/** * $Id$ * * ***** 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) 2005 Blender Foundation. * All rights reserved. * * The Original Code is: all of this file. * * Contributor(s): none yet. * * ***** END GPL LICENSE BLOCK ***** */ #include #include #include #include #include #include "MEM_guardedalloc.h" #include "DNA_mesh_types.h" #include "DNA_meshdata_types.h" #include "DNA_modifier_types.h" #include "DNA_object_types.h" #include "DNA_scene_types.h" #include "BKE_cdderivedmesh.h" #include "BKE_utildefines.h" #include "BKE_global.h" #include "BKE_mesh.h" #include "BKE_scene.h" #include "BKE_subsurf.h" #include "BLI_blenlib.h" #include "BLI_edgehash.h" #include "BLI_math.h" #include "BLI_memarena.h" #include "BLI_pbvh.h" #include "BIF_gl.h" #include "BIF_glutil.h" #include "GPU_draw.h" #include "GPU_extensions.h" #include "GPU_material.h" #include "CCGSubSurf.h" static int ccgDM_getVertMapIndex(CCGSubSurf *ss, CCGVert *v); static int ccgDM_getEdgeMapIndex(CCGSubSurf *ss, CCGEdge *e); static int ccgDM_getFaceMapIndex(CCGSubSurf *ss, CCGFace *f); /// static void *arena_alloc(CCGAllocatorHDL a, int numBytes) { return BLI_memarena_alloc(a, numBytes); } static void *arena_realloc(CCGAllocatorHDL a, void *ptr, int newSize, int oldSize) { void *p2 = BLI_memarena_alloc(a, newSize); if (ptr) { memcpy(p2, ptr, oldSize); } return p2; } static void arena_free(CCGAllocatorHDL a, void *ptr) { } static void arena_release(CCGAllocatorHDL a) { BLI_memarena_free(a); } static CCGSubSurf *_getSubSurf(CCGSubSurf *prevSS, int subdivLevels, int useAging, int useArena, int useFlatSubdiv) { CCGMeshIFC ifc; CCGSubSurf *ccgSS; /* subdivLevels==0 is not allowed */ subdivLevels = MAX2(subdivLevels, 1); if (prevSS) { int oldUseAging; useAging = !!useAging; ccgSubSurf_getUseAgeCounts(prevSS, &oldUseAging, NULL, NULL, NULL); if (oldUseAging!=useAging) { ccgSubSurf_free(prevSS); } else { ccgSubSurf_setSubdivisionLevels(prevSS, subdivLevels); return prevSS; } } if (useAging) { ifc.vertUserSize = ifc.edgeUserSize = ifc.faceUserSize = 12; } else { ifc.vertUserSize = ifc.edgeUserSize = ifc.faceUserSize = 8; } ifc.vertDataSize = sizeof(DMGridData); if (useArena) { CCGAllocatorIFC allocatorIFC; CCGAllocatorHDL allocator = BLI_memarena_new((1<<16)); allocatorIFC.alloc = arena_alloc; allocatorIFC.realloc = arena_realloc; allocatorIFC.free = arena_free; allocatorIFC.release = arena_release; ccgSS = ccgSubSurf_new(&ifc, subdivLevels, &allocatorIFC, allocator); } else { ccgSS = ccgSubSurf_new(&ifc, subdivLevels, NULL, NULL); } if (useAging) { ccgSubSurf_setUseAgeCounts(ccgSS, 1, 8, 8, 8); } ccgSubSurf_setCalcVertexNormals(ccgSS, 1, BLI_STRUCT_OFFSET(DMGridData, no)); return ccgSS; } static int getEdgeIndex(CCGSubSurf *ss, CCGEdge *e, int x, int edgeSize) { CCGVert *v0 = ccgSubSurf_getEdgeVert0(e); CCGVert *v1 = ccgSubSurf_getEdgeVert1(e); int v0idx = *((int*) ccgSubSurf_getVertUserData(ss, v0)); int v1idx = *((int*) ccgSubSurf_getVertUserData(ss, v1)); int edgeBase = *((int*) ccgSubSurf_getEdgeUserData(ss, e)); if (x==0) { return v0idx; } else if (x==edgeSize-1) { return v1idx; } else { return edgeBase + x-1; } } static int getFaceIndex(CCGSubSurf *ss, CCGFace *f, int S, int x, int y, int edgeSize, int gridSize) { int faceBase = *((int*) ccgSubSurf_getFaceUserData(ss, f)); int numVerts = ccgSubSurf_getFaceNumVerts(f); if (x==gridSize-1 && y==gridSize-1) { CCGVert *v = ccgSubSurf_getFaceVert(ss, f, S); return *((int*) ccgSubSurf_getVertUserData(ss, v)); } else if (x==gridSize-1) { CCGVert *v = ccgSubSurf_getFaceVert(ss, f, S); CCGEdge *e = ccgSubSurf_getFaceEdge(ss, f, S); int edgeBase = *((int*) ccgSubSurf_getEdgeUserData(ss, e)); if (v==ccgSubSurf_getEdgeVert0(e)) { return edgeBase + (gridSize-1-y)-1; } else { return edgeBase + (edgeSize-2-1)-((gridSize-1-y)-1); } } else if (y==gridSize-1) { CCGVert *v = ccgSubSurf_getFaceVert(ss, f, S); CCGEdge *e = ccgSubSurf_getFaceEdge(ss, f, (S+numVerts-1)%numVerts); int edgeBase = *((int*) ccgSubSurf_getEdgeUserData(ss, e)); if (v==ccgSubSurf_getEdgeVert0(e)) { return edgeBase + (gridSize-1-x)-1; } else { return edgeBase + (edgeSize-2-1)-((gridSize-1-x)-1); } } else if (x==0 && y==0) { return faceBase; } else if (x==0) { S = (S+numVerts-1)%numVerts; return faceBase + 1 + (gridSize-2)*S + (y-1); } else if (y==0) { return faceBase + 1 + (gridSize-2)*S + (x-1); } else { return faceBase + 1 + (gridSize-2)*numVerts + S*(gridSize-2)*(gridSize-2) + (y-1)*(gridSize-2) + (x-1); } } static void get_face_uv_map_vert(UvVertMap *vmap, struct MFace *mf, int fi, CCGVertHDL *fverts) { unsigned int *fv = &mf->v1; UvMapVert *v, *nv; int j, nverts= mf->v4? 4: 3; for (j=0; jnext) { if (v->separate) nv= v; if (v->f == fi) break; } fverts[j]= SET_INT_IN_POINTER(nv->f*4 + nv->tfindex); } } static int ss_sync_from_uv(CCGSubSurf *ss, CCGSubSurf *origss, DerivedMesh *dm, MTFace *tface) { MFace *mface = dm->getFaceArray(dm); MVert *mvert = dm->getVertArray(dm); int totvert = dm->getNumVerts(dm); int totface = dm->getNumFaces(dm); int i, j, seam; UvMapVert *v; UvVertMap *vmap; float limit[2]; CCGVertHDL fverts[4]; EdgeHash *ehash; float creaseFactor = (float)ccgSubSurf_getSubdivisionLevels(ss); limit[0]= limit[1]= STD_UV_CONNECT_LIMIT; vmap= make_uv_vert_map(mface, tface, totface, totvert, 0, limit); if (!vmap) return 0; ccgSubSurf_initFullSync(ss); /* create vertices */ for (i=0; inext; v; v=v->next) if (v->separate) break; seam = (v != NULL) || ((mvert+i)->flag & ME_VERT_MERGED); for (v=get_uv_map_vert(vmap, i); v; v=v->next) { if (v->separate) { CCGVert *ssv; CCGVertHDL vhdl = SET_INT_IN_POINTER(v->f*4 + v->tfindex); float uv[3]; uv[0]= (tface+v->f)->uv[v->tfindex][0]; uv[1]= (tface+v->f)->uv[v->tfindex][1]; uv[2]= 0.0f; ccgSubSurf_syncVert(ss, vhdl, uv, seam, &ssv); } } } /* create edges */ ehash = BLI_edgehash_new(); for (i=0; iv4? 4: 3; CCGFace *origf= ccgSubSurf_getFace(origss, SET_INT_IN_POINTER(i)); unsigned int *fv = &mf->v1; get_face_uv_map_vert(vmap, mf, i, fverts); for (j=0; jflag&mv1->flag) & ME_VERT_MERGED) crease = creaseFactor; else crease = ccgSubSurf_getEdgeCrease(orige); ccgSubSurf_syncEdge(ss, ehdl, fverts[j], fverts[(j+1)%nverts], crease, &e); BLI_edgehash_insert(ehash, v0, v1, NULL); } } } BLI_edgehash_free(ehash, NULL); /* create faces */ for (i=0; iv4? 4: 3; CCGFace *f; get_face_uv_map_vert(vmap, mf, i, fverts); ccgSubSurf_syncFace(ss, SET_INT_IN_POINTER(i), nverts, fverts, &f); } free_uv_vert_map(vmap); ccgSubSurf_processSync(ss); return 1; } static void set_subsurf_uv(CCGSubSurf *ss, DerivedMesh *dm, DerivedMesh *result, int n) { CCGSubSurf *uvss; CCGFace **faceMap; MTFace *tf; CCGFaceIterator *fi; int index, gridSize, gridFaces, edgeSize, totface, x, y, S; MTFace *dmtface = CustomData_get_layer_n(&dm->faceData, CD_MTFACE, n); MTFace *tface = CustomData_get_layer_n(&result->faceData, CD_MTFACE, n); if(!dmtface || !tface) return; /* create a CCGSubSurf from uv's */ uvss = _getSubSurf(NULL, ccgSubSurf_getSubdivisionLevels(ss), 0, 1, 0); if(!ss_sync_from_uv(uvss, ss, dm, dmtface)) { ccgSubSurf_free(uvss); return; } /* get some info from CCGSubSurf */ totface = ccgSubSurf_getNumFaces(uvss); edgeSize = ccgSubSurf_getEdgeSize(uvss); gridSize = ccgSubSurf_getGridSize(uvss); gridFaces = gridSize - 1; /* make a map from original faces to CCGFaces */ faceMap = MEM_mallocN(totface*sizeof(*faceMap), "facemapuv"); fi = ccgSubSurf_getFaceIterator(uvss); for(; !ccgFaceIterator_isStopped(fi); ccgFaceIterator_next(fi)) { CCGFace *f = ccgFaceIterator_getCurrent(fi); faceMap[GET_INT_FROM_POINTER(ccgSubSurf_getFaceFaceHandle(uvss, f))] = f; } ccgFaceIterator_free(fi); /* load coordinates from uvss into tface */ tf= tface; for(index = 0; index < totface; index++) { CCGFace *f = faceMap[index]; int numVerts = ccgSubSurf_getFaceNumVerts(f); for (S=0; Suv[0][0] = a[0]; tf->uv[0][1] = a[1]; tf->uv[1][0] = d[0]; tf->uv[1][1] = d[1]; tf->uv[2][0] = c[0]; tf->uv[2][1] = c[1]; tf->uv[3][0] = b[0]; tf->uv[3][1] = b[1]; tf++; } } } } ccgSubSurf_free(uvss); MEM_freeN(faceMap); } /* face weighting */ static void calc_ss_weights(int gridFaces, FaceVertWeight **qweight, FaceVertWeight **tweight) { FaceVertWeight *qw, *tw; int x, y, j; int numWeights = gridFaces * gridFaces; *tweight = MEM_mallocN(sizeof(**tweight) * numWeights, "ssTriWeight"); *qweight = MEM_mallocN(sizeof(**qweight) * numWeights, "ssQuadWeight"); qw = *qweight; tw = *tweight; for (y = 0; y < gridFaces; y++) { for (x = 0; x < gridFaces; x++) { for (j = 0; j < 4; j++) { int fx = x + (j == 2 || j == 3); int fy = y + (j == 1 || j == 2); float x_v = (float) fx / gridFaces; float y_v = (float) fy / gridFaces; float tx_v = (1.0f - x_v), ty_v = (1.0f - y_v); float center = (1.0f / 3.0f) * tx_v * ty_v; (*tw)[j][0] = center + 0.5f * tx_v * y_v; (*tw)[j][2] = center + 0.5f * x_v * ty_v; (*tw)[j][1] = 1.0f - (*tw)[j][0] - (*tw)[j][2]; (*tw)[j][3] = 0.0f; tx_v *= 0.5f; ty_v *= 0.5f; (*qw)[j][3] = tx_v * ty_v; (*qw)[j][0] = (*qw)[j][3] + tx_v * y_v; (*qw)[j][2] = (*qw)[j][3] + x_v * ty_v; (*qw)[j][1] = 1.0f - (*qw)[j][0] - (*qw)[j][2] - (*qw)[j][3]; } tw++; qw++; } } } static void ss_sync_from_derivedmesh(CCGSubSurf *ss, DerivedMesh *dm, float (*vertexCos)[3], int useFlatSubdiv) { float creaseFactor = (float) ccgSubSurf_getSubdivisionLevels(ss); CCGVertHDL fVerts[4]; int totvert = dm->getNumVerts(dm); int totedge = dm->getNumEdges(dm); int totface = dm->getNumFaces(dm); int i; int *index; MVert *mvert = dm->getVertArray(dm); MEdge *medge = dm->getEdgeArray(dm); MFace *mface = dm->getFaceArray(dm); MVert *mv; MEdge *me; MFace *mf; ccgSubSurf_initFullSync(ss); mv = mvert; index = (int *)dm->getVertDataArray(dm, CD_ORIGINDEX); for(i = 0; i < totvert; i++, mv++) { CCGVert *v; if(vertexCos) { ccgSubSurf_syncVert(ss, SET_INT_IN_POINTER(i), vertexCos[i], 0, &v); } else { ccgSubSurf_syncVert(ss, SET_INT_IN_POINTER(i), mv->co, 0, &v); } ((int*)ccgSubSurf_getVertUserData(ss, v))[1] = (index)? *index++: i; } me = medge; index = (int *)dm->getEdgeDataArray(dm, CD_ORIGINDEX); for(i = 0; i < totedge; i++, me++) { CCGEdge *e; float crease; crease = useFlatSubdiv ? creaseFactor : me->crease * creaseFactor / 255.0f; ccgSubSurf_syncEdge(ss, SET_INT_IN_POINTER(i), SET_INT_IN_POINTER(me->v1), SET_INT_IN_POINTER(me->v2), crease, &e); ((int*)ccgSubSurf_getEdgeUserData(ss, e))[1] = (index)? *index++: i; } mf = mface; index = (int *)dm->getFaceDataArray(dm, CD_ORIGINDEX); for (i = 0; i < totface; i++, mf++) { CCGFace *f; fVerts[0] = SET_INT_IN_POINTER(mf->v1); fVerts[1] = SET_INT_IN_POINTER(mf->v2); fVerts[2] = SET_INT_IN_POINTER(mf->v3); fVerts[3] = SET_INT_IN_POINTER(mf->v4); // this is very bad, means mesh is internally consistent. // it is not really possible to continue without modifying // other parts of code significantly to handle missing faces. // since this really shouldn't even be possible we just bail. if(ccgSubSurf_syncFace(ss, SET_INT_IN_POINTER(i), fVerts[3] ? 4 : 3, fVerts, &f) == eCCGError_InvalidValue) { static int hasGivenError = 0; if(!hasGivenError) { //XXX error("Unrecoverable error in SubSurf calculation," // " mesh is inconsistent."); hasGivenError = 1; } return; } ((int*)ccgSubSurf_getFaceUserData(ss, f))[1] = (index)? *index++: i; } ccgSubSurf_processSync(ss); } /***/ static int ccgDM_getVertMapIndex(CCGSubSurf *ss, CCGVert *v) { return ((int*) ccgSubSurf_getVertUserData(ss, v))[1]; } static int ccgDM_getEdgeMapIndex(CCGSubSurf *ss, CCGEdge *e) { return ((int*) ccgSubSurf_getEdgeUserData(ss, e))[1]; } static int ccgDM_getFaceMapIndex(CCGSubSurf *ss, CCGFace *f) { return ((int*) ccgSubSurf_getFaceUserData(ss, f))[1]; } static void ccgDM_getMinMax(DerivedMesh *dm, float min_r[3], float max_r[3]) { CCGDerivedMesh *ccgdm = (CCGDerivedMesh*) dm; CCGSubSurf *ss = ccgdm->ss; CCGVertIterator *vi = ccgSubSurf_getVertIterator(ss); CCGEdgeIterator *ei = ccgSubSurf_getEdgeIterator(ss); CCGFaceIterator *fi = ccgSubSurf_getFaceIterator(ss); int i, edgeSize = ccgSubSurf_getEdgeSize(ss); int gridSize = ccgSubSurf_getGridSize(ss); if (!ccgSubSurf_getNumVerts(ss)) min_r[0] = min_r[1] = min_r[2] = max_r[0] = max_r[1] = max_r[2] = 0.0; for (; !ccgVertIterator_isStopped(vi); ccgVertIterator_next(vi)) { CCGVert *v = ccgVertIterator_getCurrent(vi); float *co = ccgSubSurf_getVertData(ss, v); DO_MINMAX(co, min_r, max_r); } for (; !ccgEdgeIterator_isStopped(ei); ccgEdgeIterator_next(ei)) { CCGEdge *e = ccgEdgeIterator_getCurrent(ei); DMGridData *edgeData = ccgSubSurf_getEdgeDataArray(ss, e); for (i=0; iss); } static int ccgDM_getNumEdges(DerivedMesh *dm) { CCGDerivedMesh *ccgdm = (CCGDerivedMesh*) dm; return ccgSubSurf_getNumFinalEdges(ccgdm->ss); } static int ccgDM_getNumFaces(DerivedMesh *dm) { CCGDerivedMesh *ccgdm = (CCGDerivedMesh*) dm; return ccgSubSurf_getNumFinalFaces(ccgdm->ss); } static void ccgDM_getFinalVert(DerivedMesh *dm, int vertNum, MVert *mv) { CCGDerivedMesh *ccgdm = (CCGDerivedMesh*) dm; CCGSubSurf *ss = ccgdm->ss; int i; memset(mv, 0, sizeof(*mv)); if((vertNum < ccgdm->edgeMap[0].startVert) && (ccgSubSurf_getNumFaces(ss) > 0)) { /* this vert comes from face data */ int lastface = ccgSubSurf_getNumFaces(ss) - 1; CCGFace *f; int x, y, grid, numVerts; int offset; int gridSize = ccgSubSurf_getGridSize(ss); int gridSideVerts; int gridInternalVerts; int gridSideEnd; int gridInternalEnd; i = 0; while(i < lastface && vertNum >= ccgdm->faceMap[i + 1].startVert) ++i; f = ccgdm->faceMap[i].face; numVerts = ccgSubSurf_getFaceNumVerts(f); gridSideVerts = gridSize - 2; gridInternalVerts = gridSideVerts * gridSideVerts; gridSideEnd = 1 + numVerts * gridSideVerts; gridInternalEnd = gridSideEnd + numVerts * gridInternalVerts; offset = vertNum - ccgdm->faceMap[i].startVert; if(offset < 1) { copy_v3_v3(mv->co, ccgSubSurf_getFaceCenterData(f)); } else if(offset < gridSideEnd) { offset -= 1; grid = offset / gridSideVerts; x = offset % gridSideVerts + 1; copy_v3_v3(mv->co, ccgSubSurf_getFaceGridEdgeData(ss, f, grid, x)); } else if(offset < gridInternalEnd) { offset -= gridSideEnd; grid = offset / gridInternalVerts; offset %= gridInternalVerts; y = offset / gridSideVerts + 1; x = offset % gridSideVerts + 1; copy_v3_v3(mv->co, ccgSubSurf_getFaceGridData(ss, f, grid, x, y)); } } else if((vertNum < ccgdm->vertMap[0].startVert) && (ccgSubSurf_getNumEdges(ss) > 0)) { /* this vert comes from edge data */ CCGEdge *e; int lastedge = ccgSubSurf_getNumEdges(ss) - 1; int x; i = 0; while(i < lastedge && vertNum >= ccgdm->edgeMap[i + 1].startVert) ++i; e = ccgdm->edgeMap[i].edge; x = vertNum - ccgdm->edgeMap[i].startVert + 1; copy_v3_v3(mv->co, ccgSubSurf_getEdgeData(ss, e, x)); } else { /* this vert comes from vert data */ CCGVert *v; i = vertNum - ccgdm->vertMap[0].startVert; v = ccgdm->vertMap[i].vert; copy_v3_v3(mv->co, ccgSubSurf_getVertData(ss, v)); } } static void ccgDM_getFinalEdge(DerivedMesh *dm, int edgeNum, MEdge *med) { CCGDerivedMesh *ccgdm = (CCGDerivedMesh*) dm; CCGSubSurf *ss = ccgdm->ss; int i; memset(med, 0, sizeof(*med)); if(edgeNum < ccgdm->edgeMap[0].startEdge) { /* this edge comes from face data */ int lastface = ccgSubSurf_getNumFaces(ss) - 1; CCGFace *f; int x, y, grid, numVerts; int offset; int gridSize = ccgSubSurf_getGridSize(ss); int edgeSize = ccgSubSurf_getEdgeSize(ss); int gridSideEdges; int gridInternalEdges; i = 0; while(i < lastface && edgeNum >= ccgdm->faceMap[i + 1].startEdge) ++i; f = ccgdm->faceMap[i].face; numVerts = ccgSubSurf_getFaceNumVerts(f); gridSideEdges = gridSize - 1; gridInternalEdges = (gridSideEdges - 1) * gridSideEdges * 2; offset = edgeNum - ccgdm->faceMap[i].startEdge; grid = offset / (gridSideEdges + gridInternalEdges); offset %= (gridSideEdges + gridInternalEdges); if(offset < gridSideEdges) { x = offset; med->v1 = getFaceIndex(ss, f, grid, x, 0, edgeSize, gridSize); med->v2 = getFaceIndex(ss, f, grid, x+1, 0, edgeSize, gridSize); } else { offset -= gridSideEdges; x = (offset / 2) / gridSideEdges + 1; y = (offset / 2) % gridSideEdges; if(offset % 2 == 0) { med->v1 = getFaceIndex(ss, f, grid, x, y, edgeSize, gridSize); med->v2 = getFaceIndex(ss, f, grid, x, y+1, edgeSize, gridSize); } else { med->v1 = getFaceIndex(ss, f, grid, y, x, edgeSize, gridSize); med->v2 = getFaceIndex(ss, f, grid, y+1, x, edgeSize, gridSize); } } } else { /* this vert comes from edge data */ CCGEdge *e; int edgeSize = ccgSubSurf_getEdgeSize(ss); int x; short *edgeFlag; unsigned int flags = 0; i = (edgeNum - ccgdm->edgeMap[0].startEdge) / (edgeSize - 1); e = ccgdm->edgeMap[i].edge; if(!ccgSubSurf_getEdgeNumFaces(e)) flags |= ME_LOOSEEDGE; x = edgeNum - ccgdm->edgeMap[i].startEdge; med->v1 = getEdgeIndex(ss, e, x, edgeSize); med->v2 = getEdgeIndex(ss, e, x+1, edgeSize); edgeFlag = (ccgdm->edgeFlags)? &ccgdm->edgeFlags[i]: NULL; if(edgeFlag) flags |= (*edgeFlag & (ME_SEAM | ME_SHARP)) | ME_EDGEDRAW | ME_EDGERENDER; else flags |= ME_EDGEDRAW | ME_EDGERENDER; med->flag = flags; } } static void ccgDM_getFinalFace(DerivedMesh *dm, int faceNum, MFace *mf) { CCGDerivedMesh *ccgdm = (CCGDerivedMesh*) dm; CCGSubSurf *ss = ccgdm->ss; int gridSize = ccgSubSurf_getGridSize(ss); int edgeSize = ccgSubSurf_getEdgeSize(ss); int gridSideEdges = gridSize - 1; int gridFaces = gridSideEdges * gridSideEdges; int i; CCGFace *f; int numVerts; int offset; int grid; int x, y; int lastface = ccgSubSurf_getNumFaces(ss) - 1; char *faceFlags = ccgdm->faceFlags; memset(mf, 0, sizeof(*mf)); i = 0; while(i < lastface && faceNum >= ccgdm->faceMap[i + 1].startFace) ++i; f = ccgdm->faceMap[i].face; numVerts = ccgSubSurf_getFaceNumVerts(f); offset = faceNum - ccgdm->faceMap[i].startFace; grid = offset / gridFaces; offset %= gridFaces; y = offset / gridSideEdges; x = offset % gridSideEdges; mf->v1 = getFaceIndex(ss, f, grid, x+0, y+0, edgeSize, gridSize); mf->v2 = getFaceIndex(ss, f, grid, x+0, y+1, edgeSize, gridSize); mf->v3 = getFaceIndex(ss, f, grid, x+1, y+1, edgeSize, gridSize); mf->v4 = getFaceIndex(ss, f, grid, x+1, y+0, edgeSize, gridSize); if(faceFlags) { mf->flag = faceFlags[i*2]; mf->mat_nr = faceFlags[i*2+1]; } else mf->flag = ME_SMOOTH; } static void ccgDM_copyFinalVertArray(DerivedMesh *dm, MVert *mvert) { CCGDerivedMesh *ccgdm = (CCGDerivedMesh*) dm; CCGSubSurf *ss = ccgdm->ss; DMGridData *vd; int index; int totvert, totedge, totface; int gridSize = ccgSubSurf_getGridSize(ss); int edgeSize = ccgSubSurf_getEdgeSize(ss); int i = 0; totface = ccgSubSurf_getNumFaces(ss); for(index = 0; index < totface; index++) { CCGFace *f = ccgdm->faceMap[index].face; int x, y, S, numVerts = ccgSubSurf_getFaceNumVerts(f); vd= ccgSubSurf_getFaceCenterData(f); copy_v3_v3(mvert[i].co, vd->co); normal_float_to_short_v3(mvert[i].no, vd->no); i++; for(S = 0; S < numVerts; S++) { for(x = 1; x < gridSize - 1; x++, i++) { vd= ccgSubSurf_getFaceGridEdgeData(ss, f, S, x); copy_v3_v3(mvert[i].co, vd->co); normal_float_to_short_v3(mvert[i].no, vd->no); } } for(S = 0; S < numVerts; S++) { for(y = 1; y < gridSize - 1; y++) { for(x = 1; x < gridSize - 1; x++, i++) { vd= ccgSubSurf_getFaceGridData(ss, f, S, x, y); copy_v3_v3(mvert[i].co, vd->co); normal_float_to_short_v3(mvert[i].no, vd->no); } } } } totedge = ccgSubSurf_getNumEdges(ss); for(index = 0; index < totedge; index++) { CCGEdge *e = ccgdm->edgeMap[index].edge; int x; for(x = 1; x < edgeSize - 1; x++, i++) { vd= ccgSubSurf_getEdgeData(ss, e, x); copy_v3_v3(mvert[i].co, vd->co); normal_float_to_short_v3(mvert[i].no, vd->no); } } totvert = ccgSubSurf_getNumVerts(ss); for(index = 0; index < totvert; index++) { CCGVert *v = ccgdm->vertMap[index].vert; vd= ccgSubSurf_getVertData(ss, v); copy_v3_v3(mvert[i].co, vd->co); normal_float_to_short_v3(mvert[i].no, vd->no); i++; } } static void ccgDM_copyFinalEdgeArray(DerivedMesh *dm, MEdge *medge) { CCGDerivedMesh *ccgdm = (CCGDerivedMesh*) dm; CCGSubSurf *ss = ccgdm->ss; int index; int totedge, totface; int gridSize = ccgSubSurf_getGridSize(ss); int edgeSize = ccgSubSurf_getEdgeSize(ss); int i = 0; short *edgeFlags = ccgdm->edgeFlags; totface = ccgSubSurf_getNumFaces(ss); for(index = 0; index < totface; index++) { CCGFace *f = ccgdm->faceMap[index].face; int x, y, S, numVerts = ccgSubSurf_getFaceNumVerts(f); for(S = 0; S < numVerts; S++) { for(x = 0; x < gridSize - 1; x++) { MEdge *med = &medge[i]; if(ccgdm->drawInteriorEdges) med->flag = ME_EDGEDRAW | ME_EDGERENDER; med->v1 = getFaceIndex(ss, f, S, x, 0, edgeSize, gridSize); med->v2 = getFaceIndex(ss, f, S, x + 1, 0, edgeSize, gridSize); i++; } for(x = 1; x < gridSize - 1; x++) { for(y = 0; y < gridSize - 1; y++) { MEdge *med; med = &medge[i]; if(ccgdm->drawInteriorEdges) med->flag = ME_EDGEDRAW | ME_EDGERENDER; med->v1 = getFaceIndex(ss, f, S, x, y, edgeSize, gridSize); med->v2 = getFaceIndex(ss, f, S, x, y + 1, edgeSize, gridSize); i++; med = &medge[i]; if(ccgdm->drawInteriorEdges) med->flag = ME_EDGEDRAW | ME_EDGERENDER; med->v1 = getFaceIndex(ss, f, S, y, x, edgeSize, gridSize); med->v2 = getFaceIndex(ss, f, S, y + 1, x, edgeSize, gridSize); i++; } } } } totedge = ccgSubSurf_getNumEdges(ss); for(index = 0; index < totedge; index++) { CCGEdge *e = ccgdm->edgeMap[index].edge; unsigned int flags = 0; int x; int edgeIdx = GET_INT_FROM_POINTER(ccgSubSurf_getEdgeEdgeHandle(e)); if(!ccgSubSurf_getEdgeNumFaces(e)) flags |= ME_LOOSEEDGE; if(edgeFlags) { if(edgeIdx != -1) { flags |= (edgeFlags[index] & (ME_SEAM | ME_SHARP)) | ME_EDGEDRAW | ME_EDGERENDER; } } else { flags |= ME_EDGEDRAW | ME_EDGERENDER; } for(x = 0; x < edgeSize - 1; x++) { MEdge *med = &medge[i]; med->v1 = getEdgeIndex(ss, e, x, edgeSize); med->v2 = getEdgeIndex(ss, e, x + 1, edgeSize); med->flag = flags; i++; } } } static void ccgDM_copyFinalFaceArray(DerivedMesh *dm, MFace *mface) { CCGDerivedMesh *ccgdm = (CCGDerivedMesh*) dm; CCGSubSurf *ss = ccgdm->ss; int index; int totface; int gridSize = ccgSubSurf_getGridSize(ss); int edgeSize = ccgSubSurf_getEdgeSize(ss); int i = 0; char *faceFlags = ccgdm->faceFlags; totface = ccgSubSurf_getNumFaces(ss); for(index = 0; index < totface; index++) { CCGFace *f = ccgdm->faceMap[index].face; int x, y, S, numVerts = ccgSubSurf_getFaceNumVerts(f); int flag = (faceFlags)? faceFlags[index*2]: ME_SMOOTH; int mat_nr = (faceFlags)? faceFlags[index*2+1]: 0; for(S = 0; S < numVerts; S++) { for(y = 0; y < gridSize - 1; y++) { for(x = 0; x < gridSize - 1; x++) { MFace *mf = &mface[i]; mf->v1 = getFaceIndex(ss, f, S, x + 0, y + 0, edgeSize, gridSize); mf->v2 = getFaceIndex(ss, f, S, x + 0, y + 1, edgeSize, gridSize); mf->v3 = getFaceIndex(ss, f, S, x + 1, y + 1, edgeSize, gridSize); mf->v4 = getFaceIndex(ss, f, S, x + 1, y + 0, edgeSize, gridSize); mf->mat_nr = mat_nr; mf->flag = flag; i++; } } } } } static void ccgdm_getVertCos(DerivedMesh *dm, float (*cos)[3]) { CCGDerivedMesh *ccgdm = (CCGDerivedMesh*) dm; CCGSubSurf *ss = ccgdm->ss; int edgeSize = ccgSubSurf_getEdgeSize(ss); int gridSize = ccgSubSurf_getGridSize(ss); int i; CCGVertIterator *vi; CCGEdgeIterator *ei; CCGFaceIterator *fi; CCGFace **faceMap2; CCGEdge **edgeMap2; CCGVert **vertMap2; int index, totvert, totedge, totface; totvert = ccgSubSurf_getNumVerts(ss); vertMap2 = MEM_mallocN(totvert*sizeof(*vertMap2), "vertmap"); vi = ccgSubSurf_getVertIterator(ss); for (; !ccgVertIterator_isStopped(vi); ccgVertIterator_next(vi)) { CCGVert *v = ccgVertIterator_getCurrent(vi); vertMap2[GET_INT_FROM_POINTER(ccgSubSurf_getVertVertHandle(v))] = v; } ccgVertIterator_free(vi); totedge = ccgSubSurf_getNumEdges(ss); edgeMap2 = MEM_mallocN(totedge*sizeof(*edgeMap2), "edgemap"); ei = ccgSubSurf_getEdgeIterator(ss); for (i=0; !ccgEdgeIterator_isStopped(ei); i++,ccgEdgeIterator_next(ei)) { CCGEdge *e = ccgEdgeIterator_getCurrent(ei); edgeMap2[GET_INT_FROM_POINTER(ccgSubSurf_getEdgeEdgeHandle(e))] = e; } totface = ccgSubSurf_getNumFaces(ss); faceMap2 = MEM_mallocN(totface*sizeof(*faceMap2), "facemap"); fi = ccgSubSurf_getFaceIterator(ss); for (; !ccgFaceIterator_isStopped(fi); ccgFaceIterator_next(fi)) { CCGFace *f = ccgFaceIterator_getCurrent(fi); faceMap2[GET_INT_FROM_POINTER(ccgSubSurf_getFaceFaceHandle(ss, f))] = f; } ccgFaceIterator_free(fi); i = 0; for (index=0; indexss); for (; !ccgVertIterator_isStopped(vi); ccgVertIterator_next(vi)) { CCGVert *v = ccgVertIterator_getCurrent(vi); DMGridData *vd = ccgSubSurf_getVertData(ccgdm->ss, v); int index = ccgDM_getVertMapIndex(ccgdm->ss, v); if (index!=-1) func(userData, index, vd->co, vd->no, NULL); } ccgVertIterator_free(vi); } static void ccgDM_foreachMappedEdge(DerivedMesh *dm, void (*func)(void *userData, int index, float *v0co, float *v1co), void *userData) { CCGDerivedMesh *ccgdm = (CCGDerivedMesh*) dm; CCGSubSurf *ss = ccgdm->ss; CCGEdgeIterator *ei = ccgSubSurf_getEdgeIterator(ss); int i, edgeSize = ccgSubSurf_getEdgeSize(ss); for (; !ccgEdgeIterator_isStopped(ei); ccgEdgeIterator_next(ei)) { CCGEdge *e = ccgEdgeIterator_getCurrent(ei); DMGridData *edgeData = ccgSubSurf_getEdgeDataArray(ss, e); int index = ccgDM_getEdgeMapIndex(ss, e); if (index!=-1) { for (i=0; iss; int edgeSize = ccgSubSurf_getEdgeSize(ss); int gridSize = ccgSubSurf_getGridSize(ss); CCGVertIterator *vi; CCGEdgeIterator *ei; CCGFaceIterator *fi; glBegin(GL_POINTS); vi = ccgSubSurf_getVertIterator(ss); for (; !ccgVertIterator_isStopped(vi); ccgVertIterator_next(vi)) { CCGVert *v = ccgVertIterator_getCurrent(vi); glVertex3fv(ccgSubSurf_getVertData(ss, v)); } ccgVertIterator_free(vi); ei = ccgSubSurf_getEdgeIterator(ss); for (; !ccgEdgeIterator_isStopped(ei); ccgEdgeIterator_next(ei)) { CCGEdge *e = ccgEdgeIterator_getCurrent(ei); int x; for (x=1; xss; CCGEdgeIterator *ei = ccgSubSurf_getEdgeIterator(ss); CCGFaceIterator *fi = ccgSubSurf_getFaceIterator(ss); int i, edgeSize = ccgSubSurf_getEdgeSize(ss); int gridSize = ccgSubSurf_getGridSize(ss); int useAging; ccgSubSurf_getUseAgeCounts(ss, &useAging, NULL, NULL, NULL); for (; !ccgEdgeIterator_isStopped(ei); ccgEdgeIterator_next(ei)) { CCGEdge *e = ccgEdgeIterator_getCurrent(ei); DMGridData *edgeData = ccgSubSurf_getEdgeDataArray(ss, e); if (!drawLooseEdges && !ccgSubSurf_getEdgeNumFaces(e)) continue; if (useAging && !(G.f&G_BACKBUFSEL)) { int ageCol = 255-ccgSubSurf_getEdgeAge(ss, e)*4; glColor3ub(0, ageCol>0?ageCol:0, 0); } glBegin(GL_LINE_STRIP); for (i=0; idrawInteriorEdges) { for (; !ccgFaceIterator_isStopped(fi); ccgFaceIterator_next(fi)) { CCGFace *f = ccgFaceIterator_getCurrent(fi); int S, x, y, numVerts = ccgSubSurf_getFaceNumVerts(f); for (S=0; Sss; CCGEdgeIterator *ei = ccgSubSurf_getEdgeIterator(ss); int i, edgeSize = ccgSubSurf_getEdgeSize(ss); for (; !ccgEdgeIterator_isStopped(ei); ccgEdgeIterator_next(ei)) { CCGEdge *e = ccgEdgeIterator_getCurrent(ei); DMGridData *edgeData = ccgSubSurf_getEdgeDataArray(ss, e); if (!ccgSubSurf_getEdgeNumFaces(e)) { glBegin(GL_LINE_STRIP); for (i=0; ipbvh) { CCGFace **faces; int totface; BLI_pbvh_get_grid_updates(ccgdm->pbvh, 1, (void***)&faces, &totface); if(totface) { ccgSubSurf_updateFromFaces(ccgdm->ss, 0, faces, totface); ccgSubSurf_updateNormals(ccgdm->ss, faces, totface); MEM_freeN(faces); } } } /* Only used by non-editmesh types */ static void ccgDM_drawFacesSolid(DerivedMesh *dm, float (*partial_redraw_planes)[4], int fast, int (*setMaterial)(int, void *attribs)) { CCGDerivedMesh *ccgdm = (CCGDerivedMesh*) dm; CCGSubSurf *ss = ccgdm->ss; CCGFaceIterator *fi; int gridSize = ccgSubSurf_getGridSize(ss); char *faceFlags = ccgdm->faceFlags; int step = (fast)? gridSize-1: 1; ccgdm_pbvh_update(ccgdm); if(ccgdm->pbvh && ccgdm->multires.mmd && !fast) { if(dm->numFaceData) { /* should be per face */ if(!setMaterial(faceFlags[1]+1, NULL)) return; glShadeModel((faceFlags[0] & ME_SMOOTH)? GL_SMOOTH: GL_FLAT); BLI_pbvh_draw(ccgdm->pbvh, partial_redraw_planes, NULL); glShadeModel(GL_FLAT); } return; } fi = ccgSubSurf_getFaceIterator(ss); for (; !ccgFaceIterator_isStopped(fi); ccgFaceIterator_next(fi)) { CCGFace *f = ccgFaceIterator_getCurrent(fi); int S, x, y, numVerts = ccgSubSurf_getFaceNumVerts(f); int index = GET_INT_FROM_POINTER(ccgSubSurf_getFaceFaceHandle(ss, f)); int drawSmooth, mat_nr; if(faceFlags) { drawSmooth = (faceFlags[index*2] & ME_SMOOTH); mat_nr= faceFlags[index*2 + 1]; } else { drawSmooth = 1; mat_nr= 0; } if (!setMaterial(mat_nr+1, NULL)) continue; glShadeModel(drawSmooth? GL_SMOOTH: GL_FLAT); for (S=0; Sno); glVertex3fv(a->co); glNormal3fv(b->no); glVertex3fv(b->co); } glEnd(); } } else { glBegin(GL_QUADS); for (y=0; yss; CCGFaceIterator *fi = ccgSubSurf_getFaceIterator(ss); GPUVertexAttribs gattribs; DMVertexAttribs attribs; MTFace *tf = dm->getFaceDataArray(dm, CD_MTFACE); int gridSize = ccgSubSurf_getGridSize(ss); int gridFaces = gridSize - 1; int edgeSize = ccgSubSurf_getEdgeSize(ss); int transp, orig_transp, new_transp; char *faceFlags = ccgdm->faceFlags; int a, b, i, doDraw, numVerts, matnr, new_matnr, totface; ccgdm_pbvh_update(ccgdm); doDraw = 0; numVerts = 0; matnr = -1; transp = GPU_get_material_blend_mode(); orig_transp = transp; memset(&attribs, 0, sizeof(attribs)); #define PASSATTRIB(dx, dy, vert) { \ if(attribs.totorco) { \ index = getFaceIndex(ss, f, S, x+dx, y+dy, edgeSize, gridSize); \ glVertexAttrib3fvARB(attribs.orco.glIndex, attribs.orco.array[index]); \ } \ for(b = 0; b < attribs.tottface; b++) { \ MTFace *tf = &attribs.tface[b].array[a]; \ glVertexAttrib2fvARB(attribs.tface[b].glIndex, tf->uv[vert]); \ } \ for(b = 0; b < attribs.totmcol; b++) { \ MCol *cp = &attribs.mcol[b].array[a*4 + vert]; \ GLubyte col[4]; \ col[0]= cp->b; col[1]= cp->g; col[2]= cp->r; col[3]= cp->a; \ glVertexAttrib4ubvARB(attribs.mcol[b].glIndex, col); \ } \ if(attribs.tottang) { \ float *tang = attribs.tang.array[a*4 + vert]; \ glVertexAttrib3fvARB(attribs.tang.glIndex, tang); \ } \ } totface = ccgSubSurf_getNumFaces(ss); for(a = 0, i = 0; i < totface; i++) { CCGFace *f = ccgdm->faceMap[i].face; int S, x, y, drawSmooth; int index = GET_INT_FROM_POINTER(ccgSubSurf_getFaceFaceHandle(ss, f)); int origIndex = ccgDM_getFaceMapIndex(ss, f); numVerts = ccgSubSurf_getFaceNumVerts(f); if(faceFlags) { drawSmooth = (faceFlags[index*2] & ME_SMOOTH); new_matnr= faceFlags[index*2 + 1] + 1; } else { drawSmooth = 1; new_matnr= 1; } if(new_matnr != matnr) { doDraw = setMaterial(matnr = new_matnr, &gattribs); if(doDraw) DM_vertex_attributes_from_gpu(dm, &gattribs, &attribs); } if(!doDraw || (setDrawOptions && !setDrawOptions(userData, origIndex))) { a += gridFaces*gridFaces*numVerts; continue; } if(tf) { new_transp = tf[i].transp; if(new_transp != transp) { if(new_transp == GPU_BLEND_SOLID && orig_transp != GPU_BLEND_SOLID) GPU_set_material_blend_mode(orig_transp); else GPU_set_material_blend_mode(new_transp); transp = new_transp; } } glShadeModel(drawSmooth? GL_SMOOTH: GL_FLAT); for (S=0; Sno); glVertex3fv(vda->co); PASSATTRIB(0, 1, 1); glNormal3fv(vdb->no); glVertex3fv(vdb->co); if(x != gridFaces-1) a++; } vda = &faceGridData[(y+0)*gridSize + x]; vdb = &faceGridData[(y+1)*gridSize + x]; PASSATTRIB(0, 0, 3); glNormal3fv(vda->no); glVertex3fv(vda->co); PASSATTRIB(0, 1, 2); glNormal3fv(vdb->no); glVertex3fv(vdb->co); glEnd(); a++; } } else { glBegin(GL_QUADS); for (y=0; ydrawMappedFacesGLSL(dm, setMaterial, NULL, NULL); } static void ccgDM_drawFacesColored(DerivedMesh *dm, int useTwoSided, unsigned char *col1, unsigned char *col2) { CCGDerivedMesh *ccgdm = (CCGDerivedMesh*) dm; CCGSubSurf *ss = ccgdm->ss; CCGFaceIterator *fi = ccgSubSurf_getFaceIterator(ss); int gridSize = ccgSubSurf_getGridSize(ss); unsigned char *cp1, *cp2; int useTwoSide=1; ccgdm_pbvh_update(ccgdm); cp1= col1; if(col2) { cp2= col2; } else { cp2= NULL; useTwoSide= 0; } glShadeModel(GL_SMOOTH); if(col1 && col2) glEnable(GL_CULL_FACE); glBegin(GL_QUADS); for (; !ccgFaceIterator_isStopped(fi); ccgFaceIterator_next(fi)) { CCGFace *f = ccgFaceIterator_getCurrent(fi); int S, x, y, numVerts = ccgSubSurf_getFaceNumVerts(f); for (S=0; Sss; MCol *mcol = dm->getFaceDataArray(dm, CD_WEIGHT_MCOL); MTFace *tf = DM_get_face_data_layer(dm, CD_MTFACE); char *faceFlags = ccgdm->faceFlags; int i, totface, flag, gridSize = ccgSubSurf_getGridSize(ss); int gridFaces = gridSize - 1; ccgdm_pbvh_update(ccgdm); if(!mcol) mcol = dm->getFaceDataArray(dm, CD_MCOL); totface = ccgSubSurf_getNumFaces(ss); for(i = 0; i < totface; i++) { CCGFace *f = ccgdm->faceMap[i].face; int S, x, y, numVerts = ccgSubSurf_getFaceNumVerts(f); int drawSmooth, index = ccgDM_getFaceMapIndex(ss, f); int origIndex = GET_INT_FROM_POINTER(ccgSubSurf_getFaceFaceHandle(ss, f)); unsigned char *cp= NULL; int mat_nr; if(faceFlags) { drawSmooth = (faceFlags[origIndex*2] & ME_SMOOTH); mat_nr= faceFlags[origIndex*2 + 1]; } else { drawSmooth = 1; mat_nr= 0; } if(drawParams) flag = drawParams(tf, mcol, mat_nr); else flag= (drawParamsMapped)? drawParamsMapped(userData, index): 1; if (flag == 0) { /* flag 0 == the face is hidden or invisible */ if(tf) tf += gridFaces*gridFaces*numVerts; if(mcol) mcol += gridFaces*gridFaces*numVerts*4; continue; } /* flag 1 == use vertex colors */ if(mcol) { if(flag==1) cp= (unsigned char*)mcol; mcol += gridFaces*gridFaces*numVerts*4; } for (S=0; Suv[0]); if(cp) glColor3ub(cp[3], cp[2], cp[1]); glNormal3fv(a->no); glVertex3fv(a->co); if(tf) glTexCoord2fv(tf->uv[1]); if(cp) glColor3ub(cp[7], cp[6], cp[5]); glNormal3fv(b->no); glVertex3fv(b->co); if(x != gridFaces-1) { if(tf) tf++; if(cp) cp += 16; } } a = &faceGridData[(y+0)*gridSize + x]; b = &faceGridData[(y+1)*gridSize + x]; if(tf) glTexCoord2fv(tf->uv[3]); if(cp) glColor3ub(cp[15], cp[14], cp[13]); glNormal3fv(a->no); glVertex3fv(a->co); if(tf) glTexCoord2fv(tf->uv[2]); if(cp) glColor3ub(cp[11], cp[10], cp[9]); glNormal3fv(b->no); glVertex3fv(b->co); if(tf) tf++; if(cp) cp += 16; glEnd(); } } else { glShadeModel(GL_FLAT); glBegin(GL_QUADS); for (y=0; yuv[1]); if(cp) glColor3ub(cp[7], cp[6], cp[5]); glVertex3fv(d_co); if(tf) glTexCoord2fv(tf->uv[2]); if(cp) glColor3ub(cp[11], cp[10], cp[9]); glVertex3fv(c_co); if(tf) glTexCoord2fv(tf->uv[3]); if(cp) glColor3ub(cp[15], cp[14], cp[13]); glVertex3fv(b_co); if(tf) glTexCoord2fv(tf->uv[0]); if(cp) glColor3ub(cp[3], cp[2], cp[1]); glVertex3fv(a_co); if(tf) tf++; if(cp) cp += 16; } } glEnd(); } } } } static void ccgDM_drawFacesTex(DerivedMesh *dm, int (*setDrawOptions)(MTFace *tface, MCol *mcol, int matnr)) { ccgDM_drawFacesTex_common(dm, setDrawOptions, NULL, NULL); } static void ccgDM_drawMappedFacesTex(DerivedMesh *dm, int (*setDrawOptions)(void *userData, int index), void *userData) { ccgDM_drawFacesTex_common(dm, NULL, setDrawOptions, userData); } static void ccgDM_drawUVEdges(DerivedMesh *dm) { MFace *mf = dm->getFaceArray(dm); MTFace *tf = DM_get_face_data_layer(dm, CD_MTFACE); int i; if (tf) { glBegin(GL_LINES); for(i = 0; i < dm->numFaceData; i++, mf++, tf++) { if(!(mf->flag&ME_HIDE)) { glVertex2fv(tf->uv[0]); glVertex2fv(tf->uv[1]); glVertex2fv(tf->uv[1]); glVertex2fv(tf->uv[2]); if(!mf->v4) { glVertex2fv(tf->uv[2]); glVertex2fv(tf->uv[0]); } else { glVertex2fv(tf->uv[2]); glVertex2fv(tf->uv[3]); glVertex2fv(tf->uv[3]); glVertex2fv(tf->uv[0]); } } } glEnd(); } } static void ccgDM_drawMappedFaces(DerivedMesh *dm, int (*setDrawOptions)(void *userData, int index, int *drawSmooth_r), void *userData, int useColors) { CCGDerivedMesh *ccgdm = (CCGDerivedMesh*) dm; CCGSubSurf *ss = ccgdm->ss; MCol *mcol= NULL; int i, gridSize = ccgSubSurf_getGridSize(ss); char *faceFlags = ccgdm->faceFlags; int gridFaces = gridSize - 1, totface; if(useColors) { mcol = dm->getFaceDataArray(dm, CD_WEIGHT_MCOL); if(!mcol) mcol = dm->getFaceDataArray(dm, CD_MCOL); } totface = ccgSubSurf_getNumFaces(ss); for(i = 0; i < totface; i++) { CCGFace *f = ccgdm->faceMap[i].face; int S, x, y, numVerts = ccgSubSurf_getFaceNumVerts(f); int drawSmooth, index = ccgDM_getFaceMapIndex(ss, f); int origIndex; unsigned char *cp= NULL; origIndex = GET_INT_FROM_POINTER(ccgSubSurf_getFaceFaceHandle(ss, f)); if(faceFlags) drawSmooth = (faceFlags[origIndex*2] & ME_SMOOTH); else drawSmooth = 1; if(mcol) { cp= (unsigned char*)mcol; mcol += gridFaces*gridFaces*numVerts*4; } if (index!=-1) { int draw; draw = setDrawOptions==NULL ? 1 : setDrawOptions(userData, index, &drawSmooth); if (draw) { if (draw==2) { glEnable(GL_POLYGON_STIPPLE); glPolygonStipple(stipple_quarttone); } for (S=0; Sno); glVertex3fv(a->co); if(cp) glColor3ub(cp[7], cp[6], cp[5]); glNormal3fv(b->no); glVertex3fv(b->co); if(x != gridFaces-1) { if(cp) cp += 16; } } a = &faceGridData[(y+0)*gridSize + x]; b = &faceGridData[(y+1)*gridSize + x]; if(cp) glColor3ub(cp[15], cp[14], cp[13]); glNormal3fv(a->no); glVertex3fv(a->co); if(cp) glColor3ub(cp[11], cp[10], cp[9]); glNormal3fv(b->no); glVertex3fv(b->co); if(cp) cp += 16; glEnd(); } } else { glShadeModel(GL_FLAT); glBegin(GL_QUADS); for (y=0; yss; CCGEdgeIterator *ei = ccgSubSurf_getEdgeIterator(ss); int i, useAging, edgeSize = ccgSubSurf_getEdgeSize(ss); ccgSubSurf_getUseAgeCounts(ss, &useAging, NULL, NULL, NULL); for (; !ccgEdgeIterator_isStopped(ei); ccgEdgeIterator_next(ei)) { CCGEdge *e = ccgEdgeIterator_getCurrent(ei); DMGridData *edgeData = ccgSubSurf_getEdgeDataArray(ss, e); int index = ccgDM_getEdgeMapIndex(ss, e); glBegin(GL_LINE_STRIP); if (index!=-1 && (!setDrawOptions || setDrawOptions(userData, index))) { if (useAging && !(G.f&G_BACKBUFSEL)) { int ageCol = 255-ccgSubSurf_getEdgeAge(ss, e)*4; glColor3ub(0, ageCol>0?ageCol:0, 0); } for (i=0; iss; CCGEdgeIterator *ei = ccgSubSurf_getEdgeIterator(ss); int i, useAging, edgeSize = ccgSubSurf_getEdgeSize(ss); ccgSubSurf_getUseAgeCounts(ss, &useAging, NULL, NULL, NULL); for (; !ccgEdgeIterator_isStopped(ei); ccgEdgeIterator_next(ei)) { CCGEdge *e = ccgEdgeIterator_getCurrent(ei); DMGridData *edgeData = ccgSubSurf_getEdgeDataArray(ss, e); int index = ccgDM_getEdgeMapIndex(ss, e); glBegin(GL_LINE_STRIP); if (index!=-1 && (!setDrawOptions || setDrawOptions(userData, index))) { for (i=0; i0?ageCol:0, 0); } glVertex3fv(edgeData[i].co); } } glEnd(); } ccgEdgeIterator_free(ei); } static void ccgDM_foreachMappedFaceCenter(DerivedMesh *dm, void (*func)(void *userData, int index, float *co, float *no), void *userData) { CCGDerivedMesh *ccgdm = (CCGDerivedMesh*) dm; CCGSubSurf *ss = ccgdm->ss; CCGFaceIterator *fi = ccgSubSurf_getFaceIterator(ss); for (; !ccgFaceIterator_isStopped(fi); ccgFaceIterator_next(fi)) { CCGFace *f = ccgFaceIterator_getCurrent(fi); int index = ccgDM_getFaceMapIndex(ss, f); if (index!=-1) { /* Face center data normal isn't updated atm. */ DMGridData *vd = ccgSubSurf_getFaceGridData(ss, f, 0, 0, 0); func(userData, index, vd->co, vd->no); } } ccgFaceIterator_free(fi); } static void ccgDM_release(DerivedMesh *dm) { CCGDerivedMesh *ccgdm = (CCGDerivedMesh*) dm; if (DM_release(dm)) { /* Before freeing, need to update the displacement map */ if(ccgdm->multires.modified) { /* Check that mmd still exists */ if(!ccgdm->multires.local_mmd && BLI_findindex(&ccgdm->multires.ob->modifiers, ccgdm->multires.mmd) < 0) ccgdm->multires.mmd = NULL; if(ccgdm->multires.mmd) ccgdm->multires.update(dm); } if(ccgdm->pbvh) BLI_pbvh_free(ccgdm->pbvh); if(ccgdm->gridFaces) MEM_freeN(ccgdm->gridFaces); if(ccgdm->gridData) MEM_freeN(ccgdm->gridData); if(ccgdm->gridAdjacency) MEM_freeN(ccgdm->gridAdjacency); if(ccgdm->gridOffset) MEM_freeN(ccgdm->gridOffset); if(ccgdm->freeSS) ccgSubSurf_free(ccgdm->ss); MEM_freeN(ccgdm->edgeFlags); MEM_freeN(ccgdm->faceFlags); MEM_freeN(ccgdm->vertMap); MEM_freeN(ccgdm->edgeMap); MEM_freeN(ccgdm->faceMap); MEM_freeN(ccgdm); } } static void *ccgDM_get_vert_data_layer(DerivedMesh *dm, int type) { if(type == CD_ORIGINDEX) { /* create origindex on demand to save memory */ CCGDerivedMesh *ccgdm= (CCGDerivedMesh*)dm; CCGSubSurf *ss= ccgdm->ss; int *origindex; int a, index, totnone, totorig; DM_add_vert_layer(dm, CD_ORIGINDEX, CD_CALLOC, NULL); origindex= DM_get_vert_data_layer(dm, CD_ORIGINDEX); totorig = ccgSubSurf_getNumVerts(ss); totnone= dm->numVertData - totorig; /* original vertices are at the end */ for(a=0; avertMap[index].vert; origindex[a] = ccgDM_getVertMapIndex(ccgdm->ss, v); } return origindex; } return DM_get_vert_data_layer(dm, type); } static void *ccgDM_get_edge_data_layer(DerivedMesh *dm, int type) { if(type == CD_ORIGINDEX) { /* create origindex on demand to save memory */ CCGDerivedMesh *ccgdm= (CCGDerivedMesh*)dm; CCGSubSurf *ss= ccgdm->ss; int *origindex; int a, i, index, totnone, totorig, totedge; int edgeSize= ccgSubSurf_getEdgeSize(ss); DM_add_edge_layer(dm, CD_ORIGINDEX, CD_CALLOC, NULL); origindex= DM_get_edge_data_layer(dm, CD_ORIGINDEX); totedge= ccgSubSurf_getNumEdges(ss); totorig= totedge*(edgeSize - 1); totnone= dm->numEdgeData - totorig; /* original edges are at the end */ for(a=0; aedgeMap[index].edge; int mapIndex= ccgDM_getEdgeMapIndex(ss, e); for(i = 0; i < edgeSize - 1; i++, a++) origindex[a]= mapIndex; } return origindex; } return DM_get_edge_data_layer(dm, type); } static void *ccgDM_get_face_data_layer(DerivedMesh *dm, int type) { if(type == CD_ORIGINDEX) { /* create origindex on demand to save memory */ CCGDerivedMesh *ccgdm= (CCGDerivedMesh*)dm; CCGSubSurf *ss= ccgdm->ss; int *origindex; int a, i, index, totface; int gridFaces = ccgSubSurf_getGridSize(ss) - 1; DM_add_face_layer(dm, CD_ORIGINDEX, CD_CALLOC, NULL); origindex= DM_get_face_data_layer(dm, CD_ORIGINDEX); totface= ccgSubSurf_getNumFaces(ss); for(a=0, index=0; indexfaceMap[index].face; int numVerts = ccgSubSurf_getFaceNumVerts(f); int mapIndex = ccgDM_getFaceMapIndex(ss, f); for(i=0; iss); numGrids= 0; for(index=0; indexfaceMap[index].face; numGrids += ccgSubSurf_getFaceNumVerts(f); } return numGrids; } static int ccgDM_getGridSize(DerivedMesh *dm) { CCGDerivedMesh *ccgdm= (CCGDerivedMesh*)dm; return ccgSubSurf_getGridSize(ccgdm->ss); } static int ccgdm_adjacent_grid(CCGSubSurf *ss, int *gridOffset, CCGFace *f, int S, int offset) { CCGFace *adjf; CCGEdge *e; int i, j= 0, numFaces, fIndex, numEdges= 0; e = ccgSubSurf_getFaceEdge(ss, f, S); numFaces = ccgSubSurf_getEdgeNumFaces(e); if(numFaces != 2) return -1; for(i = 0; i < numFaces; i++) { adjf = ccgSubSurf_getEdgeFace(e, i); if(adjf != f) { numEdges = ccgSubSurf_getFaceNumVerts(adjf); for(j = 0; j < numEdges; j++) if(ccgSubSurf_getFaceEdge(ss, adjf, j) == e) break; if(j != numEdges) break; } } fIndex = GET_INT_FROM_POINTER(ccgSubSurf_getFaceFaceHandle(ss, adjf)); return gridOffset[fIndex] + (j + offset)%numEdges; } static void ccgdm_create_grids(DerivedMesh *dm) { CCGDerivedMesh *ccgdm= (CCGDerivedMesh*)dm; CCGSubSurf *ss= ccgdm->ss; DMGridData **gridData; DMGridAdjacency *gridAdjacency, *adj; CCGFace **gridFaces; int *gridOffset; int index, numFaces, numGrids, S, gIndex, gridSize; if(ccgdm->gridData) return; numGrids = ccgDM_getNumGrids(dm); numFaces = ccgSubSurf_getNumFaces(ss); gridSize = ccgDM_getGridSize(dm); /* compute offset into grid array for each face */ gridOffset = MEM_mallocN(sizeof(int)*numFaces, "ccgdm.gridOffset"); for(gIndex = 0, index = 0; index < numFaces; index++) { CCGFace *f = ccgdm->faceMap[index].face; int numVerts = ccgSubSurf_getFaceNumVerts(f); gridOffset[index] = gIndex; gIndex += numVerts; } /* compute grid data */ gridData = MEM_mallocN(sizeof(DMGridData*)*numGrids, "ccgdm.gridData"); gridAdjacency = MEM_mallocN(sizeof(DMGridAdjacency)*numGrids, "ccgdm.gridAdjacency"); gridFaces = MEM_mallocN(sizeof(CCGFace*)*numGrids, "ccgdm.gridFaces"); for(gIndex = 0, index = 0; index < numFaces; index++) { CCGFace *f = ccgdm->faceMap[index].face; int numVerts = ccgSubSurf_getFaceNumVerts(f); for(S = 0; S < numVerts; S++, gIndex++) { int prevS = (S - 1 + numVerts) % numVerts; int nextS = (S + 1 + numVerts) % numVerts; gridData[gIndex] = ccgSubSurf_getFaceGridDataArray(ss, f, S); gridFaces[gIndex] = f; adj = &gridAdjacency[gIndex]; adj->index[0] = gIndex - S + nextS; adj->rotation[0] = 3; adj->index[1] = ccgdm_adjacent_grid(ss, gridOffset, f, prevS, 0); adj->rotation[1] = 1; adj->index[2] = ccgdm_adjacent_grid(ss, gridOffset, f, S, 1); adj->rotation[2] = 3; adj->index[3] = gIndex - S + prevS; adj->rotation[3] = 1; } } ccgdm->gridData = gridData; ccgdm->gridFaces = gridFaces; ccgdm->gridAdjacency = gridAdjacency; ccgdm->gridOffset = gridOffset; } static DMGridData **ccgDM_getGridData(DerivedMesh *dm) { CCGDerivedMesh *ccgdm= (CCGDerivedMesh*)dm; ccgdm_create_grids(dm); return ccgdm->gridData; } static DMGridAdjacency *ccgDM_getGridAdjacency(DerivedMesh *dm) { CCGDerivedMesh *ccgdm= (CCGDerivedMesh*)dm; ccgdm_create_grids(dm); return ccgdm->gridAdjacency; } static int *ccgDM_getGridOffset(DerivedMesh *dm) { CCGDerivedMesh *ccgdm= (CCGDerivedMesh*)dm; ccgdm_create_grids(dm); return ccgdm->gridOffset; } static struct PBVH *ccgDM_getPBVH(Object *ob, DerivedMesh *dm) { CCGDerivedMesh *ccgdm= (CCGDerivedMesh*)dm; int gridSize, numGrids; if(ccgdm->pbvh) return ccgdm->pbvh; if(ccgdm->multires.mmd) { ccgdm_create_grids(dm); gridSize = ccgDM_getGridSize(dm); numGrids = ccgDM_getNumGrids(dm); ccgdm->pbvh = BLI_pbvh_new(); BLI_pbvh_build_grids(ccgdm->pbvh, ccgdm->gridData, ccgdm->gridAdjacency, numGrids, gridSize, (void**)ccgdm->gridFaces); } else if(ob->type == OB_MESH) { Mesh *me= ob->data; ccgdm->pbvh = BLI_pbvh_new(); BLI_pbvh_build_mesh(ccgdm->pbvh, me->mface, me->mvert, me->totface, me->totvert); } return ccgdm->pbvh; } static CCGDerivedMesh *getCCGDerivedMesh(CCGSubSurf *ss, int drawInteriorEdges, int useSubsurfUv, DerivedMesh *dm) { CCGDerivedMesh *ccgdm = MEM_callocN(sizeof(*ccgdm), "ccgdm"); CCGVertIterator *vi; CCGEdgeIterator *ei; CCGFaceIterator *fi; int index, totvert, totedge, totface; int i; int vertNum, edgeNum, faceNum; short *edgeFlags; char *faceFlags; int edgeSize; int gridSize; int gridFaces; int gridSideVerts; int gridSideEdges; int gridInternalEdges; MEdge *medge = NULL; MFace *mface = NULL; FaceVertWeight *qweight, *tweight; DM_from_template(&ccgdm->dm, dm, DM_TYPE_CCGDM, ccgSubSurf_getNumFinalVerts(ss), ccgSubSurf_getNumFinalEdges(ss), ccgSubSurf_getNumFinalFaces(ss)); ccgdm->dm.getMinMax = ccgDM_getMinMax; ccgdm->dm.getNumVerts = ccgDM_getNumVerts; ccgdm->dm.getNumFaces = ccgDM_getNumFaces; ccgdm->dm.getNumEdges = ccgDM_getNumEdges; ccgdm->dm.getVert = ccgDM_getFinalVert; ccgdm->dm.getEdge = ccgDM_getFinalEdge; ccgdm->dm.getFace = ccgDM_getFinalFace; ccgdm->dm.copyVertArray = ccgDM_copyFinalVertArray; ccgdm->dm.copyEdgeArray = ccgDM_copyFinalEdgeArray; ccgdm->dm.copyFaceArray = ccgDM_copyFinalFaceArray; ccgdm->dm.getVertData = DM_get_vert_data; ccgdm->dm.getEdgeData = DM_get_edge_data; ccgdm->dm.getFaceData = DM_get_face_data; ccgdm->dm.getVertDataArray = ccgDM_get_vert_data_layer; ccgdm->dm.getEdgeDataArray = ccgDM_get_edge_data_layer; ccgdm->dm.getFaceDataArray = ccgDM_get_face_data_layer; ccgdm->dm.getNumGrids = ccgDM_getNumGrids; ccgdm->dm.getGridSize = ccgDM_getGridSize; ccgdm->dm.getGridData = ccgDM_getGridData; ccgdm->dm.getGridAdjacency = ccgDM_getGridAdjacency; ccgdm->dm.getGridOffset = ccgDM_getGridOffset; ccgdm->dm.getPBVH = ccgDM_getPBVH; ccgdm->dm.getVertCos = ccgdm_getVertCos; ccgdm->dm.foreachMappedVert = ccgDM_foreachMappedVert; ccgdm->dm.foreachMappedEdge = ccgDM_foreachMappedEdge; ccgdm->dm.foreachMappedFaceCenter = ccgDM_foreachMappedFaceCenter; ccgdm->dm.drawVerts = ccgDM_drawVerts; ccgdm->dm.drawEdges = ccgDM_drawEdges; ccgdm->dm.drawLooseEdges = ccgDM_drawLooseEdges; ccgdm->dm.drawFacesSolid = ccgDM_drawFacesSolid; ccgdm->dm.drawFacesColored = ccgDM_drawFacesColored; ccgdm->dm.drawFacesTex = ccgDM_drawFacesTex; ccgdm->dm.drawFacesGLSL = ccgDM_drawFacesGLSL; ccgdm->dm.drawMappedFaces = ccgDM_drawMappedFaces; ccgdm->dm.drawMappedFacesTex = ccgDM_drawMappedFacesTex; ccgdm->dm.drawMappedFacesGLSL = ccgDM_drawMappedFacesGLSL; ccgdm->dm.drawUVEdges = ccgDM_drawUVEdges; ccgdm->dm.drawMappedEdgesInterp = ccgDM_drawMappedEdgesInterp; ccgdm->dm.drawMappedEdges = ccgDM_drawMappedEdges; ccgdm->dm.release = ccgDM_release; ccgdm->ss = ss; ccgdm->drawInteriorEdges = drawInteriorEdges; ccgdm->useSubsurfUv = useSubsurfUv; totvert = ccgSubSurf_getNumVerts(ss); ccgdm->vertMap = MEM_mallocN(totvert * sizeof(*ccgdm->vertMap), "vertMap"); vi = ccgSubSurf_getVertIterator(ss); for(; !ccgVertIterator_isStopped(vi); ccgVertIterator_next(vi)) { CCGVert *v = ccgVertIterator_getCurrent(vi); ccgdm->vertMap[GET_INT_FROM_POINTER(ccgSubSurf_getVertVertHandle(v))].vert = v; } ccgVertIterator_free(vi); totedge = ccgSubSurf_getNumEdges(ss); ccgdm->edgeMap = MEM_mallocN(totedge * sizeof(*ccgdm->edgeMap), "edgeMap"); ei = ccgSubSurf_getEdgeIterator(ss); for(; !ccgEdgeIterator_isStopped(ei); ccgEdgeIterator_next(ei)) { CCGEdge *e = ccgEdgeIterator_getCurrent(ei); ccgdm->edgeMap[GET_INT_FROM_POINTER(ccgSubSurf_getEdgeEdgeHandle(e))].edge = e; } totface = ccgSubSurf_getNumFaces(ss); ccgdm->faceMap = MEM_mallocN(totface * sizeof(*ccgdm->faceMap), "faceMap"); fi = ccgSubSurf_getFaceIterator(ss); for(; !ccgFaceIterator_isStopped(fi); ccgFaceIterator_next(fi)) { CCGFace *f = ccgFaceIterator_getCurrent(fi); ccgdm->faceMap[GET_INT_FROM_POINTER(ccgSubSurf_getFaceFaceHandle(ss, f))].face = f; } ccgFaceIterator_free(fi); edgeSize = ccgSubSurf_getEdgeSize(ss); gridSize = ccgSubSurf_getGridSize(ss); gridFaces = gridSize - 1; gridSideVerts = gridSize - 2; /*gridInternalVerts = gridSideVerts * gridSideVerts; - as yet, unused */ gridSideEdges = gridSize - 1; gridInternalEdges = (gridSideEdges - 1) * gridSideEdges * 2; calc_ss_weights(gridFaces, &qweight, &tweight); vertNum = 0; edgeNum = 0; faceNum = 0; /* mvert = dm->getVertArray(dm); - as yet unused */ medge = dm->getEdgeArray(dm); mface = dm->getFaceArray(dm); faceFlags = ccgdm->faceFlags = MEM_callocN(sizeof(char)*2*totface, "faceFlags"); for(index = 0; index < totface; ++index) { CCGFace *f = ccgdm->faceMap[index].face; int numVerts = ccgSubSurf_getFaceNumVerts(f); int numFinalEdges = numVerts * (gridSideEdges + gridInternalEdges); int origIndex = GET_INT_FROM_POINTER(ccgSubSurf_getFaceFaceHandle(ss, f)); FaceVertWeight *weight = (numVerts == 4) ? qweight : tweight; int S, x, y; int vertIdx[4]; ccgdm->faceMap[index].startVert = vertNum; ccgdm->faceMap[index].startEdge = edgeNum; ccgdm->faceMap[index].startFace = faceNum; /* set the face base vert */ *((int*)ccgSubSurf_getFaceUserData(ss, f)) = vertNum; for(S = 0; S < numVerts; S++) { CCGVert *v = ccgSubSurf_getFaceVert(ss, f, S); vertIdx[S] = GET_INT_FROM_POINTER(ccgSubSurf_getVertVertHandle(v)); } DM_interp_vert_data(dm, &ccgdm->dm, vertIdx, weight[0][0], numVerts, vertNum); ++vertNum; for(S = 0; S < numVerts; S++) { int prevS = (S - 1 + numVerts) % numVerts; int nextS = (S + 1) % numVerts; int otherS = (numVerts == 4) ? (S + 2) % numVerts : 3; for(x = 1; x < gridFaces; x++) { float w[4]; w[prevS] = weight[x][0][0]; w[S] = weight[x][0][1]; w[nextS] = weight[x][0][2]; w[otherS] = weight[x][0][3]; DM_interp_vert_data(dm, &ccgdm->dm, vertIdx, w, numVerts, vertNum); ++vertNum; } } for(S = 0; S < numVerts; S++) { int prevS = (S - 1 + numVerts) % numVerts; int nextS = (S + 1) % numVerts; int otherS = (numVerts == 4) ? (S + 2) % numVerts : 3; for(y = 1; y < gridFaces; y++) { for(x = 1; x < gridFaces; x++) { float w[4]; w[prevS] = weight[y * gridFaces + x][0][0]; w[S] = weight[y * gridFaces + x][0][1]; w[nextS] = weight[y * gridFaces + x][0][2]; w[otherS] = weight[y * gridFaces + x][0][3]; DM_interp_vert_data(dm, &ccgdm->dm, vertIdx, w, numVerts, vertNum); ++vertNum; } } } for(S = 0; S < numVerts; S++) { int prevS = (S - 1 + numVerts) % numVerts; int nextS = (S + 1) % numVerts; int otherS = (numVerts == 4) ? (S + 2) % numVerts : 3; weight = (numVerts == 4) ? qweight : tweight; for(y = 0; y < gridFaces; y++) { for(x = 0; x < gridFaces; x++) { FaceVertWeight w; int j; for(j = 0; j < 4; ++j) { w[j][prevS] = (*weight)[j][0]; w[j][S] = (*weight)[j][1]; w[j][nextS] = (*weight)[j][2]; w[j][otherS] = (*weight)[j][3]; } DM_interp_face_data(dm, &ccgdm->dm, &origIndex, NULL, &w, 1, faceNum); weight++; ++faceNum; } } } faceFlags[index*2] = mface[origIndex].flag; faceFlags[index*2 + 1] = mface[origIndex].mat_nr; edgeNum += numFinalEdges; } if(useSubsurfUv) { CustomData *fdata = &ccgdm->dm.faceData; CustomData *dmfdata = &dm->faceData; int numlayer = CustomData_number_of_layers(fdata, CD_MTFACE); int dmnumlayer = CustomData_number_of_layers(dmfdata, CD_MTFACE); for (i=0; idm, i); } edgeFlags = ccgdm->edgeFlags = MEM_callocN(sizeof(short)*totedge, "edgeFlags"); for(index = 0; index < totedge; ++index) { CCGEdge *e = ccgdm->edgeMap[index].edge; int numFinalEdges = edgeSize - 1; int x; int vertIdx[2]; int edgeIdx = GET_INT_FROM_POINTER(ccgSubSurf_getEdgeEdgeHandle(e)); CCGVert *v; v = ccgSubSurf_getEdgeVert0(e); vertIdx[0] = GET_INT_FROM_POINTER(ccgSubSurf_getVertVertHandle(v)); v = ccgSubSurf_getEdgeVert1(e); vertIdx[1] = GET_INT_FROM_POINTER(ccgSubSurf_getVertVertHandle(v)); ccgdm->edgeMap[index].startVert = vertNum; ccgdm->edgeMap[index].startEdge = edgeNum; /* set the edge base vert */ *((int*)ccgSubSurf_getEdgeUserData(ss, e)) = vertNum; for(x = 1; x < edgeSize - 1; x++) { float w[2]; w[1] = (float) x / (edgeSize - 1); w[0] = 1 - w[1]; DM_interp_vert_data(dm, &ccgdm->dm, vertIdx, w, 2, vertNum); ++vertNum; } edgeFlags[index]= medge[edgeIdx].flag; edgeNum += numFinalEdges; } for(index = 0; index < totvert; ++index) { CCGVert *v = ccgdm->vertMap[index].vert; int vertIdx; vertIdx = GET_INT_FROM_POINTER(ccgSubSurf_getVertVertHandle(v)); ccgdm->vertMap[index].startVert = vertNum; /* set the vert base vert */ *((int*) ccgSubSurf_getVertUserData(ss, v)) = vertNum; DM_copy_vert_data(dm, &ccgdm->dm, vertIdx, vertNum, 1); ++vertNum; } MEM_freeN(qweight); MEM_freeN(tweight); return ccgdm; } /***/ struct DerivedMesh *subsurf_make_derived_from_derived( struct DerivedMesh *dm, struct SubsurfModifierData *smd, int useRenderParams, float (*vertCos)[3], int isFinalCalc, int editMode) { int useSimple = smd->subdivType == ME_SIMPLE_SUBSURF; int useAging = smd->flags & eSubsurfModifierFlag_DebugIncr; int useSubsurfUv = smd->flags & eSubsurfModifierFlag_SubsurfUv; int drawInteriorEdges = !(smd->flags & eSubsurfModifierFlag_ControlEdges); CCGDerivedMesh *result; if(editMode) { int levels= (smd->modifier.scene)? get_render_subsurf_level(&smd->modifier.scene->r, smd->levels): smd->levels; smd->emCache = _getSubSurf(smd->emCache, levels, useAging, 0, useSimple); ss_sync_from_derivedmesh(smd->emCache, dm, vertCos, useSimple); result = getCCGDerivedMesh(smd->emCache, drawInteriorEdges, useSubsurfUv, dm); } else if(useRenderParams) { /* Do not use cache in render mode. */ CCGSubSurf *ss; int levels= (smd->modifier.scene)? get_render_subsurf_level(&smd->modifier.scene->r, smd->renderLevels): smd->renderLevels; if(levels == 0) return dm; ss = _getSubSurf(NULL, levels, 0, 1, useSimple); ss_sync_from_derivedmesh(ss, dm, vertCos, useSimple); result = getCCGDerivedMesh(ss, drawInteriorEdges, useSubsurfUv, dm); result->freeSS = 1; } else { int useIncremental = (smd->flags & eSubsurfModifierFlag_Incremental); int useAging = smd->flags & eSubsurfModifierFlag_DebugIncr; int levels= (smd->modifier.scene)? get_render_subsurf_level(&smd->modifier.scene->r, smd->levels): smd->levels; CCGSubSurf *ss; /* It is quite possible there is a much better place to do this. It * depends a bit on how rigourously we expect this function to never * be called in editmode. In semi-theory we could share a single * cache, but the handles used inside and outside editmode are not * the same so we would need some way of converting them. Its probably * not worth the effort. But then why am I even writing this long * comment that no one will read? Hmmm. - zr */ if(smd->emCache) { ccgSubSurf_free(smd->emCache); smd->emCache = NULL; } if(useIncremental && isFinalCalc) { smd->mCache = ss = _getSubSurf(smd->mCache, levels, useAging, 0, useSimple); ss_sync_from_derivedmesh(ss, dm, vertCos, useSimple); result = getCCGDerivedMesh(smd->mCache, drawInteriorEdges, useSubsurfUv, dm); } else { if (smd->mCache && isFinalCalc) { ccgSubSurf_free(smd->mCache); smd->mCache = NULL; } ss = _getSubSurf(NULL, levels, 0, 1, useSimple); ss_sync_from_derivedmesh(ss, dm, vertCos, useSimple); result = getCCGDerivedMesh(ss, drawInteriorEdges, useSubsurfUv, dm); if(isFinalCalc) smd->mCache = ss; else result->freeSS = 1; } } return (DerivedMesh*)result; } void subsurf_calculate_limit_positions(Mesh *me, float (*positions_r)[3]) { /* Finds the subsurf limit positions for the verts in a mesh * and puts them in an array of floats. Please note that the * calculated vert positions is incorrect for the verts * on the boundary of the mesh. */ CCGSubSurf *ss = _getSubSurf(NULL, 1, 0, 1, 0); float edge_sum[3], face_sum[3]; CCGVertIterator *vi; DerivedMesh *dm = CDDM_from_mesh(me, NULL); ss_sync_from_derivedmesh(ss, dm, NULL, 0); vi = ccgSubSurf_getVertIterator(ss); for (; !ccgVertIterator_isStopped(vi); ccgVertIterator_next(vi)) { CCGVert *v = ccgVertIterator_getCurrent(vi); int idx = GET_INT_FROM_POINTER(ccgSubSurf_getVertVertHandle(v)); int N = ccgSubSurf_getVertNumEdges(v); int numFaces = ccgSubSurf_getVertNumFaces(v); float *co; int i; edge_sum[0]= edge_sum[1]= edge_sum[2]= 0.0; face_sum[0]= face_sum[1]= face_sum[2]= 0.0; for (i=0; irelease(dm); }