene->nodetree) {
nodeUpdateID(scene->nodetree, &ima->id);
}
}
}
}
/* if layer or pass changes, we need an index for the imbufs list */
/* note it is called for rendered results, but it doesnt use the index! */
/* and because rendered results use fake layer/passes, don't correct for wrong indices here */
RenderPass *BKE_image_multilayer_index(RenderResult *rr, ImageUser *iuser)
{
RenderLayer *rl;
RenderPass *rpass = NULL;
if (rr == NULL)
return NULL;
if (iuser) {
short index = 0, rl_index = 0, rp_index;
for (rl = rr->layers.first; rl; rl = rl->next, rl_index++) {
rp_index = 0;
for (rpass = rl->passes.first; rpass; rpass = rpass->next, index++, rp_index++)
if (iuser->layer == rl_index && iuser->pass == rp_index)
break;
if (rpass)
break;
}
if (rpass)
iuser->multi_index = index;
else
iuser->multi_index = 0;
}
if (rpass == NULL) {
rl = rr->layers.first;
if (rl)
rpass = rl->passes.first;
}
return rpass;
}
RenderResult *BKE_image_acquire_renderresult(Scene *scene, Image *ima)
{
if (ima->rr) {
return ima->rr;
}
else if (ima->type == IMA_TYPE_R_RESULT) {
if (ima->render_slot == ima->last_render_slot)
return RE_AcquireResultRead(RE_GetRender(scene->id.name));
else
return ima->renders[ima->render_slot];
}
else
return NULL;
}
void BKE_image_release_renderresult(Scene *scene, Image *ima)
{
if (ima->rr) {
/* pass */
}
else if (ima->type == IMA_TYPE_R_RESULT) {
if (ima->render_slot == ima->last_render_slot)
RE_ReleaseResult(RE_GetRender(scene->id.name));
}
}
void BKE_image_backup_render(Scene *scene, Image *ima)
{
/* called right before rendering, ima->renders contains render
* result pointers for everything but the current render */
Render *re = RE_GetRender(scene->id.name);
int slot = ima->render_slot, last = ima->last_render_slot;
if (slot != last) {
if (ima->renders[slot]) {
RE_FreeRenderResult(ima->renders[slot]);
ima->renders[slot] = NULL;
}
ima->renders[last] = NULL;
RE_SwapResult(re, &ima->renders[last]);
}
ima->last_render_slot = slot;
}
/* after imbuf load, openexr type can return with a exrhandle open */
/* in that case we have to build a render-result */
static void image_create_multilayer(Image *ima, ImBuf *ibuf, int framenr)
{
const char *colorspace = ima->colorspace_settings.name;
bool predivide = (ima->alpha_mode == IMA_ALPHA_PREMUL);
ima->rr = RE_MultilayerConvert(ibuf->userdata, colorspace, predivide, ibuf->x, ibuf->y);
#ifdef WITH_OPENEXR
IMB_exr_close(ibuf->userdata);
#endif
ibuf->userdata = NULL;
if (ima->rr)
ima->rr->framenr = framenr;
}
/* common stuff to do with images after loading */
static void image_initialize_after_load(Image *ima, ImBuf *ibuf)
{
/* preview is NULL when it has never been used as an icon before */
if (G.background == 0 && ima->preview == NULL)
BKE_icon_changed(BKE_icon_getid(&ima->id));
/* fields */
if (ima->flag & IMA_FIELDS) {
if (ima->flag & IMA_STD_FIELD) de_interlace_st(ibuf);
else de_interlace_ng(ibuf);
}
/* timer */
BKE_image_tag_time(ima);
ima->ok = IMA_OK_LOADED;
}
static int imbuf_alpha_flags_for_image(Image *ima)
{
int flag = 0;
if (ima->flag & IMA_IGNORE_ALPHA)
flag |= IB_ignore_alpha;
else if (ima->alpha_mode == IMA_ALPHA_PREMUL)
flag |= IB_alphamode_premul;
return flag;
}
static ImBuf *image_load_sequence_file(Image *ima, ImageUser *iuser, int frame)
{
struct ImBuf *ibuf;
char name[FILE_MAX];
int flag;
/* XXX temp stuff? */
if (ima->lastframe != frame)
ima->tpageflag |= IMA_TPAGE_REFRESH;
ima->lastframe = frame;
BKE_image_user_file_path(iuser, ima, name);
flag = IB_rect | IB_multilayer;
flag |= imbuf_alpha_flags_for_image(ima);
/* read ibuf */
ibuf = IMB_loadiffname(name, flag, ima->colorspace_settings.name);
#if 0
if (ibuf) {
printf(AT " loaded %s\n", name);
}
else {
printf(AT " missed %s\n", name);
}
#endif
if (ibuf) {
#ifdef WITH_OPENEXR
/* handle multilayer case, don't assign ibuf. will be handled in BKE_image_acquire_ibuf */
if (ibuf->ftype == OPENEXR && ibuf->userdata) {
image_create_multilayer(ima, ibuf, frame);
ima->type = IMA_TYPE_MULTILAYER;
IMB_freeImBuf(ibuf);
ibuf = NULL;
}
else {
image_initialize_after_load(ima, ibuf);
image_assign_ibuf(ima, ibuf, 0, frame);
}
#else
image_initialize_after_load(ima, ibuf);
image_assign_ibuf(ima, ibuf, 0, frame);
#endif
}
else
ima->ok = 0;
if (iuser)
iuser->ok = ima->ok;
return ibuf;
}
static ImBuf *image_load_sequence_multilayer(Image *ima, ImageUser *iuser, int frame)
{
struct ImBuf *ibuf = NULL;
/* either we load from RenderResult, or we have to load a new one */
/* check for new RenderResult */
if (ima->rr == NULL || frame != ima->rr->framenr) {
if (ima->rr) {
/* Cached image buffers shares pointers with render result,
* need to ensure there's no image buffers are hanging around
* with dead links after freeing the render result.
*/
image_free_cahced_frames(ima);
RE_FreeRenderResult(ima->rr);
ima->rr = NULL;
}
ibuf = image_load_sequence_file(ima, iuser, frame);
if (ibuf) { /* actually an error */
ima->type = IMA_TYPE_IMAGE;
printf("error, multi is normal image\n");
}
}
if (ima->rr) {
RenderPass *rpass = BKE_image_multilayer_index(ima->rr, iuser);
if (rpass) {
// printf("load from pass %s\n", rpass->name);
/* since we free render results, we copy the rect */
ibuf = IMB_allocImBuf(ima->rr->rectx, ima->rr->recty, 32, 0);
ibuf->rect_float = MEM_dupallocN(rpass->rect);
ibuf->flags |= IB_rectfloat;
ibuf->mall = IB_rectfloat;
ibuf->channels = rpass->channels;
image_initialize_after_load(ima, ibuf);
image_assign_ibuf(ima, ibuf, iuser ? iuser->multi_index : 0, frame);
}
// else printf("pass not found\n");
}
else
ima->ok = 0;
if (iuser)
iuser->ok = ima->ok;
return ibuf;
}
static ImBuf *image_load_movie_file(Image *ima, ImageUser *iuser, int frame)
{
struct ImBuf *ibuf = NULL;
ima->lastframe = frame;
if (ima->anim == NULL) {
char str[FILE_MAX];
BKE_image_user_file_path(iuser, ima, str);
/* FIXME: make several stream accessible in image editor, too*/
ima->anim = openanim(str, IB_rect, 0, ima->colorspace_settings.name);
/* let's initialize this user */
if (ima->anim && iuser && iuser->frames == 0)
iuser->frames = IMB_anim_get_duration(ima->anim,
IMB_TC_RECORD_RUN);
}
if (ima->anim) {
int dur = IMB_anim_get_duration(ima->anim,
IMB_TC_RECORD_RUN);
int fra = frame - 1;
if (fra < 0) fra = 0;
if (fra > (dur - 1)) fra = dur - 1;
ibuf = IMB_makeSingleUser(
IMB_anim_absolute(ima->anim, fra,
IMB_TC_RECORD_RUN,
IMB_PROXY_NONE));
if (ibuf) {
image_initialize_after_load(ima, ibuf);
image_assign_ibuf(ima, ibuf, 0, frame);
}
else
ima->ok = 0;
}
else
ima->ok = 0;
if (iuser)
iuser->ok = ima->ok;
return ibuf;
}
/* warning, 'iuser' can be NULL */
static ImBuf *image_load_image_file(Image *ima, ImageUser *iuser, int cfra)
{
struct ImBuf *ibuf;
char str[FILE_MAX];
int assign = 0, flag;
/* always ensure clean ima */
BKE_image_free_buffers(ima);
/* is there a PackedFile with this image ? */
if (ima->packedfile) {
flag = IB_rect | IB_multilayer;
flag |= imbuf_alpha_flags_for_image(ima);
ibuf = IMB_ibImageFromMemory((unsigned char *)ima->packedfile->data, ima->packedfile->size, flag,
ima->colorspace_settings.name, "<packed data>");
}
else {
flag = IB_rect | IB_multilayer | IB_metadata;
flag |= imbuf_alpha_flags_for_image(ima);
/* get the right string */
BKE_image_user_frame_calc(iuser, cfra, 0);
BKE_image_user_file_path(iuser, ima, str);
/* read ibuf */
ibuf = IMB_loadiffname(str, flag, ima->colorspace_settings.name);
}
if (ibuf) {
/* handle multilayer case, don't assign ibuf. will be handled in BKE_image_acquire_ibuf */
if (ibuf->ftype == OPENEXR && ibuf->userdata) {
image_create_multilayer(ima, ibuf, cfra);
ima->type = IMA_TYPE_MULTILAYER;
IMB_freeImBuf(ibuf);
ibuf = NULL;
}
else {
image_initialize_after_load(ima, ibuf);
assign = 1;
/* check if the image is a font image... */
detectBitmapFont(ibuf);
/* make packed file for autopack */
if ((ima->packedfile == NULL) && (G.fileflags & G_AUTOPACK))
ima->packedfile = newPackedFile(NULL, str, ID_BLEND_PATH(G.main, &ima->id));
}
}
else
ima->ok = 0;
if (assign)
image_assign_ibuf(ima, ibuf, IMA_NO_INDEX, 0);
if (iuser)
iuser->ok = ima->ok;
return ibuf;
}
static ImBuf *image_get_ibuf_multilayer(Image *ima, ImageUser *iuser)
{
ImBuf *ibuf = NULL;
if (ima->rr == NULL) {
ibuf = image_load_image_file(ima, iuser, 0);
if (ibuf) { /* actually an error */
ima->type = IMA_TYPE_IMAGE;
return ibuf;
}
}
if (ima->rr) {
RenderPass *rpass = BKE_image_multilayer_index(ima->rr, iuser);
if (rpass) {
ibuf = IMB_allocImBuf(ima->rr->rectx, ima->rr->recty, 32, 0);
image_initialize_after_load(ima, ibuf);
ibuf->rect_float = rpass->rect;
ibuf->flags |= IB_rectfloat;
ibuf->channels = rpass->channels;
image_assign_ibuf(ima, ibuf, iuser ? iuser->multi_index : IMA_NO_INDEX, 0);
}
}
if (ibuf == NULL)
ima->ok = 0;
if (iuser)
iuser->ok = ima->ok;
return ibuf;
}
/* showing RGBA result itself (from compo/sequence) or
* like exr, using layers etc */
/* always returns a single ibuf, also during render progress */
static ImBuf *image_get_render_result(Image *ima, ImageUser *iuser, void **lock_r)
{
Render *re;
RenderResult rres;
float *rectf, *rectz;
unsigned int *rect;
float dither;
int channels, layer, pass;
ImBuf *ibuf;
int from_render = (ima->render_slot == ima->last_render_slot);
bool byte_buffer_in_display_space = false;
if (!(iuser && iuser->scene))
return NULL;
/* if we the caller is not going to release the lock, don't give the image */
if (!lock_r)
return NULL;
re = RE_GetRender(iuser->scene->id.name);
channels = 4;
layer = iuser->layer;
pass = iuser->pass;
if (from_render) {
RE_AcquireResultImage(re, &rres);
}
else if (ima->renders[ima->render_slot]) {
rres = *(ima->renders[ima->render_slot]);
rres.have_combined = rres.rectf != NULL;
}
else
memset(&rres, 0, sizeof(RenderResult));
if (!(rres.rectx > 0 && rres.recty > 0)) {
if (from_render)
RE_ReleaseResultImage(re);
return NULL;
}
/* release is done in BKE_image_release_ibuf using lock_r */
if (from_render) {
BLI_lock_thread(LOCK_VIEWER);
*lock_r = re;
}
/* this gives active layer, composite or sequence result */
rect = (unsigned int *)rres.rect32;
rectf = rres.rectf;
rectz = rres.rectz;
dither = iuser->scene->r.dither_intensity;
/* combined layer gets added as first layer */
if (rres.have_combined && layer == 0) {
/* pass */
}
else if (rect && layer == 0) {
/* rect32 is set when there's a Sequence pass, this pass seems
* to have layer=0 (this is from image_buttons.c)
* in this case we ignore float buffer, because it could have
* hung from previous pass which was float
*/
rectf = NULL;
}
else if (rres.layers.first) {
RenderLayer *rl = BLI_findlink(&rres.layers, layer - (rres.have_combined ? 1 : 0));
if (rl) {
RenderPass *rpass;
/* there's no combined pass, is in renderlayer itself */
if (pass == 0) {
rectf = rl->rectf;
if (rectf == NULL) {
/* Happens when Save Buffers is enabled.
* Use display buffer stored in the render layer.
*/
rect = (unsigned int *) rl->display_buffer;
byte_buffer_in_display_space = true;
}
}
else {
rpass = BLI_findlink(&rl->passes, pass - 1);
if (rpass) {
channels = rpass->channels;
rectf = rpass->rect;
dither = 0.0f; /* don't dither passes */
}
}
for (rpass = rl->passes.first; rpass; rpass = rpass->next)
if (rpass->passtype == SCE_PASS_Z)
rectz = rpass->rect;
}
}
ibuf = image_get_cached_ibuf_for_index_frame(ima, IMA_NO_INDEX, 0);
/* make ibuf if needed, and initialize it */
if (ibuf == NULL) {
ibuf = IMB_allocImBuf(rres.rectx, rres.recty, 32, 0);
image_assign_ibuf(ima, ibuf, IMA_NO_INDEX, 0);
}
/* Set color space settings for a byte buffer.
*
* This is mainly to make it so color management treats byte buffer
* from render result with Save Buffers enabled as final display buffer
* and doesnt' apply any color management on it.
*
* For other cases we need to be sure it stays to default byte buffer space.
*/
if (ibuf->rect != rect) {
if (byte_buffer_in_display_space) {
const char *colorspace =
IMB_colormanagement_get_display_colorspace_name(&iuser->scene->view_settings,
&iuser->scene->display_settings);
IMB_colormanagement_assign_rect_colorspace(ibuf, colorspace);
}
else {
const char *colorspace = IMB_colormanagement_role_colorspace_name_get(COLOR_ROLE_DEFAULT_BYTE);
IMB_colormanagement_assign_rect_colorspace(ibuf, colorspace);
}
}
/* invalidate color managed buffers if render result changed */
BLI_lock_thread(LOCK_COLORMANAGE);
if (ibuf->x != rres.rectx || ibuf->y != rres.recty || ibuf->rect_float != rectf) {
ibuf->userflags |= IB_DISPLAY_BUFFER_INVALID;
}
ibuf->x = rres.rectx;
ibuf->y = rres.recty;
if (rect) {
imb_freerectImBuf(ibuf);
ibuf->rect = rect;
}
else {
/* byte buffer of render result has been freed, make sure image buffers
* does not reference to this buffer anymore
* need check for whether byte buffer was allocated and owned by image itself
* or if it's reusing buffer from render result
*/
if ((ibuf->mall & IB_rect) == 0)
ibuf->rect = NULL;
}
if (rectf) {
ibuf->rect_float = rectf;
ibuf->flags |= IB_rectfloat;
ibuf->channels = channels;
}
else {
ibuf->rect_float = NULL;
ibuf->flags &= ~IB_rectfloat;
}
if (rectz) {
ibuf->zbuf_float = rectz;
ibuf->flags |= IB_zbuffloat;
}
else {
ibuf->zbuf_float = NULL;
ibuf->flags &= ~IB_zbuffloat;
}
BLI_unlock_thread(LOCK_COLORMANAGE);
ibuf->dither = dither;
ima->ok = IMA_OK_LOADED;
return ibuf;
}
static void image_get_frame_and_index(Image *ima, ImageUser *iuser, int *r_frame, int *r_index)
{
int frame = 0, index = 0;
/* see if we already have an appropriate ibuf, with image source and type */
if (ima->source == IMA_SRC_MOVIE) {
frame = iuser ? iuser->framenr : ima->lastframe;
}
else if (ima->source == IMA_SRC_SEQUENCE) {
if (ima->type == IMA_TYPE_IMAGE) {
frame = iuser ? iuser->framenr : ima->lastframe;
}
else if (ima->type == IMA_TYPE_MULTILAYER) {
frame = iuser ? iuser->framenr : ima->lastframe;
index = iuser ? iuser->multi_index : IMA_NO_INDEX;
}
}
*r_frame = frame;
*r_index = index;
}
/* Get the ibuf from an image cache for a given image user.
*
* Returns referenced image buffer if it exists, callee is to
* call IMB_freeImBuf to de-reference the image buffer after
* it's done handling it.
*/
static ImBuf *image_get_cached_ibuf(Image *ima, ImageUser *iuser, int *r_frame, int *r_index)
{
ImBuf *ibuf = NULL;
int frame = 0, index = 0;
/* see if we already have an appropriate ibuf, with image source and type */
if (ima->source == IMA_SRC_MOVIE) {
frame = iuser ? iuser->framenr : ima->lastframe;
ibuf = image_get_cached_ibuf_for_index_frame(ima, 0, frame);
/* XXX temp stuff? */
if (ima->lastframe != frame)
ima->tpageflag |= IMA_TPAGE_REFRESH;
ima->lastframe = frame;
}
else if (ima->source == IMA_SRC_SEQUENCE) {
if (ima->type == IMA_TYPE_IMAGE) {
frame = iuser ? iuser->framenr : ima->lastframe;
ibuf = image_get_cached_ibuf_for_index_frame(ima, 0, frame);
/* XXX temp stuff? */
if (ima->lastframe != frame) {
ima->tpageflag |= IMA_TPAGE_REFRESH;
}
ima->lastframe = frame;
}
else if (ima->type == IMA_TYPE_MULTILAYER) {
frame = iuser ? iuser->framenr : ima->lastframe;
index = iuser ? iuser->multi_index : IMA_NO_INDEX;
ibuf = image_get_cached_ibuf_for_index_frame(ima, index, frame);
}
}
else if (ima->source == IMA_SRC_FILE) {
if (ima->type == IMA_TYPE_IMAGE)
ibuf = image_get_cached_ibuf_for_index_frame(ima, IMA_NO_INDEX, 0);
else if (ima->type == IMA_TYPE_MULTILAYER)
ibuf = image_get_cached_ibuf_for_index_frame(ima, iuser ? iuser->multi_index : IMA_NO_INDEX, 0);
}
else if (ima->source == IMA_SRC_GENERATED) {
ibuf = image_get_cached_ibuf_for_index_frame(ima, IMA_NO_INDEX, 0);
}
else if (ima->source == IMA_SRC_VIEWER) {
/* always verify entirely, not that this shouldn't happen
* as part of texture sampling in rendering anyway, so not
* a big bottleneck */
}
if (r_frame)
*r_frame = frame;
if (r_index)
*r_index = index;
return ibuf;
}
BLI_INLINE bool image_quick_test(Image *ima, ImageUser *iuser)
{
if (ima == NULL)
return false;
if (iuser) {
if (iuser->ok == 0)
return false;
}
else if (ima->ok == 0)
return false;
return true;
}
/* Checks optional ImageUser and verifies/creates ImBuf.
*
* not thread-safe, so callee should worry about thread locks
*/
static ImBuf *image_acquire_ibuf(Image *ima, ImageUser *iuser, void **lock_r)
{
ImBuf *ibuf = NULL;
float color[] = {0, 0, 0, 1};
int frame = 0, index = 0;
if (lock_r)
*lock_r = NULL;
/* quick reject tests */
if (!image_quick_test(ima, iuser))
return NULL;
ibuf = image_get_cached_ibuf(ima, iuser, &frame, &index);
if (ibuf == NULL) {
/* we are sure we have to load the ibuf, using source and type */
if (ima->source == IMA_SRC_MOVIE) {
/* source is from single file, use flipbook to store ibuf */
ibuf = image_load_movie_file(ima, iuser, frame);
}
else if (ima->source == IMA_SRC_SEQUENCE) {
if (ima->type == IMA_TYPE_IMAGE) {
/* regular files, ibufs in flipbook, allows saving */
ibuf = image_load_sequence_file(ima, iuser, frame);
}
/* no else; on load the ima type can change */
if (ima->type == IMA_TYPE_MULTILAYER) {
/* only 1 layer/pass stored in imbufs, no exrhandle anim storage, no saving */
ibuf = image_load_sequence_multilayer(ima, iuser, frame);
}
}
else if (ima->source == IMA_SRC_FILE) {
if (ima->type == IMA_TYPE_IMAGE)
ibuf = image_load_image_file(ima, iuser, frame); /* cfra only for '#', this global is OK */
/* no else; on load the ima type can change */
if (ima->type == IMA_TYPE_MULTILAYER)
/* keeps render result, stores ibufs in listbase, allows saving */
ibuf = image_get_ibuf_multilayer(ima, iuser);
}
else if (ima->source == IMA_SRC_GENERATED) {
/* generated is: ibuf is allocated dynamically */
/* UV testgrid or black or solid etc */
if (ima->gen_x == 0) ima->gen_x = 1024;
if (ima->gen_y == 0) ima->gen_y = 1024;
if (ima->gen_depth == 0) ima->gen_depth = 24;
ibuf = add_ibuf_size(ima->gen_x, ima->gen_y, ima->name, ima->gen_depth, (ima->gen_flag & IMA_GEN_FLOAT) != 0, ima->gen_type,
color, &ima->colorspace_settings);
image_assign_ibuf(ima, ibuf, IMA_NO_INDEX, 0);
ima->ok = IMA_OK_LOADED;
}
else if (ima->source == IMA_SRC_VIEWER) {
if (ima->type == IMA_TYPE_R_RESULT) {
/* always verify entirely, and potentially
* returns pointer to release later */
ibuf = image_get_render_result(ima, iuser, lock_r);
}
else if (ima->type == IMA_TYPE_COMPOSITE) {
/* requires lock/unlock, otherwise don't return image */
if (lock_r) {
/* unlock in BKE_image_release_ibuf */
BLI_lock_thread(LOCK_VIEWER);
*lock_r = ima;
/* XXX anim play for viewer nodes not yet supported */
frame = 0; // XXX iuser ? iuser->framenr : 0;
ibuf = image_get_cached_ibuf_for_index_frame(ima, 0, frame);
if (!ibuf) {
/* Composite Viewer, all handled in compositor */
/* fake ibuf, will be filled in compositor */
ibuf = IMB_allocImBuf(256, 256, 32, IB_rect);
image_assign_ibuf(ima, ibuf, 0, frame);
}
}
}
}
/* We only want movies and sequences to be memory limited. */
if (ibuf != NULL && !ELEM(ima->source, IMA_SRC_MOVIE, IMA_SRC_SEQUENCE)) {
ibuf->userflags |= IB_PERSISTENT;
}
}
BKE_image_tag_time(ima);
return ibuf;
}
/* return image buffer for given image and user
*
* - will lock render result if image type is render result and lock is not NULL
* - will return NULL if image type if render or composite result and lock is NULL
*
* references the result, BKE_image_release_ibuf should be used to de-reference
*/
ImBuf *BKE_image_acquire_ibuf(Image *ima, ImageUser *iuser, void **lock_r)
{
ImBuf *ibuf;
BLI_spin_lock(&image_spin);
ibuf = image_acquire_ibuf(ima, iuser, lock_r);
BLI_spin_unlock(&image_spin);
return ibuf;
}
void BKE_image_release_ibuf(Image *ima, ImBuf *ibuf, void *lock)
{
if (lock) {
/* for getting image during threaded render / compositing, need to release */
if (lock == ima) {
BLI_unlock_thread(LOCK_VIEWER); /* viewer image */
}
else if (lock) {
RE_ReleaseResultImage(lock); /* render result */
BLI_unlock_thread(LOCK_VIEWER); /* view image imbuf */
}
}
if (ibuf) {
BLI_spin_lock(&image_spin);
IMB_freeImBuf(ibuf);
BLI_spin_unlock(&image_spin);
}
}
/* checks whether there's an image buffer for given image and user */
bool BKE_image_has_ibuf(Image *ima, ImageUser *iuser)
{
ImBuf *ibuf;
/* quick reject tests */
if (!image_quick_test(ima, iuser))
return false;
BLI_spin_lock(&image_spin);
ibuf = image_get_cached_ibuf(ima, iuser, NULL, NULL);
if (!ibuf)
ibuf = image_acquire_ibuf(ima, iuser, NULL);
BLI_spin_unlock(&image_spin);
IMB_freeImBuf(ibuf);
return ibuf != NULL;
}
/* ******** Pool for image buffers ******** */
typedef struct ImagePoolEntry {
struct ImagePoolEntry *next, *prev;
Image *image;
ImBuf *ibuf;
int index;
int frame;
} ImagePoolEntry;
typedef struct ImagePool {
ListBase image_buffers;
} ImagePool;
ImagePool *BKE_image_pool_new(void)
{
ImagePool *pool = MEM_callocN(sizeof(ImagePool), "Image Pool");
return pool;
}
void BKE_image_pool_free(ImagePool *pool)
{
ImagePoolEntry *entry, *next_entry;
/* use single lock to dereference all the image buffers */
BLI_spin_lock(&image_spin);
for (entry = pool->image_buffers.first; entry; entry = next_entry) {
next_entry = entry->next;
if (entry->ibuf)
IMB_freeImBuf(entry->ibuf);
MEM_freeN(entry);
}
BLI_spin_unlock(&image_spin);
MEM_freeN(pool);
}
BLI_INLINE ImBuf *image_pool_find_entry(ImagePool *pool, Image *image, int frame, int index, bool *found)
{
ImagePoolEntry *entry;
*found = false;
for (entry = pool->image_buffers.first; entry; entry = entry->next) {
if (entry->image == image && entry->frame == frame && entry->index == index) {
*found = true;
return entry->ibuf;
}
}
return NULL;
}
ImBuf *BKE_image_pool_acquire_ibuf(Image *ima, ImageUser *iuser, ImagePool *pool)
{
ImBuf *ibuf;
int index, frame;
bool found;
if (!image_quick_test(ima, iuser))
return NULL;
if (pool == NULL) {
/* pool could be NULL, in this case use general acquire function */
return BKE_image_acquire_ibuf(ima, iuser, NULL);
}
image_get_frame_and_index(ima, iuser, &frame, &index);
ibuf = image_pool_find_entry(pool, ima, frame, index, &found);
if (found)
return ibuf;
BLI_spin_lock(&image_spin);
ibuf = image_pool_find_entry(pool, ima, frame, index, &found);
/* will also create entry even in cases image buffer failed to load,
* prevents trying to load the same buggy file multiple times
*/
if (!found) {
ImagePoolEntry *entry;
ibuf = image_acquire_ibuf(ima, iuser, NULL);
entry = MEM_callocN(sizeof(ImagePoolEntry), "Image Pool Entry");
entry->image = ima;
entry->frame = frame;
entry->index = index;
entry->ibuf = ibuf;
BLI_addtail(&pool->image_buffers, entry);
}
BLI_spin_unlock(&image_spin);
return ibuf;
}
void BKE_image_pool_release_ibuf(Image *ima, ImBuf *ibuf, ImagePool *pool)
{
/* if pool wasn't actually used, use general release stuff,
* for pools image buffers will be dereferenced on pool free
*/
if (pool == NULL) {
BKE_image_release_ibuf(ima, ibuf, NULL);
}
}
int BKE_image_user_frame_get(const ImageUser *iuser, int cfra, int fieldnr, bool *r_is_in_range)
{
const int len = (iuser->fie_ima * iuser->frames) / 2;
if (r_is_in_range) {
*r_is_in_range = false;
}
if (len == 0) {
return 0;
}
else {
int framenr;
cfra = cfra - iuser->sfra + 1;
/* cyclic */
if (iuser->cycl) {
cfra = ((cfra) % len);
if (cfra < 0) cfra += len;
if (cfra == 0) cfra = len;
if (r_is_in_range) {
*r_is_in_range = true;
}
}
if (cfra < 0) {
cfra = 0;
}
else if (cfra > len) {
cfra = len;
}
else {
if (r_is_in_range) {
*r_is_in_range = true;
}
}
/* convert current frame to current field */
cfra = 2 * (cfra);
if (fieldnr) cfra++;
/* transform to images space */
framenr = (cfra + iuser->fie_ima - 2) / iuser->fie_ima;
if (framenr > iuser->frames) framenr = iuser->frames;
if (iuser->cycl) {
framenr = ((framenr) % len);
while (framenr < 0) framenr += len;
if (framenr == 0) framenr = len;
}
/* important to apply after else we cant loop on frames 100 - 110 for eg. */
framenr += iuser->offset;
return framenr;
}
}
void BKE_image_user_frame_calc(ImageUser *iuser, int cfra, int fieldnr)
{
if (iuser) {
bool is_in_range;
const int framenr = BKE_image_user_frame_get(iuser, cfra, fieldnr, &is_in_range);
if (is_in_range) {
iuser->flag |= IMA_USER_FRAME_IN_RANGE;
}
else {
iuser->flag &= ~IMA_USER_FRAME_IN_RANGE;
}
/* allows image users to handle redraws */
if (iuser->flag & IMA_ANIM_ALWAYS)
if (framenr != iuser->framenr)
iuser->flag |= IMA_ANIM_REFRESHED;
iuser->framenr = framenr;
if (iuser->ok == 0) iuser->ok = 1;
}
}
void BKE_image_user_check_frame_calc(ImageUser *iuser, int cfra, int fieldnr)
{
if ((iuser->flag & IMA_ANIM_ALWAYS) || (iuser->flag & IMA_NEED_FRAME_RECALC)) {
BKE_image_user_frame_calc(iuser, cfra, fieldnr);
iuser->flag &= ~IMA_NEED_FRAME_RECALC;
}
}
/* goes over all ImageUsers, and sets frame numbers if auto-refresh is set */
static void image_update_frame(struct Image *UNUSED(ima), struct ImageUser *iuser, void *customdata)
{
int cfra = *(int *)customdata;
BKE_image_user_check_frame_calc(iuser, cfra, 0);
}
void BKE_image_update_frame(const Main *bmain, int cfra)
{
BKE_image_walk_all_users(bmain, &cfra, image_update_frame);
}
void BKE_image_user_file_path(ImageUser *iuser, Image *ima, char *filepath)
{
BLI_strncpy(filepath, ima->name, FILE_MAX);
if (ima->source == IMA_SRC_SEQUENCE) {
char head[FILE_MAX], tail[FILE_MAX];
unsigned short numlen;
int frame = iuser ? iuser->framenr : ima->lastframe;
BLI_stringdec(filepath, head, tail, &numlen);
BLI_stringenc(filepath, head, tail, numlen, frame);
}
BLI_path_abs(filepath, ID_BLEND_PATH(G.main, &ima->id));
}
bool BKE_image_has_alpha(struct Image *image)
{
ImBuf *ibuf;
void *lock;
int planes;
ibuf = BKE_image_acquire_ibuf(image, NULL, &lock);
planes = (ibuf ? ibuf->planes : 0);
BKE_image_release_ibuf(image, ibuf, lock);
if (planes == 32)
return 1;
else
return 0;
}
void BKE_image_get_size(Image *image, ImageUser *iuser, int *width, int *height)
{
ImBuf *ibuf = NULL;
void *lock;
ibuf = BKE_image_acquire_ibuf(image, iuser, &lock);
if (ibuf && ibuf->x > 0 && ibuf->y > 0) {
*width = ibuf->x;
*height = ibuf->y;
}
else {
*width = IMG_SIZE_FALLBACK;
*height = IMG_SIZE_FALLBACK;
}
BKE_image_release_ibuf(image, ibuf, lock);
}
void BKE_image_get_size_fl(Image *image, ImageUser *iuser, float size[2])
{
int width, height;
BKE_image_get_size(image, iuser, &width, &height);
size[0] = (float)width;
size[1] = (float)height;
}
void BKE_image_get_aspect(Image *image, float *aspx, float *aspy)
{
*aspx = 1.0;
/* x is always 1 */
if (image)
*aspy = image->aspy / image->aspx;
else
*aspy = 1.0f;
}
unsigned char *BKE_image_get_pixels_for_frame(struct Image *image, int frame)
{
ImageUser iuser = {NULL};
void *lock;
ImBuf *ibuf;
unsigned char *pixels = NULL;
iuser.framenr = frame;
iuser.ok = true;
ibuf = BKE_image_acquire_ibuf(image, &iuser, &lock);
if (ibuf) {
pixels = (unsigned char *) ibuf->rect;
if (pixels)
pixels = MEM_dupallocN(pixels);
BKE_image_release_ibuf(image, ibuf, lock);
}
if (!pixels)
return NULL;
return pixels;
}
float *BKE_image_get_float_pixels_for_frame(struct Image *image, int frame)
{
ImageUser iuser = {NULL};
void *lock;
ImBuf *ibuf;
float *pixels = NULL;
iuser.framenr = frame;
iuser.ok = true;
ibuf = BKE_image_acquire_ibuf(image, &iuser, &lock);
if (ibuf) {
pixels = ibuf->rect_float;
if (pixels)
pixels = MEM_dupallocN(pixels);
BKE_image_release_ibuf(image, ibuf, lock);
}
if (!pixels)
return NULL;
return pixels;
}
int BKE_image_sequence_guess_offset(Image *image)
{
unsigned short numlen;
char head[FILE_MAX], tail[FILE_MAX];
char num[FILE_MAX] = {0};
BLI_stringdec(image->name, head, tail, &numlen);
BLI_strncpy(num, image->name + strlen(head), numlen + 1);
return atoi(num);
}
/**
* Checks the image buffer changes (not keyframed values)
*
* to see if we need to call #BKE_image_user_check_frame_calc
*/
bool BKE_image_is_animated(Image *image)
{
return ELEM(image->source, IMA_SRC_MOVIE, IMA_SRC_SEQUENCE);
}
bool BKE_image_is_dirty(Image *image)
{
bool is_dirty = false;
BLI_spin_lock(&image_spin);
if (image->cache != NULL) {
struct MovieCacheIter *iter = IMB_moviecacheIter_new(image->cache);
while (!IMB_moviecacheIter_done(iter)) {
ImBuf *ibuf = IMB_moviecacheIter_getImBuf(iter);
if (ibuf->userflags & IB_BITMAPDIRTY) {
is_dirty = true;
break;
}
IMB_moviecacheIter_step(iter);
}
IMB_moviecacheIter_free(iter);
}
BLI_spin_unlock(&image_spin);
return is_dirty;
}
void BKE_image_file_format_set(Image *image, int ftype)
{
#if 0
ImBuf *ibuf = BKE_image_acquire_ibuf(image, NULL, NULL);
if (ibuf) {
ibuf->ftype = ftype;
}
BKE_image_release_ibuf(image, ibuf, NULL);
#endif
BLI_spin_lock(&image_spin);
if (image->cache != NULL) {
struct MovieCacheIter *iter = IMB_moviecacheIter_new(image->cache);
while (!IMB_moviecacheIter_done(iter)) {
ImBuf *ibuf = IMB_moviecacheIter_getImBuf(iter);
ibuf->ftype = ftype;
IMB_moviecacheIter_step(iter);
}
IMB_moviecacheIter_free(iter);
}
BLI_spin_unlock(&image_spin);
}
bool BKE_image_has_loaded_ibuf(Image *image)
{
bool has_loaded_ibuf = false;
BLI_spin_lock(&image_spin);
if (image->cache != NULL) {
struct MovieCacheIter *iter = IMB_moviecacheIter_new(image->cache);
while (!IMB_moviecacheIter_done(iter)) {
has_loaded_ibuf = true;
break;
}
IMB_moviecacheIter_free(iter);
}
BLI_spin_unlock(&image_spin);
return has_loaded_ibuf;
}
/* References the result, BKE_image_release_ibuf is to be called to de-reference.
* Use lock=NULL when calling BKE_image_release_ibuf().
*/
ImBuf *BKE_image_get_ibuf_with_name(Image *image, const char *name)
{
ImBuf *ibuf = NULL;
BLI_spin_lock(&image_spin);
if (image->cache != NULL) {
struct MovieCacheIter *iter = IMB_moviecacheIter_new(image->cache);
while (!IMB_moviecacheIter_done(iter)) {
ImBuf *current_ibuf = IMB_moviecacheIter_getImBuf(iter);
if (STREQ(current_ibuf->name, name)) {
ibuf = current_ibuf;
IMB_refImBuf(ibuf);
break;
}
IMB_moviecacheIter_step(iter);
}
IMB_moviecacheIter_free(iter);
}
BLI_spin_unlock(&image_spin);
return ibuf;
}
/* References the result, BKE_image_release_ibuf is to be called to de-reference.
* Use lock=NULL when calling BKE_image_release_ibuf().
*
* TODO(sergey): This is actually "get first entry from the cache", which is
* not so much predictable. But using first loaded image buffer
* was also malicious logic and all the areas which uses this
* function are to be re-considered.
*/
ImBuf *BKE_image_get_first_ibuf(Image *image)
{
ImBuf *ibuf = NULL;
BLI_spin_lock(&image_spin);
if (image->cache != NULL) {
struct MovieCacheIter *iter = IMB_moviecacheIter_new(image->cache);
while (!IMB_moviecacheIter_done(iter)) {
ibuf = IMB_moviecacheIter_getImBuf(iter);
IMB_refImBuf(ibuf);
break;
}
IMB_moviecacheIter_free(iter);
}
BLI_spin_unlock(&image_spin);
return ibuf;
}
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