#ifndef __VCGLIB_IMPORTERDAE #define __VCGLIB_IMPORTERDAE //importer for collada's files #include namespace vcg { namespace tri { namespace io { template class ImporterDAE : public UtilDAE { private: static int LoadMesh(OpenMeshType& m,InfoDAE* info,const QDomNode& geo,const vcg::Matrix44f& t) { if (isThereTag(geo,"mesh")) { /*QDomNodeList geosrc = geo.toElement().elementsByTagName("source"); int geosrc_size = geosrc.size(); if (geosrc_size < 1) return E_NOVERTEXPOSITION;*/ QDomNodeList vertices = geo.toElement().elementsByTagName("vertices"); int vertices_size = vertices.size(); if (vertices_size != 1) return E_INCOMPATIBLECOLLADA141FORMAT; QDomNode srcnode = attributeSourcePerSimplex(vertices.at(0),*(info->doc),"POSITION"); if (srcnode.isNull()) return E_NOVERTEXPOSITION; QStringList geosrcposarr; valueStringList(geosrcposarr,srcnode,"float_array"); int geosrcposarr_size = geosrcposarr.size(); if ((geosrcposarr_size % 3) != 0) return E_CANTOPEN; int nvert = geosrcposarr_size / 3; size_t offset = m.vert.size(); vcg::tri::Allocator::AddVertices(m,nvert); QDomNode srcnodenorm = attributeSourcePerSimplex(vertices.at(0),*(info->doc),"NORMAL"); QStringList geosrcvertnorm; if (!srcnodenorm.isNull()) valueStringList(geosrcvertnorm,srcnodenorm,"float_array"); QDomNode srcnodetext = attributeSourcePerSimplex(vertices.at(0),*(info->doc),"TEXCOORD"); QStringList geosrcverttext; if (!srcnodetext.isNull()) valueStringList(geosrcverttext,srcnodetext,"float_array"); QDomNode srcnodecolor = attributeSourcePerSimplex(vertices.at(0),*(info->doc),"COLOR"); QStringList geosrcvertcol; if (!srcnodecolor.isNull()) valueStringList(geosrcvertcol,srcnodecolor,"float_array"); int ii = 0; for(size_t vv = offset;vv < m.vert.size();++vv) { assert((ii * 3 < geosrcposarr_size) && (ii * 3 + 1 < geosrcposarr_size) && (ii * 3 + 2 < geosrcposarr_size)); vcg::Point4f tmp = t * vcg::Point4f(geosrcposarr[ii * 3].toFloat(),geosrcposarr[ii * 3 + 1].toFloat(),geosrcposarr[ii * 3 + 2].toFloat(),1.0f); m.vert[vv].P() = vcg::Point3f(tmp.X(),tmp.Y(),tmp.Z()); if (!srcnodenorm.isNull()) { assert((ii * 3 < geosrcvertnorm.size()) && (ii * 3 + 1 < geosrcvertnorm.size()) && (ii * 3 + 2 < geosrcvertnorm.size())); vcg::Matrix44f intr44 = vcg::Inverse(t); vcg::Transpose(intr44); Matrix33f intr33; for(unsigned int rr = 0; rr < 2; ++rr) { for(unsigned int cc = 0;cc < 2;++cc) intr33[rr][cc] = intr44[rr][cc]; } m.vert[vv].N() = (intr33 * vcg::Point3f(geosrcvertnorm[ii * 3].toFloat(),geosrcvertnorm[ii * 3 + 1].toFloat(),geosrcvertnorm[ii * 3 + 2].toFloat())).Normalize(); } /*if (!srcnodecolor.isNull()) { assert((ii * 4 < geosrcvertcol.size()) && (ii * 4 + 1 < geosrcvertcol.size()) && (ii * 4 + 2 < geosrcvertcol.size()) && (ii * 4 + 1 < geosrcvertcol.size())); m.vert[vv].C() = vcg::Color4b(geosrcvertcol[ii * 4].toFloat(),geosrcvertcol[ii * 4 + 1].toFloat(),geosrcvertcol[ii * 4 + 2].toFloat(),geosrcvertcol[ii * 4 + 3].toFloat()); }*/ if (!srcnodetext.isNull()) { assert((ii * 2 < geosrcverttext.size()) && (ii * 2 + 1 < geosrcverttext.size())); m.vert[vv].T() = vcg::TCoord2(); m.vert[vv].T().u() = geosrcverttext[ii * 2].toFloat(); m.vert[vv].T().v() = geosrcverttext[ii * 2 + 1].toFloat(); } ++ii; } QDomNodeList tripatch = geo.toElement().elementsByTagName("triangles"); int tripatch_size = tripatch.size(); if (tripatch_size == 0) return E_NOTRIANGLES; for(int tript = 0; tript < tripatch_size;++tript) { int nfcatt = tripatch.at(tript).toElement().elementsByTagName("input").size(); QStringList face; valueStringList(face,tripatch.at(tript),"p"); int face_size = face.size(); int offsetface = (int)m.face.size(); if (face_size == 0) return E_NOMESH; vcg::tri::Allocator::AddFaces(m,face_size / (nfcatt * 3)); QDomNode wnsrc = QDomNode(); QStringList wn; wnsrc = findNodeBySpecificAttributeValue(tripatch.at(tript),"input","semantic","NORMAL"); int offnm; if (!wnsrc.isNull()) { offnm = wnsrc.toElement().attribute("offset").toInt(); QDomNode sn = attributeSourcePerSimplex(tripatch.at(tript),*(info->doc),"NORMAL"); valueStringList(wn,sn,"float_array"); } QDomNode wtsrc = QDomNode(); QStringList wt; wtsrc = findNodeBySpecificAttributeValue(tripatch.at(tript),"input","semantic","TEXCOORD"); int offtx; if (!wtsrc.isNull()) { offtx = wtsrc.toElement().attribute("offset").toInt(); QDomNode st = attributeSourcePerSimplex(tripatch.at(tript),*(info->doc),"TEXCOORD"); valueStringList(wt,st,"float_array"); } QDomNode wcsrc = QDomNode(); QStringList wc; wcsrc = findNodeBySpecificAttributeValue(tripatch.at(tript),"input","semantic","COLOR"); int offcl; if (!wcsrc.isNull()) { offcl = wcsrc.toElement().attribute("offset").toInt(); QDomNode sc = attributeSourcePerSimplex(tripatch.at(tript),*(info->doc),"COLOR"); valueStringList(wc,sc,"float_array"); } int jj = 0; //int dd = m.face.size(); for(int ff = offsetface;ff < (int) m.face.size();++ff) { int indvt = face.at(jj).toInt(); assert(indvt + offset < m.vert.size()); m.face[ff].V(0) = &(m.vert[indvt + offset]); int indnm; if (!wnsrc.isNull()) { indnm = face.at(jj + offnm).toInt(); assert(indnm * 3 < wn.size()); m.face[ff].WN(0) = vcg::Point3f(wn.at(indnm * 3).toFloat(),wn.at(indnm * 3 + 1).toFloat(),wn.at(indnm * 3 + 2).toFloat()); } int indtx; if (!wtsrc.isNull()) { indtx = face.at(jj + offtx).toInt(); assert(indtx * 2 < wt.size()); m.face[ff].WT(0) = vcg::TCoord2(); m.face[ff].WT(0).u() = wt.at(indtx * 2).toFloat(); m.face[ff].WT(0).v() = wt.at(indtx * 2 + 1).toFloat(); } /*int indcl; if (!wcsrc.isNull()) { indcl = face.at(jj + offcl).toInt(); assert(indcl * 4 < wc.size()); m.face[ff].WC(0) = vcg::Color4b(wc.at(indcl * 4).toFloat(),wc.at(indcl * 4 + 1).toFloat(),wc.at(indcl * 4 + 2).toFloat(),wc.at(indcl * 4 + 3).toFloat()); }*/ jj += nfcatt; indvt = face.at(jj).toInt(); assert(indvt + offset < m.vert.size()); m.face[ff].V(1) = &(m.vert[indvt + offset]); if (!wnsrc.isNull()) { indnm = face.at(jj + offnm).toInt(); assert(indnm * 3 < wn.size()); m.face[ff].WN(1) = vcg::Point3f(wn.at(indnm * 3).toFloat(),wn.at(indnm * 3 + 1).toFloat(),wn.at(indnm * 3 + 2).toFloat()); } if (!wtsrc.isNull()) { indtx = face.at(jj + offtx).toInt(); assert(indtx * 2 < wt.size()); m.face[ff].WT(1) = vcg::TCoord2(); m.face[ff].WT(1).u() = wt.at(indtx * 2).toFloat(); m.face[ff].WT(1).v() = wt.at(indtx * 2 + 1).toFloat(); } /*if (!wcsrc.isNull()) { indcl = face.at(jj + offcl).toInt(); assert(indcl * 4 < wc.size()); m.face[ff].WC(1) = vcg::Color4b(wc.at(indcl * 4).toFloat(),wc.at(indcl * 4 + 1).toFloat(),wc.at(indcl * 4 + 2).toFloat(),wc.at(indcl * 4 + 3).toFloat()); }*/ jj += nfcatt; indvt = face.at(jj).toInt(); assert(indvt + offset < m.vert.size()); m.face[ff].V(2) = &(m.vert[indvt + offset]); if (!wnsrc.isNull()) { indnm = face.at(jj + offnm).toInt(); assert(indnm * 3 < wn.size()); m.face[ff].WN(2) = vcg::Point3f(wn.at(indnm * 3).toFloat(),wn.at(indnm * 3 + 1).toFloat(),wn.at(indnm * 3 + 2).toFloat()); } if (!wtsrc.isNull()) { indtx = face.at(jj + offtx).toInt(); assert(indtx * 2 < wt.size()); m.face[ff].WT(2) = vcg::TCoord2(); m.face[ff].WT(2).u() = wt.at(indtx * 2).toFloat(); m.face[ff].WT(2).v() = wt.at(indtx * 2 + 1).toFloat(); } /*if (!wcsrc.isNull()) { indcl = face.at(jj + offcl).toInt(); assert(indcl * 4 < wc.size()); m.face[ff].WC(2) = vcg::Color4b(wc.at(indcl * 4).toFloat(),wc.at(indcl * 4 + 1).toFloat(),wc.at(indcl * 4 + 2).toFloat(),wc.at(indcl * 4 + 3).toFloat()); }*/ jj += nfcatt; } } return E_NOERROR; } else return E_NOMESH; } static void GetTexture(const QDomDocument& doc,AdditionalInfoDAE* inf) { QDomNodeList txlst = doc.elementsByTagName("library_images"); for(int img = 0;img < txlst.size();++img) { QDomNodeList nlst = txlst.at(img).toElement().elementsByTagName("init_from"); if (nlst.size() > 0) { inf->dae->texturefile.push_back(nlst.at(0).firstChild().nodeValue()); } } } public: //merge all meshes in the collada's file in the templeted mesh m //I assume the mesh static int Open(OpenMeshType& m,const char* filename,AdditionalInfo*& addinfo) { AdditionalInfoDAE* inf = new AdditionalInfoDAE(); inf->dae = new InfoDAE(); InfoDAE* info = inf->dae; QDomDocument* doc = new QDomDocument(filename); QFile file(filename); if (!file.open(QIODevice::ReadOnly)) return E_CANTOPEN; if (!doc->setContent(&file)) { file.close(); return E_CANTOPEN; } file.close(); info->doc = doc; //GetTexture(*(info->doc),inf); QDomNodeList scenes = info->doc->elementsByTagName("scene"); int scn_size = scenes.size(); if (scn_size == 0) return E_NO3DSCENE; //Is there geometry in the file? bool geoinst_found = false; //for each scene in COLLADA FILE for(int scn = 0;scn < scn_size;++scn) { QDomNodeList instscenes = scenes.at(scn).toElement().elementsByTagName("instance_visual_scene"); int instscn_size = instscenes.size(); if (instscn_size == 0) return E_INCOMPATIBLECOLLADA141FORMAT; //for each scene instance in a COLLADA scene for(int instscn = 0;instscn < instscn_size; ++instscn) { QString libscn_url; referenceToANodeAttribute(instscenes.at(instscn),"url",libscn_url); QDomNode nd = QDomNode(*(info->doc)); QDomNode visscn = findNodeBySpecificAttributeValue(*(info->doc),"visual_scene","id",libscn_url); if(visscn.isNull()) return E_UNREFERENCEBLEDCOLLADAATTRIBUTE; //for each node in the libscn_url visual scene QDomNodeList visscn_child = visscn.childNodes(); //for each direct child of a libscn_url visual scene find if there is some geometry instance int problem = 0; for(int chdind = 0; chdind < visscn_child.size();++chdind) { QDomNodeList geoinst = visscn_child.at(chdind).toElement().elementsByTagName("instance_geometry"); int geoinst_size = geoinst.size(); if (geoinst_size != 0) { geoinst_found |= true; QDomNodeList geolib = info->doc->elementsByTagName("library_geometries"); int geolib_size = geolib.size(); assert(geolib_size == 1); //!!!!!!!!!!!!!!!!!here will be the code for geometry transformations!!!!!!!!!!!!!!!!!!!!!! for(int geoinst_ind = 0;geoinst_ind < geoinst_size;++geoinst_ind) { QString geo_url; referenceToANodeAttribute(geoinst.at(geoinst_ind),"url",geo_url); QDomNode geo = findNodeBySpecificAttributeValue(geolib.at(0),"geometry","id",geo_url); if (geo.isNull()) return E_UNREFERENCEBLEDCOLLADAATTRIBUTE; vcg::Matrix44f tr; tr.SetIdentity(); TransfMatrix(visscn,geoinst.at(geoinst_ind),tr); problem |= LoadMesh(m,info,geo,tr); if (problem) return problem; } } } } } if (!geoinst_found) { QDomNodeList geolib = info->doc->elementsByTagName("library_geometries"); int geolib_size = geolib.size(); assert(geolib_size == 1); QDomNodeList geochild = geolib.at(0).childNodes(); int geochild_size = geochild.size(); int problem = 0; for(int chd = 0;chd < geochild_size;++chd) { vcg::Matrix44f tmp; tmp.SetIdentity(); problem |= LoadMesh(m,info,geochild.at(chd),tmp); if (problem) return problem; } } addinfo = inf; return E_NOERROR; } static bool LoadMask(const char * filename, AdditionalInfoDAE*& addinfo) { bool bHasPerWedgeTexCoord = false; bool bHasPerWedgeNormal = false; bool bHasPerVertexColor = false; bool bHasPerFaceColor = false; bool bHasPerVertexNormal = false; bool bHasPerVertexText = false; AdditionalInfoDAE* inf = new AdditionalInfoDAE(); inf->dae = new InfoDAE(); InfoDAE* info = inf->dae; QDomDocument* doc = new QDomDocument(filename); QFile file(filename); if (!file.open(QIODevice::ReadOnly)) return E_CANTOPEN; if (!doc->setContent(&file)) { file.close(); return E_CANTOPEN; } file.close(); info->doc = doc; GetTexture(*(info->doc),inf); QDomNodeList scenes = info->doc->elementsByTagName("scene"); int scn_size = scenes.size(); //Is there geometry in the file? bool geoinst_found = false; //for each scene in COLLADA FILE for(int scn = 0;scn < scn_size;++scn) { QDomNodeList instscenes = scenes.at(scn).toElement().elementsByTagName("instance_visual_scene"); int instscn_size = instscenes.size(); if (instscn_size == 0) return false; //for each scene instance in a COLLADA scene for(int instscn = 0;instscn < instscn_size; ++instscn) { QString libscn_url; referenceToANodeAttribute(instscenes.at(instscn),"url",libscn_url); QDomNode nd = QDomNode(*(info->doc)); QDomNode visscn = findNodeBySpecificAttributeValue(*(info->doc),"visual_scene","id",libscn_url); if(visscn.isNull()) return false; //for each node in the libscn_url visual scene //QDomNodeList& visscn_child = visscn.childNodes(); QDomNodeList visscn_child = visscn.childNodes(); //for each direct child of a libscn_url visual scene find if there is some geometry instance int problem = 0; for(int chdind = 0; chdind < visscn_child.size();++chdind) { //QDomNodeList& geoinst = visscn_child.at(chdind).toElement().elementsByTagName("instance_geometry"); QDomNodeList geoinst = visscn_child.at(chdind).toElement().elementsByTagName("instance_geometry"); int geoinst_size = geoinst.size(); if (geoinst_size != 0) { geoinst_found |= true; QDomNodeList geolib = info->doc->elementsByTagName("library_geometries"); int geolib_size = geolib.size(); assert(geolib_size == 1); //!!!!!!!!!!!!!!!!!here will be the code for geometry transformations!!!!!!!!!!!!!!!!!!!!!! info->numvert = 0; info->numface = 0; for(int geoinst_ind = 0;geoinst_ind < geoinst_size;++geoinst_ind) { QString geo_url; referenceToANodeAttribute(geoinst.at(geoinst_ind),"url",geo_url); QDomNode geo = findNodeBySpecificAttributeValue(geolib.at(0),"geometry","id",geo_url); if (geo.isNull()) return false; QDomNodeList vertlist = geo.toElement().elementsByTagName("vertices"); for(int vert = 0;vert < vertlist.size();++vert) { QDomNode no; no = findNodeBySpecificAttributeValue(vertlist.at(vert),"input","semantic","POSITION"); QString srcurl; referenceToANodeAttribute(no,"source",srcurl); no = findNodeBySpecificAttributeValue(geo,"source","id",srcurl); QDomNodeList fa = no.toElement().elementsByTagName("float_array"); assert(fa.size() == 1); info->numvert += (fa.at(0).toElement().attribute("count").toInt() / 3); no = findNodeBySpecificAttributeValue(vertlist.at(vert),"input","semantic","COLOR"); if (!no.isNull()) bHasPerVertexColor = true; no = findNodeBySpecificAttributeValue(vertlist.at(vert),"input","semantic","NORMAL"); if (!no.isNull()) bHasPerVertexNormal = true; no = findNodeBySpecificAttributeValue(vertlist.at(vert),"input","semantic","TEXCOORD"); if (!no.isNull()) bHasPerVertexText = true; } QDomNodeList facelist = geo.toElement().elementsByTagName("triangles"); for(int face = 0;face < facelist.size();++face) { info->numface += facelist.at(face).toElement().attribute("count").toInt() ; QDomNode no; no = findNodeBySpecificAttributeValue(facelist.at(face),"input","semantic","NORMAL"); if (!no.isNull()) bHasPerWedgeNormal = true; no = findNodeBySpecificAttributeValue(facelist.at(face),"input","semantic","TEXCOORD"); if (!no.isNull()) bHasPerWedgeTexCoord = true; } } } } } } if (!geoinst_found) { QDomNodeList geolib = info->doc->elementsByTagName("library_geometries"); int geolib_size = geolib.size(); assert(geolib_size == 1); QDomNodeList geochild = geolib.at(0).toElement().elementsByTagName("geometry"); //!!!!!!!!!!!!!!!!!here will be the code for geometry transformations!!!!!!!!!!!!!!!!!!!!!! info->numvert = 0; info->numface = 0; for(int geoinst_ind = 0;geoinst_ind < geochild.size();++geoinst_ind) { QDomNodeList vertlist = geochild.at(geoinst_ind).toElement().elementsByTagName("vertices"); for(int vert = 0;vert < vertlist.size();++vert) { QDomNode no; no = findNodeBySpecificAttributeValue(vertlist.at(vert),"input","semantic","POSITION"); QString srcurl; referenceToANodeAttribute(no,"source",srcurl); no = findNodeBySpecificAttributeValue(geochild.at(geoinst_ind),"source","id",srcurl); QDomNodeList fa = no.toElement().elementsByTagName("float_array"); assert(fa.size() == 1); info->numvert += (fa.at(0).toElement().attribute("count").toInt() / 3); no = findNodeBySpecificAttributeValue(vertlist.at(vert),"input","semantic","COLOR"); if (!no.isNull()) bHasPerVertexColor = true; no = findNodeBySpecificAttributeValue(vertlist.at(vert),"input","semantic","NORMAL"); if (!no.isNull()) bHasPerVertexNormal = true; no = findNodeBySpecificAttributeValue(vertlist.at(vert),"input","semantic","TEXCOORD"); if (!no.isNull()) bHasPerVertexText = true; } QDomNodeList facelist = geochild.at(geoinst_ind).toElement().elementsByTagName("triangles"); for(int face = 0;face < facelist.size();++face) { info->numface += facelist.at(face).toElement().attribute("count").toInt() ; QDomNode no; no = findNodeBySpecificAttributeValue(facelist.at(face),"input","semantic","NORMAL"); if (!no.isNull()) bHasPerWedgeNormal = true; no = findNodeBySpecificAttributeValue(facelist.at(face),"input","semantic","TEXCOORD"); if (!no.isNull()) bHasPerWedgeTexCoord = true; } } } info->mask = 0; if (bHasPerWedgeTexCoord) info->mask |= vcg::tri::io::Mask::IOM_WEDGTEXCOORD; if (bHasPerWedgeNormal) info->mask |= vcg::tri::io::Mask::IOM_WEDGNORMAL; if (bHasPerVertexColor) info->mask |= vcg::tri::io::Mask::IOM_VERTCOLOR; if (bHasPerFaceColor) info->mask |= vcg::tri::io::Mask::IOM_FACECOLOR; if (bHasPerVertexNormal) info->mask |= vcg::tri::io::Mask::IOM_VERTNORMAL; if (bHasPerVertexText) info->mask |= vcg::tri::io::Mask::IOM_VERTTEXCOORD; delete (info->doc); addinfo = inf; return true; } }; } } } #endif