/* Copyright (c) 2002-2012 Croteam Ltd. This program is free software; you can redistribute it and/or modify it under the terms of version 2 of the GNU General Public License as published by the Free Software Foundation 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. */ #include #include #include #include #include #include #include #include #include #include "vecmat.h" #include "base.h" static LWItemID _objid = NULL; static LWSurfaceID *_asurSurfaces = NULL; static char *_strFileName = NULL; // arrays of all point and polygon ids int _ctPntIDs = 0; int _iPnt = 0; LWPntID *_aidPntIDs = NULL; int _ctPolIDs = 0; int _iPol = 0; LWPolID *_aidPolIDs = NULL; // point coordinates float (*_avPnts)[3] = NULL; // polygon normals float (*_avPolNormals)[3] = NULL; // point normals float (*_avPntNormals)[3] = NULL; // uvmapnames const char **_astrUVMapNames = NULL; int _ctUVMapNames = 0; int _ctUsedUVMapNames = 0; // weightmapnames const char **_astrWeightMapNames = NULL; int *_actWeightMapCounts = NULL; int _ctWeightMapNames = 0; int _ctUsedWeightMapNames = 0; // relmorphmapnames const char **_astrRelMorphMapNames = NULL; int *_actRelMorphMapCounts = NULL; int _ctRelMorphMapNames = 0; int _ctUsedRelMorphMapNames = 0; // absmorphmapnames const char **_astrAbsMorphMapNames = NULL; int *_actAbsMorphMapCounts = NULL; int _ctAbsMorphMapNames = 0; int _ctUsedAbsMorphMapNames = 0; // here we store ids for all point and polygon combinations in order by polygons and by points, effectively // having all info needed to handle the unwelded object and info needed to calculate normals int _ctPolPnts = 0; PolPnt *_appPolPnts = NULL; PolPnt *_appPntPols = NULL; int _ctSurfs = 0; extern int ReloadGlobalObjects(); // helper functions for ID sorting/searching int __cdecl qsort_CompareIDs(const void *elem1, const void *elem2) { return *(int*)elem1-*(int*)elem2; } int __cdecl qsort_ComparePolPntsByPnt(const void *elem1, const void *elem2) { PolPnt *pp1 = (struct PolPnt *)elem1; PolPnt *pp2 = (struct PolPnt *)elem2; return (int)pp1->pp_idPnt-(int)pp2->pp_idPnt; } int GetPntIndex(LWPntID id) { LWPntID *p = (LWPntID *)bsearch(&id, _aidPntIDs, _ctPntIDs, sizeof(id), qsort_CompareIDs); if (p==NULL) { assert(false); return 0; } else { return p-_aidPntIDs; } } int GetPolIndex(LWPolID id) { LWPolID *p = (LWPolID *)bsearch(&id, _aidPolIDs, _ctPolIDs, sizeof(id), qsort_CompareIDs); if (p==NULL) { assert(false); return 0; } else { return p-_aidPolIDs; } } int EnumPnts(void *, LWPntID id) { _aidPntIDs[_iPnt++] = id; return 0; } int EnumPols(void *, LWPolID id) { _aidPolIDs[_iPol++] = id; return 0; } // fill base vertex coordinates (without morphing) void FillOriginalVertexCoords(void) { // for each vertex {for(int iPnt=0; iPnt<_ctPntIDs; iPnt++) { // get the coords _pmesh->pntBasePos(_pmesh, _aidPntIDs[iPnt], _avPnts[iPnt]); }} } // fill vertex coordinates with relative morphing void FillRelativeMorphVertexCoords(const char *strRelMorphMapName) { // fill base vertex coordinates (without morphing) FillOriginalVertexCoords(); void *pMap = _pmesh->pntVLookup(_pmesh, LWVMAP_MORF, strRelMorphMapName); _pmesh->pntVSelect(_pmesh, pMap); // for each vertex {for(int iPnt=0; iPnt<_ctPntIDs; iPnt++) { // if morphed float v[3]; if (_pmesh->pntVGet(_pmesh, _aidPntIDs[iPnt], v)) { // apply the morph _avPnts[iPnt][0]+=v[0]; _avPnts[iPnt][1]+=v[1]; _avPnts[iPnt][2]+=v[2]; } }} } // fill vertex coordinates with absolute morphing void FillAbsoluteMorphVertexCoords(const char *strAbsMorphMapName) { // fill base vertex coordinates (without morphing) FillOriginalVertexCoords(); void *pMap = _pmesh->pntVLookup(_pmesh, LWVMAP_SPOT, strAbsMorphMapName); _pmesh->pntVSelect(_pmesh, pMap); // for each vertex {for(int iPnt=0; iPnt<_ctPntIDs; iPnt++) { // if morphed float v[3]; if (_pmesh->pntVGet(_pmesh, _aidPntIDs[iPnt], v)) { // apply the morph _avPnts[iPnt][0] = v[0]; _avPnts[iPnt][1] = v[1]; _avPnts[iPnt][2] = v[2]; } }} } // calculate mesh normals using local vertex coordinates (to be able to calculate normals for morphmaps) void MakeNormals(void) { // generate polygon normals {for(int iPol=0; iPol<_ctPolIDs; iPol++) { LWPolID idPol = _aidPolIDs[iPol]; int ctInThisPol = _pmesh->polSize(_pmesh, idPol); if (ctInThisPol<3) { _avPolNormals[iPol][0] = 0.0f; _avPolNormals[iPol][1] = 0.0f; _avPolNormals[iPol][2] = 0.0f; } LWPntID idPnt0 = _pmesh->polVertex(_pmesh, idPol, ctInThisPol-1); LWPntID idPnt1 = _pmesh->polVertex(_pmesh, idPol, 0); LWPntID idPnt2 = _pmesh->polVertex(_pmesh, idPol, 1); float v0[3], v1[3], v2[3]; _pmesh->pntBasePos(_pmesh, idPnt0, v0); _pmesh->pntBasePos(_pmesh, idPnt1, v1); _pmesh->pntBasePos(_pmesh, idPnt2, v2); float d1[3], d2[3]; for (int i=0; i<3; i++) { d1[i] = v2[i] - v1[i]; d2[i] = v0[i] - v1[i]; } cross(d1, d2, _avPolNormals[iPol]); normalize( _avPolNormals[iPol]); }} // generate point normals memset(_avPntNormals, 0, _ctPntIDs*sizeof(float)*3); float vNormalSum[3]; LWPntID idLastPnt = NULL; // for each point polygon {for(int iPntPol=0; iPntPol<_ctPolPnts; iPntPol++) { LWPntID idThis = _appPntPols[iPntPol].pp_idPnt; // if new point if (idThis!=idLastPnt) { // store value for the last point (unless it was the first one) if (idLastPnt!=NULL) { int iLastPnt = GetPntIndex(idLastPnt); normalize(vNormalSum); _avPntNormals[iLastPnt][0] = vNormalSum[0]; _avPntNormals[iLastPnt][1] = vNormalSum[1]; _avPntNormals[iLastPnt][2] = vNormalSum[2]; } // reset averaging values vNormalSum[0] = 0.0f; vNormalSum[1] = 0.0f; vNormalSum[2] = 0.0f; } // add the polygon normal to the averaging values int iPol = GetPolIndex(_appPntPols[iPntPol].pp_idPol); vNormalSum[0] += _avPolNormals[iPol][0]; vNormalSum[1] += _avPolNormals[iPol][1]; vNormalSum[2] += _avPolNormals[iPol][2]; idLastPnt=idThis; }} int iLastPnt = GetPntIndex(idLastPnt); normalize(vNormalSum); _avPntNormals[iLastPnt][0] = vNormalSum[0]; _avPntNormals[iLastPnt][1] = vNormalSum[1]; _avPntNormals[iLastPnt][2] = vNormalSum[2]; } // extract polygon and point info void ExtractMeshData(void) { // extract point and poly ids, so we can walk them later _ctPntIDs = _pmesh->numPoints(_pmesh); _aidPntIDs = (LWPntID*)malloc(_ctPntIDs*sizeof(LWPntID)); _iPnt = 0; _pmesh->scanPoints(_pmesh, EnumPnts, NULL); qsort(_aidPntIDs, _ctPntIDs, sizeof(LWPntID), qsort_CompareIDs); _ctPolIDs = _pmesh->numPolygons(_pmesh); _aidPolIDs = (LWPolID*)malloc(_ctPolIDs*sizeof(LWPolID)); _iPol = 0; _pmesh->scanPolys(_pmesh, EnumPols, NULL); qsort(_aidPolIDs, _ctPolIDs, sizeof(LWPolID), qsort_CompareIDs); // find the total number of points in all polygons _ctPolPnts = 0; for(int iPol=0; iPol<_ctPolIDs; iPol++) { int ct = _pmesh->polSize(_pmesh, _aidPolIDs[iPol]); if (ct!=3) { _msg->error("All objects must be triangles!", NULL); } _ctPolPnts += ct; } _appPolPnts = (PolPnt *)malloc(_ctPolPnts*sizeof(PolPnt)); _appPntPols = (PolPnt *)malloc(_ctPolPnts*sizeof(PolPnt)); // fill in all point and polygon combinations {int iPolPnt = 0; for(int iPol=0; iPol<_ctPolIDs; iPol++) { LWPolID idPol = _aidPolIDs[iPol]; int ctInThisPol = _pmesh->polSize(_pmesh, idPol); for (int iPnt=0; iPntpolVertex(_pmesh, idPol, iPnt); _appPolPnts[iPolPnt].pp_idPol = idPol; _appPolPnts[iPolPnt].pp_idPnt = idPnt; iPolPnt++; } }} // copy to per-point array and sort by points memcpy(_appPntPols, _appPolPnts, _ctPolPnts*sizeof(PolPnt)); qsort(_appPntPols, _ctPolPnts, sizeof(PolPnt), qsort_ComparePolPntsByPnt); // allocate point coords and polygon and point normals _avPnts = (float(*)[3])malloc(_ctPntIDs*sizeof(float)*3); _avPolNormals = (float(*)[3])malloc(_ctPolIDs*sizeof(float)*3); _avPntNormals = (float(*)[3])malloc(_ctPntIDs*sizeof(float)*3); // calculate mesh normals using base vertex coordinates (without morphing) FillOriginalVertexCoords(); MakeNormals(); // list all the uvmaps used by this object _ctUVMapNames = _obf->numVMaps(LWVMAP_TXUV); _astrUVMapNames = (const char**) malloc(_ctUVMapNames*sizeof(char*)); memset(_astrUVMapNames, 0, _ctUVMapNames*sizeof(char*)); _ctUsedUVMapNames = 0; {for(int iUVMap=0; iUVMap<_ctUVMapNames; iUVMap++) { const char *strName = _obf->vmapName(LWVMAP_TXUV, iUVMap); void *pMap = _pmesh->pntVLookup(_pmesh, LWVMAP_TXUV, strName); _pmesh->pntVSelect(_pmesh, pMap); bool bExists = false; for(int iPnt=0; iPnt<_ctPntIDs; iPnt++) { float v[2]; if (_pmesh->pntVGet(_pmesh, _aidPntIDs[iPnt], v)) { bExists = true; break; } } if (bExists) { _astrUVMapNames[_ctUsedUVMapNames++] = strName; } }} // list all the weightmaps used by this object _ctWeightMapNames = _obf->numVMaps(LWVMAP_WGHT); _astrWeightMapNames = (const char**) malloc(_ctWeightMapNames*sizeof(char*)); _actWeightMapCounts = (int *) malloc(_ctWeightMapNames*sizeof(int)); memset(_astrWeightMapNames, 0, _ctWeightMapNames*sizeof(char*)); memset(_actWeightMapCounts, 0, _ctWeightMapNames*sizeof(int)); _ctUsedWeightMapNames = 0; {for(int iWeightMap=0; iWeightMap<_ctWeightMapNames; iWeightMap++) { const char *strName = _obf->vmapName(LWVMAP_WGHT, iWeightMap); void *pMap = _pmesh->pntVLookup(_pmesh, LWVMAP_WGHT, strName); _pmesh->pntVSelect(_pmesh, pMap); int ct = 0; // for each polygonvertex for(int iPolPnt=0; iPolPnt<_ctPolPnts; iPolPnt++) { // get the weight float v[1]; if (_pmesh->pntVGet(_pmesh, _appPolPnts[iPolPnt].pp_idPnt, v) && v[0]!=0.0f) { ct++; } } if (ct>0) { _astrWeightMapNames[_ctUsedWeightMapNames] = strName; _actWeightMapCounts[_ctUsedWeightMapNames] = ct; _ctUsedWeightMapNames++; } }} // list all the relmorphmaps used by this object _ctRelMorphMapNames = _obf->numVMaps(LWVMAP_MORF); _astrRelMorphMapNames = (const char**) malloc(_ctRelMorphMapNames*sizeof(char*)); _actRelMorphMapCounts = (int *) malloc(_ctRelMorphMapNames*sizeof(int)); memset(_astrRelMorphMapNames, 0, _ctRelMorphMapNames*sizeof(char*)); memset(_actRelMorphMapCounts, 0, _ctRelMorphMapNames*sizeof(int)); _ctUsedRelMorphMapNames = 0; {for(int iRelMorphMap=0; iRelMorphMap<_ctRelMorphMapNames; iRelMorphMap++) { const char *strName = _obf->vmapName(LWVMAP_MORF, iRelMorphMap); void *pMap = _pmesh->pntVLookup(_pmesh, LWVMAP_MORF, strName); _pmesh->pntVSelect(_pmesh, pMap); int ct = 0; // for each polygonvertex for(int iPolPnt=0; iPolPnt<_ctPolPnts; iPolPnt++) { // get the morphpos float v[3]; if (_pmesh->pntVGet(_pmesh, _appPolPnts[iPolPnt].pp_idPnt, v)) { ct++; } } if (ct>0) { _astrRelMorphMapNames[_ctUsedRelMorphMapNames] = strName; } _actRelMorphMapCounts[_ctUsedRelMorphMapNames] = ct; _ctUsedRelMorphMapNames++; }} // list all the absmorphmaps used by this object _ctAbsMorphMapNames = _obf->numVMaps(LWVMAP_SPOT); _astrAbsMorphMapNames = (const char**) malloc(_ctAbsMorphMapNames*sizeof(char*)); _actAbsMorphMapCounts = (int *) malloc(_ctAbsMorphMapNames*sizeof(int)); memset(_astrAbsMorphMapNames, 0, _ctAbsMorphMapNames*sizeof(char*)); memset(_actAbsMorphMapCounts, 0, _ctAbsMorphMapNames*sizeof(int)); _ctUsedAbsMorphMapNames = 0; {for(int iAbsMorphMap=0; iAbsMorphMap<_ctAbsMorphMapNames; iAbsMorphMap++) { const char *strName = _obf->vmapName(LWVMAP_SPOT, iAbsMorphMap); void *pMap = _pmesh->pntVLookup(_pmesh, LWVMAP_SPOT, strName); _pmesh->pntVSelect(_pmesh, pMap); int ct = 0; // for each polygonvertex for(int iPolPnt=0; iPolPnt<_ctPolPnts; iPolPnt++) { // get the morphpos float v[3]; if (_pmesh->pntVGet(_pmesh, _appPolPnts[iPolPnt].pp_idPnt, v)) { ct++; } } if (ct>0) { _astrAbsMorphMapNames[_ctUsedAbsMorphMapNames] = strName; } _actAbsMorphMapCounts[_ctUsedAbsMorphMapNames] = ct; _ctUsedAbsMorphMapNames++; }} } FILE *_f = NULL; int ExportMesh(LWXPanelID pan) { // is mesh face forward int iFaceForward = *(int*)_xpanf->formGet( pan, ID_FACEFORWARD); // !!!! make it work with a selected object, not the first one in scene ReloadGlobalObjects(); bool bExportOnlySelected = false; // count selected objects int ctSelectedMeshed = 0; int ctMeshes=0; _objid = _iti->first(LWI_OBJECT,0); while(_objid != LWITEM_NULL) { if(_iti->type(_objid) == LWI_OBJECT) { _pmesh = _obi->meshInfo(_objid, 0); if(_pmesh != NULL) { if(_ifi->itemFlags(_objid) & LWITEMF_SELECTED) { ctSelectedMeshed++; } } ctMeshes++; } _objid = _iti->next(_objid); } // get the first object in the scene _objid = _iti->first(LWI_OBJECT,0); if (!_objid) { _msg->error("No object in the scene.", NULL); return AFUNC_OK; } // if some objects are selected export only them if(ctSelectedMeshed > 0) bExportOnlySelected = true; // dont ask to export all meshes if only one mesh in the scene if(ctSelectedMeshed == 0) { if(ctMeshes > 1) { if(_msg->yesNo("No objects selected","Export all meshes?",NULL) == 0) return AFUNC_OK; bExportOnlySelected = false; } } // loop each mesh in scene while(_objid != LWITEM_NULL) { // get its mesh _pmesh = _obi->meshInfo(_objid, 0); if(_pmesh == NULL) { _objid = _iti->next(_objid); continue; } if(bExportOnlySelected) { if(!(_ifi->itemFlags(_objid) & LWITEMF_SELECTED)) { _objid = _iti->next(_objid); continue; } } // get mesh name _strFileName = strdup(_obi->filename(_objid)); // extract polygon and point info ExtractMeshData(); // open the file to print into char fnmOut[256]; strcpy(fnmOut, _strFileName); char *pchDot = strrchr(fnmOut, '.'); if (pchDot!=NULL) { strcpy(pchDot, ".am"); } _f = fopen(fnmOut, "w"); if (_f==NULL) { _msg->error("Can't open file", fnmOut); goto end; } // write the mesh header fprintf(_f, "SE_MESH %s;\n\n",SE_ANIM_VER); if(iFaceForward==ML_HALF_FACE_FORWARD) { fprintf(_f, "HALF_FACE_FORWARD TRUE;\n\n"); } else if(iFaceForward==ML_FULL_FACE_FORWARD) { fprintf(_f, "FULL_FACE_FORWARD TRUE;\n\n"); } // write the vertex header fprintf(_f, "VERTICES %d\n", _ctPolPnts); fprintf(_f, "{\n"); // for each polygonvertex {for(int iPolPnt=0; iPolPnt<_ctPolPnts; iPolPnt++) { // get the coords float v[3]; _pmesh->pntBasePos(_pmesh, _appPolPnts[iPolPnt].pp_idPnt, v); fprintf(_f, " %g, %g, %g;\n", v[0], v[1], -v[2]); }} fprintf(_f, "}\n\n"); // write the normal header fprintf(_f, "NORMALS %d\n", _ctPolPnts); fprintf(_f, "{\n"); // for each polygonvertex {for(int iPolPnt=0; iPolPnt<_ctPolPnts; iPolPnt++) { // get the normal int iPnt = GetPntIndex(_appPolPnts[iPolPnt].pp_idPnt); fprintf(_f, " %g, %g, %g;\n", _avPntNormals[iPnt][0], _avPntNormals[iPnt][1], -_avPntNormals[iPnt][2]); }} fprintf(_f, "}\n\n"); // write the uvmaps header fprintf(_f, "UVMAPS %d\n", _ctUsedUVMapNames); fprintf(_f, "{\n"); // for each uvmap if (_ctUsedUVMapNames == 0) { _msg->info("No UV maps in the scene!",NULL); } {for(int iUVMap=0; iUVMap<_ctUsedUVMapNames; iUVMap++) { fprintf(_f, " {\n"); const char *strUVMap = _astrUVMapNames[iUVMap]; fprintf(_f, " NAME \"%s\";\n", strUVMap); void *pMap = _pmesh->pntVLookup(_pmesh, LWVMAP_TXUV, strUVMap); _pmesh->pntVSelect(_pmesh, pMap); fprintf(_f, " TEXCOORDS %d\n", _ctPolPnts); fprintf(_f, " {\n"); // for each polygonvertex {for(int iPolPnt=0; iPolPnt<_ctPolPnts; iPolPnt++) { // get the coords float v[2]; if (_pmesh->pntVPGet(_pmesh, _appPolPnts[iPolPnt].pp_idPnt, _appPolPnts[iPolPnt].pp_idPol, v)) { } else if (_pmesh->pntVGet(_pmesh, _appPolPnts[iPolPnt].pp_idPnt, v)) { } else { v[0] = 0.0f; v[1] = 0.0f; } fprintf(_f, " %g, %g;\n", v[0], 1.0f-v[1]); }} fprintf(_f, " }\n"); fprintf(_f, " }\n"); }} fprintf(_f, "}\n\n"); // get surfaces _asurSurfaces = _srf->byObject(_strFileName); // count the surfaces _ctSurfs = 0; while(_asurSurfaces[_ctSurfs]!=NULL) { _ctSurfs++; } // write the surfaces header fprintf(_f, "SURFACES %d\n", _ctSurfs); fprintf(_f, "{\n"); // for each surface {for(int iSurf=0; iSurf<_ctSurfs; iSurf++) { fprintf(_f, " {\n"); const char *strSurf = _srf->name(_asurSurfaces[iSurf]); fprintf(_f, " NAME \"%s\";\n", strSurf); // count the polygons int iSurfPols = 0; {for(int i=0; i<_ctPolIDs; i++) { if (strcmp(_pmesh->polTag(_pmesh, _aidPolIDs[i], LWPTAG_SURF), strSurf)==0) { iSurfPols++; } }} // write the polygon set header fprintf(_f, " TRIANGLE_SET %d\n", iSurfPols); fprintf(_f, " {\n"); // for each polygon for(int iTri=0; iTri<_ctPolIDs; iTri++) { LWPolID idPol = _aidPolIDs[iTri]; // if not in this surface if (strcmp(_pmesh->polTag(_pmesh, idPol, LWPTAG_SURF), strSurf)!=0) { // skip it continue; } // assert(_appPolPnts[iTri*3+0].pp_idPol == idPol); // assert(_appPolPnts[iTri*3+1].pp_idPol == idPol); // assert(_appPolPnts[iTri*3+2].pp_idPol == idPol); fprintf(_f, " %d, %d, %d;\n", iTri*3+2, iTri*3+1, iTri*3+0); // GetPntIndex(_appPolPnts[iTri*3+0].pp_idPnt), // GetPntIndex(_appPolPnts[iTri*3+1].pp_idPnt), // GetPntIndex(_appPolPnts[iTri*3+2].pp_idPnt)); } fprintf(_f, " }\n"); fprintf(_f, " }\n"); }} fprintf(_f, "}\n"); // write the weightmaps header fprintf(_f, "WEIGHTS %d\n", _ctUsedWeightMapNames); fprintf(_f, "{\n"); // for each weightmap {for(int iWeightMap=0; iWeightMap<_ctUsedWeightMapNames; iWeightMap++) { fprintf(_f, " {\n"); const char *strWeightMap = _astrWeightMapNames[iWeightMap]; fprintf(_f, " NAME \"%s\";\n", strWeightMap); void *pMap = _pmesh->pntVLookup(_pmesh, LWVMAP_WGHT, strWeightMap); _pmesh->pntVSelect(_pmesh, pMap); fprintf(_f, " WEIGHT_SET %d\n", _actWeightMapCounts[iWeightMap]); fprintf(_f, " {\n"); // for each polygonvertex {for(int iPolPnt=0; iPolPnt<_ctPolPnts; iPolPnt++) { // get the coords float v[1]; if (_pmesh->pntVGet(_pmesh, _appPolPnts[iPolPnt].pp_idPnt, v) && v[0]!=0.0f) { if (v[0] < 0) { _msg->error("Weight map value lesser than zero!",NULL); } else { fprintf(_f, " { %d; %g; }\n", iPolPnt, v[0]); } } }} fprintf(_f, " }\n"); fprintf(_f, " }\n"); }} fprintf(_f, "}\n\n"); // write the morphmaps header fprintf(_f, "MORPHS %d\n", _ctUsedRelMorphMapNames+_ctUsedAbsMorphMapNames); fprintf(_f, "{\n"); // for each relmorphmap {for(int iRelMorphMap=0; iRelMorphMap<_ctUsedRelMorphMapNames; iRelMorphMap++) { const char *strRelMorphMap = _astrRelMorphMapNames[iRelMorphMap]; // calculate mesh normals using the given morphmap FillRelativeMorphVertexCoords(strRelMorphMap); MakeNormals(); fprintf(_f, " {\n"); fprintf(_f, " NAME \"%s\";\n", strRelMorphMap); fprintf(_f, " RELATIVE TRUE;\n"); void *pMap = _pmesh->pntVLookup(_pmesh, LWVMAP_MORF, strRelMorphMap); _pmesh->pntVSelect(_pmesh, pMap); fprintf(_f, " MORPH_SET %d\n", _actRelMorphMapCounts[iRelMorphMap]); fprintf(_f, " {\n"); // for each polygonvertex {for(int iPolPnt=0; iPolPnt<_ctPolPnts; iPolPnt++) { // if morphed here float vRel[3]; if (_pmesh->pntVGet(_pmesh, _appPolPnts[iPolPnt].pp_idPnt, vRel)) { // write the coords and normal int iPnt = GetPntIndex(_appPolPnts[iPolPnt].pp_idPnt); fprintf(_f, " { %d; %g, %g, %g; %g, %g, %g; }\n", iPolPnt, _avPnts[iPnt][0], _avPnts[iPnt][1], -_avPnts[iPnt][2], _avPntNormals[iPnt][0], _avPntNormals[iPnt][1], -_avPntNormals[iPnt][2]); } }} fprintf(_f, " }\n"); fprintf(_f, " }\n"); }} // for each absmorphmap {for(int iAbsMorphMap=0; iAbsMorphMap<_ctUsedAbsMorphMapNames; iAbsMorphMap++) { const char *strAbsMorphMap = _astrAbsMorphMapNames[iAbsMorphMap]; // calculate mesh normals using the given morphmap FillAbsoluteMorphVertexCoords(strAbsMorphMap); MakeNormals(); fprintf(_f, " {\n"); fprintf(_f, " NAME \"%s\";\n", strAbsMorphMap); fprintf(_f, " RELATIVE FALSE;\n"); void *pMap = _pmesh->pntVLookup(_pmesh, LWVMAP_SPOT, strAbsMorphMap); _pmesh->pntVSelect(_pmesh, pMap); fprintf(_f, " MORPH_SET %d\n", _actAbsMorphMapCounts[iAbsMorphMap]); fprintf(_f, " {\n"); // for each polygonvertex {for(int iPolPnt=0; iPolPnt<_ctPolPnts; iPolPnt++) { // if morphed here float vRel[3]; if (_pmesh->pntVGet(_pmesh, _appPolPnts[iPolPnt].pp_idPnt, vRel)) { // write the coords and normal int iPnt = GetPntIndex(_appPolPnts[iPolPnt].pp_idPnt); fprintf(_f, " { %d; %g, %g, %g; %g, %g, %g; }\n", iPolPnt, _avPnts[iPnt][0], _avPnts[iPnt][1], -_avPnts[iPnt][2], _avPntNormals[iPnt][0], _avPntNormals[iPnt][1], -_avPntNormals[iPnt][2]); } }} fprintf(_f, " }\n"); fprintf(_f, " }\n"); }} fprintf(_f, "}\n\n"); fprintf(_f, "SE_MESH_END;\n"); _msg->info("Saved:", fnmOut); end: // close and free everything if (_f!=NULL) { fclose(_f); _f=NULL; } if (_aidPntIDs!=NULL) { free(_aidPntIDs); _aidPntIDs = NULL; } if (_aidPolIDs!=NULL) { free(_aidPolIDs); _aidPolIDs = NULL; } if (_appPolPnts!=NULL) { free(_appPolPnts); _appPolPnts = NULL; } if (_appPntPols!=NULL) { free(_appPntPols); _appPntPols = NULL; } if (_avPnts!=NULL) { free(_avPnts); _avPnts = NULL; } if (_avPolNormals!=NULL) { free(_avPolNormals); _avPolNormals = NULL; } if (_avPntNormals!=NULL) { free(_avPntNormals); _avPntNormals = NULL; } if (_strFileName!=NULL) { free(_strFileName); _strFileName = NULL; } if (_astrUVMapNames!=NULL) { free(_astrUVMapNames); _astrUVMapNames = NULL; } if (_astrWeightMapNames!=NULL) { free(_astrWeightMapNames); _astrWeightMapNames = NULL; } // get next mesh obj _objid = _iti->next(_objid); } return AFUNC_OK; }