diff options
Diffstat (limited to 'source/blender/editors/gpencil/gpencil_edit.c')
-rw-r--r-- | source/blender/editors/gpencil/gpencil_edit.c | 1259 |
1 files changed, 1040 insertions, 219 deletions
diff --git a/source/blender/editors/gpencil/gpencil_edit.c b/source/blender/editors/gpencil/gpencil_edit.c index 13334448941..3dae25263e8 100644 --- a/source/blender/editors/gpencil/gpencil_edit.c +++ b/source/blender/editors/gpencil/gpencil_edit.c @@ -27,6 +27,7 @@ * \ingroup edgpencil */ + #include <stdio.h> #include <string.h> #include <stdlib.h> @@ -86,50 +87,59 @@ /* ************************************************ */ /* Context Wrangling... */ -/* Get pointer to active Grease Pencil datablock, and an RNA-pointer to trace back to whatever owns it */ -bGPdata **ED_gpencil_data_get_pointers(const bContext *C, PointerRNA *ptr) +/* Get pointer to active Grease Pencil datablock, and an RNA-pointer to trace back to whatever owns it, + * when context info is not available. + */ +bGPdata **ED_gpencil_data_get_pointers_direct(ID *screen_id, Scene *scene, ScrArea *sa, Object *ob, PointerRNA *ptr) { - ID *screen_id = (ID *)CTX_wm_screen(C); - Scene *scene = CTX_data_scene(C); - ScrArea *sa = CTX_wm_area(C); - /* if there's an active area, check if the particular editor may * have defined any special Grease Pencil context for editing... */ if (sa) { + SpaceLink *sl = sa->spacedata.first; + switch (sa->spacetype) { case SPACE_VIEW3D: /* 3D-View */ + case SPACE_TIME: /* Timeline - XXX: this is a hack to get it to show GP keyframes for 3D view */ { - Object *ob = CTX_data_active_object(C); - - /* TODO: we can include other data-types such as bones later if need be... */ - - /* just in case no active/selected object */ - if (ob && (ob->flag & SELECT)) { - /* for now, as long as there's an object, default to using that in 3D-View */ - if (ptr) RNA_id_pointer_create(&ob->id, ptr); - return &ob->gpd; + BLI_assert(scene && ELEM(scene->toolsettings->gpencil_src, + GP_TOOL_SOURCE_SCENE, GP_TOOL_SOURCE_OBJECT)); + + if (scene->toolsettings->gpencil_src == GP_TOOL_SOURCE_OBJECT) { + /* legacy behaviour for usage with old addons requiring object-linked to objects */ + + /* just in case no active/selected object... */ + if (ob && (ob->flag & SELECT)) { + /* for now, as long as there's an object, default to using that in 3D-View */ + if (ptr) RNA_id_pointer_create(&ob->id, ptr); + return &ob->gpd; + } + /* else: defaults to scene... */ + } + else { + if (ptr) RNA_id_pointer_create(&scene->id, ptr); + return &scene->gpd; } break; } case SPACE_NODE: /* Nodes Editor */ { - SpaceNode *snode = (SpaceNode *)CTX_wm_space_data(C); - + SpaceNode *snode = (SpaceNode *)sl; + /* return the GP data for the active node block/node */ if (snode && snode->nodetree) { /* for now, as long as there's an active node tree, default to using that in the Nodes Editor */ if (ptr) RNA_id_pointer_create(&snode->nodetree->id, ptr); return &snode->nodetree->gpd; } - + /* even when there is no node-tree, don't allow this to flow to scene */ return NULL; } case SPACE_SEQ: /* Sequencer */ { - SpaceSeq *sseq = (SpaceSeq *)CTX_wm_space_data(C); - + SpaceSeq *sseq = (SpaceSeq *)sl; + /* for now, Grease Pencil data is associated with the space (actually preview region only) */ /* XXX our convention for everything else is to link to data though... */ if (ptr) RNA_pointer_create(screen_id, &RNA_SpaceSequenceEditor, sseq, ptr); @@ -137,8 +147,8 @@ bGPdata **ED_gpencil_data_get_pointers(const bContext *C, PointerRNA *ptr) } case SPACE_IMAGE: /* Image/UV Editor */ { - SpaceImage *sima = (SpaceImage *)CTX_wm_space_data(C); - + SpaceImage *sima = (SpaceImage *)sl; + /* for now, Grease Pencil data is associated with the space... */ /* XXX our convention for everything else is to link to data though... */ if (ptr) RNA_pointer_create(screen_id, &RNA_SpaceImageEditor, sima, ptr); @@ -146,25 +156,25 @@ bGPdata **ED_gpencil_data_get_pointers(const bContext *C, PointerRNA *ptr) } case SPACE_CLIP: /* Nodes Editor */ { - SpaceClip *sc = (SpaceClip *)CTX_wm_space_data(C); + SpaceClip *sc = (SpaceClip *)sl; MovieClip *clip = ED_space_clip_get_clip(sc); - + if (clip) { if (sc->gpencil_src == SC_GPENCIL_SRC_TRACK) { MovieTrackingTrack *track = BKE_tracking_track_get_active(&clip->tracking); - + if (!track) return NULL; - + if (ptr) RNA_pointer_create(&clip->id, &RNA_MovieTrackingTrack, track, ptr); - + return &track->gpd; } else { if (ptr) RNA_id_pointer_create(&clip->id, ptr); - + return &clip->gpd; } } @@ -174,12 +184,32 @@ bGPdata **ED_gpencil_data_get_pointers(const bContext *C, PointerRNA *ptr) return NULL; } } - + /* just fall back on the scene's GP data */ if (ptr) RNA_id_pointer_create((ID *)scene, ptr); return (scene) ? &scene->gpd : NULL; } +/* Get pointer to active Grease Pencil datablock, and an RNA-pointer to trace back to whatever owns it */ +bGPdata **ED_gpencil_data_get_pointers(const bContext *C, PointerRNA *ptr) +{ + ID *screen_id = (ID *)CTX_wm_screen(C); + Scene *scene = CTX_data_scene(C); + ScrArea *sa = CTX_wm_area(C); + Object *ob = CTX_data_active_object(C); + + return ED_gpencil_data_get_pointers_direct(screen_id, scene, sa, ob, ptr); +} + +/* -------------------------------------------------------- */ + +/* Get the active Grease Pencil datablock, when context is not available */ +bGPdata *ED_gpencil_data_get_active_direct(ID *screen_id, Scene *scene, ScrArea *sa, Object *ob) +{ + bGPdata **gpd_ptr = ED_gpencil_data_get_pointers_direct(screen_id, scene, sa, ob, NULL); + return (gpd_ptr) ? *(gpd_ptr) : NULL; +} + /* Get the active Grease Pencil datablock */ bGPdata *ED_gpencil_data_get_active(const bContext *C) { @@ -187,6 +217,9 @@ bGPdata *ED_gpencil_data_get_active(const bContext *C) return (gpd_ptr) ? *(gpd_ptr) : NULL; } +/* -------------------------------------------------------- */ + +// XXX: this should be removed... We really shouldn't duplicate logic like this! bGPdata *ED_gpencil_data_get_active_v3d(Scene *scene, View3D *v3d) { Base *base = scene->basact; @@ -194,7 +227,7 @@ bGPdata *ED_gpencil_data_get_active_v3d(Scene *scene, View3D *v3d) /* We have to make sure active object is actually visible and selected, else we must use default scene gpd, * to be consistent with ED_gpencil_data_get_active's behavior. */ - + if (base && TESTBASE(v3d, base)) { gpd = base->object->gpd; } @@ -211,13 +244,22 @@ static int gp_add_poll(bContext *C) return ED_gpencil_data_get_pointers(C, NULL) != NULL; } +/* poll callback for checking if there is an active layer */ +static int gp_active_layer_poll(bContext *C) +{ + bGPdata *gpd = ED_gpencil_data_get_active(C); + bGPDlayer *gpl = gpencil_layer_getactive(gpd); + + return (gpl != NULL); +} + /* ******************* Add New Data ************************ */ /* add new datablock - wrapper around API */ static int gp_data_add_exec(bContext *C, wmOperator *op) { bGPdata **gpd_ptr = ED_gpencil_data_get_pointers(C, NULL); - + if (gpd_ptr == NULL) { BKE_report(op->reports, RPT_ERROR, "Nowhere for grease pencil data to go"); return OPERATOR_CANCELLED; @@ -225,14 +267,14 @@ static int gp_data_add_exec(bContext *C, wmOperator *op) else { /* decrement user count and add new datablock */ bGPdata *gpd = (*gpd_ptr); - + id_us_min(&gpd->id); *gpd_ptr = gpencil_data_addnew(DATA_("GPencil")); } - + /* notifiers */ WM_event_add_notifier(C, NC_GPENCIL | ND_DATA | NA_EDITED, NULL); - + return OPERATOR_FINISHED; } @@ -243,7 +285,7 @@ void GPENCIL_OT_data_add(wmOperatorType *ot) ot->idname = "GPENCIL_OT_data_add"; ot->description = "Add new Grease Pencil datablock"; ot->flag = OPTYPE_REGISTER | OPTYPE_UNDO; - + /* callbacks */ ot->exec = gp_data_add_exec; ot->poll = gp_add_poll; @@ -255,7 +297,7 @@ void GPENCIL_OT_data_add(wmOperatorType *ot) static int gp_data_unlink_poll(bContext *C) { bGPdata **gpd_ptr = ED_gpencil_data_get_pointers(C, NULL); - + /* if we have access to some active data, make sure there's a datablock before enabling this */ return (gpd_ptr && *gpd_ptr); } @@ -265,7 +307,7 @@ static int gp_data_unlink_poll(bContext *C) static int gp_data_unlink_exec(bContext *C, wmOperator *op) { bGPdata **gpd_ptr = ED_gpencil_data_get_pointers(C, NULL); - + if (gpd_ptr == NULL) { BKE_report(op->reports, RPT_ERROR, "Nowhere for grease pencil data to go"); return OPERATOR_CANCELLED; @@ -277,10 +319,10 @@ static int gp_data_unlink_exec(bContext *C, wmOperator *op) id_us_min(&gpd->id); *gpd_ptr = NULL; } - + /* notifiers */ - WM_event_add_notifier(C, NC_GPENCIL | ND_DATA | NA_EDITED, NULL); - + WM_event_add_notifier(C, NC_GPENCIL | ND_DATA | NA_EDITED, NULL); + return OPERATOR_FINISHED; } @@ -291,7 +333,7 @@ void GPENCIL_OT_data_unlink(wmOperatorType *ot) ot->idname = "GPENCIL_OT_data_unlink"; ot->description = "Unlink active Grease Pencil datablock"; ot->flag = OPTYPE_REGISTER | OPTYPE_UNDO; - + /* callbacks */ ot->exec = gp_data_unlink_exec; ot->poll = gp_data_unlink_poll; @@ -303,7 +345,7 @@ void GPENCIL_OT_data_unlink(wmOperatorType *ot) static int gp_layer_add_exec(bContext *C, wmOperator *op) { bGPdata **gpd_ptr = ED_gpencil_data_get_pointers(C, NULL); - + /* if there's no existing Grease-Pencil data there, add some */ if (gpd_ptr == NULL) { BKE_report(op->reports, RPT_ERROR, "Nowhere for grease pencil data to go"); @@ -311,13 +353,13 @@ static int gp_layer_add_exec(bContext *C, wmOperator *op) } if (*gpd_ptr == NULL) *gpd_ptr = gpencil_data_addnew(DATA_("GPencil")); - + /* add new layer now */ gpencil_layer_addnew(*gpd_ptr, DATA_("GP_Layer"), 1); - + /* notifiers */ WM_event_add_notifier(C, NC_GPENCIL | ND_DATA | NA_EDITED, NULL); - + return OPERATOR_FINISHED; } @@ -327,20 +369,497 @@ void GPENCIL_OT_layer_add(wmOperatorType *ot) ot->name = "Add New Layer"; ot->idname = "GPENCIL_OT_layer_add"; ot->description = "Add new Grease Pencil layer for the active Grease Pencil datablock"; + ot->flag = OPTYPE_REGISTER | OPTYPE_UNDO; - + /* callbacks */ ot->exec = gp_layer_add_exec; ot->poll = gp_add_poll; } +/* ******************* Remove Active Layer ************************* */ + +static int gp_layer_remove_exec(bContext *C, wmOperator *op) +{ + bGPdata *gpd = ED_gpencil_data_get_active(C); + bGPDlayer *gpl = gpencil_layer_getactive(gpd); + + /* sanity checks */ + if (ELEM(NULL, gpd, gpl)) + return OPERATOR_CANCELLED; + + if (gpl->flag & GP_LAYER_LOCKED) { + BKE_report(op->reports, RPT_ERROR, "Cannot delete locked layers"); + return OPERATOR_CANCELLED; + } + + /* make the layer before this the new active layer + * - use the one after if this is the first + * - if this is the only layer, this naturally becomes NULL + */ + if (gpl->prev) + gpencil_layer_setactive(gpd, gpl->prev); + else + gpencil_layer_setactive(gpd, gpl->next); + + /* delete the layer now... */ + gpencil_layer_delete(gpd, gpl); + + /* notifiers */ + WM_event_add_notifier(C, NC_GPENCIL | ND_DATA | NA_EDITED, NULL); + + return OPERATOR_FINISHED; +} + +void GPENCIL_OT_layer_remove(wmOperatorType *ot) +{ + /* identifiers */ + ot->name = "Remove Layer"; + ot->idname = "GPENCIL_OT_layer_remove"; + ot->description = "Remove active Grease Pencil layer"; + + ot->flag = OPTYPE_REGISTER | OPTYPE_UNDO; + + /* callbacks */ + ot->exec = gp_layer_remove_exec; + ot->poll = gp_active_layer_poll; +} + +/* ******************* Move Layer Up/Down ************************** */ + +enum { + GP_LAYER_MOVE_UP = -1, + GP_LAYER_MOVE_DOWN = 1 +}; + +static int gp_layer_move_exec(bContext *C, wmOperator *op) +{ + bGPdata *gpd = ED_gpencil_data_get_active(C); + bGPDlayer *gpl = gpencil_layer_getactive(gpd); + + int direction = RNA_enum_get(op->ptr, "type"); + + /* sanity checks */ + if (ELEM(NULL, gpd, gpl)) + return OPERATOR_CANCELLED; + + /* up or down? */ + if (direction == GP_LAYER_MOVE_UP) { + /* up */ + BLI_remlink(&gpd->layers, gpl); + BLI_insertlinkbefore(&gpd->layers, gpl->prev, gpl); + } + else { + /* down */ + BLI_remlink(&gpd->layers, gpl); + BLI_insertlinkafter(&gpd->layers, gpl->next, gpl); + } + + /* notifiers */ + WM_event_add_notifier(C, NC_GPENCIL | ND_DATA | NA_EDITED, NULL); + + return OPERATOR_FINISHED; +} + +void GPENCIL_OT_layer_move(wmOperatorType *ot) +{ + static EnumPropertyItem slot_move[] = { + {GP_LAYER_MOVE_UP, "UP", 0, "Up", ""}, + {GP_LAYER_MOVE_DOWN, "DOWN", 0, "Down", ""}, + {0, NULL, 0, NULL, NULL} + }; + + /* identifiers */ + ot->name = "Move Grease Pencil Layer"; + ot->idname = "GPENCIL_OT_layer_move"; + ot->description = "Move the active Grease Pencil layer up/down in the list"; + + /* api callbacks */ + ot->exec = gp_layer_move_exec; + ot->poll = gp_active_layer_poll; + + /* flags */ + ot->flag = OPTYPE_REGISTER | OPTYPE_UNDO; + + ot->prop = RNA_def_enum(ot->srna, "type", slot_move, 0, "Type", ""); +} + +/* ********************* Duplicate Layer ************************** */ + +static int gp_layer_copy_exec(bContext *C, wmOperator *UNUSED(op)) +{ + bGPdata *gpd = ED_gpencil_data_get_active(C); + bGPDlayer *gpl = gpencil_layer_getactive(gpd); + bGPDlayer *new_layer; + + /* sanity checks */ + if (ELEM(NULL, gpd, gpl)) + return OPERATOR_CANCELLED; + + /* make copy of layer, and add it immediately after the existing layer */ + new_layer = gpencil_layer_duplicate(gpl); + BLI_insertlinkafter(&gpd->layers, gpl, new_layer); + + /* ensure new layer has a unique name, and is now the active layer */ + BLI_uniquename(&gpd->layers, new_layer, DATA_("GP_Layer"), '.', offsetof(bGPDlayer, info), sizeof(new_layer->info)); + gpencil_layer_setactive(gpd, new_layer); + + /* notifiers */ + WM_event_add_notifier(C, NC_GPENCIL | ND_DATA | NA_EDITED, NULL); + + return OPERATOR_FINISHED; +} + +void GPENCIL_OT_layer_duplicate(wmOperatorType *ot) +{ + /* identifiers */ + ot->name = "Duplicate Layer"; + ot->idname = "GPENCIL_OT_layer_duplicate"; + ot->description = "Make a copy of the active Grease Pencil layer"; + + /* callbacks */ + ot->exec = gp_layer_copy_exec; + ot->poll = gp_active_layer_poll; + + /* flags */ + ot->flag = OPTYPE_REGISTER | OPTYPE_UNDO; +} + +/* ************************************************ */ +/* Stroke Editing Operators */ + +/* poll callback for all stroke editing operators */ +static int gp_stroke_edit_poll(bContext *C) +{ + /* NOTE: this is a bit slower, but is the most accurate... */ + return CTX_DATA_COUNT(C, editable_gpencil_strokes) != 0; +} + +/* ************** Duplicate Selected Strokes **************** */ + +/* Make copies of selected point segments in a selected stroke */ +static void gp_duplicate_points(const bGPDstroke *gps, ListBase *new_strokes) +{ + bGPDspoint *pt; + int i; + + int start_idx = -1; + + + /* Step through the original stroke's points: + * - We accumulate selected points (from start_idx to current index) + * and then convert that to a new stroke + */ + for (i = 0, pt = gps->points; i < gps->totpoints; i++, pt++) { + /* searching for start, are waiting for end? */ + if (start_idx == -1) { + /* is this the first selected point for a new island? */ + if (pt->flag & GP_SPOINT_SELECT) { + start_idx = i; + } + } + else { + size_t len = 0; + + /* is this the end of current island yet? + * 1) Point i-1 was the last one that was selected + * 2) Point i is the last in the array + */ + if ((pt->flag & GP_SPOINT_SELECT) == 0) { + len = i - start_idx; + } + else if (i == gps->totpoints - 1) { + len = i - start_idx + 1; + } + //printf("copying from %d to %d = %d\n", start_idx, i, len); + + /* make copies of the relevant data */ + if (len) { + bGPDstroke *gpsd; + + /* make a stupid copy first of the entire stroke (to get the flags too) */ + gpsd = MEM_dupallocN(gps); + + /* now, make a new points array, and copy of the relevant parts */ + gpsd->points = MEM_callocN(sizeof(bGPDspoint) * len, "gps stroke points copy"); + memcpy(gpsd->points, gps->points + start_idx, sizeof(bGPDspoint) * len); + gpsd->totpoints = len; + + /* add to temp buffer */ + gpsd->next = gpsd->prev = NULL; + BLI_addtail(new_strokes, gpsd); + + /* cleanup + reset for next */ + start_idx = -1; + } + } + } +} + +static int gp_duplicate_exec(bContext *C, wmOperator *op) +{ + bGPdata *gpd = ED_gpencil_data_get_active(C); + + if (gpd == NULL) { + BKE_report(op->reports, RPT_ERROR, "No Grease Pencil data"); + return OPERATOR_CANCELLED; + } + + /* for each visible (and editable) layer's selected strokes, + * copy the strokes into a temporary buffer, then append + * once all done + */ + CTX_DATA_BEGIN(C, bGPDlayer *, gpl, editable_gpencil_layers) + { + ListBase new_strokes = {NULL, NULL}; + bGPDframe *gpf = gpl->actframe; + bGPDstroke *gps; + + if (gpf == NULL) + continue; + + /* make copies of selected strokes, and deselect these once we're done */ + for (gps = gpf->strokes.first; gps; gps = gps->next) { + if (gps->flag & GP_STROKE_SELECT) { + if (gps->totpoints == 1) { + /* Special Case: If there's just a single point in this stroke... */ + bGPDstroke *gpsd; + + /* make direct copies of the stroke and its points */ + gpsd = MEM_dupallocN(gps); + gpsd->points = MEM_dupallocN(gps->points); + + /* add to temp buffer */ + gpsd->next = gpsd->prev = NULL; + BLI_addtail(&new_strokes, gpsd); + } + else { + /* delegate to a helper, as there's too much to fit in here (for copying subsets)... */ + gp_duplicate_points(gps, &new_strokes); + } + + /* deselect original stroke, or else the originals get moved too + * (when using the copy + move macro) + */ + gps->flag &= ~GP_STROKE_SELECT; + } + } + + /* add all new strokes in temp buffer to the frame (preventing double-copies) */ + BLI_movelisttolist(&gpf->strokes, &new_strokes); + BLI_assert(new_strokes.first == NULL); + } + CTX_DATA_END; + + /* updates */ + WM_event_add_notifier(C, NC_GPENCIL | ND_DATA | NA_EDITED, NULL); + + return OPERATOR_FINISHED; +} + +void GPENCIL_OT_duplicate(wmOperatorType *ot) +{ + /* identifiers */ + ot->name = "Duplicate Strokes"; + ot->idname = "GPENCIL_OT_duplicate"; + ot->description = "Duplicate the selected Grease Pencil strokes"; + + /* callbacks */ + ot->exec = gp_duplicate_exec; + ot->poll = gp_stroke_edit_poll; + + /* flags */ + ot->flag = OPTYPE_REGISTER | OPTYPE_UNDO; +} + +/* ******************* Copy/Paste Strokes ************************* */ +/* Grease Pencil stroke data copy/paste buffer: + * - The copy operation collects all segments of selected strokes, + * dumping "ready to be copied" copies of the strokes into the buffer. + * - The paste operation makes a copy of those elements, and adds them + * to the active layer. This effectively flattens down the strokes + * from several different layers into a single layer. + */ + +/* list of bGPDstroke instances */ +static ListBase gp_strokes_copypastebuf = {NULL, NULL}; + +/* Free copy/paste buffer data */ +void ED_gpencil_strokes_copybuf_free(void) +{ + bGPDstroke *gps, *gpsn; + + for (gps = gp_strokes_copypastebuf.first; gps; gps = gpsn) { + gpsn = gps->next; + + MEM_freeN(gps->points); + BLI_freelinkN(&gp_strokes_copypastebuf, gps); + } + + gp_strokes_copypastebuf.first = gp_strokes_copypastebuf.last = NULL; +} + +/* --------------------- */ +/* Copy selected strokes */ + +static int gp_strokes_copy_exec(bContext *C, wmOperator *op) +{ + bGPdata *gpd = ED_gpencil_data_get_active(C); + + if (gpd == NULL) { + BKE_report(op->reports, RPT_ERROR, "No Grease Pencil data"); + return OPERATOR_CANCELLED; + } + + /* clear the buffer first */ + ED_gpencil_strokes_copybuf_free(); + + /* for each visible (and editable) layer's selected strokes, + * copy the strokes into a temporary buffer, then append + * once all done + */ + CTX_DATA_BEGIN(C, bGPDlayer *, gpl, editable_gpencil_layers) + { + bGPDframe *gpf = gpl->actframe; + bGPDstroke *gps; + + if (gpf == NULL) + continue; + + /* make copies of selected strokes, and deselect these once we're done */ + for (gps = gpf->strokes.first; gps; gps = gps->next) { + if (gps->flag & GP_STROKE_SELECT) { + if (gps->totpoints == 1) { + /* Special Case: If there's just a single point in this stroke... */ + bGPDstroke *gpsd; + + /* make direct copies of the stroke and its points */ + gpsd = MEM_dupallocN(gps); + gpsd->points = MEM_dupallocN(gps->points); + + /* add to temp buffer */ + gpsd->next = gpsd->prev = NULL; + BLI_addtail(&gp_strokes_copypastebuf, gpsd); + } + else { + /* delegate to a helper, as there's too much to fit in here (for copying subsets)... */ + gp_duplicate_points(gps, &gp_strokes_copypastebuf); + } + } + } + } + CTX_DATA_END; + + /* done - no updates needed */ + return OPERATOR_FINISHED; +} + +void GPENCIL_OT_copy(wmOperatorType *ot) +{ + /* identifiers */ + ot->name = "Copy Strokes"; + ot->idname = "GPENCIL_OT_copy"; + ot->description = "Copy selected Grease Pencil points and strokes"; + + /* callbacks */ + ot->exec = gp_strokes_copy_exec; + ot->poll = gp_stroke_edit_poll; + + /* flags */ + //ot->flag = OPTYPE_REGISTER; +} + +/* --------------------- */ +/* Paste selected strokes */ + +static int gp_strokes_paste_exec(bContext *C, wmOperator *op) +{ + Scene *scene = CTX_data_scene(C); + bGPdata *gpd = ED_gpencil_data_get_active(C); + bGPDlayer *gpl = CTX_data_active_gpencil_layer(C); + bGPDframe *gpf; + + /* check for various error conditions */ + if (gpd == NULL) { + BKE_report(op->reports, RPT_ERROR, "No Grease Pencil data"); + return OPERATOR_CANCELLED; + } + else if (gp_strokes_copypastebuf.first == NULL) { + BKE_report(op->reports, RPT_ERROR, "No strokes to paste, select and copy some points before trying again"); + return OPERATOR_CANCELLED; + } + else if (gpl == NULL) { + /* no active layer - let's just create one */ + gpl = gpencil_layer_addnew(gpd, DATA_("GP_Layer"), 1); + } + else if (gpl->flag & (GP_LAYER_HIDE | GP_LAYER_LOCKED)) { + BKE_report(op->reports, RPT_ERROR, "Can not paste strokes when active layer is hidden or locked"); + return OPERATOR_CANCELLED; + } + + /* Deselect all strokes first */ + CTX_DATA_BEGIN(C, bGPDstroke *, gps, editable_gpencil_strokes) + { + bGPDspoint *pt; + int i; + + for (i = 0, pt = gps->points; i < gps->totpoints; i++, pt++) { + pt->flag &= ~GP_SPOINT_SELECT; + } + + gps->flag &= ~GP_STROKE_SELECT; + } + CTX_DATA_END; + + /* Ensure we have a frame to draw into + * NOTE: Since this is an op which creates strokes, + * we are obliged to add a new frame if one + * doesn't exist already + */ + gpf = gpencil_layer_getframe(gpl, CFRA, true); + + if (gpf) { + bGPDstroke *gps; + + /* Copy each stroke into the layer */ + for (gps = gp_strokes_copypastebuf.first; gps; gps = gps->next) { + bGPDstroke *new_stroke = MEM_dupallocN(gps); + + new_stroke->points = MEM_dupallocN(gps->points); + new_stroke->next = new_stroke->prev = NULL; + + BLI_addtail(&gpf->strokes, new_stroke); + } + } + + /* updates */ + WM_event_add_notifier(C, NC_GPENCIL | ND_DATA | NA_EDITED, NULL); + + return OPERATOR_FINISHED; +} + +void GPENCIL_OT_paste(wmOperatorType *ot) +{ + /* identifiers */ + ot->name = "Paste Strokes"; + ot->idname = "GPENCIL_OT_paste"; + ot->description = "Paste previously copied strokes into active layer"; + + /* callbacks */ + ot->exec = gp_strokes_paste_exec; + ot->poll = gp_stroke_edit_poll; + + /* flags */ + ot->flag = OPTYPE_REGISTER | OPTYPE_UNDO; +} + /* ******************* Delete Active Frame ************************ */ static int gp_actframe_delete_poll(bContext *C) { bGPdata *gpd = ED_gpencil_data_get_active(C); bGPDlayer *gpl = gpencil_layer_getactive(gpd); - + /* only if there's an active layer with an active frame */ return (gpl && gpl->actframe); } @@ -352,7 +871,7 @@ static int gp_actframe_delete_exec(bContext *C, wmOperator *op) bGPdata *gpd = ED_gpencil_data_get_active(C); bGPDlayer *gpl = gpencil_layer_getactive(gpd); bGPDframe *gpf = gpencil_layer_getframe(gpl, CFRA, 0); - + /* if there's no existing Grease-Pencil data there, add some */ if (gpd == NULL) { BKE_report(op->reports, RPT_ERROR, "No grease pencil data"); @@ -362,13 +881,13 @@ static int gp_actframe_delete_exec(bContext *C, wmOperator *op) BKE_report(op->reports, RPT_ERROR, "No active frame to delete"); return OPERATOR_CANCELLED; } - + /* delete it... */ gpencil_layer_delframe(gpl, gpf); - + /* notifiers */ WM_event_add_notifier(C, NC_GPENCIL | ND_DATA | NA_EDITED, NULL); - + return OPERATOR_FINISHED; } @@ -378,13 +897,315 @@ void GPENCIL_OT_active_frame_delete(wmOperatorType *ot) ot->name = "Delete Active Frame"; ot->idname = "GPENCIL_OT_active_frame_delete"; ot->description = "Delete the active frame for the active Grease Pencil datablock"; + ot->flag = OPTYPE_REGISTER | OPTYPE_UNDO; - + /* callbacks */ ot->exec = gp_actframe_delete_exec; ot->poll = gp_actframe_delete_poll; } +/* ******************* Delete Operator ************************ */ + +typedef enum eGP_DeleteMode { + /* delete selected stroke points */ + GP_DELETEOP_POINTS = 0, + /* delete selected strokes */ + GP_DELETEOP_STROKES = 1, + /* delete active frame */ + GP_DELETEOP_FRAME = 2, + /* delete selected stroke points (without splitting stroke) */ + GP_DELETEOP_POINTS_DISSOLVE = 3, +} eGP_DeleteMode; + + +/* Delete selected strokes */ +static int gp_delete_selected_strokes(bContext *C) +{ + bool changed = false; + + CTX_DATA_BEGIN(C, bGPDlayer *, gpl, editable_gpencil_layers) + { + bGPDframe *gpf = gpl->actframe; + bGPDstroke *gps, *gpsn; + + if (gpf == NULL) + continue; + + /* simply delete strokes which are selected */ + for (gps = gpf->strokes.first; gps; gps = gpsn) { + gpsn = gps->next; + + if (gps->flag & GP_STROKE_SELECT) { + /* free stroke memory arrays, then stroke itself */ + if (gps->points) MEM_freeN(gps->points); + BLI_freelinkN(&gpf->strokes, gps); + + changed = true; + } + } + } + CTX_DATA_END; + + if (changed) { + WM_event_add_notifier(C, NC_GPENCIL | ND_DATA | NA_EDITED, NULL); + return OPERATOR_FINISHED; + } + else { + return OPERATOR_CANCELLED; + } +} + +/* Delete selected points but keep the stroke */ +static int gp_dissolve_selected_points(bContext *C) +{ + bool changed = false; + + CTX_DATA_BEGIN(C, bGPDlayer *, gpl, editable_gpencil_layers) + { + bGPDframe *gpf = gpl->actframe; + bGPDstroke *gps, *gpsn; + + if (gpf == NULL) + continue; + + /* simply delete points from selected strokes + * NOTE: we may still have to remove the stroke if it ends up having no points! + */ + for (gps = gpf->strokes.first; gps; gps = gpsn) { + gpsn = gps->next; + + if (gps->flag & GP_STROKE_SELECT) { + bGPDspoint *pt; + int i; + + int tot = gps->totpoints; /* number of points in new buffer */ + + /* First Pass: Count how many points are selected (i.e. how many to remove) */ + for (i = 0, pt = gps->points; i < gps->totpoints; i++, pt++) { + if (pt->flag & GP_SPOINT_SELECT) { + /* selected point - one of the points to remove */ + tot--; + } + } + + /* if no points are left, we simply delete the entire stroke */ + if (tot <= 0) { + /* remove the entire stroke */ + MEM_freeN(gps->points); + BLI_freelinkN(&gpf->strokes, gps); + } + else { + /* just copy all unselected into a smaller buffer */ + bGPDspoint *new_points = MEM_callocN(sizeof(bGPDspoint) * tot, "new gp stroke points copy"); + bGPDspoint *npt = new_points; + + for (i = 0, pt = gps->points; i < gps->totpoints; i++, pt++) { + if ((pt->flag & GP_SPOINT_SELECT) == 0) { + *npt = *pt; + npt++; + } + } + + /* free the old buffer */ + MEM_freeN(gps->points); + + /* save the new buffer */ + gps->points = new_points; + gps->totpoints = tot; + + /* deselect the stroke, since none of its selected points will still be selected */ + gps->flag &= ~GP_STROKE_SELECT; + } + + changed = true; + } + } + } + CTX_DATA_END; + + if (changed) { + WM_event_add_notifier(C, NC_GPENCIL | ND_DATA | NA_EDITED, NULL); + return OPERATOR_FINISHED; + } + else { + return OPERATOR_CANCELLED; + } +} + +/* Split selected strokes into segments, splitting on selected points */ +static int gp_delete_selected_points(bContext *C) +{ + bool changed = false; + + CTX_DATA_BEGIN(C, bGPDlayer *, gpl, editable_gpencil_layers) + { + bGPDframe *gpf = gpl->actframe; + bGPDstroke *gps, *gpsn; + + if (gpf == NULL) + continue; + + /* simply delete strokes which are selected */ + for (gps = gpf->strokes.first; gps; gps = gpsn) { + gpsn = gps->next; + + if (gps->flag & GP_STROKE_SELECT) { + bGPDspoint *pt; + int i; + + /* The algorithm used here is as follows: + * 1) We firstly identify the number of "islands" of non-selected points + * which will all end up being in new strokes. + * - In the most extreme case (i.e. every other vert is a 1-vert island), + * we have at most n / 2 islands + * - Once we start having larger islands than that, the number required + * becomes much less + * 2) Each island gets converted to a new stroke + */ + typedef struct tGPDeleteIsland { + int start_idx; + int end_idx; + } tGPDeleteIsland; + + tGPDeleteIsland *islands = MEM_callocN(sizeof(tGPDeleteIsland) * (gps->totpoints + 1) / 2, "gp_point_islands"); + bool in_island = false; + int num_islands = 0; + + /* First Pass: Identify start/end of islands */ + for (i = 0, pt = gps->points; i < gps->totpoints; i++, pt++) { + if (pt->flag & GP_SPOINT_SELECT) { + /* selected - stop accumulating to island */ + in_island = false; + } + else { + /* unselected - start of a new island? */ + int idx; + + if (in_island) { + /* extend existing island */ + idx = num_islands - 1; + islands[idx].end_idx = i; + } + else { + /* start of new island */ + in_island = true; + num_islands++; + + idx = num_islands - 1; + islands[idx].start_idx = islands[idx].end_idx = i; + } + } + } + + /* Watch out for special case where No islands = All points selected = Delete Stroke only */ + if (num_islands) { + /* there are islands, so create a series of new strokes, adding them before the "next" stroke */ + int idx; + + /* deselect old stroke, since it will be used as template for the new strokes */ + gps->flag &= ~GP_STROKE_SELECT; + + /* create each new stroke... */ + for (idx = 0; idx < num_islands; idx++) { + tGPDeleteIsland *island = &islands[idx]; + bGPDstroke *new_stroke = MEM_dupallocN(gps); + + /* compute new buffer size (+ 1 needed as the endpoint index is "inclusive") */ + new_stroke->totpoints = island->end_idx - island->start_idx + 1; + new_stroke->points = MEM_callocN(sizeof(bGPDspoint) * new_stroke->totpoints, "gp delete stroke fragment"); + + /* copy over the relevant points */ + memcpy(new_stroke->points, gps->points + island->start_idx, sizeof(bGPDspoint) * new_stroke->totpoints); + + /* add new stroke to the frame */ + if (gpsn) { + BLI_insertlinkbefore(&gpf->strokes, gpsn, new_stroke); + } + else { + BLI_addtail(&gpf->strokes, new_stroke); + } + } + } + + /* free islands */ + MEM_freeN(islands); + + /* Delete the old stroke */ + MEM_freeN(gps->points); + BLI_freelinkN(&gpf->strokes, gps); + + changed = true; + } + } + } + CTX_DATA_END; + + if (changed) { + WM_event_add_notifier(C, NC_GPENCIL | ND_DATA | NA_EDITED, NULL); + return OPERATOR_FINISHED; + } + else { + return OPERATOR_CANCELLED; + } +} + + +static int gp_delete_exec(bContext *C, wmOperator *op) +{ + eGP_DeleteMode mode = RNA_enum_get(op->ptr, "type"); + int result = OPERATOR_CANCELLED; + + switch (mode) { + case GP_DELETEOP_STROKES: /* selected strokes */ + result = gp_delete_selected_strokes(C); + break; + + case GP_DELETEOP_POINTS: /* selected points (breaks the stroke into segments) */ + result = gp_delete_selected_points(C); + break; + + case GP_DELETEOP_POINTS_DISSOLVE: /* selected points (without splitting the stroke) */ + result = gp_dissolve_selected_points(C); + break; + + case GP_DELETEOP_FRAME: /* active frame */ + result = gp_actframe_delete_exec(C, op); + break; + } + + return result; +} + +void GPENCIL_OT_delete(wmOperatorType *ot) +{ + static EnumPropertyItem prop_gpencil_delete_types[] = { + {GP_DELETEOP_POINTS, "POINTS", 0, "Points", "Delete selected points and split strokes into segments"}, + {GP_DELETEOP_STROKES, "STROKES", 0, "Strokes", "Delete selected strokes"}, + {GP_DELETEOP_FRAME, "FRAME", 0, "Frame", "Delete active frame"}, + {0, "", 0, NULL, NULL}, + {GP_DELETEOP_POINTS_DISSOLVE, "DISSOLVE_POINTS", 0, "Dissolve Points", + "Delete selected points without splitting strokes"}, + {0, NULL, 0, NULL, NULL} + }; + + /* identifiers */ + ot->name = "Delete..."; + ot->idname = "GPENCIL_OT_delete"; + ot->description = "Delete selected Grease Pencil strokes, vertices, or frames"; + + /* callbacks */ + ot->invoke = WM_menu_invoke; + ot->exec = gp_delete_exec; + ot->poll = gp_stroke_edit_poll; + + /* flags */ + ot->flag = OPTYPE_UNDO | OPTYPE_REGISTER; + + /* props */ + ot->prop = RNA_def_enum(ot->srna, "type", prop_gpencil_delete_types, 0, "Type", "Method used for deleting Grease Pencil data"); +} + /* ************************************************ */ /* Grease Pencil to Data Operator */ @@ -437,7 +1258,7 @@ static EnumPropertyItem *rna_GPConvert_mode_items(bContext *UNUSED(C), PointerRN /* --- */ -/* convert the coordinates from the given stroke point into 3d-coordinates +/* convert the coordinates from the given stroke point into 3d-coordinates * - assumes that the active space is the 3D-View */ static void gp_strokepoint_convertcoords(bContext *C, bGPDstroke *gps, bGPDspoint *pt, float p3d[3], rctf *subrect) @@ -445,7 +1266,7 @@ static void gp_strokepoint_convertcoords(bContext *C, bGPDstroke *gps, bGPDspoin Scene *scene = CTX_data_scene(C); View3D *v3d = CTX_wm_view3d(C); ARegion *ar = CTX_wm_region(C); - + if (gps->flag & GP_STROKE_3DSPACE) { /* directly use 3d-coordinates */ copy_v3_v3(p3d, &pt->x); @@ -453,7 +1274,7 @@ static void gp_strokepoint_convertcoords(bContext *C, bGPDstroke *gps, bGPDspoin else { const float *fp = ED_view3d_cursor3d_get(scene, v3d); float mvalf[2]; - + /* get screen coordinate */ if (gps->flag & GP_STROKE_2DSPACE) { View2D *v2d = &ar->v2d; @@ -469,7 +1290,7 @@ static void gp_strokepoint_convertcoords(bContext *C, bGPDstroke *gps, bGPDspoin mvalf[1] = (float)pt->y / 100.0f * ar->winy; } } - + ED_view3d_win_to_3d(ar, fp, mvalf, p3d); } } @@ -485,19 +1306,19 @@ typedef struct tGpTimingData { bool realtime; /* Will overwrite end_frame in case of Original or CustomGap timing... */ float gap_duration, gap_randomness; /* To be used with CustomGap mode*/ int seed; - + /* Data set from points, used to compute final timing FCurve */ int num_points, cur_point; - + /* Distances */ float *dists; float tot_dist; - + /* Times */ float *times; /* Note: Gap times will be negative! */ float tot_time, gap_tot_time; double inittime; - + /* Only used during creation of dists & times lists. */ float offset_time; } tGpTimingData; @@ -508,9 +1329,9 @@ typedef struct tGpTimingData { static void gp_timing_data_set_nbr(tGpTimingData *gtd, const int nbr) { float *tmp; - + BLI_assert(nbr > gtd->num_points); - + /* distances */ tmp = gtd->dists; gtd->dists = MEM_callocN(sizeof(float) * nbr, __func__); @@ -518,7 +1339,7 @@ static void gp_timing_data_set_nbr(tGpTimingData *gtd, const int nbr) memcpy(gtd->dists, tmp, sizeof(float) * gtd->num_points); MEM_freeN(tmp); } - + /* times */ tmp = gtd->times; gtd->times = MEM_callocN(sizeof(float) * nbr, __func__); @@ -526,7 +1347,7 @@ static void gp_timing_data_set_nbr(tGpTimingData *gtd, const int nbr) memcpy(gtd->times, tmp, sizeof(float) * gtd->num_points); MEM_freeN(tmp); } - + gtd->num_points = nbr; } @@ -536,7 +1357,7 @@ static void gp_timing_data_add_point(tGpTimingData *gtd, const double stroke_ini { float delta_time = 0.0f; const int cur_point = gtd->cur_point; - + if (!cur_point) { /* Special case, first point, if time is not 0.0f we have to compensate! */ gtd->offset_time = -time; @@ -546,18 +1367,18 @@ static void gp_timing_data_add_point(tGpTimingData *gtd, const double stroke_ini /* This is a gap, negative value! */ gtd->times[cur_point] = -(((float)(stroke_inittime - gtd->inittime)) + time + gtd->offset_time); delta_time = -gtd->times[cur_point] - gtd->times[cur_point - 1]; - + gtd->gap_tot_time += delta_time; } else { gtd->times[cur_point] = (((float)(stroke_inittime - gtd->inittime)) + time + gtd->offset_time); delta_time = gtd->times[cur_point] - fabsf(gtd->times[cur_point - 1]); } - + gtd->tot_time += delta_time; gtd->tot_dist += delta_dist; gtd->dists[cur_point] = gtd->tot_dist; - + gtd->cur_point++; } @@ -572,7 +1393,7 @@ static int gp_find_end_of_stroke_idx(tGpTimingData *gtd, RNG *rng, const int idx float *next_delta_time) { int j; - + for (j = idx + 1; j < gtd->num_points; j++) { if (gtd->times[j] < 0) { gtd->times[j] = -gtd->times[j]; @@ -591,16 +1412,16 @@ static int gp_find_end_of_stroke_idx(tGpTimingData *gtd, RNG *rng, const int idx } else { float delta, min, max; - + /* This code ensures that if the first gaps have been shorter than average gap_duration, * next gaps will tend to be longer (i.e. try to recover the lateness), and vice-versa! */ delta = delta_time - (gtd->gap_duration * (*nbr_done_gaps)); - + /* Clamp min between [-gap_randomness, 0.0], with lower delta giving higher min */ min = -gtd->gap_randomness - delta; CLAMP(min, -gtd->gap_randomness, 0.0f); - + /* Clamp max between [0.0, gap_randomness], with lower delta giving higher max */ max = gtd->gap_randomness - delta; CLAMP(max, 0.0f, gtd->gap_randomness); @@ -615,7 +1436,7 @@ static int gp_find_end_of_stroke_idx(tGpTimingData *gtd, RNG *rng, const int idx break; } } - + return j - 1; } @@ -623,7 +1444,7 @@ static void gp_stroke_path_animation_preprocess_gaps(tGpTimingData *gtd, RNG *rn { int i; float delta_time = 0.0f; - + for (i = 0; i < gtd->num_points; i++) { if (gtd->times[i] < 0 && i) { (*nbr_gaps)++; @@ -636,7 +1457,7 @@ static void gp_stroke_path_animation_preprocess_gaps(tGpTimingData *gtd, RNG *rn } } gtd->tot_time -= delta_time; - + *tot_gaps_time = (float)(*nbr_gaps) * gtd->gap_duration; gtd->tot_time += *tot_gaps_time; if (G.debug & G_DEBUG) { @@ -653,18 +1474,18 @@ static void gp_stroke_path_animation_add_keyframes(ReportList *reports, PointerR { /* Use actual recorded timing! */ const float time_start = (float)gtd->start_frame; - + float last_valid_time = 0.0f; int end_stroke_idx = -1, start_stroke_idx = 0; float end_stroke_time = 0.0f; - + /* CustomGaps specific */ float delta_time = 0.0f, next_delta_time = 0.0f; int nbr_done_gaps = 0; - + int i; float cfra; - + /* This is a bit tricky, as: * - We can't add arbitrarily close points on FCurve (in time). * - We *must* have all "caps" points of all strokes in FCurve, as much as possible! @@ -680,11 +1501,11 @@ static void gp_stroke_path_animation_add_keyframes(ReportList *reports, PointerR /* This one should *never* be negative! */ end_stroke_time = time_start + ((gtd->times[end_stroke_idx] + delta_time) / gtd->tot_time * time_range); } - + /* Simple proportional stuff... */ cu->ctime = gtd->dists[i] / gtd->tot_dist * cu->pathlen; cfra = time_start + ((gtd->times[i] + delta_time) / gtd->tot_time * time_range); - + /* And now, the checks about timing... */ if (i == start_stroke_idx) { /* If first point of a stroke, be sure it's enough ahead of last valid keyframe, and @@ -735,43 +1556,43 @@ static void gp_stroke_path_animation(bContext *C, ReportList *reports, Curve *cu PointerRNA ptr; PropertyRNA *prop = NULL; int nbr_gaps = 0, i; - + if (gtd->mode == GP_STROKECONVERT_TIMING_NONE) return; - + /* gap_duration and gap_randomness are in frames, but we need seconds!!! */ gtd->gap_duration = FRA2TIME(gtd->gap_duration); gtd->gap_randomness = FRA2TIME(gtd->gap_randomness); - + /* Enable path! */ cu->flag |= CU_PATH; cu->pathlen = gtd->frame_range; - + /* Get RNA pointer to read/write path time values */ RNA_id_pointer_create((ID *)cu, &ptr); prop = RNA_struct_find_property(&ptr, "eval_time"); - + /* Ensure we have an F-Curve to add keyframes to */ act = verify_adt_action((ID *)cu, true); fcu = verify_fcurve(act, NULL, &ptr, "eval_time", 0, true); - + if (G.debug & G_DEBUG) { printf("%s: tot len: %f\t\ttot time: %f\n", __func__, gtd->tot_dist, gtd->tot_time); for (i = 0; i < gtd->num_points; i++) { printf("\tpoint %d:\t\tlen: %f\t\ttime: %f\n", i, gtd->dists[i], gtd->times[i]); } } - + if (gtd->mode == GP_STROKECONVERT_TIMING_LINEAR) { float cfra; - + /* Linear extrapolation! */ fcu->extend = FCURVE_EXTRAPOLATE_LINEAR; - + cu->ctime = 0.0f; cfra = (float)gtd->start_frame; insert_keyframe_direct(reports, ptr, prop, fcu, cfra, INSERTKEY_FAST); - + cu->ctime = cu->pathlen; if (gtd->realtime) { cfra += (float)TIME2FRA(gtd->tot_time); /* Seconds to frames */ @@ -785,35 +1606,35 @@ static void gp_stroke_path_animation(bContext *C, ReportList *reports, Curve *cu /* Use actual recorded timing! */ RNG *rng = BLI_rng_new(0); float time_range; - + /* CustomGaps specific */ float tot_gaps_time = 0.0f; - + /* Pre-process gaps, in case we don't want to keep their original timing */ if (gtd->mode == GP_STROKECONVERT_TIMING_CUSTOMGAP) { gp_stroke_path_animation_preprocess_gaps(gtd, rng, &nbr_gaps, &tot_gaps_time); } - + if (gtd->realtime) { time_range = (float)TIME2FRA(gtd->tot_time); /* Seconds to frames */ } else { time_range = (float)(gtd->end_frame - gtd->start_frame); } - + if (G.debug & G_DEBUG) { printf("GP Stroke Path Conversion: Starting keying!\n"); } - + gp_stroke_path_animation_add_keyframes(reports, ptr, prop, fcu, cu, gtd, rng, time_range, nbr_gaps, tot_gaps_time); - + BLI_rng_free(rng); } - + /* As we used INSERTKEY_FAST mode, we need to recompute all curve's handles now */ calchandles_fcurve(fcu); - + if (G.debug & G_DEBUG) { printf("%s: \ntot len: %f\t\ttot time: %f\n", __func__, gtd->tot_dist, gtd->tot_time); for (i = 0; i < gtd->num_points; i++) { @@ -821,9 +1642,9 @@ static void gp_stroke_path_animation(bContext *C, ReportList *reports, Curve *cu } printf("\n\n"); } - + WM_event_add_notifier(C, NC_ANIMATION | ND_KEYFRAME | NA_EDITED, NULL); - + /* send updates */ DAG_id_tag_update(&cu->id, 0); } @@ -843,7 +1664,7 @@ static void gp_stroke_to_path_add_point(tGpTimingData *gtd, BPoint *bp, const fl { copy_v3_v3(bp->vec, p); bp->vec[3] = 1.0f; - + /* set settings */ bp->f1 = SELECT; bp->radius = width * rad_fac; @@ -855,7 +1676,7 @@ static void gp_stroke_to_path_add_point(tGpTimingData *gtd, BPoint *bp, const fl else if (bp->weight > minmax_weights[1]) { minmax_weights[1] = bp->weight; } - + /* Update timing data */ if (do_gtd) { gp_timing_data_add_point(gtd, inittime, time, len_v3v3(prev_p, p)); @@ -872,7 +1693,7 @@ static void gp_stroke_to_path(bContext *C, bGPDlayer *gpl, bGPDstroke *gps, Curv const bool do_gtd = (gtd->mode != GP_STROKECONVERT_TIMING_NONE); const int add_start_end_points = (add_start_point ? 1 : 0) + (add_end_point ? 1 : 0); int i, old_nbp = 0; - + /* create new 'nurb' or extend current one within the curve */ if (nu) { old_nbp = nu->pntsu; @@ -884,7 +1705,7 @@ static void gp_stroke_to_path(bContext *C, bGPDlayer *gpl, bGPDstroke *gps, Curv } else { nu = (Nurb *)MEM_callocN(sizeof(Nurb), "gpstroke_to_path(nurb)"); - + nu->pntsu = gps->totpoints + add_start_end_points; nu->pntsv = 1; nu->orderu = 2; /* point-to-point! */ @@ -893,16 +1714,16 @@ static void gp_stroke_to_path(bContext *C, bGPDlayer *gpl, bGPDstroke *gps, Curv nu->resolu = cu->resolu; nu->resolv = cu->resolv; nu->knotsu = NULL; - + nu->bp = (BPoint *)MEM_callocN(sizeof(BPoint) * nu->pntsu, "bpoints"); - + stitch = false; /* Security! */ } - + if (do_gtd) { gp_timing_data_set_nbr(gtd, nu->pntsu); } - + /* If needed, make the link between both strokes with two zero-radius additional points */ /* About "zero-radius" point interpolations: * - If we have at least two points in current curve (most common case), we linearly extrapolate @@ -915,16 +1736,16 @@ static void gp_stroke_to_path(bContext *C, bGPDlayer *gpl, bGPDstroke *gps, Curv if (curnu && !stitch && old_nbp) { float p1[3], p2[3], p[3], next_p[3]; float dt1 = 0.0f, dt2 = 0.0f; - + BLI_assert(gps->prev != NULL); - + prev_bp = NULL; if ((old_nbp > 1) && (gps->prev->totpoints > 1)) { /* Only use last curve segment if previous stroke was not a single-point one! */ prev_bp = &nu->bp[old_nbp - 2]; } bp = &nu->bp[old_nbp - 1]; - + /* First point */ gp_strokepoint_convertcoords(C, gps, gps->points, p, subrect); if (prev_bp) { @@ -943,7 +1764,7 @@ static void gp_stroke_to_path(bContext *C, bGPDlayer *gpl, bGPDstroke *gps, Curv bp++; gp_stroke_to_path_add_point(gtd, bp, p1, (bp - 1)->vec, do_gtd, gps->prev->inittime, dt1, 0.0f, rad_fac, minmax_weights); - + /* Second point */ /* Note dt2 is always negative, which marks the gap. */ if (gps->totpoints > 1) { @@ -961,13 +1782,13 @@ static void gp_stroke_to_path(bContext *C, bGPDlayer *gpl, bGPDstroke *gps, Curv } bp++; gp_stroke_to_path_add_point(gtd, bp, p2, p1, do_gtd, gps->inittime, dt2, 0.0f, rad_fac, minmax_weights); - + old_nbp += 2; } else if (add_start_point) { float p[3], next_p[3]; float dt = 0.0f; - + gp_strokepoint_convertcoords(C, gps, gps->points, p, subrect); if (gps->totpoints > 1) { gp_strokepoint_convertcoords(C, gps, gps->points + 1, next_p, subrect); @@ -985,14 +1806,14 @@ static void gp_stroke_to_path(bContext *C, bGPDlayer *gpl, bGPDstroke *gps, Curv * would not work (it would be *before* gtd->inittime, which is not supported currently). */ gp_stroke_to_path_add_point(gtd, bp, p, p, do_gtd, gps->inittime, dt, 0.0f, rad_fac, minmax_weights); - + old_nbp++; } - + if (old_nbp) { prev_bp = &nu->bp[old_nbp - 1]; } - + /* add points */ for (i = (stitch) ? 1 : 0, pt = &gps->points[(stitch) ? 1 : 0], bp = &nu->bp[old_nbp]; i < gps->totpoints; @@ -1000,20 +1821,20 @@ static void gp_stroke_to_path(bContext *C, bGPDlayer *gpl, bGPDstroke *gps, Curv { float p[3]; float width = pt->pressure * gpl->thickness * WIDTH_CORR_FAC; - + /* get coordinates to add at */ gp_strokepoint_convertcoords(C, gps, pt, p, subrect); - + gp_stroke_to_path_add_point(gtd, bp, p, (prev_bp) ? prev_bp->vec : p, do_gtd, gps->inittime, pt->time, width, rad_fac, minmax_weights); - + prev_bp = bp; } if (add_end_point) { float p[3]; float dt = 0.0f; - + if (gps->totpoints > 1) { interp_v3_v3v3(p, prev_bp->vec, (prev_bp - 1)->vec, -GAP_DFAC); if (do_gtd) { @@ -1029,7 +1850,7 @@ static void gp_stroke_to_path(bContext *C, bGPDlayer *gpl, bGPDstroke *gps, Curv /* Note bp has already been incremented in main loop above, so it points to the right place. */ gp_stroke_to_path_add_point(gtd, bp, p, prev_bp->vec, do_gtd, gps->inittime, dt, 0.0f, rad_fac, minmax_weights); } - + /* add nurb to curve */ if (!curnu || !*curnu) { BLI_addtail(&cu->nurb, nu); @@ -1037,7 +1858,7 @@ static void gp_stroke_to_path(bContext *C, bGPDlayer *gpl, bGPDstroke *gps, Curv if (curnu) { *curnu = nu; } - + BKE_nurb_knot_calc_u(nu); } @@ -1052,7 +1873,7 @@ static void gp_stroke_to_bezier_add_point(tGpTimingData *gtd, BezTriple *bezt, copy_v3_v3(bezt->vec[0], h1); copy_v3_v3(bezt->vec[1], p); copy_v3_v3(bezt->vec[2], h2); - + /* set settings */ bezt->h1 = bezt->h2 = HD_FREE; bezt->f1 = bezt->f2 = bezt->f3 = SELECT; @@ -1065,7 +1886,7 @@ static void gp_stroke_to_bezier_add_point(tGpTimingData *gtd, BezTriple *bezt, else if (bezt->weight > minmax_weights[1]) { minmax_weights[1] = bezt->weight; } - + /* Update timing data */ if (do_gtd) { gp_timing_data_add_point(gtd, inittime, time, len_v3v3(prev_p, p)); @@ -1073,8 +1894,8 @@ static void gp_stroke_to_bezier_add_point(tGpTimingData *gtd, BezTriple *bezt, } static void gp_stroke_to_bezier(bContext *C, bGPDlayer *gpl, bGPDstroke *gps, Curve *cu, rctf *subrect, Nurb **curnu, - float minmax_weights[2], const float rad_fac, bool stitch, const bool add_start_point, - const bool add_end_point, tGpTimingData *gtd) + float minmax_weights[2], const float rad_fac, bool stitch, const bool add_start_point, + const bool add_end_point, tGpTimingData *gtd) { bGPDspoint *pt; Nurb *nu = (curnu) ? *curnu : NULL; @@ -1083,7 +1904,7 @@ static void gp_stroke_to_bezier(bContext *C, bGPDlayer *gpl, bGPDstroke *gps, Cu const int add_start_end_points = (add_start_point ? 1 : 0) + (add_end_point ? 1 : 0); float p3d_cur[3], p3d_prev[3], p3d_next[3], h1[3], h2[3]; const bool do_gtd = (gtd->mode != GP_STROKECONVERT_TIMING_NONE); - + /* create new 'nurb' or extend current one within the curve */ if (nu) { old_nbezt = nu->pntsu; @@ -1095,22 +1916,22 @@ static void gp_stroke_to_bezier(bContext *C, bGPDlayer *gpl, bGPDstroke *gps, Cu } else { nu = (Nurb *)MEM_callocN(sizeof(Nurb), "gpstroke_to_bezier(nurb)"); - + nu->pntsu = gps->totpoints + add_start_end_points; nu->resolu = 12; nu->resolv = 12; nu->type = CU_BEZIER; nu->bezt = (BezTriple *)MEM_callocN(sizeof(BezTriple) * nu->pntsu, "bezts"); - + stitch = false; /* Security! */ } - + if (do_gtd) { gp_timing_data_set_nbr(gtd, nu->pntsu); } - + tot = gps->totpoints; - + /* get initial coordinates */ pt = gps->points; if (tot) { @@ -1122,11 +1943,11 @@ static void gp_stroke_to_bezier(bContext *C, bGPDlayer *gpl, bGPDstroke *gps, Cu gp_strokepoint_convertcoords(C, gps, pt + 2, p3d_next, subrect); } } - + /* If needed, make the link between both strokes with two zero-radius additional points */ if (curnu && old_nbezt) { BLI_assert(gps->prev != NULL); - + /* Update last point's second handle */ if (stitch) { bezt = &nu->bezt[old_nbezt - 1]; @@ -1134,7 +1955,7 @@ static void gp_stroke_to_bezier(bContext *C, bGPDlayer *gpl, bGPDstroke *gps, Cu copy_v3_v3(bezt->vec[2], h2); pt++; } - + /* Create "link points" */ /* About "zero-radius" point interpolations: * - If we have at least two points in current curve (most common case), we linearly extrapolate @@ -1147,14 +1968,14 @@ static void gp_stroke_to_bezier(bContext *C, bGPDlayer *gpl, bGPDstroke *gps, Cu else { float p1[3], p2[3]; float dt1 = 0.0f, dt2 = 0.0f; - + prev_bezt = NULL; if ((old_nbezt > 1) && (gps->prev->totpoints > 1)) { /* Only use last curve segment if previous stroke was not a single-point one! */ prev_bezt = &nu->bezt[old_nbezt - 2]; } bezt = &nu->bezt[old_nbezt - 1]; - + /* First point */ if (prev_bezt) { interp_v3_v3v3(p1, prev_bezt->vec[1], bezt->vec[1], 1.0f + GAP_DFAC); @@ -1169,7 +1990,7 @@ static void gp_stroke_to_bezier(bContext *C, bGPDlayer *gpl, bGPDstroke *gps, Cu dt1 = interpf(gps->inittime - gps->prev->inittime, 0.0f, GAP_DFAC); } } - + /* Second point */ /* Note dt2 is always negative, which marks the gap. */ if (tot > 1) { @@ -1184,25 +2005,25 @@ static void gp_stroke_to_bezier(bContext *C, bGPDlayer *gpl, bGPDstroke *gps, Cu dt2 = interpf(gps->prev->inittime - gps->inittime, 0.0f, GAP_DFAC); } } - + /* Second handle of last point of previous stroke. */ interp_v3_v3v3(h2, bezt->vec[1], p1, BEZT_HANDLE_FAC); copy_v3_v3(bezt->vec[2], h2); - + /* First point */ interp_v3_v3v3(h1, p1, bezt->vec[1], BEZT_HANDLE_FAC); interp_v3_v3v3(h2, p1, p2, BEZT_HANDLE_FAC); bezt++; gp_stroke_to_bezier_add_point(gtd, bezt, p1, h1, h2, (bezt - 1)->vec[1], do_gtd, gps->prev->inittime, dt1, 0.0f, rad_fac, minmax_weights); - + /* Second point */ interp_v3_v3v3(h1, p2, p1, BEZT_HANDLE_FAC); interp_v3_v3v3(h2, p2, p3d_cur, BEZT_HANDLE_FAC); bezt++; gp_stroke_to_bezier_add_point(gtd, bezt, p2, h1, h2, p1, do_gtd, gps->inittime, dt2, 0.0f, rad_fac, minmax_weights); - + old_nbezt += 2; copy_v3_v3(p3d_prev, p2); } @@ -1210,7 +2031,7 @@ static void gp_stroke_to_bezier(bContext *C, bGPDlayer *gpl, bGPDstroke *gps, Cu else if (add_start_point) { float p[3]; float dt = 0.0f; - + if (gps->totpoints > 1) { interp_v3_v3v3(p, p3d_cur, p3d_next, -GAP_DFAC); if (do_gtd) { @@ -1227,51 +2048,51 @@ static void gp_stroke_to_bezier(bContext *C, bGPDlayer *gpl, bGPDstroke *gps, Cu bezt = &nu->bezt[old_nbezt]; gp_stroke_to_bezier_add_point(gtd, bezt, p, h1, h2, p, do_gtd, gps->inittime, dt, 0.0f, rad_fac, minmax_weights); - + old_nbezt++; copy_v3_v3(p3d_prev, p); } - + if (old_nbezt) { prev_bezt = &nu->bezt[old_nbezt - 1]; } - + /* add points */ for (i = stitch ? 1 : 0, bezt = &nu->bezt[old_nbezt]; i < tot; i++, pt++, bezt++) { float width = pt->pressure * gpl->thickness * WIDTH_CORR_FAC; - + if (i || old_nbezt) { interp_v3_v3v3(h1, p3d_cur, p3d_prev, BEZT_HANDLE_FAC); } else { interp_v3_v3v3(h1, p3d_cur, p3d_next, -BEZT_HANDLE_FAC); } - + if (i < tot - 1) { interp_v3_v3v3(h2, p3d_cur, p3d_next, BEZT_HANDLE_FAC); } else { interp_v3_v3v3(h2, p3d_cur, p3d_prev, -BEZT_HANDLE_FAC); } - + gp_stroke_to_bezier_add_point(gtd, bezt, p3d_cur, h1, h2, prev_bezt ? prev_bezt->vec[1] : p3d_cur, do_gtd, gps->inittime, pt->time, width, rad_fac, minmax_weights); - + /* shift coord vects */ copy_v3_v3(p3d_prev, p3d_cur); copy_v3_v3(p3d_cur, p3d_next); - + if (i + 2 < tot) { gp_strokepoint_convertcoords(C, gps, pt + 2, p3d_next, subrect); } - + prev_bezt = bezt; } if (add_end_point) { float p[3]; float dt = 0.0f; - + if (gps->totpoints > 1) { interp_v3_v3v3(p, prev_bezt->vec[1], (prev_bezt - 1)->vec[1], -GAP_DFAC); if (do_gtd) { @@ -1284,11 +2105,11 @@ static void gp_stroke_to_bezier(bContext *C, bGPDlayer *gpl, bGPDstroke *gps, Cu p[0] += GAP_DFAC; /* Rather arbitrary... */ dt = GAP_DFAC; /* Rather arbitrary too! */ } - + /* Second handle of last point of this stroke. */ interp_v3_v3v3(h2, prev_bezt->vec[1], p, BEZT_HANDLE_FAC); copy_v3_v3(prev_bezt->vec[2], h2); - + /* The end point */ interp_v3_v3v3(h1, p, prev_bezt->vec[1], BEZT_HANDLE_FAC); interp_v3_v3v3(h2, p, prev_bezt->vec[1], -BEZT_HANDLE_FAC); @@ -1296,10 +2117,10 @@ static void gp_stroke_to_bezier(bContext *C, bGPDlayer *gpl, bGPDstroke *gps, Cu gp_stroke_to_bezier_add_point(gtd, bezt, p, h1, h2, prev_bezt->vec[1], do_gtd, gps->inittime, dt, 0.0f, rad_fac, minmax_weights); } - + /* must calculate handles or else we crash */ BKE_nurb_handles_calc(nu); - + if (!curnu || !*curnu) { BLI_addtail(&cu->nurb, nu); } @@ -1329,7 +2150,7 @@ static void gp_stroke_finalize_curve_endpoints(Curve *cu) bp[i].weight = bp[i].radius = 0.0f; } } - + /* end */ nu = cu->nurb.last; i = nu->pntsu - 1; @@ -1353,13 +2174,13 @@ static void gp_stroke_norm_curve_weights(Curve *cu, const float minmax_weights[2 const float delta = minmax_weights[0]; float fac; int i; - + /* when delta == minmax_weights[0] == minmax_weights[1], we get div by zero [#35686] */ if (IS_EQF(delta, minmax_weights[1])) fac = 1.0f; else fac = 1.0f / (minmax_weights[1] - delta); - + for (nu = cu->nurb.first; nu; nu = nu->next) { if (nu->bezt) { BezTriple *bezt = nu->bezt; @@ -1380,10 +2201,10 @@ static int gp_camera_view_subrect(bContext *C, rctf *subrect) { View3D *v3d = CTX_wm_view3d(C); ARegion *ar = CTX_wm_region(C); - + if (v3d) { RegionView3D *rv3d = ar->regiondata; - + /* for camera view set the subrect */ if (rv3d->persp == RV3D_CAMOB) { Scene *scene = CTX_data_scene(C); @@ -1391,7 +2212,7 @@ static int gp_camera_view_subrect(bContext *C, rctf *subrect) return 1; } } - + return 0; } @@ -1409,57 +2230,57 @@ static void gp_layer_to_curve(bContext *C, ReportList *reports, bGPdata *gpd, bG Nurb *nu = NULL; Base *base_orig = BASACT, *base_new = NULL; float minmax_weights[2] = {1.0f, 0.0f}; - + /* camera framing */ rctf subrect, *subrect_ptr = NULL; - + /* error checking */ if (ELEM(NULL, gpd, gpl, gpf)) return; - + /* only convert if there are any strokes on this layer's frame to convert */ if (BLI_listbase_is_empty(&gpf->strokes)) return; - + /* initialize camera framing */ if (gp_camera_view_subrect(C, &subrect)) { subrect_ptr = &subrect; } - + /* init the curve object (remove rotation and get curve data from it) * - must clear transforms set on object, as those skew our results */ ob = BKE_object_add_only_object(bmain, OB_CURVE, gpl->info); cu = ob->data = BKE_curve_add(bmain, gpl->info, OB_CURVE); base_new = BKE_scene_base_add(scene, ob); - + cu->flag |= CU_3D; - + gtd->inittime = ((bGPDstroke *)gpf->strokes.first)->inittime; - + /* add points to curve */ for (gps = gpf->strokes.first; gps; gps = gps->next) { const bool add_start_point = (link_strokes && !(prev_gps)); const bool add_end_point = (link_strokes && !(gps->next)); - + /* Detect new strokes created because of GP_STROKE_BUFFER_MAX reached, and stitch them to previous one. */ bool stitch = false; if (prev_gps) { bGPDspoint *pt1 = &prev_gps->points[prev_gps->totpoints - 1]; bGPDspoint *pt2 = &gps->points[0]; - + if ((pt1->x == pt2->x) && (pt1->y == pt2->y)) { stitch = true; } } - + /* Decide whether we connect this stroke to previous one */ if (!(stitch || link_strokes)) { nu = NULL; } - + switch (mode) { - case GP_STROKECONVERT_PATH: + case GP_STROKECONVERT_PATH: gp_stroke_to_path(C, gpl, gps, cu, subrect_ptr, &nu, minmax_weights, rad_fac, stitch, add_start_point, add_end_point, gtd); break; @@ -1474,26 +2295,26 @@ static void gp_layer_to_curve(bContext *C, ReportList *reports, bGPdata *gpd, bG } prev_gps = gps; } - + /* If link_strokes, be sure first and last points have a zero weight/size! */ if (link_strokes) { gp_stroke_finalize_curve_endpoints(cu); } - + /* Update curve's weights, if needed */ if (norm_weights && ((minmax_weights[0] > 0.0f) || (minmax_weights[1] < 1.0f))) { gp_stroke_norm_curve_weights(cu, minmax_weights); } - + /* Create the path animation, if needed */ gp_stroke_path_animation(C, reports, cu, gtd); - + if (mode == GP_STROKECONVERT_POLY) { for (nu = cu->nurb.first; nu; nu = nu->next) { BKE_nurb_type_convert(nu, CU_POLY, false); } } - + /* set the layer and select */ base_new->lay = ob->lay = base_orig ? base_orig->lay : BKE_screen_view3d_layer_active(v3d, scene); base_new->flag = ob->flag = base_new->flag | SELECT; @@ -1513,17 +2334,17 @@ static bool gp_convert_check_has_valid_timing(bContext *C, bGPDlayer *gpl, wmOpe double base_time, cur_time, prev_time = -1.0; int i; bool valid = true; - + if (!gpl || !(gpf = gpencil_layer_getframe(gpl, CFRA, 0)) || !(gps = gpf->strokes.first)) return false; - + do { base_time = cur_time = gps->inittime; if (cur_time <= prev_time) { valid = false; break; } - + prev_time = cur_time; for (i = 0, pt = gps->points; i < gps->totpoints; i++, pt++) { cur_time = base_time + (double)pt->time; @@ -1536,12 +2357,12 @@ static bool gp_convert_check_has_valid_timing(bContext *C, bGPDlayer *gpl, wmOpe } prev_time = cur_time; } - + if (!valid) { break; } } while ((gps = gps->next)); - + if (op) { RNA_boolean_set(op->ptr, "use_timing_data", valid); } @@ -1553,7 +2374,7 @@ static void gp_convert_set_end_frame(struct Main *UNUSED(main), struct Scene *UN { int start_frame = RNA_int_get(ptr, "start_frame"); int end_frame = RNA_int_get(ptr, "end_frame"); - + if (end_frame <= start_frame) { RNA_int_set(ptr, "end_frame", start_frame + 1); } @@ -1566,7 +2387,7 @@ static int gp_convert_poll(bContext *C) bGPDframe *gpf = NULL; ScrArea *sa = CTX_wm_area(C); Scene *scene = CTX_data_scene(C); - + /* only if the current view is 3D View, if there's valid data (i.e. at least one stroke!), * and if we are not in edit mode! */ @@ -1589,19 +2410,19 @@ static int gp_convert_layer_exec(bContext *C, wmOperator *op) const bool link_strokes = RNA_boolean_get(op->ptr, "use_link_strokes"); bool valid_timing; tGpTimingData gtd; - + /* check if there's data to work with */ if (gpd == NULL) { BKE_report(op->reports, RPT_ERROR, "No Grease Pencil data to work on"); return OPERATOR_CANCELLED; } - + if (!RNA_property_is_set(op->ptr, prop) && !gp_convert_check_has_valid_timing(C, gpl, op)) { BKE_report(op->reports, RPT_WARNING, "Current Grease Pencil strokes have no valid timing data, most timing options will be hidden!"); } valid_timing = RNA_property_boolean_get(op->ptr, prop); - + gtd.mode = RNA_enum_get(op->ptr, "timing_mode"); /* Check for illegal timing mode! */ if (!valid_timing && !ELEM(gtd.mode, GP_STROKECONVERT_TIMING_NONE, GP_STROKECONVERT_TIMING_LINEAR)) { @@ -1611,7 +2432,7 @@ static int gp_convert_layer_exec(bContext *C, wmOperator *op) if (!link_strokes) { gtd.mode = GP_STROKECONVERT_TIMING_NONE; } - + /* grab all relevant settings */ gtd.frame_range = RNA_int_get(op->ptr, "frame_range"); gtd.start_frame = RNA_int_get(op->ptr, "start_frame"); @@ -1626,10 +2447,10 @@ static int gp_convert_layer_exec(bContext *C, wmOperator *op) gtd.tot_dist = gtd.tot_time = gtd.gap_tot_time = 0.0f; gtd.inittime = 0.0; gtd.offset_time = 0.0f; - + /* perform conversion */ gp_layer_to_curve(C, op->reports, gpd, gpl, mode, norm_weights, rad_fac, link_strokes, >d); - + /* free temp memory */ if (gtd.dists) { MEM_freeN(gtd.dists); @@ -1639,11 +2460,11 @@ static int gp_convert_layer_exec(bContext *C, wmOperator *op) MEM_freeN(gtd.times); gtd.times = NULL; } - + /* notifiers */ WM_event_add_notifier(C, NC_OBJECT | NA_ADDED, NULL); WM_event_add_notifier(C, NC_SCENE | ND_OB_ACTIVE, scene); - + /* done */ return OPERATOR_FINISHED; } @@ -1657,7 +2478,7 @@ static bool gp_convert_draw_check_prop(PointerRNA *ptr, PropertyRNA *prop) float gap_duration = RNA_float_get(ptr, "gap_duration"); float gap_randomness = RNA_float_get(ptr, "gap_randomness"); const bool valid_timing = RNA_boolean_get(ptr, "use_timing_data"); - + /* Always show those props */ if (strcmp(prop_id, "type") == 0 || strcmp(prop_id, "use_normalize_weights") == 0 || @@ -1666,16 +2487,16 @@ static bool gp_convert_draw_check_prop(PointerRNA *ptr, PropertyRNA *prop) { return true; } - + /* Never show this prop */ if (strcmp(prop_id, "use_timing_data") == 0) return false; - + if (link_strokes) { /* Only show when link_stroke is true */ if (strcmp(prop_id, "timing_mode") == 0) return true; - + if (timing_mode != GP_STROKECONVERT_TIMING_NONE) { /* Only show when link_stroke is true and stroke timing is enabled */ if (strcmp(prop_id, "frame_range") == 0 || @@ -1683,31 +2504,31 @@ static bool gp_convert_draw_check_prop(PointerRNA *ptr, PropertyRNA *prop) { return true; } - + /* Only show if we have valid timing data! */ if (valid_timing && strcmp(prop_id, "use_realtime") == 0) return true; - + /* Only show if realtime or valid_timing is false! */ if ((!realtime || !valid_timing) && strcmp(prop_id, "end_frame") == 0) return true; - + if (valid_timing && timing_mode == GP_STROKECONVERT_TIMING_CUSTOMGAP) { /* Only show for custom gaps! */ if (strcmp(prop_id, "gap_duration") == 0) return true; - + /* Only show randomness for non-null custom gaps! */ if (strcmp(prop_id, "gap_randomness") == 0 && (gap_duration > 0.0f)) return true; - + /* Only show seed for randomize action! */ if (strcmp(prop_id, "seed") == 0 && (gap_duration > 0.0f) && (gap_randomness > 0.0f)) return true; } } } - + /* Else, hidden! */ return false; } @@ -1717,9 +2538,9 @@ static void gp_convert_ui(bContext *C, wmOperator *op) uiLayout *layout = op->layout; wmWindowManager *wm = CTX_wm_manager(C); PointerRNA ptr; - + RNA_pointer_create(&wm->id, op->type->srna, op->properties, &ptr); - + /* Main auto-draw call */ uiDefAutoButsRNA(layout, &ptr, gp_convert_draw_check_prop, '\0'); } @@ -1727,35 +2548,35 @@ static void gp_convert_ui(bContext *C, wmOperator *op) void GPENCIL_OT_convert(wmOperatorType *ot) { PropertyRNA *prop; - + /* identifiers */ ot->name = "Convert Grease Pencil"; ot->idname = "GPENCIL_OT_convert"; ot->description = "Convert the active Grease Pencil layer to a new Curve Object"; - + /* callbacks */ ot->invoke = WM_menu_invoke; ot->exec = gp_convert_layer_exec; ot->poll = gp_convert_poll; ot->ui = gp_convert_ui; - + /* flags */ ot->flag = OPTYPE_REGISTER | OPTYPE_UNDO; - + /* properties */ ot->prop = RNA_def_enum(ot->srna, "type", prop_gpencil_convertmodes, 0, "Type", "Which type of curve to convert to"); - + RNA_def_boolean(ot->srna, "use_normalize_weights", true, "Normalize Weight", "Normalize weight (set from stroke width)"); RNA_def_float(ot->srna, "radius_multiplier", 1.0f, 0.0f, 1000.0f, "Radius Fac", "Multiplier for the points' radii (set from stroke width)", 0.0f, 10.0f); RNA_def_boolean(ot->srna, "use_link_strokes", true, "Link Strokes", "Whether to link strokes with zero-radius sections of curves"); - + prop = RNA_def_enum(ot->srna, "timing_mode", prop_gpencil_convert_timingmodes, GP_STROKECONVERT_TIMING_FULL, "Timing Mode", "How to use timing data stored in strokes"); RNA_def_enum_funcs(prop, rna_GPConvert_mode_items); - + RNA_def_int(ot->srna, "frame_range", 100, 1, 10000, "Frame Range", "The duration of evaluation of the path control curve", 1, 1000); RNA_def_int(ot->srna, "start_frame", 1, 1, 100000, "Start Frame", @@ -1765,7 +2586,7 @@ void GPENCIL_OT_convert(wmOperatorType *ot) prop = RNA_def_int(ot->srna, "end_frame", 250, 1, 100000, "End Frame", "The end frame of the path control curve (if Realtime is not set)", 1, 100000); RNA_def_property_update_runtime(prop, gp_convert_set_end_frame); - + RNA_def_float(ot->srna, "gap_duration", 0.0f, 0.0f, 10000.0f, "Gap Duration", "Custom Gap mode: (Average) length of gaps, in frames " "(Note: Realtime value, will be scaled if Realtime is not set)", 0.0f, 1000.0f); @@ -1773,7 +2594,7 @@ void GPENCIL_OT_convert(wmOperatorType *ot) "Custom Gap mode: Number of frames that gap lengths can vary", 0.0f, 1000.0f); RNA_def_int(ot->srna, "seed", 0, 0, 1000, "Random Seed", "Custom Gap mode: Random generator seed", 0, 100); - + /* Note: Internal use, this one will always be hidden by UI code... */ prop = RNA_def_boolean(ot->srna, "use_timing_data", false, "Has Valid Timing", "Whether the converted Grease Pencil layer has valid timing data (internal use)"); |