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c655146b87fe20853e52b87991b46732a04d749e
blender-archive/source/blender/blenloader/intern/versioning_270.c
Campbell Barton c434782e3a File headers: SPDX License migration 
Use a shorter/simpler license convention, stops the header taking so
much space.

Follow the SPDX license specification: https://spdx.org/licenses

- C/C++/objc/objc++
- Python
- Shell Scripts
- CMake, GNUmakefile

While most of the source tree has been included

- `./extern/` was left out.
- `./intern/cycles` & `./intern/atomic` are also excluded because they
  use different header conventions.

doc/license/SPDX-license-identifiers.txt has been added to list SPDX all
used identifiers.

See P2788 for the script that automated these edits.

Reviewed By: brecht, mont29, sergey

Ref D14069
2022-02-11 09:14:36 +11:00

1720 lines
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/* SPDX-License-Identifier: GPL-2.0-or-later */
/** \file
* \ingroup blenloader
*/
#include "BLI_compiler_attrs.h"
#include "BLI_utildefines.h"
/* for MinGW32 definition of NULL, could use BLI_blenlib.h instead too */
#include <stddef.h>
/* allow readfile to use deprecated functionality */
#define DNA_DEPRECATED_ALLOW
#include "DNA_anim_types.h"
#include "DNA_armature_types.h"
#include "DNA_brush_types.h"
#include "DNA_camera_types.h"
#include "DNA_cloth_types.h"
#include "DNA_constraint_types.h"
#include "DNA_fluid_types.h"
#include "DNA_gpencil_types.h"
#include "DNA_light_types.h"
#include "DNA_linestyle_types.h"
#include "DNA_mask_types.h"
#include "DNA_mesh_types.h"
#include "DNA_modifier_types.h"
#include "DNA_object_force_types.h"
#include "DNA_object_types.h"
#include "DNA_particle_types.h"
#include "DNA_pointcache_types.h"
#include "DNA_rigidbody_types.h"
#include "DNA_screen_types.h"
#include "DNA_sdna_types.h"
#include "DNA_sequence_types.h"
#include "DNA_space_types.h"
#include "DNA_view3d_types.h"
#include "DNA_genfile.h"
#include "BKE_anim_data.h"
#include "BKE_animsys.h"
#include "BKE_colortools.h"
#include "BKE_fcurve_driver.h"
#include "BKE_main.h"
#include "BKE_mask.h"
#include "BKE_modifier.h"
#include "BKE_node.h"
#include "BKE_scene.h"
#include "BKE_screen.h"
#include "BKE_tracking.h"
#include "DNA_material_types.h"
#include "SEQ_effects.h"
#include "SEQ_iterator.h"
#include "BLI_listbase.h"
#include "BLI_math.h"
#include "BLI_string.h"
#include "BLI_string_utils.h"
#include "BLT_translation.h"
#include "BLO_readfile.h"
#include "NOD_common.h"
#include "NOD_composite.h"
#include "NOD_socket.h"
#include "readfile.h"
#include "MEM_guardedalloc.h"
/* Make preferences read-only, use versioning_userdef.c. */
#define U (*((const UserDef *)&U))
/* ************************************************** */
/* GP Palettes API (Deprecated) */
/* add a new gp-palette */
static bGPDpalette *BKE_gpencil_palette_addnew(bGPdata *gpd, const char *name)
{
bGPDpalette *palette;
/* check that list is ok */
if (gpd == NULL) {
return NULL;
}
/* allocate memory and add to end of list */
palette = MEM_callocN(sizeof(bGPDpalette), "bGPDpalette");
/* add to datablock */
BLI_addtail(&gpd->palettes, palette);
/* set basic settings */
/* auto-name */
BLI_strncpy(palette->info, name, sizeof(palette->info));
BLI_uniquename(&gpd->palettes,
palette,
DATA_("GP_Palette"),
'.',
offsetof(bGPDpalette, info),
sizeof(palette->info));
/* return palette */
return palette;
}
/* add a new gp-palettecolor */
static bGPDpalettecolor *BKE_gpencil_palettecolor_addnew(bGPDpalette *palette, const char *name)
{
bGPDpalettecolor *palcolor;
/* check that list is ok */
if (palette == NULL) {
return NULL;
}
/* allocate memory and add to end of list */
palcolor = MEM_callocN(sizeof(bGPDpalettecolor), "bGPDpalettecolor");
/* add to datablock */
BLI_addtail(&palette->colors, palcolor);
/* set basic settings */
copy_v4_v4(palcolor->color, U.gpencil_new_layer_col);
ARRAY_SET_ITEMS(palcolor->fill, 1.0f, 1.0f, 1.0f);
/* auto-name */
BLI_strncpy(palcolor->info, name, sizeof(palcolor->info));
BLI_uniquename(&palette->colors,
palcolor,
DATA_("Color"),
'.',
offsetof(bGPDpalettecolor, info),
sizeof(palcolor->info));
/* return palette color */
return palcolor;
}
/**
* Setup rotation stabilization from ancient single track spec.
* Former Version of 2D stabilization used a single tracking marker to determine the rotation
* to be compensated. Now several tracks can contribute to rotation detection and this feature
* is enabled by the MovieTrackingTrack#flag on a per track base.
*/
static void migrate_single_rot_stabilization_track_settings(MovieTrackingStabilization *stab)
{
if (stab->rot_track) {
if (!(stab->rot_track->flag & TRACK_USE_2D_STAB_ROT)) {
stab->tot_rot_track++;
stab->rot_track->flag |= TRACK_USE_2D_STAB_ROT;
}
}
stab->rot_track = NULL; /* this field is now ignored */
}
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);
}
}
}
}
static void do_version_constraints_stretch_to_limits(ListBase *lb)
{
bConstraint *con;
for (con = lb->first; con; con = con->next) {
if (con->type == CONSTRAINT_TYPE_STRETCHTO) {
bStretchToConstraint *data = (bStretchToConstraint *)con->data;
data->bulge_min = 1.0f;
data->bulge_max = 1.0f;
}
}
}
static void do_version_action_editor_properties_region(ListBase *regionbase)
{
ARegion *region;
for (region = regionbase->first; region; region = region->next) {
if (region->regiontype == RGN_TYPE_UI) {
/* already exists */
return;
}
if (region->regiontype == RGN_TYPE_WINDOW) {
/* add new region here */
ARegion *region_new = MEM_callocN(sizeof(ARegion), "buttons for action");
BLI_insertlinkbefore(regionbase, region, region_new);
region_new->regiontype = RGN_TYPE_UI;
region_new->alignment = RGN_ALIGN_RIGHT;
region_new->flag = RGN_FLAG_HIDDEN;
return;
}
}
}
static void do_version_bones_super_bbone(ListBase *lb)
{
LISTBASE_FOREACH (Bone *, bone, lb) {
bone->scale_in_x = bone->scale_in_z = 1.0f;
bone->scale_out_x = bone->scale_out_z = 1.0f;
do_version_bones_super_bbone(&bone->childbase);
}
}
/* TODO(sergey): Consider making it somewhat more generic function in BLI_anim.h. */
static void anim_change_prop_name(FCurve *fcu,
const char *prefix,
const char *old_prop_name,
const char *new_prop_name)
{
const char *old_path = BLI_sprintfN("%s.%s", prefix, old_prop_name);
if (STREQ(fcu->rna_path, old_path)) {
MEM_freeN(fcu->rna_path);
fcu->rna_path = BLI_sprintfN("%s.%s", prefix, new_prop_name);
}
MEM_freeN((char *)old_path);
}
static void do_version_hue_sat_node(bNodeTree *ntree, bNode *node)
{
if (node->storage == NULL) {
return;
}
/* Make sure new sockets are properly created. */
node_verify_sockets(ntree, node, false);
/* Convert value from old storage to new sockets. */
NodeHueSat *nhs = node->storage;
bNodeSocket *hue = nodeFindSocket(node, SOCK_IN, "Hue"),
*saturation = nodeFindSocket(node, SOCK_IN, "Saturation"),
*value = nodeFindSocket(node, SOCK_IN, "Value");
((bNodeSocketValueFloat *)hue->default_value)->value = nhs->hue;
((bNodeSocketValueFloat *)saturation->default_value)->value = nhs->sat;
((bNodeSocketValueFloat *)value->default_value)->value = nhs->val;
/* Take care of possible animation. */
AnimData *adt = BKE_animdata_from_id(&ntree->id);
if (adt != NULL && adt->action != NULL) {
char node_name_esc[sizeof(node->name) * 2];
BLI_str_escape(node_name_esc, node->name, sizeof(node_name_esc));
const char *prefix = BLI_sprintfN("nodes[\"%s\"]", node_name_esc);
for (FCurve *fcu = adt->action->curves.first; fcu != NULL; fcu = fcu->next) {
if (STRPREFIX(fcu->rna_path, prefix)) {
anim_change_prop_name(fcu, prefix, "color_hue", "inputs[1].default_value");
anim_change_prop_name(fcu, prefix, "color_saturation", "inputs[2].default_value");
anim_change_prop_name(fcu, prefix, "color_value", "inputs[3].default_value");
}
}
MEM_freeN((char *)prefix);
}
/* Free storage, it is no longer used. */
MEM_freeN(node->storage);
node->storage = NULL;
}
static void do_versions_compositor_render_passes_storage(bNode *node)
{
int pass_index = 0;
const char *sockname;
for (bNodeSocket *sock = node->outputs.first; sock && pass_index < 31;
sock = sock->next, pass_index++) {
if (sock->storage == NULL) {
NodeImageLayer *sockdata = MEM_callocN(sizeof(NodeImageLayer), "node image layer");
sock->storage = sockdata;
BLI_strncpy(sockdata->pass_name,
node_cmp_rlayers_sock_to_pass(pass_index),
sizeof(sockdata->pass_name));
if (pass_index == 0) {
sockname = "Image";
}
else if (pass_index == 1) {
sockname = "Alpha";
}
else {
sockname = node_cmp_rlayers_sock_to_pass(pass_index);
}
BLI_strncpy(sock->name, sockname, sizeof(sock->name));
}
}
}
static void do_versions_compositor_render_passes(bNodeTree *ntree)
{
LISTBASE_FOREACH (bNode *, node, &ntree->nodes) {
if (node->type == CMP_NODE_R_LAYERS) {
/* First we make sure existing sockets have proper names.
* This is important because otherwise verification will
* drop links from sockets which were renamed.
*/
do_versions_compositor_render_passes_storage(node);
/* Make sure new sockets are properly created. */
node_verify_sockets(ntree, node, false);
/* Make sure all possibly created sockets have proper storage. */
do_versions_compositor_render_passes_storage(node);
}
}
}
static char *replace_bbone_easing_rnapath(char *old_path)
{
char *new_path = NULL;
/* NOTE: This will break paths for any bones/custom-properties
* which happen be named after the bbone property id's
*/
if (strstr(old_path, "bbone_in")) {
new_path = BLI_str_replaceN(old_path, "bbone_in", "bbone_easein");
}
else if (strstr(old_path, "bbone_out")) {
new_path = BLI_str_replaceN(old_path, "bbone_out", "bbone_easeout");
}
if (new_path) {
MEM_freeN(old_path);
return new_path;
}
return old_path;
}
static void do_version_bbone_easing_fcurve_fix(ID *UNUSED(id),
FCurve *fcu,
void *UNUSED(user_data))
{
/* F-Curve's path (for bbone_in/out) */
if (fcu->rna_path) {
fcu->rna_path = replace_bbone_easing_rnapath(fcu->rna_path);
}
/* Driver -> Driver Vars (for bbone_in/out) */
if (fcu->driver) {
LISTBASE_FOREACH (DriverVar *, dvar, &fcu->driver->variables) {
DRIVER_TARGETS_LOOPER_BEGIN (dvar) {
if (dtar->rna_path) {
dtar->rna_path = replace_bbone_easing_rnapath(dtar->rna_path);
}
}
DRIVER_TARGETS_LOOPER_END;
}
}
/* FModifiers -> Stepped (for frame_start/end) */
if (fcu->modifiers.first) {
LISTBASE_FOREACH (FModifier *, fcm, &fcu->modifiers) {
if (fcm->type == FMODIFIER_TYPE_STEPPED) {
FMod_Stepped *data = fcm->data;
/* Modifier doesn't work if the modifier's copy of start/end frame are both 0
* as those were only getting written to the fcm->data copy (T52009)
*/
if ((fcm->sfra == fcm->efra) && (fcm->sfra == 0)) {
fcm->sfra = data->start_frame;
fcm->efra = data->end_frame;
}
}
}
}
}
static bool seq_update_proxy_cb(Sequence *seq, void *UNUSED(user_data))
{
seq->stereo3d_format = MEM_callocN(sizeof(Stereo3dFormat), "Stereo Display 3d Format");
#define SEQ_USE_PROXY_CUSTOM_DIR (1 << 19)
#define SEQ_USE_PROXY_CUSTOM_FILE (1 << 21)
if (seq->strip && seq->strip->proxy && !seq->strip->proxy->storage) {
if (seq->flag & SEQ_USE_PROXY_CUSTOM_DIR) {
seq->strip->proxy->storage = SEQ_STORAGE_PROXY_CUSTOM_DIR;
}
if (seq->flag & SEQ_USE_PROXY_CUSTOM_FILE) {
seq->strip->proxy->storage = SEQ_STORAGE_PROXY_CUSTOM_FILE;
}
}
#undef SEQ_USE_PROXY_CUSTOM_DIR
#undef SEQ_USE_PROXY_CUSTOM_FILE
return true;
}
static bool seq_update_effectdata_cb(Sequence *seq, void *UNUSED(user_data))
{
if (seq->type != SEQ_TYPE_TEXT) {
return true;
}
if (seq->effectdata == NULL) {
struct SeqEffectHandle effect_handle = SEQ_effect_handle_get(seq);
effect_handle.init(seq);
}
TextVars *data = seq->effectdata;
if (data->color[3] == 0.0f) {
copy_v4_fl(data->color, 1.0f);
data->shadow_color[3] = 1.0f;
}
return true;
}
/* NOLINTNEXTLINE: readability-function-size */
void blo_do_versions_270(FileData *fd, Library *UNUSED(lib), Main *bmain)
{
if (!MAIN_VERSION_ATLEAST(bmain, 270, 0)) {
if (!DNA_struct_elem_find(fd->filesdna, "BevelModifierData", "float", "profile")) {
Object *ob;
for (ob = bmain->objects.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_BEGIN (bmain, 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 = bmain->screens.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 = bmain->movieclips.first; clip; clip = clip->id.next) {
clip->tracking.settings.default_weight = 1.0f;
}
}
}
if (!MAIN_VERSION_ATLEAST(bmain, 270, 1)) {
Object *ob;
/* Update Transform constraint (another deg -> rad stuff). */
for (ob = bmain->objects.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);
}
}
}
}
if (!MAIN_VERSION_ATLEAST(bmain, 270, 2)) {
Mesh *me;
/* Mesh smoothresh deg->rad. */
for (me = bmain->meshes.first; me; me = me->id.next) {
me->smoothresh = DEG2RADF(me->smoothresh);
}
}
if (!MAIN_VERSION_ATLEAST(bmain, 270, 3)) {
FreestyleLineStyle *linestyle;
for (linestyle = bmain->linestyles.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(bmain, 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 *screen;
for (screen = bmain->screens.first; screen; screen = screen->id.next) {
ScrArea *area;
for (area = screen->areabase.first; area; area = area->next) {
SpaceLink *sl;
for (sl = area->spacedata.first; sl; sl = sl->next) {
ARegion *region;
ListBase *lb = (sl == area->spacedata.first) ? &area->regionbase : &sl->regionbase;
for (region = lb->first; region; region = region->next) {
BLI_listbase_clear(&region->ui_previews);
}
}
}
}
}
if (!MAIN_VERSION_ATLEAST(bmain, 270, 5)) {
Object *ob;
/* Update Transform constraint (again :|). */
for (ob = bmain->objects.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(bmain, 271, 0)) {
if (!DNA_struct_elem_find(fd->filesdna, "RenderData", "BakeData", "bake")) {
Scene *sce;
for (sce = bmain->scenes.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 = bmain->linestyles.first; linestyle; linestyle = linestyle->id.next) {
linestyle->flag |= LS_TEXTURE;
linestyle->texstep = 1.0;
}
}
{
Scene *scene;
for (scene = bmain->scenes.first; scene; scene = scene->id.next) {
int num_layers = BLI_listbase_count(&scene->r.layers);
scene->r.actlay = min_ff(scene->r.actlay, num_layers - 1);
}
}
}
if (!MAIN_VERSION_ATLEAST(bmain, 271, 1)) {
if (!DNA_struct_elem_find(fd->filesdna, "Material", "float", "line_col[4]")) {
Material *mat;
for (mat = bmain->materials.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 (!MAIN_VERSION_ATLEAST(bmain, 271, 3)) {
Brush *br;
for (br = bmain->brushes.first; br; br = br->id.next) {
br->fill_threshold = 0.2f;
}
if (!DNA_struct_elem_find(fd->filesdna, "BevelModifierData", "int", "mat")) {
Object *ob;
for (ob = bmain->objects.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->mat = -1;
}
}
}
}
}
if (!MAIN_VERSION_ATLEAST(bmain, 271, 6)) {
Object *ob;
for (ob = bmain->objects.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;
}
}
}
}
}
if (!MAIN_VERSION_ATLEAST(bmain, 272, 1)) {
Brush *br;
for (br = bmain->brushes.first; br; br = br->id.next) {
if ((br->ob_mode & OB_MODE_SCULPT) &&
ELEM(br->sculpt_tool, SCULPT_TOOL_GRAB, SCULPT_TOOL_SNAKE_HOOK)) {
br->alpha = 1.0f;
}
}
}
if (!MAIN_VERSION_ATLEAST(bmain, 272, 2)) {
if (!DNA_struct_elem_find(fd->filesdna, "Image", "float", "gen_color")) {
Image *image;
for (image = bmain->images.first; image != NULL; image = image->id.next) {
image->gen_color[3] = 1.0f;
}
}
if (!DNA_struct_elem_find(fd->filesdna, "bStretchToConstraint", "float", "bulge_min")) {
Object *ob;
/* Update Transform constraint (again :|). */
for (ob = bmain->objects.first; ob; ob = ob->id.next) {
do_version_constraints_stretch_to_limits(&ob->constraints);
if (ob->pose) {
/* Bones constraints! */
bPoseChannel *pchan;
for (pchan = ob->pose->chanbase.first; pchan; pchan = pchan->next) {
do_version_constraints_stretch_to_limits(&pchan->constraints);
}
}
}
}
}
if (!MAIN_VERSION_ATLEAST(bmain, 273, 1)) {
#define BRUSH_RAKE (1 << 7)
#define BRUSH_RANDOM_ROTATION (1 << 25)
Brush *br;
for (br = bmain->brushes.first; br; br = br->id.next) {
if (br->flag & BRUSH_RAKE) {
br->mtex.brush_angle_mode |= MTEX_ANGLE_RAKE;
br->mask_mtex.brush_angle_mode |= MTEX_ANGLE_RAKE;
}
else if (br->flag & BRUSH_RANDOM_ROTATION) {
br->mtex.brush_angle_mode |= MTEX_ANGLE_RANDOM;
br->mask_mtex.brush_angle_mode |= MTEX_ANGLE_RANDOM;
}
br->mtex.random_angle = 2.0 * M_PI;
br->mask_mtex.random_angle = 2.0 * M_PI;
}
}
#undef BRUSH_RAKE
#undef BRUSH_RANDOM_ROTATION
/* Customizable Safe Areas */
if (!MAIN_VERSION_ATLEAST(bmain, 273, 2)) {
if (!DNA_struct_elem_find(fd->filesdna, "Scene", "DisplaySafeAreas", "safe_areas")) {
Scene *scene;
for (scene = bmain->scenes.first; scene; scene = scene->id.next) {
copy_v2_fl2(scene->safe_areas.title, 3.5f / 100.0f, 3.5f / 100.0f);
copy_v2_fl2(scene->safe_areas.action, 10.0f / 100.0f, 5.0f / 100.0f);
copy_v2_fl2(scene->safe_areas.title_center, 17.5f / 100.0f, 5.0f / 100.0f);
copy_v2_fl2(scene->safe_areas.action_center, 15.0f / 100.0f, 5.0f / 100.0f);
}
}
}
if (!MAIN_VERSION_ATLEAST(bmain, 273, 3)) {
ParticleSettings *part;
for (part = bmain->particles.first; part; part = part->id.next) {
if (part->clumpcurve) {
part->child_flag |= PART_CHILD_USE_CLUMP_CURVE;
}
if (part->roughcurve) {
part->child_flag |= PART_CHILD_USE_ROUGH_CURVE;
}
}
}
if (!MAIN_VERSION_ATLEAST(bmain, 273, 6)) {
if (!DNA_struct_elem_find(fd->filesdna, "ClothSimSettings", "float", "bending_damping")) {
Object *ob;
ModifierData *md;
for (ob = bmain->objects.first; ob; ob = ob->id.next) {
for (md = ob->modifiers.first; md; md = md->next) {
if (md->type == eModifierType_Cloth) {
ClothModifierData *clmd = (ClothModifierData *)md;
clmd->sim_parms->bending_damping = 0.5f;
}
else if (md->type == eModifierType_ParticleSystem) {
ParticleSystemModifierData *pmd = (ParticleSystemModifierData *)md;
if (pmd->psys->clmd) {
pmd->psys->clmd->sim_parms->bending_damping = 0.5f;
}
}
}
}
}
if (!DNA_struct_elem_find(fd->filesdna, "ParticleSettings", "float", "clump_noise_size")) {
ParticleSettings *part;
for (part = bmain->particles.first; part; part = part->id.next) {
part->clump_noise_size = 1.0f;
}
}
if (!DNA_struct_elem_find(fd->filesdna, "ParticleSettings", "int", "kink_extra_steps")) {
ParticleSettings *part;
for (part = bmain->particles.first; part; part = part->id.next) {
part->kink_extra_steps = 4;
}
}
if (!DNA_struct_elem_find(fd->filesdna, "MTex", "float", "kinkampfac")) {
ParticleSettings *part;
for (part = bmain->particles.first; part; part = part->id.next) {
int a;
for (a = 0; a < MAX_MTEX; a++) {
MTex *mtex = part->mtex[a];
if (mtex) {
mtex->kinkampfac = 1.0f;
}
}
}
}
if (!DNA_struct_elem_find(fd->filesdna, "HookModifierData", "char", "flag")) {
Object *ob;
for (ob = bmain->objects.first; ob; ob = ob->id.next) {
ModifierData *md;
for (md = ob->modifiers.first; md; md = md->next) {
if (md->type == eModifierType_Hook) {
HookModifierData *hmd = (HookModifierData *)md;
hmd->falloff_type = eHook_Falloff_InvSquare;
}
}
}
}
if (!DNA_struct_elem_find(fd->filesdna, "NodePlaneTrackDeformData", "char", "flag")) {
FOREACH_NODETREE_BEGIN (bmain, ntree, id) {
if (ntree->type == NTREE_COMPOSIT) {
bNode *node;
for (node = ntree->nodes.first; node; node = node->next) {
if (ELEM(node->type, CMP_NODE_PLANETRACKDEFORM)) {
NodePlaneTrackDeformData *data = node->storage;
data->flag = 0;
data->motion_blur_samples = 16;
data->motion_blur_shutter = 0.5f;
}
}
}
}
FOREACH_NODETREE_END;
}
if (!DNA_struct_elem_find(fd->filesdna, "Camera", "GPUDOFSettings", "gpu_dof")) {
Camera *ca;
for (ca = bmain->cameras.first; ca; ca = ca->id.next) {
ca->gpu_dof.fstop = 128.0f;
ca->gpu_dof.focal_length = 1.0f;
ca->gpu_dof.focus_distance = 1.0f;
ca->gpu_dof.sensor = 1.0f;
}
}
}
if (!MAIN_VERSION_ATLEAST(bmain, 273, 8)) {
Object *ob;
for (ob = bmain->objects.first; ob != NULL; ob = ob->id.next) {
ModifierData *md;
for (md = ob->modifiers.last; md != NULL; md = md->prev) {
if (BKE_modifier_unique_name(&ob->modifiers, md)) {
printf(
"Warning: Object '%s' had several modifiers with the "
"same name, renamed one of them to '%s'.\n",
ob->id.name + 2,
md->name);
}
}
}
}
if (!MAIN_VERSION_ATLEAST(bmain, 273, 9)) {
bScreen *screen;
ScrArea *area;
SpaceLink *sl;
ARegion *region;
/* Make sure sequencer preview area limits zoom */
for (screen = bmain->screens.first; screen; screen = screen->id.next) {
for (area = screen->areabase.first; area; area = area->next) {
for (sl = area->spacedata.first; sl; sl = sl->next) {
if (sl->spacetype == SPACE_SEQ) {
for (region = sl->regionbase.first; region; region = region->next) {
if (region->regiontype == RGN_TYPE_PREVIEW) {
region->v2d.keepzoom |= V2D_LIMITZOOM;
region->v2d.minzoom = 0.001f;
region->v2d.maxzoom = 1000.0f;
break;
}
}
}
}
}
}
}
if (!MAIN_VERSION_ATLEAST(bmain, 274, 1)) {
/* particle systems need to be forced to redistribute for jitter mode fix */
{
Object *ob;
ParticleSystem *psys;
for (ob = bmain->objects.first; ob; ob = ob->id.next) {
for (psys = ob->particlesystem.first; psys; psys = psys->next) {
if ((psys->pointcache->flag & PTCACHE_BAKED) == 0) {
psys->recalc |= ID_RECALC_PSYS_RESET;
}
}
}
}
}
if (!MAIN_VERSION_ATLEAST(bmain, 274, 4)) {
SceneRenderView *srv;
wmWindowManager *wm;
bScreen *screen;
wmWindow *win;
Scene *scene;
Camera *cam;
Image *ima;
for (scene = bmain->scenes.first; scene; scene = scene->id.next) {
BKE_scene_add_render_view(scene, STEREO_LEFT_NAME);
srv = scene->r.views.first;
BLI_strncpy(srv->suffix, STEREO_LEFT_SUFFIX, sizeof(srv->suffix));
BKE_scene_add_render_view(scene, STEREO_RIGHT_NAME);
srv = scene->r.views.last;
BLI_strncpy(srv->suffix, STEREO_RIGHT_SUFFIX, sizeof(srv->suffix));
if (scene->ed) {
SEQ_for_each_callback(&scene->ed->seqbase, seq_update_proxy_cb, NULL);
}
}
for (screen = bmain->screens.first; screen; screen = screen->id.next) {
ScrArea *area;
for (area = screen->areabase.first; area; area = area->next) {
SpaceLink *sl;
for (sl = area->spacedata.first; sl; sl = sl->next) {
switch (sl->spacetype) {
case SPACE_VIEW3D: {
View3D *v3d = (View3D *)sl;
v3d->stereo3d_camera = STEREO_3D_ID;
v3d->stereo3d_flag |= V3D_S3D_DISPPLANE;
v3d->stereo3d_convergence_alpha = 0.15f;
v3d->stereo3d_volume_alpha = 0.05f;
break;
}
case SPACE_IMAGE: {
SpaceImage *sima = (SpaceImage *)sl;
sima->iuser.flag |= IMA_SHOW_STEREO;
break;
}
}
}
}
}
for (cam = bmain->cameras.first; cam; cam = cam->id.next) {
cam->stereo.interocular_distance = 0.065f;
cam->stereo.convergence_distance = 30.0f * 0.065f;
}
for (ima = bmain->images.first; ima; ima = ima->id.next) {
ima->stereo3d_format = MEM_callocN(sizeof(Stereo3dFormat), "Image Stereo 3d Format");
if (ima->packedfile) {
ImagePackedFile *imapf = MEM_mallocN(sizeof(ImagePackedFile), "Image Packed File");
BLI_addtail(&ima->packedfiles, imapf);
imapf->packedfile = ima->packedfile;
BLI_strncpy(imapf->filepath, ima->filepath, FILE_MAX);
ima->packedfile = NULL;
}
}
for (wm = bmain->wm.first; wm; wm = wm->id.next) {
for (win = wm->windows.first; win; win = win->next) {
win->stereo3d_format = MEM_callocN(sizeof(Stereo3dFormat), "Stereo Display 3d Format");
}
}
}
if (!MAIN_VERSION_ATLEAST(bmain, 274, 6)) {
bScreen *screen;
if (!DNA_struct_elem_find(fd->filesdna, "FileSelectParams", "int", "thumbnail_size")) {
for (screen = bmain->screens.first; screen; screen = screen->id.next) {
ScrArea *area;
for (area = screen->areabase.first; area; area = area->next) {
SpaceLink *sl;
for (sl = area->spacedata.first; sl; sl = sl->next) {
if (sl->spacetype == SPACE_FILE) {
SpaceFile *sfile = (SpaceFile *)sl;
if (sfile->params) {
sfile->params->thumbnail_size = 128;
}
}
}
}
}
}
if (!DNA_struct_elem_find(fd->filesdna, "RenderData", "short", "simplify_subsurf_render")) {
Scene *scene;
for (scene = bmain->scenes.first; scene != NULL; scene = scene->id.next) {
scene->r.simplify_subsurf_render = scene->r.simplify_subsurf;
scene->r.simplify_particles_render = scene->r.simplify_particles;
}
}
if (!DNA_struct_elem_find(fd->filesdna, "DecimateModifierData", "float", "defgrp_factor")) {
Object *ob;
for (ob = bmain->objects.first; ob; ob = ob->id.next) {
ModifierData *md;
for (md = ob->modifiers.first; md; md = md->next) {
if (md->type == eModifierType_Decimate) {
DecimateModifierData *dmd = (DecimateModifierData *)md;
dmd->defgrp_factor = 1.0f;
}
}
}
}
}
if (!MAIN_VERSION_ATLEAST(bmain, 275, 3)) {
Brush *br;
#define BRUSH_TORUS (1 << 1)
for (br = bmain->brushes.first; br; br = br->id.next) {
br->flag &= ~BRUSH_TORUS;
}
#undef BRUSH_TORUS
}
if (!MAIN_VERSION_ATLEAST(bmain, 276, 2)) {
if (!DNA_struct_elem_find(fd->filesdna, "bPoseChannel", "float", "custom_scale")) {
Object *ob;
for (ob = bmain->objects.first; ob; ob = ob->id.next) {
if (ob->pose) {
bPoseChannel *pchan;
for (pchan = ob->pose->chanbase.first; pchan; pchan = pchan->next) {
pchan->custom_scale = 1.0f;
}
}
}
}
{
bScreen *screen;
#define RV3D_VIEW_PERSPORTHO 7
for (screen = bmain->screens.first; screen; screen = screen->id.next) {
ScrArea *area;
for (area = screen->areabase.first; area; area = area->next) {
SpaceLink *sl;
for (sl = area->spacedata.first; sl; sl = sl->next) {
if (sl->spacetype == SPACE_VIEW3D) {
ARegion *region;
ListBase *lb = (sl == area->spacedata.first) ? &area->regionbase : &sl->regionbase;
for (region = lb->first; region; region = region->next) {
if (region->regiontype == RGN_TYPE_WINDOW) {
if (region->regiondata) {
RegionView3D *rv3d = region->regiondata;
if (rv3d->view == RV3D_VIEW_PERSPORTHO) {
rv3d->view = RV3D_VIEW_USER;
}
}
}
}
break;
}
}
}
}
#undef RV3D_VIEW_PERSPORTHO
}
{
#define LA_YF_PHOTON 5
for (Light *la = bmain->lights.first; la; la = la->id.next) {
if (la->type == LA_YF_PHOTON) {
la->type = LA_LOCAL;
}
}
#undef LA_YF_PHOTON
}
}
if (!MAIN_VERSION_ATLEAST(bmain, 276, 3)) {
if (!DNA_struct_elem_find(fd->filesdna, "RenderData", "CurveMapping", "mblur_shutter_curve")) {
Scene *scene;
for (scene = bmain->scenes.first; scene != NULL; scene = scene->id.next) {
CurveMapping *curve_mapping = &scene->r.mblur_shutter_curve;
BKE_curvemapping_set_defaults(curve_mapping, 1, 0.0f, 0.0f, 1.0f, 1.0f);
BKE_curvemapping_init(curve_mapping);
BKE_curvemap_reset(
curve_mapping->cm, &curve_mapping->clipr, CURVE_PRESET_MAX, CURVEMAP_SLOPE_POS_NEG);
}
}
}
if (!MAIN_VERSION_ATLEAST(bmain, 276, 4)) {
for (Scene *scene = bmain->scenes.first; scene; scene = scene->id.next) {
ToolSettings *ts = scene->toolsettings;
if (!DNA_struct_elem_find(fd->filesdna, "ToolSettings", "char", "gpencil_v3d_align")) {
ts->gpencil_v3d_align = GP_PROJECT_VIEWSPACE;
ts->gpencil_v2d_align = GP_PROJECT_VIEWSPACE;
}
}
for (bGPdata *gpd = bmain->gpencils.first; gpd; gpd = gpd->id.next) {
bool enabled = false;
/* Ensure that the datablock's onion-skinning toggle flag
* stays in sync with the status of the actual layers
*/
LISTBASE_FOREACH (bGPDlayer *, gpl, &gpd->layers) {
if (gpl->flag & GP_LAYER_ONIONSKIN) {
enabled = true;
}
}
if (enabled) {
gpd->flag |= GP_DATA_SHOW_ONIONSKINS;
}
else {
gpd->flag &= ~GP_DATA_SHOW_ONIONSKINS;
}
}
}
if (!MAIN_VERSION_ATLEAST(bmain, 276, 5)) {
ListBase *lbarray[INDEX_ID_MAX];
int a;
/* Important to clear all non-persistent flags from older versions here,
* otherwise they could collide with any new persistent flag we may add in the future. */
a = set_listbasepointers(bmain, lbarray);
while (a--) {
LISTBASE_FOREACH (ID *, id, lbarray[a]) {
id->flag &= LIB_FAKEUSER;
}
}
}
if (!MAIN_VERSION_ATLEAST(bmain, 276, 7)) {
Scene *scene;
for (scene = bmain->scenes.first; scene != NULL; scene = scene->id.next) {
scene->r.bake.pass_filter = R_BAKE_PASS_FILTER_ALL;
}
}
if (!MAIN_VERSION_ATLEAST(bmain, 277, 1)) {
for (Scene *scene = bmain->scenes.first; scene; scene = scene->id.next) {
ParticleEditSettings *pset = &scene->toolsettings->particle;
for (int a = 0; a < ARRAY_SIZE(pset->brush); a++) {
if (pset->brush[a].strength > 1.0f) {
pset->brush[a].strength *= 0.01f;
}
}
}
for (bScreen *screen = bmain->screens.first; screen; screen = screen->id.next) {
LISTBASE_FOREACH (ScrArea *, area, &screen->areabase) {
LISTBASE_FOREACH (SpaceLink *, sl, &area->spacedata) {
ListBase *regionbase = (sl == area->spacedata.first) ? &area->regionbase :
&sl->regionbase;
/* Bug: Was possible to add preview region to sequencer view by using AZones. */
if (sl->spacetype == SPACE_SEQ) {
SpaceSeq *sseq = (SpaceSeq *)sl;
if (sseq->view == SEQ_VIEW_SEQUENCE) {
LISTBASE_FOREACH (ARegion *, region, regionbase) {
/* remove preview region for sequencer-only view! */
if (region->regiontype == RGN_TYPE_PREVIEW) {
region->flag |= RGN_FLAG_HIDDEN;
region->alignment = RGN_ALIGN_NONE;
break;
}
}
}
}
/* Remove old deprecated region from file-browsers. */
else if (sl->spacetype == SPACE_FILE) {
LISTBASE_FOREACH (ARegion *, region, regionbase) {
if (region->regiontype == RGN_TYPE_CHANNELS) {
/* Free old deprecated 'channel' region... */
BKE_area_region_free(NULL, region);
BLI_freelinkN(regionbase, region);
break;
}
}
}
}
}
}
for (Scene *scene = bmain->scenes.first; scene; scene = scene->id.next) {
CurvePaintSettings *cps = &scene->toolsettings->curve_paint_settings;
if (cps->error_threshold == 0) {
cps->curve_type = CU_BEZIER;
cps->flag |= CURVE_PAINT_FLAG_CORNERS_DETECT;
cps->error_threshold = 8;
cps->radius_max = 1.0f;
cps->corner_angle = DEG2RADF(70.0f);
}
}
for (Scene *scene = bmain->scenes.first; scene; scene = scene->id.next) {
if (scene->ed) {
SEQ_for_each_callback(&scene->ed->seqbase, seq_update_effectdata_cb, NULL);
}
}
/* Adding "Properties" region to DopeSheet */
for (bScreen *screen = bmain->screens.first; screen; screen = screen->id.next) {
LISTBASE_FOREACH (ScrArea *, area, &screen->areabase) {
/* handle pushed-back space data first */
LISTBASE_FOREACH (SpaceLink *, sl, &area->spacedata) {
if (sl->spacetype == SPACE_ACTION) {
SpaceAction *saction = (SpaceAction *)sl;
do_version_action_editor_properties_region(&saction->regionbase);
}
}
/* active spacedata info must be handled too... */
if (area->spacetype == SPACE_ACTION) {
do_version_action_editor_properties_region(&area->regionbase);
}
}
}
}
if (!MAIN_VERSION_ATLEAST(bmain, 277, 2)) {
if (!DNA_struct_elem_find(fd->filesdna, "Bone", "float", "scaleIn")) {
for (bArmature *arm = bmain->armatures.first; arm; arm = arm->id.next) {
do_version_bones_super_bbone(&arm->bonebase);
}
}
if (!DNA_struct_elem_find(fd->filesdna, "bPoseChannel", "float", "scaleIn")) {
for (Object *ob = bmain->objects.first; ob; ob = ob->id.next) {
if (ob->pose) {
LISTBASE_FOREACH (bPoseChannel *, pchan, &ob->pose->chanbase) {
/* see do_version_bones_super_bbone()... */
pchan->scale_in_x = pchan->scale_in_z = 1.0f;
pchan->scale_out_x = pchan->scale_out_z = 1.0f;
/* also make sure some legacy (unused for over a decade) flags are unset,
* so that we can reuse them for stuff that matters now...
* (i.e. POSE_IK_MAT, (unknown/unused x 4), POSE_HAS_IK)
*
* These seem to have been runtime flags used by the IK solver, but that stuff
* should be able to be recalculated automatically anyway, so it should be fine.
*/
pchan->flag &= ~((1 << 3) | (1 << 4) | (1 << 5) | (1 << 6) | (1 << 7) | (1 << 8));
}
}
}
}
for (Camera *camera = bmain->cameras.first; camera != NULL; camera = camera->id.next) {
if (camera->stereo.pole_merge_angle_from == 0.0f &&
camera->stereo.pole_merge_angle_to == 0.0f) {
camera->stereo.pole_merge_angle_from = DEG2RADF(60.0f);
camera->stereo.pole_merge_angle_to = DEG2RADF(75.0f);
}
}
if (!DNA_struct_elem_find(fd->filesdna, "NormalEditModifierData", "float", "mix_limit")) {
Object *ob;
for (ob = bmain->objects.first; ob; ob = ob->id.next) {
ModifierData *md;
for (md = ob->modifiers.first; md; md = md->next) {
if (md->type == eModifierType_NormalEdit) {
NormalEditModifierData *nemd = (NormalEditModifierData *)md;
nemd->mix_limit = DEG2RADF(180.0f);
}
}
}
}
if (!DNA_struct_elem_find(fd->filesdna, "BooleanModifierData", "float", "double_threshold")) {
Object *ob;
for (ob = bmain->objects.first; ob; ob = ob->id.next) {
ModifierData *md;
for (md = ob->modifiers.first; md; md = md->next) {
if (md->type == eModifierType_Boolean) {
BooleanModifierData *bmd = (BooleanModifierData *)md;
bmd->double_threshold = 1e-6f;
}
}
}
}
for (Brush *br = bmain->brushes.first; br; br = br->id.next) {
if (br->sculpt_tool == SCULPT_TOOL_FLATTEN) {
br->flag |= BRUSH_ACCUMULATE;
}
}
if (!DNA_struct_elem_find(fd->filesdna, "ClothSimSettings", "float", "time_scale")) {
Object *ob;
ModifierData *md;
for (ob = bmain->objects.first; ob; ob = ob->id.next) {
for (md = ob->modifiers.first; md; md = md->next) {
if (md->type == eModifierType_Cloth) {
ClothModifierData *clmd = (ClothModifierData *)md;
clmd->sim_parms->time_scale = 1.0f;
}
else if (md->type == eModifierType_ParticleSystem) {
ParticleSystemModifierData *pmd = (ParticleSystemModifierData *)md;
if (pmd->psys->clmd) {
pmd->psys->clmd->sim_parms->time_scale = 1.0f;
}
}
}
}
}
}
if (!MAIN_VERSION_ATLEAST(bmain, 277, 3)) {
/* ------- init of grease pencil initialization --------------- */
if (!DNA_struct_elem_find(fd->filesdna, "bGPDstroke", "bGPDpalettecolor", "*palcolor")) {
/* Convert Grease Pencil to new palettes/brushes
* Loop all strokes and create the palette and all colors
*/
for (bGPdata *gpd = bmain->gpencils.first; gpd; gpd = gpd->id.next) {
if (BLI_listbase_is_empty(&gpd->palettes)) {
/* create palette */
bGPDpalette *palette = BKE_gpencil_palette_addnew(gpd, "GP_Palette");
LISTBASE_FOREACH (bGPDlayer *, gpl, &gpd->layers) {
/* create color using layer name */
bGPDpalettecolor *palcolor = BKE_gpencil_palettecolor_addnew(palette, gpl->info);
if (palcolor != NULL) {
/* set color attributes */
copy_v4_v4(palcolor->color, gpl->color);
copy_v4_v4(palcolor->fill, gpl->fill);
if (gpl->flag & GP_LAYER_HIDE) {
palcolor->flag |= PC_COLOR_HIDE;
}
if (gpl->flag & GP_LAYER_LOCKED) {
palcolor->flag |= PC_COLOR_LOCKED;
}
if (gpl->flag & GP_LAYER_ONIONSKIN) {
palcolor->flag |= PC_COLOR_ONIONSKIN;
}
if (gpl->flag & GP_LAYER_VOLUMETRIC) {
palcolor->flag |= PC_COLOR_VOLUMETRIC;
}
/* set layer opacity to 1 */
gpl->opacity = 1.0f;
/* set tint color */
ARRAY_SET_ITEMS(gpl->tintcolor, 0.0f, 0.0f, 0.0f, 0.0f);
/* flush relevant layer-settings to strokes */
LISTBASE_FOREACH (bGPDframe *, gpf, &gpl->frames) {
LISTBASE_FOREACH (bGPDstroke *, gps, &gpf->strokes) {
/* set stroke to palette and force recalculation */
BLI_strncpy(gps->colorname, gpl->info, sizeof(gps->colorname));
gps->thickness = gpl->thickness;
/* set alpha strength to 1 */
for (int i = 0; i < gps->totpoints; i++) {
gps->points[i].strength = 1.0f;
}
}
}
}
}
}
}
}
/* ------- end of grease pencil initialization --------------- */
}
if (!MAIN_VERSION_ATLEAST(bmain, 278, 0)) {
if (!DNA_struct_elem_find(fd->filesdna, "MovieTrackingTrack", "float", "weight_stab")) {
MovieClip *clip;
for (clip = bmain->movieclips.first; clip; clip = clip->id.next) {
MovieTracking *tracking = &clip->tracking;
MovieTrackingObject *tracking_object;
for (tracking_object = tracking->objects.first; tracking_object != NULL;
tracking_object = tracking_object->next) {
ListBase *tracksbase = BKE_tracking_object_get_tracks(tracking, tracking_object);
MovieTrackingTrack *track;
for (track = tracksbase->first; track != NULL; track = track->next) {
track->weight_stab = track->weight;
}
}
}
}
if (!DNA_struct_elem_find(
fd->filesdna, "MovieTrackingStabilization", "int", "tot_rot_track")) {
MovieClip *clip;
for (clip = bmain->movieclips.first; clip != NULL; clip = clip->id.next) {
if (clip->tracking.stabilization.rot_track) {
migrate_single_rot_stabilization_track_settings(&clip->tracking.stabilization);
}
if (clip->tracking.stabilization.scale == 0.0f) {
/* ensure init.
* Was previously used for auto-scale only,
* now used always (as "target scale") */
clip->tracking.stabilization.scale = 1.0f;
}
/* blender prefers 1-based frame counting;
* thus using frame 1 as reference typically works best */
clip->tracking.stabilization.anchor_frame = 1;
/* by default show the track lists expanded, to improve "discoverability" */
clip->tracking.stabilization.flag |= TRACKING_SHOW_STAB_TRACKS;
/* deprecated, not used anymore */
clip->tracking.stabilization.ok = false;
}
}
}
if (!MAIN_VERSION_ATLEAST(bmain, 278, 2)) {
if (!DNA_struct_elem_find(fd->filesdna, "FFMpegCodecData", "int", "ffmpeg_preset")) {
for (Scene *scene = bmain->scenes.first; scene; scene = scene->id.next) {
/* "medium" is the preset FFmpeg uses when no presets are given. */
scene->r.ffcodecdata.ffmpeg_preset = FFM_PRESET_MEDIUM;
}
}
if (!DNA_struct_elem_find(fd->filesdna, "FFMpegCodecData", "int", "constant_rate_factor")) {
for (Scene *scene = bmain->scenes.first; scene; scene = scene->id.next) {
/* fall back to behavior from before we introduced CRF for old files */
scene->r.ffcodecdata.constant_rate_factor = FFM_CRF_NONE;
}
}
if (!DNA_struct_elem_find(fd->filesdna, "FluidModifierData", "float", "slice_per_voxel")) {
Object *ob;
ModifierData *md;
for (ob = bmain->objects.first; ob; ob = ob->id.next) {
for (md = ob->modifiers.first; md; md = md->next) {
if (md->type == eModifierType_Fluid) {
FluidModifierData *fmd = (FluidModifierData *)md;
if (fmd->domain) {
fmd->domain->slice_per_voxel = 5.0f;
fmd->domain->slice_depth = 0.5f;
fmd->domain->display_thickness = 1.0f;
}
}
}
}
}
}
if (!MAIN_VERSION_ATLEAST(bmain, 278, 3)) {
for (Scene *scene = bmain->scenes.first; scene != NULL; scene = scene->id.next) {
if (scene->toolsettings != NULL) {
ToolSettings *ts = scene->toolsettings;
ParticleEditSettings *pset = &ts->particle;
for (int a = 0; a < ARRAY_SIZE(pset->brush); a++) {
if (pset->brush[a].count == 0) {
pset->brush[a].count = 10;
}
}
}
}
if (!DNA_struct_elem_find(fd->filesdna, "RigidBodyCon", "float", "spring_stiffness_ang_x")) {
Object *ob;
for (ob = bmain->objects.first; ob; ob = ob->id.next) {
RigidBodyCon *rbc = ob->rigidbody_constraint;
if (rbc) {
rbc->spring_stiffness_ang_x = 10.0;
rbc->spring_stiffness_ang_y = 10.0;
rbc->spring_stiffness_ang_z = 10.0;
rbc->spring_damping_ang_x = 0.5;
rbc->spring_damping_ang_y = 0.5;
rbc->spring_damping_ang_z = 0.5;
}
}
}
/* constant detail for sculpting is now a resolution value instead of
* a percentage, we reuse old DNA struct member but convert it */
for (Scene *scene = bmain->scenes.first; scene != NULL; scene = scene->id.next) {
if (scene->toolsettings != NULL) {
ToolSettings *ts = scene->toolsettings;
if (ts->sculpt && ts->sculpt->constant_detail != 0.0f) {
ts->sculpt->constant_detail = 100.0f / ts->sculpt->constant_detail;
}
}
}
}
if (!MAIN_VERSION_ATLEAST(bmain, 278, 4)) {
const float sqrt_3 = (float)M_SQRT3;
for (Brush *br = bmain->brushes.first; br; br = br->id.next) {
br->fill_threshold /= sqrt_3;
}
/* Custom motion paths */
if (!DNA_struct_elem_find(fd->filesdna, "bMotionPath", "int", "line_thickness")) {
Object *ob;
for (ob = bmain->objects.first; ob; ob = ob->id.next) {
bMotionPath *mpath;
bPoseChannel *pchan;
mpath = ob->mpath;
if (mpath) {
mpath->color[0] = 1.0f;
mpath->color[1] = 0.0f;
mpath->color[2] = 0.0f;
mpath->line_thickness = 1;
mpath->flag |= MOTIONPATH_FLAG_LINES;
}
/* bones motion path */
if (ob->pose) {
for (pchan = ob->pose->chanbase.first; pchan; pchan = pchan->next) {
mpath = pchan->mpath;
if (mpath) {
mpath->color[0] = 1.0f;
mpath->color[1] = 0.0f;
mpath->color[2] = 0.0f;
mpath->line_thickness = 1;
mpath->flag |= MOTIONPATH_FLAG_LINES;
}
}
}
}
}
}
if (!MAIN_VERSION_ATLEAST(bmain, 278, 5)) {
/* Mask primitive adding code was not initializing correctly id_type of its points' parent. */
for (Mask *mask = bmain->masks.first; mask; mask = mask->id.next) {
LISTBASE_FOREACH (MaskLayer *, mlayer, &mask->masklayers) {
LISTBASE_FOREACH (MaskSpline *, mspline, &mlayer->splines) {
int i = 0;
for (MaskSplinePoint *mspoint = mspline->points; i < mspline->tot_point;
mspoint++, i++) {
if (mspoint->parent.id_type == 0) {
BKE_mask_parent_init(&mspoint->parent);
}
}
}
}
}
/* Fix for T50736, Glare comp node using same var for two different things. */
if (!DNA_struct_elem_find(fd->filesdna, "NodeGlare", "char", "star_45")) {
FOREACH_NODETREE_BEGIN (bmain, ntree, id) {
if (ntree->type == NTREE_COMPOSIT) {
ntreeSetTypes(NULL, ntree);
LISTBASE_FOREACH (bNode *, node, &ntree->nodes) {
if (node->type == CMP_NODE_GLARE) {
NodeGlare *ndg = node->storage;
switch (ndg->type) {
case 2: /* Grrrr! magic numbers :( */
ndg->streaks = ndg->angle;
break;
case 0:
ndg->star_45 = ndg->angle != 0;
break;
default:
break;
}
}
}
}
}
FOREACH_NODETREE_END;
}
if (!DNA_struct_elem_find(fd->filesdna, "SurfaceDeformModifierData", "float", "mat[4][4]")) {
for (Object *ob = bmain->objects.first; ob; ob = ob->id.next) {
LISTBASE_FOREACH (ModifierData *, md, &ob->modifiers) {
if (md->type == eModifierType_SurfaceDeform) {
SurfaceDeformModifierData *smd = (SurfaceDeformModifierData *)md;
unit_m4(smd->mat);
}
}
}
}
FOREACH_NODETREE_BEGIN (bmain, ntree, id) {
if (ntree->type == NTREE_COMPOSIT) {
do_versions_compositor_render_passes(ntree);
}
}
FOREACH_NODETREE_END;
}
if (!MAIN_VERSION_ATLEAST(bmain, 279, 0)) {
for (Scene *scene = bmain->scenes.first; scene; scene = scene->id.next) {
if (scene->r.im_format.exr_codec == R_IMF_EXR_CODEC_DWAB) {
scene->r.im_format.exr_codec = R_IMF_EXR_CODEC_DWAA;
}
}
/* Fix related to VGroup modifiers creating named defgroup CD layers! See T51520. */
for (Mesh *me = bmain->meshes.first; me; me = me->id.next) {
CustomData_set_layer_name(&me->vdata, CD_MDEFORMVERT, 0, "");
}
}
if (!MAIN_VERSION_ATLEAST(bmain, 279, 3)) {
if (!DNA_struct_elem_find(fd->filesdna, "FluidDomainSettings", "float", "clipping")) {
Object *ob;
ModifierData *md;
for (ob = bmain->objects.first; ob; ob = ob->id.next) {
for (md = ob->modifiers.first; md; md = md->next) {
if (md->type == eModifierType_Fluid) {
FluidModifierData *fmd = (FluidModifierData *)md;
if (fmd->domain) {
fmd->domain->clipping = 1e-3f;
}
}
}
}
}
}
if (!MAIN_VERSION_ATLEAST(bmain, 279, 4)) {
/* Fix for invalid state of screen due to bug in older versions. */
for (bScreen *screen = bmain->screens.first; screen; screen = screen->id.next) {
LISTBASE_FOREACH (ScrArea *, area, &screen->areabase) {
if (area->full && screen->state == SCREENNORMAL) {
area->full = NULL;
}
}
}
if (!DNA_struct_elem_find(fd->filesdna, "Brush", "float", "falloff_angle")) {
for (Brush *br = bmain->brushes.first; br; br = br->id.next) {
br->falloff_angle = DEG2RADF(80);
/* These flags are used for new features. They are not related to `falloff_angle`. */
br->flag &= ~(BRUSH_INVERT_TO_SCRAPE_FILL | BRUSH_ORIGINAL_PLANE |
BRUSH_GRAB_ACTIVE_VERTEX | BRUSH_SCENE_SPACING | BRUSH_FRONTFACE_FALLOFF);
}
for (Scene *scene = bmain->scenes.first; scene; scene = scene->id.next) {
ToolSettings *ts = scene->toolsettings;
for (int i = 0; i < 2; i++) {
VPaint *vp = i ? ts->vpaint : ts->wpaint;
if (vp != NULL) {
/* remove all other flags */
vp->flag &= (VP_FLAG_VGROUP_RESTRICT);
}
}
}
}
/* Simple deform modifier no longer assumes Z axis (X for bend type).
* Must set previous defaults. */
if (!DNA_struct_elem_find(fd->filesdna, "SimpleDeformModifierData", "char", "deform_axis")) {
for (Object *ob = bmain->objects.first; ob; ob = ob->id.next) {
LISTBASE_FOREACH (ModifierData *, md, &ob->modifiers) {
if (md->type == eModifierType_SimpleDeform) {
SimpleDeformModifierData *smd = (SimpleDeformModifierData *)md;
smd->deform_axis = 2;
}
}
}
}
for (Scene *scene = bmain->scenes.first; scene; scene = scene->id.next) {
int preset = scene->r.ffcodecdata.ffmpeg_preset;
if (preset == FFM_PRESET_NONE || preset >= FFM_PRESET_GOOD) {
continue;
}
if (preset <= FFM_PRESET_FAST) {
preset = FFM_PRESET_REALTIME;
}
else if (preset >= FFM_PRESET_SLOW) {
preset = FFM_PRESET_BEST;
}
else {
preset = FFM_PRESET_GOOD;
}
scene->r.ffcodecdata.ffmpeg_preset = preset;
}
if (!DNA_struct_elem_find(
fd->filesdna, "ParticleInstanceModifierData", "float", "particle_amount")) {
for (Object *ob = bmain->objects.first; ob; ob = ob->id.next) {
LISTBASE_FOREACH (ModifierData *, md, &ob->modifiers) {
if (md->type == eModifierType_ParticleInstance) {
ParticleInstanceModifierData *pimd = (ParticleInstanceModifierData *)md;
pimd->space = eParticleInstanceSpace_World;
pimd->particle_amount = 1.0f;
}
}
}
}
}
}
void do_versions_after_linking_270(Main *bmain)
{
/* To be added to next subversion bump! */
if (!MAIN_VERSION_ATLEAST(bmain, 279, 0)) {
FOREACH_NODETREE_BEGIN (bmain, ntree, id) {
if (ntree->type == NTREE_COMPOSIT) {
ntreeSetTypes(NULL, ntree);
LISTBASE_FOREACH (bNode *, node, &ntree->nodes) {
if (node->type == CMP_NODE_HUE_SAT) {
do_version_hue_sat_node(ntree, node);
}
}
}
}
FOREACH_NODETREE_END;
}
if (!MAIN_VERSION_ATLEAST(bmain, 279, 2)) {
/* B-Bones (bbone_in/out -> bbone_easein/out) + Stepped FMod Frame Start/End fix */
/* if (!DNA_struct_elem_find(fd->filesdna, "Bone", "float", "bbone_easein")) */
BKE_fcurves_main_cb(bmain, do_version_bbone_easing_fcurve_fix, NULL);
}
}
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