/* * ***** 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. * * Contributor(s): Blender Foundation * * ***** END GPL LICENSE BLOCK ***** * */ /** \file blender/blenloader/intern/versioning_270.c * \ingroup blenloader */ #include "BLI_utildefines.h" #include "BLI_compiler_attrs.h" /* for MinGW32 definition of NULL, could use BLI_blenlib.h instead too */ #include /* allow readfile to use deprecated functionality */ #define DNA_DEPRECATED_ALLOW #include "DNA_brush_types.h" #include "DNA_cloth_types.h" #include "DNA_constraint_types.h" #include "DNA_sdna_types.h" #include "DNA_space_types.h" #include "DNA_screen_types.h" #include "DNA_object_types.h" #include "DNA_mesh_types.h" #include "DNA_modifier_types.h" #include "DNA_particle_types.h" #include "DNA_linestyle_types.h" #include "DNA_actuator_types.h" #include "DNA_genfile.h" #include "BLI_blenlib.h" #include "BLI_math.h" #include "BKE_main.h" #include "BKE_node.h" #include "BLI_math.h" #include "BLI_string.h" #include "BLO_readfile.h" #include "readfile.h" static void do_version_constraints_radians_degrees_270_1(ListBase *lb) { bConstraint *con; for (con = lb->first; con; con = con->next) { if (con->type == CONSTRAINT_TYPE_TRANSFORM) { bTransformConstraint *data = (bTransformConstraint *)con->data; const float deg_to_rad_f = DEG2RADF(1.0f); if (data->from == TRANS_ROTATION) { mul_v3_fl(data->from_min, deg_to_rad_f); mul_v3_fl(data->from_max, deg_to_rad_f); } if (data->to == TRANS_ROTATION) { mul_v3_fl(data->to_min, deg_to_rad_f); mul_v3_fl(data->to_max, deg_to_rad_f); } } } } static void do_version_constraints_radians_degrees_270_5(ListBase *lb) { bConstraint *con; for (con = lb->first; con; con = con->next) { if (con->type == CONSTRAINT_TYPE_TRANSFORM) { bTransformConstraint *data = (bTransformConstraint *)con->data; if (data->from == TRANS_ROTATION) { copy_v3_v3(data->from_min_rot, data->from_min); copy_v3_v3(data->from_max_rot, data->from_max); } else if (data->from == TRANS_SCALE) { copy_v3_v3(data->from_min_scale, data->from_min); copy_v3_v3(data->from_max_scale, data->from_max); } if (data->to == TRANS_ROTATION) { copy_v3_v3(data->to_min_rot, data->to_min); copy_v3_v3(data->to_max_rot, data->to_max); } else if (data->to == TRANS_SCALE) { copy_v3_v3(data->to_min_scale, data->to_min); copy_v3_v3(data->to_max_scale, data->to_max); } } } } void blo_do_versions_270(FileData *fd, Library *UNUSED(lib), Main *main) { if (!MAIN_VERSION_ATLEAST(main, 270, 0)) { if (!DNA_struct_elem_find(fd->filesdna, "BevelModifierData", "float", "profile")) { Object *ob; for (ob = main->object.first; ob; ob = ob->id.next) { ModifierData *md; for (md = ob->modifiers.first; md; md = md->next) { if (md->type == eModifierType_Bevel) { BevelModifierData *bmd = (BevelModifierData *)md; bmd->profile = 0.5f; bmd->val_flags = MOD_BEVEL_AMT_OFFSET; } } } } /* nodes don't use fixed node->id any more, clean up */ FOREACH_NODETREE(main, ntree, id) { if (ntree->type == NTREE_COMPOSIT) { bNode *node; for (node = ntree->nodes.first; node; node = node->next) { if (ELEM(node->type, CMP_NODE_COMPOSITE, CMP_NODE_OUTPUT_FILE)) { node->id = NULL; } } } } FOREACH_NODETREE_END { bScreen *screen; for (screen = main->screen.first; screen; screen = screen->id.next) { ScrArea *area; for (area = screen->areabase.first; area; area = area->next) { SpaceLink *space_link; for (space_link = area->spacedata.first; space_link; space_link = space_link->next) { if (space_link->spacetype == SPACE_CLIP) { SpaceClip *space_clip = (SpaceClip *) space_link; if (space_clip->mode != SC_MODE_MASKEDIT) { space_clip->mode = SC_MODE_TRACKING; } } } } } } if (!DNA_struct_elem_find(fd->filesdna, "MovieTrackingSettings", "float", "default_weight")) { MovieClip *clip; for (clip = main->movieclip.first; clip; clip = clip->id.next) { clip->tracking.settings.default_weight = 1.0f; } } } if (!MAIN_VERSION_ATLEAST(main, 270, 1)) { Scene *sce; Object *ob; /* Update Transform constraint (another deg -> rad stuff). */ for (ob = main->object.first; ob; ob = ob->id.next) { do_version_constraints_radians_degrees_270_1(&ob->constraints); if (ob->pose) { /* Bones constraints! */ bPoseChannel *pchan; for (pchan = ob->pose->chanbase.first; pchan; pchan = pchan->next) { do_version_constraints_radians_degrees_270_1(&pchan->constraints); } } } for (sce = main->scene.first; sce; sce = sce->id.next) { if (sce->r.raytrace_structure == R_RAYSTRUCTURE_BLIBVH) { sce->r.raytrace_structure = R_RAYSTRUCTURE_AUTO; } } } if (!MAIN_VERSION_ATLEAST(main, 270, 2)) { Mesh *me; /* Mesh smoothresh deg->rad. */ for (me = main->mesh.first; me; me = me->id.next) { me->smoothresh = DEG2RADF(me->smoothresh); } } if (!MAIN_VERSION_ATLEAST(main, 270, 3)) { FreestyleLineStyle *linestyle; for (linestyle = main->linestyle.first; linestyle; linestyle = linestyle->id.next) { linestyle->flag |= LS_NO_SORTING; linestyle->sort_key = LS_SORT_KEY_DISTANCE_FROM_CAMERA; linestyle->integration_type = LS_INTEGRATION_MEAN; } } if (!MAIN_VERSION_ATLEAST(main, 270, 4)) { /* ui_previews were not handled correctly when copying areas, leading to corrupted files (see T39847). * This will always reset situation to a valid state. */ bScreen *sc; for (sc = main->screen.first; sc; sc = sc->id.next) { ScrArea *sa; for (sa = sc->areabase.first; sa; sa = sa->next) { SpaceLink *sl; for (sl = sa->spacedata.first; sl; sl = sl->next) { ARegion *ar; ListBase *lb = (sl == sa->spacedata.first) ? &sa->regionbase : &sl->regionbase; for (ar = lb->first; ar; ar = ar->next) { BLI_listbase_clear(&ar->ui_previews); } } } } } if (!MAIN_VERSION_ATLEAST(main, 270, 5)) { Object *ob; /* Update Transform constraint (again :|). */ for (ob = main->object.first; ob; ob = ob->id.next) { do_version_constraints_radians_degrees_270_5(&ob->constraints); if (ob->pose) { /* Bones constraints! */ bPoseChannel *pchan; for (pchan = ob->pose->chanbase.first; pchan; pchan = pchan->next) { do_version_constraints_radians_degrees_270_5(&pchan->constraints); } } } } if (!MAIN_VERSION_ATLEAST(main, 271, 0)) { if (!DNA_struct_elem_find(fd->filesdna, "Material", "int", "mode2")) { Material *ma; for (ma = main->mat.first; ma; ma = ma->id.next) ma->mode2 = MA_CASTSHADOW; } if (!DNA_struct_elem_find(fd->filesdna, "RenderData", "BakeData", "bake")) { Scene *sce; for (sce = main->scene.first; sce; sce = sce->id.next) { sce->r.bake.flag = R_BAKE_CLEAR; sce->r.bake.width = 512; sce->r.bake.height = 512; sce->r.bake.margin = 16; sce->r.bake.normal_space = R_BAKE_SPACE_TANGENT; sce->r.bake.normal_swizzle[0] = R_BAKE_POSX; sce->r.bake.normal_swizzle[1] = R_BAKE_POSY; sce->r.bake.normal_swizzle[2] = R_BAKE_POSZ; BLI_strncpy(sce->r.bake.filepath, U.renderdir, sizeof(sce->r.bake.filepath)); sce->r.bake.im_format.planes = R_IMF_PLANES_RGBA; sce->r.bake.im_format.imtype = R_IMF_IMTYPE_PNG; sce->r.bake.im_format.depth = R_IMF_CHAN_DEPTH_8; sce->r.bake.im_format.quality = 90; sce->r.bake.im_format.compress = 15; } } if (!DNA_struct_elem_find(fd->filesdna, "FreestyleLineStyle", "float", "texstep")) { FreestyleLineStyle *linestyle; for (linestyle = main->linestyle.first; linestyle; linestyle = linestyle->id.next) { linestyle->flag |= LS_TEXTURE; linestyle->texstep = 1.0; } } { Scene *scene; for (scene = main->scene.first; scene; scene = scene->id.next) { int num_layers = BLI_countlist(&scene->r.layers); scene->r.actlay = min_ff(scene->r.actlay, num_layers - 1); } } } if (!MAIN_VERSION_ATLEAST(main, 271, 1)) { if (!DNA_struct_elem_find(fd->filesdna, "Material", "float", "line_col[4]")) { Material *mat; for (mat = main->mat.first; mat; mat = mat->id.next) { mat->line_col[0] = mat->line_col[1] = mat->line_col[2] = 0.0f; mat->line_col[3] = mat->alpha; } } if (!DNA_struct_elem_find(fd->filesdna, "RenderData", "int", "preview_start_resolution")) { Scene *scene; for (scene = main->scene.first; scene; scene = scene->id.next) { scene->r.preview_start_resolution = 64; } } } if (!MAIN_VERSION_ATLEAST(main, 271, 2)) { /* init up & track axis property of trackto actuators */ Object *ob; for (ob = main->object.first; ob; ob = ob->id.next) { bActuator *act; for (act = ob->actuators.first; act; act = act->next) { if (act->type == ACT_EDIT_OBJECT) { bEditObjectActuator *eoact = act->data; eoact->trackflag = ob->trackflag; /* if trackflag is pointing +-Z axis then upflag should point Y axis. * Rest of trackflag cases, upflag should be point z axis */ if ((ob->trackflag == OB_POSZ) || (ob->trackflag == OB_NEGZ)) { eoact->upflag = 1; } else { eoact->upflag = 2; } } } } } if (!MAIN_VERSION_ATLEAST(main, 271, 3)) { Brush *br; for (br = main->brush.first; br; br = br->id.next) { br->fill_threshold = 0.2f; } } if (!DNA_struct_elem_find(fd->filesdna, "RenderData", "int", "preview_start_resolution")) { Scene *scene; for (scene = main->scene.first; scene; scene = scene->id.next) { scene->r.preview_start_resolution = 64; } } if (!MAIN_VERSION_ATLEAST(main, 271, 6)) { Object *ob; for (ob = main->object.first; ob; ob = ob->id.next) { ModifierData *md; for (md = ob->modifiers.first; md; md = md->next) { if (md->type == eModifierType_ParticleSystem) { ParticleSystemModifierData *pmd = (ParticleSystemModifierData *)md; if (pmd->psys && pmd->psys->clmd) { pmd->psys->clmd->sim_parms->vel_damping = 1.0f; } } } } } }