/* * ***** 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 * * ***** END GPL LICENSE BLOCK ***** * */ /** \file blender/blenloader/intern/readfile.c * \ingroup blenloader */ #include "zlib.h" #include #include // for printf fopen fwrite fclose sprintf FILE #include // for getenv atoi #include // for offsetof #include // for open #include // for strrchr strncmp strstr #include // for fabs #include /* for va_start/end */ #include /* for gmtime */ #include "BLI_utildefines.h" #ifndef WIN32 # include // for read close #else # include // for open close read # include "winsock2.h" # include "BLI_winstuff.h" #endif /* allow readfile to use deprecated functionality */ #define DNA_DEPRECATED_ALLOW #include "DNA_anim_types.h" #include "DNA_armature_types.h" #include "DNA_actuator_types.h" #include "DNA_brush_types.h" #include "DNA_camera_types.h" #include "DNA_cachefile_types.h" #include "DNA_cloth_types.h" #include "DNA_controller_types.h" #include "DNA_constraint_types.h" #include "DNA_dynamicpaint_types.h" #include "DNA_effect_types.h" #include "DNA_fileglobal_types.h" #include "DNA_genfile.h" #include "DNA_group_types.h" #include "DNA_gpencil_types.h" #include "DNA_ipo_types.h" #include "DNA_key_types.h" #include "DNA_lattice_types.h" #include "DNA_lamp_types.h" #include "DNA_linestyle_types.h" #include "DNA_meta_types.h" #include "DNA_material_types.h" #include "DNA_mesh_types.h" #include "DNA_meshdata_types.h" #include "DNA_nla_types.h" #include "DNA_node_types.h" #include "DNA_object_fluidsim.h" // NT #include "DNA_object_types.h" #include "DNA_packedFile_types.h" #include "DNA_particle_types.h" #include "DNA_property_types.h" #include "DNA_rigidbody_types.h" #include "DNA_text_types.h" #include "DNA_view3d_types.h" #include "DNA_screen_types.h" #include "DNA_sensor_types.h" #include "DNA_sdna_types.h" #include "DNA_scene_types.h" #include "DNA_sequence_types.h" #include "DNA_smoke_types.h" #include "DNA_speaker_types.h" #include "DNA_sound_types.h" #include "DNA_space_types.h" #include "DNA_vfont_types.h" #include "DNA_world_types.h" #include "DNA_movieclip_types.h" #include "DNA_mask_types.h" #include "MEM_guardedalloc.h" #include "BLI_endian_switch.h" #include "BLI_blenlib.h" #include "BLI_math.h" #include "BLI_threads.h" #include "BLI_mempool.h" #include "BLT_translation.h" #include "BKE_action.h" #include "BKE_armature.h" #include "BKE_brush.h" #include "BKE_cachefile.h" #include "BKE_cloth.h" #include "BKE_constraint.h" #include "BKE_context.h" #include "BKE_curve.h" #include "BKE_depsgraph.h" #include "BKE_effect.h" #include "BKE_fcurve.h" #include "BKE_global.h" // for G #include "BKE_group.h" #include "BKE_library.h" // for which_libbase #include "BKE_library_idmap.h" #include "BKE_library_query.h" #include "BKE_idcode.h" #include "BKE_idprop.h" #include "BKE_material.h" #include "BKE_main.h" // for Main #include "BKE_mesh.h" // for ME_ defines (patching) #include "BKE_modifier.h" #include "BKE_multires.h" #include "BKE_node.h" // for tree type defines #include "BKE_object.h" #include "BKE_paint.h" #include "BKE_particle.h" #include "BKE_pointcache.h" #include "BKE_report.h" #include "BKE_sca.h" // for init_actuator #include "BKE_scene.h" #include "BKE_screen.h" #include "BKE_sequencer.h" #include "BKE_outliner_treehash.h" #include "BKE_sound.h" #include "BKE_colortools.h" #include "NOD_common.h" #include "NOD_socket.h" #include "BLO_readfile.h" #include "BLO_undofile.h" #include "BLO_blend_defs.h" #include "RE_engine.h" #include "readfile.h" #include /** * READ * ==== * * - Existing Library (#Main) push or free * - allocate new #Main * - load file * - read #SDNA * - for each LibBlock * - read LibBlock * - if a Library * - make a new #Main * - attach ID's to it * - else * - read associated 'direct data' * - link direct data (internal and to LibBlock) * - read #FileGlobal * - read #USER data, only when indicated (file is ``~/X.XX/startup.blend``) * - free file * - per Library (per #Main) * - read file * - read #SDNA * - find LibBlocks and attach #ID's to #Main * - if external LibBlock * - search all #Main's * - or it's already read, * - or not read yet * - or make new #Main * - per LibBlock * - read recursive * - read associated direct data * - link direct data (internal and to LibBlock) * - free file * - per Library with unread LibBlocks * - read file * - read #SDNA * - per LibBlock * - read recursive * - read associated direct data * - link direct data (internal and to LibBlock) * - free file * - join all #Main's * - link all LibBlocks and indirect pointers to libblocks * - initialize #FileGlobal and copy pointers to #Global * * \note Still a weak point is the new-address function, that doesnt solve reading from * multiple files at the same time. * (added remark: oh, i thought that was solved? will look at that... (ton). */ /* use GHash for BHead name-based lookups (speeds up linking) */ #define USE_GHASH_BHEAD /* Use GHash for restoring pointers by name */ #define USE_GHASH_RESTORE_POINTER /***/ typedef struct OldNew { const void *old; void *newp; int nr; } OldNew; typedef struct OldNewMap { OldNew *entries; int nentries, entriessize; bool sorted; int lasthit; } OldNewMap; /* local prototypes */ static void *read_struct(FileData *fd, BHead *bh, const char *blockname); static void direct_link_modifiers(FileData *fd, ListBase *lb); static void convert_tface_mt(FileData *fd, Main *main); static BHead *find_bhead_from_code_name(FileData *fd, const short idcode, const char *name); static BHead *find_bhead_from_idname(FileData *fd, const char *idname); /* this function ensures that reports are printed, * in the case of libraray linking errors this is important! * * bit kludge but better then doubling up on prints, * we could alternatively have a versions of a report function which forces printing - campbell */ void blo_reportf_wrap(ReportList *reports, ReportType type, const char *format, ...) { char fixed_buf[1024]; /* should be long enough */ va_list args; va_start(args, format); vsnprintf(fixed_buf, sizeof(fixed_buf), format, args); va_end(args); fixed_buf[sizeof(fixed_buf) - 1] = '\0'; BKE_report(reports, type, fixed_buf); if (G.background == 0) { printf("%s: %s\n", BKE_report_type_str(type), fixed_buf); } } /* for reporting linking messages */ static const char *library_parent_filepath(Library *lib) { return lib->parent ? lib->parent->filepath : ""; } static OldNewMap *oldnewmap_new(void) { OldNewMap *onm= MEM_callocN(sizeof(*onm), "OldNewMap"); onm->entriessize = 1024; onm->entries = MEM_mallocN(sizeof(*onm->entries)*onm->entriessize, "OldNewMap.entries"); return onm; } static int verg_oldnewmap(const void *v1, const void *v2) { const struct OldNew *x1=v1, *x2=v2; if (x1->old > x2->old) return 1; else if (x1->old < x2->old) return -1; return 0; } static void oldnewmap_sort(FileData *fd) { BLI_assert(fd->libmap->sorted == false); qsort(fd->libmap->entries, fd->libmap->nentries, sizeof(OldNew), verg_oldnewmap); fd->libmap->sorted = 1; } /* nr is zero for data, and ID code for libdata */ static void oldnewmap_insert(OldNewMap *onm, const void *oldaddr, void *newaddr, int nr) { OldNew *entry; if (oldaddr==NULL || newaddr==NULL) return; if (UNLIKELY(onm->nentries == onm->entriessize)) { onm->entriessize *= 2; onm->entries = MEM_reallocN(onm->entries, sizeof(*onm->entries) * onm->entriessize); } entry = &onm->entries[onm->nentries++]; entry->old = oldaddr; entry->newp = newaddr; entry->nr = nr; } void blo_do_versions_oldnewmap_insert(OldNewMap *onm, const void *oldaddr, void *newaddr, int nr) { oldnewmap_insert(onm, oldaddr, newaddr, nr); } /** * Do a full search (no state). * * \param lasthit: Use as a reference position to avoid a full search * from either end of the array, giving more efficient lookups. * * \note This would seem an ideal case for hash or btree lookups. * However the data is written in-order, using the \a lasthit will normally avoid calling this function. * Creating a btree/hash structure adds overhead for the common-case to optimize the corner-case * (since most entries will never be retrieved). * So just keep full lookups as a fall-back. */ static int oldnewmap_lookup_entry_full(const OldNewMap *onm, const void *addr, int lasthit) { const int nentries = onm->nentries; const OldNew *entries = onm->entries; int i; /* search relative to lasthit where possible */ if (lasthit >= 0 && lasthit < nentries) { /* search forwards */ i = lasthit; while (++i != nentries) { if (entries[i].old == addr) { return i; } } /* search backwards */ i = lasthit + 1; while (i--) { if (entries[i].old == addr) { return i; } } } else { /* search backwards (full) */ i = nentries; while (i--) { if (entries[i].old == addr) { return i; } } } return -1; } static void *oldnewmap_lookup_and_inc(OldNewMap *onm, const void *addr, bool increase_users) { int i; if (addr == NULL) return NULL; if (onm->lasthit < onm->nentries-1) { OldNew *entry = &onm->entries[++onm->lasthit]; if (entry->old == addr) { if (increase_users) entry->nr++; return entry->newp; } } i = oldnewmap_lookup_entry_full(onm, addr, onm->lasthit); if (i != -1) { OldNew *entry = &onm->entries[i]; BLI_assert(entry->old == addr); onm->lasthit = i; if (increase_users) entry->nr++; return entry->newp; } return NULL; } /* for libdata, nr has ID code, no increment */ static void *oldnewmap_liblookup(OldNewMap *onm, const void *addr, const void *lib) { if (addr == NULL) { return NULL; } /* lasthit works fine for non-libdata, linking there is done in same sequence as writing */ if (onm->sorted) { const OldNew entry_s = {.old = addr}; OldNew *entry = bsearch(&entry_s, onm->entries, onm->nentries, sizeof(OldNew), verg_oldnewmap); if (entry) { ID *id = entry->newp; if (id && (!lib || id->lib)) { return id; } } } else { /* note, this can be a bottle neck when loading some files */ const int i = oldnewmap_lookup_entry_full(onm, addr, -1); if (i != -1) { OldNew *entry = &onm->entries[i]; ID *id = entry->newp; BLI_assert(entry->old == addr); if (id && (!lib || id->lib)) { return id; } } } return NULL; } static void oldnewmap_free_unused(OldNewMap *onm) { int i; for (i = 0; i < onm->nentries; i++) { OldNew *entry = &onm->entries[i]; if (entry->nr == 0) { MEM_freeN(entry->newp); entry->newp = NULL; } } } static void oldnewmap_clear(OldNewMap *onm) { onm->nentries = 0; onm->lasthit = 0; } static void oldnewmap_free(OldNewMap *onm) { MEM_freeN(onm->entries); MEM_freeN(onm); } /***/ static void read_libraries(FileData *basefd, ListBase *mainlist); /* ************ help functions ***************** */ static void add_main_to_main(Main *mainvar, Main *from) { ListBase *lbarray[MAX_LIBARRAY], *fromarray[MAX_LIBARRAY]; int a; set_listbasepointers(mainvar, lbarray); a = set_listbasepointers(from, fromarray); while (a--) { BLI_movelisttolist(lbarray[a], fromarray[a]); } } void blo_join_main(ListBase *mainlist) { Main *tojoin, *mainl; mainl = mainlist->first; while ((tojoin = mainl->next)) { add_main_to_main(mainl, tojoin); BLI_remlink(mainlist, tojoin); BKE_main_free(tojoin); } } static void split_libdata(ListBase *lb_src, Main **lib_main_array, const unsigned int lib_main_array_len) { for (ID *id = lb_src->first, *idnext; id; id = idnext) { idnext = id->next; if (id->lib) { if (((unsigned int)id->lib->temp_index < lib_main_array_len) && /* this check should never fail, just incase 'id->lib' is a dangling pointer. */ (lib_main_array[id->lib->temp_index]->curlib == id->lib)) { Main *mainvar = lib_main_array[id->lib->temp_index]; ListBase *lb_dst = which_libbase(mainvar, GS(id->name)); BLI_remlink(lb_src, id); BLI_addtail(lb_dst, id); } else { printf("%s: invalid library for '%s'\n", __func__, id->name); BLI_assert(0); } } } } void blo_split_main(ListBase *mainlist, Main *main) { mainlist->first = mainlist->last = main; main->next = NULL; if (BLI_listbase_is_empty(&main->library)) return; /* (Library.temp_index -> Main), lookup table */ const unsigned int lib_main_array_len = BLI_listbase_count(&main->library); Main **lib_main_array = MEM_mallocN(lib_main_array_len * sizeof(*lib_main_array), __func__); int i = 0; for (Library *lib = main->library.first; lib; lib = lib->id.next, i++) { Main *libmain = BKE_main_new(); libmain->curlib = lib; libmain->versionfile = lib->versionfile; libmain->subversionfile = lib->subversionfile; BLI_addtail(mainlist, libmain); lib->temp_index = i; lib_main_array[i] = libmain; } ListBase *lbarray[MAX_LIBARRAY]; i = set_listbasepointers(main, lbarray); while (i--) { split_libdata(lbarray[i], lib_main_array, lib_main_array_len); } MEM_freeN(lib_main_array); } static void read_file_version(FileData *fd, Main *main) { BHead *bhead; for (bhead= blo_firstbhead(fd); bhead; bhead= blo_nextbhead(fd, bhead)) { if (bhead->code == GLOB) { FileGlobal *fg= read_struct(fd, bhead, "Global"); if (fg) { main->subversionfile= fg->subversion; main->minversionfile= fg->minversion; main->minsubversionfile= fg->minsubversion; MEM_freeN(fg); } else if (bhead->code == ENDB) break; } } if (main->curlib) { main->curlib->versionfile = main->versionfile; main->curlib->subversionfile = main->subversionfile; } } #ifdef USE_GHASH_BHEAD static void read_file_bhead_idname_map_create(FileData *fd) { BHead *bhead; /* dummy values */ bool is_link = false; int code_prev = ENDB; unsigned int reserve = 0; for (bhead = blo_firstbhead(fd); bhead; bhead = blo_nextbhead(fd, bhead)) { if (code_prev != bhead->code) { code_prev = bhead->code; is_link = BKE_idcode_is_valid(code_prev) ? BKE_idcode_is_linkable(code_prev) : false; } if (is_link) { reserve += 1; } } BLI_assert(fd->bhead_idname_hash == NULL); fd->bhead_idname_hash = BLI_ghash_str_new_ex(__func__, reserve); for (bhead = blo_firstbhead(fd); bhead; bhead = blo_nextbhead(fd, bhead)) { if (code_prev != bhead->code) { code_prev = bhead->code; is_link = BKE_idcode_is_valid(code_prev) ? BKE_idcode_is_linkable(code_prev) : false; } if (is_link) { BLI_ghash_insert(fd->bhead_idname_hash, (void *)bhead_id_name(fd, bhead), bhead); } } } #endif static Main *blo_find_main(FileData *fd, const char *filepath, const char *relabase) { ListBase *mainlist = fd->mainlist; Main *m; Library *lib; char name1[FILE_MAX]; BLI_strncpy(name1, filepath, sizeof(name1)); BLI_cleanup_path(relabase, name1); // printf("blo_find_main: relabase %s\n", relabase); // printf("blo_find_main: original in %s\n", filepath); // printf("blo_find_main: converted to %s\n", name1); for (m = mainlist->first; m; m = m->next) { const char *libname = (m->curlib) ? m->curlib->filepath : m->name; if (BLI_path_cmp(name1, libname) == 0) { if (G.debug & G_DEBUG) printf("blo_find_main: found library %s\n", libname); return m; } } m = BKE_main_new(); BLI_addtail(mainlist, m); /* Add library datablock itself to 'main' Main, since libraries are **never** linked data. * Fixes bug where you could end with all ID_LI datablocks having the same name... */ lib = BKE_libblock_alloc(mainlist->first, ID_LI, "Lib", 0); lib->id.us = ID_FAKE_USERS(lib); /* Important, consistency with main ID reading code from read_libblock(). */ BLI_strncpy(lib->name, filepath, sizeof(lib->name)); BLI_strncpy(lib->filepath, name1, sizeof(lib->filepath)); m->curlib = lib; read_file_version(fd, m); if (G.debug & G_DEBUG) printf("blo_find_main: added new lib %s\n", filepath); return m; } /* ************ FILE PARSING ****************** */ static void switch_endian_bh4(BHead4 *bhead) { /* the ID_.. codes */ if ((bhead->code & 0xFFFF)==0) bhead->code >>= 16; if (bhead->code != ENDB) { BLI_endian_switch_int32(&bhead->len); BLI_endian_switch_int32(&bhead->SDNAnr); BLI_endian_switch_int32(&bhead->nr); } } static void switch_endian_bh8(BHead8 *bhead) { /* the ID_.. codes */ if ((bhead->code & 0xFFFF)==0) bhead->code >>= 16; if (bhead->code != ENDB) { BLI_endian_switch_int32(&bhead->len); BLI_endian_switch_int32(&bhead->SDNAnr); BLI_endian_switch_int32(&bhead->nr); } } static void bh4_from_bh8(BHead *bhead, BHead8 *bhead8, int do_endian_swap) { BHead4 *bhead4 = (BHead4 *) bhead; int64_t old; bhead4->code = bhead8->code; bhead4->len = bhead8->len; if (bhead4->code != ENDB) { /* perform a endian swap on 64bit pointers, otherwise the pointer might map to zero * 0x0000000000000000000012345678 would become 0x12345678000000000000000000000000 */ if (do_endian_swap) { BLI_endian_switch_int64(&bhead8->old); } /* this patch is to avoid a long long being read from not-eight aligned positions * is necessary on any modern 64bit architecture) */ memcpy(&old, &bhead8->old, 8); bhead4->old = (int) (old >> 3); bhead4->SDNAnr = bhead8->SDNAnr; bhead4->nr = bhead8->nr; } } static void bh8_from_bh4(BHead *bhead, BHead4 *bhead4) { BHead8 *bhead8 = (BHead8 *) bhead; bhead8->code = bhead4->code; bhead8->len = bhead4->len; if (bhead8->code != ENDB) { bhead8->old = bhead4->old; bhead8->SDNAnr = bhead4->SDNAnr; bhead8->nr= bhead4->nr; } } static BHeadN *get_bhead(FileData *fd) { BHeadN *new_bhead = NULL; int readsize; if (fd) { if (!fd->eof) { /* initializing to zero isn't strictly needed but shuts valgrind up * since uninitialized memory gets compared */ BHead8 bhead8 = {0}; BHead4 bhead4 = {0}; BHead bhead = {0}; /* First read the bhead structure. * Depending on the platform the file was written on this can * be a big or little endian BHead4 or BHead8 structure. * * As usual 'ENDB' (the last *partial* bhead of the file) * needs some special handling. We don't want to EOF just yet. */ if (fd->flags & FD_FLAGS_FILE_POINTSIZE_IS_4) { bhead4.code = DATA; readsize = fd->read(fd, &bhead4, sizeof(bhead4)); if (readsize == sizeof(bhead4) || bhead4.code == ENDB) { if (fd->flags & FD_FLAGS_SWITCH_ENDIAN) { switch_endian_bh4(&bhead4); } if (fd->flags & FD_FLAGS_POINTSIZE_DIFFERS) { bh8_from_bh4(&bhead, &bhead4); } else { memcpy(&bhead, &bhead4, sizeof(bhead)); } } else { fd->eof = 1; bhead.len= 0; } } else { bhead8.code = DATA; readsize = fd->read(fd, &bhead8, sizeof(bhead8)); if (readsize == sizeof(bhead8) || bhead8.code == ENDB) { if (fd->flags & FD_FLAGS_SWITCH_ENDIAN) { switch_endian_bh8(&bhead8); } if (fd->flags & FD_FLAGS_POINTSIZE_DIFFERS) { bh4_from_bh8(&bhead, &bhead8, (fd->flags & FD_FLAGS_SWITCH_ENDIAN)); } else { memcpy(&bhead, &bhead8, sizeof(bhead)); } } else { fd->eof = 1; bhead.len= 0; } } /* make sure people are not trying to pass bad blend files */ if (bhead.len < 0) fd->eof = 1; /* bhead now contains the (converted) bhead structure. Now read * the associated data and put everything in a BHeadN (creative naming !) */ if (!fd->eof) { new_bhead = MEM_mallocN(sizeof(BHeadN) + bhead.len, "new_bhead"); if (new_bhead) { new_bhead->next = new_bhead->prev = NULL; new_bhead->bhead = bhead; readsize = fd->read(fd, new_bhead + 1, bhead.len); if (readsize != bhead.len) { fd->eof = 1; MEM_freeN(new_bhead); new_bhead = NULL; } } else { fd->eof = 1; } } } } /* We've read a new block. Now add it to the list * of blocks. */ if (new_bhead) { BLI_addtail(&fd->listbase, new_bhead); } return(new_bhead); } BHead *blo_firstbhead(FileData *fd) { BHeadN *new_bhead; BHead *bhead = NULL; /* Rewind the file * Read in a new block if necessary */ new_bhead = fd->listbase.first; if (new_bhead == NULL) { new_bhead = get_bhead(fd); } if (new_bhead) { bhead = &new_bhead->bhead; } return(bhead); } BHead *blo_prevbhead(FileData *UNUSED(fd), BHead *thisblock) { BHeadN *bheadn = (BHeadN *)POINTER_OFFSET(thisblock, -offsetof(BHeadN, bhead)); BHeadN *prev = bheadn->prev; return (prev) ? &prev->bhead : NULL; } BHead *blo_nextbhead(FileData *fd, BHead *thisblock) { BHeadN *new_bhead = NULL; BHead *bhead = NULL; if (thisblock) { /* bhead is actually a sub part of BHeadN * We calculate the BHeadN pointer from the BHead pointer below */ new_bhead = (BHeadN *)POINTER_OFFSET(thisblock, -offsetof(BHeadN, bhead)); /* get the next BHeadN. If it doesn't exist we read in the next one */ new_bhead = new_bhead->next; if (new_bhead == NULL) { new_bhead = get_bhead(fd); } } if (new_bhead) { /* here we do the reverse: * go from the BHeadN pointer to the BHead pointer */ bhead = &new_bhead->bhead; } return(bhead); } /* Warning! Caller's responsability to ensure given bhead **is** and ID one! */ const char *bhead_id_name(const FileData *fd, const BHead *bhead) { return (const char *)POINTER_OFFSET(bhead, sizeof(*bhead) + fd->id_name_offs); } static void decode_blender_header(FileData *fd) { char header[SIZEOFBLENDERHEADER], num[4]; int readsize; /* read in the header data */ readsize = fd->read(fd, header, sizeof(header)); if (readsize == sizeof(header)) { if (STREQLEN(header, "BLENDER", 7)) { fd->flags |= FD_FLAGS_FILE_OK; /* what size are pointers in the file ? */ if (header[7]=='_') { fd->flags |= FD_FLAGS_FILE_POINTSIZE_IS_4; if (sizeof(void *) != 4) { fd->flags |= FD_FLAGS_POINTSIZE_DIFFERS; } } else { if (sizeof(void *) != 8) { fd->flags |= FD_FLAGS_POINTSIZE_DIFFERS; } } /* is the file saved in a different endian * than we need ? */ if (((header[8] == 'v') ? L_ENDIAN : B_ENDIAN) != ENDIAN_ORDER) { fd->flags |= FD_FLAGS_SWITCH_ENDIAN; } /* get the version number */ memcpy(num, header + 9, 3); num[3] = 0; fd->fileversion = atoi(num); } } } /** * \return Success if the file is read correctly, else set \a r_error_message. */ static bool read_file_dna(FileData *fd, const char **r_error_message) { BHead *bhead; for (bhead = blo_firstbhead(fd); bhead; bhead = blo_nextbhead(fd, bhead)) { if (bhead->code == DNA1) { const bool do_endian_swap = (fd->flags & FD_FLAGS_SWITCH_ENDIAN) != 0; fd->filesdna = DNA_sdna_from_data(&bhead[1], bhead->len, do_endian_swap, true, r_error_message); if (fd->filesdna) { fd->compflags = DNA_struct_get_compareflags(fd->filesdna, fd->memsdna); /* used to retrieve ID names from (bhead+1) */ fd->id_name_offs = DNA_elem_offset(fd->filesdna, "ID", "char", "name[]"); return true; } else { return false; } } else if (bhead->code == ENDB) break; } *r_error_message = "Missing DNA block"; return false; } static int *read_file_thumbnail(FileData *fd) { BHead *bhead; int *blend_thumb = NULL; for (bhead = blo_firstbhead(fd); bhead; bhead = blo_nextbhead(fd, bhead)) { if (bhead->code == TEST) { const bool do_endian_swap = (fd->flags & FD_FLAGS_SWITCH_ENDIAN) != 0; int *data = (int *)(bhead + 1); if (bhead->len < (2 * sizeof(int))) { break; } if (do_endian_swap) { BLI_endian_switch_int32(&data[0]); BLI_endian_switch_int32(&data[1]); } if (bhead->len < BLEN_THUMB_MEMSIZE_FILE(data[0], data[1])) { break; } blend_thumb = data; break; } else if (bhead->code != REND) { /* Thumbnail is stored in TEST immediately after first REND... */ break; } } return blend_thumb; } static int fd_read_from_file(FileData *filedata, void *buffer, unsigned int size) { int readsize = read(filedata->filedes, buffer, size); if (readsize < 0) { readsize = EOF; } else { filedata->seek += readsize; } return readsize; } static int fd_read_gzip_from_file(FileData *filedata, void *buffer, unsigned int size) { int readsize = gzread(filedata->gzfiledes, buffer, size); if (readsize < 0) { readsize = EOF; } else { filedata->seek += readsize; } return (readsize); } static int fd_read_from_memory(FileData *filedata, void *buffer, unsigned int size) { /* don't read more bytes then there are available in the buffer */ int readsize = (int)MIN2(size, (unsigned int)(filedata->buffersize - filedata->seek)); memcpy(buffer, filedata->buffer + filedata->seek, readsize); filedata->seek += readsize; return (readsize); } static int fd_read_from_memfile(FileData *filedata, void *buffer, unsigned int size) { static unsigned int seek = (1<<30); /* the current position */ static unsigned int offset = 0; /* size of previous chunks */ static MemFileChunk *chunk = NULL; unsigned int chunkoffset, readsize, totread; if (size == 0) return 0; if (seek != (unsigned int)filedata->seek) { chunk = filedata->memfile->chunks.first; seek = 0; while (chunk) { if (seek + chunk->size > (unsigned) filedata->seek) break; seek += chunk->size; chunk = chunk->next; } offset = seek; seek = filedata->seek; } if (chunk) { totread = 0; do { /* first check if it's on the end if current chunk */ if (seek-offset == chunk->size) { offset += chunk->size; chunk = chunk->next; } /* debug, should never happen */ if (chunk == NULL) { printf("illegal read, chunk zero\n"); return 0; } chunkoffset = seek-offset; readsize = size-totread; /* data can be spread over multiple chunks, so clamp size * to within this chunk, and then it will read further in * the next chunk */ if (chunkoffset+readsize > chunk->size) readsize= chunk->size-chunkoffset; memcpy(POINTER_OFFSET(buffer, totread), chunk->buf + chunkoffset, readsize); totread += readsize; filedata->seek += readsize; seek += readsize; } while (totread < size); return totread; } return 0; } static FileData *filedata_new(void) { FileData *fd = MEM_callocN(sizeof(FileData), "FileData"); fd->filedes = -1; fd->gzfiledes = NULL; fd->memsdna = DNA_sdna_current_get(); fd->datamap = oldnewmap_new(); fd->globmap = oldnewmap_new(); fd->libmap = oldnewmap_new(); return fd; } static FileData *blo_decode_and_check(FileData *fd, ReportList *reports) { decode_blender_header(fd); if (fd->flags & FD_FLAGS_FILE_OK) { const char *error_message = NULL; if (read_file_dna(fd, &error_message) == false) { BKE_reportf(reports, RPT_ERROR, "Failed to read blend file '%s': %s", fd->relabase, error_message); blo_freefiledata(fd); fd = NULL; } } else { BKE_reportf(reports, RPT_ERROR, "Failed to read blend file '%s', not a blend file", fd->relabase); blo_freefiledata(fd); fd = NULL; } return fd; } /* cannot be called with relative paths anymore! */ /* on each new library added, it now checks for the current FileData and expands relativeness */ FileData *blo_openblenderfile(const char *filepath, ReportList *reports) { gzFile gzfile; errno = 0; gzfile = BLI_gzopen(filepath, "rb"); if (gzfile == (gzFile)Z_NULL) { BKE_reportf(reports, RPT_WARNING, "Unable to open '%s': %s", filepath, errno ? strerror(errno) : TIP_("unknown error reading file")); return NULL; } else { FileData *fd = filedata_new(); fd->gzfiledes = gzfile; fd->read = fd_read_gzip_from_file; /* needed for library_append and read_libraries */ BLI_strncpy(fd->relabase, filepath, sizeof(fd->relabase)); return blo_decode_and_check(fd, reports); } } /** * Same as blo_openblenderfile(), but does not reads DNA data, only header. Use it for light access * (e.g. thumbnail reading). */ static FileData *blo_openblenderfile_minimal(const char *filepath) { gzFile gzfile; errno = 0; gzfile = BLI_gzopen(filepath, "rb"); if (gzfile != (gzFile)Z_NULL) { FileData *fd = filedata_new(); fd->gzfiledes = gzfile; fd->read = fd_read_gzip_from_file; decode_blender_header(fd); if (fd->flags & FD_FLAGS_FILE_OK) { return fd; } blo_freefiledata(fd); } return NULL; } static int fd_read_gzip_from_memory(FileData *filedata, void *buffer, unsigned int size) { int err; filedata->strm.next_out = (Bytef *) buffer; filedata->strm.avail_out = size; // Inflate another chunk. err = inflate (&filedata->strm, Z_SYNC_FLUSH); if (err == Z_STREAM_END) { return 0; } else if (err != Z_OK) { printf("fd_read_gzip_from_memory: zlib error\n"); return 0; } filedata->seek += size; return (size); } static int fd_read_gzip_from_memory_init(FileData *fd) { fd->strm.next_in = (Bytef *) fd->buffer; fd->strm.avail_in = fd->buffersize; fd->strm.total_out = 0; fd->strm.zalloc = Z_NULL; fd->strm.zfree = Z_NULL; if (inflateInit2(&fd->strm, (16+MAX_WBITS)) != Z_OK) return 0; fd->read = fd_read_gzip_from_memory; return 1; } FileData *blo_openblendermemory(const void *mem, int memsize, ReportList *reports) { if (!mem || memsizebuffer = mem; fd->buffersize = memsize; /* test if gzip */ if (cp[0] == 0x1f && cp[1] == 0x8b) { if (0 == fd_read_gzip_from_memory_init(fd)) { blo_freefiledata(fd); return NULL; } } else fd->read = fd_read_from_memory; fd->flags |= FD_FLAGS_NOT_MY_BUFFER; return blo_decode_and_check(fd, reports); } } FileData *blo_openblendermemfile(MemFile *memfile, ReportList *reports) { if (!memfile) { BKE_report(reports, RPT_WARNING, "Unable to open blend "); return NULL; } else { FileData *fd = filedata_new(); fd->memfile = memfile; fd->read = fd_read_from_memfile; fd->flags |= FD_FLAGS_NOT_MY_BUFFER; return blo_decode_and_check(fd, reports); } } void blo_freefiledata(FileData *fd) { if (fd) { if (fd->filedes != -1) { close(fd->filedes); } if (fd->gzfiledes != NULL) { gzclose(fd->gzfiledes); } if (fd->strm.next_in) { if (inflateEnd(&fd->strm) != Z_OK) { printf("close gzip stream error\n"); } } if (fd->buffer && !(fd->flags & FD_FLAGS_NOT_MY_BUFFER)) { MEM_freeN((void *)fd->buffer); fd->buffer = NULL; } // Free all BHeadN data blocks BLI_freelistN(&fd->listbase); if (fd->filesdna) DNA_sdna_free(fd->filesdna); if (fd->compflags) MEM_freeN((void *)fd->compflags); if (fd->datamap) oldnewmap_free(fd->datamap); if (fd->globmap) oldnewmap_free(fd->globmap); if (fd->imamap) oldnewmap_free(fd->imamap); if (fd->movieclipmap) oldnewmap_free(fd->movieclipmap); if (fd->soundmap) oldnewmap_free(fd->soundmap); if (fd->packedmap) oldnewmap_free(fd->packedmap); if (fd->libmap && !(fd->flags & FD_FLAGS_NOT_MY_LIBMAP)) oldnewmap_free(fd->libmap); if (fd->bheadmap) MEM_freeN(fd->bheadmap); #ifdef USE_GHASH_BHEAD if (fd->bhead_idname_hash) { BLI_ghash_free(fd->bhead_idname_hash, NULL, NULL); } #endif MEM_freeN(fd); } } /* ************ DIV ****************** */ /** * Check whether given path ends with a blend file compatible extension (.blend, .ble or .blend.gz). * * \param str The path to check. * \return true is this path ends with a blender file extension. */ bool BLO_has_bfile_extension(const char *str) { const char *ext_test[4] = {".blend", ".ble", ".blend.gz", NULL}; return BLI_testextensie_array(str, ext_test); } /** * Try to explode given path into its 'library components' (i.e. a .blend file, id type/group, and datablock itself). * * \param path the full path to explode. * \param r_dir the string that'll contain path up to blend file itself ('library' path). * WARNING! Must be FILE_MAX_LIBEXTRA long (it also stores group and name strings)! * \param r_group the string that'll contain 'group' part of the path, if any. May be NULL. * \param r_name the string that'll contain data's name part of the path, if any. May be NULL. * \return true if path contains a blend file. */ bool BLO_library_path_explode(const char *path, char *r_dir, char **r_group, char **r_name) { /* We might get some data names with slashes, so we have to go up in path until we find blend file itself, * then we now next path item is group, and everything else is data name. */ char *slash = NULL, *prev_slash = NULL, c = '\0'; r_dir[0] = '\0'; if (r_group) { *r_group = NULL; } if (r_name) { *r_name = NULL; } /* if path leads to an existing directory, we can be sure we're not (in) a library */ if (BLI_is_dir(path)) { return false; } strcpy(r_dir, path); while ((slash = (char *)BLI_last_slash(r_dir))) { char tc = *slash; *slash = '\0'; if (BLO_has_bfile_extension(r_dir) && BLI_is_file(r_dir)) { break; } if (prev_slash) { *prev_slash = c; } prev_slash = slash; c = tc; } if (!slash) { return false; } if (slash[1] != '\0') { BLI_assert(strlen(slash + 1) < BLO_GROUP_MAX); if (r_group) { *r_group = slash + 1; } } if (prev_slash && (prev_slash[1] != '\0')) { BLI_assert(strlen(prev_slash + 1) < MAX_ID_NAME - 2); if (r_name) { *r_name = prev_slash + 1; } } return true; } /** * Does a very light reading of given .blend file to extract its stored thumbnail. * * \param filepath The path of the file to extract thumbnail from. * \return The raw thumbnail * (MEM-allocated, as stored in file, use BKE_main_thumbnail_to_imbuf() to convert it to ImBuf image). */ BlendThumbnail *BLO_thumbnail_from_file(const char *filepath) { FileData *fd; BlendThumbnail *data; int *fd_data; fd = blo_openblenderfile_minimal(filepath); fd_data = fd ? read_file_thumbnail(fd) : NULL; if (fd_data) { const size_t sz = BLEN_THUMB_MEMSIZE(fd_data[0], fd_data[1]); data = MEM_mallocN(sz, __func__); BLI_assert((sz - sizeof(*data)) == (BLEN_THUMB_MEMSIZE_FILE(fd_data[0], fd_data[1]) - (sizeof(*fd_data) * 2))); data->width = fd_data[0]; data->height = fd_data[1]; memcpy(data->rect, &fd_data[2], sz - sizeof(*data)); } else { data = NULL; } blo_freefiledata(fd); return data; } /* ************** OLD POINTERS ******************* */ static void *newdataadr(FileData *fd, const void *adr) /* only direct databocks */ { return oldnewmap_lookup_and_inc(fd->datamap, adr, true); } /* This is a special version of newdataadr() which allows us to keep lasthit of * map unchanged. In certain cases this makes file loading time significantly * faster. * * Use this function in cases like restoring pointer from one list element to * another list element, but keep lasthit value so we can continue restoring * pointers efficiently. * * Example of this could be found in direct_link_fcurves() which restores the * fcurve group pointer and keeps lasthit optimal for linking all further * fcurves. */ static void *newdataadr_ex(FileData *fd, const void *adr, bool increase_lasthit) /* only direct databocks */ { if (increase_lasthit) { return newdataadr(fd, adr); } else { int lasthit = fd->datamap->lasthit; void *newadr = newdataadr(fd, adr); fd->datamap->lasthit = lasthit; return newadr; } } static void *newdataadr_no_us(FileData *fd, const void *adr) /* only direct databocks */ { return oldnewmap_lookup_and_inc(fd->datamap, adr, false); } static void *newglobadr(FileData *fd, const void *adr) /* direct datablocks with global linking */ { return oldnewmap_lookup_and_inc(fd->globmap, adr, true); } static void *newimaadr(FileData *fd, const void *adr) /* used to restore image data after undo */ { if (fd->imamap && adr) return oldnewmap_lookup_and_inc(fd->imamap, adr, true); return NULL; } static void *newmclipadr(FileData *fd, const void *adr) /* used to restore movie clip data after undo */ { if (fd->movieclipmap && adr) return oldnewmap_lookup_and_inc(fd->movieclipmap, adr, true); return NULL; } static void *newsoundadr(FileData *fd, const void *adr) /* used to restore sound data after undo */ { if (fd->soundmap && adr) return oldnewmap_lookup_and_inc(fd->soundmap, adr, true); return NULL; } static void *newpackedadr(FileData *fd, const void *adr) /* used to restore packed data after undo */ { if (fd->packedmap && adr) return oldnewmap_lookup_and_inc(fd->packedmap, adr, true); return oldnewmap_lookup_and_inc(fd->datamap, adr, true); } static void *newlibadr(FileData *fd, const void *lib, const void *adr) /* only lib data */ { return oldnewmap_liblookup(fd->libmap, adr, lib); } void *blo_do_versions_newlibadr(FileData *fd, const void *lib, const void *adr) /* only lib data */ { return newlibadr(fd, lib, adr); } static void *newlibadr_us(FileData *fd, const void *lib, const void *adr) /* increases user number */ { ID *id = newlibadr(fd, lib, adr); id_us_plus_no_lib(id); return id; } void *blo_do_versions_newlibadr_us(FileData *fd, const void *lib, const void *adr) /* increases user number */ { return newlibadr_us(fd, lib, adr); } static void *newlibadr_real_us(FileData *fd, const void *lib, const void *adr) /* ensures real user */ { ID *id = newlibadr(fd, lib, adr); id_us_ensure_real(id); return id; } static void change_idid_adr_fd(FileData *fd, const void *old, void *new) { int i; /* use a binary search if we have a sorted libmap, for now it's not needed. */ BLI_assert(fd->libmap->sorted == false); for (i = 0; i < fd->libmap->nentries; i++) { OldNew *entry = &fd->libmap->entries[i]; if (old==entry->newp && entry->nr==ID_ID) { entry->newp = new; if (new) entry->nr = GS( ((ID *)new)->name ); } } } static void change_idid_adr(ListBase *mainlist, FileData *basefd, void *old, void *new) { Main *mainptr; for (mainptr = mainlist->first; mainptr; mainptr = mainptr->next) { FileData *fd; if (mainptr->curlib) fd = mainptr->curlib->filedata; else fd = basefd; if (fd) { change_idid_adr_fd(fd, old, new); } } } /* lib linked proxy objects point to our local data, we need * to clear that pointer before reading the undo memfile since * the object might be removed, it is set again in reading * if the local object still exists */ void blo_clear_proxy_pointers_from_lib(Main *oldmain) { Object *ob = oldmain->object.first; for (; ob; ob= ob->id.next) { if (ob->id.lib) ob->proxy_from = NULL; } } void blo_make_image_pointer_map(FileData *fd, Main *oldmain) { Image *ima = oldmain->image.first; Scene *sce = oldmain->scene.first; int a; fd->imamap = oldnewmap_new(); for (; ima; ima = ima->id.next) { if (ima->cache) oldnewmap_insert(fd->imamap, ima->cache, ima->cache, 0); for (a = 0; a < TEXTARGET_COUNT; a++) if (ima->gputexture[a]) oldnewmap_insert(fd->imamap, ima->gputexture[a], ima->gputexture[a], 0); if (ima->rr) oldnewmap_insert(fd->imamap, ima->rr, ima->rr, 0); for (a=0; a < IMA_MAX_RENDER_SLOT; a++) if (ima->renders[a]) oldnewmap_insert(fd->imamap, ima->renders[a], ima->renders[a], 0); } for (; sce; sce = sce->id.next) { if (sce->nodetree && sce->nodetree->previews) { bNodeInstanceHashIterator iter; NODE_INSTANCE_HASH_ITER(iter, sce->nodetree->previews) { bNodePreview *preview = BKE_node_instance_hash_iterator_get_value(&iter); oldnewmap_insert(fd->imamap, preview, preview, 0); } } } } /* set old main image ibufs to zero if it has been restored */ /* this works because freeing old main only happens after this call */ void blo_end_image_pointer_map(FileData *fd, Main *oldmain) { OldNew *entry = fd->imamap->entries; Image *ima = oldmain->image.first; Scene *sce = oldmain->scene.first; int i; /* used entries were restored, so we put them to zero */ for (i = 0; i < fd->imamap->nentries; i++, entry++) { if (entry->nr > 0) entry->newp = NULL; } for (; ima; ima = ima->id.next) { ima->cache = newimaadr(fd, ima->cache); if (ima->cache == NULL) { ima->tpageflag &= ~IMA_GLBIND_IS_DATA; for (i = 0; i < TEXTARGET_COUNT; i++) { ima->bindcode[i] = 0; ima->gputexture[i] = NULL; } ima->rr = NULL; } for (i = 0; i < IMA_MAX_RENDER_SLOT; i++) ima->renders[i] = newimaadr(fd, ima->renders[i]); for (i = 0; i < TEXTARGET_COUNT; i++) ima->gputexture[i] = newimaadr(fd, ima->gputexture[i]); ima->rr = newimaadr(fd, ima->rr); } for (; sce; sce = sce->id.next) { if (sce->nodetree && sce->nodetree->previews) { bNodeInstanceHash *new_previews = BKE_node_instance_hash_new("node previews"); bNodeInstanceHashIterator iter; /* reconstruct the preview hash, only using remaining pointers */ NODE_INSTANCE_HASH_ITER(iter, sce->nodetree->previews) { bNodePreview *preview = BKE_node_instance_hash_iterator_get_value(&iter); if (preview) { bNodePreview *new_preview = newimaadr(fd, preview); if (new_preview) { bNodeInstanceKey key = BKE_node_instance_hash_iterator_get_key(&iter); BKE_node_instance_hash_insert(new_previews, key, new_preview); } } } BKE_node_instance_hash_free(sce->nodetree->previews, NULL); sce->nodetree->previews = new_previews; } } } void blo_make_movieclip_pointer_map(FileData *fd, Main *oldmain) { MovieClip *clip = oldmain->movieclip.first; Scene *sce = oldmain->scene.first; fd->movieclipmap = oldnewmap_new(); for (; clip; clip = clip->id.next) { if (clip->cache) oldnewmap_insert(fd->movieclipmap, clip->cache, clip->cache, 0); if (clip->tracking.camera.intrinsics) oldnewmap_insert(fd->movieclipmap, clip->tracking.camera.intrinsics, clip->tracking.camera.intrinsics, 0); } for (; sce; sce = sce->id.next) { if (sce->nodetree) { bNode *node; for (node = sce->nodetree->nodes.first; node; node = node->next) if (node->type == CMP_NODE_MOVIEDISTORTION) oldnewmap_insert(fd->movieclipmap, node->storage, node->storage, 0); } } } /* set old main movie clips caches to zero if it has been restored */ /* this works because freeing old main only happens after this call */ void blo_end_movieclip_pointer_map(FileData *fd, Main *oldmain) { OldNew *entry = fd->movieclipmap->entries; MovieClip *clip = oldmain->movieclip.first; Scene *sce = oldmain->scene.first; int i; /* used entries were restored, so we put them to zero */ for (i=0; i < fd->movieclipmap->nentries; i++, entry++) { if (entry->nr > 0) entry->newp = NULL; } for (; clip; clip = clip->id.next) { clip->cache = newmclipadr(fd, clip->cache); clip->tracking.camera.intrinsics = newmclipadr(fd, clip->tracking.camera.intrinsics); } for (; sce; sce = sce->id.next) { if (sce->nodetree) { bNode *node; for (node = sce->nodetree->nodes.first; node; node = node->next) if (node->type == CMP_NODE_MOVIEDISTORTION) node->storage = newmclipadr(fd, node->storage); } } } void blo_make_sound_pointer_map(FileData *fd, Main *oldmain) { bSound *sound = oldmain->sound.first; fd->soundmap = oldnewmap_new(); for (; sound; sound = sound->id.next) { if (sound->waveform) oldnewmap_insert(fd->soundmap, sound->waveform, sound->waveform, 0); } } /* set old main sound caches to zero if it has been restored */ /* this works because freeing old main only happens after this call */ void blo_end_sound_pointer_map(FileData *fd, Main *oldmain) { OldNew *entry = fd->soundmap->entries; bSound *sound = oldmain->sound.first; int i; /* used entries were restored, so we put them to zero */ for (i = 0; i < fd->soundmap->nentries; i++, entry++) { if (entry->nr > 0) entry->newp = NULL; } for (; sound; sound = sound->id.next) { sound->waveform = newsoundadr(fd, sound->waveform); } } /* XXX disabled this feature - packed files also belong in temp saves and quit.blend, to make restore work */ static void insert_packedmap(FileData *fd, PackedFile *pf) { oldnewmap_insert(fd->packedmap, pf, pf, 0); oldnewmap_insert(fd->packedmap, pf->data, pf->data, 0); } void blo_make_packed_pointer_map(FileData *fd, Main *oldmain) { Image *ima; VFont *vfont; bSound *sound; Library *lib; fd->packedmap = oldnewmap_new(); for (ima = oldmain->image.first; ima; ima = ima->id.next) { ImagePackedFile *imapf; if (ima->packedfile) insert_packedmap(fd, ima->packedfile); for (imapf = ima->packedfiles.first; imapf; imapf = imapf->next) if (imapf->packedfile) insert_packedmap(fd, imapf->packedfile); } for (vfont = oldmain->vfont.first; vfont; vfont = vfont->id.next) if (vfont->packedfile) insert_packedmap(fd, vfont->packedfile); for (sound = oldmain->sound.first; sound; sound = sound->id.next) if (sound->packedfile) insert_packedmap(fd, sound->packedfile); for (lib = oldmain->library.first; lib; lib = lib->id.next) if (lib->packedfile) insert_packedmap(fd, lib->packedfile); } /* set old main packed data to zero if it has been restored */ /* this works because freeing old main only happens after this call */ void blo_end_packed_pointer_map(FileData *fd, Main *oldmain) { Image *ima; VFont *vfont; bSound *sound; Library *lib; OldNew *entry = fd->packedmap->entries; int i; /* used entries were restored, so we put them to zero */ for (i=0; i < fd->packedmap->nentries; i++, entry++) { if (entry->nr > 0) entry->newp = NULL; } for (ima = oldmain->image.first; ima; ima = ima->id.next) { ImagePackedFile *imapf; ima->packedfile = newpackedadr(fd, ima->packedfile); for (imapf = ima->packedfiles.first; imapf; imapf = imapf->next) imapf->packedfile = newpackedadr(fd, imapf->packedfile); } for (vfont = oldmain->vfont.first; vfont; vfont = vfont->id.next) vfont->packedfile = newpackedadr(fd, vfont->packedfile); for (sound = oldmain->sound.first; sound; sound = sound->id.next) sound->packedfile = newpackedadr(fd, sound->packedfile); for (lib = oldmain->library.first; lib; lib = lib->id.next) lib->packedfile = newpackedadr(fd, lib->packedfile); } /* undo file support: add all library pointers in lookup */ void blo_add_library_pointer_map(ListBase *old_mainlist, FileData *fd) { Main *ptr = old_mainlist->first; ListBase *lbarray[MAX_LIBARRAY]; for (ptr = ptr->next; ptr; ptr = ptr->next) { int i = set_listbasepointers(ptr, lbarray); while (i--) { ID *id; for (id = lbarray[i]->first; id; id = id->next) oldnewmap_insert(fd->libmap, id, id, GS(id->name)); } } fd->old_mainlist = old_mainlist; } /* ********** END OLD POINTERS ****************** */ /* ********** READ FILE ****************** */ static void switch_endian_structs(const struct SDNA *filesdna, BHead *bhead) { int blocksize, nblocks; char *data; data = (char *)(bhead+1); blocksize = filesdna->typelens[ filesdna->structs[bhead->SDNAnr][0] ]; nblocks = bhead->nr; while (nblocks--) { DNA_struct_switch_endian(filesdna, bhead->SDNAnr, data); data += blocksize; } } static void *read_struct(FileData *fd, BHead *bh, const char *blockname) { void *temp = NULL; if (bh->len) { /* switch is based on file dna */ if (bh->SDNAnr && (fd->flags & FD_FLAGS_SWITCH_ENDIAN)) switch_endian_structs(fd->filesdna, bh); if (fd->compflags[bh->SDNAnr] != SDNA_CMP_REMOVED) { if (fd->compflags[bh->SDNAnr] == SDNA_CMP_NOT_EQUAL) { temp = DNA_struct_reconstruct(fd->memsdna, fd->filesdna, fd->compflags, bh->SDNAnr, bh->nr, (bh+1)); } else { /* SDNA_CMP_EQUAL */ temp = MEM_mallocN(bh->len, blockname); memcpy(temp, (bh+1), bh->len); } } } return temp; } typedef void (*link_list_cb)(FileData *fd, void *data); static void link_list_ex(FileData *fd, ListBase *lb, link_list_cb callback) /* only direct data */ { Link *ln, *prev; if (BLI_listbase_is_empty(lb)) return; lb->first = newdataadr(fd, lb->first); if (callback != NULL) { callback(fd, lb->first); } ln = lb->first; prev = NULL; while (ln) { ln->next = newdataadr(fd, ln->next); if (ln->next != NULL && callback != NULL) { callback(fd, ln->next); } ln->prev = prev; prev = ln; ln = ln->next; } lb->last = prev; } static void link_list(FileData *fd, ListBase *lb) /* only direct data */ { link_list_ex(fd, lb, NULL); } static void link_glob_list(FileData *fd, ListBase *lb) /* for glob data */ { Link *ln, *prev; void *poin; if (BLI_listbase_is_empty(lb)) return; poin = newdataadr(fd, lb->first); if (lb->first) { oldnewmap_insert(fd->globmap, lb->first, poin, 0); } lb->first = poin; ln = lb->first; prev = NULL; while (ln) { poin = newdataadr(fd, ln->next); if (ln->next) { oldnewmap_insert(fd->globmap, ln->next, poin, 0); } ln->next = poin; ln->prev = prev; prev = ln; ln = ln->next; } lb->last = prev; } static void test_pointer_array(FileData *fd, void **mat) { int64_t *lpoin, *lmat; int *ipoin, *imat; size_t len; /* manually convert the pointer array in * the old dna format to a pointer array in * the new dna format. */ if (*mat) { len = MEM_allocN_len(*mat)/fd->filesdna->pointerlen; if (fd->filesdna->pointerlen==8 && fd->memsdna->pointerlen==4) { ipoin=imat= MEM_mallocN(len * 4, "newmatar"); lpoin= *mat; while (len-- > 0) { if ((fd->flags & FD_FLAGS_SWITCH_ENDIAN)) BLI_endian_switch_int64(lpoin); *ipoin = (int)((*lpoin) >> 3); ipoin++; lpoin++; } MEM_freeN(*mat); *mat = imat; } if (fd->filesdna->pointerlen==4 && fd->memsdna->pointerlen==8) { lpoin = lmat = MEM_mallocN(len * 8, "newmatar"); ipoin = *mat; while (len-- > 0) { *lpoin = *ipoin; ipoin++; lpoin++; } MEM_freeN(*mat); *mat= lmat; } } } /* ************ READ ID Properties *************** */ static void IDP_DirectLinkProperty(IDProperty *prop, int switch_endian, FileData *fd); static void IDP_LibLinkProperty(IDProperty *prop, FileData *fd); static void IDP_DirectLinkIDPArray(IDProperty *prop, int switch_endian, FileData *fd) { IDProperty *array; int i; /* since we didn't save the extra buffer, set totallen to len */ prop->totallen = prop->len; prop->data.pointer = newdataadr(fd, prop->data.pointer); array = (IDProperty *)prop->data.pointer; /* note!, idp-arrays didn't exist in 2.4x, so the pointer will be cleared * theres not really anything we can do to correct this, at least don't crash */ if (array == NULL) { prop->len = 0; prop->totallen = 0; } for (i = 0; i < prop->len; i++) IDP_DirectLinkProperty(&array[i], switch_endian, fd); } static void IDP_DirectLinkArray(IDProperty *prop, int switch_endian, FileData *fd) { IDProperty **array; int i; /* since we didn't save the extra buffer, set totallen to len */ prop->totallen = prop->len; prop->data.pointer = newdataadr(fd, prop->data.pointer); if (prop->subtype == IDP_GROUP) { test_pointer_array(fd, prop->data.pointer); array = prop->data.pointer; for (i = 0; i < prop->len; i++) IDP_DirectLinkProperty(array[i], switch_endian, fd); } else if (prop->subtype == IDP_DOUBLE) { if (switch_endian) { BLI_endian_switch_double_array(prop->data.pointer, prop->len); } } else { if (switch_endian) { /* also used for floats */ BLI_endian_switch_int32_array(prop->data.pointer, prop->len); } } } static void IDP_DirectLinkString(IDProperty *prop, FileData *fd) { /*since we didn't save the extra string buffer, set totallen to len.*/ prop->totallen = prop->len; prop->data.pointer = newdataadr(fd, prop->data.pointer); } static void IDP_DirectLinkGroup(IDProperty *prop, int switch_endian, FileData *fd) { ListBase *lb = &prop->data.group; IDProperty *loop; link_list(fd, lb); /*Link child id properties now*/ for (loop=prop->data.group.first; loop; loop=loop->next) { IDP_DirectLinkProperty(loop, switch_endian, fd); } } static void IDP_DirectLinkProperty(IDProperty *prop, int switch_endian, FileData *fd) { switch (prop->type) { case IDP_GROUP: IDP_DirectLinkGroup(prop, switch_endian, fd); break; case IDP_STRING: IDP_DirectLinkString(prop, fd); break; case IDP_ARRAY: IDP_DirectLinkArray(prop, switch_endian, fd); break; case IDP_IDPARRAY: IDP_DirectLinkIDPArray(prop, switch_endian, fd); break; case IDP_DOUBLE: /* erg, stupid doubles. since I'm storing them * in the same field as int val; val2 in the * IDPropertyData struct, they have to deal with * endianness specifically * * in theory, val and val2 would've already been swapped * if switch_endian is true, so we have to first unswap * them then reswap them as a single 64-bit entity. */ if (switch_endian) { BLI_endian_switch_int32(&prop->data.val); BLI_endian_switch_int32(&prop->data.val2); BLI_endian_switch_int64((int64_t *)&prop->data.val); } break; case IDP_INT: case IDP_FLOAT: case IDP_ID: break; /* Nothing special to do here. */ default: /* Unknown IDP type, nuke it (we cannot handle unknown types everywhere in code, * IDP are way too polymorphic to do it safely. */ printf("%s: found unknown IDProperty type %d, reset to Integer one !\n", __func__, prop->type); /* Note: we do not attempt to free unknown prop, we have no way to know how to do that! */ prop->type = IDP_INT; prop->subtype = 0; IDP_Int(prop) = 0; } } #define IDP_DirectLinkGroup_OrFree(prop, switch_endian, fd) \ _IDP_DirectLinkGroup_OrFree(prop, switch_endian, fd, __func__) static void _IDP_DirectLinkGroup_OrFree(IDProperty **prop, int switch_endian, FileData *fd, const char *caller_func_id) { if (*prop) { if ((*prop)->type == IDP_GROUP) { IDP_DirectLinkGroup(*prop, switch_endian, fd); } else { /* corrupt file! */ printf("%s: found non group data, freeing type %d!\n", caller_func_id, (*prop)->type); /* don't risk id, data's likely corrupt. */ // IDP_FreeProperty(*prop); *prop = NULL; } } } static void IDP_LibLinkProperty(IDProperty *prop, FileData *fd) { if (!prop) return; switch (prop->type) { case IDP_ID: /* PointerProperty */ { void *newaddr = newlibadr_us(fd, NULL, IDP_Id(prop)); if (IDP_Id(prop) && !newaddr && G.debug) { printf("Error while loading \"%s\". Data not found in file!\n", prop->name); } prop->data.pointer = newaddr; break; } case IDP_IDPARRAY: /* CollectionProperty */ { IDProperty *idp_array = IDP_IDPArray(prop); for (int i = 0; i < prop->len; i++) { IDP_LibLinkProperty(&(idp_array[i]), fd); } break; } case IDP_GROUP: /* PointerProperty */ { for (IDProperty *loop = prop->data.group.first; loop; loop = loop->next) { IDP_LibLinkProperty(loop, fd); } break; } default: break; /* Nothing to do for other IDProps. */ } } /* ************ READ IMAGE PREVIEW *************** */ static PreviewImage *direct_link_preview_image(FileData *fd, PreviewImage *old_prv) { PreviewImage *prv = newdataadr(fd, old_prv); if (prv) { int i; for (i = 0; i < NUM_ICON_SIZES; ++i) { if (prv->rect[i]) { prv->rect[i] = newdataadr(fd, prv->rect[i]); } prv->gputexture[i] = NULL; } prv->icon_id = 0; prv->tag = 0; } return prv; } /* ************ READ ID *************** */ static void direct_link_id(FileData *fd, ID *id) { /*link direct data of ID properties*/ if (id->properties) { id->properties = newdataadr(fd, id->properties); /* this case means the data was written incorrectly, it should not happen */ IDP_DirectLinkGroup_OrFree(&id->properties, (fd->flags & FD_FLAGS_SWITCH_ENDIAN), fd); } } /* ************ READ CurveMapping *************** */ /* cuma itself has been read! */ static void direct_link_curvemapping(FileData *fd, CurveMapping *cumap) { int a; /* flag seems to be able to hang? Maybe old files... not bad to clear anyway */ cumap->flag &= ~CUMA_PREMULLED; for (a = 0; a < CM_TOT; a++) { cumap->cm[a].curve = newdataadr(fd, cumap->cm[a].curve); cumap->cm[a].table = NULL; cumap->cm[a].premultable = NULL; } } /* ************ READ Brush *************** */ /* library brush linking after fileread */ static void lib_link_brush(FileData *fd, Main *main) { /* only link ID pointers */ for (Brush *brush = main->brush.first; brush; brush = brush->id.next) { if (brush->id.tag & LIB_TAG_NEED_LINK) { IDP_LibLinkProperty(brush->id.properties, fd); /* brush->(mask_)mtex.obj is ignored on purpose? */ brush->mtex.tex = newlibadr_us(fd, brush->id.lib, brush->mtex.tex); brush->mask_mtex.tex = newlibadr_us(fd, brush->id.lib, brush->mask_mtex.tex); brush->clone.image = newlibadr(fd, brush->id.lib, brush->clone.image); brush->toggle_brush = newlibadr(fd, brush->id.lib, brush->toggle_brush); brush->paint_curve = newlibadr_us(fd, brush->id.lib, brush->paint_curve); brush->id.tag &= ~LIB_TAG_NEED_LINK; } } } static void direct_link_brush(FileData *fd, Brush *brush) { /* brush itself has been read */ /* fallof curve */ brush->curve = newdataadr(fd, brush->curve); brush->gradient = newdataadr(fd, brush->gradient); if (brush->curve) direct_link_curvemapping(fd, brush->curve); else BKE_brush_curve_preset(brush, CURVE_PRESET_SHARP); brush->preview = NULL; brush->icon_imbuf = NULL; } /* ************ READ Palette *************** */ static void lib_link_palette(FileData *fd, Main *main) { /* only link ID pointers */ for (Palette *palette = main->palettes.first; palette; palette = palette->id.next) { if (palette->id.tag & LIB_TAG_NEED_LINK) { IDP_LibLinkProperty(palette->id.properties, fd); palette->id.tag &= ~LIB_TAG_NEED_LINK; } } } static void direct_link_palette(FileData *fd, Palette *palette) { /* palette itself has been read */ link_list(fd, &palette->colors); } static void lib_link_paint_curve(FileData *fd, Main *main) { /* only link ID pointers */ for (PaintCurve *pc = main->paintcurves.first; pc; pc = pc->id.next) { if (pc->id.tag & LIB_TAG_NEED_LINK) { IDP_LibLinkProperty(pc->id.properties, fd); pc->id.tag &= ~LIB_TAG_NEED_LINK; } } } static void direct_link_paint_curve(FileData *fd, PaintCurve *pc) { pc->points = newdataadr(fd, pc->points); } /* ************ READ PACKEDFILE *************** */ static PackedFile *direct_link_packedfile(FileData *fd, PackedFile *oldpf) { PackedFile *pf = newpackedadr(fd, oldpf); if (pf) { pf->data = newpackedadr(fd, pf->data); } return pf; } /* ************ READ ANIMATION STUFF ***************** */ /* Legacy Data Support (for Version Patching) ----------------------------- */ // XXX deprecated - old animation system static void lib_link_ipo(FileData *fd, Main *main) { Ipo *ipo; for (ipo = main->ipo.first; ipo; ipo = ipo->id.next) { if (ipo->id.tag & LIB_TAG_NEED_LINK) { IpoCurve *icu; for (icu = ipo->curve.first; icu; icu = icu->next) { if (icu->driver) icu->driver->ob = newlibadr(fd, ipo->id.lib, icu->driver->ob); } ipo->id.tag &= ~LIB_TAG_NEED_LINK; } } } // XXX deprecated - old animation system static void direct_link_ipo(FileData *fd, Ipo *ipo) { IpoCurve *icu; link_list(fd, &(ipo->curve)); for (icu = ipo->curve.first; icu; icu = icu->next) { icu->bezt = newdataadr(fd, icu->bezt); icu->bp = newdataadr(fd, icu->bp); icu->driver = newdataadr(fd, icu->driver); } } // XXX deprecated - old animation system static void lib_link_nlastrips(FileData *fd, ID *id, ListBase *striplist) { bActionStrip *strip; bActionModifier *amod; for (strip=striplist->first; strip; strip=strip->next) { strip->object = newlibadr(fd, id->lib, strip->object); strip->act = newlibadr_us(fd, id->lib, strip->act); strip->ipo = newlibadr(fd, id->lib, strip->ipo); for (amod = strip->modifiers.first; amod; amod = amod->next) amod->ob = newlibadr(fd, id->lib, amod->ob); } } // XXX deprecated - old animation system static void direct_link_nlastrips(FileData *fd, ListBase *strips) { bActionStrip *strip; link_list(fd, strips); for (strip = strips->first; strip; strip = strip->next) link_list(fd, &strip->modifiers); } // XXX deprecated - old animation system static void lib_link_constraint_channels(FileData *fd, ID *id, ListBase *chanbase) { bConstraintChannel *chan; for (chan=chanbase->first; chan; chan=chan->next) { chan->ipo = newlibadr_us(fd, id->lib, chan->ipo); } } /* Data Linking ----------------------------- */ static void lib_link_fmodifiers(FileData *fd, ID *id, ListBase *list) { FModifier *fcm; for (fcm = list->first; fcm; fcm = fcm->next) { /* data for specific modifiers */ switch (fcm->type) { case FMODIFIER_TYPE_PYTHON: { FMod_Python *data = (FMod_Python *)fcm->data; data->script = newlibadr(fd, id->lib, data->script); break; } } } } static void lib_link_fcurves(FileData *fd, ID *id, ListBase *list) { FCurve *fcu; if (list == NULL) return; /* relink ID-block references... */ for (fcu = list->first; fcu; fcu = fcu->next) { /* driver data */ if (fcu->driver) { ChannelDriver *driver = fcu->driver; DriverVar *dvar; for (dvar= driver->variables.first; dvar; dvar= dvar->next) { DRIVER_TARGETS_LOOPER(dvar) { /* only relink if still used */ if (tarIndex < dvar->num_targets) dtar->id = newlibadr(fd, id->lib, dtar->id); else dtar->id = NULL; } DRIVER_TARGETS_LOOPER_END } } /* modifiers */ lib_link_fmodifiers(fd, id, &fcu->modifiers); } } /* NOTE: this assumes that link_list has already been called on the list */ static void direct_link_fmodifiers(FileData *fd, ListBase *list) { FModifier *fcm; for (fcm = list->first; fcm; fcm = fcm->next) { /* relink general data */ fcm->data = newdataadr(fd, fcm->data); /* do relinking of data for specific types */ switch (fcm->type) { case FMODIFIER_TYPE_GENERATOR: { FMod_Generator *data = (FMod_Generator *)fcm->data; data->coefficients = newdataadr(fd, data->coefficients); if (fd->flags & FD_FLAGS_SWITCH_ENDIAN) { BLI_endian_switch_float_array(data->coefficients, data->arraysize); } break; } case FMODIFIER_TYPE_ENVELOPE: { FMod_Envelope *data= (FMod_Envelope *)fcm->data; data->data= newdataadr(fd, data->data); break; } case FMODIFIER_TYPE_PYTHON: { FMod_Python *data = (FMod_Python *)fcm->data; data->prop = newdataadr(fd, data->prop); IDP_DirectLinkGroup_OrFree(&data->prop, (fd->flags & FD_FLAGS_SWITCH_ENDIAN), fd); break; } } } } /* NOTE: this assumes that link_list has already been called on the list */ static void direct_link_fcurves(FileData *fd, ListBase *list) { FCurve *fcu; /* link F-Curve data to F-Curve again (non ID-libs) */ for (fcu = list->first; fcu; fcu = fcu->next) { /* curve data */ fcu->bezt = newdataadr(fd, fcu->bezt); fcu->fpt = newdataadr(fd, fcu->fpt); /* rna path */ fcu->rna_path = newdataadr(fd, fcu->rna_path); /* group */ fcu->grp = newdataadr_ex(fd, fcu->grp, false); /* clear disabled flag - allows disabled drivers to be tried again ([#32155]), * but also means that another method for "reviving disabled F-Curves" exists */ fcu->flag &= ~FCURVE_DISABLED; /* driver */ fcu->driver= newdataadr(fd, fcu->driver); if (fcu->driver) { ChannelDriver *driver= fcu->driver; DriverVar *dvar; /* compiled expression data will need to be regenerated (old pointer may still be set here) */ driver->expr_comp = NULL; /* give the driver a fresh chance - the operating environment may be different now * (addons, etc. may be different) so the driver namespace may be sane now [#32155] */ driver->flag &= ~DRIVER_FLAG_INVALID; /* relink variables, targets and their paths */ link_list(fd, &driver->variables); for (dvar= driver->variables.first; dvar; dvar= dvar->next) { DRIVER_TARGETS_LOOPER(dvar) { /* only relink the targets being used */ if (tarIndex < dvar->num_targets) dtar->rna_path = newdataadr(fd, dtar->rna_path); else dtar->rna_path = NULL; } DRIVER_TARGETS_LOOPER_END } } /* modifiers */ link_list(fd, &fcu->modifiers); direct_link_fmodifiers(fd, &fcu->modifiers); } } static void lib_link_action(FileData *fd, Main *main) { for (bAction *act = main->action.first; act; act = act->id.next) { if (act->id.tag & LIB_TAG_NEED_LINK) { IDP_LibLinkProperty(act->id.properties, fd); // XXX deprecated - old animation system <<< for (bActionChannel *chan = act->chanbase.first; chan; chan = chan->next) { chan->ipo = newlibadr_us(fd, act->id.lib, chan->ipo); lib_link_constraint_channels(fd, &act->id, &chan->constraintChannels); } // >>> XXX deprecated - old animation system lib_link_fcurves(fd, &act->id, &act->curves); for (TimeMarker *marker = act->markers.first; marker; marker = marker->next) { if (marker->camera) { marker->camera = newlibadr(fd, act->id.lib, marker->camera); } } act->id.tag &= ~LIB_TAG_NEED_LINK; } } } static void direct_link_action(FileData *fd, bAction *act) { bActionChannel *achan; // XXX deprecated - old animation system bActionGroup *agrp; link_list(fd, &act->curves); link_list(fd, &act->chanbase); // XXX deprecated - old animation system link_list(fd, &act->groups); link_list(fd, &act->markers); // XXX deprecated - old animation system <<< for (achan = act->chanbase.first; achan; achan=achan->next) { achan->grp = newdataadr(fd, achan->grp); link_list(fd, &achan->constraintChannels); } // >>> XXX deprecated - old animation system direct_link_fcurves(fd, &act->curves); for (agrp = act->groups.first; agrp; agrp= agrp->next) { agrp->channels.first= newdataadr(fd, agrp->channels.first); agrp->channels.last= newdataadr(fd, agrp->channels.last); } } static void lib_link_nladata_strips(FileData *fd, ID *id, ListBase *list) { NlaStrip *strip; for (strip = list->first; strip; strip = strip->next) { /* check strip's children */ lib_link_nladata_strips(fd, id, &strip->strips); /* check strip's F-Curves */ lib_link_fcurves(fd, id, &strip->fcurves); /* reassign the counted-reference to action */ strip->act = newlibadr_us(fd, id->lib, strip->act); /* fix action id-root (i.e. if it comes from a pre 2.57 .blend file) */ if ((strip->act) && (strip->act->idroot == 0)) strip->act->idroot = GS(id->name); } } static void lib_link_nladata(FileData *fd, ID *id, ListBase *list) { NlaTrack *nlt; /* we only care about the NLA strips inside the tracks */ for (nlt = list->first; nlt; nlt = nlt->next) { lib_link_nladata_strips(fd, id, &nlt->strips); } } /* This handles Animato NLA-Strips linking * NOTE: this assumes that link_list has already been called on the list */ static void direct_link_nladata_strips(FileData *fd, ListBase *list) { NlaStrip *strip; for (strip = list->first; strip; strip = strip->next) { /* strip's child strips */ link_list(fd, &strip->strips); direct_link_nladata_strips(fd, &strip->strips); /* strip's F-Curves */ link_list(fd, &strip->fcurves); direct_link_fcurves(fd, &strip->fcurves); /* strip's F-Modifiers */ link_list(fd, &strip->modifiers); direct_link_fmodifiers(fd, &strip->modifiers); } } /* NOTE: this assumes that link_list has already been called on the list */ static void direct_link_nladata(FileData *fd, ListBase *list) { NlaTrack *nlt; for (nlt = list->first; nlt; nlt = nlt->next) { /* relink list of strips */ link_list(fd, &nlt->strips); /* relink strip data */ direct_link_nladata_strips(fd, &nlt->strips); } } /* ------- */ static void lib_link_keyingsets(FileData *fd, ID *id, ListBase *list) { KeyingSet *ks; KS_Path *ksp; /* here, we're only interested in the ID pointer stored in some of the paths */ for (ks = list->first; ks; ks = ks->next) { for (ksp = ks->paths.first; ksp; ksp = ksp->next) { ksp->id= newlibadr(fd, id->lib, ksp->id); } } } /* NOTE: this assumes that link_list has already been called on the list */ static void direct_link_keyingsets(FileData *fd, ListBase *list) { KeyingSet *ks; KS_Path *ksp; /* link KeyingSet data to KeyingSet again (non ID-libs) */ for (ks = list->first; ks; ks = ks->next) { /* paths */ link_list(fd, &ks->paths); for (ksp = ks->paths.first; ksp; ksp = ksp->next) { /* rna path */ ksp->rna_path= newdataadr(fd, ksp->rna_path); } } } /* ------- */ static void lib_link_animdata(FileData *fd, ID *id, AnimData *adt) { if (adt == NULL) return; /* link action data */ adt->action= newlibadr_us(fd, id->lib, adt->action); adt->tmpact= newlibadr_us(fd, id->lib, adt->tmpact); /* fix action id-roots (i.e. if they come from a pre 2.57 .blend file) */ if ((adt->action) && (adt->action->idroot == 0)) adt->action->idroot = GS(id->name); if ((adt->tmpact) && (adt->tmpact->idroot == 0)) adt->tmpact->idroot = GS(id->name); /* link drivers */ lib_link_fcurves(fd, id, &adt->drivers); /* overrides don't have lib-link for now, so no need to do anything */ /* link NLA-data */ lib_link_nladata(fd, id, &adt->nla_tracks); } static void direct_link_animdata(FileData *fd, AnimData *adt) { /* NOTE: must have called newdataadr already before doing this... */ if (adt == NULL) return; /* link drivers */ link_list(fd, &adt->drivers); direct_link_fcurves(fd, &adt->drivers); /* link overrides */ // TODO... /* link NLA-data */ link_list(fd, &adt->nla_tracks); direct_link_nladata(fd, &adt->nla_tracks); /* relink active track/strip - even though strictly speaking this should only be used * if we're in 'tweaking mode', we need to be able to have this loaded back for * undo, but also since users may not exit tweakmode before saving (#24535) */ // TODO: it's not really nice that anyone should be able to save the file in this // state, but it's going to be too hard to enforce this single case... adt->act_track = newdataadr(fd, adt->act_track); adt->actstrip = newdataadr(fd, adt->actstrip); } /* ************ READ CACHEFILES *************** */ static void lib_link_cachefiles(FileData *fd, Main *bmain) { /* only link ID pointers */ for (CacheFile *cache_file = bmain->cachefiles.first; cache_file; cache_file = cache_file->id.next) { if (cache_file->id.tag & LIB_TAG_NEED_LINK) { IDP_LibLinkProperty(cache_file->id.properties, fd); lib_link_animdata(fd, &cache_file->id, cache_file->adt); cache_file->id.tag &= ~LIB_TAG_NEED_LINK; } } } static void direct_link_cachefile(FileData *fd, CacheFile *cache_file) { BLI_listbase_clear(&cache_file->object_paths); cache_file->handle = NULL; cache_file->handle_mutex = NULL; /* relink animdata */ cache_file->adt = newdataadr(fd, cache_file->adt); direct_link_animdata(fd, cache_file->adt); } /* ************ READ MOTION PATHS *************** */ /* direct data for cache */ static void direct_link_motionpath(FileData *fd, bMotionPath *mpath) { /* sanity check */ if (mpath == NULL) return; /* relink points cache */ mpath->points = newdataadr(fd, mpath->points); } /* ************ READ NODE TREE *************** */ /* Single node tree (also used for material/scene trees), ntree is not NULL */ static void lib_link_ntree(FileData *fd, ID *id, bNodeTree *ntree) { bNode *node; bNodeSocket *sock; IDP_LibLinkProperty(ntree->id.properties, fd); lib_link_animdata(fd, &ntree->id, ntree->adt); ntree->gpd = newlibadr_us(fd, id->lib, ntree->gpd); for (node = ntree->nodes.first; node; node = node->next) { /* Link ID Properties -- and copy this comment EXACTLY for easy finding * of library blocks that implement this.*/ IDP_LibLinkProperty(node->prop, fd); node->id = newlibadr_us(fd, id->lib, node->id); for (sock = node->inputs.first; sock; sock = sock->next) { IDP_LibLinkProperty(sock->prop, fd); } for (sock = node->outputs.first; sock; sock = sock->next) { IDP_LibLinkProperty(sock->prop, fd); } } for (sock = ntree->inputs.first; sock; sock = sock->next) { IDP_LibLinkProperty(sock->prop, fd); } for (sock = ntree->outputs.first; sock; sock = sock->next) { IDP_LibLinkProperty(sock->prop, fd); } } /* library ntree linking after fileread */ static void lib_link_nodetree(FileData *fd, Main *main) { /* only link ID pointers */ for (bNodeTree *ntree = main->nodetree.first; ntree; ntree = ntree->id.next) { if (ntree->id.tag & LIB_TAG_NEED_LINK) { lib_link_ntree(fd, &ntree->id, ntree); ntree->id.tag &= ~LIB_TAG_NEED_LINK; } } } /* updates group node socket identifier so that * external links to/from the group node are preserved. */ static void lib_node_do_versions_group_indices(bNode *gnode) { bNodeTree *ngroup = (bNodeTree*)gnode->id; bNodeSocket *sock; bNodeLink *link; for (sock=gnode->outputs.first; sock; sock = sock->next) { int old_index = sock->to_index; for (link = ngroup->links.first; link; link = link->next) { if (link->tonode == NULL && link->fromsock->own_index == old_index) { strcpy(sock->identifier, link->fromsock->identifier); /* deprecated */ sock->own_index = link->fromsock->own_index; sock->to_index = 0; sock->groupsock = NULL; } } } for (sock=gnode->inputs.first; sock; sock = sock->next) { int old_index = sock->to_index; for (link = ngroup->links.first; link; link = link->next) { if (link->fromnode == NULL && link->tosock->own_index == old_index) { strcpy(sock->identifier, link->tosock->identifier); /* deprecated */ sock->own_index = link->tosock->own_index; sock->to_index = 0; sock->groupsock = NULL; } } } } /* verify types for nodes and groups, all data has to be read */ /* open = 0: appending/linking, open = 1: open new file (need to clean out dynamic * typedefs */ static void lib_verify_nodetree(Main *main, int UNUSED(open)) { /* this crashes blender on undo/redo */ #if 0 if (open == 1) { reinit_nodesystem(); } #endif /* set node->typeinfo pointers */ FOREACH_NODETREE(main, ntree, id) { ntreeSetTypes(NULL, ntree); } FOREACH_NODETREE_END /* verify static socket templates */ FOREACH_NODETREE(main, ntree, id) { bNode *node; for (node=ntree->nodes.first; node; node=node->next) node_verify_socket_templates(ntree, node); } FOREACH_NODETREE_END { bool has_old_groups = false; /* XXX this should actually be part of do_versions, but since we need * finished library linking, it is not possible there. Instead in do_versions * we have set the NTREE_DO_VERSIONS_GROUP_EXPOSE_2_56_2 flag, so at this point we can do the * actual group node updates. */ for (bNodeTree *ntree = main->nodetree.first; ntree; ntree = ntree->id.next) { if (ntree->flag & NTREE_DO_VERSIONS_GROUP_EXPOSE_2_56_2) { has_old_groups = 1; } } if (has_old_groups) { FOREACH_NODETREE(main, ntree, id) { /* updates external links for all group nodes in a tree */ bNode *node; for (node = ntree->nodes.first; node; node = node->next) { if (node->type == NODE_GROUP) { bNodeTree *ngroup = (bNodeTree*)node->id; if (ngroup && (ngroup->flag & NTREE_DO_VERSIONS_GROUP_EXPOSE_2_56_2)) lib_node_do_versions_group_indices(node); } } } FOREACH_NODETREE_END } for (bNodeTree *ntree = main->nodetree.first; ntree; ntree = ntree->id.next) { ntree->flag &= ~NTREE_DO_VERSIONS_GROUP_EXPOSE_2_56_2; } } { /* Convert the previously used ntree->inputs/ntree->outputs lists to interface nodes. * Pre 2.56.2 node trees automatically have all unlinked sockets exposed already * (see NTREE_DO_VERSIONS_GROUP_EXPOSE_2_56_2). * * XXX this should actually be part of do_versions, * but needs valid typeinfo pointers to create interface nodes. * * Note: theoretically only needed in node groups (main->nodetree), * but due to a temporary bug such links could have been added in all trees, * so have to clean up all of them ... */ FOREACH_NODETREE(main, ntree, id) { if (ntree->flag & NTREE_DO_VERSIONS_CUSTOMNODES_GROUP) { bNode *input_node = NULL, *output_node = NULL; int num_inputs = 0, num_outputs = 0; bNodeLink *link, *next_link; /* Only create new interface nodes for actual older files. * New file versions already have input/output nodes with duplicate links, * in that case just remove the invalid links. */ const bool create_io_nodes = (ntree->flag & NTREE_DO_VERSIONS_CUSTOMNODES_GROUP_CREATE_INTERFACE) != 0; float input_locx = 1000000.0f, input_locy = 0.0f; float output_locx = -1000000.0f, output_locy = 0.0f; /* rough guess, not nice but we don't have access to UI constants here ... */ static const float offsetx = 42 + 3*20 + 20; /*static const float offsety = 0.0f;*/ if (create_io_nodes) { if (ntree->inputs.first) input_node = nodeAddStaticNode(NULL, ntree, NODE_GROUP_INPUT); if (ntree->outputs.first) output_node = nodeAddStaticNode(NULL, ntree, NODE_GROUP_OUTPUT); } /* Redirect links from/to the node tree interface to input/output node. * If the fromnode/tonode pointers are NULL, this means a link from/to * the ntree interface sockets, which need to be redirected to new interface nodes. */ for (link = ntree->links.first; link; link = next_link) { bool free_link = false; next_link = link->next; if (link->fromnode == NULL) { if (input_node) { link->fromnode = input_node; link->fromsock = node_group_input_find_socket(input_node, link->fromsock->identifier); ++num_inputs; if (link->tonode) { if (input_locx > link->tonode->locx - offsetx) input_locx = link->tonode->locx - offsetx; input_locy += link->tonode->locy; } } else { free_link = true; } } if (link->tonode == NULL) { if (output_node) { link->tonode = output_node; link->tosock = node_group_output_find_socket(output_node, link->tosock->identifier); ++num_outputs; if (link->fromnode) { if (output_locx < link->fromnode->locx + offsetx) output_locx = link->fromnode->locx + offsetx; output_locy += link->fromnode->locy; } } else { free_link = true; } } if (free_link) nodeRemLink(ntree, link); } if (num_inputs > 0) { input_locy /= num_inputs; input_node->locx = input_locx; input_node->locy = input_locy; } if (num_outputs > 0) { output_locy /= num_outputs; output_node->locx = output_locx; output_node->locy = output_locy; } /* clear do_versions flags */ ntree->flag &= ~(NTREE_DO_VERSIONS_CUSTOMNODES_GROUP | NTREE_DO_VERSIONS_CUSTOMNODES_GROUP_CREATE_INTERFACE); } } FOREACH_NODETREE_END } /* verify all group user nodes */ for (bNodeTree *ntree = main->nodetree.first; ntree; ntree = ntree->id.next) { ntreeVerifyNodes(main, &ntree->id); } /* make update calls where necessary */ { FOREACH_NODETREE(main, ntree, id) { /* make an update call for the tree */ ntreeUpdateTree(main, ntree); } FOREACH_NODETREE_END } } static void direct_link_node_socket(FileData *fd, bNodeSocket *sock) { sock->prop = newdataadr(fd, sock->prop); IDP_DirectLinkGroup_OrFree(&sock->prop, (fd->flags & FD_FLAGS_SWITCH_ENDIAN), fd); sock->link = newdataadr(fd, sock->link); sock->typeinfo = NULL; sock->storage = newdataadr(fd, sock->storage); sock->default_value = newdataadr(fd, sock->default_value); sock->cache = NULL; } /* ntree itself has been read! */ static void direct_link_nodetree(FileData *fd, bNodeTree *ntree) { /* note: writing and reading goes in sync, for speed */ bNode *node; bNodeSocket *sock; bNodeLink *link; ntree->init = 0; /* to set callbacks and force setting types */ ntree->is_updating = false; ntree->typeinfo= NULL; ntree->interface_type = NULL; ntree->progress = NULL; ntree->execdata = NULL; ntree->duplilock = NULL; ntree->adt = newdataadr(fd, ntree->adt); direct_link_animdata(fd, ntree->adt); ntree->id.tag &= ~(LIB_TAG_ID_RECALC|LIB_TAG_ID_RECALC_DATA); link_list(fd, &ntree->nodes); for (node = ntree->nodes.first; node; node = node->next) { node->typeinfo = NULL; link_list(fd, &node->inputs); link_list(fd, &node->outputs); node->prop = newdataadr(fd, node->prop); IDP_DirectLinkGroup_OrFree(&node->prop, (fd->flags & FD_FLAGS_SWITCH_ENDIAN), fd); link_list(fd, &node->internal_links); for (link = node->internal_links.first; link; link = link->next) { link->fromnode = newdataadr(fd, link->fromnode); link->fromsock = newdataadr(fd, link->fromsock); link->tonode = newdataadr(fd, link->tonode); link->tosock = newdataadr(fd, link->tosock); } if (node->type == CMP_NODE_MOVIEDISTORTION) { node->storage = newmclipadr(fd, node->storage); } else { node->storage = newdataadr(fd, node->storage); } if (node->storage) { /* could be handlerized at some point */ if (ntree->type==NTREE_SHADER) { if (node->type==SH_NODE_CURVE_VEC || node->type==SH_NODE_CURVE_RGB) { direct_link_curvemapping(fd, node->storage); } else if (node->type==SH_NODE_SCRIPT) { NodeShaderScript *nss = (NodeShaderScript *) node->storage; nss->bytecode = newdataadr(fd, nss->bytecode); } else if (node->type==SH_NODE_TEX_POINTDENSITY) { NodeShaderTexPointDensity *npd = (NodeShaderTexPointDensity *) node->storage; memset(&npd->pd, 0, sizeof(npd->pd)); } } else if (ntree->type==NTREE_COMPOSIT) { if (ELEM(node->type, CMP_NODE_TIME, CMP_NODE_CURVE_VEC, CMP_NODE_CURVE_RGB, CMP_NODE_HUECORRECT)) direct_link_curvemapping(fd, node->storage); else if (ELEM(node->type, CMP_NODE_IMAGE, CMP_NODE_R_LAYERS, CMP_NODE_VIEWER, CMP_NODE_SPLITVIEWER)) ((ImageUser *)node->storage)->ok = 1; } else if ( ntree->type==NTREE_TEXTURE) { if (node->type==TEX_NODE_CURVE_RGB || node->type==TEX_NODE_CURVE_TIME) direct_link_curvemapping(fd, node->storage); else if (node->type==TEX_NODE_IMAGE) ((ImageUser *)node->storage)->ok = 1; } } } link_list(fd, &ntree->links); /* and we connect the rest */ for (node = ntree->nodes.first; node; node = node->next) { node->parent = newdataadr(fd, node->parent); node->lasty = 0; for (sock = node->inputs.first; sock; sock = sock->next) direct_link_node_socket(fd, sock); for (sock = node->outputs.first; sock; sock = sock->next) direct_link_node_socket(fd, sock); } /* interface socket lists */ link_list(fd, &ntree->inputs); link_list(fd, &ntree->outputs); for (sock = ntree->inputs.first; sock; sock = sock->next) direct_link_node_socket(fd, sock); for (sock = ntree->outputs.first; sock; sock = sock->next) direct_link_node_socket(fd, sock); for (link = ntree->links.first; link; link= link->next) { link->fromnode = newdataadr(fd, link->fromnode); link->tonode = newdataadr(fd, link->tonode); link->fromsock = newdataadr(fd, link->fromsock); link->tosock = newdataadr(fd, link->tosock); } #if 0 if (ntree->previews) { bNodeInstanceHash *new_previews = BKE_node_instance_hash_new("node previews"); bNodeInstanceHashIterator iter; NODE_INSTANCE_HASH_ITER(iter, ntree->previews) { bNodePreview *preview = BKE_node_instance_hash_iterator_get_value(&iter); if (preview) { bNodePreview *new_preview = newimaadr(fd, preview); if (new_preview) { bNodeInstanceKey key = BKE_node_instance_hash_iterator_get_key(&iter); BKE_node_instance_hash_insert(new_previews, key, new_preview); } } } BKE_node_instance_hash_free(ntree->previews, NULL); ntree->previews = new_previews; } #else /* XXX TODO */ ntree->previews = NULL; #endif /* type verification is in lib-link */ } /* ************ READ ARMATURE ***************** */ /* temp struct used to transport needed info to lib_link_constraint_cb() */ typedef struct tConstraintLinkData { FileData *fd; ID *id; } tConstraintLinkData; /* callback function used to relink constraint ID-links */ static void lib_link_constraint_cb(bConstraint *UNUSED(con), ID **idpoin, bool is_reference, void *userdata) { tConstraintLinkData *cld= (tConstraintLinkData *)userdata; /* for reference types, we need to increment the usercounts on load... */ if (is_reference) { /* reference type - with usercount */ *idpoin = newlibadr_us(cld->fd, cld->id->lib, *idpoin); } else { /* target type - no usercount needed */ *idpoin = newlibadr(cld->fd, cld->id->lib, *idpoin); } } static void lib_link_constraints(FileData *fd, ID *id, ListBase *conlist) { tConstraintLinkData cld; bConstraint *con; /* legacy fixes */ for (con = conlist->first; con; con=con->next) { /* patch for error introduced by changing constraints (dunno how) */ /* if con->data type changes, dna cannot resolve the pointer! (ton) */ if (con->data == NULL) { con->type = CONSTRAINT_TYPE_NULL; } /* own ipo, all constraints have it */ con->ipo = newlibadr_us(fd, id->lib, con->ipo); // XXX deprecated - old animation system } /* relink all ID-blocks used by the constraints */ cld.fd = fd; cld.id = id; BKE_constraints_id_loop(conlist, lib_link_constraint_cb, &cld); } static void direct_link_constraints(FileData *fd, ListBase *lb) { bConstraint *con; link_list(fd, lb); for (con=lb->first; con; con=con->next) { con->data = newdataadr(fd, con->data); switch (con->type) { case CONSTRAINT_TYPE_PYTHON: { bPythonConstraint *data= con->data; link_list(fd, &data->targets); data->prop = newdataadr(fd, data->prop); IDP_DirectLinkGroup_OrFree(&data->prop, (fd->flags & FD_FLAGS_SWITCH_ENDIAN), fd); break; } case CONSTRAINT_TYPE_SPLINEIK: { bSplineIKConstraint *data= con->data; data->points= newdataadr(fd, data->points); break; } case CONSTRAINT_TYPE_KINEMATIC: { bKinematicConstraint *data = con->data; con->lin_error = 0.f; con->rot_error = 0.f; /* version patch for runtime flag, was not cleared in some case */ data->flag &= ~CONSTRAINT_IK_AUTO; break; } case CONSTRAINT_TYPE_CHILDOF: { /* XXX version patch, in older code this flag wasn't always set, and is inherent to type */ if (con->ownspace == CONSTRAINT_SPACE_POSE) con->flag |= CONSTRAINT_SPACEONCE; break; } case CONSTRAINT_TYPE_TRANSFORM_CACHE: { bTransformCacheConstraint *data = con->data; data->reader = NULL; } } } } static void lib_link_pose(FileData *fd, Main *bmain, Object *ob, bPose *pose) { bArmature *arm = ob->data; if (!pose || !arm) return; /* always rebuild to match proxy or lib changes, but on Undo */ bool rebuild = false; if (fd->memfile == NULL) { if (ob->proxy || (ob->id.lib==NULL && arm->id.lib)) { rebuild = true; } } /* avoid string */ GHash *bone_hash = BKE_armature_bone_from_name_map(arm); if (ob->proxy) { /* sync proxy layer */ if (pose->proxy_layer) arm->layer = pose->proxy_layer; /* sync proxy active bone */ if (pose->proxy_act_bone[0]) { Bone *bone = BLI_ghash_lookup(bone_hash, pose->proxy_act_bone); if (bone) { arm->act_bone = bone; } } } for (bPoseChannel *pchan = pose->chanbase.first; pchan; pchan = pchan->next) { lib_link_constraints(fd, (ID *)ob, &pchan->constraints); pchan->bone = BLI_ghash_lookup(bone_hash, pchan->name); IDP_LibLinkProperty(pchan->prop, fd); pchan->custom = newlibadr_us(fd, arm->id.lib, pchan->custom); if (UNLIKELY(pchan->bone == NULL)) { rebuild = true; } else if ((ob->id.lib == NULL) && arm->id.lib) { /* local pose selection copied to armature, bit hackish */ pchan->bone->flag &= ~BONE_SELECTED; pchan->bone->flag |= pchan->selectflag; } } BLI_ghash_free(bone_hash, NULL, NULL); if (rebuild) { DAG_id_tag_update_ex(bmain, &ob->id, OB_RECALC_OB | OB_RECALC_DATA | OB_RECALC_TIME); BKE_pose_tag_recalc(bmain, pose); } } static void lib_link_bones(FileData *fd, Bone *bone) { IDP_LibLinkProperty(bone->prop, fd); for (Bone *curbone = bone->childbase.first; curbone; curbone = curbone->next) { lib_link_bones(fd, curbone); } } static void lib_link_armature(FileData *fd, Main *main) { for (bArmature *arm = main->armature.first; arm; arm = arm->id.next) { if (arm->id.tag & LIB_TAG_NEED_LINK) { IDP_LibLinkProperty(arm->id.properties, fd); lib_link_animdata(fd, &arm->id, arm->adt); for (Bone *curbone = arm->bonebase.first; curbone; curbone = curbone->next) { lib_link_bones(fd, curbone); } arm->id.tag &= ~LIB_TAG_NEED_LINK; } } } static void direct_link_bones(FileData *fd, Bone *bone) { Bone *child; bone->parent = newdataadr(fd, bone->parent); bone->prop = newdataadr(fd, bone->prop); IDP_DirectLinkGroup_OrFree(&bone->prop, (fd->flags & FD_FLAGS_SWITCH_ENDIAN), fd); bone->flag &= ~BONE_DRAW_ACTIVE; link_list(fd, &bone->childbase); for (child=bone->childbase.first; child; child=child->next) direct_link_bones(fd, child); } static void direct_link_armature(FileData *fd, bArmature *arm) { Bone *bone; link_list(fd, &arm->bonebase); arm->edbo = NULL; arm->sketch = NULL; arm->adt = newdataadr(fd, arm->adt); direct_link_animdata(fd, arm->adt); for (bone = arm->bonebase.first; bone; bone = bone->next) { direct_link_bones(fd, bone); } arm->act_bone = newdataadr(fd, arm->act_bone); arm->act_edbone = NULL; } /* ************ READ CAMERA ***************** */ static void lib_link_camera(FileData *fd, Main *main) { for (Camera *ca = main->camera.first; ca; ca = ca->id.next) { if (ca->id.tag & LIB_TAG_NEED_LINK) { IDP_LibLinkProperty(ca->id.properties, fd); lib_link_animdata(fd, &ca->id, ca->adt); ca->ipo = newlibadr_us(fd, ca->id.lib, ca->ipo); // XXX deprecated - old animation system ca->dof_ob = newlibadr(fd, ca->id.lib, ca->dof_ob); ca->id.tag &= ~LIB_TAG_NEED_LINK; } } } static void direct_link_camera(FileData *fd, Camera *ca) { ca->adt = newdataadr(fd, ca->adt); direct_link_animdata(fd, ca->adt); } /* ************ READ LAMP ***************** */ static void lib_link_lamp(FileData *fd, Main *main) { for (Lamp *la = main->lamp.first; la; la = la->id.next) { if (la->id.tag & LIB_TAG_NEED_LINK) { IDP_LibLinkProperty(la->id.properties, fd); lib_link_animdata(fd, &la->id, la->adt); for (int a = 0; a < MAX_MTEX; a++) { MTex *mtex = la->mtex[a]; if (mtex) { mtex->tex = newlibadr_us(fd, la->id.lib, mtex->tex); mtex->object = newlibadr(fd, la->id.lib, mtex->object); } } la->ipo = newlibadr_us(fd, la->id.lib, la->ipo); // XXX deprecated - old animation system if (la->nodetree) { lib_link_ntree(fd, &la->id, la->nodetree); la->nodetree->id.lib = la->id.lib; } la->id.tag &= ~LIB_TAG_NEED_LINK; } } } static void direct_link_lamp(FileData *fd, Lamp *la) { int a; la->adt = newdataadr(fd, la->adt); direct_link_animdata(fd, la->adt); for (a=0; amtex[a] = newdataadr(fd, la->mtex[a]); } la->curfalloff = newdataadr(fd, la->curfalloff); if (la->curfalloff) direct_link_curvemapping(fd, la->curfalloff); la->nodetree= newdataadr(fd, la->nodetree); if (la->nodetree) { direct_link_id(fd, &la->nodetree->id); direct_link_nodetree(fd, la->nodetree); } la->preview = direct_link_preview_image(fd, la->preview); } /* ************ READ keys ***************** */ void blo_do_versions_key_uidgen(Key *key) { KeyBlock *block; key->uidgen = 1; for (block = key->block.first; block; block = block->next) { block->uid = key->uidgen++; } } static void lib_link_key(FileData *fd, Main *main) { for (Key *key = main->key.first; key; key = key->id.next) { BLI_assert((key->id.tag & LIB_TAG_EXTERN) == 0); if (key->id.tag & LIB_TAG_NEED_LINK) { IDP_LibLinkProperty(key->id.properties, fd); lib_link_animdata(fd, &key->id, key->adt); key->ipo = newlibadr_us(fd, key->id.lib, key->ipo); // XXX deprecated - old animation system key->from = newlibadr(fd, key->id.lib, key->from); key->id.tag &= ~LIB_TAG_NEED_LINK; } } } static void switch_endian_keyblock(Key *key, KeyBlock *kb) { int elemsize, a, b; char *data; elemsize = key->elemsize; data = kb->data; for (a = 0; a < kb->totelem; a++) { const char *cp = key->elemstr; char *poin = data; while (cp[0]) { /* cp[0] == amount */ switch (cp[1]) { /* cp[1] = type */ case IPO_FLOAT: case IPO_BPOINT: case IPO_BEZTRIPLE: b = cp[0]; BLI_endian_switch_float_array((float *)poin, b); poin += sizeof(float) * b; break; } cp += 2; } data += elemsize; } } static void direct_link_key(FileData *fd, Key *key) { KeyBlock *kb; link_list(fd, &(key->block)); key->adt = newdataadr(fd, key->adt); direct_link_animdata(fd, key->adt); key->refkey= newdataadr(fd, key->refkey); for (kb = key->block.first; kb; kb = kb->next) { kb->data = newdataadr(fd, kb->data); if (fd->flags & FD_FLAGS_SWITCH_ENDIAN) switch_endian_keyblock(key, kb); } } /* ************ READ mball ***************** */ static void lib_link_mball(FileData *fd, Main *main) { for (MetaBall *mb = main->mball.first; mb; mb = mb->id.next) { if (mb->id.tag & LIB_TAG_NEED_LINK) { IDP_LibLinkProperty(mb->id.properties, fd); lib_link_animdata(fd, &mb->id, mb->adt); for (int a = 0; a < mb->totcol; a++) { mb->mat[a] = newlibadr_us(fd, mb->id.lib, mb->mat[a]); } mb->ipo = newlibadr_us(fd, mb->id.lib, mb->ipo); // XXX deprecated - old animation system mb->id.tag &= ~LIB_TAG_NEED_LINK; } } } static void direct_link_mball(FileData *fd, MetaBall *mb) { mb->adt = newdataadr(fd, mb->adt); direct_link_animdata(fd, mb->adt); mb->mat = newdataadr(fd, mb->mat); test_pointer_array(fd, (void **)&mb->mat); link_list(fd, &(mb->elems)); BLI_listbase_clear(&mb->disp); mb->editelems = NULL; /* mb->edit_elems.first= mb->edit_elems.last= NULL;*/ mb->lastelem = NULL; } /* ************ READ WORLD ***************** */ static void lib_link_world(FileData *fd, Main *main) { for (World *wrld = main->world.first; wrld; wrld = wrld->id.next) { if (wrld->id.tag & LIB_TAG_NEED_LINK) { IDP_LibLinkProperty(wrld->id.properties, fd); lib_link_animdata(fd, &wrld->id, wrld->adt); wrld->ipo = newlibadr_us(fd, wrld->id.lib, wrld->ipo); // XXX deprecated - old animation system for (int a = 0; a < MAX_MTEX; a++) { MTex *mtex = wrld->mtex[a]; if (mtex) { mtex->tex = newlibadr_us(fd, wrld->id.lib, mtex->tex); mtex->object = newlibadr(fd, wrld->id.lib, mtex->object); } } if (wrld->nodetree) { lib_link_ntree(fd, &wrld->id, wrld->nodetree); wrld->nodetree->id.lib = wrld->id.lib; } wrld->id.tag &= ~LIB_TAG_NEED_LINK; } } } static void direct_link_world(FileData *fd, World *wrld) { int a; wrld->adt = newdataadr(fd, wrld->adt); direct_link_animdata(fd, wrld->adt); for (a = 0; a < MAX_MTEX; a++) { wrld->mtex[a] = newdataadr(fd, wrld->mtex[a]); } wrld->nodetree = newdataadr(fd, wrld->nodetree); if (wrld->nodetree) { direct_link_id(fd, &wrld->nodetree->id); direct_link_nodetree(fd, wrld->nodetree); } wrld->preview = direct_link_preview_image(fd, wrld->preview); BLI_listbase_clear(&wrld->gpumaterial); } /* ************ READ VFONT ***************** */ static void lib_link_vfont(FileData *fd, Main *main) { for (VFont *vf = main->vfont.first; vf; vf = vf->id.next) { if (vf->id.tag & LIB_TAG_NEED_LINK) { IDP_LibLinkProperty(vf->id.properties, fd); vf->id.tag &= ~LIB_TAG_NEED_LINK; } } } static void direct_link_vfont(FileData *fd, VFont *vf) { vf->data = NULL; vf->temp_pf = NULL; vf->packedfile = direct_link_packedfile(fd, vf->packedfile); } /* ************ READ TEXT ****************** */ static void lib_link_text(FileData *fd, Main *main) { for (Text *text = main->text.first; text; text = text->id.next) { if (text->id.tag & LIB_TAG_NEED_LINK) { IDP_LibLinkProperty(text->id.properties, fd); text->id.tag &= ~LIB_TAG_NEED_LINK; } } } static void direct_link_text(FileData *fd, Text *text) { TextLine *ln; text->name = newdataadr(fd, text->name); text->undo_pos = -1; text->undo_len = TXT_INIT_UNDO; text->undo_buf = MEM_mallocN(text->undo_len, "undo buf"); text->compiled = NULL; #if 0 if (text->flags & TXT_ISEXT) { BKE_text_reload(text); } /* else { */ #endif link_list(fd, &text->lines); text->curl = newdataadr(fd, text->curl); text->sell = newdataadr(fd, text->sell); for (ln = text->lines.first; ln; ln = ln->next) { ln->line = newdataadr(fd, ln->line); ln->format = NULL; if (ln->len != (int) strlen(ln->line)) { printf("Error loading text, line lengths differ\n"); ln->len = strlen(ln->line); } } text->flags = (text->flags) & ~TXT_ISEXT; id_us_ensure_real(&text->id); } /* ************ READ IMAGE ***************** */ static void lib_link_image(FileData *fd, Main *main) { for (Image *ima = main->image.first; ima; ima = ima->id.next) { if (ima->id.tag & LIB_TAG_NEED_LINK) { IDP_LibLinkProperty(ima->id.properties, fd); ima->id.tag &= ~LIB_TAG_NEED_LINK; } } } static void direct_link_image(FileData *fd, Image *ima) { ImagePackedFile *imapf; /* for undo system, pointers could be restored */ if (fd->imamap) ima->cache = newimaadr(fd, ima->cache); else ima->cache = NULL; /* if not restored, we keep the binded opengl index */ if (!ima->cache) { ima->tpageflag &= ~IMA_GLBIND_IS_DATA; for (int i = 0; i < TEXTARGET_COUNT; i++) { ima->bindcode[i] = 0; ima->gputexture[i] = NULL; } ima->rr = NULL; } ima->repbind = NULL; /* undo system, try to restore render buffers */ if (fd->imamap) { int a; for (a = 0; a < IMA_MAX_RENDER_SLOT; a++) ima->renders[a] = newimaadr(fd, ima->renders[a]); } else { memset(ima->renders, 0, sizeof(ima->renders)); ima->last_render_slot = ima->render_slot; } link_list(fd, &(ima->views)); link_list(fd, &(ima->packedfiles)); if (ima->packedfiles.first) { for (imapf = ima->packedfiles.first; imapf; imapf = imapf->next) { imapf->packedfile = direct_link_packedfile(fd, imapf->packedfile); } ima->packedfile = NULL; } else { ima->packedfile = direct_link_packedfile(fd, ima->packedfile); } BLI_listbase_clear(&ima->anims); ima->preview = direct_link_preview_image(fd, ima->preview); ima->stereo3d_format = newdataadr(fd, ima->stereo3d_format); ima->ok = 1; } /* ************ READ CURVE ***************** */ static void lib_link_curve(FileData *fd, Main *main) { for (Curve *cu = main->curve.first; cu; cu = cu->id.next) { if (cu->id.tag & LIB_TAG_NEED_LINK) { IDP_LibLinkProperty(cu->id.properties, fd); lib_link_animdata(fd, &cu->id, cu->adt); for (int a = 0; a < cu->totcol; a++) { cu->mat[a] = newlibadr_us(fd, cu->id.lib, cu->mat[a]); } cu->bevobj = newlibadr(fd, cu->id.lib, cu->bevobj); cu->taperobj = newlibadr(fd, cu->id.lib, cu->taperobj); cu->textoncurve = newlibadr(fd, cu->id.lib, cu->textoncurve); cu->vfont = newlibadr_us(fd, cu->id.lib, cu->vfont); cu->vfontb = newlibadr_us(fd, cu->id.lib, cu->vfontb); cu->vfonti = newlibadr_us(fd, cu->id.lib, cu->vfonti); cu->vfontbi = newlibadr_us(fd, cu->id.lib, cu->vfontbi); cu->ipo = newlibadr_us(fd, cu->id.lib, cu->ipo); // XXX deprecated - old animation system cu->key = newlibadr_us(fd, cu->id.lib, cu->key); cu->id.tag &= ~LIB_TAG_NEED_LINK; } } } static void switch_endian_knots(Nurb *nu) { if (nu->knotsu) { BLI_endian_switch_float_array(nu->knotsu, KNOTSU(nu)); } if (nu->knotsv) { BLI_endian_switch_float_array(nu->knotsv, KNOTSV(nu)); } } static void direct_link_curve(FileData *fd, Curve *cu) { Nurb *nu; TextBox *tb; cu->adt= newdataadr(fd, cu->adt); direct_link_animdata(fd, cu->adt); cu->mat = newdataadr(fd, cu->mat); test_pointer_array(fd, (void **)&cu->mat); cu->str = newdataadr(fd, cu->str); cu->strinfo= newdataadr(fd, cu->strinfo); cu->tb = newdataadr(fd, cu->tb); if (cu->vfont == NULL) { link_list(fd, &(cu->nurb)); } else { cu->nurb.first=cu->nurb.last= NULL; tb = MEM_callocN(MAXTEXTBOX*sizeof(TextBox), "TextBoxread"); if (cu->tb) { memcpy(tb, cu->tb, cu->totbox*sizeof(TextBox)); MEM_freeN(cu->tb); cu->tb = tb; } else { cu->totbox = 1; cu->actbox = 1; cu->tb = tb; cu->tb[0].w = cu->linewidth; } if (cu->wordspace == 0.0f) cu->wordspace = 1.0f; } cu->editnurb = NULL; cu->editfont = NULL; for (nu = cu->nurb.first; nu; nu = nu->next) { nu->bezt = newdataadr(fd, nu->bezt); nu->bp = newdataadr(fd, nu->bp); nu->knotsu = newdataadr(fd, nu->knotsu); nu->knotsv = newdataadr(fd, nu->knotsv); if (cu->vfont == NULL) nu->charidx = 0; if (fd->flags & FD_FLAGS_SWITCH_ENDIAN) { switch_endian_knots(nu); } } cu->bb = NULL; } /* ************ READ TEX ***************** */ static void lib_link_texture(FileData *fd, Main *main) { for (Tex *tex = main->tex.first; tex; tex = tex->id.next) { if (tex->id.tag & LIB_TAG_NEED_LINK) { IDP_LibLinkProperty(tex->id.properties, fd); lib_link_animdata(fd, &tex->id, tex->adt); tex->ima = newlibadr_us(fd, tex->id.lib, tex->ima); tex->ipo = newlibadr_us(fd, tex->id.lib, tex->ipo); // XXX deprecated - old animation system if (tex->env) tex->env->object = newlibadr(fd, tex->id.lib, tex->env->object); if (tex->pd) tex->pd->object = newlibadr(fd, tex->id.lib, tex->pd->object); if (tex->vd) tex->vd->object = newlibadr(fd, tex->id.lib, tex->vd->object); if (tex->ot) tex->ot->object = newlibadr(fd, tex->id.lib, tex->ot->object); if (tex->nodetree) { lib_link_ntree(fd, &tex->id, tex->nodetree); tex->nodetree->id.lib = tex->id.lib; } tex->id.tag &= ~LIB_TAG_NEED_LINK; } } } static void direct_link_texture(FileData *fd, Tex *tex) { tex->adt = newdataadr(fd, tex->adt); direct_link_animdata(fd, tex->adt); tex->coba = newdataadr(fd, tex->coba); tex->env = newdataadr(fd, tex->env); if (tex->env) { tex->env->ima = NULL; memset(tex->env->cube, 0, 6 * sizeof(void *)); tex->env->ok= 0; } tex->pd = newdataadr(fd, tex->pd); if (tex->pd) { tex->pd->point_tree = NULL; tex->pd->coba = newdataadr(fd, tex->pd->coba); tex->pd->falloff_curve = newdataadr(fd, tex->pd->falloff_curve); if (tex->pd->falloff_curve) { direct_link_curvemapping(fd, tex->pd->falloff_curve); } tex->pd->point_data = NULL; /* runtime data */ } tex->vd = newdataadr(fd, tex->vd); if (tex->vd) { tex->vd->dataset = NULL; tex->vd->ok = 0; } else { if (tex->type == TEX_VOXELDATA) tex->vd = MEM_callocN(sizeof(VoxelData), "direct_link_texture VoxelData"); } tex->ot = newdataadr(fd, tex->ot); tex->nodetree = newdataadr(fd, tex->nodetree); if (tex->nodetree) { direct_link_id(fd, &tex->nodetree->id); direct_link_nodetree(fd, tex->nodetree); } tex->preview = direct_link_preview_image(fd, tex->preview); tex->iuser.ok = 1; } /* ************ READ MATERIAL ***************** */ static void lib_link_material(FileData *fd, Main *main) { for (Material *ma = main->mat.first; ma; ma = ma->id.next) { if (ma->id.tag & LIB_TAG_NEED_LINK) { IDP_LibLinkProperty(ma->id.properties, fd); lib_link_animdata(fd, &ma->id, ma->adt); /* Link ID Properties -- and copy this comment EXACTLY for easy finding * of library blocks that implement this.*/ IDP_LibLinkProperty(ma->id.properties, fd); ma->ipo = newlibadr_us(fd, ma->id.lib, ma->ipo); // XXX deprecated - old animation system ma->group = newlibadr_us(fd, ma->id.lib, ma->group); for (int a = 0; a < MAX_MTEX; a++) { MTex *mtex = ma->mtex[a]; if (mtex) { mtex->tex = newlibadr_us(fd, ma->id.lib, mtex->tex); mtex->object = newlibadr(fd, ma->id.lib, mtex->object); } } if (ma->nodetree) { lib_link_ntree(fd, &ma->id, ma->nodetree); ma->nodetree->id.lib = ma->id.lib; } ma->id.tag &= ~LIB_TAG_NEED_LINK; } } } static void direct_link_material(FileData *fd, Material *ma) { int a; ma->adt = newdataadr(fd, ma->adt); direct_link_animdata(fd, ma->adt); for (a = 0; a < MAX_MTEX; a++) { ma->mtex[a] = newdataadr(fd, ma->mtex[a]); } ma->texpaintslot = NULL; ma->ramp_col = newdataadr(fd, ma->ramp_col); ma->ramp_spec = newdataadr(fd, ma->ramp_spec); ma->nodetree = newdataadr(fd, ma->nodetree); if (ma->nodetree) { direct_link_id(fd, &ma->nodetree->id); direct_link_nodetree(fd, ma->nodetree); } ma->preview = direct_link_preview_image(fd, ma->preview); BLI_listbase_clear(&ma->gpumaterial); } /* ************ READ PARTICLE SETTINGS ***************** */ /* update this also to writefile.c */ static const char *ptcache_data_struct[] = { "", // BPHYS_DATA_INDEX "", // BPHYS_DATA_LOCATION "", // BPHYS_DATA_VELOCITY "", // BPHYS_DATA_ROTATION "", // BPHYS_DATA_AVELOCITY / BPHYS_DATA_XCONST */ "", // BPHYS_DATA_SIZE: "", // BPHYS_DATA_TIMES: "BoidData" // case BPHYS_DATA_BOIDS: }; static void direct_link_pointcache_cb(FileData *fd, void *data) { PTCacheMem *pm = data; PTCacheExtra *extra; int i; for (i = 0; i < BPHYS_TOT_DATA; i++) { pm->data[i] = newdataadr(fd, pm->data[i]); /* the cache saves non-struct data without DNA */ if (pm->data[i] && ptcache_data_struct[i][0]=='\0' && (fd->flags & FD_FLAGS_SWITCH_ENDIAN)) { int tot = (BKE_ptcache_data_size(i) * pm->totpoint) / sizeof(int); /* data_size returns bytes */ int *poin = pm->data[i]; BLI_endian_switch_int32_array(poin, tot); } } link_list(fd, &pm->extradata); for (extra=pm->extradata.first; extra; extra=extra->next) extra->data = newdataadr(fd, extra->data); } static void direct_link_pointcache(FileData *fd, PointCache *cache) { if ((cache->flag & PTCACHE_DISK_CACHE)==0) { link_list_ex(fd, &cache->mem_cache, direct_link_pointcache_cb); } else BLI_listbase_clear(&cache->mem_cache); cache->flag &= ~PTCACHE_SIMULATION_VALID; cache->simframe = 0; cache->edit = NULL; cache->free_edit = NULL; cache->cached_frames = NULL; } static void direct_link_pointcache_list(FileData *fd, ListBase *ptcaches, PointCache **ocache, int force_disk) { if (ptcaches->first) { PointCache *cache= NULL; link_list(fd, ptcaches); for (cache=ptcaches->first; cache; cache=cache->next) { direct_link_pointcache(fd, cache); if (force_disk) { cache->flag |= PTCACHE_DISK_CACHE; cache->step = 1; } } *ocache = newdataadr(fd, *ocache); } else if (*ocache) { /* old "single" caches need to be linked too */ *ocache = newdataadr(fd, *ocache); direct_link_pointcache(fd, *ocache); if (force_disk) { (*ocache)->flag |= PTCACHE_DISK_CACHE; (*ocache)->step = 1; } ptcaches->first = ptcaches->last = *ocache; } } static void lib_link_partdeflect(FileData *fd, ID *id, PartDeflect *pd) { if (pd && pd->tex) pd->tex = newlibadr_us(fd, id->lib, pd->tex); if (pd && pd->f_source) pd->f_source = newlibadr(fd, id->lib, pd->f_source); } static void lib_link_particlesettings(FileData *fd, Main *main) { for (ParticleSettings *part = main->particle.first; part; part = part->id.next) { if (part->id.tag & LIB_TAG_NEED_LINK) { IDP_LibLinkProperty(part->id.properties, fd); lib_link_animdata(fd, &part->id, part->adt); part->ipo = newlibadr_us(fd, part->id.lib, part->ipo); // XXX deprecated - old animation system part->dup_ob = newlibadr(fd, part->id.lib, part->dup_ob); part->dup_group = newlibadr(fd, part->id.lib, part->dup_group); part->eff_group = newlibadr(fd, part->id.lib, part->eff_group); part->bb_ob = newlibadr(fd, part->id.lib, part->bb_ob); part->collision_group = newlibadr(fd, part->id.lib, part->collision_group); lib_link_partdeflect(fd, &part->id, part->pd); lib_link_partdeflect(fd, &part->id, part->pd2); if (part->effector_weights) { part->effector_weights->group = newlibadr(fd, part->id.lib, part->effector_weights->group); } else { part->effector_weights = BKE_add_effector_weights(part->eff_group); } if (part->dupliweights.first && part->dup_group) { ParticleDupliWeight *dw; int index_ok = 0; /* check for old files without indices (all indexes 0) */ if (BLI_listbase_is_single(&part->dupliweights)) { /* special case for only one object in the group */ index_ok = 1; } else { for (dw = part->dupliweights.first; dw; dw = dw->next) { if (dw->index > 0) { index_ok = 1; break; } } } if (index_ok) { /* if we have indexes, let's use them */ for (dw = part->dupliweights.first; dw; dw = dw->next) { /* Do not try to restore pointer here, we have to search for group objects in another * separated step. * Reason is, the used group may be linked from another library, which has not yet * been 'lib_linked'. * Since dw->ob is not considered as an object user (it does not make objet directly linked), * we may have no valid way to retrieve it yet. * See T49273. */ dw->ob = NULL; } } else { /* otherwise try to get objects from own library (won't work on library linked groups) */ for (dw = part->dupliweights.first; dw; dw = dw->next) { dw->ob = newlibadr(fd, part->id.lib, dw->ob); } } } else { BLI_listbase_clear(&part->dupliweights); } if (part->boids) { BoidState *state = part->boids->states.first; BoidRule *rule; for (; state; state=state->next) { rule = state->rules.first; for (; rule; rule=rule->next) { switch (rule->type) { case eBoidRuleType_Goal: case eBoidRuleType_Avoid: { BoidRuleGoalAvoid *brga = (BoidRuleGoalAvoid*)rule; brga->ob = newlibadr(fd, part->id.lib, brga->ob); break; } case eBoidRuleType_FollowLeader: { BoidRuleFollowLeader *brfl = (BoidRuleFollowLeader*)rule; brfl->ob = newlibadr(fd, part->id.lib, brfl->ob); break; } } } } } for (int a = 0; a < MAX_MTEX; a++) { MTex *mtex= part->mtex[a]; if (mtex) { mtex->tex = newlibadr_us(fd, part->id.lib, mtex->tex); mtex->object = newlibadr(fd, part->id.lib, mtex->object); } } part->id.tag &= ~LIB_TAG_NEED_LINK; } } } static void direct_link_partdeflect(PartDeflect *pd) { if (pd) pd->rng = NULL; } static void direct_link_particlesettings(FileData *fd, ParticleSettings *part) { int a; part->adt = newdataadr(fd, part->adt); part->pd = newdataadr(fd, part->pd); part->pd2 = newdataadr(fd, part->pd2); direct_link_animdata(fd, part->adt); direct_link_partdeflect(part->pd); direct_link_partdeflect(part->pd2); part->clumpcurve = newdataadr(fd, part->clumpcurve); if (part->clumpcurve) direct_link_curvemapping(fd, part->clumpcurve); part->roughcurve = newdataadr(fd, part->roughcurve); if (part->roughcurve) direct_link_curvemapping(fd, part->roughcurve); part->effector_weights = newdataadr(fd, part->effector_weights); if (!part->effector_weights) part->effector_weights = BKE_add_effector_weights(part->eff_group); link_list(fd, &part->dupliweights); part->boids = newdataadr(fd, part->boids); part->fluid = newdataadr(fd, part->fluid); if (part->boids) { BoidState *state; link_list(fd, &part->boids->states); for (state=part->boids->states.first; state; state=state->next) { link_list(fd, &state->rules); link_list(fd, &state->conditions); link_list(fd, &state->actions); } } for (a = 0; a < MAX_MTEX; a++) { part->mtex[a] = newdataadr(fd, part->mtex[a]); } } static void lib_link_particlesystems(FileData *fd, Object *ob, ID *id, ListBase *particles) { ParticleSystem *psys, *psysnext; for (psys=particles->first; psys; psys=psysnext) { psysnext = psys->next; psys->part = newlibadr_us(fd, id->lib, psys->part); if (psys->part) { ParticleTarget *pt = psys->targets.first; for (; pt; pt=pt->next) pt->ob=newlibadr(fd, id->lib, pt->ob); psys->parent = newlibadr(fd, id->lib, psys->parent); psys->target_ob = newlibadr(fd, id->lib, psys->target_ob); if (psys->clmd) { /* XXX - from reading existing code this seems correct but intended usage of * pointcache /w cloth should be added in 'ParticleSystem' - campbell */ psys->clmd->point_cache = psys->pointcache; psys->clmd->ptcaches.first = psys->clmd->ptcaches.last= NULL; psys->clmd->coll_parms->group = newlibadr(fd, id->lib, psys->clmd->coll_parms->group); psys->clmd->modifier.error = NULL; } } else { /* particle modifier must be removed before particle system */ ParticleSystemModifierData *psmd = psys_get_modifier(ob, psys); BLI_remlink(&ob->modifiers, psmd); modifier_free((ModifierData *)psmd); BLI_remlink(particles, psys); MEM_freeN(psys); } } } static void direct_link_particlesystems(FileData *fd, ListBase *particles) { ParticleSystem *psys; ParticleData *pa; int a; for (psys=particles->first; psys; psys=psys->next) { psys->particles=newdataadr(fd, psys->particles); if (psys->particles && psys->particles->hair) { for (a=0, pa=psys->particles; atotpart; a++, pa++) pa->hair=newdataadr(fd, pa->hair); } if (psys->particles && psys->particles->keys) { for (a=0, pa=psys->particles; atotpart; a++, pa++) { pa->keys= NULL; pa->totkey= 0; } psys->flag &= ~PSYS_KEYED; } if (psys->particles && psys->particles->boid) { pa = psys->particles; pa->boid = newdataadr(fd, pa->boid); pa->boid->ground = NULL; /* This is purely runtime data, but still can be an issue if left dangling. */ for (a = 1, pa++; a < psys->totpart; a++, pa++) { pa->boid = (pa - 1)->boid + 1; pa->boid->ground = NULL; } } else if (psys->particles) { for (a=0, pa=psys->particles; atotpart; a++, pa++) pa->boid = NULL; } psys->fluid_springs = newdataadr(fd, psys->fluid_springs); psys->child = newdataadr(fd, psys->child); psys->effectors = NULL; link_list(fd, &psys->targets); psys->edit = NULL; psys->free_edit = NULL; psys->pathcache = NULL; psys->childcache = NULL; BLI_listbase_clear(&psys->pathcachebufs); BLI_listbase_clear(&psys->childcachebufs); psys->pdd = NULL; psys->renderdata = NULL; if (psys->clmd) { psys->clmd = newdataadr(fd, psys->clmd); psys->clmd->clothObject = NULL; psys->clmd->hairdata = NULL; psys->clmd->sim_parms= newdataadr(fd, psys->clmd->sim_parms); psys->clmd->coll_parms= newdataadr(fd, psys->clmd->coll_parms); if (psys->clmd->sim_parms) { psys->clmd->sim_parms->effector_weights = NULL; if (psys->clmd->sim_parms->presets > 10) psys->clmd->sim_parms->presets = 0; } psys->hair_in_dm = psys->hair_out_dm = NULL; psys->clmd->solver_result = NULL; } direct_link_pointcache_list(fd, &psys->ptcaches, &psys->pointcache, 0); if (psys->clmd) { psys->clmd->point_cache = psys->pointcache; } psys->tree = NULL; psys->bvhtree = NULL; } return; } /* ************ READ MESH ***************** */ static void lib_link_mtface(FileData *fd, Mesh *me, MTFace *mtface, int totface) { MTFace *tf= mtface; int i; /* Add pseudo-references (not fake users!) to images used by texface. A * little bogus; it would be better if each mesh consistently added one ref * to each image it used. - z0r */ for (i = 0; i < totface; i++, tf++) { tf->tpage = newlibadr_real_us(fd, me->id.lib, tf->tpage); } } static void lib_link_customdata_mtface(FileData *fd, Mesh *me, CustomData *fdata, int totface) { int i; for (i = 0; i < fdata->totlayer; i++) { CustomDataLayer *layer = &fdata->layers[i]; if (layer->type == CD_MTFACE) lib_link_mtface(fd, me, layer->data, totface); } } static void lib_link_customdata_mtpoly(FileData *fd, Mesh *me, CustomData *pdata, int totface) { int i; for (i=0; i < pdata->totlayer; i++) { CustomDataLayer *layer = &pdata->layers[i]; if (layer->type == CD_MTEXPOLY) { MTexPoly *tf= layer->data; int j; for (j = 0; j < totface; j++, tf++) { tf->tpage = newlibadr_real_us(fd, me->id.lib, tf->tpage); } } } } static void lib_link_mesh(FileData *fd, Main *main) { Mesh *me; for (me = main->mesh.first; me; me = me->id.next) { if (me->id.tag & LIB_TAG_NEED_LINK) { int i; /* Link ID Properties -- and copy this comment EXACTLY for easy finding * of library blocks that implement this.*/ IDP_LibLinkProperty(me->id.properties, fd); lib_link_animdata(fd, &me->id, me->adt); /* this check added for python created meshes */ if (me->mat) { for (i = 0; i < me->totcol; i++) { me->mat[i] = newlibadr_us(fd, me->id.lib, me->mat[i]); } } else { me->totcol = 0; } me->ipo = newlibadr_us(fd, me->id.lib, me->ipo); // XXX: deprecated: old anim sys me->key = newlibadr_us(fd, me->id.lib, me->key); me->texcomesh = newlibadr_us(fd, me->id.lib, me->texcomesh); lib_link_customdata_mtface(fd, me, &me->fdata, me->totface); lib_link_customdata_mtpoly(fd, me, &me->pdata, me->totpoly); if (me->mr && me->mr->levels.first) { lib_link_customdata_mtface(fd, me, &me->mr->fdata, ((MultiresLevel*)me->mr->levels.first)->totface); } } } /* convert texface options to material */ convert_tface_mt(fd, main); for (me = main->mesh.first; me; me = me->id.next) { if (me->id.tag & LIB_TAG_NEED_LINK) { /*check if we need to convert mfaces to mpolys*/ if (me->totface && !me->totpoly) { /* temporarily switch main so that reading from * external CustomData works */ Main *gmain = G.main; G.main = main; BKE_mesh_do_versions_convert_mfaces_to_mpolys(me); G.main = gmain; } /* * Re-tessellate, even if the polys were just created from tessfaces, this * is important because it: * - fill the CD_ORIGINDEX layer * - gives consistency of tessface between loading from a file and * converting an edited BMesh back into a mesh (i.e. it replaces * quad tessfaces in a loaded mesh immediately, instead of lazily * waiting until edit mode has been entered/exited, making it easier * to recognize problems that would otherwise only show up after edits). */ #ifdef USE_TESSFACE_DEFAULT BKE_mesh_tessface_calc(me); #else BKE_mesh_tessface_clear(me); #endif me->id.tag &= ~LIB_TAG_NEED_LINK; } } } static void direct_link_dverts(FileData *fd, int count, MDeformVert *mdverts) { int i; if (mdverts == NULL) { return; } for (i = count; i > 0; i--, mdverts++) { /*convert to vgroup allocation system*/ MDeformWeight *dw; if (mdverts->dw && (dw = newdataadr(fd, mdverts->dw))) { const ssize_t dw_len = mdverts->totweight * sizeof(MDeformWeight); void *dw_tmp = MEM_mallocN(dw_len, "direct_link_dverts"); memcpy(dw_tmp, dw, dw_len); mdverts->dw = dw_tmp; MEM_freeN(dw); } else { mdverts->dw = NULL; mdverts->totweight = 0; } } } static void direct_link_mdisps(FileData *fd, int count, MDisps *mdisps, int external) { if (mdisps) { int i; for (i = 0; i < count; ++i) { mdisps[i].disps = newdataadr(fd, mdisps[i].disps); mdisps[i].hidden = newdataadr(fd, mdisps[i].hidden); if (mdisps[i].totdisp && !mdisps[i].level) { /* this calculation is only correct for loop mdisps; * if loading pre-BMesh face mdisps this will be * overwritten with the correct value in * bm_corners_to_loops() */ float gridsize = sqrtf(mdisps[i].totdisp); mdisps[i].level = (int)(logf(gridsize - 1.0f) / (float)M_LN2) + 1; } if ((fd->flags & FD_FLAGS_SWITCH_ENDIAN) && (mdisps[i].disps)) { /* DNA_struct_switch_endian doesn't do endian swap for (*disps)[] */ /* this does swap for data written at write_mdisps() - readfile.c */ BLI_endian_switch_float_array(*mdisps[i].disps, mdisps[i].totdisp * 3); } if (!external && !mdisps[i].disps) mdisps[i].totdisp = 0; } } } static void direct_link_grid_paint_mask(FileData *fd, int count, GridPaintMask *grid_paint_mask) { if (grid_paint_mask) { int i; for (i = 0; i < count; ++i) { GridPaintMask *gpm = &grid_paint_mask[i]; if (gpm->data) gpm->data = newdataadr(fd, gpm->data); } } } /*this isn't really a public api function, so prototyped here*/ static void direct_link_customdata(FileData *fd, CustomData *data, int count) { int i = 0; data->layers = newdataadr(fd, data->layers); /* annoying workaround for bug [#31079] loading legacy files with * no polygons _but_ have stale customdata */ if (UNLIKELY(count == 0 && data->layers == NULL && data->totlayer != 0)) { CustomData_reset(data); return; } data->external = newdataadr(fd, data->external); while (i < data->totlayer) { CustomDataLayer *layer = &data->layers[i]; if (layer->flag & CD_FLAG_EXTERNAL) layer->flag &= ~CD_FLAG_IN_MEMORY; layer->flag &= ~CD_FLAG_NOFREE; if (CustomData_verify_versions(data, i)) { layer->data = newdataadr(fd, layer->data); if (layer->type == CD_MDISPS) direct_link_mdisps(fd, count, layer->data, layer->flag & CD_FLAG_EXTERNAL); else if (layer->type == CD_GRID_PAINT_MASK) direct_link_grid_paint_mask(fd, count, layer->data); i++; } } CustomData_update_typemap(data); } static void direct_link_mesh(FileData *fd, Mesh *mesh) { mesh->mat= newdataadr(fd, mesh->mat); test_pointer_array(fd, (void **)&mesh->mat); mesh->mvert = newdataadr(fd, mesh->mvert); mesh->medge = newdataadr(fd, mesh->medge); mesh->mface = newdataadr(fd, mesh->mface); mesh->mloop = newdataadr(fd, mesh->mloop); mesh->mpoly = newdataadr(fd, mesh->mpoly); mesh->tface = newdataadr(fd, mesh->tface); mesh->mtface = newdataadr(fd, mesh->mtface); mesh->mcol = newdataadr(fd, mesh->mcol); mesh->dvert = newdataadr(fd, mesh->dvert); mesh->mloopcol = newdataadr(fd, mesh->mloopcol); mesh->mloopuv = newdataadr(fd, mesh->mloopuv); mesh->mtpoly = newdataadr(fd, mesh->mtpoly); mesh->mselect = newdataadr(fd, mesh->mselect); /* animdata */ mesh->adt = newdataadr(fd, mesh->adt); direct_link_animdata(fd, mesh->adt); /* normally direct_link_dverts should be called in direct_link_customdata, * but for backwards compat in do_versions to work we do it here */ direct_link_dverts(fd, mesh->totvert, mesh->dvert); direct_link_customdata(fd, &mesh->vdata, mesh->totvert); direct_link_customdata(fd, &mesh->edata, mesh->totedge); direct_link_customdata(fd, &mesh->fdata, mesh->totface); direct_link_customdata(fd, &mesh->ldata, mesh->totloop); direct_link_customdata(fd, &mesh->pdata, mesh->totpoly); mesh->bb = NULL; mesh->edit_btmesh = NULL; /* happens with old files */ if (mesh->mselect == NULL) { mesh->totselect = 0; } if (mesh->mloopuv || mesh->mtpoly) { /* for now we have to ensure texpoly and mloopuv layers are aligned * in the future we may allow non-aligned layers */ BKE_mesh_cd_validate(mesh); } /* Multires data */ mesh->mr= newdataadr(fd, mesh->mr); if (mesh->mr) { MultiresLevel *lvl; link_list(fd, &mesh->mr->levels); lvl = mesh->mr->levels.first; direct_link_customdata(fd, &mesh->mr->vdata, lvl->totvert); direct_link_dverts(fd, lvl->totvert, CustomData_get(&mesh->mr->vdata, 0, CD_MDEFORMVERT)); direct_link_customdata(fd, &mesh->mr->fdata, lvl->totface); mesh->mr->edge_flags = newdataadr(fd, mesh->mr->edge_flags); mesh->mr->edge_creases = newdataadr(fd, mesh->mr->edge_creases); mesh->mr->verts = newdataadr(fd, mesh->mr->verts); /* If mesh has the same number of vertices as the * highest multires level, load the current mesh verts * into multires and discard the old data. Needed * because some saved files either do not have a verts * array, or the verts array contains out-of-date * data. */ if (mesh->totvert == ((MultiresLevel*)mesh->mr->levels.last)->totvert) { if (mesh->mr->verts) MEM_freeN(mesh->mr->verts); mesh->mr->verts = MEM_dupallocN(mesh->mvert); } for (; lvl; lvl = lvl->next) { lvl->verts = newdataadr(fd, lvl->verts); lvl->faces = newdataadr(fd, lvl->faces); lvl->edges = newdataadr(fd, lvl->edges); lvl->colfaces = newdataadr(fd, lvl->colfaces); } } /* if multires is present but has no valid vertex data, * there's no way to recover it; silently remove multires */ if (mesh->mr && !mesh->mr->verts) { multires_free(mesh->mr); mesh->mr = NULL; } if ((fd->flags & FD_FLAGS_SWITCH_ENDIAN) && mesh->tface) { TFace *tf = mesh->tface; int i; for (i = 0; i < mesh->totface; i++, tf++) { BLI_endian_switch_uint32_array(tf->col, 4); } } } /* ************ READ LATTICE ***************** */ static void lib_link_latt(FileData *fd, Main *main) { for (Lattice *lt = main->latt.first; lt; lt = lt->id.next) { if (lt->id.tag & LIB_TAG_NEED_LINK) { IDP_LibLinkProperty(lt->id.properties, fd); lib_link_animdata(fd, <->id, lt->adt); lt->ipo = newlibadr_us(fd, lt->id.lib, lt->ipo); // XXX deprecated - old animation system lt->key = newlibadr_us(fd, lt->id.lib, lt->key); lt->id.tag &= ~LIB_TAG_NEED_LINK; } } } static void direct_link_latt(FileData *fd, Lattice *lt) { lt->def = newdataadr(fd, lt->def); lt->dvert = newdataadr(fd, lt->dvert); direct_link_dverts(fd, lt->pntsu*lt->pntsv*lt->pntsw, lt->dvert); lt->editlatt = NULL; lt->adt = newdataadr(fd, lt->adt); direct_link_animdata(fd, lt->adt); } /* ************ READ OBJECT ***************** */ static void lib_link_modifiers__linkModifiers( void *userData, Object *ob, ID **idpoin, int cb_flag) { FileData *fd = userData; *idpoin = newlibadr(fd, ob->id.lib, *idpoin); if (*idpoin != NULL && (cb_flag & IDWALK_CB_USER) != 0) { id_us_plus_no_lib(*idpoin); } } static void lib_link_modifiers(FileData *fd, Object *ob) { modifiers_foreachIDLink(ob, lib_link_modifiers__linkModifiers, fd); } static void lib_link_object(FileData *fd, Main *main) { bool warn = false; for (Object *ob = main->object.first; ob; ob = ob->id.next) { if (ob->id.tag & LIB_TAG_NEED_LINK) { int a; IDP_LibLinkProperty(ob->id.properties, fd); lib_link_animdata(fd, &ob->id, ob->adt); // XXX deprecated - old animation system <<< ob->ipo = newlibadr_us(fd, ob->id.lib, ob->ipo); ob->action = newlibadr_us(fd, ob->id.lib, ob->action); // >>> XXX deprecated - old animation system ob->parent = newlibadr(fd, ob->id.lib, ob->parent); ob->track = newlibadr(fd, ob->id.lib, ob->track); ob->poselib = newlibadr_us(fd, ob->id.lib, ob->poselib); ob->dup_group = newlibadr_us(fd, ob->id.lib, ob->dup_group); ob->proxy = newlibadr_us(fd, ob->id.lib, ob->proxy); if (ob->proxy) { /* paranoia check, actually a proxy_from pointer should never be written... */ if (ob->proxy->id.lib == NULL) { ob->proxy->proxy_from = NULL; ob->proxy = NULL; if (ob->id.lib) printf("Proxy lost from object %s lib %s\n", ob->id.name + 2, ob->id.lib->name); else printf("Proxy lost from object %s lib \n", ob->id.name + 2); } else { /* this triggers object_update to always use a copy */ ob->proxy->proxy_from = ob; } } ob->proxy_group = newlibadr(fd, ob->id.lib, ob->proxy_group); void *poin = ob->data; ob->data = newlibadr_us(fd, ob->id.lib, ob->data); if (ob->data == NULL && poin != NULL) { if (ob->id.lib) printf("Can't find obdata of %s lib %s\n", ob->id.name + 2, ob->id.lib->name); else printf("Object %s lost data.\n", ob->id.name + 2); ob->type = OB_EMPTY; warn = true; if (ob->pose) { /* we can't call #BKE_pose_free() here because of library linking * freeing will recurse down into every pose constraints ID pointers * which are not always valid, so for now free directly and suffer * some leaked memory rather then crashing immediately * while bad this _is_ an exceptional case - campbell */ #if 0 BKE_pose_free(ob->pose); #else MEM_freeN(ob->pose); #endif ob->pose= NULL; ob->mode &= ~OB_MODE_POSE; } } for (a=0; a < ob->totcol; a++) ob->mat[a] = newlibadr_us(fd, ob->id.lib, ob->mat[a]); /* When the object is local and the data is library its possible * the material list size gets out of sync. [#22663] */ if (ob->data && ob->id.lib != ((ID *)ob->data)->lib) { const short *totcol_data = give_totcolp(ob); /* Only expand so as not to loose any object materials that might be set. */ if (totcol_data && (*totcol_data > ob->totcol)) { /* printf("'%s' %d -> %d\n", ob->id.name, ob->totcol, *totcol_data); */ BKE_material_resize_object(main, ob, *totcol_data, false); } } ob->gpd = newlibadr_us(fd, ob->id.lib, ob->gpd); ob->duplilist = NULL; ob->id.tag &= ~LIB_TAG_NEED_LINK; /* if id.us==0 a new base will be created later on */ /* WARNING! Also check expand_object(), should reflect the stuff below. */ lib_link_pose(fd, main, ob, ob->pose); lib_link_constraints(fd, &ob->id, &ob->constraints); // XXX deprecated - old animation system <<< lib_link_constraint_channels(fd, &ob->id, &ob->constraintChannels); lib_link_nlastrips(fd, &ob->id, &ob->nlastrips); // >>> XXX deprecated - old animation system for (PartEff *paf = ob->effect.first; paf; paf = paf->next) { if (paf->type == EFF_PARTICLE) { paf->group = newlibadr_us(fd, ob->id.lib, paf->group); } } for (bSensor *sens = ob->sensors.first; sens; sens = sens->next) { for (a = 0; a < sens->totlinks; a++) sens->links[a] = newglobadr(fd, sens->links[a]); if (sens->type == SENS_MESSAGE) { bMessageSensor *ms = sens->data; ms->fromObject = newlibadr(fd, ob->id.lib, ms->fromObject); } } for (bController *cont = ob->controllers.first; cont; cont = cont->next) { for (a=0; a < cont->totlinks; a++) cont->links[a] = newglobadr(fd, cont->links[a]); if (cont->type == CONT_PYTHON) { bPythonCont *pc = cont->data; pc->text = newlibadr(fd, ob->id.lib, pc->text); } cont->slinks = NULL; cont->totslinks = 0; } for (bActuator *act = ob->actuators.first; act; act = act->next) { switch (act->type) { case ACT_SOUND: { bSoundActuator *sa = act->data; sa->sound = newlibadr_us(fd, ob->id.lib, sa->sound); break; } case ACT_GAME: /* bGameActuator *ga= act->data; */ break; case ACT_CAMERA: { bCameraActuator *ca = act->data; ca->ob = newlibadr(fd, ob->id.lib, ca->ob); break; } /* leave this one, it's obsolete but necessary to read for conversion */ case ACT_ADD_OBJECT: { bAddObjectActuator *eoa = act->data; if (eoa) eoa->ob = newlibadr(fd, ob->id.lib, eoa->ob); break; } case ACT_OBJECT: { bObjectActuator *oa = act->data; if (oa == NULL) { init_actuator(act); } else { oa->reference = newlibadr(fd, ob->id.lib, oa->reference); } break; } case ACT_EDIT_OBJECT: { bEditObjectActuator *eoa = act->data; if (eoa == NULL) { init_actuator(act); } else { eoa->ob = newlibadr(fd, ob->id.lib, eoa->ob); eoa->me = newlibadr(fd, ob->id.lib, eoa->me); } break; } case ACT_SCENE: { bSceneActuator *sa = act->data; sa->camera = newlibadr(fd, ob->id.lib, sa->camera); sa->scene = newlibadr(fd, ob->id.lib, sa->scene); break; } case ACT_ACTION: { bActionActuator *aa = act->data; aa->act = newlibadr_us(fd, ob->id.lib, aa->act); break; } case ACT_SHAPEACTION: { bActionActuator *aa = act->data; aa->act = newlibadr_us(fd, ob->id.lib, aa->act); break; } case ACT_PROPERTY: { bPropertyActuator *pa = act->data; pa->ob = newlibadr(fd, ob->id.lib, pa->ob); break; } case ACT_MESSAGE: { bMessageActuator *ma = act->data; ma->toObject = newlibadr(fd, ob->id.lib, ma->toObject); break; } case ACT_2DFILTER: { bTwoDFilterActuator *_2dfa = act->data; _2dfa->text = newlibadr(fd, ob->id.lib, _2dfa->text); break; } case ACT_PARENT: { bParentActuator *parenta = act->data; parenta->ob = newlibadr(fd, ob->id.lib, parenta->ob); break; } case ACT_STATE: /* bStateActuator *statea = act->data; */ break; case ACT_ARMATURE: { bArmatureActuator *arma= act->data; arma->target = newlibadr(fd, ob->id.lib, arma->target); arma->subtarget = newlibadr(fd, ob->id.lib, arma->subtarget); break; } case ACT_STEERING: { bSteeringActuator *steeringa = act->data; steeringa->target = newlibadr(fd, ob->id.lib, steeringa->target); steeringa->navmesh = newlibadr(fd, ob->id.lib, steeringa->navmesh); break; } case ACT_MOUSE: /* bMouseActuator *moa = act->data; */ break; } } { FluidsimModifierData *fluidmd = (FluidsimModifierData *)modifiers_findByType(ob, eModifierType_Fluidsim); if (fluidmd && fluidmd->fss) fluidmd->fss->ipo = newlibadr_us(fd, ob->id.lib, fluidmd->fss->ipo); // XXX deprecated - old animation system } { SmokeModifierData *smd = (SmokeModifierData *)modifiers_findByType(ob, eModifierType_Smoke); if (smd && (smd->type == MOD_SMOKE_TYPE_DOMAIN) && smd->domain) { smd->domain->flags |= MOD_SMOKE_FILE_LOAD; /* flag for refreshing the simulation after loading */ } } /* texture field */ if (ob->pd) lib_link_partdeflect(fd, &ob->id, ob->pd); if (ob->soft) { ob->soft->collision_group = newlibadr(fd, ob->id.lib, ob->soft->collision_group); ob->soft->effector_weights->group = newlibadr(fd, ob->id.lib, ob->soft->effector_weights->group); } lib_link_particlesystems(fd, ob, &ob->id, &ob->particlesystem); lib_link_modifiers(fd, ob); if (ob->rigidbody_constraint) { ob->rigidbody_constraint->ob1 = newlibadr(fd, ob->id.lib, ob->rigidbody_constraint->ob1); ob->rigidbody_constraint->ob2 = newlibadr(fd, ob->id.lib, ob->rigidbody_constraint->ob2); } { LodLevel *level; for (level = ob->lodlevels.first; level; level = level->next) { level->source = newlibadr(fd, ob->id.lib, level->source); if (!level->source && level == ob->lodlevels.first) level->source = ob; } } } } if (warn) { BKE_report(fd->reports, RPT_WARNING, "Warning in console"); } } static void direct_link_pose(FileData *fd, bPose *pose) { bPoseChannel *pchan; if (!pose) return; link_list(fd, &pose->chanbase); link_list(fd, &pose->agroups); pose->chanhash = NULL; for (pchan = pose->chanbase.first; pchan; pchan=pchan->next) { pchan->bone = NULL; pchan->parent = newdataadr(fd, pchan->parent); pchan->child = newdataadr(fd, pchan->child); pchan->custom_tx = newdataadr(fd, pchan->custom_tx); pchan->bbone_prev = newdataadr(fd, pchan->bbone_prev); pchan->bbone_next = newdataadr(fd, pchan->bbone_next); direct_link_constraints(fd, &pchan->constraints); pchan->prop = newdataadr(fd, pchan->prop); IDP_DirectLinkGroup_OrFree(&pchan->prop, (fd->flags & FD_FLAGS_SWITCH_ENDIAN), fd); pchan->mpath = newdataadr(fd, pchan->mpath); if (pchan->mpath) direct_link_motionpath(fd, pchan->mpath); BLI_listbase_clear(&pchan->iktree); BLI_listbase_clear(&pchan->siktree); /* in case this value changes in future, clamp else we get undefined behavior */ CLAMP(pchan->rotmode, ROT_MODE_MIN, ROT_MODE_MAX); } pose->ikdata = NULL; if (pose->ikparam != NULL) { pose->ikparam = newdataadr(fd, pose->ikparam); } } static void direct_link_modifiers(FileData *fd, ListBase *lb) { ModifierData *md; link_list(fd, lb); for (md=lb->first; md; md=md->next) { md->error = NULL; md->scene = NULL; /* if modifiers disappear, or for upward compatibility */ if (NULL == modifierType_getInfo(md->type)) md->type = eModifierType_None; if (md->type == eModifierType_Subsurf) { SubsurfModifierData *smd = (SubsurfModifierData *)md; smd->emCache = smd->mCache = NULL; } else if (md->type == eModifierType_Armature) { ArmatureModifierData *amd = (ArmatureModifierData *)md; amd->prevCos = NULL; } else if (md->type == eModifierType_Cloth) { ClothModifierData *clmd = (ClothModifierData *)md; clmd->clothObject = NULL; clmd->hairdata = NULL; clmd->sim_parms= newdataadr(fd, clmd->sim_parms); clmd->coll_parms= newdataadr(fd, clmd->coll_parms); direct_link_pointcache_list(fd, &clmd->ptcaches, &clmd->point_cache, 0); if (clmd->sim_parms) { if (clmd->sim_parms->presets > 10) clmd->sim_parms->presets = 0; clmd->sim_parms->reset = 0; clmd->sim_parms->effector_weights = newdataadr(fd, clmd->sim_parms->effector_weights); if (!clmd->sim_parms->effector_weights) { clmd->sim_parms->effector_weights = BKE_add_effector_weights(NULL); } } clmd->solver_result = NULL; } else if (md->type == eModifierType_Fluidsim) { FluidsimModifierData *fluidmd = (FluidsimModifierData *)md; fluidmd->fss = newdataadr(fd, fluidmd->fss); if (fluidmd->fss) { fluidmd->fss->fmd = fluidmd; fluidmd->fss->meshVelocities = NULL; } } else if (md->type == eModifierType_Smoke) { SmokeModifierData *smd = (SmokeModifierData *)md; if (smd->type == MOD_SMOKE_TYPE_DOMAIN) { smd->flow = NULL; smd->coll = NULL; smd->domain = newdataadr(fd, smd->domain); smd->domain->smd = smd; smd->domain->fluid = NULL; smd->domain->fluid_mutex = BLI_rw_mutex_alloc(); smd->domain->wt = NULL; smd->domain->shadow = NULL; smd->domain->tex = NULL; smd->domain->tex_shadow = NULL; smd->domain->tex_wt = NULL; smd->domain->coba = newdataadr(fd, smd->domain->coba); smd->domain->effector_weights = newdataadr(fd, smd->domain->effector_weights); if (!smd->domain->effector_weights) smd->domain->effector_weights = BKE_add_effector_weights(NULL); direct_link_pointcache_list(fd, &(smd->domain->ptcaches[0]), &(smd->domain->point_cache[0]), 1); /* Smoke uses only one cache from now on, so store pointer convert */ if (smd->domain->ptcaches[1].first || smd->domain->point_cache[1]) { if (smd->domain->point_cache[1]) { PointCache *cache = newdataadr(fd, smd->domain->point_cache[1]); if (cache->flag & PTCACHE_FAKE_SMOKE) { /* Smoke was already saved in "new format" and this cache is a fake one. */ } else { printf("High resolution smoke cache not available due to pointcache update. Please reset the simulation.\n"); } BKE_ptcache_free(cache); } BLI_listbase_clear(&smd->domain->ptcaches[1]); smd->domain->point_cache[1] = NULL; } } else if (smd->type == MOD_SMOKE_TYPE_FLOW) { smd->domain = NULL; smd->coll = NULL; smd->flow = newdataadr(fd, smd->flow); smd->flow->smd = smd; smd->flow->dm = NULL; smd->flow->verts_old = NULL; smd->flow->numverts = 0; smd->flow->psys = newdataadr(fd, smd->flow->psys); } else if (smd->type == MOD_SMOKE_TYPE_COLL) { smd->flow = NULL; smd->domain = NULL; smd->coll = newdataadr(fd, smd->coll); if (smd->coll) { smd->coll->smd = smd; smd->coll->verts_old = NULL; smd->coll->numverts = 0; smd->coll->dm = NULL; } else { smd->type = 0; smd->flow = NULL; smd->domain = NULL; smd->coll = NULL; } } } else if (md->type == eModifierType_DynamicPaint) { DynamicPaintModifierData *pmd = (DynamicPaintModifierData *)md; if (pmd->canvas) { pmd->canvas = newdataadr(fd, pmd->canvas); pmd->canvas->pmd = pmd; pmd->canvas->dm = NULL; pmd->canvas->flags &= ~MOD_DPAINT_BAKING; /* just in case */ if (pmd->canvas->surfaces.first) { DynamicPaintSurface *surface; link_list(fd, &pmd->canvas->surfaces); for (surface=pmd->canvas->surfaces.first; surface; surface=surface->next) { surface->canvas = pmd->canvas; surface->data = NULL; direct_link_pointcache_list(fd, &(surface->ptcaches), &(surface->pointcache), 1); if (!(surface->effector_weights = newdataadr(fd, surface->effector_weights))) surface->effector_weights = BKE_add_effector_weights(NULL); } } } if (pmd->brush) { pmd->brush = newdataadr(fd, pmd->brush); pmd->brush->pmd = pmd; pmd->brush->psys = newdataadr(fd, pmd->brush->psys); pmd->brush->paint_ramp = newdataadr(fd, pmd->brush->paint_ramp); pmd->brush->vel_ramp = newdataadr(fd, pmd->brush->vel_ramp); pmd->brush->dm = NULL; } } else if (md->type == eModifierType_Collision) { CollisionModifierData *collmd = (CollisionModifierData *)md; #if 0 // TODO: CollisionModifier should use pointcache // + have proper reset events before enabling this collmd->x = newdataadr(fd, collmd->x); collmd->xnew = newdataadr(fd, collmd->xnew); collmd->mfaces = newdataadr(fd, collmd->mfaces); collmd->current_x = MEM_callocN(sizeof(MVert)*collmd->numverts, "current_x"); collmd->current_xnew = MEM_callocN(sizeof(MVert)*collmd->numverts, "current_xnew"); collmd->current_v = MEM_callocN(sizeof(MVert)*collmd->numverts, "current_v"); #endif collmd->x = NULL; collmd->xnew = NULL; collmd->current_x = NULL; collmd->current_xnew = NULL; collmd->current_v = NULL; collmd->time_x = collmd->time_xnew = -1000; collmd->mvert_num = 0; collmd->tri_num = 0; collmd->is_static = false; collmd->bvhtree = NULL; collmd->tri = NULL; } else if (md->type == eModifierType_Surface) { SurfaceModifierData *surmd = (SurfaceModifierData *)md; surmd->dm = NULL; surmd->bvhtree = NULL; surmd->x = NULL; surmd->v = NULL; surmd->numverts = 0; } else if (md->type == eModifierType_Hook) { HookModifierData *hmd = (HookModifierData *)md; hmd->indexar = newdataadr(fd, hmd->indexar); if (fd->flags & FD_FLAGS_SWITCH_ENDIAN) { BLI_endian_switch_int32_array(hmd->indexar, hmd->totindex); } hmd->curfalloff = newdataadr(fd, hmd->curfalloff); if (hmd->curfalloff) { direct_link_curvemapping(fd, hmd->curfalloff); } } else if (md->type == eModifierType_ParticleSystem) { ParticleSystemModifierData *psmd = (ParticleSystemModifierData *)md; psmd->dm_final = NULL; psmd->dm_deformed = NULL; psmd->psys= newdataadr(fd, psmd->psys); psmd->flag &= ~eParticleSystemFlag_psys_updated; psmd->flag |= eParticleSystemFlag_file_loaded; } else if (md->type == eModifierType_Explode) { ExplodeModifierData *psmd = (ExplodeModifierData *)md; psmd->facepa = NULL; } else if (md->type == eModifierType_MeshDeform) { MeshDeformModifierData *mmd = (MeshDeformModifierData *)md; mmd->bindinfluences = newdataadr(fd, mmd->bindinfluences); mmd->bindoffsets = newdataadr(fd, mmd->bindoffsets); mmd->bindcagecos = newdataadr(fd, mmd->bindcagecos); mmd->dyngrid = newdataadr(fd, mmd->dyngrid); mmd->dyninfluences = newdataadr(fd, mmd->dyninfluences); mmd->dynverts = newdataadr(fd, mmd->dynverts); mmd->bindweights = newdataadr(fd, mmd->bindweights); mmd->bindcos = newdataadr(fd, mmd->bindcos); if (fd->flags & FD_FLAGS_SWITCH_ENDIAN) { if (mmd->bindoffsets) BLI_endian_switch_int32_array(mmd->bindoffsets, mmd->totvert + 1); if (mmd->bindcagecos) BLI_endian_switch_float_array(mmd->bindcagecos, mmd->totcagevert * 3); if (mmd->dynverts) BLI_endian_switch_int32_array(mmd->dynverts, mmd->totvert); if (mmd->bindweights) BLI_endian_switch_float_array(mmd->bindweights, mmd->totvert); if (mmd->bindcos) BLI_endian_switch_float_array(mmd->bindcos, mmd->totcagevert * 3); } } else if (md->type == eModifierType_Ocean) { OceanModifierData *omd = (OceanModifierData *)md; omd->oceancache = NULL; omd->ocean = NULL; omd->refresh = (MOD_OCEAN_REFRESH_ADD|MOD_OCEAN_REFRESH_RESET|MOD_OCEAN_REFRESH_SIM); } else if (md->type == eModifierType_Warp) { WarpModifierData *tmd = (WarpModifierData *)md; tmd->curfalloff= newdataadr(fd, tmd->curfalloff); if (tmd->curfalloff) direct_link_curvemapping(fd, tmd->curfalloff); } else if (md->type == eModifierType_WeightVGEdit) { WeightVGEditModifierData *wmd = (WeightVGEditModifierData *)md; wmd->cmap_curve = newdataadr(fd, wmd->cmap_curve); if (wmd->cmap_curve) direct_link_curvemapping(fd, wmd->cmap_curve); } else if (md->type == eModifierType_LaplacianDeform) { LaplacianDeformModifierData *lmd = (LaplacianDeformModifierData *)md; lmd->vertexco = newdataadr(fd, lmd->vertexco); if (fd->flags & FD_FLAGS_SWITCH_ENDIAN) { BLI_endian_switch_float_array(lmd->vertexco, lmd->total_verts * 3); } lmd->cache_system = NULL; } else if (md->type == eModifierType_CorrectiveSmooth) { CorrectiveSmoothModifierData *csmd = (CorrectiveSmoothModifierData*)md; if (csmd->bind_coords) { csmd->bind_coords = newdataadr(fd, csmd->bind_coords); if (fd->flags & FD_FLAGS_SWITCH_ENDIAN) { BLI_endian_switch_float_array((float *)csmd->bind_coords, csmd->bind_coords_num * 3); } } /* runtime only */ csmd->delta_cache = NULL; csmd->delta_cache_num = 0; } else if (md->type == eModifierType_MeshSequenceCache) { MeshSeqCacheModifierData *msmcd = (MeshSeqCacheModifierData *)md; msmcd->reader = NULL; } else if (md->type == eModifierType_SurfaceDeform) { SurfaceDeformModifierData *smd = (SurfaceDeformModifierData *)md; smd->verts = newdataadr(fd, smd->verts); if (smd->verts) { for (int i = 0; i < smd->numverts; i++) { smd->verts[i].binds = newdataadr(fd, smd->verts[i].binds); if (smd->verts[i].binds) { for (int j = 0; j < smd->verts[i].numbinds; j++) { smd->verts[i].binds[j].vert_inds = newdataadr(fd, smd->verts[i].binds[j].vert_inds); smd->verts[i].binds[j].vert_weights = newdataadr(fd, smd->verts[i].binds[j].vert_weights); if (fd->flags & FD_FLAGS_SWITCH_ENDIAN) { if (smd->verts[i].binds[j].vert_inds) BLI_endian_switch_uint32_array(smd->verts[i].binds[j].vert_inds, smd->verts[i].binds[j].numverts); if (smd->verts[i].binds[j].vert_weights) { if (smd->verts[i].binds[j].mode == MOD_SDEF_MODE_CENTROID || smd->verts[i].binds[j].mode == MOD_SDEF_MODE_LOOPTRI) BLI_endian_switch_float_array(smd->verts[i].binds[j].vert_weights, 3); else BLI_endian_switch_float_array(smd->verts[i].binds[j].vert_weights, smd->verts[i].binds[j].numverts); } } } } } } } } } static void direct_link_object(FileData *fd, Object *ob) { PartEff *paf; bProperty *prop; bSensor *sens; bController *cont; bActuator *act; /* weak weak... this was only meant as draw flag, now is used in give_base_to_objects too */ ob->flag &= ~OB_FROMGROUP; /* This is a transient flag; clear in order to avoid unneeded object update pending from * time when file was saved. */ ob->recalc = 0; /* XXX This should not be needed - but seems like it can happen in some cases, so for now play safe... */ ob->proxy_from = NULL; /* loading saved files with editmode enabled works, but for undo we like * to stay in object mode during undo presses so keep editmode disabled. * * Also when linking in a file don't allow edit and pose modes. * See [#34776, #42780] for more information. */ if (fd->memfile || (ob->id.tag & (LIB_TAG_EXTERN | LIB_TAG_INDIRECT))) { ob->mode &= ~(OB_MODE_EDIT | OB_MODE_PARTICLE_EDIT); if (!fd->memfile) { ob->mode &= ~OB_MODE_POSE; } } ob->adt = newdataadr(fd, ob->adt); direct_link_animdata(fd, ob->adt); ob->pose = newdataadr(fd, ob->pose); direct_link_pose(fd, ob->pose); ob->mpath = newdataadr(fd, ob->mpath); if (ob->mpath) direct_link_motionpath(fd, ob->mpath); link_list(fd, &ob->defbase); // XXX deprecated - old animation system <<< direct_link_nlastrips(fd, &ob->nlastrips); link_list(fd, &ob->constraintChannels); // >>> XXX deprecated - old animation system ob->mat= newdataadr(fd, ob->mat); test_pointer_array(fd, (void **)&ob->mat); ob->matbits= newdataadr(fd, ob->matbits); /* do it here, below old data gets converted */ direct_link_modifiers(fd, &ob->modifiers); link_list(fd, &ob->effect); paf= ob->effect.first; while (paf) { if (paf->type == EFF_PARTICLE) { paf->keys = NULL; } if (paf->type == EFF_WAVE) { WaveEff *wav = (WaveEff*) paf; PartEff *next = paf->next; WaveModifierData *wmd = (WaveModifierData*) modifier_new(eModifierType_Wave); wmd->damp = wav->damp; wmd->flag = wav->flag; wmd->height = wav->height; wmd->lifetime = wav->lifetime; wmd->narrow = wav->narrow; wmd->speed = wav->speed; wmd->startx = wav->startx; wmd->starty = wav->startx; wmd->timeoffs = wav->timeoffs; wmd->width = wav->width; BLI_addtail(&ob->modifiers, wmd); BLI_remlink(&ob->effect, paf); MEM_freeN(paf); paf = next; continue; } if (paf->type == EFF_BUILD) { BuildEff *baf = (BuildEff*) paf; PartEff *next = paf->next; BuildModifierData *bmd = (BuildModifierData*) modifier_new(eModifierType_Build); bmd->start = baf->sfra; bmd->length = baf->len; bmd->randomize = 0; bmd->seed = 1; BLI_addtail(&ob->modifiers, bmd); BLI_remlink(&ob->effect, paf); MEM_freeN(paf); paf = next; continue; } paf = paf->next; } ob->pd= newdataadr(fd, ob->pd); direct_link_partdeflect(ob->pd); ob->soft= newdataadr(fd, ob->soft); if (ob->soft) { SoftBody *sb = ob->soft; sb->bpoint = NULL; // init pointers so it gets rebuilt nicely sb->bspring = NULL; sb->scratch = NULL; /* although not used anymore */ /* still have to be loaded to be compatible with old files */ sb->keys = newdataadr(fd, sb->keys); test_pointer_array(fd, (void **)&sb->keys); if (sb->keys) { int a; for (a = 0; a < sb->totkey; a++) { sb->keys[a] = newdataadr(fd, sb->keys[a]); } } sb->effector_weights = newdataadr(fd, sb->effector_weights); if (!sb->effector_weights) sb->effector_weights = BKE_add_effector_weights(NULL); direct_link_pointcache_list(fd, &sb->ptcaches, &sb->pointcache, 0); } ob->bsoft = newdataadr(fd, ob->bsoft); ob->fluidsimSettings= newdataadr(fd, ob->fluidsimSettings); /* NT */ ob->rigidbody_object = newdataadr(fd, ob->rigidbody_object); if (ob->rigidbody_object) { RigidBodyOb *rbo = ob->rigidbody_object; /* must nullify the references to physics sim objects, since they no-longer exist * (and will need to be recalculated) */ rbo->physics_object = NULL; rbo->physics_shape = NULL; } ob->rigidbody_constraint = newdataadr(fd, ob->rigidbody_constraint); if (ob->rigidbody_constraint) ob->rigidbody_constraint->physics_constraint = NULL; link_list(fd, &ob->particlesystem); direct_link_particlesystems(fd, &ob->particlesystem); link_list(fd, &ob->prop); for (prop = ob->prop.first; prop; prop = prop->next) { prop->poin = newdataadr(fd, prop->poin); if (prop->poin == NULL) prop->poin = &prop->data; } link_list(fd, &ob->sensors); for (sens = ob->sensors.first; sens; sens = sens->next) { sens->data = newdataadr(fd, sens->data); sens->links = newdataadr(fd, sens->links); test_pointer_array(fd, (void **)&sens->links); } direct_link_constraints(fd, &ob->constraints); link_glob_list(fd, &ob->controllers); if (ob->init_state) { /* if a known first state is specified, set it so that the game will start ok */ ob->state = ob->init_state; } else if (!ob->state) { ob->state = 1; } for (cont = ob->controllers.first; cont; cont = cont->next) { cont->data = newdataadr(fd, cont->data); cont->links = newdataadr(fd, cont->links); test_pointer_array(fd, (void **)&cont->links); if (cont->state_mask == 0) cont->state_mask = 1; } link_glob_list(fd, &ob->actuators); for (act = ob->actuators.first; act; act = act->next) { act->data = newdataadr(fd, act->data); } link_list(fd, &ob->hooks); while (ob->hooks.first) { ObHook *hook = ob->hooks.first; HookModifierData *hmd = (HookModifierData *)modifier_new(eModifierType_Hook); hook->indexar= newdataadr(fd, hook->indexar); if (fd->flags & FD_FLAGS_SWITCH_ENDIAN) { BLI_endian_switch_int32_array(hook->indexar, hook->totindex); } /* Do conversion here because if we have loaded * a hook we need to make sure it gets converted * and freed, regardless of version. */ copy_v3_v3(hmd->cent, hook->cent); hmd->falloff = hook->falloff; hmd->force = hook->force; hmd->indexar = hook->indexar; hmd->object = hook->parent; memcpy(hmd->parentinv, hook->parentinv, sizeof(hmd->parentinv)); hmd->totindex = hook->totindex; BLI_addhead(&ob->modifiers, hmd); BLI_remlink(&ob->hooks, hook); modifier_unique_name(&ob->modifiers, (ModifierData*)hmd); MEM_freeN(hook); } ob->iuser = newdataadr(fd, ob->iuser); if (ob->type == OB_EMPTY && ob->empty_drawtype == OB_EMPTY_IMAGE && !ob->iuser) { BKE_object_empty_draw_type_set(ob, ob->empty_drawtype); } ob->customdata_mask = 0; ob->bb = NULL; ob->derivedDeform = NULL; ob->derivedFinal = NULL; BLI_listbase_clear(&ob->gpulamp); link_list(fd, &ob->pc_ids); /* Runtime curve data */ ob->curve_cache = NULL; /* in case this value changes in future, clamp else we get undefined behavior */ CLAMP(ob->rotmode, ROT_MODE_MIN, ROT_MODE_MAX); if (ob->sculpt) { ob->sculpt = MEM_callocN(sizeof(SculptSession), "reload sculpt session"); } link_list(fd, &ob->lodlevels); ob->currentlod = ob->lodlevels.first; ob->preview = direct_link_preview_image(fd, ob->preview); } /* ************ READ SCENE ***************** */ /* patch for missing scene IDs, can't be in do-versions */ static void composite_patch(bNodeTree *ntree, Scene *scene) { bNode *node; for (node = ntree->nodes.first; node; node = node->next) { if (node->id==NULL && node->type == CMP_NODE_R_LAYERS) node->id = &scene->id; } } static void link_paint(FileData *fd, Scene *sce, Paint *p) { if (p) { p->brush = newlibadr_us(fd, sce->id.lib, p->brush); p->palette = newlibadr_us(fd, sce->id.lib, p->palette); p->paint_cursor = NULL; } } static void lib_link_sequence_modifiers(FileData *fd, Scene *scene, ListBase *lb) { SequenceModifierData *smd; for (smd = lb->first; smd; smd = smd->next) { if (smd->mask_id) smd->mask_id = newlibadr_us(fd, scene->id.lib, smd->mask_id); } } /* check for cyclic set-scene, * libs can cause this case which is normally prevented, see (T#####) */ #define USE_SETSCENE_CHECK #ifdef USE_SETSCENE_CHECK /** * A version of #BKE_scene_validate_setscene with special checks for linked libs. */ static bool scene_validate_setscene__liblink(Scene *sce, const int totscene) { Scene *sce_iter; int a; if (sce->set == NULL) return 1; for (a = 0, sce_iter = sce; sce_iter->set; sce_iter = sce_iter->set, a++) { if (sce_iter->id.tag & LIB_TAG_NEED_LINK) { return 1; } if (a > totscene) { sce->set = NULL; return 0; } } return 1; } #endif static void lib_link_scene(FileData *fd, Main *main) { #ifdef USE_SETSCENE_CHECK bool need_check_set = false; int totscene = 0; #endif for (Scene *sce = main->scene.first; sce; sce = sce->id.next) { if (sce->id.tag & LIB_TAG_NEED_LINK) { /* Link ID Properties -- and copy this comment EXACTLY for easy finding * of library blocks that implement this.*/ IDP_LibLinkProperty(sce->id.properties, fd); lib_link_animdata(fd, &sce->id, sce->adt); lib_link_keyingsets(fd, &sce->id, &sce->keyingsets); sce->camera = newlibadr(fd, sce->id.lib, sce->camera); sce->world = newlibadr_us(fd, sce->id.lib, sce->world); sce->set = newlibadr(fd, sce->id.lib, sce->set); sce->gpd = newlibadr_us(fd, sce->id.lib, sce->gpd); link_paint(fd, sce, &sce->toolsettings->sculpt->paint); link_paint(fd, sce, &sce->toolsettings->vpaint->paint); link_paint(fd, sce, &sce->toolsettings->wpaint->paint); link_paint(fd, sce, &sce->toolsettings->imapaint.paint); link_paint(fd, sce, &sce->toolsettings->uvsculpt->paint); if (sce->toolsettings->sculpt) sce->toolsettings->sculpt->gravity_object = newlibadr(fd, sce->id.lib, sce->toolsettings->sculpt->gravity_object); if (sce->toolsettings->imapaint.stencil) sce->toolsettings->imapaint.stencil = newlibadr_us(fd, sce->id.lib, sce->toolsettings->imapaint.stencil); if (sce->toolsettings->imapaint.clone) sce->toolsettings->imapaint.clone = newlibadr_us(fd, sce->id.lib, sce->toolsettings->imapaint.clone); if (sce->toolsettings->imapaint.canvas) sce->toolsettings->imapaint.canvas = newlibadr_us(fd, sce->id.lib, sce->toolsettings->imapaint.canvas); sce->toolsettings->skgen_template = newlibadr(fd, sce->id.lib, sce->toolsettings->skgen_template); sce->toolsettings->particle.shape_object = newlibadr(fd, sce->id.lib, sce->toolsettings->particle.shape_object); for (Base *next, *base = sce->base.first; base; base = next) { next = base->next; base->object = newlibadr_us(fd, sce->id.lib, base->object); if (base->object == NULL) { blo_reportf_wrap(fd->reports, RPT_WARNING, TIP_("LIB: object lost from scene: '%s'"), sce->id.name + 2); BLI_remlink(&sce->base, base); if (base == sce->basact) sce->basact = NULL; MEM_freeN(base); } } Sequence *seq; SEQ_BEGIN (sce->ed, seq) { IDP_LibLinkProperty(seq->prop, fd); if (seq->ipo) seq->ipo = newlibadr_us(fd, sce->id.lib, seq->ipo); // XXX deprecated - old animation system seq->scene_sound = NULL; if (seq->scene) { seq->scene = newlibadr(fd, sce->id.lib, seq->scene); if (seq->scene) { seq->scene_sound = BKE_sound_scene_add_scene_sound_defaults(sce, seq); } } if (seq->clip) { seq->clip = newlibadr_us(fd, sce->id.lib, seq->clip); } if (seq->mask) { seq->mask = newlibadr_us(fd, sce->id.lib, seq->mask); } if (seq->scene_camera) { seq->scene_camera = newlibadr(fd, sce->id.lib, seq->scene_camera); } if (seq->sound) { seq->scene_sound = NULL; if (seq->type == SEQ_TYPE_SOUND_HD) { seq->type = SEQ_TYPE_SOUND_RAM; } else { seq->sound = newlibadr(fd, sce->id.lib, seq->sound); } if (seq->sound) { id_us_plus_no_lib((ID *)seq->sound); seq->scene_sound = BKE_sound_add_scene_sound_defaults(sce, seq); } } BLI_listbase_clear(&seq->anims); lib_link_sequence_modifiers(fd, sce, &seq->modifiers); } SEQ_END for (TimeMarker *marker = sce->markers.first; marker; marker = marker->next) { if (marker->camera) { marker->camera = newlibadr(fd, sce->id.lib, marker->camera); } } BKE_sequencer_update_muting(sce->ed); BKE_sequencer_update_sound_bounds_all(sce); /* rigidbody world relies on it's linked groups */ if (sce->rigidbody_world) { RigidBodyWorld *rbw = sce->rigidbody_world; if (rbw->group) rbw->group = newlibadr(fd, sce->id.lib, rbw->group); if (rbw->constraints) rbw->constraints = newlibadr(fd, sce->id.lib, rbw->constraints); if (rbw->effector_weights) rbw->effector_weights->group = newlibadr(fd, sce->id.lib, rbw->effector_weights->group); } if (sce->nodetree) { lib_link_ntree(fd, &sce->id, sce->nodetree); sce->nodetree->id.lib = sce->id.lib; composite_patch(sce->nodetree, sce); } for (SceneRenderLayer *srl = sce->r.layers.first; srl; srl = srl->next) { srl->mat_override = newlibadr_us(fd, sce->id.lib, srl->mat_override); srl->light_override = newlibadr_us(fd, sce->id.lib, srl->light_override); for (FreestyleModuleConfig *fmc = srl->freestyleConfig.modules.first; fmc; fmc = fmc->next) { fmc->script = newlibadr(fd, sce->id.lib, fmc->script); } for (FreestyleLineSet *fls = srl->freestyleConfig.linesets.first; fls; fls = fls->next) { fls->linestyle = newlibadr_us(fd, sce->id.lib, fls->linestyle); fls->group = newlibadr_us(fd, sce->id.lib, fls->group); } } /*Game Settings: Dome Warp Text*/ sce->gm.dome.warptext = newlibadr(fd, sce->id.lib, sce->gm.dome.warptext); /* Motion Tracking */ sce->clip = newlibadr_us(fd, sce->id.lib, sce->clip); #ifdef USE_SETSCENE_CHECK if (sce->set != NULL) { /* link flag for scenes with set would be reset later, * so this way we only check cyclic for newly linked scenes. */ need_check_set = true; } else { /* postpone un-setting the flag until we've checked the set-scene */ sce->id.tag &= ~LIB_TAG_NEED_LINK; } #else sce->id.tag &= ~LIB_TAG_NEED_LINK; #endif } #ifdef USE_SETSCENE_CHECK totscene++; #endif } #ifdef USE_SETSCENE_CHECK if (need_check_set) { for (Scene *sce = main->scene.first; sce; sce = sce->id.next) { if (sce->id.tag & LIB_TAG_NEED_LINK) { sce->id.tag &= ~LIB_TAG_NEED_LINK; if (!scene_validate_setscene__liblink(sce, totscene)) { printf("Found cyclic background scene when linking %s\n", sce->id.name + 2); } } } } #endif } #undef USE_SETSCENE_CHECK static void link_recurs_seq(FileData *fd, ListBase *lb) { Sequence *seq; link_list(fd, lb); for (seq = lb->first; seq; seq = seq->next) { if (seq->seqbase.first) link_recurs_seq(fd, &seq->seqbase); } } static void direct_link_paint(FileData *fd, Paint *p) { if (p->num_input_samples < 1) p->num_input_samples = 1; p->cavity_curve = newdataadr(fd, p->cavity_curve); if (p->cavity_curve) direct_link_curvemapping(fd, p->cavity_curve); else BKE_paint_cavity_curve_preset(p, CURVE_PRESET_LINE); } static void direct_link_paint_helper(FileData *fd, Paint **paint) { /* TODO. is this needed */ (*paint) = newdataadr(fd, (*paint)); if (*paint) { direct_link_paint(fd, *paint); } } static void direct_link_sequence_modifiers(FileData *fd, ListBase *lb) { SequenceModifierData *smd; link_list(fd, lb); for (smd = lb->first; smd; smd = smd->next) { if (smd->mask_sequence) smd->mask_sequence = newdataadr(fd, smd->mask_sequence); if (smd->type == seqModifierType_Curves) { CurvesModifierData *cmd = (CurvesModifierData *) smd; direct_link_curvemapping(fd, &cmd->curve_mapping); } else if (smd->type == seqModifierType_HueCorrect) { HueCorrectModifierData *hcmd = (HueCorrectModifierData *) smd; direct_link_curvemapping(fd, &hcmd->curve_mapping); } } } static void direct_link_view_settings(FileData *fd, ColorManagedViewSettings *view_settings) { view_settings->curve_mapping = newdataadr(fd, view_settings->curve_mapping); if (view_settings->curve_mapping) direct_link_curvemapping(fd, view_settings->curve_mapping); } static void direct_link_scene(FileData *fd, Scene *sce) { Editing *ed; Sequence *seq; MetaStack *ms; RigidBodyWorld *rbw; SceneRenderLayer *srl; sce->theDag = NULL; sce->depsgraph = NULL; sce->obedit = NULL; sce->stats = NULL; sce->fps_info = NULL; sce->customdata_mask_modal = 0; sce->lay_updated = 0; BKE_sound_create_scene(sce); /* set users to one by default, not in lib-link, this will increase it for compo nodes */ id_us_ensure_real(&sce->id); link_list(fd, &(sce->base)); sce->adt = newdataadr(fd, sce->adt); direct_link_animdata(fd, sce->adt); link_list(fd, &sce->keyingsets); direct_link_keyingsets(fd, &sce->keyingsets); sce->basact = newdataadr(fd, sce->basact); sce->toolsettings= newdataadr(fd, sce->toolsettings); if (sce->toolsettings) { direct_link_paint_helper(fd, (Paint**)&sce->toolsettings->sculpt); direct_link_paint_helper(fd, (Paint**)&sce->toolsettings->vpaint); direct_link_paint_helper(fd, (Paint**)&sce->toolsettings->wpaint); direct_link_paint_helper(fd, (Paint**)&sce->toolsettings->uvsculpt); direct_link_paint(fd, &sce->toolsettings->imapaint.paint); sce->toolsettings->imapaint.paintcursor = NULL; sce->toolsettings->particle.paintcursor = NULL; sce->toolsettings->particle.scene = NULL; sce->toolsettings->particle.object = NULL; sce->toolsettings->gp_sculpt.paintcursor = NULL; /* in rare cases this is needed, see [#33806] */ if (sce->toolsettings->vpaint) { sce->toolsettings->vpaint->vpaint_prev = NULL; sce->toolsettings->vpaint->tot = 0; } if (sce->toolsettings->wpaint) { sce->toolsettings->wpaint->wpaint_prev = NULL; sce->toolsettings->wpaint->tot = 0; } /* relink grease pencil drawing brushes */ link_list(fd, &sce->toolsettings->gp_brushes); for (bGPDbrush *brush = sce->toolsettings->gp_brushes.first; brush; brush = brush->next) { brush->cur_sensitivity = newdataadr(fd, brush->cur_sensitivity); if (brush->cur_sensitivity) { direct_link_curvemapping(fd, brush->cur_sensitivity); } brush->cur_strength = newdataadr(fd, brush->cur_strength); if (brush->cur_strength) { direct_link_curvemapping(fd, brush->cur_strength); } brush->cur_jitter = newdataadr(fd, brush->cur_jitter); if (brush->cur_jitter) { direct_link_curvemapping(fd, brush->cur_jitter); } } /* relink grease pencil interpolation curves */ sce->toolsettings->gp_interpolate.custom_ipo = newdataadr(fd, sce->toolsettings->gp_interpolate.custom_ipo); if (sce->toolsettings->gp_interpolate.custom_ipo) { direct_link_curvemapping(fd, sce->toolsettings->gp_interpolate.custom_ipo); } } if (sce->ed) { ListBase *old_seqbasep = &sce->ed->seqbase; ed = sce->ed = newdataadr(fd, sce->ed); ed->act_seq = newdataadr(fd, ed->act_seq); /* recursive link sequences, lb will be correctly initialized */ link_recurs_seq(fd, &ed->seqbase); SEQ_BEGIN (ed, seq) { seq->seq1= newdataadr(fd, seq->seq1); seq->seq2= newdataadr(fd, seq->seq2); seq->seq3= newdataadr(fd, seq->seq3); /* a patch: after introduction of effects with 3 input strips */ if (seq->seq3 == NULL) seq->seq3 = seq->seq2; seq->effectdata = newdataadr(fd, seq->effectdata); seq->stereo3d_format = newdataadr(fd, seq->stereo3d_format); if (seq->type & SEQ_TYPE_EFFECT) seq->flag |= SEQ_EFFECT_NOT_LOADED; if (seq->type == SEQ_TYPE_SPEED) { SpeedControlVars *s = seq->effectdata; s->frameMap = NULL; } seq->prop = newdataadr(fd, seq->prop); IDP_DirectLinkGroup_OrFree(&seq->prop, (fd->flags & FD_FLAGS_SWITCH_ENDIAN), fd); seq->strip = newdataadr(fd, seq->strip); if (seq->strip && seq->strip->done==0) { seq->strip->done = true; if (ELEM(seq->type, SEQ_TYPE_IMAGE, SEQ_TYPE_MOVIE, SEQ_TYPE_SOUND_RAM, SEQ_TYPE_SOUND_HD)) { seq->strip->stripdata = newdataadr(fd, seq->strip->stripdata); } else { seq->strip->stripdata = NULL; } if (seq->flag & SEQ_USE_CROP) { seq->strip->crop = newdataadr( fd, seq->strip->crop); } else { seq->strip->crop = NULL; } if (seq->flag & SEQ_USE_TRANSFORM) { seq->strip->transform = newdataadr( fd, seq->strip->transform); } else { seq->strip->transform = NULL; } if (seq->flag & SEQ_USE_PROXY) { seq->strip->proxy = newdataadr(fd, seq->strip->proxy); if (seq->strip->proxy) { seq->strip->proxy->anim = NULL; } else { BKE_sequencer_proxy_set(seq, true); } } else { seq->strip->proxy = NULL; } /* need to load color balance to it could be converted to modifier */ seq->strip->color_balance = newdataadr(fd, seq->strip->color_balance); } direct_link_sequence_modifiers(fd, &seq->modifiers); } SEQ_END /* link metastack, slight abuse of structs here, have to restore pointer to internal part in struct */ { Sequence temp; void *poin; intptr_t offset; offset = ((intptr_t)&(temp.seqbase)) - ((intptr_t)&temp); /* root pointer */ if (ed->seqbasep == old_seqbasep) { ed->seqbasep = &ed->seqbase; } else { poin = POINTER_OFFSET(ed->seqbasep, -offset); poin = newdataadr(fd, poin); if (poin) ed->seqbasep = (ListBase *)POINTER_OFFSET(poin, offset); else ed->seqbasep = &ed->seqbase; } /* stack */ link_list(fd, &(ed->metastack)); for (ms = ed->metastack.first; ms; ms= ms->next) { ms->parseq = newdataadr(fd, ms->parseq); if (ms->oldbasep == old_seqbasep) ms->oldbasep= &ed->seqbase; else { poin = POINTER_OFFSET(ms->oldbasep, -offset); poin = newdataadr(fd, poin); if (poin) ms->oldbasep = (ListBase *)POINTER_OFFSET(poin, offset); else ms->oldbasep = &ed->seqbase; } } } } sce->r.avicodecdata = newdataadr(fd, sce->r.avicodecdata); if (sce->r.avicodecdata) { sce->r.avicodecdata->lpFormat = newdataadr(fd, sce->r.avicodecdata->lpFormat); sce->r.avicodecdata->lpParms = newdataadr(fd, sce->r.avicodecdata->lpParms); } sce->r.qtcodecdata = newdataadr(fd, sce->r.qtcodecdata); if (sce->r.qtcodecdata) { sce->r.qtcodecdata->cdParms = newdataadr(fd, sce->r.qtcodecdata->cdParms); } if (sce->r.ffcodecdata.properties) { sce->r.ffcodecdata.properties = newdataadr(fd, sce->r.ffcodecdata.properties); IDP_DirectLinkGroup_OrFree(&sce->r.ffcodecdata.properties, (fd->flags & FD_FLAGS_SWITCH_ENDIAN), fd); } link_list(fd, &(sce->markers)); link_list(fd, &(sce->transform_spaces)); link_list(fd, &(sce->r.layers)); link_list(fd, &(sce->r.views)); for (srl = sce->r.layers.first; srl; srl = srl->next) { srl->prop = newdataadr(fd, srl->prop); IDP_DirectLinkGroup_OrFree(&srl->prop, (fd->flags & FD_FLAGS_SWITCH_ENDIAN), fd); } for (srl = sce->r.layers.first; srl; srl = srl->next) { link_list(fd, &(srl->freestyleConfig.modules)); } for (srl = sce->r.layers.first; srl; srl = srl->next) { link_list(fd, &(srl->freestyleConfig.linesets)); } sce->nodetree = newdataadr(fd, sce->nodetree); if (sce->nodetree) { direct_link_id(fd, &sce->nodetree->id); direct_link_nodetree(fd, sce->nodetree); } direct_link_view_settings(fd, &sce->view_settings); sce->rigidbody_world = newdataadr(fd, sce->rigidbody_world); rbw = sce->rigidbody_world; if (rbw) { /* must nullify the reference to physics sim object, since it no-longer exist * (and will need to be recalculated) */ rbw->physics_world = NULL; rbw->objects = NULL; rbw->numbodies = 0; /* set effector weights */ rbw->effector_weights = newdataadr(fd, rbw->effector_weights); if (!rbw->effector_weights) rbw->effector_weights = BKE_add_effector_weights(NULL); /* link cache */ direct_link_pointcache_list(fd, &rbw->ptcaches, &rbw->pointcache, false); /* make sure simulation starts from the beginning after loading file */ if (rbw->pointcache) { rbw->ltime = (float)rbw->pointcache->startframe; } } sce->preview = direct_link_preview_image(fd, sce->preview); direct_link_curvemapping(fd, &sce->r.mblur_shutter_curve); } /* ************ READ WM ***************** */ static void direct_link_windowmanager(FileData *fd, wmWindowManager *wm) { wmWindow *win; id_us_ensure_real(&wm->id); link_list(fd, &wm->windows); for (win = wm->windows.first; win; win = win->next) { win->ghostwin = NULL; win->eventstate = NULL; win->curswin = NULL; win->tweak = NULL; #ifdef WIN32 win->ime_data = NULL; #endif BLI_listbase_clear(&win->queue); BLI_listbase_clear(&win->handlers); BLI_listbase_clear(&win->modalhandlers); BLI_listbase_clear(&win->subwindows); BLI_listbase_clear(&win->gesture); BLI_listbase_clear(&win->drawdata); win->drawmethod = -1; win->drawfail = 0; win->active = 0; win->cursor = 0; win->lastcursor = 0; win->modalcursor = 0; win->grabcursor = 0; win->addmousemove = true; win->multisamples = 0; win->stereo3d_format = newdataadr(fd, win->stereo3d_format); /* multiview always fallback to anaglyph at file opening * otherwise quadbuffer saved files can break Blender */ if (win->stereo3d_format) { win->stereo3d_format->display_mode = S3D_DISPLAY_ANAGLYPH; } } BLI_listbase_clear(&wm->timers); BLI_listbase_clear(&wm->operators); BLI_listbase_clear(&wm->paintcursors); BLI_listbase_clear(&wm->queue); BKE_reports_init(&wm->reports, RPT_STORE); BLI_listbase_clear(&wm->keyconfigs); wm->defaultconf = NULL; wm->addonconf = NULL; wm->userconf = NULL; BLI_listbase_clear(&wm->jobs); BLI_listbase_clear(&wm->drags); wm->windrawable = NULL; wm->winactive = NULL; wm->initialized = 0; wm->op_undo_depth = 0; wm->is_interface_locked = 0; } static void lib_link_windowmanager(FileData *fd, Main *main) { wmWindowManager *wm; wmWindow *win; for (wm = main->wm.first; wm; wm = wm->id.next) { if (wm->id.tag & LIB_TAG_NEED_LINK) { /* Note: WM IDProperties are never written to file, hence no need to read/link them here. */ for (win = wm->windows.first; win; win = win->next) { win->screen = newlibadr(fd, NULL, win->screen); } wm->id.tag &= ~LIB_TAG_NEED_LINK; } } } /* ****************** READ GREASE PENCIL ***************** */ /* relink's grease pencil data's refs */ static void lib_link_gpencil(FileData *fd, Main *main) { for (bGPdata *gpd = main->gpencil.first; gpd; gpd = gpd->id.next) { if (gpd->id.tag & LIB_TAG_NEED_LINK) { IDP_LibLinkProperty(gpd->id.properties, fd); lib_link_animdata(fd, &gpd->id, gpd->adt); gpd->id.tag &= ~LIB_TAG_NEED_LINK; } } } /* relinks grease-pencil data - used for direct_link and old file linkage */ static void direct_link_gpencil(FileData *fd, bGPdata *gpd) { bGPDlayer *gpl; bGPDframe *gpf; bGPDstroke *gps; bGPDpalette *palette; /* we must firstly have some grease-pencil data to link! */ if (gpd == NULL) return; /* relink animdata */ gpd->adt = newdataadr(fd, gpd->adt); direct_link_animdata(fd, gpd->adt); /* relink palettes */ link_list(fd, &gpd->palettes); for (palette = gpd->palettes.first; palette; palette = palette->next) { link_list(fd, &palette->colors); } /* relink layers */ link_list(fd, &gpd->layers); for (gpl = gpd->layers.first; gpl; gpl = gpl->next) { /* parent */ gpl->parent = newlibadr(fd, gpd->id.lib, gpl->parent); /* relink frames */ link_list(fd, &gpl->frames); gpl->actframe = newdataadr(fd, gpl->actframe); for (gpf = gpl->frames.first; gpf; gpf = gpf->next) { /* relink strokes (and their points) */ link_list(fd, &gpf->strokes); for (gps = gpf->strokes.first; gps; gps = gps->next) { gps->points = newdataadr(fd, gps->points); /* the triangulation is not saved, so need to be recalculated */ gps->triangles = NULL; gps->tot_triangles = 0; gps->flag |= GP_STROKE_RECALC_CACHES; /* the color pointer is not saved, so need to be recalculated using the color name */ gps->palcolor = NULL; gps->flag |= GP_STROKE_RECALC_COLOR; } } } } /* ****************** READ SCREEN ***************** */ /* note: file read without screens option G_FILE_NO_UI; * check lib pointers in call below */ static void lib_link_screen(FileData *fd, Main *main) { for (bScreen *sc = main->screen.first; sc; sc = sc->id.next) { if (sc->id.tag & LIB_TAG_NEED_LINK) { IDP_LibLinkProperty(sc->id.properties, fd); id_us_ensure_real(&sc->id); sc->scene = newlibadr(fd, sc->id.lib, sc->scene); /* this should not happen, but apparently it does somehow. Until we figure out the cause, * just assign first available scene */ if (!sc->scene) sc->scene = main->scene.first; sc->animtimer = NULL; /* saved in rare cases */ sc->scrubbing = false; for (ScrArea *sa = sc->areabase.first; sa; sa = sa->next) { sa->full = newlibadr(fd, sc->id.lib, sa->full); for (SpaceLink *sl = sa->spacedata.first; sl; sl= sl->next) { switch (sl->spacetype) { case SPACE_VIEW3D: { View3D *v3d = (View3D*) sl; BGpic *bgpic = NULL; v3d->camera= newlibadr(fd, sc->id.lib, v3d->camera); v3d->ob_centre= newlibadr(fd, sc->id.lib, v3d->ob_centre); /* should be do_versions but not easy adding into the listbase */ if (v3d->bgpic) { v3d->bgpic = newlibadr(fd, sc->id.lib, v3d->bgpic); BLI_addtail(&v3d->bgpicbase, bgpic); v3d->bgpic = NULL; } for (bgpic = v3d->bgpicbase.first; bgpic; bgpic = bgpic->next) { bgpic->ima = newlibadr_us(fd, sc->id.lib, bgpic->ima); bgpic->clip = newlibadr_us(fd, sc->id.lib, bgpic->clip); } if (v3d->localvd) { v3d->localvd->camera = newlibadr(fd, sc->id.lib, v3d->localvd->camera); } break; } case SPACE_IPO: { SpaceIpo *sipo = (SpaceIpo *)sl; bDopeSheet *ads = sipo->ads; if (ads) { ads->source = newlibadr(fd, sc->id.lib, ads->source); ads->filter_grp = newlibadr(fd, sc->id.lib, ads->filter_grp); } break; } case SPACE_BUTS: { SpaceButs *sbuts = (SpaceButs *)sl; sbuts->pinid = newlibadr(fd, sc->id.lib, sbuts->pinid); if (sbuts->pinid == NULL) { sbuts->flag &= ~SB_PIN_CONTEXT; } break; } case SPACE_FILE: break; case SPACE_ACTION: { SpaceAction *saction = (SpaceAction *)sl; bDopeSheet *ads = &saction->ads; if (ads) { ads->source = newlibadr(fd, sc->id.lib, ads->source); ads->filter_grp = newlibadr(fd, sc->id.lib, ads->filter_grp); } saction->action = newlibadr(fd, sc->id.lib, saction->action); break; } case SPACE_IMAGE: { SpaceImage *sima = (SpaceImage *)sl; sima->image = newlibadr_real_us(fd, sc->id.lib, sima->image); sima->mask_info.mask = newlibadr_real_us(fd, sc->id.lib, sima->mask_info.mask); /* NOTE: pre-2.5, this was local data not lib data, but now we need this as lib data * so fingers crossed this works fine! */ sima->gpd = newlibadr_us(fd, sc->id.lib, sima->gpd); break; } case SPACE_SEQ: { SpaceSeq *sseq = (SpaceSeq *)sl; /* NOTE: pre-2.5, this was local data not lib data, but now we need this as lib data * so fingers crossed this works fine! */ sseq->gpd = newlibadr_us(fd, sc->id.lib, sseq->gpd); break; } case SPACE_NLA: { SpaceNla *snla= (SpaceNla *)sl; bDopeSheet *ads= snla->ads; if (ads) { ads->source = newlibadr(fd, sc->id.lib, ads->source); ads->filter_grp = newlibadr(fd, sc->id.lib, ads->filter_grp); } break; } case SPACE_TEXT: { SpaceText *st= (SpaceText *)sl; st->text= newlibadr(fd, sc->id.lib, st->text); break; } case SPACE_SCRIPT: { SpaceScript *scpt = (SpaceScript *)sl; /*scpt->script = NULL; - 2.45 set to null, better re-run the script */ if (scpt->script) { scpt->script = newlibadr(fd, sc->id.lib, scpt->script); if (scpt->script) { SCRIPT_SET_NULL(scpt->script); } } break; } case SPACE_OUTLINER: { SpaceOops *so= (SpaceOops *)sl; so->search_tse.id = newlibadr(fd, NULL, so->search_tse.id); if (so->treestore) { TreeStoreElem *tselem; BLI_mempool_iter iter; BLI_mempool_iternew(so->treestore, &iter); while ((tselem = BLI_mempool_iterstep(&iter))) { tselem->id = newlibadr(fd, NULL, tselem->id); } if (so->treehash) { /* rebuild hash table, because it depends on ids too */ so->storeflag |= SO_TREESTORE_REBUILD; } } break; } case SPACE_NODE: { SpaceNode *snode = (SpaceNode *)sl; bNodeTreePath *path, *path_next; bNodeTree *ntree; /* node tree can be stored locally in id too, link this first */ snode->id = newlibadr(fd, sc->id.lib, snode->id); snode->from = newlibadr(fd, sc->id.lib, snode->from); ntree = snode->id ? ntreeFromID(snode->id) : NULL; snode->nodetree = ntree ? ntree : newlibadr_us(fd, sc->id.lib, snode->nodetree); for (path = snode->treepath.first; path; path = path->next) { if (path == snode->treepath.first) { /* first nodetree in path is same as snode->nodetree */ path->nodetree = snode->nodetree; } else path->nodetree = newlibadr_us(fd, sc->id.lib, path->nodetree); if (!path->nodetree) break; } /* remaining path entries are invalid, remove */ for (; path; path = path_next) { path_next = path->next; BLI_remlink(&snode->treepath, path); MEM_freeN(path); } /* edittree is just the last in the path, * set this directly since the path may have been shortened above */ if (snode->treepath.last) { path = snode->treepath.last; snode->edittree = path->nodetree; } else { snode->edittree = NULL; } break; } case SPACE_CLIP: { SpaceClip *sclip = (SpaceClip *)sl; sclip->clip = newlibadr_real_us(fd, sc->id.lib, sclip->clip); sclip->mask_info.mask = newlibadr_real_us(fd, sc->id.lib, sclip->mask_info.mask); break; } case SPACE_LOGIC: { SpaceLogic *slogic = (SpaceLogic *)sl; slogic->gpd = newlibadr_us(fd, sc->id.lib, slogic->gpd); break; } default: break; } } } sc->id.tag &= ~LIB_TAG_NEED_LINK; } } } /* how to handle user count on pointer restore */ typedef enum ePointerUserMode { USER_IGNORE = 0, /* ignore user count */ USER_REAL = 1, /* ensure at least one real user (fake user ignored) */ } ePointerUserMode; static void restore_pointer_user(ID *id, ID *newid, ePointerUserMode user) { BLI_assert(STREQ(newid->name + 2, id->name + 2)); BLI_assert(newid->lib == id->lib); UNUSED_VARS_NDEBUG(id); if (user == USER_REAL) { id_us_ensure_real(newid); } } #ifndef USE_GHASH_RESTORE_POINTER /** * A version of #restore_pointer_by_name that performs a full search (slow!). * Use only for limited lookups, when the overhead of * creating a #IDNameLib_Map for a single lookup isn't worthwhile. */ static void *restore_pointer_by_name_main(Main *mainp, ID *id, ePointerUserMode user) { if (id) { ListBase *lb = which_libbase(mainp, GS(id->name)); if (lb) { /* there's still risk of checking corrupt mem (freed Ids in oops) */ ID *idn = lb->first; for (; idn; idn = idn->next) { if (STREQ(idn->name + 2, id->name + 2)) { if (idn->lib == id->lib) { restore_pointer_user(id, idn, user); break; } } } return idn; } } return NULL; } #endif /** * Only for undo files, or to restore a screen after reading without UI... * * \param user: * - USER_IGNORE: no usercount change * - USER_REAL: ensure a real user (even if a fake one is set) * \param id_map: lookup table, use when performing many lookups. * this could be made an optional argument (falling back to a full lookup), * however at the moment it's always available. */ static void *restore_pointer_by_name(struct IDNameLib_Map *id_map, ID *id, ePointerUserMode user) { #ifdef USE_GHASH_RESTORE_POINTER if (id) { /* use fast lookup when available */ ID *idn = BKE_main_idmap_lookup_id(id_map, id); if (idn) { restore_pointer_user(id, idn, user); } return idn; } return NULL; #else Main *mainp = BKE_main_idmap_main_get(id_map); return restore_pointer_by_name_main(mainp, id, user); #endif } static void lib_link_seq_clipboard_pt_restore(ID *id, struct IDNameLib_Map *id_map) { if (id) { /* clipboard must ensure this */ BLI_assert(id->newid != NULL); id->newid = restore_pointer_by_name(id_map, id->newid, USER_REAL); } } static int lib_link_seq_clipboard_cb(Sequence *seq, void *arg_pt) { struct IDNameLib_Map *id_map = arg_pt; lib_link_seq_clipboard_pt_restore((ID *)seq->scene, id_map); lib_link_seq_clipboard_pt_restore((ID *)seq->scene_camera, id_map); lib_link_seq_clipboard_pt_restore((ID *)seq->clip, id_map); lib_link_seq_clipboard_pt_restore((ID *)seq->mask, id_map); lib_link_seq_clipboard_pt_restore((ID *)seq->sound, id_map); return 1; } static void lib_link_clipboard_restore(struct IDNameLib_Map *id_map) { /* update IDs stored in sequencer clipboard */ BKE_sequencer_base_recursive_apply(&seqbase_clipboard, lib_link_seq_clipboard_cb, id_map); } /* called from kernel/blender.c */ /* used to link a file (without UI) to the current UI */ /* note that it assumes the old pointers in UI are still valid, so old Main is not freed */ void blo_lib_link_screen_restore(Main *newmain, bScreen *curscreen, Scene *curscene) { wmWindow *win; wmWindowManager *wm; bScreen *sc; ScrArea *sa; struct IDNameLib_Map *id_map = BKE_main_idmap_create(newmain); /* first windowmanager */ for (wm = newmain->wm.first; wm; wm = wm->id.next) { for (win= wm->windows.first; win; win= win->next) { win->screen = restore_pointer_by_name(id_map, (ID *)win->screen, USER_REAL); if (win->screen == NULL) win->screen = curscreen; win->screen->winid = win->winid; } } for (sc = newmain->screen.first; sc; sc = sc->id.next) { Scene *oldscene = sc->scene; sc->scene= restore_pointer_by_name(id_map, (ID *)sc->scene, USER_REAL); if (sc->scene == NULL) sc->scene = curscene; /* keep cursor location through undo */ copy_v3_v3(sc->scene->cursor, oldscene->cursor); for (sa = sc->areabase.first; sa; sa = sa->next) { SpaceLink *sl; for (sl = sa->spacedata.first; sl; sl = sl->next) { if (sl->spacetype == SPACE_VIEW3D) { View3D *v3d = (View3D *)sl; BGpic *bgpic; ARegion *ar; if (v3d->scenelock) v3d->camera = NULL; /* always get from scene */ else v3d->camera = restore_pointer_by_name(id_map, (ID *)v3d->camera, USER_REAL); if (v3d->camera == NULL) v3d->camera = sc->scene->camera; v3d->ob_centre = restore_pointer_by_name(id_map, (ID *)v3d->ob_centre, USER_REAL); for (bgpic= v3d->bgpicbase.first; bgpic; bgpic= bgpic->next) { if ((bgpic->ima = restore_pointer_by_name(id_map, (ID *)bgpic->ima, USER_IGNORE))) { id_us_plus((ID *)bgpic->ima); } if ((bgpic->clip = restore_pointer_by_name(id_map, (ID *)bgpic->clip, USER_IGNORE))) { id_us_plus((ID *)bgpic->clip); } } if (v3d->localvd) { /*Base *base;*/ v3d->localvd->camera = sc->scene->camera; /* localview can become invalid during undo/redo steps, so we exit it when no could be found */ #if 0 /* XXX regionlocalview ? */ for (base= sc->scene->base.first; base; base= base->next) { if (base->lay & v3d->lay) break; } if (base==NULL) { v3d->lay= v3d->localvd->lay; v3d->layact= v3d->localvd->layact; MEM_freeN(v3d->localvd); v3d->localvd= NULL; } #endif } else if (v3d->scenelock) { v3d->lay = sc->scene->lay; } /* not very nice, but could help */ if ((v3d->layact & v3d->lay) == 0) v3d->layact = v3d->lay; /* free render engines for now */ for (ar = sa->regionbase.first; ar; ar = ar->next) { RegionView3D *rv3d= ar->regiondata; if (rv3d && rv3d->render_engine) { RE_engine_free(rv3d->render_engine); rv3d->render_engine = NULL; } } } else if (sl->spacetype == SPACE_IPO) { SpaceIpo *sipo = (SpaceIpo *)sl; bDopeSheet *ads = sipo->ads; if (ads) { ads->source = restore_pointer_by_name(id_map, (ID *)ads->source, USER_REAL); if (ads->filter_grp) ads->filter_grp = restore_pointer_by_name(id_map, (ID *)ads->filter_grp, USER_IGNORE); } /* force recalc of list of channels (i.e. includes calculating F-Curve colors) * thus preventing the "black curves" problem post-undo */ sipo->flag |= SIPO_TEMP_NEEDCHANSYNC; } else if (sl->spacetype == SPACE_BUTS) { SpaceButs *sbuts = (SpaceButs *)sl; sbuts->pinid = restore_pointer_by_name(id_map, sbuts->pinid, USER_IGNORE); if (sbuts->pinid == NULL) { sbuts->flag &= ~SB_PIN_CONTEXT; } /* TODO: restore path pointers: T40046 * (complicated because this contains data pointers too, not just ID)*/ MEM_SAFE_FREE(sbuts->path); } else if (sl->spacetype == SPACE_FILE) { SpaceFile *sfile = (SpaceFile *)sl; sfile->op = NULL; sfile->previews_timer = NULL; } else if (sl->spacetype == SPACE_ACTION) { SpaceAction *saction = (SpaceAction *)sl; saction->action = restore_pointer_by_name(id_map, (ID *)saction->action, USER_REAL); saction->ads.source = restore_pointer_by_name(id_map, (ID *)saction->ads.source, USER_REAL); if (saction->ads.filter_grp) saction->ads.filter_grp = restore_pointer_by_name(id_map, (ID *)saction->ads.filter_grp, USER_IGNORE); /* force recalc of list of channels, potentially updating the active action * while we're at it (as it can only be updated that way) [#28962] */ saction->flag |= SACTION_TEMP_NEEDCHANSYNC; } else if (sl->spacetype == SPACE_IMAGE) { SpaceImage *sima = (SpaceImage *)sl; sima->image = restore_pointer_by_name(id_map, (ID *)sima->image, USER_REAL); /* this will be freed, not worth attempting to find same scene, * since it gets initialized later */ sima->iuser.scene = NULL; #if 0 /* Those are allocated and freed by space code, no need to handle them here. */ MEM_SAFE_FREE(sima->scopes.waveform_1); MEM_SAFE_FREE(sima->scopes.waveform_2); MEM_SAFE_FREE(sima->scopes.waveform_3); MEM_SAFE_FREE(sima->scopes.vecscope); #endif sima->scopes.ok = 0; /* NOTE: pre-2.5, this was local data not lib data, but now we need this as lib data * so assume that here we're doing for undo only... */ sima->gpd = restore_pointer_by_name(id_map, (ID *)sima->gpd, USER_REAL); sima->mask_info.mask = restore_pointer_by_name(id_map, (ID *)sima->mask_info.mask, USER_REAL); } else if (sl->spacetype == SPACE_SEQ) { SpaceSeq *sseq = (SpaceSeq *)sl; /* NOTE: pre-2.5, this was local data not lib data, but now we need this as lib data * so assume that here we're doing for undo only... */ sseq->gpd = restore_pointer_by_name(id_map, (ID *)sseq->gpd, USER_REAL); } else if (sl->spacetype == SPACE_NLA) { SpaceNla *snla = (SpaceNla *)sl; bDopeSheet *ads = snla->ads; if (ads) { ads->source = restore_pointer_by_name(id_map, (ID *)ads->source, USER_REAL); if (ads->filter_grp) ads->filter_grp = restore_pointer_by_name(id_map, (ID *)ads->filter_grp, USER_IGNORE); } } else if (sl->spacetype == SPACE_TEXT) { SpaceText *st = (SpaceText *)sl; st->text = restore_pointer_by_name(id_map, (ID *)st->text, USER_REAL); if (st->text == NULL) st->text = newmain->text.first; } else if (sl->spacetype == SPACE_SCRIPT) { SpaceScript *scpt = (SpaceScript *)sl; scpt->script = restore_pointer_by_name(id_map, (ID *)scpt->script, USER_REAL); /*sc->script = NULL; - 2.45 set to null, better re-run the script */ if (scpt->script) { SCRIPT_SET_NULL(scpt->script); } } else if (sl->spacetype == SPACE_OUTLINER) { SpaceOops *so= (SpaceOops *)sl; so->search_tse.id = restore_pointer_by_name(id_map, so->search_tse.id, USER_IGNORE); if (so->treestore) { TreeStoreElem *tselem; BLI_mempool_iter iter; BLI_mempool_iternew(so->treestore, &iter); while ((tselem = BLI_mempool_iterstep(&iter))) { /* Do not try to restore pointers to drivers/sequence/etc., can crash in undo case! */ if (TSE_IS_REAL_ID(tselem)) { tselem->id = restore_pointer_by_name(id_map, tselem->id, USER_IGNORE); } else { tselem->id = NULL; } } if (so->treehash) { /* rebuild hash table, because it depends on ids too */ so->storeflag |= SO_TREESTORE_REBUILD; } } } else if (sl->spacetype == SPACE_NODE) { SpaceNode *snode= (SpaceNode *)sl; bNodeTreePath *path, *path_next; bNodeTree *ntree; /* node tree can be stored locally in id too, link this first */ snode->id = restore_pointer_by_name(id_map, snode->id, USER_REAL); snode->from = restore_pointer_by_name(id_map, snode->from, USER_IGNORE); ntree = snode->id ? ntreeFromID(snode->id) : NULL; snode->nodetree = ntree ? ntree : restore_pointer_by_name(id_map, (ID *)snode->nodetree, USER_REAL); for (path = snode->treepath.first; path; path = path->next) { if (path == snode->treepath.first) { /* first nodetree in path is same as snode->nodetree */ path->nodetree = snode->nodetree; } else path->nodetree= restore_pointer_by_name(id_map, (ID*)path->nodetree, USER_REAL); if (!path->nodetree) break; } /* remaining path entries are invalid, remove */ for (; path; path = path_next) { path_next = path->next; BLI_remlink(&snode->treepath, path); MEM_freeN(path); } /* edittree is just the last in the path, * set this directly since the path may have been shortened above */ if (snode->treepath.last) { path = snode->treepath.last; snode->edittree = path->nodetree; } else snode->edittree = NULL; } else if (sl->spacetype == SPACE_CLIP) { SpaceClip *sclip = (SpaceClip *)sl; sclip->clip = restore_pointer_by_name(id_map, (ID *)sclip->clip, USER_REAL); sclip->mask_info.mask = restore_pointer_by_name(id_map, (ID *)sclip->mask_info.mask, USER_REAL); sclip->scopes.ok = 0; } else if (sl->spacetype == SPACE_LOGIC) { SpaceLogic *slogic = (SpaceLogic *)sl; slogic->gpd = restore_pointer_by_name(id_map, (ID *)slogic->gpd, USER_REAL); } } } } /* update IDs stored in all possible clipboards */ lib_link_clipboard_restore(id_map); BKE_main_idmap_destroy(id_map); } static void direct_link_region(FileData *fd, ARegion *ar, int spacetype) { Panel *pa; uiList *ui_list; link_list(fd, &ar->panels); for (pa = ar->panels.first; pa; pa = pa->next) { pa->paneltab = newdataadr(fd, pa->paneltab); pa->runtime_flag = 0; pa->activedata = NULL; pa->type = NULL; } link_list(fd, &ar->panels_category_active); link_list(fd, &ar->ui_lists); for (ui_list = ar->ui_lists.first; ui_list; ui_list = ui_list->next) { ui_list->type = NULL; ui_list->dyn_data = NULL; ui_list->properties = newdataadr(fd, ui_list->properties); IDP_DirectLinkGroup_OrFree(&ui_list->properties, (fd->flags & FD_FLAGS_SWITCH_ENDIAN), fd); } link_list(fd, &ar->ui_previews); if (spacetype == SPACE_EMPTY) { /* unkown space type, don't leak regiondata */ ar->regiondata = NULL; } else { ar->regiondata = newdataadr(fd, ar->regiondata); if (ar->regiondata) { if (spacetype == SPACE_VIEW3D) { RegionView3D *rv3d = ar->regiondata; rv3d->localvd = newdataadr(fd, rv3d->localvd); rv3d->clipbb = newdataadr(fd, rv3d->clipbb); rv3d->depths = NULL; rv3d->gpuoffscreen = NULL; rv3d->render_engine = NULL; rv3d->sms = NULL; rv3d->smooth_timer = NULL; rv3d->compositor = NULL; } } } ar->v2d.tab_offset = NULL; ar->v2d.tab_num = 0; ar->v2d.tab_cur = 0; ar->v2d.sms = NULL; BLI_listbase_clear(&ar->panels_category); BLI_listbase_clear(&ar->handlers); BLI_listbase_clear(&ar->uiblocks); ar->headerstr = NULL; ar->swinid = 0; ar->type = NULL; ar->swap = 0; ar->do_draw = 0; ar->regiontimer = NULL; memset(&ar->drawrct, 0, sizeof(ar->drawrct)); } /* for the saved 2.50 files without regiondata */ /* and as patch for 2.48 and older */ void blo_do_versions_view3d_split_250(View3D *v3d, ListBase *regions) { ARegion *ar; for (ar = regions->first; ar; ar = ar->next) { if (ar->regiontype==RGN_TYPE_WINDOW && ar->regiondata==NULL) { RegionView3D *rv3d; rv3d = ar->regiondata = MEM_callocN(sizeof(RegionView3D), "region v3d patch"); rv3d->persp = (char)v3d->persp; rv3d->view = (char)v3d->view; rv3d->dist = v3d->dist; copy_v3_v3(rv3d->ofs, v3d->ofs); copy_qt_qt(rv3d->viewquat, v3d->viewquat); } } /* this was not initialized correct always */ if (v3d->twtype == 0) v3d->twtype = V3D_MANIP_TRANSLATE; if (v3d->gridsubdiv == 0) v3d->gridsubdiv = 10; } static bool direct_link_screen(FileData *fd, bScreen *sc) { ScrArea *sa; ScrVert *sv; ScrEdge *se; bool wrong_id = false; link_list(fd, &(sc->vertbase)); link_list(fd, &(sc->edgebase)); link_list(fd, &(sc->areabase)); sc->regionbase.first = sc->regionbase.last= NULL; sc->context = NULL; sc->mainwin = sc->subwinactive= 0; /* indices */ sc->swap = 0; /* edges */ for (se = sc->edgebase.first; se; se = se->next) { se->v1 = newdataadr(fd, se->v1); se->v2 = newdataadr(fd, se->v2); if ((intptr_t)se->v1 > (intptr_t)se->v2) { sv = se->v1; se->v1 = se->v2; se->v2 = sv; } if (se->v1 == NULL) { printf("Error reading Screen %s... removing it.\n", sc->id.name+2); BLI_remlink(&sc->edgebase, se); wrong_id = true; } } /* areas */ for (sa = sc->areabase.first; sa; sa = sa->next) { SpaceLink *sl; ARegion *ar; link_list(fd, &(sa->spacedata)); link_list(fd, &(sa->regionbase)); BLI_listbase_clear(&sa->handlers); sa->type = NULL; /* spacetype callbacks */ sa->region_active_win = -1; /* if we do not have the spacetype registered (game player), we cannot * free it, so don't allocate any new memory for such spacetypes. */ if (!BKE_spacetype_exists(sa->spacetype)) sa->spacetype = SPACE_EMPTY; for (ar = sa->regionbase.first; ar; ar = ar->next) direct_link_region(fd, ar, sa->spacetype); /* accident can happen when read/save new file with older version */ /* 2.50: we now always add spacedata for info */ if (sa->spacedata.first==NULL) { SpaceInfo *sinfo= MEM_callocN(sizeof(SpaceInfo), "spaceinfo"); sa->spacetype= sinfo->spacetype= SPACE_INFO; BLI_addtail(&sa->spacedata, sinfo); } /* add local view3d too */ else if (sa->spacetype == SPACE_VIEW3D) blo_do_versions_view3d_split_250(sa->spacedata.first, &sa->regionbase); /* incase we set above */ sa->butspacetype = sa->spacetype; for (sl = sa->spacedata.first; sl; sl = sl->next) { link_list(fd, &(sl->regionbase)); /* if we do not have the spacetype registered (game player), we cannot * free it, so don't allocate any new memory for such spacetypes. */ if (!BKE_spacetype_exists(sl->spacetype)) sl->spacetype = SPACE_EMPTY; for (ar = sl->regionbase.first; ar; ar = ar->next) direct_link_region(fd, ar, sl->spacetype); if (sl->spacetype == SPACE_VIEW3D) { View3D *v3d= (View3D*) sl; BGpic *bgpic; v3d->flag |= V3D_INVALID_BACKBUF; link_list(fd, &v3d->bgpicbase); /* should be do_versions except this doesnt fit well there */ if (v3d->bgpic) { bgpic = newdataadr(fd, v3d->bgpic); BLI_addtail(&v3d->bgpicbase, bgpic); v3d->bgpic = NULL; } for (bgpic = v3d->bgpicbase.first; bgpic; bgpic = bgpic->next) bgpic->iuser.ok = 1; if (v3d->gpd) { v3d->gpd = newdataadr(fd, v3d->gpd); direct_link_gpencil(fd, v3d->gpd); } v3d->localvd = newdataadr(fd, v3d->localvd); BLI_listbase_clear(&v3d->afterdraw_transp); BLI_listbase_clear(&v3d->afterdraw_xray); BLI_listbase_clear(&v3d->afterdraw_xraytransp); v3d->properties_storage = NULL; v3d->defmaterial = NULL; /* render can be quite heavy, set to solid on load */ if (v3d->drawtype == OB_RENDER) v3d->drawtype = OB_SOLID; v3d->prev_drawtype = OB_SOLID; if (v3d->fx_settings.dof) v3d->fx_settings.dof = newdataadr(fd, v3d->fx_settings.dof); if (v3d->fx_settings.ssao) v3d->fx_settings.ssao = newdataadr(fd, v3d->fx_settings.ssao); blo_do_versions_view3d_split_250(v3d, &sl->regionbase); } else if (sl->spacetype == SPACE_IPO) { SpaceIpo *sipo = (SpaceIpo *)sl; sipo->ads = newdataadr(fd, sipo->ads); BLI_listbase_clear(&sipo->ghostCurves); } else if (sl->spacetype == SPACE_NLA) { SpaceNla *snla = (SpaceNla *)sl; snla->ads = newdataadr(fd, snla->ads); } else if (sl->spacetype == SPACE_OUTLINER) { SpaceOops *soops = (SpaceOops *) sl; /* use newdataadr_no_us and do not free old memory avoiding double * frees and use of freed memory. this could happen because of a * bug fixed in revision 58959 where the treestore memory address * was not unique */ TreeStore *ts = newdataadr_no_us(fd, soops->treestore); soops->treestore = NULL; if (ts) { TreeStoreElem *elems = newdataadr_no_us(fd, ts->data); soops->treestore = BLI_mempool_create(sizeof(TreeStoreElem), ts->usedelem, 512, BLI_MEMPOOL_ALLOW_ITER); if (ts->usedelem && elems) { int i; for (i = 0; i < ts->usedelem; i++) { TreeStoreElem *new_elem = BLI_mempool_alloc(soops->treestore); *new_elem = elems[i]; } } /* we only saved what was used */ soops->storeflag |= SO_TREESTORE_CLEANUP; // at first draw } soops->treehash = NULL; soops->tree.first = soops->tree.last= NULL; } else if (sl->spacetype == SPACE_IMAGE) { SpaceImage *sima = (SpaceImage *)sl; sima->iuser.scene = NULL; sima->iuser.ok = 1; sima->scopes.waveform_1 = NULL; sima->scopes.waveform_2 = NULL; sima->scopes.waveform_3 = NULL; sima->scopes.vecscope = NULL; sima->scopes.ok = 0; /* WARNING: gpencil data is no longer stored directly in sima after 2.5 * so sacrifice a few old files for now to avoid crashes with new files! * committed: r28002 */ #if 0 sima->gpd = newdataadr(fd, sima->gpd); if (sima->gpd) direct_link_gpencil(fd, sima->gpd); #endif } else if (sl->spacetype == SPACE_NODE) { SpaceNode *snode = (SpaceNode *)sl; if (snode->gpd) { snode->gpd = newdataadr(fd, snode->gpd); direct_link_gpencil(fd, snode->gpd); } link_list(fd, &snode->treepath); snode->edittree = NULL; snode->iofsd = NULL; BLI_listbase_clear(&snode->linkdrag); } else if (sl->spacetype == SPACE_TEXT) { SpaceText *st= (SpaceText *)sl; st->drawcache = NULL; st->scroll_accum[0] = 0.0f; st->scroll_accum[1] = 0.0f; } else if (sl->spacetype == SPACE_TIME) { SpaceTime *stime = (SpaceTime *)sl; BLI_listbase_clear(&stime->caches); } else if (sl->spacetype == SPACE_LOGIC) { SpaceLogic *slogic = (SpaceLogic *)sl; /* XXX: this is new stuff, which shouldn't be directly linking to gpd... */ if (slogic->gpd) { slogic->gpd = newdataadr(fd, slogic->gpd); direct_link_gpencil(fd, slogic->gpd); } } else if (sl->spacetype == SPACE_SEQ) { SpaceSeq *sseq = (SpaceSeq *)sl; /* grease pencil data is not a direct data and can't be linked from direct_link* * functions, it should be linked from lib_link* functions instead * * otherwise it'll lead to lost grease data on open because it'll likely be * read from file after all other users of grease pencil and newdataadr would * simple return NULL here (sergey) */ #if 0 if (sseq->gpd) { sseq->gpd = newdataadr(fd, sseq->gpd); direct_link_gpencil(fd, sseq->gpd); } #endif sseq->scopes.reference_ibuf = NULL; sseq->scopes.zebra_ibuf = NULL; sseq->scopes.waveform_ibuf = NULL; sseq->scopes.sep_waveform_ibuf = NULL; sseq->scopes.vector_ibuf = NULL; sseq->scopes.histogram_ibuf = NULL; } else if (sl->spacetype == SPACE_BUTS) { SpaceButs *sbuts = (SpaceButs *)sl; sbuts->path= NULL; sbuts->texuser= NULL; sbuts->mainbo = sbuts->mainb; sbuts->mainbuser = sbuts->mainb; } else if (sl->spacetype == SPACE_CONSOLE) { SpaceConsole *sconsole = (SpaceConsole *)sl; ConsoleLine *cl, *cl_next; link_list(fd, &sconsole->scrollback); link_list(fd, &sconsole->history); //for (cl= sconsole->scrollback.first; cl; cl= cl->next) // cl->line= newdataadr(fd, cl->line); /* comma expressions, (e.g. expr1, expr2, expr3) evaluate each expression, * from left to right. the right-most expression sets the result of the comma * expression as a whole*/ for (cl = sconsole->history.first; cl; cl = cl_next) { cl_next = cl->next; cl->line = newdataadr(fd, cl->line); if (cl->line) { /* the allocted length is not written, so reset here */ cl->len_alloc = cl->len + 1; } else { BLI_remlink(&sconsole->history, cl); MEM_freeN(cl); } } } else if (sl->spacetype == SPACE_FILE) { SpaceFile *sfile = (SpaceFile *)sl; /* this sort of info is probably irrelevant for reloading... * plus, it isn't saved to files yet! */ sfile->folders_prev = sfile->folders_next = NULL; sfile->files = NULL; sfile->layout = NULL; sfile->op = NULL; sfile->previews_timer = NULL; sfile->params = newdataadr(fd, sfile->params); } else if (sl->spacetype == SPACE_CLIP) { SpaceClip *sclip = (SpaceClip *)sl; sclip->scopes.track_search = NULL; sclip->scopes.track_preview = NULL; sclip->scopes.ok = 0; } } BLI_listbase_clear(&sa->actionzones); sa->v1 = newdataadr(fd, sa->v1); sa->v2 = newdataadr(fd, sa->v2); sa->v3 = newdataadr(fd, sa->v3); sa->v4 = newdataadr(fd, sa->v4); } return wrong_id; } /* ********** READ LIBRARY *************** */ static void direct_link_library(FileData *fd, Library *lib, Main *main) { Main *newmain; /* check if the library was already read */ for (newmain = fd->mainlist->first; newmain; newmain = newmain->next) { if (newmain->curlib) { if (BLI_path_cmp(newmain->curlib->filepath, lib->filepath) == 0) { blo_reportf_wrap(fd->reports, RPT_WARNING, TIP_("Library '%s', '%s' had multiple instances, save and reload!"), lib->name, lib->filepath); change_idid_adr(fd->mainlist, fd, lib, newmain->curlib); /* change_idid_adr_fd(fd, lib, newmain->curlib); */ BLI_remlink(&main->library, lib); MEM_freeN(lib); return; } } } /* make sure we have full path in lib->filepath */ BLI_strncpy(lib->filepath, lib->name, sizeof(lib->name)); BLI_cleanup_path(fd->relabase, lib->filepath); // printf("direct_link_library: name %s\n", lib->name); // printf("direct_link_library: filepath %s\n", lib->filepath); lib->packedfile = direct_link_packedfile(fd, lib->packedfile); /* new main */ newmain = BKE_main_new(); BLI_addtail(fd->mainlist, newmain); newmain->curlib = lib; lib->parent = NULL; } static void lib_link_library(FileData *UNUSED(fd), Main *main) { Library *lib; for (lib = main->library.first; lib; lib = lib->id.next) { id_us_ensure_real(&lib->id); } } /* Always call this once you have loaded new library data to set the relative paths correctly in relation to the blend file */ static void fix_relpaths_library(const char *basepath, Main *main) { Library *lib; /* BLO_read_from_memory uses a blank filename */ if (basepath == NULL || basepath[0] == '\0') { for (lib = main->library.first; lib; lib= lib->id.next) { /* when loading a linked lib into a file which has not been saved, * there is nothing we can be relative to, so instead we need to make * it absolute. This can happen when appending an object with a relative * link into an unsaved blend file. See [#27405]. * The remap relative option will make it relative again on save - campbell */ if (BLI_path_is_rel(lib->name)) { BLI_strncpy(lib->name, lib->filepath, sizeof(lib->name)); } } } else { for (lib = main->library.first; lib; lib = lib->id.next) { /* Libraries store both relative and abs paths, recreate relative paths, * relative to the blend file since indirectly linked libs will be relative to their direct linked library */ if (BLI_path_is_rel(lib->name)) { /* if this is relative to begin with? */ BLI_strncpy(lib->name, lib->filepath, sizeof(lib->name)); BLI_path_rel(lib->name, basepath); } } } } /* ************ READ SPEAKER ***************** */ static void lib_link_speaker(FileData *fd, Main *main) { for (Speaker *spk = main->speaker.first; spk; spk = spk->id.next) { if (spk->id.tag & LIB_TAG_NEED_LINK) { IDP_LibLinkProperty(spk->id.properties, fd); lib_link_animdata(fd, &spk->id, spk->adt); spk->sound = newlibadr_us(fd, spk->id.lib, spk->sound); spk->id.tag &= ~LIB_TAG_NEED_LINK; } } } static void direct_link_speaker(FileData *fd, Speaker *spk) { spk->adt = newdataadr(fd, spk->adt); direct_link_animdata(fd, spk->adt); #if 0 spk->sound = newdataadr(fd, spk->sound); direct_link_sound(fd, spk->sound); #endif } /* ************** READ SOUND ******************* */ static void direct_link_sound(FileData *fd, bSound *sound) { sound->handle = NULL; sound->playback_handle = NULL; /* versioning stuff, if there was a cache, then we enable caching: */ if (sound->cache) { sound->flags |= SOUND_FLAGS_CACHING; sound->cache = NULL; } if (fd->soundmap) { sound->waveform = newsoundadr(fd, sound->waveform); } else { sound->waveform = NULL; } if (sound->spinlock) { sound->spinlock = MEM_mallocN(sizeof(SpinLock), "sound_spinlock"); BLI_spin_init(sound->spinlock); } /* clear waveform loading flag */ sound->flags &= ~SOUND_FLAGS_WAVEFORM_LOADING; sound->packedfile = direct_link_packedfile(fd, sound->packedfile); sound->newpackedfile = direct_link_packedfile(fd, sound->newpackedfile); } static void lib_link_sound(FileData *fd, Main *main) { for (bSound *sound = main->sound.first; sound; sound = sound->id.next) { if (sound->id.tag & LIB_TAG_NEED_LINK) { IDP_LibLinkProperty(sound->id.properties, fd); sound->ipo = newlibadr_us(fd, sound->id.lib, sound->ipo); // XXX deprecated - old animation system BKE_sound_load(main, sound); sound->id.tag &= ~LIB_TAG_NEED_LINK; } } } /* ***************** READ GROUP *************** */ static void direct_link_group(FileData *fd, Group *group) { link_list(fd, &group->gobject); group->preview = direct_link_preview_image(fd, group->preview); } static void lib_link_group(FileData *fd, Main *main) { for (Group *group = main->group.first; group; group = group->id.next) { if (group->id.tag & LIB_TAG_NEED_LINK) { IDP_LibLinkProperty(group->id.properties, fd); bool add_us = false; for (GroupObject *go = group->gobject.first; go; go = go->next) { go->ob = newlibadr_real_us(fd, group->id.lib, go->ob); if (go->ob) { go->ob->flag |= OB_FROMGROUP; /* if group has an object, it increments user... */ add_us = true; } } if (add_us) { id_us_ensure_real(&group->id); } BKE_group_object_unlink(group, NULL, NULL, NULL); /* removes NULL entries */ group->id.tag &= ~LIB_TAG_NEED_LINK; } } } /* ***************** READ MOVIECLIP *************** */ static void direct_link_movieReconstruction(FileData *fd, MovieTrackingReconstruction *reconstruction) { reconstruction->cameras = newdataadr(fd, reconstruction->cameras); } static void direct_link_movieTracks(FileData *fd, ListBase *tracksbase) { MovieTrackingTrack *track; link_list(fd, tracksbase); for (track = tracksbase->first; track; track = track->next) { track->markers = newdataadr(fd, track->markers); } } static void direct_link_moviePlaneTracks(FileData *fd, ListBase *plane_tracks_base) { MovieTrackingPlaneTrack *plane_track; link_list(fd, plane_tracks_base); for (plane_track = plane_tracks_base->first; plane_track; plane_track = plane_track->next) { int i; plane_track->point_tracks = newdataadr(fd, plane_track->point_tracks); test_pointer_array(fd, (void**)&plane_track->point_tracks); for (i = 0; i < plane_track->point_tracksnr; i++) { plane_track->point_tracks[i] = newdataadr(fd, plane_track->point_tracks[i]); } plane_track->markers = newdataadr(fd, plane_track->markers); } } static void direct_link_movieclip(FileData *fd, MovieClip *clip) { MovieTracking *tracking = &clip->tracking; MovieTrackingObject *object; clip->adt= newdataadr(fd, clip->adt); if (fd->movieclipmap) clip->cache = newmclipadr(fd, clip->cache); else clip->cache = NULL; if (fd->movieclipmap) clip->tracking.camera.intrinsics = newmclipadr(fd, clip->tracking.camera.intrinsics); else clip->tracking.camera.intrinsics = NULL; direct_link_movieTracks(fd, &tracking->tracks); direct_link_moviePlaneTracks(fd, &tracking->plane_tracks); direct_link_movieReconstruction(fd, &tracking->reconstruction); clip->tracking.act_track = newdataadr(fd, clip->tracking.act_track); clip->tracking.act_plane_track = newdataadr(fd, clip->tracking.act_plane_track); clip->anim = NULL; clip->tracking_context = NULL; clip->tracking.stats = NULL; /* Needed for proper versioning, will be NULL for all newer files anyway. */ clip->tracking.stabilization.rot_track = newdataadr(fd, clip->tracking.stabilization.rot_track); clip->tracking.dopesheet.ok = 0; BLI_listbase_clear(&clip->tracking.dopesheet.channels); BLI_listbase_clear(&clip->tracking.dopesheet.coverage_segments); link_list(fd, &tracking->objects); for (object = tracking->objects.first; object; object = object->next) { direct_link_movieTracks(fd, &object->tracks); direct_link_moviePlaneTracks(fd, &object->plane_tracks); direct_link_movieReconstruction(fd, &object->reconstruction); } } static void lib_link_movieTracks(FileData *fd, MovieClip *clip, ListBase *tracksbase) { MovieTrackingTrack *track; for (track = tracksbase->first; track; track = track->next) { track->gpd = newlibadr_us(fd, clip->id.lib, track->gpd); } } static void lib_link_moviePlaneTracks(FileData *fd, MovieClip *clip, ListBase *tracksbase) { MovieTrackingPlaneTrack *plane_track; for (plane_track = tracksbase->first; plane_track; plane_track = plane_track->next) { plane_track->image = newlibadr_us(fd, clip->id.lib, plane_track->image); } } static void lib_link_movieclip(FileData *fd, Main *main) { for (MovieClip *clip = main->movieclip.first; clip; clip = clip->id.next) { if (clip->id.tag & LIB_TAG_NEED_LINK) { MovieTracking *tracking = &clip->tracking; IDP_LibLinkProperty(clip->id.properties, fd); lib_link_animdata(fd, &clip->id, clip->adt); clip->gpd = newlibadr_us(fd, clip->id.lib, clip->gpd); lib_link_movieTracks(fd, clip, &tracking->tracks); lib_link_moviePlaneTracks(fd, clip, &tracking->plane_tracks); for (MovieTrackingObject *object = tracking->objects.first; object; object = object->next) { lib_link_movieTracks(fd, clip, &object->tracks); lib_link_moviePlaneTracks(fd, clip, &object->plane_tracks); } clip->id.tag &= ~LIB_TAG_NEED_LINK; } } } /* ***************** READ MOVIECLIP *************** */ static void direct_link_mask(FileData *fd, Mask *mask) { MaskLayer *masklay; mask->adt = newdataadr(fd, mask->adt); link_list(fd, &mask->masklayers); for (masklay = mask->masklayers.first; masklay; masklay = masklay->next) { MaskSpline *spline; MaskLayerShape *masklay_shape; /* can't use newdataadr since it's a pointer within an array */ MaskSplinePoint *act_point_search = NULL; link_list(fd, &masklay->splines); for (spline = masklay->splines.first; spline; spline = spline->next) { MaskSplinePoint *points_old = spline->points; int i; spline->points = newdataadr(fd, spline->points); for (i = 0; i < spline->tot_point; i++) { MaskSplinePoint *point = &spline->points[i]; if (point->tot_uw) point->uw = newdataadr(fd, point->uw); } /* detect active point */ if ((act_point_search == NULL) && (masklay->act_point >= points_old) && (masklay->act_point < points_old + spline->tot_point)) { act_point_search = &spline->points[masklay->act_point - points_old]; } } link_list(fd, &masklay->splines_shapes); for (masklay_shape = masklay->splines_shapes.first; masklay_shape; masklay_shape = masklay_shape->next) { masklay_shape->data = newdataadr(fd, masklay_shape->data); if (masklay_shape->tot_vert) { if (fd->flags & FD_FLAGS_SWITCH_ENDIAN) { BLI_endian_switch_float_array(masklay_shape->data, masklay_shape->tot_vert * sizeof(float) * MASK_OBJECT_SHAPE_ELEM_SIZE); } } } masklay->act_spline = newdataadr(fd, masklay->act_spline); masklay->act_point = act_point_search; } } static void lib_link_mask_parent(FileData *fd, Mask *mask, MaskParent *parent) { parent->id = newlibadr_us(fd, mask->id.lib, parent->id); } static void lib_link_mask(FileData *fd, Main *main) { for (Mask *mask = main->mask.first; mask; mask = mask->id.next) { if (mask->id.tag & LIB_TAG_NEED_LINK) { IDP_LibLinkProperty(mask->id.properties, fd); lib_link_animdata(fd, &mask->id, mask->adt); for (MaskLayer *masklay = mask->masklayers.first; masklay; masklay = masklay->next) { MaskSpline *spline; spline = masklay->splines.first; while (spline) { int i; for (i = 0; i < spline->tot_point; i++) { MaskSplinePoint *point = &spline->points[i]; lib_link_mask_parent(fd, mask, &point->parent); } lib_link_mask_parent(fd, mask, &spline->parent); spline = spline->next; } } mask->id.tag &= ~LIB_TAG_NEED_LINK; } } } /* ************ READ LINE STYLE ***************** */ static void lib_link_linestyle(FileData *fd, Main *main) { for (FreestyleLineStyle *linestyle = main->linestyle.first; linestyle; linestyle = linestyle->id.next) { if (linestyle->id.tag & LIB_TAG_NEED_LINK) { LineStyleModifier *m; IDP_LibLinkProperty(linestyle->id.properties, fd); lib_link_animdata(fd, &linestyle->id, linestyle->adt); for (m = linestyle->color_modifiers.first; m; m = m->next) { switch (m->type) { case LS_MODIFIER_DISTANCE_FROM_OBJECT: { LineStyleColorModifier_DistanceFromObject *cm = (LineStyleColorModifier_DistanceFromObject *)m; cm->target = newlibadr(fd, linestyle->id.lib, cm->target); } break; } } for (m = linestyle->alpha_modifiers.first; m; m = m->next) { switch (m->type) { case LS_MODIFIER_DISTANCE_FROM_OBJECT: { LineStyleAlphaModifier_DistanceFromObject *am = (LineStyleAlphaModifier_DistanceFromObject *)m; am->target = newlibadr(fd, linestyle->id.lib, am->target); } break; } } for (m = linestyle->thickness_modifiers.first; m; m = m->next) { switch (m->type) { case LS_MODIFIER_DISTANCE_FROM_OBJECT: { LineStyleThicknessModifier_DistanceFromObject *tm = (LineStyleThicknessModifier_DistanceFromObject *)m; tm->target = newlibadr(fd, linestyle->id.lib, tm->target); } break; } } for (int a = 0; a < MAX_MTEX; a++) { MTex *mtex = linestyle->mtex[a]; if (mtex) { mtex->tex = newlibadr_us(fd, linestyle->id.lib, mtex->tex); mtex->object = newlibadr(fd, linestyle->id.lib, mtex->object); } } if (linestyle->nodetree) { lib_link_ntree(fd, &linestyle->id, linestyle->nodetree); linestyle->nodetree->id.lib = linestyle->id.lib; } linestyle->id.tag &= ~LIB_TAG_NEED_LINK; } } } static void direct_link_linestyle_color_modifier(FileData *fd, LineStyleModifier *modifier) { switch (modifier->type) { case LS_MODIFIER_ALONG_STROKE: { LineStyleColorModifier_AlongStroke *m = (LineStyleColorModifier_AlongStroke *)modifier; m->color_ramp = newdataadr(fd, m->color_ramp); } break; case LS_MODIFIER_DISTANCE_FROM_CAMERA: { LineStyleColorModifier_DistanceFromCamera *m = (LineStyleColorModifier_DistanceFromCamera *)modifier; m->color_ramp = newdataadr(fd, m->color_ramp); } break; case LS_MODIFIER_DISTANCE_FROM_OBJECT: { LineStyleColorModifier_DistanceFromObject *m = (LineStyleColorModifier_DistanceFromObject *)modifier; m->color_ramp = newdataadr(fd, m->color_ramp); } break; case LS_MODIFIER_MATERIAL: { LineStyleColorModifier_Material *m = (LineStyleColorModifier_Material *)modifier; m->color_ramp = newdataadr(fd, m->color_ramp); } break; case LS_MODIFIER_TANGENT: { LineStyleColorModifier_Tangent *m = (LineStyleColorModifier_Tangent *)modifier; m->color_ramp = newdataadr(fd, m->color_ramp); } break; case LS_MODIFIER_NOISE: { LineStyleColorModifier_Noise *m = (LineStyleColorModifier_Noise *)modifier; m->color_ramp = newdataadr(fd, m->color_ramp); } break; case LS_MODIFIER_CREASE_ANGLE: { LineStyleColorModifier_CreaseAngle *m = (LineStyleColorModifier_CreaseAngle *)modifier; m->color_ramp = newdataadr(fd, m->color_ramp); } break; case LS_MODIFIER_CURVATURE_3D: { LineStyleColorModifier_Curvature_3D *m = (LineStyleColorModifier_Curvature_3D *)modifier; m->color_ramp = newdataadr(fd, m->color_ramp); } break; } } static void direct_link_linestyle_alpha_modifier(FileData *fd, LineStyleModifier *modifier) { switch (modifier->type) { case LS_MODIFIER_ALONG_STROKE: { LineStyleAlphaModifier_AlongStroke *m = (LineStyleAlphaModifier_AlongStroke *)modifier; m->curve = newdataadr(fd, m->curve); direct_link_curvemapping(fd, m->curve); } break; case LS_MODIFIER_DISTANCE_FROM_CAMERA: { LineStyleAlphaModifier_DistanceFromCamera *m = (LineStyleAlphaModifier_DistanceFromCamera *)modifier; m->curve = newdataadr(fd, m->curve); direct_link_curvemapping(fd, m->curve); } break; case LS_MODIFIER_DISTANCE_FROM_OBJECT: { LineStyleAlphaModifier_DistanceFromObject *m = (LineStyleAlphaModifier_DistanceFromObject *)modifier; m->curve = newdataadr(fd, m->curve); direct_link_curvemapping(fd, m->curve); } break; case LS_MODIFIER_MATERIAL: { LineStyleAlphaModifier_Material *m = (LineStyleAlphaModifier_Material *)modifier; m->curve = newdataadr(fd, m->curve); direct_link_curvemapping(fd, m->curve); } break; case LS_MODIFIER_TANGENT: { LineStyleAlphaModifier_Tangent *m = (LineStyleAlphaModifier_Tangent *)modifier; m->curve = newdataadr(fd, m->curve); direct_link_curvemapping(fd, m->curve); } break; case LS_MODIFIER_NOISE: { LineStyleAlphaModifier_Noise *m = (LineStyleAlphaModifier_Noise *)modifier; m->curve = newdataadr(fd, m->curve); direct_link_curvemapping(fd, m->curve); } break; case LS_MODIFIER_CREASE_ANGLE: { LineStyleAlphaModifier_CreaseAngle *m = (LineStyleAlphaModifier_CreaseAngle *)modifier; m->curve = newdataadr(fd, m->curve); direct_link_curvemapping(fd, m->curve); } break; case LS_MODIFIER_CURVATURE_3D: { LineStyleAlphaModifier_Curvature_3D *m = (LineStyleAlphaModifier_Curvature_3D *)modifier; m->curve = newdataadr(fd, m->curve); direct_link_curvemapping(fd, m->curve); } break; } } static void direct_link_linestyle_thickness_modifier(FileData *fd, LineStyleModifier *modifier) { switch (modifier->type) { case LS_MODIFIER_ALONG_STROKE: { LineStyleThicknessModifier_AlongStroke *m = (LineStyleThicknessModifier_AlongStroke *)modifier; m->curve = newdataadr(fd, m->curve); direct_link_curvemapping(fd, m->curve); } break; case LS_MODIFIER_DISTANCE_FROM_CAMERA: { LineStyleThicknessModifier_DistanceFromCamera *m = (LineStyleThicknessModifier_DistanceFromCamera *)modifier; m->curve = newdataadr(fd, m->curve); direct_link_curvemapping(fd, m->curve); } break; case LS_MODIFIER_DISTANCE_FROM_OBJECT: { LineStyleThicknessModifier_DistanceFromObject *m = (LineStyleThicknessModifier_DistanceFromObject *)modifier; m->curve = newdataadr(fd, m->curve); direct_link_curvemapping(fd, m->curve); } break; case LS_MODIFIER_MATERIAL: { LineStyleThicknessModifier_Material *m = (LineStyleThicknessModifier_Material *)modifier; m->curve = newdataadr(fd, m->curve); direct_link_curvemapping(fd, m->curve); } break; case LS_MODIFIER_TANGENT: { LineStyleThicknessModifier_Tangent *m = (LineStyleThicknessModifier_Tangent *)modifier; m->curve = newdataadr(fd, m->curve); direct_link_curvemapping(fd, m->curve); } break; case LS_MODIFIER_CREASE_ANGLE: { LineStyleThicknessModifier_CreaseAngle *m = (LineStyleThicknessModifier_CreaseAngle *)modifier; m->curve = newdataadr(fd, m->curve); direct_link_curvemapping(fd, m->curve); } break; case LS_MODIFIER_CURVATURE_3D: { LineStyleThicknessModifier_Curvature_3D *m = (LineStyleThicknessModifier_Curvature_3D *)modifier; m->curve = newdataadr(fd, m->curve); direct_link_curvemapping(fd, m->curve); } break; } } static void direct_link_linestyle_geometry_modifier(FileData *UNUSED(fd), LineStyleModifier *UNUSED(modifier)) { } static void direct_link_linestyle(FileData *fd, FreestyleLineStyle *linestyle) { int a; LineStyleModifier *modifier; linestyle->adt= newdataadr(fd, linestyle->adt); direct_link_animdata(fd, linestyle->adt); link_list(fd, &linestyle->color_modifiers); for (modifier = linestyle->color_modifiers.first; modifier; modifier = modifier->next) direct_link_linestyle_color_modifier(fd, modifier); link_list(fd, &linestyle->alpha_modifiers); for (modifier = linestyle->alpha_modifiers.first; modifier; modifier = modifier->next) direct_link_linestyle_alpha_modifier(fd, modifier); link_list(fd, &linestyle->thickness_modifiers); for (modifier = linestyle->thickness_modifiers.first; modifier; modifier = modifier->next) direct_link_linestyle_thickness_modifier(fd, modifier); link_list(fd, &linestyle->geometry_modifiers); for (modifier = linestyle->geometry_modifiers.first; modifier; modifier = modifier->next) direct_link_linestyle_geometry_modifier(fd, modifier); for (a = 0; a < MAX_MTEX; a++) { linestyle->mtex[a] = newdataadr(fd, linestyle->mtex[a]); } linestyle->nodetree = newdataadr(fd, linestyle->nodetree); if (linestyle->nodetree) { direct_link_id(fd, &linestyle->nodetree->id); direct_link_nodetree(fd, linestyle->nodetree); } } /* ************** GENERAL & MAIN ******************** */ static const char *dataname(short id_code) { switch (id_code) { case ID_OB: return "Data from OB"; case ID_ME: return "Data from ME"; case ID_IP: return "Data from IP"; case ID_SCE: return "Data from SCE"; case ID_MA: return "Data from MA"; case ID_TE: return "Data from TE"; case ID_CU: return "Data from CU"; case ID_GR: return "Data from GR"; case ID_AR: return "Data from AR"; case ID_AC: return "Data from AC"; case ID_LI: return "Data from LI"; case ID_MB: return "Data from MB"; case ID_IM: return "Data from IM"; case ID_LT: return "Data from LT"; case ID_LA: return "Data from LA"; case ID_CA: return "Data from CA"; case ID_KE: return "Data from KE"; case ID_WO: return "Data from WO"; case ID_SCR: return "Data from SCR"; case ID_VF: return "Data from VF"; case ID_TXT : return "Data from TXT"; case ID_SPK: return "Data from SPK"; case ID_SO: return "Data from SO"; case ID_NT: return "Data from NT"; case ID_BR: return "Data from BR"; case ID_PA: return "Data from PA"; case ID_PAL: return "Data from PAL"; case ID_PC: return "Data from PCRV"; case ID_GD: return "Data from GD"; case ID_WM: return "Data from WM"; case ID_MC: return "Data from MC"; case ID_MSK: return "Data from MSK"; case ID_LS: return "Data from LS"; case ID_CF: return "Data from CF"; } return "Data from Lib Block"; } static BHead *read_data_into_oldnewmap(FileData *fd, BHead *bhead, const char *allocname) { bhead = blo_nextbhead(fd, bhead); while (bhead && bhead->code==DATA) { void *data; #if 0 /* XXX DUMB DEBUGGING OPTION TO GIVE NAMES for guarded malloc errors */ short *sp = fd->filesdna->structs[bhead->SDNAnr]; char *tmp = malloc(100); allocname = fd->filesdna->types[ sp[0] ]; strcpy(tmp, allocname); data = read_struct(fd, bhead, tmp); #else data = read_struct(fd, bhead, allocname); #endif if (data) { oldnewmap_insert(fd->datamap, bhead->old, data, 0); } bhead = blo_nextbhead(fd, bhead); } return bhead; } static BHead *read_libblock(FileData *fd, Main *main, BHead *bhead, const short tag, ID **r_id) { /* this routine reads a libblock and its direct data. Use link functions to connect it all */ ID *id; ListBase *lb; const char *allocname; bool wrong_id = false; /* In undo case, most libs and linked data should be kept as is from previous state (see BLO_read_from_memfile). * However, some needed by the snapshot being read may have been removed in previous one, and would go missing. * This leads e.g. to desappearing objects in some undo/redo case, see T34446. * That means we have to carefully check whether current lib or libdata already exits in old main, if it does * we merely copy it over into new main area, otherwise we have to do a full read of that bhead... */ if (fd->memfile && ELEM(bhead->code, ID_LI, ID_ID)) { const char *idname = bhead_id_name(fd, bhead); #ifdef PRINT_DEBUG printf("Checking %s...\n", idname); #endif if (bhead->code == ID_LI) { Main *libmain = fd->old_mainlist->first; /* Skip oldmain itself... */ for (libmain = libmain->next; libmain; libmain = libmain->next) { #ifdef PRINT_DEBUG printf("... against %s: ", libmain->curlib ? libmain->curlib->id.name : ""); #endif if (libmain->curlib && STREQ(idname, libmain->curlib->id.name)) { Main *oldmain = fd->old_mainlist->first; #ifdef PRINT_DEBUG printf("FOUND!\n"); #endif /* In case of a library, we need to re-add its main to fd->mainlist, because if we have later * a missing ID_ID, we need to get the correct lib it is linked to! * Order is crucial, we cannot bulk-add it in BLO_read_from_memfile() like it used to be... */ BLI_remlink(fd->old_mainlist, libmain); BLI_remlink_safe(&oldmain->library, libmain->curlib); BLI_addtail(fd->mainlist, libmain); BLI_addtail(&main->library, libmain->curlib); if (r_id) { *r_id = NULL; /* Just in case... */ } return blo_nextbhead(fd, bhead); } #ifdef PRINT_DEBUG printf("nothing...\n"); #endif } } else { #ifdef PRINT_DEBUG printf("... in %s (%s): ", main->curlib ? main->curlib->id.name : "", main->curlib ? main->curlib->name : ""); #endif if ((id = BKE_libblock_find_name_ex(main, GS(idname), idname + 2))) { #ifdef PRINT_DEBUG printf("FOUND!\n"); #endif /* Even though we found our linked ID, there is no guarantee its address is still the same... */ if (id != bhead->old) { oldnewmap_insert(fd->libmap, bhead->old, id, GS(id->name)); } /* No need to do anything else for ID_ID, it's assumed already present in its lib's main... */ if (r_id) { *r_id = NULL; /* Just in case... */ } return blo_nextbhead(fd, bhead); } #ifdef PRINT_DEBUG printf("nothing...\n"); #endif } } /* read libblock */ id = read_struct(fd, bhead, "lib block"); if (id) { const short idcode = (bhead->code == ID_ID) ? GS(id->name) : bhead->code; /* do after read_struct, for dna reconstruct */ lb = which_libbase(main, idcode); if (lb) { oldnewmap_insert(fd->libmap, bhead->old, id, bhead->code); /* for ID_ID check */ BLI_addtail(lb, id); } else { /* unknown ID type */ printf("%s: unknown id code '%c%c'\n", __func__, (idcode & 0xff), (idcode >> 8)); MEM_freeN(id); id = NULL; } } if (r_id) *r_id = id; if (!id) return blo_nextbhead(fd, bhead); id->tag = tag | LIB_TAG_NEED_LINK; id->lib = main->curlib; id->us = ID_FAKE_USERS(id); id->icon_id = 0; id->newid = NULL; /* Needed because .blend may have been saved with crap value here... */ /* this case cannot be direct_linked: it's just the ID part */ if (bhead->code == ID_ID) { return blo_nextbhead(fd, bhead); } /* That way, we know which datablock needs do_versions (required currently for linking). */ id->tag |= LIB_TAG_NEW; /* need a name for the mallocN, just for debugging and sane prints on leaks */ allocname = dataname(GS(id->name)); /* read all data into fd->datamap */ bhead = read_data_into_oldnewmap(fd, bhead, allocname); /* init pointers direct data */ direct_link_id(fd, id); switch (GS(id->name)) { case ID_WM: direct_link_windowmanager(fd, (wmWindowManager *)id); break; case ID_SCR: wrong_id = direct_link_screen(fd, (bScreen *)id); break; case ID_SCE: direct_link_scene(fd, (Scene *)id); break; case ID_OB: direct_link_object(fd, (Object *)id); break; case ID_ME: direct_link_mesh(fd, (Mesh *)id); break; case ID_CU: direct_link_curve(fd, (Curve *)id); break; case ID_MB: direct_link_mball(fd, (MetaBall *)id); break; case ID_MA: direct_link_material(fd, (Material *)id); break; case ID_TE: direct_link_texture(fd, (Tex *)id); break; case ID_IM: direct_link_image(fd, (Image *)id); break; case ID_LA: direct_link_lamp(fd, (Lamp *)id); break; case ID_VF: direct_link_vfont(fd, (VFont *)id); break; case ID_TXT: direct_link_text(fd, (Text *)id); break; case ID_IP: direct_link_ipo(fd, (Ipo *)id); break; case ID_KE: direct_link_key(fd, (Key *)id); break; case ID_LT: direct_link_latt(fd, (Lattice *)id); break; case ID_WO: direct_link_world(fd, (World *)id); break; case ID_LI: direct_link_library(fd, (Library *)id, main); break; case ID_CA: direct_link_camera(fd, (Camera *)id); break; case ID_SPK: direct_link_speaker(fd, (Speaker *)id); break; case ID_SO: direct_link_sound(fd, (bSound *)id); break; case ID_GR: direct_link_group(fd, (Group *)id); break; case ID_AR: direct_link_armature(fd, (bArmature*)id); break; case ID_AC: direct_link_action(fd, (bAction*)id); break; case ID_NT: direct_link_nodetree(fd, (bNodeTree*)id); break; case ID_BR: direct_link_brush(fd, (Brush*)id); break; case ID_PA: direct_link_particlesettings(fd, (ParticleSettings*)id); break; case ID_GD: direct_link_gpencil(fd, (bGPdata *)id); break; case ID_MC: direct_link_movieclip(fd, (MovieClip *)id); break; case ID_MSK: direct_link_mask(fd, (Mask *)id); break; case ID_LS: direct_link_linestyle(fd, (FreestyleLineStyle *)id); break; case ID_PAL: direct_link_palette(fd, (Palette *)id); break; case ID_PC: direct_link_paint_curve(fd, (PaintCurve *)id); break; case ID_CF: direct_link_cachefile(fd, (CacheFile *)id); break; } oldnewmap_free_unused(fd->datamap); oldnewmap_clear(fd->datamap); if (wrong_id) { BKE_libblock_free(main, id); } return (bhead); } /* note, this has to be kept for reading older files... */ /* also version info is written here */ static BHead *read_global(BlendFileData *bfd, FileData *fd, BHead *bhead) { FileGlobal *fg = read_struct(fd, bhead, "Global"); /* copy to bfd handle */ bfd->main->subversionfile = fg->subversion; bfd->main->minversionfile = fg->minversion; bfd->main->minsubversionfile = fg->minsubversion; bfd->main->build_commit_timestamp = fg->build_commit_timestamp; BLI_strncpy(bfd->main->build_hash, fg->build_hash, sizeof(bfd->main->build_hash)); bfd->fileflags = fg->fileflags; bfd->globalf = fg->globalf; BLI_strncpy(bfd->filename, fg->filename, sizeof(bfd->filename)); /* error in 2.65 and older: main->name was not set if you save from startup (not after loading file) */ if (bfd->filename[0] == 0) { if (fd->fileversion < 265 || (fd->fileversion == 265 && fg->subversion < 1)) if ((G.fileflags & G_FILE_RECOVER)==0) BLI_strncpy(bfd->filename, bfd->main->name, sizeof(bfd->filename)); /* early 2.50 version patch - filename not in FileGlobal struct at all */ if (fd->fileversion <= 250) BLI_strncpy(bfd->filename, bfd->main->name, sizeof(bfd->filename)); } if (G.fileflags & G_FILE_RECOVER) BLI_strncpy(fd->relabase, fg->filename, sizeof(fd->relabase)); bfd->curscreen = fg->curscreen; bfd->curscene = fg->curscene; MEM_freeN(fg); fd->globalf = bfd->globalf; fd->fileflags = bfd->fileflags; return blo_nextbhead(fd, bhead); } /* note, this has to be kept for reading older files... */ static void link_global(FileData *fd, BlendFileData *bfd) { bfd->curscreen = newlibadr(fd, NULL, bfd->curscreen); bfd->curscene = newlibadr(fd, NULL, bfd->curscene); // this happens in files older than 2.35 if (bfd->curscene == NULL) { if (bfd->curscreen) bfd->curscene = bfd->curscreen->scene; } } static void convert_tface_mt(FileData *fd, Main *main) { Main *gmain; /* this is a delayed do_version (so it can create new materials) */ if (main->versionfile < 259 || (main->versionfile == 259 && main->subversionfile < 3)) { //XXX hack, material.c uses G.main all over the place, instead of main // temporarily set G.main to the current main gmain = G.main; G.main = main; if (!(do_version_tface(main))) { BKE_report(fd->reports, RPT_WARNING, "Texface conversion problem (see error in console)"); } //XXX hack, material.c uses G.main allover the place, instead of main G.main = gmain; } } /* initialize userdef with non-UI dependency stuff */ /* other initializers (such as theme color defaults) go to resources.c */ static void do_versions_userdef(FileData *fd, BlendFileData *bfd) { Main *bmain = bfd->main; UserDef *user = bfd->user; if (user == NULL) return; if (MAIN_VERSION_OLDER(bmain, 266, 4)) { bTheme *btheme; /* themes for Node and Sequence editor were not using grid color, but back. we copy this over then */ for (btheme = user->themes.first; btheme; btheme = btheme->next) { copy_v4_v4_char(btheme->tnode.grid, btheme->tnode.back); copy_v4_v4_char(btheme->tseq.grid, btheme->tseq.back); } } if (!DNA_struct_elem_find(fd->filesdna, "UserDef", "WalkNavigation", "walk_navigation")) { user->walk_navigation.mouse_speed = 1.0f; user->walk_navigation.walk_speed = 2.5f; /* m/s */ user->walk_navigation.walk_speed_factor = 5.0f; user->walk_navigation.view_height = 1.6f; /* m */ user->walk_navigation.jump_height = 0.4f; /* m */ user->walk_navigation.teleport_time = 0.2f; /* s */ } } static void do_versions(FileData *fd, Library *lib, Main *main) { /* WATCH IT!!!: pointers from libdata have not been converted */ if (G.debug & G_DEBUG) { char build_commit_datetime[32]; time_t temp_time = main->build_commit_timestamp; struct tm *tm = (temp_time) ? gmtime(&temp_time) : NULL; if (LIKELY(tm)) { strftime(build_commit_datetime, sizeof(build_commit_datetime), "%Y-%m-%d %H:%M", tm); } else { BLI_strncpy(build_commit_datetime, "unknown", sizeof(build_commit_datetime)); } printf("read file %s\n Version %d sub %d date %s hash %s\n", fd->relabase, main->versionfile, main->subversionfile, build_commit_datetime, main->build_hash); } blo_do_versions_pre250(fd, lib, main); blo_do_versions_250(fd, lib, main); blo_do_versions_260(fd, lib, main); blo_do_versions_270(fd, lib, main); /* WATCH IT!!!: pointers from libdata have not been converted yet here! */ /* WATCH IT 2!: Userdef struct init see do_versions_userdef() above! */ /* don't forget to set version number in BKE_blender_version.h! */ } static void do_versions_after_linking(Main *main) { // printf("%s for %s (%s), %d.%d\n", __func__, main->curlib ? main->curlib->name : main->name, // main->curlib ? "LIB" : "MAIN", main->versionfile, main->subversionfile); do_versions_after_linking_270(main); } static void lib_link_all(FileData *fd, Main *main) { oldnewmap_sort(fd); /* No load UI for undo memfiles */ if (fd->memfile == NULL) { lib_link_windowmanager(fd, main); } /* DO NOT skip screens here, 3Dview may contains pointers to other ID data (like bgpic)! See T41411. */ lib_link_screen(fd, main); lib_link_scene(fd, main); lib_link_object(fd, main); lib_link_mesh(fd, main); lib_link_curve(fd, main); lib_link_mball(fd, main); lib_link_material(fd, main); lib_link_texture(fd, main); lib_link_image(fd, main); lib_link_ipo(fd, main); /* XXX deprecated... still needs to be maintained for version patches still */ lib_link_key(fd, main); lib_link_world(fd, main); lib_link_lamp(fd, main); lib_link_latt(fd, main); lib_link_text(fd, main); lib_link_camera(fd, main); lib_link_speaker(fd, main); lib_link_sound(fd, main); lib_link_group(fd, main); lib_link_armature(fd, main); lib_link_action(fd, main); lib_link_vfont(fd, main); lib_link_nodetree(fd, main); /* has to be done after scene/materials, this will verify group nodes */ lib_link_brush(fd, main); lib_link_palette(fd, main); lib_link_paint_curve(fd, main); lib_link_particlesettings(fd, main); lib_link_movieclip(fd, main); lib_link_mask(fd, main); lib_link_linestyle(fd, main); lib_link_gpencil(fd, main); lib_link_cachefiles(fd, main); lib_link_library(fd, main); /* only init users */ } static void direct_link_keymapitem(FileData *fd, wmKeyMapItem *kmi) { kmi->properties = newdataadr(fd, kmi->properties); IDP_DirectLinkGroup_OrFree(&kmi->properties, (fd->flags & FD_FLAGS_SWITCH_ENDIAN), fd); kmi->ptr = NULL; kmi->flag &= ~KMI_UPDATE; } static BHead *read_userdef(BlendFileData *bfd, FileData *fd, BHead *bhead) { UserDef *user; wmKeyMap *keymap; wmKeyMapItem *kmi; wmKeyMapDiffItem *kmdi; bAddon *addon; bfd->user = user= read_struct(fd, bhead, "user def"); /* User struct has separate do-version handling */ user->versionfile = bfd->main->versionfile; user->subversionfile = bfd->main->subversionfile; /* read all data into fd->datamap */ bhead = read_data_into_oldnewmap(fd, bhead, "user def"); if (user->keymaps.first) { /* backwards compatibility */ user->user_keymaps= user->keymaps; user->keymaps.first= user->keymaps.last= NULL; } link_list(fd, &user->themes); link_list(fd, &user->user_keymaps); link_list(fd, &user->addons); link_list(fd, &user->autoexec_paths); for (keymap=user->user_keymaps.first; keymap; keymap=keymap->next) { keymap->modal_items= NULL; keymap->poll = NULL; keymap->flag &= ~KEYMAP_UPDATE; link_list(fd, &keymap->diff_items); link_list(fd, &keymap->items); for (kmdi=keymap->diff_items.first; kmdi; kmdi=kmdi->next) { kmdi->remove_item= newdataadr(fd, kmdi->remove_item); kmdi->add_item= newdataadr(fd, kmdi->add_item); if (kmdi->remove_item) direct_link_keymapitem(fd, kmdi->remove_item); if (kmdi->add_item) direct_link_keymapitem(fd, kmdi->add_item); } for (kmi=keymap->items.first; kmi; kmi=kmi->next) direct_link_keymapitem(fd, kmi); } for (addon = user->addons.first; addon; addon = addon->next) { addon->prop = newdataadr(fd, addon->prop); IDP_DirectLinkGroup_OrFree(&addon->prop, (fd->flags & FD_FLAGS_SWITCH_ENDIAN), fd); } // XXX user->uifonts.first = user->uifonts.last= NULL; link_list(fd, &user->uistyles); /* free fd->datamap again */ oldnewmap_free_unused(fd->datamap); oldnewmap_clear(fd->datamap); return bhead; } BlendFileData *blo_read_file_internal(FileData *fd, const char *filepath) { BHead *bhead = blo_firstbhead(fd); BlendFileData *bfd; ListBase mainlist = {NULL, NULL}; bfd = MEM_callocN(sizeof(BlendFileData), "blendfiledata"); bfd->main = BKE_main_new(); BLI_addtail(&mainlist, bfd->main); fd->mainlist = &mainlist; bfd->main->versionfile = fd->fileversion; bfd->type = BLENFILETYPE_BLEND; BLI_strncpy(bfd->main->name, filepath, sizeof(bfd->main->name)); if (G.background) { /* We only read & store .blend thumbnail in background mode * (because we cannot re-generate it, no OpenGL available). */ const int *data = read_file_thumbnail(fd); if (data) { const size_t sz = BLEN_THUMB_MEMSIZE(data[0], data[1]); bfd->main->blen_thumb = MEM_mallocN(sz, __func__); BLI_assert((sz - sizeof(*bfd->main->blen_thumb)) == (BLEN_THUMB_MEMSIZE_FILE(data[0], data[1]) - (sizeof(*data) * 2))); bfd->main->blen_thumb->width = data[0]; bfd->main->blen_thumb->height = data[1]; memcpy(bfd->main->blen_thumb->rect, &data[2], sz - sizeof(*bfd->main->blen_thumb)); } } while (bhead) { switch (bhead->code) { case DATA: case DNA1: case TEST: /* used as preview since 2.5x */ case REND: bhead = blo_nextbhead(fd, bhead); break; case GLOB: bhead = read_global(bfd, fd, bhead); break; case USER: if (fd->skip_flags & BLO_READ_SKIP_USERDEF) { bhead = blo_nextbhead(fd, bhead); } else { bhead = read_userdef(bfd, fd, bhead); } break; case ENDB: bhead = NULL; break; case ID_ID: /* Always adds to the most recently loaded ID_LI block, see direct_link_library. * This is part of the file format definition. */ if (fd->skip_flags & BLO_READ_SKIP_DATA) { bhead = blo_nextbhead(fd, bhead); } else { bhead = read_libblock(fd, mainlist.last, bhead, LIB_TAG_READ | LIB_TAG_EXTERN, NULL); } break; /* in 2.50+ files, the file identifier for screens is patched, forward compatibility */ case ID_SCRN: bhead->code = ID_SCR; /* pass on to default */ ATTR_FALLTHROUGH; default: if (fd->skip_flags & BLO_READ_SKIP_DATA) { bhead = blo_nextbhead(fd, bhead); } else { bhead = read_libblock(fd, bfd->main, bhead, LIB_TAG_LOCAL, NULL); } } } /* do before read_libraries, but skip undo case */ if (fd->memfile == NULL) { do_versions(fd, NULL, bfd->main); do_versions_userdef(fd, bfd); } read_libraries(fd, &mainlist); blo_join_main(&mainlist); lib_link_all(fd, bfd->main); /* Skip in undo case. */ if (fd->memfile == NULL) { /* Yep, second splitting... but this is a very cheap operation, so no big deal. */ blo_split_main(&mainlist, bfd->main); for (Main *mainvar = mainlist.first; mainvar; mainvar = mainvar->next) { BLI_assert(mainvar->versionfile != 0); do_versions_after_linking(mainvar); } blo_join_main(&mainlist); } BKE_main_id_tag_all(bfd->main, LIB_TAG_NEW, false); lib_verify_nodetree(bfd->main, true); fix_relpaths_library(fd->relabase, bfd->main); /* make all relative paths, relative to the open blend file */ link_global(fd, bfd); /* as last */ fd->mainlist = NULL; /* Safety, this is local variable, shall not be used afterward. */ return bfd; } /* ************* APPEND LIBRARY ************** */ struct BHeadSort { BHead *bhead; const void *old; }; static int verg_bheadsort(const void *v1, const void *v2) { const struct BHeadSort *x1=v1, *x2=v2; if (x1->old > x2->old) return 1; else if (x1->old < x2->old) return -1; return 0; } static void sort_bhead_old_map(FileData *fd) { BHead *bhead; struct BHeadSort *bhs; int tot = 0; for (bhead = blo_firstbhead(fd); bhead; bhead = blo_nextbhead(fd, bhead)) tot++; fd->tot_bheadmap = tot; if (tot == 0) return; bhs = fd->bheadmap = MEM_mallocN(tot * sizeof(struct BHeadSort), "BHeadSort"); for (bhead = blo_firstbhead(fd); bhead; bhead = blo_nextbhead(fd, bhead), bhs++) { bhs->bhead = bhead; bhs->old = bhead->old; } qsort(fd->bheadmap, tot, sizeof(struct BHeadSort), verg_bheadsort); } static BHead *find_previous_lib(FileData *fd, BHead *bhead) { /* skip library datablocks in undo, see comment in read_libblock */ if (fd->memfile) return NULL; for (; bhead; bhead = blo_prevbhead(fd, bhead)) { if (bhead->code == ID_LI) break; } return bhead; } static BHead *find_bhead(FileData *fd, void *old) { #if 0 BHead *bhead; #endif struct BHeadSort *bhs, bhs_s; if (!old) return NULL; if (fd->bheadmap == NULL) sort_bhead_old_map(fd); bhs_s.old = old; bhs = bsearch(&bhs_s, fd->bheadmap, fd->tot_bheadmap, sizeof(struct BHeadSort), verg_bheadsort); if (bhs) return bhs->bhead; #if 0 for (bhead = blo_firstbhead(fd); bhead; bhead= blo_nextbhead(fd, bhead)) { if (bhead->old == old) return bhead; } #endif return NULL; } static BHead *find_bhead_from_code_name(FileData *fd, const short idcode, const char *name) { #ifdef USE_GHASH_BHEAD char idname_full[MAX_ID_NAME]; *((short *)idname_full) = idcode; BLI_strncpy(idname_full + 2, name, sizeof(idname_full) - 2); return BLI_ghash_lookup(fd->bhead_idname_hash, idname_full); #else BHead *bhead; for (bhead = blo_firstbhead(fd); bhead; bhead = blo_nextbhead(fd, bhead)) { if (bhead->code == idcode) { const char *idname_test = bhead_id_name(fd, bhead); if (STREQ(idname_test + 2, name)) { return bhead; } } else if (bhead->code == ENDB) { break; } } return NULL; #endif } static BHead *find_bhead_from_idname(FileData *fd, const char *idname) { #ifdef USE_GHASH_BHEAD return BLI_ghash_lookup(fd->bhead_idname_hash, idname); #else return find_bhead_from_code_name(fd, GS(idname), idname + 2); #endif } static ID *is_yet_read(FileData *fd, Main *mainvar, BHead *bhead) { const char *idname= bhead_id_name(fd, bhead); /* which_libbase can be NULL, intentionally not using idname+2 */ return BLI_findstring(which_libbase(mainvar, GS(idname)), idname, offsetof(ID, name)); } static void expand_doit_library(void *fdhandle, Main *mainvar, void *old) { BHead *bhead; FileData *fd = fdhandle; ID *id; bhead = find_bhead(fd, old); if (bhead) { /* from another library? */ if (bhead->code == ID_ID) { BHead *bheadlib= find_previous_lib(fd, bhead); if (bheadlib) { Library *lib = read_struct(fd, bheadlib, "Library"); Main *ptr = blo_find_main(fd, lib->name, fd->relabase); if (ptr->curlib == NULL) { const char *idname= bhead_id_name(fd, bhead); blo_reportf_wrap(fd->reports, RPT_WARNING, TIP_("LIB: Data refers to main .blend file: '%s' from %s"), idname, mainvar->curlib->filepath); return; } else id = is_yet_read(fd, ptr, bhead); if (id == NULL) { read_libblock(fd, ptr, bhead, LIB_TAG_READ | LIB_TAG_INDIRECT, NULL); // commented because this can print way too much // if (G.debug & G_DEBUG) printf("expand_doit: other lib %s\n", lib->name); /* for outliner dependency only */ ptr->curlib->parent = mainvar->curlib; } else { /* The line below was commented by Ton (I assume), when Hos did the merge from the orange branch. rev 6568 * This line is NEEDED, the case is that you have 3 blend files... * user.blend, lib.blend and lib_indirect.blend - if user.blend already references a "tree" from * lib_indirect.blend but lib.blend does too, linking in a Scene or Group from lib.blend can result in an * empty without the dupli group referenced. Once you save and reload the group would appear. - Campbell */ /* This crashes files, must look further into it */ /* Update: the issue is that in file reading, the oldnewmap is OK, but for existing data, it has to be * inserted in the map to be found! */ /* Update: previously it was checking for id->tag & LIB_TAG_PRE_EXISTING, however that * does not affect file reading. For file reading we may need to insert it into the libmap as well, * because you might have two files indirectly linking the same datablock, and in that case * we need this in the libmap for the fd of both those files. * * The crash that this check avoided earlier was because bhead->code wasn't properly passed in, making * change_idid_adr not detect the mapping was for an ID_ID datablock. */ oldnewmap_insert(fd->libmap, bhead->old, id, bhead->code); change_idid_adr_fd(fd, bhead->old, id); // commented because this can print way too much // if (G.debug & G_DEBUG) printf("expand_doit: already linked: %s lib: %s\n", id->name, lib->name); } MEM_freeN(lib); } } else { id = is_yet_read(fd, mainvar, bhead); if (id == NULL) { read_libblock(fd, mainvar, bhead, LIB_TAG_TESTIND, NULL); } else { /* this is actually only needed on UI call? when ID was already read before, and another append * happens which invokes same ID... in that case the lookup table needs this entry */ oldnewmap_insert(fd->libmap, bhead->old, id, bhead->code); // commented because this can print way too much // if (G.debug & G_DEBUG) printf("expand: already read %s\n", id->name); } } } } static BLOExpandDoitCallback expand_doit; // XXX deprecated - old animation system static void expand_ipo(FileData *fd, Main *mainvar, Ipo *ipo) { IpoCurve *icu; for (icu = ipo->curve.first; icu; icu = icu->next) { if (icu->driver) expand_doit(fd, mainvar, icu->driver->ob); } } // XXX deprecated - old animation system static void expand_constraint_channels(FileData *fd, Main *mainvar, ListBase *chanbase) { bConstraintChannel *chan; for (chan = chanbase->first; chan; chan = chan->next) { expand_doit(fd, mainvar, chan->ipo); } } static void expand_idprops(FileData *fd, Main *mainvar, IDProperty *prop) { if (!prop) return; switch (prop->type) { case IDP_ID: expand_doit(fd, mainvar, IDP_Id(prop)); break; case IDP_IDPARRAY: { IDProperty *idp_array = IDP_IDPArray(prop); for (int i = 0; i < prop->len; i++) { expand_idprops(fd, mainvar, &idp_array[i]); } break; } case IDP_GROUP: for (IDProperty *loop = prop->data.group.first; loop; loop = loop->next) { expand_idprops(fd, mainvar, loop); } break; } } static void expand_fmodifiers(FileData *fd, Main *mainvar, ListBase *list) { FModifier *fcm; for (fcm = list->first; fcm; fcm = fcm->next) { /* library data for specific F-Modifier types */ switch (fcm->type) { case FMODIFIER_TYPE_PYTHON: { FMod_Python *data = (FMod_Python *)fcm->data; expand_doit(fd, mainvar, data->script); break; } } } } static void expand_fcurves(FileData *fd, Main *mainvar, ListBase *list) { FCurve *fcu; for (fcu = list->first; fcu; fcu = fcu->next) { /* Driver targets if there is a driver */ if (fcu->driver) { ChannelDriver *driver = fcu->driver; DriverVar *dvar; for (dvar = driver->variables.first; dvar; dvar = dvar->next) { DRIVER_TARGETS_LOOPER(dvar) { // TODO: only expand those that are going to get used? expand_doit(fd, mainvar, dtar->id); } DRIVER_TARGETS_LOOPER_END } } /* F-Curve Modifiers */ expand_fmodifiers(fd, mainvar, &fcu->modifiers); } } static void expand_action(FileData *fd, Main *mainvar, bAction *act) { bActionChannel *chan; // XXX deprecated - old animation system -------------- for (chan=act->chanbase.first; chan; chan=chan->next) { expand_doit(fd, mainvar, chan->ipo); expand_constraint_channels(fd, mainvar, &chan->constraintChannels); } // --------------------------------------------------- /* F-Curves in Action */ expand_fcurves(fd, mainvar, &act->curves); for (TimeMarker *marker = act->markers.first; marker; marker = marker->next) { if (marker->camera) { expand_doit(fd, mainvar, marker->camera); } } } static void expand_keyingsets(FileData *fd, Main *mainvar, ListBase *list) { KeyingSet *ks; KS_Path *ksp; /* expand the ID-pointers in KeyingSets's paths */ for (ks = list->first; ks; ks = ks->next) { for (ksp = ks->paths.first; ksp; ksp = ksp->next) { expand_doit(fd, mainvar, ksp->id); } } } static void expand_animdata_nlastrips(FileData *fd, Main *mainvar, ListBase *list) { NlaStrip *strip; for (strip= list->first; strip; strip= strip->next) { /* check child strips */ expand_animdata_nlastrips(fd, mainvar, &strip->strips); /* check F-Curves */ expand_fcurves(fd, mainvar, &strip->fcurves); /* check F-Modifiers */ expand_fmodifiers(fd, mainvar, &strip->modifiers); /* relink referenced action */ expand_doit(fd, mainvar, strip->act); } } static void expand_animdata(FileData *fd, Main *mainvar, AnimData *adt) { NlaTrack *nlt; /* own action */ expand_doit(fd, mainvar, adt->action); expand_doit(fd, mainvar, adt->tmpact); /* drivers - assume that these F-Curves have driver data to be in this list... */ expand_fcurves(fd, mainvar, &adt->drivers); /* nla-data - referenced actions */ for (nlt = adt->nla_tracks.first; nlt; nlt = nlt->next) expand_animdata_nlastrips(fd, mainvar, &nlt->strips); } static void expand_particlesettings(FileData *fd, Main *mainvar, ParticleSettings *part) { int a; expand_doit(fd, mainvar, part->dup_ob); expand_doit(fd, mainvar, part->dup_group); expand_doit(fd, mainvar, part->eff_group); expand_doit(fd, mainvar, part->bb_ob); expand_doit(fd, mainvar, part->collision_group); if (part->adt) expand_animdata(fd, mainvar, part->adt); for (a = 0; a < MAX_MTEX; a++) { if (part->mtex[a]) { expand_doit(fd, mainvar, part->mtex[a]->tex); expand_doit(fd, mainvar, part->mtex[a]->object); } } if (part->effector_weights) { expand_doit(fd, mainvar, part->effector_weights->group); } if (part->pd) { expand_doit(fd, mainvar, part->pd->tex); expand_doit(fd, mainvar, part->pd->f_source); } if (part->pd2) { expand_doit(fd, mainvar, part->pd2->tex); expand_doit(fd, mainvar, part->pd2->f_source); } if (part->boids) { BoidState *state; BoidRule *rule; for (state = part->boids->states.first; state; state = state->next) { for (rule = state->rules.first; rule; rule = rule->next) { if (rule->type == eBoidRuleType_Avoid) { BoidRuleGoalAvoid *gabr = (BoidRuleGoalAvoid *)rule; expand_doit(fd, mainvar, gabr->ob); } else if (rule->type == eBoidRuleType_FollowLeader) { BoidRuleFollowLeader *flbr = (BoidRuleFollowLeader *)rule; expand_doit(fd, mainvar, flbr->ob); } } } } } static void expand_group(FileData *fd, Main *mainvar, Group *group) { GroupObject *go; for (go = group->gobject.first; go; go = go->next) { expand_doit(fd, mainvar, go->ob); } } static void expand_key(FileData *fd, Main *mainvar, Key *key) { expand_doit(fd, mainvar, key->ipo); // XXX deprecated - old animation system if (key->adt) expand_animdata(fd, mainvar, key->adt); } static void expand_nodetree(FileData *fd, Main *mainvar, bNodeTree *ntree) { bNode *node; bNodeSocket *sock; if (ntree->adt) expand_animdata(fd, mainvar, ntree->adt); if (ntree->gpd) expand_doit(fd, mainvar, ntree->gpd); for (node = ntree->nodes.first; node; node = node->next) { if (node->id && node->type != CMP_NODE_R_LAYERS) { expand_doit(fd, mainvar, node->id); } expand_idprops(fd, mainvar, node->prop); for (sock = node->inputs.first; sock; sock = sock->next) expand_doit(fd, mainvar, sock->prop); for (sock = node->outputs.first; sock; sock = sock->next) expand_doit(fd, mainvar, sock->prop); } for (sock = ntree->inputs.first; sock; sock = sock->next) expand_doit(fd, mainvar, sock->prop); for (sock = ntree->outputs.first; sock; sock = sock->next) expand_doit(fd, mainvar, sock->prop); } static void expand_texture(FileData *fd, Main *mainvar, Tex *tex) { expand_doit(fd, mainvar, tex->ima); expand_doit(fd, mainvar, tex->ipo); // XXX deprecated - old animation system if (tex->adt) expand_animdata(fd, mainvar, tex->adt); if (tex->nodetree) expand_nodetree(fd, mainvar, tex->nodetree); } static void expand_brush(FileData *fd, Main *mainvar, Brush *brush) { expand_doit(fd, mainvar, brush->mtex.tex); expand_doit(fd, mainvar, brush->mask_mtex.tex); expand_doit(fd, mainvar, brush->clone.image); expand_doit(fd, mainvar, brush->paint_curve); } static void expand_material(FileData *fd, Main *mainvar, Material *ma) { int a; for (a = 0; a < MAX_MTEX; a++) { if (ma->mtex[a]) { expand_doit(fd, mainvar, ma->mtex[a]->tex); expand_doit(fd, mainvar, ma->mtex[a]->object); } } expand_doit(fd, mainvar, ma->ipo); // XXX deprecated - old animation system if (ma->adt) expand_animdata(fd, mainvar, ma->adt); if (ma->nodetree) expand_nodetree(fd, mainvar, ma->nodetree); if (ma->group) expand_doit(fd, mainvar, ma->group); } static void expand_lamp(FileData *fd, Main *mainvar, Lamp *la) { int a; for (a = 0; a < MAX_MTEX; a++) { if (la->mtex[a]) { expand_doit(fd, mainvar, la->mtex[a]->tex); expand_doit(fd, mainvar, la->mtex[a]->object); } } expand_doit(fd, mainvar, la->ipo); // XXX deprecated - old animation system if (la->adt) expand_animdata(fd, mainvar, la->adt); if (la->nodetree) expand_nodetree(fd, mainvar, la->nodetree); } static void expand_lattice(FileData *fd, Main *mainvar, Lattice *lt) { expand_doit(fd, mainvar, lt->ipo); // XXX deprecated - old animation system expand_doit(fd, mainvar, lt->key); if (lt->adt) expand_animdata(fd, mainvar, lt->adt); } static void expand_world(FileData *fd, Main *mainvar, World *wrld) { int a; for (a = 0; a < MAX_MTEX; a++) { if (wrld->mtex[a]) { expand_doit(fd, mainvar, wrld->mtex[a]->tex); expand_doit(fd, mainvar, wrld->mtex[a]->object); } } expand_doit(fd, mainvar, wrld->ipo); // XXX deprecated - old animation system if (wrld->adt) expand_animdata(fd, mainvar, wrld->adt); if (wrld->nodetree) expand_nodetree(fd, mainvar, wrld->nodetree); } static void expand_mball(FileData *fd, Main *mainvar, MetaBall *mb) { int a; for (a = 0; a < mb->totcol; a++) { expand_doit(fd, mainvar, mb->mat[a]); } if (mb->adt) expand_animdata(fd, mainvar, mb->adt); } static void expand_curve(FileData *fd, Main *mainvar, Curve *cu) { int a; for (a = 0; a < cu->totcol; a++) { expand_doit(fd, mainvar, cu->mat[a]); } expand_doit(fd, mainvar, cu->vfont); expand_doit(fd, mainvar, cu->vfontb); expand_doit(fd, mainvar, cu->vfonti); expand_doit(fd, mainvar, cu->vfontbi); expand_doit(fd, mainvar, cu->key); expand_doit(fd, mainvar, cu->ipo); // XXX deprecated - old animation system expand_doit(fd, mainvar, cu->bevobj); expand_doit(fd, mainvar, cu->taperobj); expand_doit(fd, mainvar, cu->textoncurve); if (cu->adt) expand_animdata(fd, mainvar, cu->adt); } static void expand_mesh(FileData *fd, Main *mainvar, Mesh *me) { CustomDataLayer *layer; TFace *tf; int a, i; if (me->adt) expand_animdata(fd, mainvar, me->adt); for (a = 0; a < me->totcol; a++) { expand_doit(fd, mainvar, me->mat[a]); } expand_doit(fd, mainvar, me->key); expand_doit(fd, mainvar, me->texcomesh); if (me->tface) { tf = me->tface; for (i=0; itotface; i++, tf++) { if (tf->tpage) expand_doit(fd, mainvar, tf->tpage); } } if (me->mface && !me->mpoly) { MTFace *mtf; for (a = 0; a < me->fdata.totlayer; a++) { layer = &me->fdata.layers[a]; if (layer->type == CD_MTFACE) { mtf = (MTFace *) layer->data; for (i = 0; i < me->totface; i++, mtf++) { if (mtf->tpage) expand_doit(fd, mainvar, mtf->tpage); } } } } else { MTexPoly *mtp; for (a = 0; a < me->pdata.totlayer; a++) { layer = &me->pdata.layers[a]; if (layer->type == CD_MTEXPOLY) { mtp = (MTexPoly *) layer->data; for (i = 0; i < me->totpoly; i++, mtp++) { if (mtp->tpage) expand_doit(fd, mainvar, mtp->tpage); } } } } } /* temp struct used to transport needed info to expand_constraint_cb() */ typedef struct tConstraintExpandData { FileData *fd; Main *mainvar; } tConstraintExpandData; /* callback function used to expand constraint ID-links */ static void expand_constraint_cb(bConstraint *UNUSED(con), ID **idpoin, bool UNUSED(is_reference), void *userdata) { tConstraintExpandData *ced = (tConstraintExpandData *)userdata; expand_doit(ced->fd, ced->mainvar, *idpoin); } static void expand_constraints(FileData *fd, Main *mainvar, ListBase *lb) { tConstraintExpandData ced; bConstraint *curcon; /* relink all ID-blocks used by the constraints */ ced.fd = fd; ced.mainvar = mainvar; BKE_constraints_id_loop(lb, expand_constraint_cb, &ced); /* deprecated manual expansion stuff */ for (curcon = lb->first; curcon; curcon = curcon->next) { if (curcon->ipo) expand_doit(fd, mainvar, curcon->ipo); // XXX deprecated - old animation system } } static void expand_pose(FileData *fd, Main *mainvar, bPose *pose) { bPoseChannel *chan; if (!pose) return; for (chan = pose->chanbase.first; chan; chan = chan->next) { expand_constraints(fd, mainvar, &chan->constraints); expand_idprops(fd, mainvar, chan->prop); expand_doit(fd, mainvar, chan->custom); } } static void expand_bones(FileData *fd, Main *mainvar, Bone *bone) { expand_idprops(fd, mainvar, bone->prop); for (Bone *curBone = bone->childbase.first; curBone; curBone = curBone->next) { expand_bones(fd, mainvar, curBone); } } static void expand_armature(FileData *fd, Main *mainvar, bArmature *arm) { if (arm->adt) expand_animdata(fd, mainvar, arm->adt); for (Bone *curBone = arm->bonebase.first; curBone; curBone = curBone->next) { expand_bones(fd, mainvar, curBone); } } static void expand_object_expandModifiers( void *userData, Object *UNUSED(ob), ID **idpoin, int UNUSED(cb_flag)) { struct { FileData *fd; Main *mainvar; } *data= userData; FileData *fd = data->fd; Main *mainvar = data->mainvar; expand_doit(fd, mainvar, *idpoin); } static void expand_object(FileData *fd, Main *mainvar, Object *ob) { ParticleSystem *psys; bSensor *sens; bController *cont; bActuator *act; bActionStrip *strip; PartEff *paf; int a; expand_doit(fd, mainvar, ob->data); /* expand_object_expandModifier() */ if (ob->modifiers.first) { struct { FileData *fd; Main *mainvar; } data; data.fd = fd; data.mainvar = mainvar; modifiers_foreachIDLink(ob, expand_object_expandModifiers, (void *)&data); } expand_pose(fd, mainvar, ob->pose); expand_doit(fd, mainvar, ob->poselib); expand_constraints(fd, mainvar, &ob->constraints); expand_doit(fd, mainvar, ob->gpd); // XXX deprecated - old animation system (for version patching only) expand_doit(fd, mainvar, ob->ipo); expand_doit(fd, mainvar, ob->action); expand_constraint_channels(fd, mainvar, &ob->constraintChannels); for (strip=ob->nlastrips.first; strip; strip=strip->next) { expand_doit(fd, mainvar, strip->object); expand_doit(fd, mainvar, strip->act); expand_doit(fd, mainvar, strip->ipo); } // XXX deprecated - old animation system (for version patching only) if (ob->adt) expand_animdata(fd, mainvar, ob->adt); for (a = 0; a < ob->totcol; a++) { expand_doit(fd, mainvar, ob->mat[a]); } paf = blo_do_version_give_parteff_245(ob); if (paf && paf->group) expand_doit(fd, mainvar, paf->group); if (ob->dup_group) expand_doit(fd, mainvar, ob->dup_group); if (ob->proxy) expand_doit(fd, mainvar, ob->proxy); if (ob->proxy_group) expand_doit(fd, mainvar, ob->proxy_group); for (psys = ob->particlesystem.first; psys; psys = psys->next) expand_doit(fd, mainvar, psys->part); for (sens = ob->sensors.first; sens; sens = sens->next) { if (sens->type == SENS_MESSAGE) { bMessageSensor *ms = sens->data; expand_doit(fd, mainvar, ms->fromObject); } } for (cont = ob->controllers.first; cont; cont = cont->next) { if (cont->type == CONT_PYTHON) { bPythonCont *pc = cont->data; expand_doit(fd, mainvar, pc->text); } } for (act = ob->actuators.first; act; act = act->next) { if (act->type == ACT_SOUND) { bSoundActuator *sa = act->data; expand_doit(fd, mainvar, sa->sound); } else if (act->type == ACT_CAMERA) { bCameraActuator *ca = act->data; expand_doit(fd, mainvar, ca->ob); } else if (act->type == ACT_EDIT_OBJECT) { bEditObjectActuator *eoa = act->data; if (eoa) { expand_doit(fd, mainvar, eoa->ob); expand_doit(fd, mainvar, eoa->me); } } else if (act->type == ACT_OBJECT) { bObjectActuator *oa = act->data; expand_doit(fd, mainvar, oa->reference); } else if (act->type == ACT_ADD_OBJECT) { bAddObjectActuator *aoa = act->data; expand_doit(fd, mainvar, aoa->ob); } else if (act->type == ACT_SCENE) { bSceneActuator *sa = act->data; expand_doit(fd, mainvar, sa->camera); expand_doit(fd, mainvar, sa->scene); } else if (act->type == ACT_2DFILTER) { bTwoDFilterActuator *tdfa = act->data; expand_doit(fd, mainvar, tdfa->text); } else if (act->type == ACT_ACTION) { bActionActuator *aa = act->data; expand_doit(fd, mainvar, aa->act); } else if (act->type == ACT_SHAPEACTION) { bActionActuator *aa = act->data; expand_doit(fd, mainvar, aa->act); } else if (act->type == ACT_PROPERTY) { bPropertyActuator *pa = act->data; expand_doit(fd, mainvar, pa->ob); } else if (act->type == ACT_MESSAGE) { bMessageActuator *ma = act->data; expand_doit(fd, mainvar, ma->toObject); } else if (act->type==ACT_PARENT) { bParentActuator *pa = act->data; expand_doit(fd, mainvar, pa->ob); } else if (act->type == ACT_ARMATURE) { bArmatureActuator *arma = act->data; expand_doit(fd, mainvar, arma->target); } else if (act->type == ACT_STEERING) { bSteeringActuator *sta = act->data; expand_doit(fd, mainvar, sta->target); expand_doit(fd, mainvar, sta->navmesh); } } if (ob->pd) { expand_doit(fd, mainvar, ob->pd->tex); expand_doit(fd, mainvar, ob->pd->f_source); } if (ob->soft) { expand_doit(fd, mainvar, ob->soft->collision_group); if (ob->soft->effector_weights) { expand_doit(fd, mainvar, ob->soft->effector_weights->group); } } if (ob->rigidbody_constraint) { expand_doit(fd, mainvar, ob->rigidbody_constraint->ob1); expand_doit(fd, mainvar, ob->rigidbody_constraint->ob2); } if (ob->currentlod) { LodLevel *level; for (level = ob->lodlevels.first; level; level = level->next) { expand_doit(fd, mainvar, level->source); } } } static void expand_scene(FileData *fd, Main *mainvar, Scene *sce) { Base *base; SceneRenderLayer *srl; FreestyleModuleConfig *module; FreestyleLineSet *lineset; for (base = sce->base.first; base; base = base->next) { expand_doit(fd, mainvar, base->object); } expand_doit(fd, mainvar, sce->camera); expand_doit(fd, mainvar, sce->world); if (sce->adt) expand_animdata(fd, mainvar, sce->adt); expand_keyingsets(fd, mainvar, &sce->keyingsets); if (sce->set) expand_doit(fd, mainvar, sce->set); if (sce->nodetree) expand_nodetree(fd, mainvar, sce->nodetree); for (srl = sce->r.layers.first; srl; srl = srl->next) { expand_doit(fd, mainvar, srl->mat_override); expand_doit(fd, mainvar, srl->light_override); for (module = srl->freestyleConfig.modules.first; module; module = module->next) { if (module->script) expand_doit(fd, mainvar, module->script); } for (lineset = srl->freestyleConfig.linesets.first; lineset; lineset = lineset->next) { if (lineset->group) expand_doit(fd, mainvar, lineset->group); expand_doit(fd, mainvar, lineset->linestyle); } } if (sce->r.dometext) expand_doit(fd, mainvar, sce->gm.dome.warptext); if (sce->gpd) expand_doit(fd, mainvar, sce->gpd); if (sce->ed) { Sequence *seq; SEQ_BEGIN (sce->ed, seq) { expand_idprops(fd, mainvar, seq->prop); if (seq->scene) expand_doit(fd, mainvar, seq->scene); if (seq->scene_camera) expand_doit(fd, mainvar, seq->scene_camera); if (seq->clip) expand_doit(fd, mainvar, seq->clip); if (seq->mask) expand_doit(fd, mainvar, seq->mask); if (seq->sound) expand_doit(fd, mainvar, seq->sound); } SEQ_END } if (sce->rigidbody_world) { expand_doit(fd, mainvar, sce->rigidbody_world->group); expand_doit(fd, mainvar, sce->rigidbody_world->constraints); } for (TimeMarker *marker = sce->markers.first; marker; marker = marker->next) { if (marker->camera) { expand_doit(fd, mainvar, marker->camera); } } expand_doit(fd, mainvar, sce->clip); } static void expand_camera(FileData *fd, Main *mainvar, Camera *ca) { expand_doit(fd, mainvar, ca->ipo); // XXX deprecated - old animation system if (ca->adt) expand_animdata(fd, mainvar, ca->adt); } static void expand_cachefile(FileData *fd, Main *mainvar, CacheFile *cache_file) { if (cache_file->adt) { expand_animdata(fd, mainvar, cache_file->adt); } } static void expand_speaker(FileData *fd, Main *mainvar, Speaker *spk) { expand_doit(fd, mainvar, spk->sound); if (spk->adt) expand_animdata(fd, mainvar, spk->adt); } static void expand_sound(FileData *fd, Main *mainvar, bSound *snd) { expand_doit(fd, mainvar, snd->ipo); // XXX deprecated - old animation system } static void expand_movieclip(FileData *fd, Main *mainvar, MovieClip *clip) { if (clip->adt) expand_animdata(fd, mainvar, clip->adt); } static void expand_mask_parent(FileData *fd, Main *mainvar, MaskParent *parent) { if (parent->id) { expand_doit(fd, mainvar, parent->id); } } static void expand_mask(FileData *fd, Main *mainvar, Mask *mask) { MaskLayer *mask_layer; if (mask->adt) expand_animdata(fd, mainvar, mask->adt); for (mask_layer = mask->masklayers.first; mask_layer; mask_layer = mask_layer->next) { MaskSpline *spline; for (spline = mask_layer->splines.first; spline; spline = spline->next) { int i; for (i = 0; i < spline->tot_point; i++) { MaskSplinePoint *point = &spline->points[i]; expand_mask_parent(fd, mainvar, &point->parent); } expand_mask_parent(fd, mainvar, &spline->parent); } } } static void expand_linestyle(FileData *fd, Main *mainvar, FreestyleLineStyle *linestyle) { int a; LineStyleModifier *m; for (a = 0; a < MAX_MTEX; a++) { if (linestyle->mtex[a]) { expand_doit(fd, mainvar, linestyle->mtex[a]->tex); expand_doit(fd, mainvar, linestyle->mtex[a]->object); } } if (linestyle->nodetree) expand_nodetree(fd, mainvar, linestyle->nodetree); if (linestyle->adt) expand_animdata(fd, mainvar, linestyle->adt); for (m = linestyle->color_modifiers.first; m; m = m->next) { if (m->type == LS_MODIFIER_DISTANCE_FROM_OBJECT) expand_doit(fd, mainvar, ((LineStyleColorModifier_DistanceFromObject *)m)->target); } for (m = linestyle->alpha_modifiers.first; m; m = m->next) { if (m->type == LS_MODIFIER_DISTANCE_FROM_OBJECT) expand_doit(fd, mainvar, ((LineStyleAlphaModifier_DistanceFromObject *)m)->target); } for (m = linestyle->thickness_modifiers.first; m; m = m->next) { if (m->type == LS_MODIFIER_DISTANCE_FROM_OBJECT) expand_doit(fd, mainvar, ((LineStyleThicknessModifier_DistanceFromObject *)m)->target); } } static void expand_gpencil(FileData *fd, Main *mainvar, bGPdata *gpd) { if (gpd->adt) expand_animdata(fd, mainvar, gpd->adt); } /** * Set the callback func used over all ID data found by \a BLO_expand_main func. * * \param expand_doit_func Called for each ID block it finds. */ void BLO_main_expander(BLOExpandDoitCallback expand_doit_func) { expand_doit = expand_doit_func; } /** * Loop over all ID data in Main to mark relations. * Set (id->tag & LIB_TAG_NEED_EXPAND) to mark expanding. Flags get cleared after expanding. * * \param fdhandle usually filedata, or own handle. * \param mainvar the Main database to expand. */ void BLO_expand_main(void *fdhandle, Main *mainvar) { ListBase *lbarray[MAX_LIBARRAY]; FileData *fd = fdhandle; ID *id; int a; bool do_it = true; while (do_it) { do_it = false; a = set_listbasepointers(mainvar, lbarray); while (a--) { id = lbarray[a]->first; while (id) { if (id->tag & LIB_TAG_NEED_EXPAND) { expand_idprops(fd, mainvar, id->properties); switch (GS(id->name)) { case ID_OB: expand_object(fd, mainvar, (Object *)id); break; case ID_ME: expand_mesh(fd, mainvar, (Mesh *)id); break; case ID_CU: expand_curve(fd, mainvar, (Curve *)id); break; case ID_MB: expand_mball(fd, mainvar, (MetaBall *)id); break; case ID_SCE: expand_scene(fd, mainvar, (Scene *)id); break; case ID_MA: expand_material(fd, mainvar, (Material *)id); break; case ID_TE: expand_texture(fd, mainvar, (Tex *)id); break; case ID_WO: expand_world(fd, mainvar, (World *)id); break; case ID_LT: expand_lattice(fd, mainvar, (Lattice *)id); break; case ID_LA: expand_lamp(fd, mainvar, (Lamp *)id); break; case ID_KE: expand_key(fd, mainvar, (Key *)id); break; case ID_CA: expand_camera(fd, mainvar, (Camera *)id); break; case ID_SPK: expand_speaker(fd, mainvar, (Speaker *)id); break; case ID_SO: expand_sound(fd, mainvar, (bSound *)id); break; case ID_AR: expand_armature(fd, mainvar, (bArmature *)id); break; case ID_AC: expand_action(fd, mainvar, (bAction *)id); // XXX deprecated - old animation system break; case ID_GR: expand_group(fd, mainvar, (Group *)id); break; case ID_NT: expand_nodetree(fd, mainvar, (bNodeTree *)id); break; case ID_BR: expand_brush(fd, mainvar, (Brush *)id); break; case ID_IP: expand_ipo(fd, mainvar, (Ipo *)id); // XXX deprecated - old animation system break; case ID_PA: expand_particlesettings(fd, mainvar, (ParticleSettings *)id); break; case ID_MC: expand_movieclip(fd, mainvar, (MovieClip *)id); break; case ID_MSK: expand_mask(fd, mainvar, (Mask *)id); break; case ID_LS: expand_linestyle(fd, mainvar, (FreestyleLineStyle *)id); break; case ID_GD: expand_gpencil(fd, mainvar, (bGPdata *)id); break; case ID_CF: expand_cachefile(fd, mainvar, (CacheFile *)id); break; default: break; } do_it = true; id->tag &= ~LIB_TAG_NEED_EXPAND; } id = id->next; } } } } /* ***************************** */ static bool object_in_any_scene(Main *mainvar, Object *ob) { Scene *sce; for (sce = mainvar->scene.first; sce; sce = sce->id.next) { if (BKE_scene_base_find(sce, ob)) { return true; } } return false; } static void give_base_to_objects(Main *mainvar, Scene *scene, View3D *v3d, Library *lib, const short flag) { Object *ob; Base *base; const unsigned int active_lay = (flag & FILE_ACTIVELAY) ? BKE_screen_view3d_layer_active(v3d, scene) : 0; const bool is_link = (flag & FILE_LINK) != 0; BLI_assert(scene); /* give all objects which are LIB_TAG_INDIRECT a base, or for a group when *lib has been set */ for (ob = mainvar->object.first; ob; ob = ob->id.next) { if ((ob->id.tag & LIB_TAG_INDIRECT) && (ob->id.tag & LIB_TAG_PRE_EXISTING) == 0) { bool do_it = false; if (ob->id.us == 0) { do_it = true; } else if (!is_link && (ob->id.lib == lib) && (object_in_any_scene(mainvar, ob) == 0)) { /* When appending, make sure any indirectly loaded objects get a base, else they cant be accessed at all * (see T27437). */ do_it = true; } if (do_it) { base = MEM_callocN(sizeof(Base), __func__); BLI_addtail(&scene->base, base); if (active_lay) { ob->lay = active_lay; } if (flag & FILE_AUTOSELECT) { /* Note that link_object_postprocess() already checks for FILE_AUTOSELECT flag, * but it will miss objects from non-instanciated groups... */ ob->flag |= SELECT; /* do NOT make base active here! screws up GUI stuff, if you want it do it on src/ level */ } base->object = ob; base->lay = ob->lay; base->flag = ob->flag; CLAMP_MIN(ob->id.us, 0); id_us_plus_no_lib((ID *)ob); ob->id.tag &= ~LIB_TAG_INDIRECT; ob->id.tag |= LIB_TAG_EXTERN; } } } } static void give_base_to_groups( Main *mainvar, Scene *scene, View3D *v3d, Library *UNUSED(lib), const short UNUSED(flag)) { Group *group; Base *base; Object *ob; const unsigned int active_lay = BKE_screen_view3d_layer_active(v3d, scene); /* give all objects which are tagged a base */ for (group = mainvar->group.first; group; group = group->id.next) { if (group->id.tag & LIB_TAG_DOIT) { /* any indirect group should not have been tagged */ BLI_assert((group->id.tag & LIB_TAG_INDIRECT) == 0); /* BKE_object_add(...) messes with the selection */ ob = BKE_object_add_only_object(mainvar, OB_EMPTY, group->id.name + 2); ob->type = OB_EMPTY; ob->lay = active_lay; /* assign the base */ base = BKE_scene_base_add(scene, ob); base->flag |= SELECT; base->object->flag = base->flag; DAG_id_tag_update(&ob->id, OB_RECALC_OB | OB_RECALC_DATA | OB_RECALC_TIME); scene->basact = base; /* assign the group */ ob->dup_group = group; ob->transflag |= OB_DUPLIGROUP; copy_v3_v3(ob->loc, scene->cursor); } } } static ID *create_placeholder(Main *mainvar, const short idcode, const char *idname, const short tag) { ListBase *lb = which_libbase(mainvar, idcode); ID *ph_id = BKE_libblock_alloc_notest(idcode); *((short *)ph_id->name) = idcode; BLI_strncpy(ph_id->name + 2, idname, sizeof(ph_id->name) - 2); BKE_libblock_init_empty(ph_id); ph_id->lib = mainvar->curlib; ph_id->tag = tag | LIB_TAG_MISSING; ph_id->us = ID_FAKE_USERS(ph_id); ph_id->icon_id = 0; BLI_addtail(lb, ph_id); id_sort_by_name(lb, ph_id); return ph_id; } /* returns true if the item was found * but it may already have already been appended/linked */ static ID *link_named_part( Main *mainl, FileData *fd, const short idcode, const char *name, const bool use_placeholders, const bool force_indirect) { BHead *bhead = find_bhead_from_code_name(fd, idcode, name); ID *id; BLI_assert(BKE_idcode_is_linkable(idcode) && BKE_idcode_is_valid(idcode)); if (bhead) { id = is_yet_read(fd, mainl, bhead); if (id == NULL) { /* not read yet */ read_libblock(fd, mainl, bhead, force_indirect ? LIB_TAG_TESTIND : LIB_TAG_TESTEXT, &id); if (id) { /* sort by name in list */ ListBase *lb = which_libbase(mainl, idcode); id_sort_by_name(lb, id); } } else { /* already linked */ if (G.debug) printf("append: already linked\n"); oldnewmap_insert(fd->libmap, bhead->old, id, bhead->code); if (!force_indirect && (id->tag & LIB_TAG_INDIRECT)) { id->tag &= ~LIB_TAG_INDIRECT; id->tag |= LIB_TAG_EXTERN; } } } else if (use_placeholders) { /* XXX flag part is weak! */ id = create_placeholder(mainl, idcode, name, force_indirect ? LIB_TAG_INDIRECT : LIB_TAG_EXTERN); } else { id = NULL; } /* if we found the id but the id is NULL, this is really bad */ BLI_assert(!((bhead != NULL) && (id == NULL))); return id; } static void link_object_postprocess(ID *id, Scene *scene, View3D *v3d, const short flag) { if (scene) { Base *base; Object *ob; base = MEM_callocN(sizeof(Base), "app_nam_part"); BLI_addtail(&scene->base, base); ob = (Object *)id; /* link at active layer (view3d if available in context, else scene one */ if (flag & FILE_ACTIVELAY) { ob->lay = BKE_screen_view3d_layer_active(v3d, scene); } ob->mode = OB_MODE_OBJECT; base->lay = ob->lay; base->object = ob; base->flag = ob->flag; id_us_plus_no_lib((ID *)ob); if (flag & FILE_AUTOSELECT) { base->flag |= SELECT; base->object->flag = base->flag; /* do NOT make base active here! screws up GUI stuff, if you want it do it on src/ level */ } } } /** * Simple reader for copy/paste buffers. */ void BLO_library_link_copypaste(Main *mainl, BlendHandle *bh) { FileData *fd = (FileData *)(bh); BHead *bhead; for (bhead = blo_firstbhead(fd); bhead; bhead = blo_nextbhead(fd, bhead)) { ID *id = NULL; if (bhead->code == ENDB) break; if (ELEM(bhead->code, ID_OB, ID_GR)) { read_libblock(fd, mainl, bhead, LIB_TAG_TESTIND, &id); } if (id) { /* sort by name in list */ ListBase *lb = which_libbase(mainl, GS(id->name)); id_sort_by_name(lb, id); if (bhead->code == ID_OB) { /* Instead of instancing Base's directly, postpone until after groups are loaded * otherwise the base's flag is set incorrectly when groups are used */ Object *ob = (Object *)id; ob->mode = OB_MODE_OBJECT; /* ensure give_base_to_objects runs on this object */ BLI_assert(id->us == 0); } } } } static ID *link_named_part_ex( Main *mainl, FileData *fd, const short idcode, const char *name, const short flag, Scene *scene, View3D *v3d, const bool use_placeholders, const bool force_indirect) { ID *id = link_named_part(mainl, fd, idcode, name, use_placeholders, force_indirect); if (id && (GS(id->name) == ID_OB)) { /* loose object: give a base */ link_object_postprocess(id, scene, v3d, flag); } else if (id && (GS(id->name) == ID_GR)) { /* tag as needing to be instantiated */ if (flag & FILE_GROUP_INSTANCE) id->tag |= LIB_TAG_DOIT; } return id; } /** * Link a named datablock from an external blend file. * * \param mainl The main database to link from (not the active one). * \param bh The blender file handle. * \param idcode The kind of datablock to link. * \param name The name of the datablock (without the 2 char ID prefix). * \return the linked ID when found. */ ID *BLO_library_link_named_part(Main *mainl, BlendHandle **bh, const short idcode, const char *name) { FileData *fd = (FileData*)(*bh); return link_named_part(mainl, fd, idcode, name, false, false); } /** * Link a named datablock from an external blend file. * Optionally instantiate the object/group in the scene when the flags are set. * * \param mainl The main database to link from (not the active one). * \param bh The blender file handle. * \param idcode The kind of datablock to link. * \param name The name of the datablock (without the 2 char ID prefix). * \param flag Options for linking, used for instantiating. * \param scene The scene in which to instantiate objects/groups (if NULL, no instantiation is done). * \param v3d The active View3D (only to define active layers for instantiated objects & groups, can be NULL). * \param use_placeholders If true, generate a placeholder (empty ID) if not found in current lib file. * \param force_indirect If true, force loaded ID to be tagged as LIB_TAG_INDIRECT (used in reload context only). * \return the linked ID when found. */ ID *BLO_library_link_named_part_ex( Main *mainl, BlendHandle **bh, const short idcode, const char *name, const short flag, Scene *scene, View3D *v3d, const bool use_placeholders, const bool force_indirect) { FileData *fd = (FileData*)(*bh); return link_named_part_ex(mainl, fd, idcode, name, flag, scene, v3d, use_placeholders, force_indirect); } static void link_id_part(ReportList *reports, FileData *fd, Main *mainvar, ID *id, ID **r_id) { BHead *bhead = NULL; const bool is_valid = BKE_idcode_is_linkable(GS(id->name)) || ((id->tag & LIB_TAG_EXTERN) == 0); if (fd) { bhead = find_bhead_from_idname(fd, id->name); } id->tag &= ~LIB_TAG_READ; if (!is_valid) { blo_reportf_wrap( reports, RPT_ERROR, TIP_("LIB: %s: '%s' is directly linked from '%s' (parent '%s'), but is a non-linkable data type"), BKE_idcode_to_name(GS(id->name)), id->name + 2, mainvar->curlib->filepath, library_parent_filepath(mainvar->curlib)); } if (bhead) { id->tag |= LIB_TAG_NEED_EXPAND; // printf("read lib block %s\n", id->name); read_libblock(fd, mainvar, bhead, id->tag, r_id); } else { blo_reportf_wrap( reports, RPT_WARNING, TIP_("LIB: %s: '%s' missing from '%s', parent '%s'"), BKE_idcode_to_name(GS(id->name)), id->name + 2, mainvar->curlib->filepath, library_parent_filepath(mainvar->curlib)); /* Generate a placeholder for this ID (simplified version of read_libblock actually...). */ if (r_id) { *r_id = is_valid ? create_placeholder(mainvar, GS(id->name), id->name + 2, id->tag) : NULL; } } } /* common routine to append/link something from a library */ static Main *library_link_begin(Main *mainvar, FileData **fd, const char *filepath) { Main *mainl; (*fd)->mainlist = MEM_callocN(sizeof(ListBase), "FileData.mainlist"); /* clear for group instantiating tag */ BKE_main_id_tag_listbase(&(mainvar->group), LIB_TAG_DOIT, false); /* make mains */ blo_split_main((*fd)->mainlist, mainvar); /* which one do we need? */ mainl = blo_find_main(*fd, filepath, G.main->name); /* needed for do_version */ mainl->versionfile = (*fd)->fileversion; read_file_version(*fd, mainl); #ifdef USE_GHASH_BHEAD read_file_bhead_idname_map_create(*fd); #endif return mainl; } /** * Initialize the BlendHandle for linking library data. * * \param mainvar The current main database, e.g. G.main or CTX_data_main(C). * \param bh A blender file handle as returned by \a BLO_blendhandle_from_file or \a BLO_blendhandle_from_memory. * \param filepath Used for relative linking, copied to the \a lib->name. * \return the library Main, to be passed to \a BLO_library_append_named_part as \a mainl. */ Main *BLO_library_link_begin(Main *mainvar, BlendHandle **bh, const char *filepath) { FileData *fd = (FileData*)(*bh); return library_link_begin(mainvar, &fd, filepath); } static void split_main_newid(Main *mainptr, Main *main_newid) { /* We only copy the necessary subset of data in this temp main. */ main_newid->versionfile = mainptr->versionfile; main_newid->subversionfile = mainptr->subversionfile; BLI_strncpy(main_newid->name, mainptr->name, sizeof(main_newid->name)); main_newid->curlib = mainptr->curlib; ListBase *lbarray[MAX_LIBARRAY]; ListBase *lbarray_newid[MAX_LIBARRAY]; int i = set_listbasepointers(mainptr, lbarray); set_listbasepointers(main_newid, lbarray_newid); while (i--) { BLI_listbase_clear(lbarray_newid[i]); for (ID *id = lbarray[i]->first, *idnext; id; id = idnext) { idnext = id->next; if (id->tag & LIB_TAG_NEW) { BLI_remlink(lbarray[i], id); BLI_addtail(lbarray_newid[i], id); } } } } /* scene and v3d may be NULL. */ static void library_link_end(Main *mainl, FileData **fd, const short flag, Scene *scene, View3D *v3d) { Main *mainvar; Library *curlib; /* expander now is callback function */ BLO_main_expander(expand_doit_library); /* make main consistent */ BLO_expand_main(*fd, mainl); /* do this when expand found other libs */ read_libraries(*fd, (*fd)->mainlist); curlib = mainl->curlib; /* make the lib path relative if required */ if (flag & FILE_RELPATH) { /* use the full path, this could have been read by other library even */ BLI_strncpy(curlib->name, curlib->filepath, sizeof(curlib->name)); /* uses current .blend file as reference */ BLI_path_rel(curlib->name, G.main->name); } blo_join_main((*fd)->mainlist); mainvar = (*fd)->mainlist->first; mainl = NULL; /* blo_join_main free's mainl, cant use anymore */ lib_link_all(*fd, mainvar); /* Yep, second splitting... but this is a very cheap operation, so no big deal. */ blo_split_main((*fd)->mainlist, mainvar); Main main_newid = {0}; for (mainvar = ((Main *)(*fd)->mainlist->first)->next; mainvar; mainvar = mainvar->next) { BLI_assert(mainvar->versionfile != 0); /* We need to split out IDs already existing, or they will go again through do_versions - bad, very bad! */ split_main_newid(mainvar, &main_newid); do_versions_after_linking(&main_newid); add_main_to_main(mainvar, &main_newid); } blo_join_main((*fd)->mainlist); mainvar = (*fd)->mainlist->first; MEM_freeN((*fd)->mainlist); BKE_main_id_tag_all(mainvar, LIB_TAG_NEW, false); lib_verify_nodetree(mainvar, false); fix_relpaths_library(G.main->name, mainvar); /* make all relative paths, relative to the open blend file */ /* Give a base to loose objects. If group append, do it for objects too. * Only directly linked objects & groups are instantiated by `BLO_library_link_named_part_ex()` & co, * here we handle indirect ones and other possible edge-cases. */ if (scene) { give_base_to_objects(mainvar, scene, v3d, curlib, flag); if (flag & FILE_GROUP_INSTANCE) { give_base_to_groups(mainvar, scene, v3d, curlib, flag); } } else { /* printf("library_append_end, scene is NULL (objects wont get bases)\n"); */ } /* clear group instantiating tag */ BKE_main_id_tag_listbase(&(mainvar->group), LIB_TAG_DOIT, false); /* patch to prevent switch_endian happens twice */ if ((*fd)->flags & FD_FLAGS_SWITCH_ENDIAN) { blo_freefiledata(*fd); *fd = NULL; } } /** * Finalize linking from a given .blend file (library). * Optionally instance the indirect object/group in the scene when the flags are set. * \note Do not use \a bh after calling this function, it may frees it. * * \param mainl The main database to link from (not the active one). * \param bh The blender file handle (WARNING! may be freed by this function!). * \param flag Options for linking, used for instantiating. * \param scene The scene in which to instantiate objects/groups (if NULL, no instantiation is done). * \param v3d The active View3D (only to define active layers for instantiated objects & groups, can be NULL). */ void BLO_library_link_end(Main *mainl, BlendHandle **bh, short flag, Scene *scene, View3D *v3d) { FileData *fd = (FileData*)(*bh); library_link_end(mainl, &fd, flag, scene, v3d); *bh = (BlendHandle*)fd; } void *BLO_library_read_struct(FileData *fd, BHead *bh, const char *blockname) { return read_struct(fd, bh, blockname); } /* ************* READ LIBRARY ************** */ static int mainvar_id_tag_any_check(Main *mainvar, const short tag) { ListBase *lbarray[MAX_LIBARRAY]; int a; a = set_listbasepointers(mainvar, lbarray); while (a--) { ID *id; for (id = lbarray[a]->first; id; id = id->next) { if (id->tag & tag) { return true; } } } return false; } static void read_libraries(FileData *basefd, ListBase *mainlist) { Main *mainl = mainlist->first; Main *mainptr; ListBase *lbarray[MAX_LIBARRAY]; int a; bool do_it = true; /* expander now is callback function */ BLO_main_expander(expand_doit_library); while (do_it) { do_it = false; /* test 1: read libdata */ mainptr= mainl->next; while (mainptr) { if (mainvar_id_tag_any_check(mainptr, LIB_TAG_READ)) { // printf("found LIB_TAG_READ %s\n", mainptr->curlib->name); FileData *fd = mainptr->curlib->filedata; if (fd == NULL) { /* printf and reports for now... its important users know this */ /* if packed file... */ if (mainptr->curlib->packedfile) { PackedFile *pf = mainptr->curlib->packedfile; blo_reportf_wrap( basefd->reports, RPT_INFO, TIP_("Read packed library: '%s', parent '%s'"), mainptr->curlib->name, library_parent_filepath(mainptr->curlib)); fd = blo_openblendermemory(pf->data, pf->size, basefd->reports); /* needed for library_append and read_libraries */ BLI_strncpy(fd->relabase, mainptr->curlib->filepath, sizeof(fd->relabase)); } else { blo_reportf_wrap( basefd->reports, RPT_INFO, TIP_("Read library: '%s', '%s', parent '%s'"), mainptr->curlib->filepath, mainptr->curlib->name, library_parent_filepath(mainptr->curlib)); fd = blo_openblenderfile(mainptr->curlib->filepath, basefd->reports); } /* allow typing in a new lib path */ if (G.debug_value == -666) { while (fd == NULL) { char newlib_path[FILE_MAX] = {0}; printf("Missing library...'\n"); printf(" current file: %s\n", G.main->name); printf(" absolute lib: %s\n", mainptr->curlib->filepath); printf(" relative lib: %s\n", mainptr->curlib->name); printf(" enter a new path:\n"); if (scanf("%1023s", newlib_path) > 0) { /* Warning, keep length in sync with FILE_MAX! */ BLI_strncpy(mainptr->curlib->name, newlib_path, sizeof(mainptr->curlib->name)); BLI_strncpy(mainptr->curlib->filepath, newlib_path, sizeof(mainptr->curlib->filepath)); BLI_cleanup_path(G.main->name, mainptr->curlib->filepath); fd = blo_openblenderfile(mainptr->curlib->filepath, basefd->reports); if (fd) { fd->mainlist = mainlist; printf("found: '%s', party on macuno!\n", mainptr->curlib->filepath); } } } } if (fd) { /* share the mainlist, so all libraries are added immediately in a * single list. it used to be that all FileData's had their own list, * but with indirectly linking this meant we didn't catch duplicate * libraries properly */ fd->mainlist = mainlist; fd->reports = basefd->reports; if (fd->libmap) oldnewmap_free(fd->libmap); fd->libmap = oldnewmap_new(); mainptr->curlib->filedata = fd; mainptr->versionfile= fd->fileversion; /* subversion */ read_file_version(fd, mainptr); #ifdef USE_GHASH_BHEAD read_file_bhead_idname_map_create(fd); #endif } else { mainptr->curlib->filedata = NULL; mainptr->curlib->id.tag |= LIB_TAG_MISSING; /* Set lib version to current main one... Makes assert later happy. */ mainptr->versionfile = mainptr->curlib->versionfile = mainl->versionfile; mainptr->subversionfile = mainptr->curlib->subversionfile = mainl->subversionfile; } if (fd == NULL) { blo_reportf_wrap(basefd->reports, RPT_WARNING, TIP_("Cannot find lib '%s'"), mainptr->curlib->filepath); } } if (fd) { do_it = true; } a = set_listbasepointers(mainptr, lbarray); while (a--) { ID *id = lbarray[a]->first; while (id) { ID *idn = id->next; if (id->tag & LIB_TAG_READ) { ID *realid = NULL; BLI_remlink(lbarray[a], id); link_id_part(basefd->reports, fd, mainptr, id, &realid); /* realid shall never be NULL - unless some source file/lib is broken * (known case: some directly linked shapekey from a missing lib...). */ /* BLI_assert(realid != NULL); */ change_idid_adr(mainlist, basefd, id, realid); MEM_freeN(id); } id = idn; } } BLO_expand_main(fd, mainptr); } mainptr = mainptr->next; } } /* test if there are unread libblocks */ /* XXX This code block is kept for 2.77, until we are sure it never gets reached anymore. Can be removed later. */ for (mainptr = mainl->next; mainptr; mainptr = mainptr->next) { a = set_listbasepointers(mainptr, lbarray); while (a--) { ID *id, *idn = NULL; for (id = lbarray[a]->first; id; id = idn) { idn = id->next; if (id->tag & LIB_TAG_READ) { BLI_assert(0); BLI_remlink(lbarray[a], id); blo_reportf_wrap( basefd->reports, RPT_ERROR, TIP_("LIB: %s: '%s' unread lib block missing from '%s', parent '%s' - " "Please file a bug report if you see this message"), BKE_idcode_to_name(GS(id->name)), id->name + 2, mainptr->curlib->filepath, library_parent_filepath(mainptr->curlib)); change_idid_adr(mainlist, basefd, id, NULL); MEM_freeN(id); } } } } /* do versions, link, and free */ Main main_newid = {0}; for (mainptr = mainl->next; mainptr; mainptr = mainptr->next) { /* some mains still have to be read, then versionfile is still zero! */ if (mainptr->versionfile) { /* We need to split out IDs already existing, or they will go again through do_versions - bad, very bad! */ split_main_newid(mainptr, &main_newid); if (mainptr->curlib->filedata) // can be zero... with shift+f1 append do_versions(mainptr->curlib->filedata, mainptr->curlib, &main_newid); else do_versions(basefd, NULL, &main_newid); add_main_to_main(mainptr, &main_newid); } if (mainptr->curlib->filedata) lib_link_all(mainptr->curlib->filedata, mainptr); if (mainptr->curlib->filedata) blo_freefiledata(mainptr->curlib->filedata); mainptr->curlib->filedata = NULL; } } /* reading runtime */ BlendFileData *blo_read_blendafterruntime(int file, const char *name, int actualsize, ReportList *reports) { BlendFileData *bfd = NULL; FileData *fd = filedata_new(); fd->filedes = file; fd->buffersize = actualsize; fd->read = fd_read_from_file; /* needed for library_append and read_libraries */ BLI_strncpy(fd->relabase, name, sizeof(fd->relabase)); fd = blo_decode_and_check(fd, reports); if (!fd) return NULL; fd->reports = reports; bfd = blo_read_file_internal(fd, ""); blo_freefiledata(fd); return bfd; }