int join_mesh_exec(bContext *C, wmOperator *op) { Main *bmain= CTX_data_main(C); Scene *scene= CTX_data_scene(C); Object *ob= CTX_data_active_object(C); Material **matar, *ma; Mesh *me; MVert *mvert, *mv; MEdge *medge = NULL; MFace *mface = NULL; Key *key, *nkey=NULL; KeyBlock *kb, *okb, *kbn; float imat[4][4], cmat[4][4], *fp1, *fp2, curpos; int a, b, totcol, totmat=0, totedge=0, totvert=0, totface=0, ok=0; int vertofs, *matmap=NULL; int i, j, index, haskey=0, edgeofs, faceofs; bDeformGroup *dg, *odg; MDeformVert *dvert; CustomData vdata, edata, fdata; if(scene->obedit) { BKE_report(op->reports, RPT_WARNING, "Cant join while in editmode"); return OPERATOR_CANCELLED; } /* ob is the object we are adding geometry to */ if(!ob || ob->type!=OB_MESH) { BKE_report(op->reports, RPT_WARNING, "Active object is not a mesh"); return OPERATOR_CANCELLED; } /* count & check */ CTX_DATA_BEGIN(C, Base*, base, selected_editable_bases) { if(base->object->type==OB_MESH) { me= base->object->data; totvert+= me->totvert; totedge+= me->totedge; totface+= me->totface; totmat+= base->object->totcol; if(base->object == ob) ok= 1; /* check for shapekeys */ if(me->key) haskey++; } } CTX_DATA_END; /* that way the active object is always selected */ if(ok==0) { BKE_report(op->reports, RPT_WARNING, "Active object is not a selected mesh"); return OPERATOR_CANCELLED; } /* only join meshes if there are verts to join, there aren't too many, and we only had one mesh selected */ me= (Mesh *)ob->data; key= me->key; if(totvert==0 || totvert==me->totvert) { BKE_report(op->reports, RPT_WARNING, "No mesh data to join"); return OPERATOR_CANCELLED; } if(totvert > MESH_MAX_VERTS) { BKE_reportf(op->reports, RPT_WARNING, "Joining results in %d vertices, limit is " STRINGIFY(MESH_MAX_VERTS), totvert); return OPERATOR_CANCELLED; } /* new material indices and material array */ matar= MEM_callocN(sizeof(void*)*totmat, "join_mesh matar"); if (totmat) matmap= MEM_callocN(sizeof(int)*totmat, "join_mesh matmap"); totcol= ob->totcol; /* obact materials in new main array, is nicer start! */ for(a=0; a<ob->totcol; a++) { matar[a]= give_current_material(ob, a+1); id_us_plus((ID *)matar[a]); /* increase id->us : will be lowered later */ } /* - if destination mesh had shapekeys, move them somewhere safe, and set up placeholders * with arrays that are large enough to hold shapekey data for all meshes * - if destination mesh didn't have shapekeys, but we encountered some in the meshes we're * joining, set up a new keyblock and assign to the mesh */ if(key) { /* make a duplicate copy that will only be used here... (must remember to free it!) */ nkey= copy_key(key); /* for all keys in old block, clear data-arrays */ for(kb= key->block.first; kb; kb= kb->next) { if(kb->data) MEM_freeN(kb->data); kb->data= MEM_callocN(sizeof(float)*3*totvert, "join_shapekey"); kb->totelem= totvert; kb->weights= NULL; } } else if(haskey) { /* add a new key-block and add to the mesh */ key= me->key= add_key((ID *)me); key->type = KEY_RELATIVE; } /* first pass over objects - copying materials and vertexgroups across */ CTX_DATA_BEGIN(C, Base*, base, selected_editable_bases) { /* only act if a mesh, and not the one we're joining to */ if((ob!=base->object) && (base->object->type==OB_MESH)) { me= base->object->data; /* Join this object's vertex groups to the base one's */ for(dg=base->object->defbase.first; dg; dg=dg->next) { /* See if this group exists in the object (if it doesn't, add it to the end) */ if(!defgroup_find_name(ob, dg->name)) { odg = MEM_callocN(sizeof(bDeformGroup), "join deformGroup"); memcpy(odg, dg, sizeof(bDeformGroup)); BLI_addtail(&ob->defbase, odg); } } if(ob->defbase.first && ob->actdef==0) ob->actdef=1; if(me->totvert) { /* Add this object's materials to the base one's if they don't exist already (but only if limits not exceeded yet) */ if(totcol < MAXMAT) { for(a=1; a<=base->object->totcol; a++) { ma= give_current_material(base->object, a); for(b=0; b<totcol; b++) { if(ma == matar[b]) break; } if(b==totcol) { matar[b]= ma; if(ma) { id_us_plus(&ma->id); } totcol++; } if(totcol >= MAXMAT) break; } } /* if this mesh has shapekeys, check if destination mesh already has matching entries too */ if(me->key && key) { for(kb= me->key->block.first; kb; kb= kb->next) { /* if key doesn't exist in destination mesh, add it */ if(key_get_named_keyblock(key, kb->name) == NULL) { /* copy this existing one over to the new shapekey block */ kbn= MEM_dupallocN(kb); kbn->prev= kbn->next= NULL; /* adjust adrcode and other settings to fit (allocate a new data-array) */ kbn->data= MEM_callocN(sizeof(float)*3*totvert, "joined_shapekey"); kbn->totelem= totvert; kbn->weights= NULL; okb= key->block.last; curpos= (okb) ? okb->pos : -0.1f; if(key->type == KEY_RELATIVE) kbn->pos= curpos + 0.1f; else kbn->pos= curpos; BLI_addtail(&key->block, kbn); kbn->adrcode= key->totkey; key->totkey++; if(key->totkey==1) key->refkey= kbn; // XXX 2.5 Animato #if 0 /* also, copy corresponding ipo-curve to ipo-block if applicable */ if(me->key->ipo && key->ipo) { // FIXME... this is a luxury item! puts("FIXME: ignoring IPO's when joining shapekeys on Meshes for now..."); } #endif } } } } } } CTX_DATA_END; /* setup new data for destination mesh */ memset(&vdata, 0, sizeof(vdata)); memset(&edata, 0, sizeof(edata)); memset(&fdata, 0, sizeof(fdata)); mvert= CustomData_add_layer(&vdata, CD_MVERT, CD_CALLOC, NULL, totvert); medge= CustomData_add_layer(&edata, CD_MEDGE, CD_CALLOC, NULL, totedge); mface= CustomData_add_layer(&fdata, CD_MFACE, CD_CALLOC, NULL, totface); vertofs= 0; edgeofs= 0; faceofs= 0; /* inverse transform for all selected meshes in this object */ invert_m4_m4(imat, ob->obmat); CTX_DATA_BEGIN(C, Base*, base, selected_editable_bases) { /* only join if this is a mesh */ if(base->object->type==OB_MESH) { me= base->object->data; if(me->totvert) { /* standard data */ CustomData_merge(&me->vdata, &vdata, CD_MASK_MESH, CD_DEFAULT, totvert); CustomData_copy_data(&me->vdata, &vdata, 0, vertofs, me->totvert); /* vertex groups */ dvert= CustomData_get(&vdata, vertofs, CD_MDEFORMVERT); /* NB: vertex groups here are new version */ if(dvert) { for(i=0; i<me->totvert; i++) { for(j=0; j<dvert[i].totweight; j++) { /* Find the old vertex group */ odg = BLI_findlink(&base->object->defbase, dvert[i].dw[j].def_nr); if(odg) { /* Search for a match in the new object, and set new index */ for(dg=ob->defbase.first, index=0; dg; dg=dg->next, index++) { if(!strcmp(dg->name, odg->name)) { dvert[i].dw[j].def_nr = index; break; } } } } } } /* if this is the object we're merging into, no need to do anything */ if(base->object != ob) { /* watch this: switch matmul order really goes wrong */ mul_m4_m4m4(cmat, base->object->obmat, imat); /* transform vertex coordinates into new space */ for(a=0, mv=mvert; a < me->totvert; a++, mv++) { mul_m4_v3(cmat, mv->co); } /* for each shapekey in destination mesh: * - if there's a matching one, copy it across (will need to transform vertices into new space...) * - otherwise, just copy own coordinates of mesh (no need to transform vertex coordinates into new space) */ if(key) { /* if this mesh has any shapekeys, check first, otherwise just copy coordinates */ for(kb= key->block.first; kb; kb= kb->next) { /* get pointer to where to write data for this mesh in shapekey's data array */ fp1= ((float *)kb->data) + (vertofs*3); /* check if this mesh has such a shapekey */ okb= key_get_named_keyblock(me->key, kb->name); if(okb) { /* copy this mesh's shapekey to the destination shapekey (need to transform first) */ fp2= ((float *)(okb->data)); for(a=0; a < me->totvert; a++, fp1+=3, fp2+=3) { VECCOPY(fp1, fp2); mul_m4_v3(cmat, fp1); } } else { /* copy this mesh's vertex coordinates to the destination shapekey */ mv= mvert; for(a=0; a < me->totvert; a++, fp1+=3, mv++) { VECCOPY(fp1, mv->co); } } } } } else { /* for each shapekey in destination mesh: * - if it was an 'original', copy the appropriate data from nkey * - otherwise, copy across plain coordinates (no need to transform coordinates) */ if(key) { for(kb= key->block.first; kb; kb= kb->next) { /* get pointer to where to write data for this mesh in shapekey's data array */ fp1= ((float *)kb->data) + (vertofs*3); /* check if this was one of the original shapekeys */ okb= key_get_named_keyblock(nkey, kb->name); if(okb) { /* copy this mesh's shapekey to the destination shapekey */ fp2= ((float *)(okb->data)); for(a=0; a < me->totvert; a++, fp1+=3, fp2+=3) { VECCOPY(fp1, fp2); } } else { /* copy base-coordinates to the destination shapekey */ mv= mvert; for(a=0; a < me->totvert; a++, fp1+=3, mv++) { VECCOPY(fp1, mv->co); } } } } } /* advance mvert pointer to end of base mesh's data */ mvert+= me->totvert; } if(me->totface) { /* make mapping for materials */ for(a=1; a<=base->object->totcol; a++) { ma= give_current_material(base->object, a); for(b=0; b<totcol; b++) { if(ma == matar[b]) { matmap[a-1]= b; break; } } } if(base->object!=ob) multiresModifier_prepare_join(scene, base->object, ob); CustomData_merge(&me->fdata, &fdata, CD_MASK_MESH, CD_DEFAULT, totface); CustomData_copy_data(&me->fdata, &fdata, 0, faceofs, me->totface); for(a=0; a<me->totface; a++, mface++) { mface->v1+= vertofs; mface->v2+= vertofs; mface->v3+= vertofs; if(mface->v4) mface->v4+= vertofs; if (matmap) mface->mat_nr= matmap[(int)mface->mat_nr]; else mface->mat_nr= 0; } faceofs += me->totface; } if(me->totedge) { CustomData_merge(&me->edata, &edata, CD_MASK_MESH, CD_DEFAULT, totedge); CustomData_copy_data(&me->edata, &edata, 0, edgeofs, me->totedge); for(a=0; a<me->totedge; a++, medge++) { medge->v1+= vertofs; medge->v2+= vertofs; } edgeofs += me->totedge; } /* vertofs is used to help newly added verts be reattached to their edge/face * (cannot be set earlier, or else reattaching goes wrong) */ vertofs += me->totvert; /* free base, now that data is merged */ if(base->object != ob) ED_base_object_free_and_unlink(bmain, scene, base); } } CTX_DATA_END; /* return to mesh we're merging to */ me= ob->data; CustomData_free(&me->vdata, me->totvert); CustomData_free(&me->edata, me->totedge); CustomData_free(&me->fdata, me->totface); me->totvert= totvert; me->totedge= totedge; me->totface= totface; me->vdata= vdata; me->edata= edata; me->fdata= fdata; mesh_update_customdata_pointers(me); /* old material array */ for(a=1; a<=ob->totcol; a++) { ma= ob->mat[a-1]; if(ma) ma->id.us--; } for(a=1; a<=me->totcol; a++) { ma= me->mat[a-1]; if(ma) ma->id.us--; } if(ob->mat) MEM_freeN(ob->mat); if(ob->matbits) MEM_freeN(ob->matbits); if(me->mat) MEM_freeN(me->mat); ob->mat= me->mat= NULL; ob->matbits= NULL; if(totcol) { me->mat= matar; ob->mat= MEM_callocN(sizeof(void *)*totcol, "join obmatar"); ob->matbits= MEM_callocN(sizeof(char)*totcol, "join obmatbits"); } else MEM_freeN(matar); ob->totcol= me->totcol= totcol; ob->colbits= 0; if (matmap) MEM_freeN(matmap); /* other mesh users */ test_object_materials((ID *)me); /* free temp copy of destination shapekeys (if applicable) */ if(nkey) { // XXX 2.5 Animato #if 0 /* free it's ipo too - both are not actually freed from memory yet as ID-blocks */ if(nkey->ipo) { free_ipo(nkey->ipo); BLI_remlink(&bmain->ipo, nkey->ipo); MEM_freeN(nkey->ipo); } #endif free_key(nkey); BLI_remlink(&bmain->key, nkey); MEM_freeN(nkey); } DAG_scene_sort(bmain, scene); // removed objects, need to rebuild dag before editmode call #if 0 ED_object_enter_editmode(C, EM_WAITCURSOR); ED_object_exit_editmode(C, EM_FREEDATA|EM_WAITCURSOR|EM_DO_UNDO); #else /* toggle editmode using lower level functions so this can be called from python */ make_editMesh(scene, ob); load_editMesh(scene, ob); free_editMesh(me->edit_mesh); MEM_freeN(me->edit_mesh); me->edit_mesh= NULL; DAG_id_tag_update(&ob->id, OB_RECALC_OB|OB_RECALC_DATA); #endif WM_event_add_notifier(C, NC_SCENE|ND_OB_ACTIVE, scene); return OPERATOR_FINISHED; }
/* seems messy, but thats what you get with not using pointers but channel names :) */ void ED_armature_bone_rename(bArmature *arm, const char *oldnamep, const char *newnamep) { Object *ob; char newname[MAXBONENAME]; char oldname[MAXBONENAME]; /* names better differ! */ if (!STREQLEN(oldnamep, newnamep, MAXBONENAME)) { /* we alter newname string... so make copy */ BLI_strncpy(newname, newnamep, MAXBONENAME); /* we use oldname for search... so make copy */ BLI_strncpy(oldname, oldnamep, MAXBONENAME); /* now check if we're in editmode, we need to find the unique name */ if (arm->edbo) { EditBone *eBone = ED_armature_bone_find_name(arm->edbo, oldname); if (eBone) { unique_editbone_name(arm->edbo, newname, NULL); BLI_strncpy(eBone->name, newname, MAXBONENAME); } else { return; } } else { Bone *bone = BKE_armature_find_bone_name(arm, oldname); if (bone) { unique_bone_name(arm, newname); BLI_strncpy(bone->name, newname, MAXBONENAME); } else { return; } } /* do entire dbase - objects */ for (ob = G.main->object.first; ob; ob = ob->id.next) { ModifierData *md; /* we have the object using the armature */ if (arm == ob->data) { Object *cob; /* Rename the pose channel, if it exists */ if (ob->pose) { bPoseChannel *pchan = BKE_pose_channel_find_name(ob->pose, oldname); if (pchan) { GHash *gh = ob->pose->chanhash; /* remove the old hash entry, and replace with the new name */ if (gh) { BLI_assert(BLI_ghash_haskey(gh, pchan->name)); BLI_ghash_remove(gh, pchan->name, NULL, NULL); } BLI_strncpy(pchan->name, newname, MAXBONENAME); if (gh) { BLI_ghash_insert(gh, pchan->name, pchan); } } BLI_assert(BKE_pose_channels_is_valid(ob->pose) == true); } /* Update any object constraints to use the new bone name */ for (cob = G.main->object.first; cob; cob = cob->id.next) { if (cob->constraints.first) constraint_bone_name_fix(ob, &cob->constraints, oldname, newname); if (cob->pose) { bPoseChannel *pchan; for (pchan = cob->pose->chanbase.first; pchan; pchan = pchan->next) { constraint_bone_name_fix(ob, &pchan->constraints, oldname, newname); } } } } /* See if an object is parented to this armature */ if (ob->parent && (ob->parent->data == arm)) { if (ob->partype == PARBONE) { /* bone name in object */ if (STREQ(ob->parsubstr, oldname)) BLI_strncpy(ob->parsubstr, newname, MAXBONENAME); } } if (modifiers_usesArmature(ob, arm)) { bDeformGroup *dg = defgroup_find_name(ob, oldname); if (dg) { BLI_strncpy(dg->name, newname, MAXBONENAME); } } /* fix modifiers that might be using this name */ for (md = ob->modifiers.first; md; md = md->next) { switch (md->type) { case eModifierType_Hook: { HookModifierData *hmd = (HookModifierData *)md; if (hmd->object && (hmd->object->data == arm)) { if (STREQ(hmd->subtarget, oldname)) BLI_strncpy(hmd->subtarget, newname, MAXBONENAME); } break; } case eModifierType_UVWarp: { UVWarpModifierData *umd = (UVWarpModifierData *)md; if (umd->object_src && (umd->object_src->data == arm)) { if (STREQ(umd->bone_src, oldname)) BLI_strncpy(umd->bone_src, newname, MAXBONENAME); } if (umd->object_dst && (umd->object_dst->data == arm)) { if (STREQ(umd->bone_dst, oldname)) BLI_strncpy(umd->bone_dst, newname, MAXBONENAME); } break; } default: break; } } } /* Fix all animdata that may refer to this bone - we can't just do the ones attached to objects, since * other ID-blocks may have drivers referring to this bone [#29822] */ // XXX: the ID here is for armatures, but most bone drivers are actually on the object instead... { BKE_animdata_fix_paths_rename_all(&arm->id, "pose.bones", oldname, newname); } /* correct view locking */ { bScreen *screen; for (screen = G.main->screen.first; screen; screen = screen->id.next) { ScrArea *sa; /* add regions */ for (sa = screen->areabase.first; sa; sa = sa->next) { SpaceLink *sl; for (sl = sa->spacedata.first; sl; sl = sl->next) { if (sl->spacetype == SPACE_VIEW3D) { View3D *v3d = (View3D *)sl; if (v3d->ob_centre && v3d->ob_centre->data == arm) { if (STREQ(v3d->ob_centre_bone, oldname)) { BLI_strncpy(v3d->ob_centre_bone, newname, MAXBONENAME); } } } } } } } } }