diff options
Diffstat (limited to 'source/blender/editors/transform/transform_generics.c')
-rw-r--r-- | source/blender/editors/transform/transform_generics.c | 910 |
1 files changed, 467 insertions, 443 deletions
diff --git a/source/blender/editors/transform/transform_generics.c b/source/blender/editors/transform/transform_generics.c index 306796efee9..ec76bb3ac35 100644 --- a/source/blender/editors/transform/transform_generics.c +++ b/source/blender/editors/transform/transform_generics.c @@ -323,524 +323,548 @@ static int fcu_test_selected(FCurve *fcu) return 0; } -/* called for updating while transform acts, once per redraw */ -void recalcData(TransInfo *t) +/* helper for recalcData() - for Action Editor transforms */ +static void recalcData_actedit(TransInfo *t) { - Base *base = t->scene->basact; - - if (t->spacetype==SPACE_NODE) { - flushTransNodes(t); - } - else if (t->spacetype==SPACE_SEQ) { - flushTransSeq(t); + Scene *scene= t->scene; + SpaceAction *saction= (SpaceAction *)t->sa->spacedata.first; + + bAnimContext ac= {NULL}; + ListBase anim_data = {NULL, NULL}; + bAnimListElem *ale; + int filter; + + /* initialise relevant anim-context 'context' data from TransInfo data */ + /* NOTE: sync this with the code in ANIM_animdata_get_context() */ + ac.scene= t->scene; + ac.obact= OBACT; + ac.sa= t->sa; + ac.ar= t->ar; + ac.sl= (t->sa)? t->sa->spacedata.first : NULL; + ac.spacetype= (t->sa)? t->sa->spacetype : 0; + ac.regiontype= (t->ar)? t->ar->regiontype : 0; + + ANIM_animdata_context_getdata(&ac); + + /* perform flush */ + if (ac.datatype == ANIMCONT_GPENCIL) { + /* flush transform values back to actual coordinates */ + flushTransGPactionData(t); } - else if (t->spacetype == SPACE_ACTION) { - Scene *scene= t->scene; - SpaceAction *saction= (SpaceAction *)t->sa->spacedata.first; - - bAnimContext ac= {NULL}; - ListBase anim_data = {NULL, NULL}; - bAnimListElem *ale; - int filter; - - /* initialise relevant anim-context 'context' data from TransInfo data */ - /* NOTE: sync this with the code in ANIM_animdata_get_context() */ - ac.scene= t->scene; - ac.obact= OBACT; - ac.sa= t->sa; - ac.ar= t->ar; - ac.spacetype= (t->sa)? t->sa->spacetype : 0; - ac.regiontype= (t->ar)? t->ar->regiontype : 0; - - ANIM_animdata_context_getdata(&ac); + else { + /* get animdata blocks visible in editor, assuming that these will be the ones where things changed */ + filter= (ANIMFILTER_DATA_VISIBLE | ANIMFILTER_ANIMDATA); + ANIM_animdata_filter(&ac, &anim_data, filter, ac.data, ac.datatype); - /* perform flush */ - if (ac.datatype == ANIMCONT_GPENCIL) { - /* flush transform values back to actual coordinates */ - flushTransGPactionData(t); - } - else { - /* get animdata blocks visible in editor, assuming that these will be the ones where things changed */ - filter= (ANIMFILTER_VISIBLE | ANIMFILTER_ANIMDATA); - ANIM_animdata_filter(&ac, &anim_data, filter, ac.data, ac.datatype); - - /* just tag these animdata-blocks to recalc, assuming that some data there changed - * BUT only do this if realtime updates are enabled - */ - if ((saction->flag & SACTION_NOREALTIMEUPDATES) == 0) { - for (ale= anim_data.first; ale; ale= ale->next) { - /* set refresh tags for objects using this animation */ - ANIM_list_elem_update(t->scene, ale); - } + /* just tag these animdata-blocks to recalc, assuming that some data there changed + * BUT only do this if realtime updates are enabled + */ + if ((saction->flag & SACTION_NOREALTIMEUPDATES) == 0) { + for (ale= anim_data.first; ale; ale= ale->next) { + /* set refresh tags for objects using this animation */ + ANIM_list_elem_update(t->scene, ale); } - - /* now free temp channels */ - BLI_freelistN(&anim_data); } - } - else if (t->spacetype == SPACE_IPO) { - Scene *scene; - SpaceIpo *sipo= (SpaceIpo *)t->sa->spacedata.first; - ListBase anim_data = {NULL, NULL}; - bAnimContext ac; - int filter; + /* now free temp channels */ + BLI_freelistN(&anim_data); + } +} + +/* helper for recalcData() - for Graph Editor transforms */ +static void recalcData_graphedit(TransInfo *t) +{ + SpaceIpo *sipo= (SpaceIpo *)t->sa->spacedata.first; + Scene *scene; + + ListBase anim_data = {NULL, NULL}; + bAnimContext ac= {NULL}; + int filter; + + bAnimListElem *ale; + int dosort = 0; + + + /* initialise relevant anim-context 'context' data from TransInfo data */ + /* NOTE: sync this with the code in ANIM_animdata_get_context() */ + scene= ac.scene= t->scene; + ac.obact= OBACT; + ac.sa= t->sa; + ac.ar= t->ar; + ac.sl= (t->sa)? t->sa->spacedata.first : NULL; + ac.spacetype= (t->sa)? t->sa->spacetype : 0; + ac.regiontype= (t->ar)? t->ar->regiontype : 0; + + ANIM_animdata_context_getdata(&ac); + + /* do the flush first */ + flushTransGraphData(t); + + /* get curves to check if a re-sort is needed */ + filter= (ANIMFILTER_DATA_VISIBLE | ANIMFILTER_FOREDIT | ANIMFILTER_CURVE_VISIBLE); + ANIM_animdata_filter(&ac, &anim_data, filter, ac.data, ac.datatype); + + /* now test if there is a need to re-sort */ + for (ale= anim_data.first; ale; ale= ale->next) { + FCurve *fcu= (FCurve *)ale->key_data; - bAnimListElem *ale; - int dosort = 0; + /* ignore unselected fcurves */ + if (!fcu_test_selected(fcu)) + continue; + // fixme: only do this for selected verts... + ANIM_unit_mapping_apply_fcurve(ac.scene, ale->id, ale->key_data, ANIM_UNITCONV_ONLYSEL|ANIM_UNITCONV_SELVERTS|ANIM_UNITCONV_RESTORE); - /* initialise relevant anim-context 'context' data from TransInfo data */ - /* NOTE: sync this with the code in ANIM_animdata_get_context() */ - memset(&ac, 0, sizeof(bAnimContext)); - scene= ac.scene= t->scene; - ac.obact= OBACT; - ac.sa= t->sa; - ac.ar= t->ar; - ac.spacetype= (t->sa)? t->sa->spacetype : 0; - ac.regiontype= (t->ar)? t->ar->regiontype : 0; + /* watch it: if the time is wrong: do not correct handles yet */ + if (test_time_fcurve(fcu)) + dosort++; + else + calchandles_fcurve(fcu); - ANIM_animdata_context_getdata(&ac); + /* set refresh tags for objects using this animation, + * BUT only if realtime updates are enabled + */ + if ((sipo->flag & SIPO_NOREALTIMEUPDATES) == 0) + ANIM_list_elem_update(t->scene, ale); + } + + /* do resort and other updates? */ + if (dosort) remake_graph_transdata(t, &anim_data); + + /* now free temp channels */ + BLI_freelistN(&anim_data); +} + +/* helper for recalcData() - for NLA Editor transforms */ +static void recalcData_nla(TransInfo *t) +{ + TransDataNla *tdn= (TransDataNla *)t->customData; + SpaceNla *snla= (SpaceNla *)t->sa->spacedata.first; + Scene *scene= t->scene; + double secf= FPS; + int i; + + /* for each strip we've got, perform some additional validation of the values that got set before + * using RNA to set the value (which does some special operations when setting these values to make + * sure that everything works ok) + */ + for (i = 0; i < t->total; i++, tdn++) { + NlaStrip *strip= tdn->strip; + PointerRNA strip_ptr; + short pExceeded, nExceeded, iter; + int delta_y1, delta_y2; - /* do the flush first */ - flushTransGraphData(t); + /* if this tdn has no handles, that means it is just a dummy that should be skipped */ + if (tdn->handle == 0) + continue; - /* get curves to check if a re-sort is needed */ - filter= (ANIMFILTER_VISIBLE | ANIMFILTER_FOREDIT | ANIMFILTER_CURVESONLY | ANIMFILTER_CURVEVISIBLE); - ANIM_animdata_filter(&ac, &anim_data, filter, ac.data, ac.datatype); + /* set refresh tags for objects using this animation, + * BUT only if realtime updates are enabled + */ + if ((snla->flag & SNLA_NOREALTIMEUPDATES) == 0) + ANIM_id_update(t->scene, tdn->id); - /* now test if there is a need to re-sort */ - for (ale= anim_data.first; ale; ale= ale->next) { - FCurve *fcu= (FCurve *)ale->key_data; + /* if cancelling transform, just write the values without validating, then move on */ + if (t->state == TRANS_CANCEL) { + /* clear the values by directly overwriting the originals, but also need to restore + * endpoints of neighboring transition-strips + */ - /* ignore unselected fcurves */ - if (!fcu_test_selected(fcu)) - continue; + /* start */ + strip->start= tdn->h1[0]; - // fixme: only do this for selected verts... - ANIM_unit_mapping_apply_fcurve(ac.scene, ale->id, ale->key_data, ANIM_UNITCONV_ONLYSEL|ANIM_UNITCONV_SELVERTS|ANIM_UNITCONV_RESTORE); + if ((strip->prev) && (strip->prev->type == NLASTRIP_TYPE_TRANSITION)) + strip->prev->end= tdn->h1[0]; + /* end */ + strip->end= tdn->h2[0]; - /* watch it: if the time is wrong: do not correct handles yet */ - if (test_time_fcurve(fcu)) - dosort++; - else - calchandles_fcurve(fcu); + if ((strip->next) && (strip->next->type == NLASTRIP_TYPE_TRANSITION)) + strip->next->start= tdn->h2[0]; - /* set refresh tags for objects using this animation, - * BUT only if realtime updates are enabled - */ - if ((sipo->flag & SIPO_NOREALTIMEUPDATES) == 0) - ANIM_list_elem_update(t->scene, ale); + /* flush transforms to child strips (since this should be a meta) */ + BKE_nlameta_flush_transforms(strip); + + /* restore to original track (if needed) */ + if (tdn->oldTrack != tdn->nlt) { + /* just append to end of list for now, since strips get sorted in special_aftertrans_update() */ + BLI_remlink(&tdn->nlt->strips, strip); + BLI_addtail(&tdn->oldTrack->strips, strip); + } + + continue; } - /* do resort and other updates? */ - if (dosort) remake_graph_transdata(t, &anim_data); - - /* now free temp channels */ - BLI_freelistN(&anim_data); - } - else if (t->spacetype == SPACE_NLA) { - TransDataNla *tdn= (TransDataNla *)t->customData; - SpaceNla *snla= (SpaceNla *)t->sa->spacedata.first; - Scene *scene= t->scene; - double secf= FPS; - int i; - - /* for each strip we've got, perform some additional validation of the values that got set before - * using RNA to set the value (which does some special operations when setting these values to make - * sure that everything works ok) + /* firstly, check if the proposed transform locations would overlap with any neighbouring strips + * (barring transitions) which are absolute barriers since they are not being moved + * + * this is done as a iterative procedure (done 5 times max for now) */ - for (i = 0; i < t->total; i++, tdn++) { - NlaStrip *strip= tdn->strip; - PointerRNA strip_ptr; - short pExceeded, nExceeded, iter; - int delta_y1, delta_y2; - - /* if this tdn has no handles, that means it is just a dummy that should be skipped */ - if (tdn->handle == 0) - continue; + for (iter=0; iter < 5; iter++) { + pExceeded= ((strip->prev) && (strip->prev->type != NLASTRIP_TYPE_TRANSITION) && (tdn->h1[0] < strip->prev->end)); + nExceeded= ((strip->next) && (strip->next->type != NLASTRIP_TYPE_TRANSITION) && (tdn->h2[0] > strip->next->start)); - /* set refresh tags for objects using this animation, - * BUT only if realtime updates are enabled - */ - if ((snla->flag & SNLA_NOREALTIMEUPDATES) == 0) - ANIM_id_update(t->scene, tdn->id); - - /* if cancelling transform, just write the values without validating, then move on */ - if (t->state == TRANS_CANCEL) { - /* clear the values by directly overwriting the originals, but also need to restore - * endpoints of neighboring transition-strips + if ((pExceeded && nExceeded) || (iter == 4) ) { + /* both endpoints exceeded (or iteration ping-pong'd meaning that we need a compromise) + * - simply crop strip to fit within the bounds of the strips bounding it + * - if there were no neighbours, clear the transforms (make it default to the strip's current values) */ - - /* start */ - strip->start= tdn->h1[0]; - - if ((strip->prev) && (strip->prev->type == NLASTRIP_TYPE_TRANSITION)) - strip->prev->end= tdn->h1[0]; - - /* end */ - strip->end= tdn->h2[0]; - - if ((strip->next) && (strip->next->type == NLASTRIP_TYPE_TRANSITION)) - strip->next->start= tdn->h2[0]; - - /* flush transforms to child strips (since this should be a meta) */ - BKE_nlameta_flush_transforms(strip); - - /* restore to original track (if needed) */ - if (tdn->oldTrack != tdn->nlt) { - /* just append to end of list for now, since strips get sorted in special_aftertrans_update() */ - BLI_remlink(&tdn->nlt->strips, strip); - BLI_addtail(&tdn->oldTrack->strips, strip); + if (strip->prev && strip->next) { + tdn->h1[0]= strip->prev->end; + tdn->h2[0]= strip->next->start; + } + else { + tdn->h1[0]= strip->start; + tdn->h2[0]= strip->end; } - - continue; } - - /* firstly, check if the proposed transform locations would overlap with any neighbouring strips - * (barring transitions) which are absolute barriers since they are not being moved - * - * this is done as a iterative procedure (done 5 times max for now) - */ - for (iter=0; iter < 5; iter++) { - pExceeded= ((strip->prev) && (strip->prev->type != NLASTRIP_TYPE_TRANSITION) && (tdn->h1[0] < strip->prev->end)); - nExceeded= ((strip->next) && (strip->next->type != NLASTRIP_TYPE_TRANSITION) && (tdn->h2[0] > strip->next->start)); + else if (nExceeded) { + /* move backwards */ + float offset= tdn->h2[0] - strip->next->start; - if ((pExceeded && nExceeded) || (iter == 4) ) { - /* both endpoints exceeded (or iteration ping-pong'd meaning that we need a compromise) - * - simply crop strip to fit within the bounds of the strips bounding it - * - if there were no neighbours, clear the transforms (make it default to the strip's current values) - */ - if (strip->prev && strip->next) { - tdn->h1[0]= strip->prev->end; - tdn->h2[0]= strip->next->start; - } - else { - tdn->h1[0]= strip->start; - tdn->h2[0]= strip->end; - } - } - else if (nExceeded) { - /* move backwards */ - float offset= tdn->h2[0] - strip->next->start; - - tdn->h1[0] -= offset; - tdn->h2[0] -= offset; - } - else if (pExceeded) { - /* more forwards */ - float offset= strip->prev->end - tdn->h1[0]; - - tdn->h1[0] += offset; - tdn->h2[0] += offset; - } - else /* all is fine and well */ - break; + tdn->h1[0] -= offset; + tdn->h2[0] -= offset; } - - /* handle auto-snapping */ - switch (snla->autosnap) { - case SACTSNAP_FRAME: /* snap to nearest frame/time */ - if (snla->flag & SNLA_DRAWTIME) { - tdn->h1[0]= (float)( floor((tdn->h1[0]/secf) + 0.5f) * secf ); - tdn->h2[0]= (float)( floor((tdn->h2[0]/secf) + 0.5f) * secf ); - } - else { - tdn->h1[0]= (float)( floor(tdn->h1[0]+0.5f) ); - tdn->h2[0]= (float)( floor(tdn->h2[0]+0.5f) ); - } - break; + else if (pExceeded) { + /* more forwards */ + float offset= strip->prev->end - tdn->h1[0]; - case SACTSNAP_MARKER: /* snap to nearest marker */ - tdn->h1[0]= (float)ED_markers_find_nearest_marker_time(&t->scene->markers, tdn->h1[0]); - tdn->h2[0]= (float)ED_markers_find_nearest_marker_time(&t->scene->markers, tdn->h2[0]); - break; + tdn->h1[0] += offset; + tdn->h2[0] += offset; } + else /* all is fine and well */ + break; + } + + /* handle auto-snapping */ + switch (snla->autosnap) { + case SACTSNAP_FRAME: /* snap to nearest frame/time */ + if (snla->flag & SNLA_DRAWTIME) { + tdn->h1[0]= (float)( floor((tdn->h1[0]/secf) + 0.5f) * secf ); + tdn->h2[0]= (float)( floor((tdn->h2[0]/secf) + 0.5f) * secf ); + } + else { + tdn->h1[0]= (float)( floor(tdn->h1[0]+0.5f) ); + tdn->h2[0]= (float)( floor(tdn->h2[0]+0.5f) ); + } + break; - /* use RNA to write the values... */ - // TODO: do we need to write in 2 passes to make sure that no truncation goes on? - RNA_pointer_create(NULL, &RNA_NlaStrip, strip, &strip_ptr); - - RNA_float_set(&strip_ptr, "frame_start", tdn->h1[0]); - RNA_float_set(&strip_ptr, "frame_end", tdn->h2[0]); - - /* flush transforms to child strips (since this should be a meta) */ - BKE_nlameta_flush_transforms(strip); - + case SACTSNAP_MARKER: /* snap to nearest marker */ + tdn->h1[0]= (float)ED_markers_find_nearest_marker_time(&t->scene->markers, tdn->h1[0]); + tdn->h2[0]= (float)ED_markers_find_nearest_marker_time(&t->scene->markers, tdn->h2[0]); + break; + } + + /* use RNA to write the values... */ + // TODO: do we need to write in 2 passes to make sure that no truncation goes on? + RNA_pointer_create(NULL, &RNA_NlaStrip, strip, &strip_ptr); + + RNA_float_set(&strip_ptr, "frame_start", tdn->h1[0]); + RNA_float_set(&strip_ptr, "frame_end", tdn->h2[0]); + + /* flush transforms to child strips (since this should be a meta) */ + BKE_nlameta_flush_transforms(strip); + + + /* now, check if we need to try and move track + * - we need to calculate both, as only one may have been altered by transform if only 1 handle moved + */ + delta_y1= ((int)tdn->h1[1] / NLACHANNEL_STEP(snla) - tdn->trackIndex); + delta_y2= ((int)tdn->h2[1] / NLACHANNEL_STEP(snla) - tdn->trackIndex); + + if (delta_y1 || delta_y2) { + NlaTrack *track; + int delta = (delta_y2) ? delta_y2 : delta_y1; + int n; - /* now, check if we need to try and move track - * - we need to calculate both, as only one may have been altered by transform if only 1 handle moved + /* move in the requested direction, checking at each layer if there's space for strip to pass through, + * stopping on the last track available or that we're able to fit in */ - delta_y1= ((int)tdn->h1[1] / NLACHANNEL_STEP - tdn->trackIndex); - delta_y2= ((int)tdn->h2[1] / NLACHANNEL_STEP - tdn->trackIndex); - - if (delta_y1 || delta_y2) { - NlaTrack *track; - int delta = (delta_y2) ? delta_y2 : delta_y1; - int n; - - /* move in the requested direction, checking at each layer if there's space for strip to pass through, - * stopping on the last track available or that we're able to fit in - */ - if (delta > 0) { - for (track=tdn->nlt->next, n=0; (track) && (n < delta); track=track->next, n++) { - /* check if space in this track for the strip */ - if (BKE_nlatrack_has_space(track, strip->start, strip->end)) { - /* move strip to this track */ - BLI_remlink(&tdn->nlt->strips, strip); - BKE_nlatrack_add_strip(track, strip); - - tdn->nlt= track; - tdn->trackIndex++; - } - else /* can't move any further */ - break; + if (delta > 0) { + for (track=tdn->nlt->next, n=0; (track) && (n < delta); track=track->next, n++) { + /* check if space in this track for the strip */ + if (BKE_nlatrack_has_space(track, strip->start, strip->end)) { + /* move strip to this track */ + BLI_remlink(&tdn->nlt->strips, strip); + BKE_nlatrack_add_strip(track, strip); + + tdn->nlt= track; + tdn->trackIndex++; } + else /* can't move any further */ + break; } - else { - /* make delta 'positive' before using it, since we now know to go backwards */ - delta= -delta; - - for (track=tdn->nlt->prev, n=0; (track) && (n < delta); track=track->prev, n++) { - /* check if space in this track for the strip */ - if (BKE_nlatrack_has_space(track, strip->start, strip->end)) { - /* move strip to this track */ - BLI_remlink(&tdn->nlt->strips, strip); - BKE_nlatrack_add_strip(track, strip); - - tdn->nlt= track; - tdn->trackIndex--; - } - else /* can't move any further */ - break; + } + else { + /* make delta 'positive' before using it, since we now know to go backwards */ + delta= -delta; + + for (track=tdn->nlt->prev, n=0; (track) && (n < delta); track=track->prev, n++) { + /* check if space in this track for the strip */ + if (BKE_nlatrack_has_space(track, strip->start, strip->end)) { + /* move strip to this track */ + BLI_remlink(&tdn->nlt->strips, strip); + BKE_nlatrack_add_strip(track, strip); + + tdn->nlt= track; + tdn->trackIndex--; } + else /* can't move any further */ + break; } } } } - else if (t->spacetype == SPACE_IMAGE) { - if (t->obedit && t->obedit->type == OB_MESH) { - SpaceImage *sima= t->sa->spacedata.first; +} + +/* helper for recalcData() - for 3d-view transforms */ +static void recalcData_view3d(TransInfo *t) +{ + Base *base = t->scene->basact; + + if (t->obedit) { + if ELEM(t->obedit->type, OB_CURVE, OB_SURF) { + Curve *cu= t->obedit->data; + ListBase *nurbs= ED_curve_editnurbs(cu); + Nurb *nu= nurbs->first; - flushTransUVs(t); - if(sima->flag & SI_LIVE_UNWRAP) - ED_uvedit_live_unwrap_re_solve(); + if(t->state != TRANS_CANCEL) { + clipMirrorModifier(t, t->obedit); + applyProject(t); + } - DAG_id_tag_update(t->obedit->data, 0); - } - } - else if (t->spacetype == SPACE_VIEW3D) { - - if (t->obedit) { - if ELEM(t->obedit->type, OB_CURVE, OB_SURF) { - Curve *cu= t->obedit->data; - ListBase *nurbs= ED_curve_editnurbs(cu); - Nurb *nu= nurbs->first; - - if(t->state != TRANS_CANCEL) { - clipMirrorModifier(t, t->obedit); - applyProject(t); + DAG_id_tag_update(t->obedit->data, 0); /* sets recalc flags */ + + if (t->state == TRANS_CANCEL) { + while(nu) { + calchandlesNurb(nu); /* Cant do testhandlesNurb here, it messes up the h1 and h2 flags */ + nu= nu->next; } - - DAG_id_tag_update(t->obedit->data, 0); /* sets recalc flags */ - - if (t->state == TRANS_CANCEL) { - while(nu) { - calchandlesNurb(nu); /* Cant do testhandlesNurb here, it messes up the h1 and h2 flags */ - nu= nu->next; - } - } else { - /* Normal updating */ - while(nu) { - test2DNurb(nu); - calchandlesNurb(nu); - nu= nu->next; - } + } + else { + /* Normal updating */ + while(nu) { + test2DNurb(nu); + calchandlesNurb(nu); + nu= nu->next; } } - else if(t->obedit->type==OB_LATTICE) { - Lattice *la= t->obedit->data; - - if(t->state != TRANS_CANCEL) { - applyProject(t); - } - - DAG_id_tag_update(t->obedit->data, 0); /* sets recalc flags */ - - if(la->editlatt->latt->flag & LT_OUTSIDE) outside_lattice(la->editlatt->latt); + } + else if(t->obedit->type==OB_LATTICE) { + Lattice *la= t->obedit->data; + + if(t->state != TRANS_CANCEL) { + applyProject(t); } - else if (t->obedit->type == OB_MESH) { - EditMesh *em = ((Mesh*)t->obedit->data)->edit_mesh; - /* mirror modifier clipping? */ - if(t->state != TRANS_CANCEL) { - /* apply clipping after so we never project past the clip plane [#25423] */ - applyProject(t); - clipMirrorModifier(t, t->obedit); - } - if((t->options & CTX_NO_MIRROR) == 0 && (t->flag & T_MIRROR)) - editmesh_apply_to_mirror(t); - - DAG_id_tag_update(t->obedit->data, 0); /* sets recalc flags */ + + DAG_id_tag_update(t->obedit->data, 0); /* sets recalc flags */ + + if(la->editlatt->latt->flag & LT_OUTSIDE) outside_lattice(la->editlatt->latt); + } + else if (t->obedit->type == OB_MESH) { + EditMesh *em = ((Mesh*)t->obedit->data)->edit_mesh; + /* mirror modifier clipping? */ + if(t->state != TRANS_CANCEL) { + /* apply clipping after so we never project past the clip plane [#25423] */ + applyProject(t); + clipMirrorModifier(t, t->obedit); + } + if((t->options & CTX_NO_MIRROR) == 0 && (t->flag & T_MIRROR)) + editmesh_apply_to_mirror(t); - recalc_editnormals(em); + DAG_id_tag_update(t->obedit->data, 0); /* sets recalc flags */ + + recalc_editnormals(em); + } + else if(t->obedit->type==OB_ARMATURE) { /* no recalc flag, does pose */ + bArmature *arm= t->obedit->data; + ListBase *edbo = arm->edbo; + EditBone *ebo; + TransData *td = t->data; + int i; + + if(t->state != TRANS_CANCEL) { + applyProject(t); } - else if(t->obedit->type==OB_ARMATURE) { /* no recalc flag, does pose */ - bArmature *arm= t->obedit->data; - ListBase *edbo = arm->edbo; - EditBone *ebo; - TransData *td = t->data; - int i; + + /* Ensure all bones are correctly adjusted */ + for (ebo = edbo->first; ebo; ebo = ebo->next){ - if(t->state != TRANS_CANCEL) { - applyProject(t); - } - - /* Ensure all bones are correctly adjusted */ - for (ebo = edbo->first; ebo; ebo = ebo->next){ - - if ((ebo->flag & BONE_CONNECTED) && ebo->parent){ - /* If this bone has a parent tip that has been moved */ - if (ebo->parent->flag & BONE_TIPSEL){ - VECCOPY (ebo->head, ebo->parent->tail); - if(t->mode==TFM_BONE_ENVELOPE) ebo->rad_head= ebo->parent->rad_tail; - } - /* If this bone has a parent tip that has NOT been moved */ - else{ - VECCOPY (ebo->parent->tail, ebo->head); - if(t->mode==TFM_BONE_ENVELOPE) ebo->parent->rad_tail= ebo->rad_head; - } - } - - /* on extrude bones, oldlength==0.0f, so we scale radius of points */ - ebo->length= len_v3v3(ebo->head, ebo->tail); - if(ebo->oldlength==0.0f) { - ebo->rad_head= 0.25f*ebo->length; - ebo->rad_tail= 0.10f*ebo->length; - ebo->dist= 0.25f*ebo->length; - if(ebo->parent) { - if(ebo->rad_head > ebo->parent->rad_tail) - ebo->rad_head= ebo->parent->rad_tail; - } + if ((ebo->flag & BONE_CONNECTED) && ebo->parent){ + /* If this bone has a parent tip that has been moved */ + if (ebo->parent->flag & BONE_TIPSEL){ + VECCOPY (ebo->head, ebo->parent->tail); + if(t->mode==TFM_BONE_ENVELOPE) ebo->rad_head= ebo->parent->rad_tail; } - else if(t->mode!=TFM_BONE_ENVELOPE) { - /* if bones change length, lets do that for the deform distance as well */ - ebo->dist*= ebo->length/ebo->oldlength; - ebo->rad_head*= ebo->length/ebo->oldlength; - ebo->rad_tail*= ebo->length/ebo->oldlength; - ebo->oldlength= ebo->length; + /* If this bone has a parent tip that has NOT been moved */ + else{ + VECCOPY (ebo->parent->tail, ebo->head); + if(t->mode==TFM_BONE_ENVELOPE) ebo->parent->rad_tail= ebo->rad_head; } } - - if (t->mode != TFM_BONE_ROLL) + /* on extrude bones, oldlength==0.0f, so we scale radius of points */ + ebo->length= len_v3v3(ebo->head, ebo->tail); + if(ebo->oldlength==0.0f) { + ebo->rad_head= 0.25f*ebo->length; + ebo->rad_tail= 0.10f*ebo->length; + ebo->dist= 0.25f*ebo->length; + if(ebo->parent) { + if(ebo->rad_head > ebo->parent->rad_tail) + ebo->rad_head= ebo->parent->rad_tail; + } + } + else if(t->mode!=TFM_BONE_ENVELOPE) { + /* if bones change length, lets do that for the deform distance as well */ + ebo->dist*= ebo->length/ebo->oldlength; + ebo->rad_head*= ebo->length/ebo->oldlength; + ebo->rad_tail*= ebo->length/ebo->oldlength; + ebo->oldlength= ebo->length; + } + } + + + if (t->mode != TFM_BONE_ROLL) + { + /* fix roll */ + for(i = 0; i < t->total; i++, td++) { - /* fix roll */ - for(i = 0; i < t->total; i++, td++) + if (td->extra) { - if (td->extra) + float vec[3], up_axis[3]; + float qrot[4]; + + ebo = td->extra; + VECCOPY(up_axis, td->axismtx[2]); + + if (t->mode != TFM_ROTATION) { - float vec[3], up_axis[3]; - float qrot[4]; - - ebo = td->extra; - VECCOPY(up_axis, td->axismtx[2]); - - if (t->mode != TFM_ROTATION) - { - sub_v3_v3v3(vec, ebo->tail, ebo->head); - normalize_v3(vec); - rotation_between_vecs_to_quat(qrot, td->axismtx[1], vec); - mul_qt_v3(qrot, up_axis); - } - else - { - mul_m3_v3(t->mat, up_axis); - } - - ebo->roll = ED_rollBoneToVector(ebo, up_axis, FALSE); + sub_v3_v3v3(vec, ebo->tail, ebo->head); + normalize_v3(vec); + rotation_between_vecs_to_quat(qrot, td->axismtx[1], vec); + mul_qt_v3(qrot, up_axis); + } + else + { + mul_m3_v3(t->mat, up_axis); } + + ebo->roll = ED_rollBoneToVector(ebo, up_axis, FALSE); } } - - if(arm->flag & ARM_MIRROR_EDIT) - transform_armature_mirror_update(t->obedit); - } - else - { - if(t->state != TRANS_CANCEL) { - applyProject(t); - } - DAG_id_tag_update(t->obedit->data, 0); /* sets recalc flags */ + + if(arm->flag & ARM_MIRROR_EDIT) + transform_armature_mirror_update(t->obedit); + + } + else + { + if(t->state != TRANS_CANCEL) { + applyProject(t); } + DAG_id_tag_update(t->obedit->data, 0); /* sets recalc flags */ } - else if( (t->flag & T_POSE) && t->poseobj) { - Object *ob= t->poseobj; - bArmature *arm= ob->data; + } + else if( (t->flag & T_POSE) && t->poseobj) { + Object *ob= t->poseobj; + bArmature *arm= ob->data; + + /* if animtimer is running, and the object already has animation data, + * check if the auto-record feature means that we should record 'samples' + * (i.e. uneditable animation values) + * + * context is needed for keying set poll() functions. + */ + // TODO: autokeyframe calls need some setting to specify to add samples (FPoints) instead of keyframes? + if ((t->animtimer) && (t->context) && IS_AUTOKEY_ON(t->scene)) { + int targetless_ik= (t->flag & T_AUTOIK); // XXX this currently doesn't work, since flags aren't set yet! + + animrecord_check_state(t->scene, &ob->id, t->animtimer); + autokeyframe_pose_cb_func(t->context, t->scene, (View3D *)t->view, ob, t->mode, targetless_ik); + } + + /* old optimize trick... this enforces to bypass the depgraph */ + if (!(arm->flag & ARM_DELAYDEFORM)) { + DAG_id_tag_update(&ob->id, OB_RECALC_DATA); /* sets recalc flags */ + } + else + where_is_pose(t->scene, ob); + } + else if(base && (base->object->mode & OB_MODE_PARTICLE_EDIT) && PE_get_current(t->scene, base->object)) { + if(t->state != TRANS_CANCEL) { + applyProject(t); + } + flushTransParticles(t); + } + else { + int i; + + if(t->state != TRANS_CANCEL) { + applyProject(t); + } + + for (i = 0; i < t->total; i++) { + TransData *td = t->data + i; + Object *ob = td->ob; + + if (td->flag & TD_NOACTION) + break; + + if (td->flag & TD_SKIP) + continue; /* if animtimer is running, and the object already has animation data, * check if the auto-record feature means that we should record 'samples' * (i.e. uneditable animation values) - * - * context is needed for keying set poll() functions. */ // TODO: autokeyframe calls need some setting to specify to add samples (FPoints) instead of keyframes? - if ((t->animtimer) && (t->context) && IS_AUTOKEY_ON(t->scene)) { - int targetless_ik= (t->flag & T_AUTOIK); // XXX this currently doesn't work, since flags aren't set yet! - + if ((t->animtimer) && IS_AUTOKEY_ON(t->scene)) { animrecord_check_state(t->scene, &ob->id, t->animtimer); - autokeyframe_pose_cb_func(t->context, t->scene, (View3D *)t->view, ob, t->mode, targetless_ik); + autokeyframe_ob_cb_func(t->context, t->scene, (View3D *)t->view, ob, t->mode); } - /* old optimize trick... this enforces to bypass the depgraph */ - if (!(arm->flag & ARM_DELAYDEFORM)) { - DAG_id_tag_update(&ob->id, OB_RECALC_DATA); /* sets recalc flags */ - } - else - where_is_pose(t->scene, ob); - } - else if(base && (base->object->mode & OB_MODE_PARTICLE_EDIT) && PE_get_current(t->scene, base->object)) { - if(t->state != TRANS_CANCEL) { - applyProject(t); - } - flushTransParticles(t); + /* sets recalc flags fully, instead of flushing existing ones + * otherwise proxies don't function correctly + */ + DAG_id_tag_update(&ob->id, OB_RECALC_OB); } - else { - int i; - - if(t->state != TRANS_CANCEL) { - applyProject(t); - } + } +} - for (i = 0; i < t->total; i++) { - TransData *td = t->data + i; - Object *ob = td->ob; - - if (td->flag & TD_NOACTION) - break; - - if (td->flag & TD_SKIP) - continue; - - /* if animtimer is running, and the object already has animation data, - * check if the auto-record feature means that we should record 'samples' - * (i.e. uneditable animation values) - */ - // TODO: autokeyframe calls need some setting to specify to add samples (FPoints) instead of keyframes? - if ((t->animtimer) && IS_AUTOKEY_ON(t->scene)) { - animrecord_check_state(t->scene, &ob->id, t->animtimer); - autokeyframe_ob_cb_func(t->context, t->scene, (View3D *)t->view, ob, t->mode); - } - - /* sets recalc flags fully, instead of flushing existing ones - * otherwise proxies don't function correctly - */ - DAG_id_tag_update(&ob->id, OB_RECALC_OB); - } +/* called for updating while transform acts, once per redraw */ +void recalcData(TransInfo *t) +{ + if (t->spacetype==SPACE_NODE) { + flushTransNodes(t); + } + else if (t->spacetype==SPACE_SEQ) { + flushTransSeq(t); + } + else if (t->spacetype == SPACE_ACTION) { + recalcData_actedit(t); + } + else if (t->spacetype == SPACE_IPO) { + recalcData_graphedit(t); + } + else if (t->spacetype == SPACE_NLA) { + recalcData_nla(t); + } + else if (t->spacetype == SPACE_IMAGE) { + if (t->obedit && t->obedit->type == OB_MESH) { + SpaceImage *sima= t->sa->spacedata.first; + + flushTransUVs(t); + if(sima->flag & SI_LIVE_UNWRAP) + ED_uvedit_live_unwrap_re_solve(); + + DAG_id_tag_update(t->obedit->data, 0); } } + else if (t->spacetype == SPACE_VIEW3D) { + recalcData_view3d(t); + } } void drawLine(TransInfo *t, float *center, float *dir, char axis, short options) |