diff options
author | Campbell Barton <ideasman42@gmail.com> | 2018-11-29 01:03:11 +0300 |
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committer | Campbell Barton <ideasman42@gmail.com> | 2018-11-29 01:05:49 +0300 |
commit | f1edccdbe137108647ed3a517432118dfbecf123 (patch) | |
tree | 2d72a0c4167d7400ffa64d66a7b45f909497c1cd /source/blender/editors/armature | |
parent | b02696f855a4e18bae26c326d938f814835c2d6b (diff) |
Cleanup: remove unused files
Diffstat (limited to 'source/blender/editors/armature')
-rw-r--r-- | source/blender/editors/armature/editarmature_retarget.c | 2644 |
1 files changed, 0 insertions, 2644 deletions
diff --git a/source/blender/editors/armature/editarmature_retarget.c b/source/blender/editors/armature/editarmature_retarget.c deleted file mode 100644 index 0c770bcbcc4..00000000000 --- a/source/blender/editors/armature/editarmature_retarget.c +++ /dev/null @@ -1,2644 +0,0 @@ -/* - * ***** BEGIN GPL LICENSE BLOCK ***** - * - * This program is free software; you can redistribute it and/or - * modify it under the terms of the GNU General Public License - * as published by the Free Software Foundation; either version 2 - * of the License, or (at your option) any later version. - * - * This program is distributed in the hope that it will be useful, - * but WITHOUT ANY WARRANTY; without even the implied warranty of - * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the - * GNU General Public License for more details. - * - * You should have received a copy of the GNU General Public License - * along with this program; if not, write to the Free Software Foundation, - * Inc., 51 Franklin Street, Fifth Floor, Boston, MA 02110-1301, USA. - * - * Contributor(s): Martin Poirier - * - * ***** END GPL LICENSE BLOCK ***** - * autoarmature.c: Interface for automagically manipulating armature (retarget, created, ...) - */ - -/** \file blender/editors/armature/editarmature_retarget.c - * \ingroup edarmature - */ - -#include "MEM_guardedalloc.h" - -#include "PIL_time.h" - -#include "DNA_armature_types.h" -#include "DNA_constraint_types.h" -#include "DNA_scene_types.h" -#include "DNA_object_types.h" - -#include "BLI_blenlib.h" -#include "BLI_math.h" - -#include "BKE_constraint.h" -#include "BKE_armature.h" -#include "BKE_context.h" -#include "BKE_main.h" - -#include "ED_armature.h" -#include "ED_undo.h" - -#include "BIF_retarget.h" - -#include "armature_intern.h" - -/************ RIG RETARGET DATA STRUCTURES ***************/ - -typedef struct MemoNode { - float weight; - int next; -} MemoNode; - -typedef struct RetargetParam { - RigGraph *rigg; - RigArc *iarc; - RigNode *inode_start; - bContext *context; -} RetargetParam; - -typedef enum { - RETARGET_LENGTH, - RETARGET_AGGRESSIVE -} RetargetMode; - -typedef enum { - METHOD_BRUTE_FORCE = 0, - METHOD_MEMOIZE = 1 -} RetargetMethod; - -typedef enum { - ARC_FREE = 0, - ARC_TAKEN = 1, - ARC_USED = 2 -} ArcUsageFlags; - -static RigGraph *GLOBAL_RIGG = NULL; - -/*******************************************************************************************************/ - -void exec_retargetArctoArc(TaskPool * __restrict pool, void *taskdata, int threadid); - -static void RIG_calculateEdgeAngles(RigEdge *edge_first, RigEdge *edge_second); -float rollBoneByQuat(EditBone *bone, float old_up_axis[3], float qrot[4]); - -/* two levels */ -#define SHAPE_LEVELS (SHAPE_RADIX * SHAPE_RADIX) - -/*********************************** EDITBONE UTILS ****************************************************/ - -static int countEditBoneChildren(ListBase *list, EditBone *parent) -{ - EditBone *ebone; - int count = 0; - - for (ebone = list->first; ebone; ebone = ebone->next) { - if (ebone->parent == parent) { - count++; - } - } - - return count; -} - -static EditBone *nextEditBoneChild(ListBase *list, EditBone *parent, int n) -{ - EditBone *ebone; - - for (ebone = list->first; ebone; ebone = ebone->next) { - if (ebone->parent == parent) { - if (n == 0) { - return ebone; - } - n--; - } - } - - return NULL; -} - -static void getEditBoneRollUpAxis(EditBone *bone, float roll, float up_axis[3]) -{ - float mat[3][3], nor[3]; - - sub_v3_v3v3(nor, bone->tail, bone->head); - - vec_roll_to_mat3(nor, roll, mat); - copy_v3_v3(up_axis, mat[2]); -} - -static float rollBoneByQuatAligned(EditBone *bone, float old_up_axis[3], float qrot[4], float qroll[4], float aligned_axis[3]) -{ - float nor[3], new_up_axis[3], x_axis[3], z_axis[3]; - - copy_v3_v3(new_up_axis, old_up_axis); - mul_qt_v3(qrot, new_up_axis); - - sub_v3_v3v3(nor, bone->tail, bone->head); - - cross_v3_v3v3(x_axis, nor, aligned_axis); - cross_v3_v3v3(z_axis, x_axis, nor); - - normalize_v3(new_up_axis); - normalize_v3(x_axis); - normalize_v3(z_axis); - - if (dot_v3v3(new_up_axis, x_axis) < 0) { - negate_v3(x_axis); - } - - if (dot_v3v3(new_up_axis, z_axis) < 0) { - negate_v3(z_axis); - } - - if (angle_normalized_v3v3(x_axis, new_up_axis) < angle_normalized_v3v3(z_axis, new_up_axis)) { - rotation_between_vecs_to_quat(qroll, new_up_axis, x_axis); /* set roll rotation quat */ - return ED_armature_ebone_roll_to_vector(bone, x_axis, false); - } - else { - rotation_between_vecs_to_quat(qroll, new_up_axis, z_axis); /* set roll rotation quat */ - return ED_armature_ebone_roll_to_vector(bone, z_axis, false); - } -} - -static float rollBoneByQuatJoint(RigEdge *edge, RigEdge *previous, float qrot[4], float qroll[4], float up_axis[3]) -{ - if (previous == NULL) { - /* default to up_axis if no previous */ - return rollBoneByQuatAligned(edge->bone, edge->up_axis, qrot, qroll, up_axis); - } - else { - float new_up_axis[3]; - float vec_first[3], vec_second[3], normal[3]; - - if (previous->bone) { - sub_v3_v3v3(vec_first, previous->bone->tail, previous->bone->head); - } - else if (previous->prev->bone) { - sub_v3_v3v3(vec_first, edge->bone->head, previous->prev->bone->tail); - } - else { - /* default to up_axis if first bone in the chain is an offset */ - return rollBoneByQuatAligned(edge->bone, edge->up_axis, qrot, qroll, up_axis); - } - - sub_v3_v3v3(vec_second, edge->bone->tail, edge->bone->head); - - normalize_v3(vec_first); - normalize_v3(vec_second); - - cross_v3_v3v3(normal, vec_first, vec_second); - normalize_v3(normal); - - axis_angle_to_quat(qroll, vec_second, edge->up_angle); - - mul_qt_v3(qroll, normal); - - copy_v3_v3(new_up_axis, edge->up_axis); - mul_qt_v3(qrot, new_up_axis); - - normalize_v3(new_up_axis); - - /* real qroll between normal and up_axis */ - rotation_between_vecs_to_quat(qroll, new_up_axis, normal); - - return ED_armature_ebone_roll_to_vector(edge->bone, normal, false); - } -} - -float rollBoneByQuat(EditBone *bone, float old_up_axis[3], float qrot[4]) -{ - float new_up_axis[3]; - - copy_v3_v3(new_up_axis, old_up_axis); - mul_qt_v3(qrot, new_up_axis); - - return ED_armature_ebone_roll_to_vector(bone, new_up_axis, false); -} - -/************************************ DESTRUCTORS ******************************************************/ - -static void RIG_freeRigArc(BArc *arc) -{ - BLI_freelistN(&((RigArc *)arc)->edges); -} - -void RIG_freeRigGraph(BGraph *rg) -{ - RigGraph *rigg = (RigGraph *)rg; - BNode *node; - BArc *arc; - - BLI_task_pool_free(rigg->task_pool); - BLI_task_scheduler_free(rigg->task_scheduler); - - if (rigg->link_mesh) { - REEB_freeGraph(rigg->link_mesh); - } - - for (arc = rg->arcs.first; arc; arc = arc->next) { - RIG_freeRigArc(arc); - } - BLI_freelistN(&rg->arcs); - - for (node = rg->nodes.first; node; node = node->next) { - BLI_freeNode(rg, (BNode *)node); - } - BLI_freelistN(&rg->nodes); - - BLI_freelistN(&rigg->controls); - - BLI_ghash_free(rigg->bones_map, NULL, NULL); - BLI_ghash_free(rigg->controls_map, NULL, NULL); - - if (rigg->flag & RIG_FREE_BONELIST) { - BLI_freelistN(rigg->editbones); - MEM_freeN(rigg->editbones); - } - - MEM_freeN(rg); -} - -/************************************* ALLOCATORS ******************************************************/ - -static RigGraph *newRigGraph(void) -{ - RigGraph *rg; - int totthread; - - rg = MEM_callocN(sizeof(RigGraph), "rig graph"); - - rg->head = NULL; - - rg->bones_map = BLI_ghash_str_new("newRigGraph bones gh"); - rg->controls_map = BLI_ghash_str_new("newRigGraph cont gh"); - - rg->free_arc = RIG_freeRigArc; - rg->free_node = NULL; - -#ifdef USE_THREADS - totthread = TASK_SCHEDULER_AUTO_THREADS; -#else - totthread = TASK_SCHEDULER_SINGLE_THREAD; -#endif - - rg->task_scheduler = BLI_task_scheduler_create(totthread); - rg->task_pool = BLI_task_pool_create(rg->task_scheduler, NULL); - - return rg; -} - -static RigArc *newRigArc(RigGraph *rg) -{ - RigArc *arc; - - arc = MEM_callocN(sizeof(RigArc), "rig arc"); - arc->count = 0; - BLI_addtail(&rg->arcs, arc); - - return arc; -} - -static RigControl *newRigControl(RigGraph *rg) -{ - RigControl *ctrl; - - ctrl = MEM_callocN(sizeof(RigControl), "rig control"); - - BLI_addtail(&rg->controls, ctrl); - - return ctrl; -} - -static RigNode *newRigNodeHead(RigGraph *rg, RigArc *arc, float p[3]) -{ - RigNode *node; - node = MEM_callocN(sizeof(RigNode), "rig node"); - BLI_addtail(&rg->nodes, node); - - copy_v3_v3(node->p, p); - node->degree = 1; - node->arcs = NULL; - - arc->head = node; - - return node; -} - -static void addRigNodeHead(RigGraph *UNUSED(rg), RigArc *arc, RigNode *node) -{ - node->degree++; - - arc->head = node; -} - -static RigNode *newRigNode(RigGraph *rg, float p[3]) -{ - RigNode *node; - node = MEM_callocN(sizeof(RigNode), "rig node"); - BLI_addtail(&rg->nodes, node); - - copy_v3_v3(node->p, p); - node->degree = 0; - node->arcs = NULL; - - return node; -} - -static RigNode *newRigNodeTail(RigGraph *rg, RigArc *arc, float p[3]) -{ - RigNode *node = newRigNode(rg, p); - - node->degree = 1; - arc->tail = node; - - return node; -} - -static void RIG_appendEdgeToArc(RigArc *arc, RigEdge *edge) -{ - BLI_addtail(&arc->edges, edge); - - if (edge->prev == NULL) { - copy_v3_v3(edge->head, arc->head->p); - } - else { - RigEdge *last_edge = edge->prev; - copy_v3_v3(edge->head, last_edge->tail); - RIG_calculateEdgeAngles(last_edge, edge); - } - - edge->length = len_v3v3(edge->head, edge->tail); - - arc->length += edge->length; - - arc->count += 1; -} - -static void RIG_addEdgeToArc(RigArc *arc, float tail[3], EditBone *bone) -{ - RigEdge *edge; - - edge = MEM_callocN(sizeof(RigEdge), "rig edge"); - - copy_v3_v3(edge->tail, tail); - edge->bone = bone; - - if (bone) { - getEditBoneRollUpAxis(bone, bone->roll, edge->up_axis); - } - - RIG_appendEdgeToArc(arc, edge); -} -/************************************** CLONING TEMPLATES **********************************************/ - -static void renameTemplateBone(char *name, char *template_name, ListBase *editbones, char *side_string, char *num_string) -{ - int i, j; - - for (i = 0, j = 0; i < (MAXBONENAME - 1) && j < (MAXBONENAME - 1) && template_name[i] != '\0'; i++) { - if (template_name[i] == '&') { - if (template_name[i + 1] == 'S' || template_name[i + 1] == 's') { - j += BLI_strncpy_rlen(name + j, side_string, MAXBONENAME); - i++; - } - else if (template_name[i + 1] == 'N' || template_name[i + 1] == 'n') { - j += BLI_strncpy_rlen(name + j, num_string, MAXBONENAME); - i++; - } - else { - name[j] = template_name[i]; - j++; - } - } - else { - name[j] = template_name[i]; - j++; - } - } - - name[j] = '\0'; - - ED_armature_ebone_unique_name(editbones, name, NULL); -} - -static RigControl *cloneControl(RigGraph *rg, RigGraph *src_rg, RigControl *src_ctrl, GHash *ptr_hash, char *side_string, char *num_string) -{ - RigControl *ctrl; - char name[MAXBONENAME]; - - ctrl = newRigControl(rg); - - copy_v3_v3(ctrl->head, src_ctrl->head); - copy_v3_v3(ctrl->tail, src_ctrl->tail); - copy_v3_v3(ctrl->up_axis, src_ctrl->up_axis); - copy_v3_v3(ctrl->offset, src_ctrl->offset); - - ctrl->tail_mode = src_ctrl->tail_mode; - ctrl->flag = src_ctrl->flag; - - renameTemplateBone(name, src_ctrl->bone->name, rg->editbones, side_string, num_string); - ctrl->bone = duplicateEditBoneObjects(src_ctrl->bone, name, rg->editbones, src_rg->ob, rg->ob); - ctrl->bone->flag &= ~(BONE_TIPSEL | BONE_SELECTED | BONE_ROOTSEL); - BLI_ghash_insert(ptr_hash, src_ctrl->bone, ctrl->bone); - - ctrl->link = src_ctrl->link; - ctrl->link_tail = src_ctrl->link_tail; - - return ctrl; -} - -static RigArc *cloneArc(RigGraph *rg, RigGraph *src_rg, RigArc *src_arc, GHash *ptr_hash, char *side_string, char *num_string) -{ - RigEdge *src_edge; - RigArc *arc; - - arc = newRigArc(rg); - - arc->head = BLI_ghash_lookup(ptr_hash, src_arc->head); - arc->tail = BLI_ghash_lookup(ptr_hash, src_arc->tail); - - arc->head->degree++; - arc->tail->degree++; - - arc->length = src_arc->length; - - arc->count = src_arc->count; - - for (src_edge = src_arc->edges.first; src_edge; src_edge = src_edge->next) { - RigEdge *edge; - - edge = MEM_callocN(sizeof(RigEdge), "rig edge"); - - copy_v3_v3(edge->head, src_edge->head); - copy_v3_v3(edge->tail, src_edge->tail); - copy_v3_v3(edge->up_axis, src_edge->up_axis); - - edge->length = src_edge->length; - edge->angle = src_edge->angle; - edge->up_angle = src_edge->up_angle; - - if (src_edge->bone != NULL) { - char name[MAXBONENAME]; - renameTemplateBone(name, src_edge->bone->name, rg->editbones, side_string, num_string); - edge->bone = duplicateEditBoneObjects(src_edge->bone, name, rg->editbones, src_rg->ob, rg->ob); - edge->bone->flag &= ~(BONE_TIPSEL | BONE_SELECTED | BONE_ROOTSEL); - BLI_ghash_insert(ptr_hash, src_edge->bone, edge->bone); - } - - BLI_addtail(&arc->edges, edge); - } - - return arc; -} - -static RigGraph *cloneRigGraph(RigGraph *src, ListBase *editbones, Object *ob, char *side_string, char *num_string) -{ - GHash *ptr_hash; - RigNode *node; - RigArc *arc; - RigControl *ctrl; - RigGraph *rg; - - ptr_hash = BLI_ghash_ptr_new("cloneRigGraph gh"); - - rg = newRigGraph(); - - rg->ob = ob; - rg->editbones = editbones; - - preEditBoneDuplicate(rg->editbones); /* prime bones for duplication */ - preEditBoneDuplicate(src->editbones); /* prime bones for duplication */ - - /* Clone nodes */ - for (node = src->nodes.first; node; node = node->next) { - RigNode *cloned_node = newRigNode(rg, node->p); - BLI_ghash_insert(ptr_hash, node, cloned_node); - } - - rg->head = BLI_ghash_lookup(ptr_hash, src->head); - - /* Clone arcs */ - for (arc = src->arcs.first; arc; arc = arc->next) { - cloneArc(rg, src, arc, ptr_hash, side_string, num_string); - } - - /* Clone controls */ - for (ctrl = src->controls.first; ctrl; ctrl = ctrl->next) { - cloneControl(rg, src, ctrl, ptr_hash, side_string, num_string); - } - - /* Relink bones properly */ - for (arc = rg->arcs.first; arc; arc = arc->next) { - RigEdge *edge; - - for (edge = arc->edges.first; edge; edge = edge->next) { - if (edge->bone != NULL) { - EditBone *bone; - - updateDuplicateSubtargetObjects(edge->bone, src->editbones, src->ob, rg->ob); - - if (edge->bone->parent) { - bone = BLI_ghash_lookup(ptr_hash, edge->bone->parent); - - if (bone != NULL) { - edge->bone->parent = bone; - } - else { - /* disconnect since parent isn't cloned - * this will only happen when cloning from selected bones - * */ - edge->bone->flag &= ~BONE_CONNECTED; - } - } - } - } - } - - for (ctrl = rg->controls.first; ctrl; ctrl = ctrl->next) { - EditBone *bone; - - updateDuplicateSubtargetObjects(ctrl->bone, src->editbones, src->ob, rg->ob); - - if (ctrl->bone->parent) { - bone = BLI_ghash_lookup(ptr_hash, ctrl->bone->parent); - - if (bone != NULL) { - ctrl->bone->parent = bone; - } - else { - /* disconnect since parent isn't cloned - * this will only happen when cloning from selected bones - * */ - ctrl->bone->flag &= ~BONE_CONNECTED; - } - } - - ctrl->link = BLI_ghash_lookup(ptr_hash, ctrl->link); - ctrl->link_tail = BLI_ghash_lookup(ptr_hash, ctrl->link_tail); - } - - BLI_ghash_free(ptr_hash, NULL, NULL); - - return rg; -} - - -/*******************************************************************************************************/ - -static void RIG_calculateEdgeAngles(RigEdge *edge_first, RigEdge *edge_second) -{ - float vec_first[3], vec_second[3]; - - sub_v3_v3v3(vec_first, edge_first->tail, edge_first->head); - sub_v3_v3v3(vec_second, edge_second->tail, edge_second->head); - - normalize_v3(vec_first); - normalize_v3(vec_second); - - edge_first->angle = angle_normalized_v3v3(vec_first, vec_second); - - if (edge_second->bone != NULL) { - float normal[3]; - - cross_v3_v3v3(normal, vec_first, vec_second); - normalize_v3(normal); - - edge_second->up_angle = angle_normalized_v3v3(normal, edge_second->up_axis); - } -} - -/************************************ CONTROL BONES ****************************************************/ - -static void RIG_addControlBone(RigGraph *rg, EditBone *bone) -{ - RigControl *ctrl = newRigControl(rg); - ctrl->bone = bone; - copy_v3_v3(ctrl->head, bone->head); - copy_v3_v3(ctrl->tail, bone->tail); - getEditBoneRollUpAxis(bone, bone->roll, ctrl->up_axis); - ctrl->tail_mode = TL_NONE; - - BLI_ghash_insert(rg->controls_map, bone->name, ctrl); -} - -static int RIG_parentControl(RigControl *ctrl, EditBone *link) -{ - if (link) { - float offset[3]; - int flag = 0; - - sub_v3_v3v3(offset, ctrl->bone->head, link->head); - - /* if root matches, check for direction too */ - if (dot_v3v3(offset, offset) < 0.0001f) { - float vbone[3], vparent[3]; - - flag |= RIG_CTRL_FIT_ROOT; - - sub_v3_v3v3(vbone, ctrl->bone->tail, ctrl->bone->head); - sub_v3_v3v3(vparent, link->tail, link->head); - - /* test for opposite direction */ - if (dot_v3v3(vbone, vparent) > 0) { - float nor[3]; - float len; - - cross_v3_v3v3(nor, vbone, vparent); - - len = dot_v3v3(nor, nor); - if (len < 0.0001f) { - flag |= RIG_CTRL_FIT_BONE; - } - } - } - - /* Bail out if old one is automatically better */ - if (flag < ctrl->flag) { - return 0; - } - - /* if there's already a link - * overwrite only if new link is higher in the chain */ - if (ctrl->link && flag == ctrl->flag) { - EditBone *bone = NULL; - - for (bone = ctrl->link; bone; bone = bone->parent) { - /* if link is in the chain, break and use that one */ - if (bone == link) { - break; - } - } - - /* not in chain, don't update link */ - if (bone == NULL) { - return 0; - } - } - - - ctrl->link = link; - ctrl->flag = flag; - - copy_v3_v3(ctrl->offset, offset); - - return 1; - } - - return 0; -} - -static void RIG_reconnectControlBones(RigGraph *rg) -{ - RigControl *ctrl; - bool changed = true; - - /* first pass, link to deform bones */ - for (ctrl = rg->controls.first; ctrl; ctrl = ctrl->next) { - bPoseChannel *pchan; - bConstraint *con; - int found = 0; - - /* DO SOME MAGIC HERE */ - for (pchan = rg->ob->pose->chanbase.first; pchan; pchan = pchan->next) { - for (con = pchan->constraints.first; con; con = con->next) { - const bConstraintTypeInfo *cti = BKE_constraint_typeinfo_get(con); - ListBase targets = {NULL, NULL}; - bConstraintTarget *ct; - - /* constraint targets */ - if (cti && cti->get_constraint_targets) { - int target_index; - - cti->get_constraint_targets(con, &targets); - - for (target_index = 0, ct = targets.first; ct; target_index++, ct = ct->next) { - if ((ct->tar == rg->ob) && STREQ(ct->subtarget, ctrl->bone->name)) { - /* SET bone link to bone corresponding to pchan */ - EditBone *link = BLI_ghash_lookup(rg->bones_map, pchan->name); - - /* Making sure bone is in this armature */ - if (link != NULL) { - /* for pole targets, link to parent bone instead, if possible */ - if (con->type == CONSTRAINT_TYPE_KINEMATIC && target_index == 1) { - if (link->parent && BLI_ghash_haskey(rg->bones_map, link->parent->name)) { - link = link->parent; - } - } - - found = RIG_parentControl(ctrl, link); - } - } - } - - if (cti->flush_constraint_targets) - cti->flush_constraint_targets(con, &targets, 0); - } - } - } - - /* if not found yet, check parent */ - if (found == 0) { - if (ctrl->bone->parent) { - /* make sure parent is a deforming bone - * NULL if not - * */ - EditBone *link = BLI_ghash_lookup(rg->bones_map, ctrl->bone->parent->name); - - found = RIG_parentControl(ctrl, link); - } - - /* check if bone is not superposed on another one */ - { - RigArc *arc; - RigArc *best_arc = NULL; - EditBone *link = NULL; - - for (arc = rg->arcs.first; arc; arc = arc->next) { - RigEdge *edge; - for (edge = arc->edges.first; edge; edge = edge->next) { - if (edge->bone) { - int fit = 0; - - fit = len_v3v3(ctrl->bone->head, edge->bone->head) < 0.0001f; - fit = fit || len_v3v3(ctrl->bone->tail, edge->bone->tail) < 0.0001f; - - if (fit) { - /* pick the bone on the arc with the lowest symmetry level - * means you connect control to the trunk of the skeleton */ - if (best_arc == NULL || arc->symmetry_level < best_arc->symmetry_level) { - best_arc = arc; - link = edge->bone; - } - } - } - } - } - - found = RIG_parentControl(ctrl, link); - } - } - - /* if not found yet, check child */ - if (found == 0) { - RigArc *arc; - RigArc *best_arc = NULL; - EditBone *link = NULL; - - for (arc = rg->arcs.first; arc; arc = arc->next) { - RigEdge *edge; - for (edge = arc->edges.first; edge; edge = edge->next) { - if (edge->bone && edge->bone->parent == ctrl->bone) { - /* pick the bone on the arc with the lowest symmetry level - * means you connect control to the trunk of the skeleton */ - if (best_arc == NULL || arc->symmetry_level < best_arc->symmetry_level) { - best_arc = arc; - link = edge->bone; - } - } - } - } - - found = RIG_parentControl(ctrl, link); - } - - } - - - /* second pass, make chains in control bones */ - while (changed) { - changed = false; - - for (ctrl = rg->controls.first; ctrl; ctrl = ctrl->next) { - /* if control is not linked yet */ - if (ctrl->link == NULL) { - bPoseChannel *pchan; - bConstraint *con; - RigControl *ctrl_parent = NULL; - RigControl *ctrl_child; - int found = 0; - - if (ctrl->bone->parent) { - ctrl_parent = BLI_ghash_lookup(rg->controls_map, ctrl->bone->parent->name); - } - - /* check constraints first */ - - /* DO SOME MAGIC HERE */ - for (pchan = rg->ob->pose->chanbase.first; pchan; pchan = pchan->next) { - for (con = pchan->constraints.first; con; con = con->next) { - const bConstraintTypeInfo *cti = BKE_constraint_typeinfo_get(con); - ListBase targets = {NULL, NULL}; - bConstraintTarget *ct; - - /* constraint targets */ - if (cti && cti->get_constraint_targets) { - cti->get_constraint_targets(con, &targets); - - for (ct = targets.first; ct; ct = ct->next) { - if ((ct->tar == rg->ob) && STREQ(ct->subtarget, ctrl->bone->name)) { - /* SET bone link to ctrl corresponding to pchan */ - RigControl *link = BLI_ghash_lookup(rg->controls_map, pchan->name); - - /* if owner is a control bone, link with it */ - if (link && link->link) { - RIG_parentControl(ctrl, link->bone); - found = 1; - break; - } - } - } - - if (cti->flush_constraint_targets) - cti->flush_constraint_targets(con, &targets, 0); - } - } - } - - if (found == 0) { - /* check if parent is already linked */ - if (ctrl_parent && ctrl_parent->link) { - RIG_parentControl(ctrl, ctrl_parent->bone); - changed = true; - } - else { - /* check childs */ - for (ctrl_child = rg->controls.first; ctrl_child; ctrl_child = ctrl_child->next) { - /* if a child is linked, link to that one */ - if (ctrl_child->link && ctrl_child->bone->parent == ctrl->bone) { - RIG_parentControl(ctrl, ctrl_child->bone); - changed = true; - break; - } - } - } - } - } - } - } - - /* third pass, link control tails */ - for (ctrl = rg->controls.first; ctrl; ctrl = ctrl->next) { - /* fit bone already means full match, so skip those */ - if ((ctrl->flag & RIG_CTRL_FIT_BONE) == 0) { - GHashIterator ghi; - - /* look on deform bones first */ - BLI_ghashIterator_init(&ghi, rg->bones_map); - - for (; !BLI_ghashIterator_done(&ghi); BLI_ghashIterator_step(&ghi)) { - EditBone *bone = (EditBone *)BLI_ghashIterator_getValue(&ghi); - - /* don't link with parent */ - if (bone->parent != ctrl->bone) { - if (len_v3v3(ctrl->bone->tail, bone->head) < 0.01f) { - ctrl->tail_mode = TL_HEAD; - ctrl->link_tail = bone; - break; - } - else if (len_v3v3(ctrl->bone->tail, bone->tail) < 0.01f) { - ctrl->tail_mode = TL_TAIL; - ctrl->link_tail = bone; - break; - } - } - } - - /* if we haven't found one yet, look in control bones */ - if (ctrl->tail_mode == TL_NONE) { - /* pass */ - } - } - } - -} - -/*******************************************************************************************************/ - -static void RIG_joinArcs(RigGraph *rg, RigNode *node, RigArc *joined_arc1, RigArc *joined_arc2) -{ - RigEdge *edge, *next_edge; - - /* ignore cases where joint is at start or end */ - if (joined_arc1->head == joined_arc2->head || joined_arc1->tail == joined_arc2->tail) { - return; - } - - /* swap arcs to make sure arc1 is before arc2 */ - if (joined_arc1->head == joined_arc2->tail) { - RigArc *tmp = joined_arc1; - joined_arc1 = joined_arc2; - joined_arc2 = tmp; - } - - for (edge = joined_arc2->edges.first; edge; edge = next_edge) { - next_edge = edge->next; - - RIG_appendEdgeToArc(joined_arc1, edge); - } - - joined_arc1->tail = joined_arc2->tail; - - BLI_listbase_clear(&joined_arc2->edges); - - BLI_removeArc((BGraph *)rg, (BArc *)joined_arc2); - - BLI_removeNode((BGraph *)rg, (BNode *)node); -} - -static void RIG_removeNormalNodes(RigGraph *rg) -{ - RigNode *node, *next_node; - - for (node = rg->nodes.first; node; node = next_node) { - next_node = node->next; - - if (node->degree == 2) { - RigArc *arc, *joined_arc1 = NULL, *joined_arc2 = NULL; - - for (arc = rg->arcs.first; arc; arc = arc->next) { - if (arc->head == node || arc->tail == node) { - if (joined_arc1 == NULL) { - joined_arc1 = arc; - } - else { - joined_arc2 = arc; - break; - } - } - } - - RIG_joinArcs(rg, node, joined_arc1, joined_arc2); - } - } -} - -static void RIG_removeUneededOffsets(RigGraph *rg) -{ - RigArc *arc; - - for (arc = rg->arcs.first; arc; arc = arc->next) { - RigEdge *first_edge, *last_edge; - - first_edge = arc->edges.first; - last_edge = arc->edges.last; - - if (first_edge->bone == NULL) { - if (first_edge->bone == NULL && len_v3v3(first_edge->tail, arc->head->p) <= 0.001f) { - BLI_remlink(&arc->edges, first_edge); - MEM_freeN(first_edge); - } - else if (arc->head->degree == 1) { - RigNode *new_node = (RigNode *)BLI_FindNodeByPosition((BGraph *)rg, first_edge->tail, 0.001f); - - if (new_node) { - BLI_remlink(&arc->edges, first_edge); - MEM_freeN(first_edge); - BLI_replaceNodeInArc((BGraph *)rg, (BArc *)arc, (BNode *)new_node, (BNode *)arc->head); - } - else { - RigEdge *next_edge = first_edge->next; - - if (next_edge) { - BLI_remlink(&arc->edges, first_edge); - MEM_freeN(first_edge); - - copy_v3_v3(arc->head->p, next_edge->head); - } - } - } - else { - /* check if all arc connected start with a null edge */ - RigArc *other_arc; - for (other_arc = rg->arcs.first; other_arc; other_arc = other_arc->next) { - if (other_arc != arc) { - RigEdge *test_edge; - if (other_arc->head == arc->head) { - test_edge = other_arc->edges.first; - - if (test_edge->bone != NULL) { - break; - } - } - else if (other_arc->tail == arc->head) { - test_edge = other_arc->edges.last; - - if (test_edge->bone != NULL) { - break; - } - } - } - } - - if (other_arc == NULL) { - RigNode *new_node = (RigNode *)BLI_FindNodeByPosition((BGraph *)rg, first_edge->tail, 0.001); - - if (new_node) { - /* remove null edge in other arcs too */ - for (other_arc = rg->arcs.first; other_arc; other_arc = other_arc->next) { - if (other_arc != arc) { - RigEdge *test_edge; - if (other_arc->head == arc->head) { - BLI_replaceNodeInArc((BGraph *)rg, (BArc *)other_arc, (BNode *)new_node, (BNode *)other_arc->head); - test_edge = other_arc->edges.first; - BLI_remlink(&other_arc->edges, test_edge); - MEM_freeN(test_edge); - } - else if (other_arc->tail == arc->head) { - BLI_replaceNodeInArc((BGraph *)rg, (BArc *)other_arc, (BNode *)new_node, (BNode *)other_arc->tail); - test_edge = other_arc->edges.last; - BLI_remlink(&other_arc->edges, test_edge); - MEM_freeN(test_edge); - } - } - } - - BLI_remlink(&arc->edges, first_edge); - MEM_freeN(first_edge); - BLI_replaceNodeInArc((BGraph *)rg, (BArc *)arc, (BNode *)new_node, (BNode *)arc->head); - } - else { - RigEdge *next_edge = first_edge->next; - - if (next_edge) { - BLI_remlink(&arc->edges, first_edge); - MEM_freeN(first_edge); - - copy_v3_v3(arc->head->p, next_edge->head); - - /* remove null edge in other arcs too */ - for (other_arc = rg->arcs.first; other_arc; other_arc = other_arc->next) { - if (other_arc != arc) { - RigEdge *test_edge; - if (other_arc->head == arc->head) { - test_edge = other_arc->edges.first; - BLI_remlink(&other_arc->edges, test_edge); - MEM_freeN(test_edge); - } - else if (other_arc->tail == arc->head) { - test_edge = other_arc->edges.last; - BLI_remlink(&other_arc->edges, test_edge); - MEM_freeN(test_edge); - } - } - } - } - } - } - } - } - - if (last_edge->bone == NULL) { - if (len_v3v3(last_edge->head, arc->tail->p) <= 0.001f) { - BLI_remlink(&arc->edges, last_edge); - MEM_freeN(last_edge); - } - else if (arc->tail->degree == 1) { - RigNode *new_node = (RigNode *)BLI_FindNodeByPosition((BGraph *)rg, last_edge->head, 0.001f); - - if (new_node) { - RigEdge *previous_edge = last_edge->prev; - - BLI_remlink(&arc->edges, last_edge); - MEM_freeN(last_edge); - BLI_replaceNodeInArc((BGraph *)rg, (BArc *)arc, (BNode *)new_node, (BNode *)arc->tail); - - /* set previous angle to 0, since there's no following edges */ - if (previous_edge) { - previous_edge->angle = 0; - } - } - else { - RigEdge *previous_edge = last_edge->prev; - - if (previous_edge) { - BLI_remlink(&arc->edges, last_edge); - MEM_freeN(last_edge); - - copy_v3_v3(arc->tail->p, previous_edge->tail); - previous_edge->angle = 0; - } - } - } - } - } -} - -static void RIG_arcFromBoneChain(RigGraph *rg, ListBase *list, EditBone *root_bone, RigNode *starting_node, bool selected) -{ - EditBone *bone, *last_bone = root_bone; - RigArc *arc = NULL; - int contain_head = 0; - - for (bone = root_bone; bone; bone = nextEditBoneChild(list, bone, 0)) { - int nb_children; - - if (selected == 0 || (bone->flag & BONE_SELECTED)) { - if ((bone->flag & BONE_NO_DEFORM) == 0) { - BLI_ghash_insert(rg->bones_map, bone->name, bone); - - if (arc == NULL) { - arc = newRigArc(rg); - - if (starting_node == NULL) { - starting_node = newRigNodeHead(rg, arc, root_bone->head); - } - else { - addRigNodeHead(rg, arc, starting_node); - } - } - - if (bone->parent && (bone->flag & BONE_CONNECTED) == 0) { - RIG_addEdgeToArc(arc, bone->head, NULL); - } - - RIG_addEdgeToArc(arc, bone->tail, bone); - - last_bone = bone; - - if (STREQ(bone->name, "head")) { - contain_head = 1; - } - } - else if ((bone->flag & BONE_EDITMODE_LOCKED) == 0) { /* ignore locked bones */ - RIG_addControlBone(rg, bone); - } - } - - nb_children = countEditBoneChildren(list, bone); - if (nb_children > 1) { - RigNode *end_node = NULL; - int i; - - if (arc != NULL) { - end_node = newRigNodeTail(rg, arc, bone->tail); - } - else { - end_node = newRigNode(rg, bone->tail); - } - - for (i = 0; i < nb_children; i++) { - root_bone = nextEditBoneChild(list, bone, i); - RIG_arcFromBoneChain(rg, list, root_bone, end_node, selected); - } - - /* arc ends here, break */ - break; - } - } - - /* If the loop exited without forking */ - if (arc != NULL && bone == NULL) { - newRigNodeTail(rg, arc, last_bone->tail); - } - - if (contain_head) { - rg->head = arc->tail; - } -} - -/*******************************************************************************************************/ -static void RIG_findHead(RigGraph *rg) -{ - if (rg->head == NULL) { - if (BLI_listbase_is_single(&rg->arcs)) { - RigArc *arc = rg->arcs.first; - - rg->head = (RigNode *)arc->head; - } - else { - RigArc *arc; - - for (arc = rg->arcs.first; arc; arc = arc->next) { - RigEdge *edge = arc->edges.last; - - if (edge->bone->flag & (BONE_TIPSEL | BONE_SELECTED)) { - rg->head = arc->tail; - break; - } - } - } - - if (rg->head == NULL) { - rg->head = rg->nodes.first; - } - } -} - -/*******************************************************************************************************/ - -static void RIG_printNode(RigNode *node, const char name[]) -{ - printf("%s %p %i <%0.3f, %0.3f, %0.3f>\n", name, (void *)node, node->degree, node->p[0], node->p[1], node->p[2]); - - if (node->symmetry_flag & SYM_TOPOLOGICAL) { - if (node->symmetry_flag & SYM_AXIAL) - printf("Symmetry AXIAL\n"); - else if (node->symmetry_flag & SYM_RADIAL) - printf("Symmetry RADIAL\n"); - - print_v3("symmetry axis", node->symmetry_axis); - } -} - -void RIG_printArcBones(RigArc *arc) -{ - RigEdge *edge; - - for (edge = arc->edges.first; edge; edge = edge->next) { - if (edge->bone) - printf("%s ", edge->bone->name); - else - printf("---- "); - } - printf("\n"); -} - -static void RIG_printCtrl(RigControl *ctrl, char *indent) -{ - char text[128]; - - printf("%sBone: %s\n", indent, ctrl->bone->name); - printf("%sLink: %s\n", indent, ctrl->link ? ctrl->link->name : "!NONE!"); - - BLI_snprintf(text, sizeof(text), "%soffset", indent); - print_v3(text, ctrl->offset); - - printf("%sFlag: %i\n", indent, ctrl->flag); -} - -static void RIG_printLinkedCtrl(RigGraph *rg, EditBone *bone, int tabs) -{ - RigControl *ctrl; - char indent[64]; - char *s = indent; - int i; - - for (i = 0; i < tabs; i++) { - s[0] = '\t'; - s++; - } - s[0] = 0; - - for (ctrl = rg->controls.first; ctrl; ctrl = ctrl->next) { - if (ctrl->link == bone) { - RIG_printCtrl(ctrl, indent); - RIG_printLinkedCtrl(rg, ctrl->bone, tabs + 1); - } - } -} - -void RIG_printArc(RigGraph *rg, RigArc *arc) -{ - RigEdge *edge; - - RIG_printNode((RigNode *)arc->head, "head"); - - for (edge = arc->edges.first; edge; edge = edge->next) { - printf("\tinner joints %0.3f %0.3f %0.3f\n", edge->tail[0], edge->tail[1], edge->tail[2]); - printf("\t\tlength %f\n", edge->length); - printf("\t\tangle %f\n", edge->angle * (float)(180 / M_PI)); - if (edge->bone) { - printf("\t\t%s\n", edge->bone->name); - RIG_printLinkedCtrl(rg, edge->bone, 3); - } - } - printf("symmetry level: %i flag: %i group %i\n", arc->symmetry_level, arc->symmetry_flag, arc->symmetry_group); - - RIG_printNode((RigNode *)arc->tail, "tail"); -} - -void RIG_printGraph(RigGraph *rg) -{ - RigArc *arc; - - printf("---- ARCS ----\n"); - for (arc = rg->arcs.first; arc; arc = arc->next) { - RIG_printArc(rg, arc); - printf("\n"); - } - - if (rg->head) { - RIG_printNode(rg->head, "HEAD NODE:"); - } - else { - printf("HEAD NODE: NONE\n"); - } -} - -/*******************************************************************************************************/ - -RigGraph *RIG_graphFromArmature(const bContext *C, Object *ob, bArmature *arm) -{ - Object *obedit = CTX_data_edit_object(C); - Scene *scene = CTX_data_scene(C); - EditBone *ebone; - RigGraph *rg; - - rg = newRigGraph(); - - if (obedit == ob) { - rg->editbones = ((bArmature *)obedit->data)->edbo; - } - else { - rg->editbones = MEM_callocN(sizeof(ListBase), "EditBones"); - make_boneList(rg->editbones, &arm->bonebase, NULL); - rg->flag |= RIG_FREE_BONELIST; - } - - rg->ob = ob; - - /* Do the rotations */ - for (ebone = rg->editbones->first; ebone; ebone = ebone->next) { - if (ebone->parent == NULL) { - RIG_arcFromBoneChain(rg, rg->editbones, ebone, NULL, 0); - } - } - - BLI_removeDoubleNodes((BGraph *)rg, 0.001); - - RIG_removeNormalNodes(rg); - - RIG_removeUneededOffsets(rg); - - BLI_buildAdjacencyList((BGraph *)rg); - - RIG_findHead(rg); - - BLI_markdownSymmetry((BGraph *)rg, (BNode *)rg->head, scene->toolsettings->skgen_symmetry_limit); - - RIG_reconnectControlBones(rg); /* after symmetry, because we use levels to find best match */ - - if (BLI_isGraphCyclic((BGraph *)rg)) { - printf("armature cyclic\n"); - } - - return rg; -} - -static RigGraph *armatureSelectedToGraph(bContext *C, Object *ob, bArmature *arm) -{ - Object *obedit = CTX_data_edit_object(C); - Scene *scene = CTX_data_scene(C); - EditBone *ebone; - RigGraph *rg; - - rg = newRigGraph(); - - if (obedit == ob) { - rg->editbones = arm->edbo; - } - else { - rg->editbones = MEM_callocN(sizeof(ListBase), "EditBones"); - make_boneList(rg->editbones, &arm->bonebase, NULL); - rg->flag |= RIG_FREE_BONELIST; - } - - rg->ob = ob; - - /* Do the rotations */ - for (ebone = rg->editbones->first; ebone; ebone = ebone->next) { - if (ebone->parent == NULL) { - RIG_arcFromBoneChain(rg, rg->editbones, ebone, NULL, 1); - } - } - - BLI_removeDoubleNodes((BGraph *)rg, 0.001); - - RIG_removeNormalNodes(rg); - - RIG_removeUneededOffsets(rg); - - BLI_buildAdjacencyList((BGraph *)rg); - - RIG_findHead(rg); - - BLI_markdownSymmetry((BGraph *)rg, (BNode *)rg->head, scene->toolsettings->skgen_symmetry_limit); - - RIG_reconnectControlBones(rg); /* after symmetry, because we use levels to find best match */ - - if (BLI_isGraphCyclic((BGraph *)rg)) { - printf("armature cyclic\n"); - } - - return rg; -} -/************************************ GENERATING *****************************************************/ - -#if 0 -static EditBone *add_editbonetolist(char *name, ListBase *list) -{ - EditBone *bone = MEM_callocN(sizeof(EditBone), "eBone"); - - BLI_strncpy(bone->name, name, sizeof(bone->name)); - ED_armature_ebone_unique_name(list, bone->name, NULL); - - BLI_addtail(list, bone); - - bone->flag |= BONE_TIPSEL; - bone->weight = 1.0F; - bone->dist = 0.25F; - bone->xwidth = 0.1; - bone->zwidth = 0.1; - bone->rad_head = 0.10; - bone->rad_tail = 0.05; - bone->segments = 1; - bone->layer = 1; //arm->layer; - - /* Bendy-Bone parameters */ - bone->roll1 = 0.0f; - bone->roll2 = 0.0f; - bone->curveInX = 0.0f; - bone->curveInY = 0.0f; - bone->curveOutX = 0.0f; - bone->curveOutY = 0.0f; - bone->ease1 = 1.0f; - bone->ease2 = 1.0f; - bone->scaleIn = 1.0f; - bone->scaleOut = 1.0f; - - return bone; -} -#endif - -#if 0 /* UNUSED */ -static void generateMissingArcsFromNode(RigGraph *rigg, ReebNode *node, int multi_level_limit) -{ - while (node->multi_level > multi_level_limit && node->link_up) - { - node = node->link_up; - } - - while (node->multi_level < multi_level_limit && node->link_down) - { - node = node->link_down; - } - - if (node->multi_level == multi_level_limit) - { - int i; - - for (i = 0; i < node->degree; i++) - { - ReebArc *earc = node->arcs[i]; - - if (earc->flag == ARC_FREE && earc->head == node) - { - ReebNode *other = BIF_otherNodeFromIndex(earc, node); - - earc->flag = ARC_USED; - - //generateBonesForArc(rigg, earc, node, other); - generateMissingArcsFromNode(rigg, other, multi_level_limit); - } - } - } -} - -static void generateMissingArcs(RigGraph *rigg) -{ - ReebGraph *reebg; - int multi_level_limit = 5; - - for (reebg = rigg->link_mesh; reebg; reebg = reebg->link_up) - { - ReebArc *earc; - - for (earc = reebg->arcs.first; earc; earc = earc->next) - { - if (earc->flag == ARC_USED) - { - generateMissingArcsFromNode(rigg, earc->head, multi_level_limit); - generateMissingArcsFromNode(rigg, earc->tail, multi_level_limit); - } - } - } -} -#endif - -/************************************ RETARGETTING *****************************************************/ - -static void repositionControl(RigGraph *rigg, RigControl *ctrl, float head[3], float tail[3], float qrot[4], float resize); - -static void repositionTailControl(RigGraph *rigg, RigControl *ctrl); - -static void finalizeControl(RigGraph *rigg, RigControl *ctrl, float resize) -{ - if ((ctrl->flag & RIG_CTRL_DONE) == RIG_CTRL_DONE) { - RigControl *ctrl_child; - -#if 0 - printf("CTRL: %s LINK: %s", ctrl->bone->name, ctrl->link->name); - - if (ctrl->link_tail) - { - printf(" TAIL: %s", ctrl->link_tail->name); - } - - printf("\n"); -#endif - - /* if there was a tail link: apply link, recalc resize factor and qrot */ - if (ctrl->tail_mode != TL_NONE) { - float *tail_vec = NULL; - float v1[3], v2[3], qtail[4]; - - if (ctrl->tail_mode == TL_TAIL) { - tail_vec = ctrl->link_tail->tail; - } - else if (ctrl->tail_mode == TL_HEAD) { - tail_vec = ctrl->link_tail->head; - } - - sub_v3_v3v3(v1, ctrl->bone->tail, ctrl->bone->head); - sub_v3_v3v3(v2, tail_vec, ctrl->bone->head); - - copy_v3_v3(ctrl->bone->tail, tail_vec); - - rotation_between_vecs_to_quat(qtail, v1, v2); - mul_qt_qtqt(ctrl->qrot, qtail, ctrl->qrot); - - resize = len_v3(v2) / len_v3v3(ctrl->head, ctrl->tail); - } - - ctrl->bone->roll = rollBoneByQuat(ctrl->bone, ctrl->up_axis, ctrl->qrot); - - /* Cascade to connected control bones */ - for (ctrl_child = rigg->controls.first; ctrl_child; ctrl_child = ctrl_child->next) { - if (ctrl_child->link == ctrl->bone) { - repositionControl(rigg, ctrl_child, ctrl->bone->head, ctrl->bone->tail, ctrl->qrot, resize); - } - if (ctrl_child->link_tail == ctrl->bone) { - repositionTailControl(rigg, ctrl_child); - } - } - } -} - -static void repositionTailControl(RigGraph *rigg, RigControl *ctrl) -{ - ctrl->flag |= RIG_CTRL_TAIL_DONE; - - finalizeControl(rigg, ctrl, 1); /* resize will be recalculated anyway so we don't need it */ -} - -static void repositionControl(RigGraph *rigg, RigControl *ctrl, float head[3], float UNUSED(tail[3]), float qrot[4], float resize) -{ - float parent_offset[3], tail_offset[3]; - - copy_v3_v3(parent_offset, ctrl->offset); - mul_v3_fl(parent_offset, resize); - mul_qt_v3(qrot, parent_offset); - - add_v3_v3v3(ctrl->bone->head, head, parent_offset); - - ctrl->flag |= RIG_CTRL_HEAD_DONE; - - copy_qt_qt(ctrl->qrot, qrot); - - if (ctrl->tail_mode == TL_NONE) { - sub_v3_v3v3(tail_offset, ctrl->tail, ctrl->head); - mul_v3_fl(tail_offset, resize); - mul_qt_v3(qrot, tail_offset); - - add_v3_v3v3(ctrl->bone->tail, ctrl->bone->head, tail_offset); - - ctrl->flag |= RIG_CTRL_TAIL_DONE; - } - - finalizeControl(rigg, ctrl, resize); -} - -static void repositionBone(bContext *C, RigGraph *rigg, RigEdge *edge, float vec0[3], float vec1[3], float up_axis[3]) -{ - Scene *scene = CTX_data_scene(C); - EditBone *bone; - RigControl *ctrl; - float qrot[4], resize; - float v1[3], v2[3]; - float l1, l2; - - bone = edge->bone; - - sub_v3_v3v3(v1, edge->tail, edge->head); - sub_v3_v3v3(v2, vec1, vec0); - - l1 = normalize_v3(v1); - l2 = normalize_v3(v2); - - resize = l2 / l1; - - rotation_between_vecs_to_quat(qrot, v1, v2); - - copy_v3_v3(bone->head, vec0); - copy_v3_v3(bone->tail, vec1); - - if (!is_zero_v3(up_axis)) { - float qroll[4]; - - if (scene->toolsettings->skgen_retarget_roll == SK_RETARGET_ROLL_VIEW) { - bone->roll = rollBoneByQuatAligned(bone, edge->up_axis, qrot, qroll, up_axis); - } - else if (scene->toolsettings->skgen_retarget_roll == SK_RETARGET_ROLL_JOINT) { - bone->roll = rollBoneByQuatJoint(edge, edge->prev, qrot, qroll, up_axis); - } - else { - unit_qt(qroll); - } - - mul_qt_qtqt(qrot, qroll, qrot); - } - else { - bone->roll = rollBoneByQuat(bone, edge->up_axis, qrot); - } - - for (ctrl = rigg->controls.first; ctrl; ctrl = ctrl->next) { - if (ctrl->link == bone) { - repositionControl(rigg, ctrl, vec0, vec1, qrot, resize); - } - if (ctrl->link_tail == bone) { - repositionTailControl(rigg, ctrl); - } - } -} - -static RetargetMode detectArcRetargetMode(RigArc *arc); -static void retargetArctoArcLength(bContext *C, RigGraph *rigg, RigArc *iarc, RigNode *inode_start); - - -static RetargetMode detectArcRetargetMode(RigArc *iarc) -{ - RetargetMode mode = RETARGET_AGGRESSIVE; - ReebArc *earc = iarc->link_mesh; - RigEdge *edge; - int large_angle = 0; - float avg_angle = 0; - /* float avg_length = 0; */ /* UNUSED */ - int nb_edges = 0; - - - for (edge = iarc->edges.first; edge; edge = edge->next) { - avg_angle += edge->angle; - nb_edges++; - } - - avg_angle /= nb_edges - 1; /* -1 because last edge doesn't have an angle */ - - /* avg_length = iarc->length / nb_edges; */ /* UNUSED */ - - - if (nb_edges > 2) { - for (edge = iarc->edges.first; edge; edge = edge->next) { - if (fabsf(edge->angle - avg_angle) > (float)(M_PI / 6)) { - large_angle = 1; - } - } - } - else if (nb_edges == 2 && avg_angle > 0) { - large_angle = 1; - } - - - if (large_angle == 0) { - mode = RETARGET_LENGTH; - } - - if (earc->bcount <= (iarc->count - 1)) { - mode = RETARGET_LENGTH; - } - - return mode; -} - -#ifndef USE_THREADS -static void printMovesNeeded(int *positions, int nb_positions) -{ - int moves = 0; - int i; - - for (i = 0; i < nb_positions; i++) { - moves += positions[i] - (i + 1); - } - - printf("%i moves needed\n", moves); -} - -static void printPositions(int *positions, int nb_positions) -{ - int i; - - for (i = 0; i < nb_positions; i++) { - printf("%i ", positions[i]); - } - printf("\n"); -} -#endif - -#define MAX_COST FLT_MAX /* FIX ME */ - -static float costDistance(BArcIterator *iter, float *vec0, float *vec1, int i0, int i1, float distance_weight) -{ - EmbedBucket *bucket = NULL; - float max_dist = 0; - float v1[3], v2[3], c[3]; - float v1_inpf; - - if (distance_weight > 0) { - sub_v3_v3v3(v1, vec0, vec1); - - v1_inpf = dot_v3v3(v1, v1); - - if (v1_inpf > 0) { - int j; - for (j = i0 + 1; j < i1 - 1; j++) { - float dist; - - bucket = IT_peek(iter, j); - - sub_v3_v3v3(v2, bucket->p, vec1); - - cross_v3_v3v3(c, v1, v2); - - dist = dot_v3v3(c, c) / v1_inpf; - - max_dist = dist > max_dist ? dist : max_dist; - } - - return distance_weight * max_dist; - } - else { - return MAX_COST; - } - } - else { - return 0; - } -} - -static float costAngle(float original_angle, float vec_first[3], float vec_second[3], float angle_weight) -{ - if (angle_weight > 0) { - float current_angle; - - if (!is_zero_v3(vec_first) && !is_zero_v3(vec_second)) { - current_angle = saacos(dot_v3v3(vec_first, vec_second)); - - return angle_weight * fabsf(current_angle - original_angle); - } - else { - return angle_weight * (float)M_PI; - } - } - else { - return 0; - } -} - -static float costLength(float original_length, float current_length, float length_weight) -{ - if (current_length == 0) { - return MAX_COST; - } - else { - float length_ratio = fabsf((current_length - original_length) / original_length); - return length_weight * length_ratio * length_ratio; - } -} - -#if 0 -static float calcCostLengthDistance(BArcIterator *iter, float **vec_cache, RigEdge *edge, float *vec1, float *vec2, int i1, int i2) -{ - float vec[3]; - float length; - - sub_v3_v3v3(vec, vec2, vec1); - length = normalize_v3(vec); - - return costLength(edge->length, length) + costDistance(iter, vec1, vec2, i1, i2); -} -#endif - -static float calcCostAngleLengthDistance(BArcIterator *iter, float **UNUSED(vec_cache), RigEdge *edge, - float *vec0, float *vec1, float *vec2, int i1, int i2, - float angle_weight, float length_weight, float distance_weight) -{ - float vec_second[3], vec_first[3]; - float length2; - float new_cost = 0; - - sub_v3_v3v3(vec_second, vec2, vec1); - length2 = normalize_v3(vec_second); - - - /* Angle cost */ - if (edge->prev) { - sub_v3_v3v3(vec_first, vec1, vec0); - normalize_v3(vec_first); - - new_cost += costAngle(edge->prev->angle, vec_first, vec_second, angle_weight); - } - - /* Length cost */ - new_cost += costLength(edge->length, length2, length_weight); - - /* Distance cost */ - new_cost += costDistance(iter, vec1, vec2, i1, i2, distance_weight); - - return new_cost; -} - -static int indexMemoNode(int nb_positions, int previous, int current, int joints_left) -{ - return joints_left * nb_positions * nb_positions + current * nb_positions + previous; -} - -static void copyMemoPositions(int *positions, MemoNode *table, int nb_positions, int joints_left) -{ - int previous = 0, current = 0; - int i = 0; - - for (i = 0; joints_left > 0; joints_left--, i++) { - MemoNode *node; - node = table + indexMemoNode(nb_positions, previous, current, joints_left); - - positions[i] = node->next; - - previous = current; - current = node->next; - } -} - -static MemoNode *solveJoints(MemoNode *table, BArcIterator *iter, float **vec_cache, - int nb_joints, int nb_positions, int previous, int current, RigEdge *edge, - int joints_left, float angle_weight, float length_weight, float distance_weight) -{ - MemoNode *node; - int index = indexMemoNode(nb_positions, previous, current, joints_left); - - node = table + index; - - if (node->weight != 0) { - return node; - } - else if (joints_left == 0) { - float *vec0 = vec_cache[previous]; - float *vec1 = vec_cache[current]; - float *vec2 = vec_cache[nb_positions + 1]; - - node->weight = calcCostAngleLengthDistance(iter, vec_cache, edge, vec0, vec1, vec2, current, iter->length, angle_weight, length_weight, distance_weight); - - return node; - } - else { - MemoNode *min_node = NULL; - float *vec0 = vec_cache[previous]; - float *vec1 = vec_cache[current]; - float min_weight = 0.0f; - int min_next = 0; - int next; - - for (next = current + 1; next <= nb_positions - (joints_left - 1); next++) { - MemoNode *next_node; - float *vec2 = vec_cache[next]; - float weight = 0.0f; - - /* ADD WEIGHT OF PREVIOUS - CURRENT - NEXT triple */ - weight = calcCostAngleLengthDistance(iter, vec_cache, edge, vec0, vec1, vec2, current, next, angle_weight, length_weight, distance_weight); - - if (weight >= MAX_COST) { - continue; - } - - /* add node weight */ - next_node = solveJoints(table, iter, vec_cache, nb_joints, nb_positions, current, next, edge->next, joints_left - 1, angle_weight, length_weight, distance_weight); - weight += next_node->weight; - - if (min_node == NULL || weight < min_weight) { - min_weight = weight; - min_node = next_node; - min_next = next; - } - } - - if (min_node) { - node->weight = min_weight; - node->next = min_next; - return node; - } - else { - node->weight = MAX_COST; - return node; - } - } - -} - -static int testFlipArc(RigArc *iarc, RigNode *inode_start) -{ - ReebArc *earc = iarc->link_mesh; - ReebNode *enode_start = BIF_NodeFromIndex(earc, inode_start->link_mesh); - - /* no flip needed if both nodes are the same */ - if ((enode_start == earc->head && inode_start == iarc->head) || - (enode_start == earc->tail && inode_start == iarc->tail)) - { - return 0; - } - else { - return 1; - } -} - -static void retargetArctoArcAggresive(bContext *C, RigGraph *rigg, RigArc *iarc, RigNode *inode_start) -{ - ReebArcIterator arc_iter; - BArcIterator *iter = (BArcIterator *)&arc_iter; - RigEdge *edge; - ReebNode *node_start, *node_end; - ReebArc *earc = iarc->link_mesh; - float angle_weight = 1.0; // GET FROM CONTEXT - float length_weight = 1.0; - float distance_weight = 1.0; -#ifndef USE_THREADS - float min_cost = FLT_MAX; -#endif - float *vec0, *vec1; - int *best_positions; - int nb_edges = BLI_listbase_count(&iarc->edges); - int nb_joints = nb_edges - 1; - RetargetMethod method = METHOD_MEMOIZE; - int i; - - if (nb_joints > earc->bcount) { - printf("NOT ENOUGH BUCKETS!\n"); - return; - } - - best_positions = MEM_callocN(sizeof(int) * nb_joints, "Best positions"); - - if (testFlipArc(iarc, inode_start)) { - node_start = earc->tail; - node_end = earc->head; - } - else { - node_start = earc->head; - node_end = earc->tail; - } - - /* equal number of joints and potential position, just fill them in */ - if (nb_joints == earc->bcount) { - /* init with first values */ - for (i = 0; i < nb_joints; i++) { - best_positions[i] = i + 1; - } - } - if (method == METHOD_MEMOIZE) { - int nb_positions = earc->bcount; - int nb_memo_nodes = nb_positions * nb_positions * (nb_joints + 1); - MemoNode *table = MEM_callocN(nb_memo_nodes * sizeof(MemoNode), "memoization table"); -#ifndef USE_THREADS - MemoNode *result; -#endif - float **positions_cache = MEM_callocN(sizeof(float *) * (nb_positions + 2), "positions cache"); - - positions_cache[0] = node_start->p; - positions_cache[nb_positions + 1] = node_end->p; - - initArcIterator(iter, earc, node_start); - - for (i = 1; i <= nb_positions; i++) { - EmbedBucket *bucket = IT_peek(iter, i); - positions_cache[i] = bucket->p; - } - -#ifndef USE_THREADS - result = solveJoints(table, iter, positions_cache, nb_joints, earc->bcount, 0, 0, iarc->edges.first, nb_joints, angle_weight, length_weight, distance_weight); - min_cost = result->weight; -#else - solveJoints(table, iter, positions_cache, nb_joints, earc->bcount, 0, 0, iarc->edges.first, nb_joints, angle_weight, length_weight, distance_weight); -#endif - - copyMemoPositions(best_positions, table, earc->bcount, nb_joints); - - MEM_freeN(table); - MEM_freeN(positions_cache); - } - - vec0 = node_start->p; - initArcIterator(iter, earc, node_start); - -#ifndef USE_THREADS - printPositions(best_positions, nb_joints); - printMovesNeeded(best_positions, nb_joints); - printf("min_cost %f\n", min_cost); - printf("buckets: %i\n", earc->bcount); -#endif - - /* set joints to best position */ - for (edge = iarc->edges.first, i = 0; - edge; - edge = edge->next, i++) - { - float *no = NULL; - if (i < nb_joints) { - EmbedBucket *bucket = IT_peek(iter, best_positions[i]); - vec1 = bucket->p; - no = bucket->no; - } - else { - vec1 = node_end->p; - no = node_end->no; - } - - if (edge->bone) { - repositionBone(C, rigg, edge, vec0, vec1, no); - } - - vec0 = vec1; - } - - MEM_freeN(best_positions); -} - -static void retargetArctoArcLength(bContext *C, RigGraph *rigg, RigArc *iarc, RigNode *inode_start) -{ - ReebArcIterator arc_iter; - BArcIterator *iter = (BArcIterator *)&arc_iter; - ReebArc *earc = iarc->link_mesh; - ReebNode *node_start, *node_end; - RigEdge *edge; - EmbedBucket *bucket = NULL; - float embedding_length = 0; - float *vec0 = NULL; - float *vec1 = NULL; - float *previous_vec = NULL; - - - if (testFlipArc(iarc, inode_start)) { - node_start = (ReebNode *)earc->tail; - node_end = (ReebNode *)earc->head; - } - else { - node_start = (ReebNode *)earc->head; - node_end = (ReebNode *)earc->tail; - } - - initArcIterator(iter, earc, node_start); - - bucket = IT_next(iter); - - vec0 = node_start->p; - - while (bucket != NULL) { - vec1 = bucket->p; - - embedding_length += len_v3v3(vec0, vec1); - - vec0 = vec1; - bucket = IT_next(iter); - } - - embedding_length += len_v3v3(node_end->p, vec1); - - /* fit bones */ - initArcIterator(iter, earc, node_start); - - bucket = IT_next(iter); - - vec0 = node_start->p; - previous_vec = vec0; - vec1 = bucket->p; - - for (edge = iarc->edges.first; edge; edge = edge->next) { - float new_bone_length = edge->length / iarc->length * embedding_length; - float *no = NULL; - float length = 0; - - while (bucket && new_bone_length > length) { - length += len_v3v3(previous_vec, vec1); - bucket = IT_next(iter); - previous_vec = vec1; - vec1 = bucket->p; - no = bucket->no; - } - - if (bucket == NULL) { - vec1 = node_end->p; - no = node_end->no; - } - - /* no need to move virtual edges (space between unconnected bones) */ - if (edge->bone) { - repositionBone(C, rigg, edge, vec0, vec1, no); - } - - vec0 = vec1; - previous_vec = vec1; - } -} - -static void retargetArctoArc(bContext *C, RigGraph *rigg, RigArc *iarc, RigNode *inode_start) -{ - RetargetParam *p = MEM_callocN(sizeof(RetargetParam), "RetargetParam"); - - p->rigg = rigg; - p->iarc = iarc; - p->inode_start = inode_start; - p->context = C; - - BLI_task_pool_push(rigg->task_pool, exec_retargetArctoArc, p, true, TASK_PRIORITY_HIGH); -} - -void exec_retargetArctoArc(TaskPool * __restrict UNUSED(pool), void *taskdata, int UNUSED(threadid)) -{ - RetargetParam *p = (RetargetParam *)taskdata; - RigGraph *rigg = p->rigg; - RigArc *iarc = p->iarc; - bContext *C = p->context; - RigNode *inode_start = p->inode_start; - ReebArc *earc = iarc->link_mesh; - - if (BLI_listbase_is_single(&iarc->edges)) { - RigEdge *edge = iarc->edges.first; - - if (testFlipArc(iarc, inode_start)) { - repositionBone(C, rigg, edge, earc->tail->p, earc->head->p, earc->head->no); - } - else { - repositionBone(C, rigg, edge, earc->head->p, earc->tail->p, earc->tail->no); - } - } - else { - RetargetMode mode = detectArcRetargetMode(iarc); - - if (mode == RETARGET_AGGRESSIVE) { - retargetArctoArcAggresive(C, rigg, iarc, inode_start); - } - else { - retargetArctoArcLength(C, rigg, iarc, inode_start); - } - } -} - -static void matchMultiResolutionNode(RigGraph *rigg, RigNode *inode, ReebNode *top_node) -{ - ReebNode *enode = top_node; - ReebGraph *reebg = BIF_graphForMultiNode(rigg->link_mesh, enode); - int ishape, eshape; - - ishape = BLI_subtreeShape((BGraph *)rigg, (BNode *)inode, NULL, 0) % SHAPE_LEVELS; - eshape = BLI_subtreeShape((BGraph *)reebg, (BNode *)enode, NULL, 0) % SHAPE_LEVELS; - - inode->link_mesh = enode; - - while (ishape == eshape && enode->link_down) { - inode->link_mesh = enode; - - enode = enode->link_down; - reebg = BIF_graphForMultiNode(rigg->link_mesh, enode); /* replace with call to link_down once that exists */ - eshape = BLI_subtreeShape((BGraph *)reebg, (BNode *)enode, NULL, 0) % SHAPE_LEVELS; - } -} - -static void markMultiResolutionChildArc(ReebNode *end_enode, ReebNode *enode) -{ - int i; - - for (i = 0; i < enode->degree; i++) { - ReebArc *earc = (ReebArc *)enode->arcs[i]; - - if (earc->flag == ARC_FREE) { - earc->flag = ARC_TAKEN; - - if (earc->tail->degree > 1 && earc->tail != end_enode) { - markMultiResolutionChildArc(end_enode, earc->tail); - } - break; - } - } -} - -static void markMultiResolutionArc(ReebArc *start_earc) -{ - if (start_earc->link_up) { - ReebArc *earc; - for (earc = start_earc->link_up; earc; earc = earc->link_up) { - earc->flag = ARC_TAKEN; - - if (earc->tail->index != start_earc->tail->index) { - markMultiResolutionChildArc(earc->tail, earc->tail); - } - } - } -} - -static void matchMultiResolutionArc(RigGraph *rigg, RigNode *start_node, RigArc *next_iarc, ReebArc *next_earc) -{ - ReebNode *enode = next_earc->head; - ReebGraph *reebg = BIF_graphForMultiNode(rigg->link_mesh, enode); - int ishape, eshape; - - ishape = BLI_subtreeShape((BGraph *)rigg, (BNode *)start_node, (BArc *)next_iarc, 1) % SHAPE_LEVELS; - eshape = BLI_subtreeShape((BGraph *)reebg, (BNode *)enode, (BArc *)next_earc, 1) % SHAPE_LEVELS; - - while (ishape != eshape && next_earc->link_up) { - next_earc->flag = ARC_TAKEN; // mark previous as taken, to prevent backtrack on lower levels - - next_earc = next_earc->link_up; - reebg = reebg->link_up; - enode = next_earc->head; - eshape = BLI_subtreeShape((BGraph *)reebg, (BNode *)enode, (BArc *)next_earc, 1) % SHAPE_LEVELS; - } - - next_earc->flag = ARC_USED; - next_iarc->link_mesh = next_earc; - - /* mark all higher levels as taken too */ - markMultiResolutionArc(next_earc); -// while (next_earc->link_up) -// { -// next_earc = next_earc->link_up; -// next_earc->flag = ARC_TAKEN; -// } -} - -static void matchMultiResolutionStartingNode(RigGraph *rigg, ReebGraph *reebg, RigNode *inode) -{ - ReebNode *enode; - int ishape, eshape; - - enode = reebg->nodes.first; - - ishape = BLI_subtreeShape((BGraph *)rigg, (BNode *)inode, NULL, 0) % SHAPE_LEVELS; - eshape = BLI_subtreeShape((BGraph *)rigg->link_mesh, (BNode *)enode, NULL, 0) % SHAPE_LEVELS; - - while (ishape != eshape && reebg->link_up) { - reebg = reebg->link_up; - - enode = reebg->nodes.first; - - eshape = BLI_subtreeShape((BGraph *)reebg, (BNode *)enode, NULL, 0) % SHAPE_LEVELS; - } - - inode->link_mesh = enode; -} - -static void findCorrespondingArc(RigGraph *rigg, RigArc *start_arc, RigNode *start_node, RigArc *next_iarc, int root) -{ - ReebNode *enode = start_node->link_mesh; - ReebArc *next_earc; - int symmetry_level = next_iarc->symmetry_level; - int symmetry_group = next_iarc->symmetry_group; - int symmetry_flag = next_iarc->symmetry_flag; - int i; - - next_iarc->link_mesh = NULL; - -// if (root) -// { -// printf("-----------------------\n"); -// printf("MATCHING LIMB\n"); -// RIG_printArcBones(next_iarc); -// } - - for (i = 0; i < enode->degree; i++) { - next_earc = (ReebArc *)enode->arcs[i]; - -// if (next_earc->flag == ARC_FREE) -// { -// printf("candidate (level %i ?= %i) (flag %i ?= %i) (group %i ?= %i)\n", -// symmetry_level, next_earc->symmetry_level, -// symmetry_flag, next_earc->symmetry_flag, -// symmetry_group, next_earc->symmetry_flag); -// } - - if (next_earc->flag == ARC_FREE && - next_earc->symmetry_flag == symmetry_flag && - next_earc->symmetry_group == symmetry_group && - next_earc->symmetry_level == symmetry_level) - { -// printf("CORRESPONDING ARC FOUND\n"); -// printf("flag %i -- level %i -- flag %i -- group %i\n", next_earc->flag, next_earc->symmetry_level, next_earc->symmetry_flag, next_earc->symmetry_group); - - matchMultiResolutionArc(rigg, start_node, next_iarc, next_earc); - break; - } - } - - /* not found, try at higher nodes (lower node might have filtered internal arcs, messing shape of tree */ - if (next_iarc->link_mesh == NULL) { -// printf("NO CORRESPONDING ARC FOUND - GOING TO HIGHER LEVELS\n"); - - if (enode->link_up) { - start_node->link_mesh = enode->link_up; - findCorrespondingArc(rigg, start_arc, start_node, next_iarc, 0); - } - } - - /* still not found, print debug info */ - if (root && next_iarc->link_mesh == NULL) { - start_node->link_mesh = enode; /* linking back with root node */ - -// printf("NO CORRESPONDING ARC FOUND\n"); -// RIG_printArcBones(next_iarc); -// -// printf("ON NODE %i, multilevel %i\n", enode->index, enode->multi_level); -// -// printf("LOOKING FOR\n"); -// printf("flag %i -- level %i -- flag %i -- group %i\n", ARC_FREE, symmetry_level, symmetry_flag, symmetry_group); -// -// printf("CANDIDATES\n"); -// for (i = 0; i < enode->degree; i++) -// { -// next_earc = (ReebArc *)enode->arcs[i]; -// printf("flag %i -- level %i -- flag %i -- group %i\n", next_earc->flag, next_earc->symmetry_level, next_earc->symmetry_flag, next_earc->symmetry_group); -// } - - /* Emergency matching */ - for (i = 0; i < enode->degree; i++) { - next_earc = (ReebArc *)enode->arcs[i]; - - if (next_earc->flag == ARC_FREE && next_earc->symmetry_level == symmetry_level) { -// printf("USING:\n"); -// printf("flag %i -- level %i -- flag %i -- group %i\n", next_earc->flag, next_earc->symmetry_level, next_earc->symmetry_flag, next_earc->symmetry_group); - matchMultiResolutionArc(rigg, start_node, next_iarc, next_earc); - break; - } - } - } - -} - -static void retargetSubgraph(bContext *C, RigGraph *rigg, RigArc *start_arc, RigNode *start_node) -{ - RigNode *inode = start_node; - int i; - - /* no start arc on first node */ - if (start_arc) { - ReebNode *enode = start_node->link_mesh; - ReebArc *earc = start_arc->link_mesh; - - retargetArctoArc(C, rigg, start_arc, start_node); - - enode = BIF_otherNodeFromIndex(earc, enode); - inode = (RigNode *)BLI_otherNode((BArc *)start_arc, (BNode *)inode); - - /* match with lowest node with correct shape */ - matchMultiResolutionNode(rigg, inode, enode); - } - - for (i = 0; i < inode->degree; i++) { - RigArc *next_iarc = (RigArc *)inode->arcs[i]; - - /* no back tracking */ - if (next_iarc != start_arc) { - findCorrespondingArc(rigg, start_arc, inode, next_iarc, 1); - if (next_iarc->link_mesh) { - retargetSubgraph(C, rigg, next_iarc, inode); - } - } - } -} - -static void finishRetarget(RigGraph *rigg) -{ - BLI_task_pool_work_and_wait(rigg->task_pool); -} - -static void adjustGraphs(bContext *C, RigGraph *rigg) -{ - Main *bmain = CTX_data_main(C); - bArmature *arm = rigg->ob->data; - RigArc *arc; - - for (arc = rigg->arcs.first; arc; arc = arc->next) { - if (arc->link_mesh) { - retargetArctoArc(C, rigg, arc, arc->head); - } - } - - finishRetarget(rigg); - - /* Turn the list into an armature */ - arm->edbo = rigg->editbones; - ED_armature_from_edit(bmain, arm); - - ED_undo_push(C, "Retarget Skeleton"); -} - -static void retargetGraphs(bContext *C, RigGraph *rigg) -{ - Main *bmain = CTX_data_main(C); - bArmature *arm = rigg->ob->data; - ReebGraph *reebg = rigg->link_mesh; - RigNode *inode; - - /* flag all ReebArcs as free */ - BIF_flagMultiArcs(reebg, ARC_FREE); - - /* return to first level */ - inode = rigg->head; - - matchMultiResolutionStartingNode(rigg, reebg, inode); - - retargetSubgraph(C, rigg, NULL, inode); - - //generateMissingArcs(rigg); - - finishRetarget(rigg); - - /* Turn the list into an armature */ - arm->edbo = rigg->editbones; - ED_armature_from_edit(bmain, arm); -} - -const char *RIG_nameBone(RigGraph *rg, int arc_index, int bone_index) -{ - RigArc *arc = BLI_findlink(&rg->arcs, arc_index); - RigEdge *iedge; - - if (arc == NULL) { - return "None"; - } - - if (bone_index == BLI_listbase_count(&arc->edges)) { - return "Last joint"; - } - - iedge = BLI_findlink(&arc->edges, bone_index); - - if (iedge == NULL) { - return "Done"; - } - - if (iedge->bone == NULL) { - return "Bone offset"; - } - - return iedge->bone->name; -} - -int RIG_nbJoints(RigGraph *rg) -{ - RigArc *arc; - int total = 0; - - total += BLI_listbase_count(&rg->nodes); - - for (arc = rg->arcs.first; arc; arc = arc->next) { - total += BLI_listbase_count(&arc->edges) - 1; /* -1 because end nodes are already counted */ - } - - return total; -} - -static void BIF_freeRetarget(void) -{ - if (GLOBAL_RIGG) { - RIG_freeRigGraph((BGraph *)GLOBAL_RIGG); - GLOBAL_RIGG = NULL; - } -} - -void BIF_retargetArmature(bContext *C) -{ - ReebGraph *reebg; - double start_time, end_time; - double gstart_time, gend_time; - double reeb_time, rig_time = 0.0, retarget_time = 0.0, total_time; - - gstart_time = start_time = PIL_check_seconds_timer(); - - reebg = BIF_ReebGraphMultiFromEditMesh(C); - - end_time = PIL_check_seconds_timer(); - reeb_time = end_time - start_time; - - printf("Reeb Graph created\n"); - - CTX_DATA_BEGIN (C, Base *, base, selected_editable_bases) - { - Object *ob = base->object; - - if (ob->type == OB_ARMATURE) { - RigGraph *rigg; - bArmature *arm; - - arm = ob->data; - - /* Put the armature into editmode */ - - - start_time = PIL_check_seconds_timer(); - - rigg = RIG_graphFromArmature(C, ob, arm); - - end_time = PIL_check_seconds_timer(); - rig_time = end_time - start_time; - - printf("Armature graph created\n"); - - //RIG_printGraph(rigg); - - rigg->link_mesh = reebg; - - printf("retargetting %s\n", ob->id.name); - - start_time = PIL_check_seconds_timer(); - - retargetGraphs(C, rigg); - - end_time = PIL_check_seconds_timer(); - retarget_time = end_time - start_time; - - BIF_freeRetarget(); - - GLOBAL_RIGG = rigg; - - break; /* only one armature at a time */ - } - } - CTX_DATA_END; - - - gend_time = PIL_check_seconds_timer(); - - total_time = gend_time - gstart_time; - - printf("-----------\n"); - printf("runtime: \t%.3f\n", total_time); - printf("reeb: \t\t%.3f (%.1f%%)\n", reeb_time, reeb_time / total_time * 100); - printf("rig: \t\t%.3f (%.1f%%)\n", rig_time, rig_time / total_time * 100); - printf("retarget: \t%.3f (%.1f%%)\n", retarget_time, retarget_time / total_time * 100); - printf("-----------\n"); - - ED_undo_push(C, "Retarget Skeleton"); - - // XXX -// allqueue(REDRAWVIEW3D, 0); -} - -void BIF_retargetArc(bContext *C, ReebArc *earc, RigGraph *template_rigg) -{ - Object *obedit = CTX_data_edit_object(C); - Scene *scene = CTX_data_scene(C); - bArmature *armedit = obedit->data; - Object *ob; - RigGraph *rigg; - RigArc *iarc; - char *side_string = scene->toolsettings->skgen_side_string; - char *num_string = scene->toolsettings->skgen_num_string; - int free_template = 0; - - if (template_rigg) { - ob = template_rigg->ob; - } - else { - free_template = 1; - ob = obedit; - template_rigg = armatureSelectedToGraph(C, ob, ob->data); - } - - if (BLI_listbase_is_empty(&template_rigg->arcs)) { -// XXX -// error("No Template and no deforming bones selected"); - return; - } - - rigg = cloneRigGraph(template_rigg, armedit->edbo, obedit, side_string, num_string); - - iarc = rigg->arcs.first; - - iarc->link_mesh = earc; - iarc->head->link_mesh = earc->head; - iarc->tail->link_mesh = earc->tail; - - retargetArctoArc(C, rigg, iarc, iarc->head); - - finishRetarget(rigg); - - /* free template if it comes from the edit armature */ - if (free_template) { - RIG_freeRigGraph((BGraph *)template_rigg); - } - RIG_freeRigGraph((BGraph *)rigg); - - ED_armature_edit_validate_active(armedit); - -// XXX -// allqueue(REDRAWVIEW3D, 0); -} - -void BIF_adjustRetarget(bContext *C) -{ - if (GLOBAL_RIGG) { - adjustGraphs(C, GLOBAL_RIGG); - } -} |