/* * ***** BEGIN GPL LICENSE BLOCK ***** * * This program is free software; you can redistribute it and/or * modify it under the terms of the GNU General Public License * as published by the Free Software Foundation; either version 2 * of the License, or (at your option) any later version. * * This program is distributed in the hope that it will be useful, * but WITHOUT ANY WARRANTY; without even the implied warranty of * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the * GNU General Public License for more details. * * You should have received a copy of the GNU General Public License * along with this program; if not, write to the Free Software Foundation, * Inc., 51 Franklin Street, Fifth Floor, Boston, MA 02110-1301, USA. * * The Original Code is Copyright (C) 2009, Blender Foundation, Joshua Leung * This is a new part of Blender * * Contributor(s): Joshua Leung * * ***** END GPL LICENSE BLOCK ***** */ /** \file blender/editors/armature/pose_slide.c * \ingroup edarmature */ #include "MEM_guardedalloc.h" #include "BLI_math.h" #include "BLI_blenlib.h" #include "BLI_dlrbTree.h" #include "DNA_anim_types.h" #include "DNA_armature_types.h" #include "DNA_object_types.h" #include "DNA_scene_types.h" #include "BKE_fcurve.h" #include "BKE_context.h" #include "BKE_object.h" #include "BKE_report.h" #include "RNA_access.h" #include "RNA_define.h" #include "WM_api.h" #include "WM_types.h" #include "ED_armature.h" #include "ED_keyframes_draw.h" #include "ED_markers.h" #include "ED_screen.h" #include "armature_intern.h" /* **************************************************** */ /* == POSE 'SLIDING' TOOLS == * * A) Push & Relax, Breakdowner * These tools provide the animator with various capabilities * for interactively controlling the spacing of poses, but also * for 'pushing' and/or 'relaxing' extremes as they see fit. * * B) Propagate * This tool copies elements of the selected pose to successive * keyframes, allowing the animator to go back and modify the poses * for some "static" pose controls, without having to repeatedly * doing a "next paste" dance. * * C) Pose Sculpting * This is yet to be implemented, but the idea here is to use * sculpting techniques to make it easier to pose rigs by allowing * rigs to be manipulated using a familiar paint-based interface. */ /* **************************************************** */ /* A) Push & Relax, Breakdowner */ /* Temporary data shared between these operators */ typedef struct tPoseSlideOp { Scene *scene; /* current scene */ ScrArea *sa; /* area that we're operating in (needed for modal()) */ ARegion *ar; /* region that we're operating in (needed for modal()) */ Object *ob; /* active object that Pose Info comes from */ bArmature *arm; /* armature for pose */ ListBase pfLinks; /* links between posechannels and f-curves */ DLRBT_Tree keys; /* binary tree for quicker searching for keyframes (when applicable) */ int cframe; /* current frame number */ int prevFrame; /* frame before current frame (blend-from) */ int nextFrame; /* frame after current frame (blend-to) */ int mode; /* sliding mode (ePoseSlide_Modes) */ int flag; /* unused for now, but can later get used for storing runtime settings.... */ float percentage; /* 0-1 value for determining the influence of whatever is relevant */ } tPoseSlideOp; /* Pose Sliding Modes */ typedef enum ePoseSlide_Modes { POSESLIDE_PUSH = 0, /* exaggerate the pose... */ POSESLIDE_RELAX, /* soften the pose... */ POSESLIDE_BREAKDOWN, /* slide between the endpoint poses, finding a 'soft' spot */ } ePoseSlide_Modes; /* ------------------------------------ */ /* operator init */ static int pose_slide_init(bContext *C, wmOperator *op, short mode) { tPoseSlideOp *pso; bAction *act = NULL; /* init slide-op data */ pso = op->customdata = MEM_callocN(sizeof(tPoseSlideOp), "tPoseSlideOp"); /* get info from context */ pso->scene = CTX_data_scene(C); pso->ob = BKE_object_pose_armature_get(CTX_data_active_object(C)); pso->arm = (pso->ob) ? pso->ob->data : NULL; pso->sa = CTX_wm_area(C); /* only really needed when doing modal() */ pso->ar = CTX_wm_region(C); /* only really needed when doing modal() */ pso->cframe = pso->scene->r.cfra; pso->mode = mode; /* set range info from property values - these may get overridden for the invoke() */ pso->percentage = RNA_float_get(op->ptr, "percentage"); pso->prevFrame = RNA_int_get(op->ptr, "prev_frame"); pso->nextFrame = RNA_int_get(op->ptr, "next_frame"); /* check the settings from the context */ if (ELEM(NULL, pso->ob, pso->arm, pso->ob->adt, pso->ob->adt->action)) return 0; else act = pso->ob->adt->action; /* for each Pose-Channel which gets affected, get the F-Curves for that channel * and set the relevant transform flags... */ poseAnim_mapping_get(C, &pso->pfLinks, pso->ob, act); /* set depsgraph flags */ /* make sure the lock is set OK, unlock can be accidentally saved? */ pso->ob->pose->flag |= POSE_LOCKED; pso->ob->pose->flag &= ~POSE_DO_UNLOCK; /* do basic initialize of RB-BST used for finding keyframes, but leave the filling of it up * to the caller of this (usually only invoke() will do it, to make things more efficient). */ BLI_dlrbTree_init(&pso->keys); /* return status is whether we've got all the data we were requested to get */ return 1; } /* exiting the operator - free data */ static void pose_slide_exit(wmOperator *op) { tPoseSlideOp *pso = op->customdata; /* if data exists, clear its data and exit */ if (pso) { /* free the temp pchan links and their data */ poseAnim_mapping_free(&pso->pfLinks); /* free RB-BST for keyframes (if it contained data) */ BLI_dlrbTree_free(&pso->keys); /* free data itself */ MEM_freeN(pso); } /* cleanup */ op->customdata = NULL; } /* ------------------------------------ */ /* helper for apply() / reset() - refresh the data */ static void pose_slide_refresh(bContext *C, tPoseSlideOp *pso) { /* wrapper around the generic version, allowing us to add some custom stuff later still */ poseAnim_mapping_refresh(C, pso->scene, pso->ob); } /* helper for apply() - perform sliding for some value */ static void pose_slide_apply_val(tPoseSlideOp *pso, FCurve *fcu, float *val) { float cframe = (float)pso->cframe; float sVal, eVal; float w1, w2; /* get keyframe values for endpoint poses to blend with */ /* previous/start */ sVal = evaluate_fcurve(fcu, (float)pso->prevFrame); /* next/end */ eVal = evaluate_fcurve(fcu, (float)pso->nextFrame); /* calculate the relative weights of the endpoints */ if (pso->mode == POSESLIDE_BREAKDOWN) { /* get weights from the percentage control */ w1 = pso->percentage; /* this must come second */ w2 = 1.0f - w1; /* this must come first */ } else { /* - these weights are derived from the relative distance of these * poses from the current frame * - they then get normalized so that they only sum up to 1 */ float wtot; w1 = cframe - (float)pso->prevFrame; w2 = (float)pso->nextFrame - cframe; wtot = w1 + w2; w1 = (w1 / wtot); w2 = (w2 / wtot); } /* depending on the mode, calculate the new value * - in all of these, the start+end values are multiplied by w2 and w1 (respectively), * since multiplication in another order would decrease the value the current frame is closer to */ switch (pso->mode) { case POSESLIDE_PUSH: /* make the current pose more pronounced */ { /* perform a weighted average here, favoring the middle pose * - numerator should be larger than denominator to 'expand' the result * - perform this weighting a number of times given by the percentage... */ int iters = (int)ceil(10.0f * pso->percentage); /* TODO: maybe a sensitivity ctrl on top of this is needed */ while (iters-- > 0) { (*val) = (-((sVal * w2) + (eVal * w1)) + ((*val) * 6.0f) ) / 5.0f; } break; } case POSESLIDE_RELAX: /* make the current pose more like its surrounding ones */ { /* perform a weighted average here, favoring the middle pose * - numerator should be smaller than denominator to 'relax' the result * - perform this weighting a number of times given by the percentage... */ int iters = (int)ceil(10.0f * pso->percentage); /* TODO: maybe a sensitivity ctrl on top of this is needed */ while (iters-- > 0) { (*val) = ( ((sVal * w2) + (eVal * w1)) + ((*val) * 5.0f) ) / 6.0f; } break; } case POSESLIDE_BREAKDOWN: /* make the current pose slide around between the endpoints */ { /* perform simple linear interpolation - coefficient for start must come from pso->percentage... */ /* TODO: make this use some kind of spline interpolation instead? */ (*val) = ((sVal * w2) + (eVal * w1)); break; } } } /* helper for apply() - perform sliding for some 3-element vector */ static void pose_slide_apply_vec3(tPoseSlideOp *pso, tPChanFCurveLink *pfl, float vec[3], const char propName[]) { LinkData *ld = NULL; char *path = NULL; /* get the path to use... */ path = BLI_sprintfN("%s.%s", pfl->pchan_path, propName); /* using this path, find each matching F-Curve for the variables we're interested in */ while ( (ld = poseAnim_mapping_getNextFCurve(&pfl->fcurves, ld, path)) ) { FCurve *fcu = (FCurve *)ld->data; /* just work on these channels one by one... there's no interaction between values */ BLI_assert(fcu->array_index < 3); pose_slide_apply_val(pso, fcu, &vec[fcu->array_index]); } /* free the temp path we got */ MEM_freeN(path); } /* helper for apply() - perform sliding for custom properties */ static void pose_slide_apply_props(tPoseSlideOp *pso, tPChanFCurveLink *pfl) { PointerRNA ptr = {{NULL}}; LinkData *ld; int len = strlen(pfl->pchan_path); /* setup pointer RNA for resolving paths */ RNA_pointer_create(NULL, &RNA_PoseBone, pfl->pchan, &ptr); /* custom properties are just denoted using ["..."][etc.] after the end of the base path, * so just check for opening pair after the end of the path */ for (ld = pfl->fcurves.first; ld; ld = ld->next) { FCurve *fcu = (FCurve *)ld->data; const char *bPtr, *pPtr; if (fcu->rna_path == NULL) continue; /* do we have a match? * - bPtr is the RNA Path with the standard part chopped off * - pPtr is the chunk of the path which is left over */ bPtr = strstr(fcu->rna_path, pfl->pchan_path) + len; pPtr = strstr(bPtr, "[\""); /* dummy " for texteditor bugs */ if (pPtr) { /* use RNA to try and get a handle on this property, then, assuming that it is just * numerical, try and grab the value as a float for temp editing before setting back */ PropertyRNA *prop = RNA_struct_find_property(&ptr, pPtr); if (prop) { switch (RNA_property_type(prop)) { case PROP_FLOAT: { float tval = RNA_property_float_get(&ptr, prop); pose_slide_apply_val(pso, fcu, &tval); RNA_property_float_set(&ptr, prop, tval); break; } case PROP_BOOLEAN: case PROP_ENUM: case PROP_INT: { float tval = (float)RNA_property_int_get(&ptr, prop); pose_slide_apply_val(pso, fcu, &tval); RNA_property_int_set(&ptr, prop, (int)tval); break; } default: /* cannot handle */ //printf("Cannot Pose Slide non-numerical property\n"); break; } } } } } /* helper for apply() - perform sliding for quaternion rotations (using quat blending) */ static void pose_slide_apply_quat(tPoseSlideOp *pso, tPChanFCurveLink *pfl) { FCurve *fcu_w = NULL, *fcu_x = NULL, *fcu_y = NULL, *fcu_z = NULL; bPoseChannel *pchan = pfl->pchan; LinkData *ld = NULL; char *path = NULL; float cframe; /* get the path to use - this should be quaternion rotations only (needs care) */ path = BLI_sprintfN("%s.%s", pfl->pchan_path, "rotation_quaternion"); /* get the current frame number */ cframe = (float)pso->cframe; /* using this path, find each matching F-Curve for the variables we're interested in */ while ( (ld = poseAnim_mapping_getNextFCurve(&pfl->fcurves, ld, path)) ) { FCurve *fcu = (FCurve *)ld->data; /* assign this F-Curve to one of the relevant pointers... */ switch (fcu->array_index) { case 3: /* z */ fcu_z = fcu; break; case 2: /* y */ fcu_y = fcu; break; case 1: /* x */ fcu_x = fcu; break; case 0: /* w */ fcu_w = fcu; break; } } /* only if all channels exist, proceed */ if (fcu_w && fcu_x && fcu_y && fcu_z) { float quat_prev[4], quat_next[4]; /* get 2 quats */ quat_prev[0] = evaluate_fcurve(fcu_w, pso->prevFrame); quat_prev[1] = evaluate_fcurve(fcu_x, pso->prevFrame); quat_prev[2] = evaluate_fcurve(fcu_y, pso->prevFrame); quat_prev[3] = evaluate_fcurve(fcu_z, pso->prevFrame); quat_next[0] = evaluate_fcurve(fcu_w, pso->nextFrame); quat_next[1] = evaluate_fcurve(fcu_x, pso->nextFrame); quat_next[2] = evaluate_fcurve(fcu_y, pso->nextFrame); quat_next[3] = evaluate_fcurve(fcu_z, pso->nextFrame); /* perform blending */ if (pso->mode == POSESLIDE_BREAKDOWN) { /* just perform the interpol between quat_prev and quat_next using pso->percentage as a guide */ interp_qt_qtqt(pchan->quat, quat_prev, quat_next, pso->percentage); } else if (pso->mode == POSESLIDE_PUSH) { float quat_diff[4], quat_orig[4]; /* calculate the delta transform from the previous to the current */ /* TODO: investigate ways to favour one transform more? */ sub_qt_qtqt(quat_diff, pchan->quat, quat_prev); /* make a copy of the original rotation */ copy_qt_qt(quat_orig, pchan->quat); /* increase the original by the delta transform, by an amount determined by percentage */ add_qt_qtqt(pchan->quat, quat_orig, quat_diff, pso->percentage); } else { float quat_interp[4], quat_orig[4]; int iters = (int)ceil(10.0f * pso->percentage); /* TODO: maybe a sensitivity ctrl on top of this is needed */ /* perform this blending several times until a satisfactory result is reached */ while (iters-- > 0) { /* calculate the interpolation between the endpoints */ interp_qt_qtqt(quat_interp, quat_prev, quat_next, (cframe - pso->prevFrame) / (pso->nextFrame - pso->prevFrame)); /* make a copy of the original rotation */ copy_qt_qt(quat_orig, pchan->quat); /* tricky interpolations - blending between original and new */ interp_qt_qtqt(pchan->quat, quat_orig, quat_interp, 1.0f / 6.0f); } } } /* free the path now */ MEM_freeN(path); } /* apply() - perform the pose sliding based on weighting various poses */ static void pose_slide_apply(bContext *C, tPoseSlideOp *pso) { tPChanFCurveLink *pfl; /* sanitise the frame ranges */ if (pso->prevFrame == pso->nextFrame) { /* move out one step either side */ pso->prevFrame--; pso->nextFrame++; } /* for each link, handle each set of transforms */ for (pfl = pso->pfLinks.first; pfl; pfl = pfl->next) { /* valid transforms for each PoseChannel should have been noted already * - sliding the pose should be a straightforward exercise for location+rotation, * but rotations get more complicated since we may want to use quaternion blending * for quaternions instead... */ bPoseChannel *pchan = pfl->pchan; if (pchan->flag & POSE_LOC) { /* calculate these for the 'location' vector, and use location curves */ pose_slide_apply_vec3(pso, pfl, pchan->loc, "location"); } if (pchan->flag & POSE_SIZE) { /* calculate these for the 'scale' vector, and use scale curves */ pose_slide_apply_vec3(pso, pfl, pchan->size, "scale"); } if (pchan->flag & POSE_ROT) { /* everything depends on the rotation mode */ if (pchan->rotmode > 0) { /* eulers - so calculate these for the 'eul' vector, and use euler_rotation curves */ pose_slide_apply_vec3(pso, pfl, pchan->eul, "rotation_euler"); } else if (pchan->rotmode == ROT_MODE_AXISANGLE) { /* TODO: need to figure out how to do this! */ } else { /* quaternions - use quaternion blending */ pose_slide_apply_quat(pso, pfl); } } if (pfl->oldprops) { /* not strictly a transform, but contributes to the pose produced in many rigs */ pose_slide_apply_props(pso, pfl); } } /* depsgraph updates + redraws */ pose_slide_refresh(C, pso); } /* perform autokeyframing after changes were made + confirmed */ static void pose_slide_autoKeyframe(bContext *C, tPoseSlideOp *pso) { /* wrapper around the generic call */ poseAnim_mapping_autoKeyframe(C, pso->scene, pso->ob, &pso->pfLinks, (float)pso->cframe); } /* reset changes made to current pose */ static void pose_slide_reset(tPoseSlideOp *pso) { /* wrapper around the generic call, so that custom stuff can be added later */ poseAnim_mapping_reset(&pso->pfLinks); } /* ------------------------------------ */ /* draw percentage indicator in header */ static void pose_slide_draw_status(tPoseSlideOp *pso) { char status_str[32]; char mode_str[32]; switch (pso->mode) { case POSESLIDE_PUSH: strcpy(mode_str, "Push Pose"); break; case POSESLIDE_RELAX: strcpy(mode_str, "Relax Pose"); break; case POSESLIDE_BREAKDOWN: strcpy(mode_str, "Breakdown"); break; default: /* unknown */ strcpy(mode_str, "Sliding-Tool"); break; } BLI_snprintf(status_str, sizeof(status_str), "%s: %d %%", mode_str, (int)(pso->percentage * 100.0f)); ED_area_headerprint(pso->sa, status_str); } /* common code for invoke() methods */ static int pose_slide_invoke_common(bContext *C, wmOperator *op, tPoseSlideOp *pso) { tPChanFCurveLink *pfl; AnimData *adt = pso->ob->adt; wmWindow *win = CTX_wm_window(C); /* for each link, add all its keyframes to the search tree */ for (pfl = pso->pfLinks.first; pfl; pfl = pfl->next) { LinkData *ld; /* do this for each F-Curve */ for (ld = pfl->fcurves.first; ld; ld = ld->next) { FCurve *fcu = (FCurve *)ld->data; fcurve_to_keylist(adt, fcu, &pso->keys, NULL); } } /* consolidate these keyframes, and figure out the nearest ones */ BLI_dlrbTree_linkedlist_sync(&pso->keys); /* cancel if no keyframes found... */ if (pso->keys.root) { ActKeyColumn *ak; float cframe = (float)pso->cframe; /* firstly, check if the current frame is a keyframe... */ ak = (ActKeyColumn *)BLI_dlrbTree_search_exact(&pso->keys, compare_ak_cfraPtr, &cframe); if (ak == NULL) { /* current frame is not a keyframe, so search */ ActKeyColumn *pk = (ActKeyColumn *)BLI_dlrbTree_search_prev(&pso->keys, compare_ak_cfraPtr, &cframe); ActKeyColumn *nk = (ActKeyColumn *)BLI_dlrbTree_search_next(&pso->keys, compare_ak_cfraPtr, &cframe); /* new set the frames */ /* prev frame */ pso->prevFrame = (pk) ? (pk->cfra) : (pso->cframe - 1); RNA_int_set(op->ptr, "prev_frame", pso->prevFrame); /* next frame */ pso->nextFrame = (nk) ? (nk->cfra) : (pso->cframe + 1); RNA_int_set(op->ptr, "next_frame", pso->nextFrame); } else { /* current frame itself is a keyframe, so just take keyframes on either side */ /* prev frame */ pso->prevFrame = (ak->prev) ? (ak->prev->cfra) : (pso->cframe - 1); RNA_int_set(op->ptr, "prev_frame", pso->prevFrame); /* next frame */ pso->nextFrame = (ak->next) ? (ak->next->cfra) : (pso->cframe + 1); RNA_int_set(op->ptr, "next_frame", pso->nextFrame); } } else { BKE_report(op->reports, RPT_ERROR, "No keyframes to slide between"); pose_slide_exit(op); return OPERATOR_CANCELLED; } /* initial apply for operator... */ /* TODO: need to calculate percentage for initial round too... */ pose_slide_apply(C, pso); /* depsgraph updates + redraws */ pose_slide_refresh(C, pso); /* set cursor to indicate modal */ WM_cursor_modal_set(win, BC_EW_SCROLLCURSOR); /* header print */ pose_slide_draw_status(pso); /* add a modal handler for this operator */ WM_event_add_modal_handler(C, op); return OPERATOR_RUNNING_MODAL; } /* common code for modal() */ static int pose_slide_modal(bContext *C, wmOperator *op, const wmEvent *event) { tPoseSlideOp *pso = op->customdata; wmWindow *win = CTX_wm_window(C); switch (event->type) { case LEFTMOUSE: /* confirm */ case RETKEY: { /* return to normal cursor and header status */ ED_area_headerprint(pso->sa, NULL); WM_cursor_modal_restore(win); /* insert keyframes as required... */ pose_slide_autoKeyframe(C, pso); pose_slide_exit(op); /* done! */ return OPERATOR_FINISHED; } case ESCKEY: /* cancel */ case RIGHTMOUSE: { /* return to normal cursor and header status */ ED_area_headerprint(pso->sa, NULL); WM_cursor_modal_restore(win); /* reset transforms back to original state */ pose_slide_reset(pso); /* depsgraph updates + redraws */ pose_slide_refresh(C, pso); /* clean up temp data */ pose_slide_exit(op); /* canceled! */ return OPERATOR_CANCELLED; } case MOUSEMOVE: /* calculate new position */ { /* calculate percentage based on position of mouse (we only use x-axis for now. * since this is more convenient for users to do), and store new percentage value */ pso->percentage = (event->x - pso->ar->winrct.xmin) / ((float)pso->ar->winx); RNA_float_set(op->ptr, "percentage", pso->percentage); /* update percentage indicator in header */ pose_slide_draw_status(pso); /* reset transforms (to avoid accumulation errors) */ pose_slide_reset(pso); /* apply... */ pose_slide_apply(C, pso); break; } default: /* unhandled event (maybe it was some view manip? */ /* allow to pass through */ return OPERATOR_RUNNING_MODAL | OPERATOR_PASS_THROUGH; } /* still running... */ return OPERATOR_RUNNING_MODAL; } /* common code for cancel() */ static void pose_slide_cancel(bContext *UNUSED(C), wmOperator *op) { /* cleanup and done */ pose_slide_exit(op); } /* common code for exec() methods */ static int pose_slide_exec_common(bContext *C, wmOperator *op, tPoseSlideOp *pso) { /* settings should have been set up ok for applying, so just apply! */ pose_slide_apply(C, pso); /* insert keyframes if needed */ pose_slide_autoKeyframe(C, pso); /* cleanup and done */ pose_slide_exit(op); return OPERATOR_FINISHED; } /* common code for defining RNA properties */ static void pose_slide_opdef_properties(wmOperatorType *ot) { RNA_def_int(ot->srna, "prev_frame", 0, MINAFRAME, MAXFRAME, "Previous Keyframe", "Frame number of keyframe immediately before the current frame", 0, 50); RNA_def_int(ot->srna, "next_frame", 0, MINAFRAME, MAXFRAME, "Next Keyframe", "Frame number of keyframe immediately after the current frame", 0, 50); RNA_def_float_percentage(ot->srna, "percentage", 0.5f, 0.0f, 1.0f, "Percentage", "Weighting factor for the sliding operation", 0.3, 0.7); } /* ------------------------------------ */ /* invoke() - for 'push' mode */ static int pose_slide_push_invoke(bContext *C, wmOperator *op, const wmEvent *UNUSED(event)) { tPoseSlideOp *pso; /* initialize data */ if (pose_slide_init(C, op, POSESLIDE_PUSH) == 0) { pose_slide_exit(op); return OPERATOR_CANCELLED; } else pso = op->customdata; /* do common setup work */ return pose_slide_invoke_common(C, op, pso); } /* exec() - for push */ static int pose_slide_push_exec(bContext *C, wmOperator *op) { tPoseSlideOp *pso; /* initialize data (from RNA-props) */ if (pose_slide_init(C, op, POSESLIDE_PUSH) == 0) { pose_slide_exit(op); return OPERATOR_CANCELLED; } else pso = op->customdata; /* do common exec work */ return pose_slide_exec_common(C, op, pso); } void POSE_OT_push(wmOperatorType *ot) { /* identifiers */ ot->name = "Push Pose"; ot->idname = "POSE_OT_push"; ot->description = "Exaggerate the current pose"; /* callbacks */ ot->exec = pose_slide_push_exec; ot->invoke = pose_slide_push_invoke; ot->modal = pose_slide_modal; ot->cancel = pose_slide_cancel; ot->poll = ED_operator_posemode; /* flags */ ot->flag = OPTYPE_REGISTER | OPTYPE_UNDO | OPTYPE_BLOCKING; /* Properties */ pose_slide_opdef_properties(ot); } /* ........................ */ /* invoke() - for 'relax' mode */ static int pose_slide_relax_invoke(bContext *C, wmOperator *op, const wmEvent *UNUSED(event)) { tPoseSlideOp *pso; /* initialize data */ if (pose_slide_init(C, op, POSESLIDE_RELAX) == 0) { pose_slide_exit(op); return OPERATOR_CANCELLED; } else pso = op->customdata; /* do common setup work */ return pose_slide_invoke_common(C, op, pso); } /* exec() - for relax */ static int pose_slide_relax_exec(bContext *C, wmOperator *op) { tPoseSlideOp *pso; /* initialize data (from RNA-props) */ if (pose_slide_init(C, op, POSESLIDE_RELAX) == 0) { pose_slide_exit(op); return OPERATOR_CANCELLED; } else pso = op->customdata; /* do common exec work */ return pose_slide_exec_common(C, op, pso); } void POSE_OT_relax(wmOperatorType *ot) { /* identifiers */ ot->name = "Relax Pose"; ot->idname = "POSE_OT_relax"; ot->description = "Make the current pose more similar to its surrounding ones"; /* callbacks */ ot->exec = pose_slide_relax_exec; ot->invoke = pose_slide_relax_invoke; ot->modal = pose_slide_modal; ot->cancel = pose_slide_cancel; ot->poll = ED_operator_posemode; /* flags */ ot->flag = OPTYPE_REGISTER | OPTYPE_UNDO | OPTYPE_BLOCKING; /* Properties */ pose_slide_opdef_properties(ot); } /* ........................ */ /* invoke() - for 'breakdown' mode */ static int pose_slide_breakdown_invoke(bContext *C, wmOperator *op, const wmEvent *UNUSED(event)) { tPoseSlideOp *pso; /* initialize data */ if (pose_slide_init(C, op, POSESLIDE_BREAKDOWN) == 0) { pose_slide_exit(op); return OPERATOR_CANCELLED; } else pso = op->customdata; /* do common setup work */ return pose_slide_invoke_common(C, op, pso); } /* exec() - for breakdown */ static int pose_slide_breakdown_exec(bContext *C, wmOperator *op) { tPoseSlideOp *pso; /* initialize data (from RNA-props) */ if (pose_slide_init(C, op, POSESLIDE_BREAKDOWN) == 0) { pose_slide_exit(op); return OPERATOR_CANCELLED; } else pso = op->customdata; /* do common exec work */ return pose_slide_exec_common(C, op, pso); } void POSE_OT_breakdown(wmOperatorType *ot) { /* identifiers */ ot->name = "Pose Breakdowner"; ot->idname = "POSE_OT_breakdown"; ot->description = "Create a suitable breakdown pose on the current frame"; /* callbacks */ ot->exec = pose_slide_breakdown_exec; ot->invoke = pose_slide_breakdown_invoke; ot->modal = pose_slide_modal; ot->cancel = pose_slide_cancel; ot->poll = ED_operator_posemode; /* flags */ ot->flag = OPTYPE_REGISTER | OPTYPE_UNDO | OPTYPE_BLOCKING; /* Properties */ pose_slide_opdef_properties(ot); } /* **************************************************** */ /* B) Pose Propagate */ /* "termination conditions" - i.e. when we stop */ typedef enum ePosePropagate_Termination { /* stop after the current hold ends */ POSE_PROPAGATE_SMART_HOLDS = 0, /* only do on the last keyframe */ POSE_PROPAGATE_LAST_KEY, /* stop after the next keyframe */ POSE_PROPAGATE_NEXT_KEY, /* stop after the specified frame */ POSE_PROPAGATE_BEFORE_FRAME, /* stop when we run out of keyframes */ POSE_PROPAGATE_BEFORE_END, /* only do on the frames where markers are selected */ POSE_PROPAGATE_SELECTED_MARKERS } ePosePropagate_Termination; /* termination data needed for some modes - assumes only one of these entries will be needed at a time */ typedef union tPosePropagate_ModeData { /* smart holds + before frame: frame number to stop on */ float end_frame; /* selected markers: listbase for CfraElem's marking these frames */ ListBase sel_markers; } tPosePropagate_ModeData; /* --------------------------------- */ /* get frame on which the "hold" for the bone ends * XXX: this may not really work that well if a bone moves on some channels and not others * if this happens to be a major issue, scrap this, and just make this happen * independently per F-Curve */ static float pose_propagate_get_boneHoldEndFrame(Object *ob, tPChanFCurveLink *pfl, float startFrame) { DLRBT_Tree keys, blocks; ActKeyBlock *ab; AnimData *adt = ob->adt; LinkData *ld; float endFrame = startFrame; /* set up optimized data-structures for searching for relevant keyframes + holds */ BLI_dlrbTree_init(&keys); BLI_dlrbTree_init(&blocks); for (ld = pfl->fcurves.first; ld; ld = ld->next) { FCurve *fcu = (FCurve *)ld->data; fcurve_to_keylist(adt, fcu, &keys, &blocks); } BLI_dlrbTree_linkedlist_sync(&keys); BLI_dlrbTree_linkedlist_sync(&blocks); /* find the long keyframe (i.e. hold), and hence obtain the endFrame value * - the best case would be one that starts on the frame itself */ ab = (ActKeyBlock *)BLI_dlrbTree_search_exact(&blocks, compare_ab_cfraPtr, &startFrame); if (actkeyblock_is_valid(ab, &keys) == 0) { /* There are only two cases for no-exact match: * 1) the current frame is just before another key but not on a key itself * 2) the current frame is on a key, but that key doesn't link to the next * * If we've got the first case, then we can search for another block, * otherwise forget it, as we'd be overwriting some valid data. */ if (BLI_dlrbTree_search_exact(&keys, compare_ak_cfraPtr, &startFrame) == NULL) { /* we've got case 1, so try the one after */ ab = (ActKeyBlock *)BLI_dlrbTree_search_next(&blocks, compare_ab_cfraPtr, &startFrame); if (actkeyblock_is_valid(ab, &keys) == 0) { /* try the block before this frame then as last resort */ ab = (ActKeyBlock *)BLI_dlrbTree_search_prev(&blocks, compare_ab_cfraPtr, &startFrame); /* whatever happens, stop searching now... */ if (actkeyblock_is_valid(ab, &keys) == 0) { /* restrict range to just the frame itself * i.e. everything is in motion, so no holds to safely overwrite */ ab = NULL; } } } else { /* we've got case 2 - set ab to NULL just in case, since we shouldn't do anything in this case */ ab = NULL; } } /* check if we can go any further than we've already gone */ if (ab) { /* go to next if it is also valid and meets "extension" criteria */ while (ab->next) { ActKeyBlock *abn = (ActKeyBlock *)ab->next; /* must be valid */ if (actkeyblock_is_valid(abn, &keys) == 0) break; /* should start on the same frame that the last ended on */ if (ab->end != abn->start) break; /* should have the same number of curves */ if (ab->totcurve != abn->totcurve) break; /* should have the same value * XXX: this may be a bit fuzzy on larger data sets, so be careful */ if (ab->val != abn->val) break; /* we can extend the bounds to the end of this "next" block now */ ab = abn; } /* end frame can now take the value of the end of the block */ endFrame = ab->end; } /* free temp memory */ BLI_dlrbTree_free(&keys); BLI_dlrbTree_free(&blocks); /* return the end frame we've found */ return endFrame; } /* get reference value from F-Curve using RNA */ static bool pose_propagate_get_refVal(Object *ob, FCurve *fcu, float *value) { PointerRNA id_ptr, ptr; PropertyRNA *prop; bool found = false; /* base pointer is always the object -> id_ptr */ RNA_id_pointer_create(&ob->id, &id_ptr); /* resolve the property... */ if (RNA_path_resolve_property(&id_ptr, fcu->rna_path, &ptr, &prop)) { if (RNA_property_array_check(prop)) { /* array */ if (fcu->array_index < RNA_property_array_length(&ptr, prop)) { found = true; switch (RNA_property_type(prop)) { case PROP_BOOLEAN: *value = (float)RNA_property_boolean_get_index(&ptr, prop, fcu->array_index); break; case PROP_INT: *value = (float)RNA_property_int_get_index(&ptr, prop, fcu->array_index); break; case PROP_FLOAT: *value = RNA_property_float_get_index(&ptr, prop, fcu->array_index); break; default: found = false; break; } } } else { /* not an array */ found = true; switch (RNA_property_type(prop)) { case PROP_BOOLEAN: *value = (float)RNA_property_boolean_get(&ptr, prop); break; case PROP_INT: *value = (float)RNA_property_int_get(&ptr, prop); break; case PROP_ENUM: *value = (float)RNA_property_enum_get(&ptr, prop); break; case PROP_FLOAT: *value = RNA_property_float_get(&ptr, prop); break; default: found = false; break; } } } return found; } /* propagate just works along each F-Curve in turn */ static void pose_propagate_fcurve(wmOperator *op, Object *ob, FCurve *fcu, float startFrame, tPosePropagate_ModeData modeData) { const int mode = RNA_enum_get(op->ptr, "mode"); BezTriple *bezt; float refVal = 0.0f; bool keyExists; int i, match; short first = 1; /* skip if no keyframes to edit */ if ((fcu->bezt == NULL) || (fcu->totvert < 2)) return; /* find the reference value from bones directly, which means that the user * doesn't need to firstly keyframe the pose (though this doesn't mean that * they can't either) */ if (!pose_propagate_get_refVal(ob, fcu, &refVal)) return; /* find the first keyframe to start propagating from * - if there's a keyframe on the current frame, we probably want to save this value there too * since it may be as of yet unkeyed * - if starting before the starting frame, don't touch the key, as it may have had some valid * values */ match = binarysearch_bezt_index(fcu->bezt, startFrame, fcu->totvert, &keyExists); if (fcu->bezt[match].vec[1][0] < startFrame) i = match + 1; else i = match; for (bezt = &fcu->bezt[i]; i < fcu->totvert; i++, bezt++) { /* additional termination conditions based on the operator 'mode' property go here... */ if (ELEM(mode, POSE_PROPAGATE_BEFORE_FRAME, POSE_PROPAGATE_SMART_HOLDS)) { /* stop if keyframe is outside the accepted range */ if (bezt->vec[1][0] > modeData.end_frame) break; } else if (mode == POSE_PROPAGATE_NEXT_KEY) { /* stop after the first keyframe has been processed */ if (first == 0) break; } else if (mode == POSE_PROPAGATE_LAST_KEY) { /* only affect this frame if it will be the last one */ if (i != (fcu->totvert - 1)) continue; } else if (mode == POSE_PROPAGATE_SELECTED_MARKERS) { /* only allow if there's a marker on this frame */ CfraElem *ce = NULL; /* stop on matching marker if there is one */ for (ce = modeData.sel_markers.first; ce; ce = ce->next) { if (ce->cfra == iroundf(bezt->vec[1][0])) break; } /* skip this keyframe if no marker */ if (ce == NULL) continue; } /* just flatten handles, since values will now be the same either side... */ /* TODO: perhaps a fade-out modulation of the value is required here (optional once again)? */ bezt->vec[0][1] = bezt->vec[1][1] = bezt->vec[2][1] = refVal; /* select keyframe to indicate that it's been changed */ bezt->f2 |= SELECT; first = 0; } } /* --------------------------------- */ static int pose_propagate_exec(bContext *C, wmOperator *op) { Scene *scene = CTX_data_scene(C); Object *ob = BKE_object_pose_armature_get(CTX_data_active_object(C)); bAction *act = (ob && ob->adt) ? ob->adt->action : NULL; ListBase pflinks = {NULL, NULL}; tPChanFCurveLink *pfl; tPosePropagate_ModeData modeData; const int mode = RNA_enum_get(op->ptr, "mode"); /* sanity checks */ if (ob == NULL) { BKE_report(op->reports, RPT_ERROR, "No object to propagate poses for"); return OPERATOR_CANCELLED; } if (act == NULL) { BKE_report(op->reports, RPT_ERROR, "No keyframed poses to propagate to"); return OPERATOR_CANCELLED; } /* isolate F-Curves related to the selected bones */ poseAnim_mapping_get(C, &pflinks, ob, act); /* mode-specific data preprocessing (requiring no access to curves) */ if (mode == POSE_PROPAGATE_SELECTED_MARKERS) { /* get a list of selected markers */ ED_markers_make_cfra_list(&scene->markers, &modeData.sel_markers, SELECT); } else { /* assume everything else wants endFrame */ modeData.end_frame = RNA_float_get(op->ptr, "end_frame"); } /* for each bone, perform the copying required */ for (pfl = pflinks.first; pfl; pfl = pfl->next) { LinkData *ld; /* mode-specific data preprocessing (requiring access to all curves) */ if (mode == POSE_PROPAGATE_SMART_HOLDS) { /* we store in endFrame the end frame of the "long keyframe" (i.e. a held value) starting * from the keyframe that occurs after the current frame */ modeData.end_frame = pose_propagate_get_boneHoldEndFrame(ob, pfl, (float)CFRA); } /* go through propagating pose to keyframes, curve by curve */ for (ld = pfl->fcurves.first; ld; ld = ld->next) pose_propagate_fcurve(op, ob, (FCurve *)ld->data, (float)CFRA, modeData); } /* free temp data */ poseAnim_mapping_free(&pflinks); if (mode == POSE_PROPAGATE_SELECTED_MARKERS) BLI_freelistN(&modeData.sel_markers); /* updates + notifiers */ poseAnim_mapping_refresh(C, scene, ob); return OPERATOR_FINISHED; } /* --------------------------------- */ void POSE_OT_propagate(wmOperatorType *ot) { static EnumPropertyItem terminate_items[] = { {POSE_PROPAGATE_SMART_HOLDS, "WHILE_HELD", 0, "While Held", "Propagate pose to all keyframes after current frame that don't change (Default behavior)"}, {POSE_PROPAGATE_NEXT_KEY, "NEXT_KEY", 0, "To Next Keyframe", "Propagate pose to first keyframe following the current frame only"}, {POSE_PROPAGATE_LAST_KEY, "LAST_KEY", 0, "To Last Keyframe", "Propagate pose to the last keyframe only (i.e. making action cyclic)"}, {POSE_PROPAGATE_BEFORE_FRAME, "BEFORE_FRAME", 0, "Before Frame", "Propagate pose to all keyframes between current frame and 'Frame' property"}, {POSE_PROPAGATE_BEFORE_END, "BEFORE_END", 0, "Before Last Keyframe", "Propagate pose to all keyframes from current frame until no more are found"}, {POSE_PROPAGATE_SELECTED_MARKERS, "SELECTED_MARKERS", 0, "On Selected Markers", "Propagate pose to all keyframes occurring on frames with Scene Markers after the current frame"}, {0, NULL, 0, NULL, NULL}}; /* identifiers */ ot->name = "Propagate Pose"; ot->idname = "POSE_OT_propagate"; ot->description = "Copy selected aspects of the current pose to subsequent poses already keyframed"; /* callbacks */ ot->exec = pose_propagate_exec; ot->poll = ED_operator_posemode; /* XXX: needs selected bones! */ /* flag */ ot->flag = OPTYPE_REGISTER | OPTYPE_UNDO; /* properties */ /* TODO: add "fade out" control for tapering off amount of propagation as time goes by? */ ot->prop = RNA_def_enum(ot->srna, "mode", terminate_items, POSE_PROPAGATE_SMART_HOLDS, "Terminate Mode", "Method used to determine when to stop propagating pose to keyframes"); RNA_def_float(ot->srna, "end_frame", 250.0, FLT_MIN, FLT_MAX, "End Frame", "Frame to stop propagating frames to (for 'Before Frame' mode)", 1.0, 250.0); } /* **************************************************** */