/* SPDX-License-Identifier: GPL-2.0-or-later
* Copyright 2001-2002 NaN Holding BV. All rights reserved. */
/** \file
* \ingroup blenloader
*/
/**
* FILE FORMAT
* ===========
*
* IFF-style structure (but not IFF compatible!)
*
* Start file:
*
* `BLENDER_V100` `12` bytes (version 1.00 is just an example).
* `V` = big endian, `v` = little endian.
* `_` = 4 byte pointer, `-` = 8 byte pointer.
*
*
* data-blocks: (also see struct #BHead).
*
* `bh.code` `char[4]` see `BLO_blend_defs.h` for a list of known types.
* `bh.len` `int32` length data after #BHead in bytes.
* `bh.old` `void *` old pointer (the address at the time of writing the file).
* `bh.SDNAnr` `int32` struct index of structs stored in #DNA1 data.
* `bh.nr` `int32` in case of array: number of structs.
* data
* ...
* ...
*
*
* Almost all data in Blender are structures. Each struct saved
* gets a BHead header. With BHead the struct can be linked again
* and compared with #StructDNA.
*
* WRITE
* =====
*
* Preferred writing order: (not really a must, but why would you do it random?)
* Any case: direct data is ALWAYS after the lib block.
*
* (Local file data)
* - for each LibBlock
* - write LibBlock
* - write associated direct data
* (External file data)
* - per library
* - write library block
* - per LibBlock
* - write the ID of LibBlock
* - write #TEST (#RenderInfo struct. 128x128 blend file preview is optional).
* - write #GLOB (#FileGlobal struct) (some global vars).
* - write #DNA1 (#SDNA struct)
* - write #USER (#UserDef struct) if filename is `~/.config/blender/X.XX/config/startup.blend`.
*/
#include
#include
#include
#include
#include
#include
#ifdef WIN32
# include "BLI_winstuff.h"
# include "winsock2.h"
# include
#else
# include /* FreeBSD, for write() and close(). */
#endif
#include "BLI_utildefines.h"
#include "CLG_log.h"
/* allow writefile to use deprecated functionality (for forward compatibility code) */
#define DNA_DEPRECATED_ALLOW
#include "DNA_collection_types.h"
#include "DNA_fileglobal_types.h"
#include "DNA_genfile.h"
#include "DNA_sdna_types.h"
#include "BLI_bitmap.h"
#include "BLI_blenlib.h"
#include "BLI_endian_defines.h"
#include "BLI_endian_switch.h"
#include "BLI_link_utils.h"
#include "BLI_linklist.h"
#include "BLI_math_base.h"
#include "BLI_mempool.h"
#include "BLI_threads.h"
#include "MEM_guardedalloc.h" /* MEM_freeN */
#include "BKE_blender_version.h"
#include "BKE_bpath.h"
#include "BKE_global.h" /* for G */
#include "BKE_idprop.h"
#include "BKE_idtype.h"
#include "BKE_layer.h"
#include "BKE_lib_id.h"
#include "BKE_lib_override.h"
#include "BKE_main.h"
#include "BKE_node.h"
#include "BKE_packedFile.h"
#include "BKE_report.h"
#include "BKE_workspace.h"
#include "BLO_blend_defs.h"
#include "BLO_blend_validate.h"
#include "BLO_read_write.h"
#include "BLO_readfile.h"
#include "BLO_undofile.h"
#include "BLO_writefile.h"
#include "readfile.h"
#include
#include
/* Make preferences read-only. */
#define U (*((const UserDef *)&U))
/* ********* my write, buffered writing with minimum size chunks ************ */
/* Use optimal allocation since blocks of this size are kept in memory for undo. */
#define MEM_BUFFER_SIZE (MEM_SIZE_OPTIMAL(1 << 17)) /* 128kb */
#define MEM_CHUNK_SIZE (MEM_SIZE_OPTIMAL(1 << 15)) /* ~32kb */
#define ZSTD_BUFFER_SIZE (1 << 21) /* 2mb */
#define ZSTD_CHUNK_SIZE (1 << 20) /* 1mb */
#define ZSTD_COMPRESSION_LEVEL 3
static CLG_LogRef LOG = {"blo.writefile"};
/** Use if we want to store how many bytes have been written to the file. */
// #define USE_WRITE_DATA_LEN
/* -------------------------------------------------------------------- */
/** \name Internal Write Wrapper's (Abstracts Compression)
* \{ */
typedef enum {
WW_WRAP_NONE = 1,
WW_WRAP_ZSTD,
} eWriteWrapType;
typedef struct ZstdFrame {
struct ZstdFrame *next, *prev;
uint32_t compressed_size;
uint32_t uncompressed_size;
} ZstdFrame;
typedef struct WriteWrap WriteWrap;
struct WriteWrap {
/* callbacks */
bool (*open)(WriteWrap *ww, const char *filepath);
bool (*close)(WriteWrap *ww);
size_t (*write)(WriteWrap *ww, const char *data, size_t data_len);
/* Buffer output (we only want when output isn't already buffered). */
bool use_buf;
/* internal */
int file_handle;
struct {
ListBase threadpool;
ListBase tasks;
ThreadMutex mutex;
ThreadCondition condition;
int next_frame;
int num_frames;
int level;
ListBase frames;
bool write_error;
} zstd;
};
/* none */
static bool ww_open_none(WriteWrap *ww, const char *filepath)
{
int file;
file = BLI_open(filepath, O_BINARY + O_WRONLY + O_CREAT + O_TRUNC, 0666);
if (file != -1) {
ww->file_handle = file;
return true;
}
return false;
}
static bool ww_close_none(WriteWrap *ww)
{
return (close(ww->file_handle) != -1);
}
static size_t ww_write_none(WriteWrap *ww, const char *buf, size_t buf_len)
{
return write(ww->file_handle, buf, buf_len);
}
/* zstd */
struct ZstdWriteBlockTask {
ZstdWriteBlockTask *next, *prev;
void *data;
size_t size;
int frame_number;
WriteWrap *ww;
};
static void *zstd_write_task(void *userdata)
{
ZstdWriteBlockTask *task = static_cast(userdata);
WriteWrap *ww = task->ww;
size_t out_buf_len = ZSTD_compressBound(task->size);
void *out_buf = MEM_mallocN(out_buf_len, "Zstd out buffer");
size_t out_size = ZSTD_compress(
out_buf, out_buf_len, task->data, task->size, ZSTD_COMPRESSION_LEVEL);
MEM_freeN(task->data);
BLI_mutex_lock(&ww->zstd.mutex);
while (ww->zstd.next_frame != task->frame_number) {
BLI_condition_wait(&ww->zstd.condition, &ww->zstd.mutex);
}
if (ZSTD_isError(out_size)) {
ww->zstd.write_error = true;
}
else {
if (ww_write_none(ww, static_cast(out_buf), out_size) == out_size) {
ZstdFrame *frameinfo = static_cast(
MEM_mallocN(sizeof(ZstdFrame), "zstd frameinfo"));
frameinfo->uncompressed_size = task->size;
frameinfo->compressed_size = out_size;
BLI_addtail(&ww->zstd.frames, frameinfo);
}
else {
ww->zstd.write_error = true;
}
}
ww->zstd.next_frame++;
BLI_mutex_unlock(&ww->zstd.mutex);
BLI_condition_notify_all(&ww->zstd.condition);
MEM_freeN(out_buf);
return nullptr;
}
static bool ww_open_zstd(WriteWrap *ww, const char *filepath)
{
if (!ww_open_none(ww, filepath)) {
return false;
}
/* Leave one thread open for the main writing logic, unless we only have one HW thread. */
int num_threads = max_ii(1, BLI_system_thread_count() - 1);
BLI_threadpool_init(&ww->zstd.threadpool, zstd_write_task, num_threads);
BLI_mutex_init(&ww->zstd.mutex);
BLI_condition_init(&ww->zstd.condition);
return true;
}
static void zstd_write_u32_le(WriteWrap *ww, uint32_t val)
{
#ifdef __BIG_ENDIAN__
BLI_endian_switch_uint32(&val);
#endif
ww_write_none(ww, (char *)&val, sizeof(uint32_t));
}
/* In order to implement efficient seeking when reading the .blend, we append
* a skippable frame that encodes information about the other frames present
* in the file.
* The format here follows the upstream spec for seekable files:
* https://github.com/facebook/zstd/blob/master/contrib/seekable_format/zstd_seekable_compression_format.md
* If this information is not present in a file (e.g. if it was compressed
* with external tools), it can still be opened in Blender, but seeking will
* not be supported, so more memory might be needed. */
static void zstd_write_seekable_frames(WriteWrap *ww)
{
/* Write seek table header (magic number and frame size). */
zstd_write_u32_le(ww, 0x184D2A5E);
/* The actual frame number might not match ww->zstd.num_frames if there was a write error. */
const uint32_t num_frames = BLI_listbase_count(&ww->zstd.frames);
/* Each frame consists of two u32, so 8 bytes each.
* After the frames, a footer containing two u32 and one byte (9 bytes total) is written. */
const uint32_t frame_size = num_frames * 8 + 9;
zstd_write_u32_le(ww, frame_size);
/* Write seek table entries. */
LISTBASE_FOREACH (ZstdFrame *, frame, &ww->zstd.frames) {
zstd_write_u32_le(ww, frame->compressed_size);
zstd_write_u32_le(ww, frame->uncompressed_size);
}
/* Write seek table footer (number of frames, option flags and second magic number). */
zstd_write_u32_le(ww, num_frames);
const char flags = 0; /* We don't store checksums for each frame. */
ww_write_none(ww, &flags, 1);
zstd_write_u32_le(ww, 0x8F92EAB1);
}
static bool ww_close_zstd(WriteWrap *ww)
{
BLI_threadpool_end(&ww->zstd.threadpool);
BLI_freelistN(&ww->zstd.tasks);
BLI_mutex_end(&ww->zstd.mutex);
BLI_condition_end(&ww->zstd.condition);
zstd_write_seekable_frames(ww);
BLI_freelistN(&ww->zstd.frames);
return ww_close_none(ww) && !ww->zstd.write_error;
}
static size_t ww_write_zstd(WriteWrap *ww, const char *buf, size_t buf_len)
{
if (ww->zstd.write_error) {
return 0;
}
ZstdWriteBlockTask *task = static_cast(
MEM_mallocN(sizeof(ZstdWriteBlockTask), __func__));
task->data = MEM_mallocN(buf_len, __func__);
memcpy(task->data, buf, buf_len);
task->size = buf_len;
task->frame_number = ww->zstd.num_frames++;
task->ww = ww;
BLI_mutex_lock(&ww->zstd.mutex);
BLI_addtail(&ww->zstd.tasks, task);
/* If there's a free worker thread, just push the block into that thread.
* Otherwise, we wait for the earliest thread to finish.
* We look up the earliest thread while holding the mutex, but release it
* before joining the thread to prevent a deadlock. */
ZstdWriteBlockTask *first_task = static_cast(ww->zstd.tasks.first);
BLI_mutex_unlock(&ww->zstd.mutex);
if (!BLI_available_threads(&ww->zstd.threadpool)) {
BLI_threadpool_remove(&ww->zstd.threadpool, first_task);
/* If the task list was empty before we pushed our task, there should
* always be a free thread. */
BLI_assert(first_task != task);
BLI_remlink(&ww->zstd.tasks, first_task);
MEM_freeN(first_task);
}
BLI_threadpool_insert(&ww->zstd.threadpool, task);
return buf_len;
}
/* --- end compression types --- */
static void ww_handle_init(eWriteWrapType ww_type, WriteWrap *r_ww)
{
memset(r_ww, 0, sizeof(*r_ww));
switch (ww_type) {
case WW_WRAP_ZSTD: {
r_ww->open = ww_open_zstd;
r_ww->close = ww_close_zstd;
r_ww->write = ww_write_zstd;
r_ww->use_buf = true;
break;
}
default: {
r_ww->open = ww_open_none;
r_ww->close = ww_close_none;
r_ww->write = ww_write_none;
r_ww->use_buf = true;
break;
}
}
}
/** \} */
/* -------------------------------------------------------------------- */
/** \name Write Data Type & Functions
* \{ */
typedef struct {
const struct SDNA *sdna;
struct {
/** Use for file and memory writing (size stored in max_size). */
uchar *buf;
/** Number of bytes used in #WriteData.buf (flushed when exceeded). */
size_t used_len;
/** Maximum size of the buffer. */
size_t max_size;
/** Threshold above which writes get their own chunk. */
size_t chunk_size;
} buffer;
#ifdef USE_WRITE_DATA_LEN
/** Total number of bytes written. */
size_t write_len;
#endif
/** Set on unlikely case of an error (ignores further file writing). */
bool error;
/** #MemFile writing (used for undo). */
MemFileWriteData mem;
/** When true, write to #WriteData.current, could also call 'is_undo'. */
bool use_memfile;
/**
* Wrap writing, so we can use zstd or
* other compression types later, see: G_FILE_COMPRESS
* Will be nullptr for UNDO.
*/
WriteWrap *ww;
} WriteData;
typedef struct BlendWriter {
WriteData *wd;
} BlendWriter;
static WriteData *writedata_new(WriteWrap *ww)
{
WriteData *wd = static_cast(MEM_callocN(sizeof(*wd), "writedata"));
wd->sdna = DNA_sdna_current_get();
wd->ww = ww;
if ((ww == nullptr) || (ww->use_buf)) {
if (ww == nullptr) {
wd->buffer.max_size = MEM_BUFFER_SIZE;
wd->buffer.chunk_size = MEM_CHUNK_SIZE;
}
else {
wd->buffer.max_size = ZSTD_BUFFER_SIZE;
wd->buffer.chunk_size = ZSTD_CHUNK_SIZE;
}
wd->buffer.buf = static_cast(MEM_mallocN(wd->buffer.max_size, "wd->buffer.buf"));
}
return wd;
}
static void writedata_do_write(WriteData *wd, const void *mem, size_t memlen)
{
if ((wd == nullptr) || wd->error || (mem == nullptr) || memlen < 1) {
return;
}
if (memlen > INT_MAX) {
BLI_assert_msg(0, "Cannot write chunks bigger than INT_MAX.");
return;
}
if (UNLIKELY(wd->error)) {
return;
}
/* memory based save */
if (wd->use_memfile) {
BLO_memfile_chunk_add(&wd->mem, static_cast(mem), memlen);
}
else {
if (wd->ww->write(wd->ww, static_cast(mem), memlen) != memlen) {
wd->error = true;
}
}
}
static void writedata_free(WriteData *wd)
{
if (wd->buffer.buf) {
MEM_freeN(wd->buffer.buf);
}
MEM_freeN(wd);
}
/** \} */
/* -------------------------------------------------------------------- */
/** \name Local Writing API 'mywrite'
* \{ */
/**
* Flush helps the de-duplicating memory for undo-save by logically segmenting data,
* so differences in one part of memory won't cause unrelated data to be duplicated.
*/
static void mywrite_flush(WriteData *wd)
{
if (wd->buffer.used_len != 0) {
writedata_do_write(wd, wd->buffer.buf, wd->buffer.used_len);
wd->buffer.used_len = 0;
}
}
/**
* Low level WRITE(2) wrapper that buffers data
* \param adr: Pointer to new chunk of data
* \param len: Length of new chunk of data
*/
static void mywrite(WriteData *wd, const void *adr, size_t len)
{
if (UNLIKELY(wd->error)) {
return;
}
if (UNLIKELY(adr == nullptr)) {
BLI_assert(0);
return;
}
#ifdef USE_WRITE_DATA_LEN
wd->write_len += len;
#endif
if (wd->buffer.buf == nullptr) {
writedata_do_write(wd, adr, len);
}
else {
/* if we have a single big chunk, write existing data in
* buffer and write out big chunk in smaller pieces */
if (len > wd->buffer.chunk_size) {
if (wd->buffer.used_len != 0) {
writedata_do_write(wd, wd->buffer.buf, wd->buffer.used_len);
wd->buffer.used_len = 0;
}
do {
size_t writelen = MIN2(len, wd->buffer.chunk_size);
writedata_do_write(wd, adr, writelen);
adr = (const char *)adr + writelen;
len -= writelen;
} while (len > 0);
return;
}
/* if data would overflow buffer, write out the buffer */
if (len + wd->buffer.used_len > wd->buffer.max_size - 1) {
writedata_do_write(wd, wd->buffer.buf, wd->buffer.used_len);
wd->buffer.used_len = 0;
}
/* append data at end of buffer */
memcpy(&wd->buffer.buf[wd->buffer.used_len], adr, len);
wd->buffer.used_len += len;
}
}
/**
* BeGiN initializer for mywrite
* \param ww: File write wrapper.
* \param compare: Previous memory file (can be nullptr).
* \param current: The current memory file (can be nullptr).
* \warning Talks to other functions with global parameters
*/
static WriteData *mywrite_begin(WriteWrap *ww, MemFile *compare, MemFile *current)
{
WriteData *wd = writedata_new(ww);
if (current != nullptr) {
BLO_memfile_write_init(&wd->mem, current, compare);
wd->use_memfile = true;
}
return wd;
}
/**
* END the mywrite wrapper
* \return True if write failed
* \return unknown global variable otherwise
* \warning Talks to other functions with global parameters
*/
static bool mywrite_end(WriteData *wd)
{
if (wd->buffer.used_len != 0) {
writedata_do_write(wd, wd->buffer.buf, wd->buffer.used_len);
wd->buffer.used_len = 0;
}
if (wd->use_memfile) {
BLO_memfile_write_finalize(&wd->mem);
}
const bool err = wd->error;
writedata_free(wd);
return err;
}
/**
* Start writing of data related to a single ID.
*
* Only does something when storing an undo step.
*/
static void mywrite_id_begin(WriteData *wd, ID *id)
{
if (wd->use_memfile) {
wd->mem.current_id_session_uuid = id->session_uuid;
/* If current next memchunk does not match the ID we are about to write, or is not the _first_
* one for said ID, try to find the correct memchunk in the mapping using ID's session_uuid. */
MemFileChunk *curr_memchunk = wd->mem.reference_current_chunk;
MemFileChunk *prev_memchunk = curr_memchunk != nullptr ?
static_cast(curr_memchunk->prev) :
nullptr;
if (wd->mem.id_session_uuid_mapping != nullptr &&
(curr_memchunk == nullptr || curr_memchunk->id_session_uuid != id->session_uuid ||
(prev_memchunk != nullptr &&
(prev_memchunk->id_session_uuid == curr_memchunk->id_session_uuid)))) {
void *ref = BLI_ghash_lookup(wd->mem.id_session_uuid_mapping,
POINTER_FROM_UINT(id->session_uuid));
if (ref != nullptr) {
wd->mem.reference_current_chunk = static_cast(ref);
}
/* Else, no existing memchunk found, i.e. this is supposed to be a new ID. */
}
/* Otherwise, we try with the current memchunk in any case, whether it is matching current
* ID's session_uuid or not. */
}
}
/**
* Start writing of data related to a single ID.
*
* Only does something when storing an undo step.
*/
static void mywrite_id_end(WriteData *wd, ID *UNUSED(id))
{
if (wd->use_memfile) {
/* Very important to do it after every ID write now, otherwise we cannot know whether a
* specific ID changed or not. */
mywrite_flush(wd);
wd->mem.current_id_session_uuid = MAIN_ID_SESSION_UUID_UNSET;
}
}
/** \} */
/* -------------------------------------------------------------------- */
/** \name Generic DNA File Writing
* \{ */
static void writestruct_at_address_nr(
WriteData *wd, int filecode, const int struct_nr, int nr, const void *adr, const void *data)
{
BHead bh;
BLI_assert(struct_nr > 0 && struct_nr < SDNA_TYPE_MAX);
if (adr == nullptr || data == nullptr || nr == 0) {
return;
}
/* init BHead */
bh.code = filecode;
bh.old = adr;
bh.nr = nr;
bh.SDNAnr = struct_nr;
const SDNA_Struct *struct_info = wd->sdna->structs[bh.SDNAnr];
bh.len = nr * wd->sdna->types_size[struct_info->type];
if (bh.len == 0) {
return;
}
mywrite(wd, &bh, sizeof(BHead));
mywrite(wd, data, size_t(bh.len));
}
static void writestruct_nr(
WriteData *wd, int filecode, const int struct_nr, int nr, const void *adr)
{
writestruct_at_address_nr(wd, filecode, struct_nr, nr, adr, adr);
}
/* do not use for structs */
static void writedata(WriteData *wd, int filecode, size_t len, const void *adr)
{
BHead bh;
if (adr == nullptr || len == 0) {
return;
}
if (len > INT_MAX) {
BLI_assert_msg(0, "Cannot write chunks bigger than INT_MAX.");
return;
}
/* align to 4 (writes uninitialized bytes in some cases) */
len = (len + 3) & ~size_t(3);
/* init BHead */
bh.code = filecode;
bh.old = adr;
bh.nr = 1;
bh.SDNAnr = 0;
bh.len = int(len);
mywrite(wd, &bh, sizeof(BHead));
mywrite(wd, adr, len);
}
/* use this to force writing of lists in same order as reading (using link_list) */
static void writelist_nr(WriteData *wd, int filecode, const int struct_nr, const ListBase *lb)
{
const Link *link = static_cast(lb->first);
while (link) {
writestruct_nr(wd, filecode, struct_nr, 1, link);
link = link->next;
}
}
#if 0
static void writelist_id(WriteData *wd, int filecode, const char *structname, const ListBase *lb)
{
const Link *link = lb->first;
if (link) {
const int struct_nr = DNA_struct_find_nr(wd->sdna, structname);
if (struct_nr == -1) {
printf("error: can't find SDNA code <%s>\n", structname);
return;
}
while (link) {
writestruct_nr(wd, filecode, struct_nr, 1, link);
link = link->next;
}
}
}
#endif
#define writestruct_at_address(wd, filecode, struct_id, nr, adr, data) \
writestruct_at_address_nr(wd, filecode, SDNA_TYPE_FROM_STRUCT(struct_id), nr, adr, data)
#define writestruct(wd, filecode, struct_id, nr, adr) \
writestruct_nr(wd, filecode, SDNA_TYPE_FROM_STRUCT(struct_id), nr, adr)
#define writelist(wd, filecode, struct_id, lb) \
writelist_nr(wd, filecode, SDNA_TYPE_FROM_STRUCT(struct_id), lb)
/** \} */
/* -------------------------------------------------------------------- */
/** \name Typed DNA File Writing
*
* These functions are used by blender's .blend system for file saving/loading.
* \{ */
/**
* Take care using 'use_active_win', since we won't want the currently active window
* to change which scene renders (currently only used for undo).
*/
static void current_screen_compat(Main *mainvar,
bool use_active_win,
bScreen **r_screen,
Scene **r_scene,
ViewLayer **r_view_layer)
{
wmWindowManager *wm;
wmWindow *window = nullptr;
/* find a global current screen in the first open window, to have
* a reasonable default for reading in older versions */
wm = static_cast(mainvar->wm.first);
if (wm) {
if (use_active_win) {
/* write the active window into the file, needed for multi-window undo T43424 */
for (window = static_cast(wm->windows.first); window; window = window->next) {
if (window->active) {
break;
}
}
/* fallback */
if (window == nullptr) {
window = static_cast(wm->windows.first);
}
}
else {
window = static_cast(wm->windows.first);
}
}
*r_screen = (window) ? BKE_workspace_active_screen_get(window->workspace_hook) : nullptr;
*r_scene = (window) ? window->scene : nullptr;
*r_view_layer = (window && *r_scene) ? BKE_view_layer_find(*r_scene, window->view_layer_name) :
nullptr;
}
typedef struct RenderInfo {
int sfra;
int efra;
char scene_name[MAX_ID_NAME - 2];
} RenderInfo;
/**
* This was originally added for the historic render-daemon feature,
* now write because it can be easily extracted without reading the whole blend file.
*
* See: `release/scripts/modules/blend_render_info.py`
*/
static void write_renderinfo(WriteData *wd, Main *mainvar)
{
bScreen *curscreen;
Scene *curscene = nullptr;
ViewLayer *view_layer;
/* XXX in future, handle multiple windows with multiple screens? */
current_screen_compat(mainvar, false, &curscreen, &curscene, &view_layer);
LISTBASE_FOREACH (Scene *, sce, &mainvar->scenes) {
if (!ID_IS_LINKED(sce) && (sce == curscene || (sce->r.scemode & R_BG_RENDER))) {
RenderInfo data;
data.sfra = sce->r.sfra;
data.efra = sce->r.efra;
memset(data.scene_name, 0, sizeof(data.scene_name));
BLI_strncpy(data.scene_name, sce->id.name + 2, sizeof(data.scene_name));
writedata(wd, REND, sizeof(data), &data);
}
}
}
static void write_keymapitem(BlendWriter *writer, const wmKeyMapItem *kmi)
{
BLO_write_struct(writer, wmKeyMapItem, kmi);
if (kmi->properties) {
IDP_BlendWrite(writer, kmi->properties);
}
}
static void write_userdef(BlendWriter *writer, const UserDef *userdef)
{
writestruct(writer->wd, USER, UserDef, 1, userdef);
LISTBASE_FOREACH (const bTheme *, btheme, &userdef->themes) {
BLO_write_struct(writer, bTheme, btheme);
}
LISTBASE_FOREACH (const wmKeyMap *, keymap, &userdef->user_keymaps) {
BLO_write_struct(writer, wmKeyMap, keymap);
LISTBASE_FOREACH (const wmKeyMapDiffItem *, kmdi, &keymap->diff_items) {
BLO_write_struct(writer, wmKeyMapDiffItem, kmdi);
if (kmdi->remove_item) {
write_keymapitem(writer, kmdi->remove_item);
}
if (kmdi->add_item) {
write_keymapitem(writer, kmdi->add_item);
}
}
LISTBASE_FOREACH (const wmKeyMapItem *, kmi, &keymap->items) {
write_keymapitem(writer, kmi);
}
}
LISTBASE_FOREACH (const wmKeyConfigPref *, kpt, &userdef->user_keyconfig_prefs) {
BLO_write_struct(writer, wmKeyConfigPref, kpt);
if (kpt->prop) {
IDP_BlendWrite(writer, kpt->prop);
}
}
LISTBASE_FOREACH (const bUserMenu *, um, &userdef->user_menus) {
BLO_write_struct(writer, bUserMenu, um);
LISTBASE_FOREACH (const bUserMenuItem *, umi, &um->items) {
if (umi->type == USER_MENU_TYPE_OPERATOR) {
const bUserMenuItem_Op *umi_op = (const bUserMenuItem_Op *)umi;
BLO_write_struct(writer, bUserMenuItem_Op, umi_op);
if (umi_op->prop) {
IDP_BlendWrite(writer, umi_op->prop);
}
}
else if (umi->type == USER_MENU_TYPE_MENU) {
const bUserMenuItem_Menu *umi_mt = (const bUserMenuItem_Menu *)umi;
BLO_write_struct(writer, bUserMenuItem_Menu, umi_mt);
}
else if (umi->type == USER_MENU_TYPE_PROP) {
const bUserMenuItem_Prop *umi_pr = (const bUserMenuItem_Prop *)umi;
BLO_write_struct(writer, bUserMenuItem_Prop, umi_pr);
}
else {
BLO_write_struct(writer, bUserMenuItem, umi);
}
}
}
LISTBASE_FOREACH (const bAddon *, bext, &userdef->addons) {
BLO_write_struct(writer, bAddon, bext);
if (bext->prop) {
IDP_BlendWrite(writer, bext->prop);
}
}
LISTBASE_FOREACH (const bPathCompare *, path_cmp, &userdef->autoexec_paths) {
BLO_write_struct(writer, bPathCompare, path_cmp);
}
LISTBASE_FOREACH (const bUserAssetLibrary *, asset_library_ref, &userdef->asset_libraries) {
BLO_write_struct(writer, bUserAssetLibrary, asset_library_ref);
}
LISTBASE_FOREACH (const uiStyle *, style, &userdef->uistyles) {
BLO_write_struct(writer, uiStyle, style);
}
}
/* Keep it last of write_foodata functions. */
static void write_libraries(WriteData *wd, Main *main)
{
ListBase *lbarray[INDEX_ID_MAX];
ID *id;
int a, tot;
bool found_one;
for (; main; main = main->next) {
a = tot = set_listbasepointers(main, lbarray);
/* test: is lib being used */
if (main->curlib && main->curlib->packedfile) {
found_one = true;
}
else if (wd->use_memfile) {
/* When writing undo step we always write all existing libraries, makes reading undo step
* much easier when dealing with purely indirectly used libraries. */
found_one = true;
}
else {
found_one = false;
while (!found_one && tot--) {
for (id = static_cast(lbarray[tot]->first); id; id = static_cast(id->next)) {
if (id->us > 0 &&
((id->tag & LIB_TAG_EXTERN) ||
((id->tag & LIB_TAG_INDIRECT) && (id->flag & LIB_INDIRECT_WEAK_LINK)))) {
found_one = true;
break;
}
}
}
}
/* To be able to restore 'quit.blend' and temp saves,
* the packed blend has to be in undo buffers... */
/* XXX needs rethink, just like save UI in undo files now -
* would be nice to append things only for the 'quit.blend' and temp saves. */
if (found_one) {
/* Not overridable. */
void *runtime_name_data = main->curlib->runtime.name_map;
main->curlib->runtime.name_map = nullptr;
BlendWriter writer = {wd};
writestruct(wd, ID_LI, Library, 1, main->curlib);
BKE_id_blend_write(&writer, &main->curlib->id);
main->curlib->runtime.name_map = static_cast(runtime_name_data);
if (main->curlib->packedfile) {
BKE_packedfile_blend_write(&writer, main->curlib->packedfile);
if (wd->use_memfile == false) {
CLOG_INFO(&LOG, 2, "Write packed .blend: %s", main->curlib->filepath);
}
}
/* Write link placeholders for all direct linked IDs. */
while (a--) {
for (id = static_cast(lbarray[a]->first); id; id = static_cast(id->next)) {
if (id->us > 0 &&
((id->tag & LIB_TAG_EXTERN) ||
((id->tag & LIB_TAG_INDIRECT) && (id->flag & LIB_INDIRECT_WEAK_LINK)))) {
if (!BKE_idtype_idcode_is_linkable(GS(id->name))) {
CLOG_ERROR(&LOG,
"Data-block '%s' from lib '%s' is not linkable, but is flagged as "
"directly linked",
id->name,
main->curlib->filepath_abs);
}
writestruct(wd, ID_LINK_PLACEHOLDER, ID, 1, id);
}
}
}
}
}
mywrite_flush(wd);
}
#ifdef WITH_BUILDINFO
extern "C" unsigned long build_commit_timestamp;
extern "C" char build_hash[];
#endif
/* context is usually defined by WM, two cases where no WM is available:
* - for forward compatibility, curscreen has to be saved
* - for undofile, curscene needs to be saved */
static void write_global(WriteData *wd, int fileflags, Main *mainvar)
{
const bool is_undo = wd->use_memfile;
FileGlobal fg;
bScreen *screen;
Scene *scene;
ViewLayer *view_layer;
char subvstr[8];
/* prevent mem checkers from complaining */
memset(fg._pad, 0, sizeof(fg._pad));
memset(fg.filepath, 0, sizeof(fg.filepath));
memset(fg.build_hash, 0, sizeof(fg.build_hash));
fg._pad1 = nullptr;
current_screen_compat(mainvar, is_undo, &screen, &scene, &view_layer);
/* XXX still remap G */
fg.curscreen = screen;
fg.curscene = scene;
fg.cur_view_layer = view_layer;
/* prevent to save this, is not good convention, and feature with concerns... */
fg.fileflags = (fileflags & ~G_FILE_FLAG_ALL_RUNTIME);
fg.globalf = G.f;
/* Write information needed for recovery. */
if (fileflags & G_FILE_RECOVER_WRITE) {
STRNCPY(fg.filepath, mainvar->filepath);
}
sprintf(subvstr, "%4d", BLENDER_FILE_SUBVERSION);
memcpy(fg.subvstr, subvstr, 4);
fg.subversion = BLENDER_FILE_SUBVERSION;
fg.minversion = BLENDER_FILE_MIN_VERSION;
fg.minsubversion = BLENDER_FILE_MIN_SUBVERSION;
#ifdef WITH_BUILDINFO
/* TODO(sergey): Add branch name to file as well? */
fg.build_commit_timestamp = build_commit_timestamp;
BLI_strncpy(fg.build_hash, build_hash, sizeof(fg.build_hash));
#else
fg.build_commit_timestamp = 0;
BLI_strncpy(fg.build_hash, "unknown", sizeof(fg.build_hash));
#endif
writestruct(wd, GLOB, FileGlobal, 1, &fg);
}
/**
* Preview image, first 2 values are width and height
* second are an RGBA image (uchar).
* \note this uses 'TEST' since new types will segfault on file load for older blender versions.
*/
static void write_thumb(WriteData *wd, const BlendThumbnail *thumb)
{
if (thumb) {
writedata(wd, TEST, BLEN_THUMB_MEMSIZE_FILE(thumb->width, thumb->height), thumb);
}
}
/** \} */
/* -------------------------------------------------------------------- */
/** \name File Writing (Private)
* \{ */
/* if MemFile * there's filesave to memory */
static bool write_file_handle(Main *mainvar,
WriteWrap *ww,
MemFile *compare,
MemFile *current,
int write_flags,
bool use_userdef,
const BlendThumbnail *thumb)
{
BHead bhead;
ListBase mainlist;
char buf[16];
WriteData *wd;
blo_split_main(&mainlist, mainvar);
wd = mywrite_begin(ww, compare, current);
BlendWriter writer = {wd};
sprintf(buf,
"BLENDER%c%c%.3d",
(sizeof(void *) == 8) ? '-' : '_',
(ENDIAN_ORDER == B_ENDIAN) ? 'V' : 'v',
BLENDER_FILE_VERSION);
mywrite(wd, buf, 12);
write_renderinfo(wd, mainvar);
write_thumb(wd, thumb);
write_global(wd, write_flags, mainvar);
/* The window-manager and screen often change,
* avoid thumbnail detecting changes because of this. */
mywrite_flush(wd);
OverrideLibraryStorage *override_storage = wd->use_memfile ?
nullptr :
BKE_lib_override_library_operations_store_init();
#define ID_BUFFER_STATIC_SIZE 8192
/* This outer loop allows to save first data-blocks from real mainvar,
* then the temp ones from override process,
* if needed, without duplicating whole code. */
Main *bmain = mainvar;
do {
ListBase *lbarray[INDEX_ID_MAX];
int a = set_listbasepointers(bmain, lbarray);
while (a--) {
ID *id = static_cast(lbarray[a]->first);
if (id == nullptr || GS(id->name) == ID_LI) {
continue; /* Libraries are handled separately below. */
}
char id_buffer_static[ID_BUFFER_STATIC_SIZE];
void *id_buffer = id_buffer_static;
const IDTypeInfo *id_type = BKE_idtype_get_info_from_id(id);
const size_t idtype_struct_size = id_type->struct_size;
if (idtype_struct_size > ID_BUFFER_STATIC_SIZE) {
CLOG_ERROR(&LOG,
"ID maximum buffer size (%d bytes) is not big enough to fit IDs of type %s, "
"which needs %lu bytes",
ID_BUFFER_STATIC_SIZE,
id_type->name,
id_type->struct_size);
id_buffer = MEM_mallocN(idtype_struct_size, __func__);
}
for (; id; id = static_cast(id->next)) {
/* We should never attempt to write non-regular IDs
* (i.e. all kind of temp/runtime ones). */
BLI_assert(
(id->tag & (LIB_TAG_NO_MAIN | LIB_TAG_NO_USER_REFCOUNT | LIB_TAG_NOT_ALLOCATED)) == 0);
/* We only write unused IDs in undo case.
* NOTE: All Scenes, WindowManagers and WorkSpaces should always be written to disk, so
* their user-count should never be nullptr currently. */
if (id->us == 0 && !wd->use_memfile) {
BLI_assert(!ELEM(GS(id->name), ID_SCE, ID_WM, ID_WS));
continue;
}
const bool do_override = !ELEM(override_storage, nullptr, bmain) &&
ID_IS_OVERRIDE_LIBRARY_REAL(id);
if (do_override) {
BKE_lib_override_library_operations_store_start(bmain, override_storage, id);
}
if (wd->use_memfile) {
/* Record the changes that happened up to this undo push in
* recalc_up_to_undo_push, and clear `recalc_after_undo_push` again
* to start accumulating for the next undo push. */
id->recalc_up_to_undo_push = id->recalc_after_undo_push;
id->recalc_after_undo_push = 0;
bNodeTree *nodetree = ntreeFromID(id);
if (nodetree != nullptr) {
nodetree->id.recalc_up_to_undo_push = nodetree->id.recalc_after_undo_push;
nodetree->id.recalc_after_undo_push = 0;
}
if (GS(id->name) == ID_SCE) {
Scene *scene = (Scene *)id;
if (scene->master_collection != nullptr) {
scene->master_collection->id.recalc_up_to_undo_push =
scene->master_collection->id.recalc_after_undo_push;
scene->master_collection->id.recalc_after_undo_push = 0;
}
}
}
mywrite_id_begin(wd, id);
memcpy(id_buffer, id, idtype_struct_size);
/* Clear runtime data to reduce false detection of changed data in undo/redo context. */
((ID *)id_buffer)->tag = 0;
((ID *)id_buffer)->us = 0;
((ID *)id_buffer)->icon_id = 0;
/* Those listbase data change every time we add/remove an ID, and also often when
* renaming one (due to re-sorting). This avoids generating a lot of false 'is changed'
* detections between undo steps. */
((ID *)id_buffer)->prev = nullptr;
((ID *)id_buffer)->next = nullptr;
/* Those runtime pointers should never be set during writing stage, but just in case clear
* them too. */
((ID *)id_buffer)->orig_id = nullptr;
((ID *)id_buffer)->newid = nullptr;
/* Even though in theory we could be able to preserve this python instance across undo even
* when we need to re-read the ID into its original address, this is currently cleared in
* #direct_link_id_common in `readfile.c` anyway, */
((ID *)id_buffer)->py_instance = nullptr;
if (id_type->blend_write != nullptr) {
id_type->blend_write(&writer, (ID *)id_buffer, id);
}
if (do_override) {
BKE_lib_override_library_operations_store_end(override_storage, id);
}
mywrite_id_end(wd, id);
}
if (id_buffer != id_buffer_static) {
MEM_SAFE_FREE(id_buffer);
}
mywrite_flush(wd);
}
} while ((bmain != override_storage) && (bmain = override_storage));
if (override_storage) {
BKE_lib_override_library_operations_store_finalize(override_storage);
override_storage = nullptr;
}
/* Special handling, operating over split Mains... */
write_libraries(wd, mainvar->next);
/* So changes above don't cause a 'DNA1' to be detected as changed on undo. */
mywrite_flush(wd);
if (use_userdef) {
write_userdef(&writer, &U);
}
/* Write DNA last, because (to be implemented) test for which structs are written.
*
* Note that we *borrow* the pointer to 'DNAstr',
* so writing each time uses the same address and doesn't cause unnecessary undo overhead. */
writedata(wd, DNA1, (size_t)wd->sdna->data_len, wd->sdna->data);
/* end of file */
memset(&bhead, 0, sizeof(BHead));
bhead.code = ENDB;
mywrite(wd, &bhead, sizeof(BHead));
blo_join_main(&mainlist);
return mywrite_end(wd);
}
/* do reverse file history: .blend1 -> .blend2, .blend -> .blend1 */
/* return: success(0), failure(1) */
static bool do_history(const char *name, ReportList *reports)
{
char tempname1[FILE_MAX], tempname2[FILE_MAX];
int hisnr = U.versions;
if (U.versions == 0) {
return false;
}
if (strlen(name) < 2) {
BKE_report(reports, RPT_ERROR, "Unable to make version backup: filename too short");
return true;
}
while (hisnr > 1) {
BLI_snprintf(tempname1, sizeof(tempname1), "%s%d", name, hisnr - 1);
if (BLI_exists(tempname1)) {
BLI_snprintf(tempname2, sizeof(tempname2), "%s%d", name, hisnr);
if (BLI_rename(tempname1, tempname2)) {
BKE_report(reports, RPT_ERROR, "Unable to make version backup");
return true;
}
}
hisnr--;
}
/* is needed when hisnr==1 */
if (BLI_exists(name)) {
BLI_snprintf(tempname1, sizeof(tempname1), "%s%d", name, hisnr);
if (BLI_rename(name, tempname1)) {
BKE_report(reports, RPT_ERROR, "Unable to make version backup");
return true;
}
}
return false;
}
/** \} */
/* -------------------------------------------------------------------- */
/** \name File Writing (Public)
* \{ */
bool BLO_write_file(Main *mainvar,
const char *filepath,
const int write_flags,
const struct BlendFileWriteParams *params,
ReportList *reports)
{
BLI_assert(!BLI_path_is_rel(filepath));
BLI_assert(BLI_path_is_abs_from_cwd(filepath));
char tempname[FILE_MAX + 1];
WriteWrap ww;
eBLO_WritePathRemap remap_mode = params->remap_mode;
const bool use_save_versions = params->use_save_versions;
const bool use_save_as_copy = params->use_save_as_copy;
const bool use_userdef = params->use_userdef;
const BlendThumbnail *thumb = params->thumb;
const bool relbase_valid = (mainvar->filepath[0] != '\0');
/* path backup/restore */
void *path_list_backup = nullptr;
const eBPathForeachFlag path_list_flag = (BKE_BPATH_FOREACH_PATH_SKIP_LINKED |
BKE_BPATH_FOREACH_PATH_SKIP_MULTIFILE);
if (G.debug & G_DEBUG_IO && mainvar->lock != nullptr) {
BKE_report(reports, RPT_INFO, "Checking sanity of current .blend file *BEFORE* save to disk");
BLO_main_validate_libraries(mainvar, reports);
BLO_main_validate_shapekeys(mainvar, reports);
}
/* open temporary file, so we preserve the original in case we crash */
BLI_snprintf(tempname, sizeof(tempname), "%s@", filepath);
ww_handle_init((write_flags & G_FILE_COMPRESS) ? WW_WRAP_ZSTD : WW_WRAP_NONE, &ww);
if (ww.open(&ww, tempname) == false) {
BKE_reportf(
reports, RPT_ERROR, "Cannot open file %s for writing: %s", tempname, strerror(errno));
return false;
}
if (remap_mode == BLO_WRITE_PATH_REMAP_ABSOLUTE) {
/* Paths will already be absolute, no remapping to do. */
if (relbase_valid == false) {
remap_mode = BLO_WRITE_PATH_REMAP_NONE;
}
}
/* Remapping of relative paths to new file location. */
if (remap_mode != BLO_WRITE_PATH_REMAP_NONE) {
if (remap_mode == BLO_WRITE_PATH_REMAP_RELATIVE) {
/* Make all relative as none of the existing paths can be relative in an unsaved document. */
if (relbase_valid == false) {
remap_mode = BLO_WRITE_PATH_REMAP_RELATIVE_ALL;
}
}
/* The source path only makes sense to set if the file was saved (`relbase_valid`). */
char dir_src[FILE_MAX];
char dir_dst[FILE_MAX];
/* Normalize the paths in case there is some subtle difference (so they can be compared). */
if (relbase_valid) {
BLI_split_dir_part(mainvar->filepath, dir_src, sizeof(dir_src));
BLI_path_normalize(nullptr, dir_src);
}
else {
dir_src[0] = '\0';
}
BLI_split_dir_part(filepath, dir_dst, sizeof(dir_dst));
BLI_path_normalize(nullptr, dir_dst);
/* Only for relative, not relative-all, as this means making existing paths relative. */
if (remap_mode == BLO_WRITE_PATH_REMAP_RELATIVE) {
if (relbase_valid && (BLI_path_cmp(dir_dst, dir_src) == 0)) {
/* Saved to same path. Nothing to do. */
remap_mode = BLO_WRITE_PATH_REMAP_NONE;
}
}
else if (remap_mode == BLO_WRITE_PATH_REMAP_ABSOLUTE) {
if (relbase_valid == false) {
/* Unsaved, all paths are absolute.Even if the user manages to set a relative path,
* there is no base-path that can be used to make it absolute. */
remap_mode = BLO_WRITE_PATH_REMAP_NONE;
}
}
if (remap_mode != BLO_WRITE_PATH_REMAP_NONE) {
/* Some path processing (e.g. with libraries) may use the current `main->filepath`, if this
* is not matching the path currently used for saving, unexpected paths corruptions can
* happen. See T98201. */
char mainvar_filepath_orig[FILE_MAX];
STRNCPY(mainvar_filepath_orig, mainvar->filepath);
STRNCPY(mainvar->filepath, filepath);
/* Check if we need to backup and restore paths. */
if (UNLIKELY(use_save_as_copy)) {
path_list_backup = BKE_bpath_list_backup(mainvar, path_list_flag);
}
switch (remap_mode) {
case BLO_WRITE_PATH_REMAP_RELATIVE:
/* Saved, make relative paths relative to new location (if possible). */
BLI_assert(relbase_valid);
BKE_bpath_relative_rebase(mainvar, dir_src, dir_dst, nullptr);
break;
case BLO_WRITE_PATH_REMAP_RELATIVE_ALL:
/* Make all relative (when requested or unsaved). */
BKE_bpath_relative_convert(mainvar, dir_dst, nullptr);
break;
case BLO_WRITE_PATH_REMAP_ABSOLUTE:
/* Make all absolute (when requested or unsaved). */
BLI_assert(relbase_valid);
BKE_bpath_absolute_convert(mainvar, dir_src, nullptr);
break;
case BLO_WRITE_PATH_REMAP_NONE:
BLI_assert_unreachable(); /* Unreachable. */
break;
}
STRNCPY(mainvar->filepath, mainvar_filepath_orig);
}
}
/* actual file writing */
const bool err = write_file_handle(
mainvar, &ww, nullptr, nullptr, write_flags, use_userdef, thumb);
ww.close(&ww);
if (UNLIKELY(path_list_backup)) {
BKE_bpath_list_restore(mainvar, path_list_flag, path_list_backup);
BKE_bpath_list_free(path_list_backup);
}
if (err) {
BKE_report(reports, RPT_ERROR, strerror(errno));
remove(tempname);
return false;
}
/* file save to temporary file was successful */
/* now do reverse file history (move .blend1 -> .blend2, .blend -> .blend1) */
if (use_save_versions) {
const bool err_hist = do_history(filepath, reports);
if (err_hist) {
BKE_report(reports, RPT_ERROR, "Version backup failed (file saved with @)");
return false;
}
}
if (BLI_rename(tempname, filepath) != 0) {
BKE_report(reports, RPT_ERROR, "Cannot change old file (file saved with @)");
return false;
}
if (G.debug & G_DEBUG_IO && mainvar->lock != nullptr) {
BKE_report(reports, RPT_INFO, "Checking sanity of current .blend file *AFTER* save to disk");
BLO_main_validate_libraries(mainvar, reports);
}
return true;
}
bool BLO_write_file_mem(Main *mainvar, MemFile *compare, MemFile *current, int write_flags)
{
bool use_userdef = false;
const bool err = write_file_handle(
mainvar, nullptr, compare, current, write_flags, use_userdef, nullptr);
return (err == 0);
}
void BLO_write_raw(BlendWriter *writer, size_t size_in_bytes, const void *data_ptr)
{
writedata(writer->wd, DATA, size_in_bytes, data_ptr);
}
void BLO_write_struct_by_name(BlendWriter *writer, const char *struct_name, const void *data_ptr)
{
BLO_write_struct_array_by_name(writer, struct_name, 1, data_ptr);
}
void BLO_write_struct_array_by_name(BlendWriter *writer,
const char *struct_name,
int array_size,
const void *data_ptr)
{
int struct_id = BLO_get_struct_id_by_name(writer, struct_name);
if (UNLIKELY(struct_id == -1)) {
CLOG_ERROR(&LOG, "Can't find SDNA code <%s>", struct_name);
return;
}
BLO_write_struct_array_by_id(writer, struct_id, array_size, data_ptr);
}
void BLO_write_struct_by_id(BlendWriter *writer, int struct_id, const void *data_ptr)
{
writestruct_nr(writer->wd, DATA, struct_id, 1, data_ptr);
}
void BLO_write_struct_at_address_by_id(BlendWriter *writer,
int struct_id,
const void *address,
const void *data_ptr)
{
BLO_write_struct_at_address_by_id_with_filecode(writer, DATA, struct_id, address, data_ptr);
}
void BLO_write_struct_at_address_by_id_with_filecode(
BlendWriter *writer, int filecode, int struct_id, const void *address, const void *data_ptr)
{
writestruct_at_address_nr(writer->wd, filecode, struct_id, 1, address, data_ptr);
}
void BLO_write_struct_array_by_id(BlendWriter *writer,
int struct_id,
int array_size,
const void *data_ptr)
{
writestruct_nr(writer->wd, DATA, struct_id, array_size, data_ptr);
}
void BLO_write_struct_array_at_address_by_id(
BlendWriter *writer, int struct_id, int array_size, const void *address, const void *data_ptr)
{
writestruct_at_address_nr(writer->wd, DATA, struct_id, array_size, address, data_ptr);
}
void BLO_write_struct_list_by_id(BlendWriter *writer, int struct_id, ListBase *list)
{
writelist_nr(writer->wd, DATA, struct_id, list);
}
void BLO_write_struct_list_by_name(BlendWriter *writer, const char *struct_name, ListBase *list)
{
int struct_id = BLO_get_struct_id_by_name(writer, struct_name);
if (UNLIKELY(struct_id == -1)) {
CLOG_ERROR(&LOG, "Can't find SDNA code <%s>", struct_name);
return;
}
BLO_write_struct_list_by_id(writer, struct_id, list);
}
void blo_write_id_struct(BlendWriter *writer, int struct_id, const void *id_address, const ID *id)
{
writestruct_at_address_nr(writer->wd, GS(id->name), struct_id, 1, id_address, id);
}
int BLO_get_struct_id_by_name(BlendWriter *writer, const char *struct_name)
{
int struct_id = DNA_struct_find_nr(writer->wd->sdna, struct_name);
return struct_id;
}
void BLO_write_int32_array(BlendWriter *writer, uint num, const int32_t *data_ptr)
{
BLO_write_raw(writer, sizeof(int32_t) * (size_t)num, data_ptr);
}
void BLO_write_uint32_array(BlendWriter *writer, uint num, const uint32_t *data_ptr)
{
BLO_write_raw(writer, sizeof(uint32_t) * (size_t)num, data_ptr);
}
void BLO_write_float_array(BlendWriter *writer, uint num, const float *data_ptr)
{
BLO_write_raw(writer, sizeof(float) * (size_t)num, data_ptr);
}
void BLO_write_double_array(BlendWriter *writer, uint num, const double *data_ptr)
{
BLO_write_raw(writer, sizeof(double) * (size_t)num, data_ptr);
}
void BLO_write_pointer_array(BlendWriter *writer, uint num, const void *data_ptr)
{
BLO_write_raw(writer, sizeof(void *) * (size_t)num, data_ptr);
}
void BLO_write_float3_array(BlendWriter *writer, uint num, const float *data_ptr)
{
BLO_write_raw(writer, sizeof(float[3]) * (size_t)num, data_ptr);
}
void BLO_write_string(BlendWriter *writer, const char *data_ptr)
{
if (data_ptr != nullptr) {
BLO_write_raw(writer, strlen(data_ptr) + 1, data_ptr);
}
}
bool BLO_write_is_undo(BlendWriter *writer)
{
return writer->wd->use_memfile;
}
/** \} */