void ApplinkDialog::Timer(const BaseContainer &msg) { Bool b; GetBool(IDC_CHK_PROMPT, b); if(b) { Filename fn; fn.SetDirectory(gPreferences.GetString(IDC_EXCH_FOLDER)); fn.SetFile("export.txt"); if(GeFExist(fn)) { GePrint("File exists!"); SetTimer(0); if(GeOutString("To import a new object?", GEMB_OKCANCEL) == GEMB_R_OK) { GePrint("Start import!"); BaseDocument* doc = GetActiveDocument(); ApplinkImporter* importer = NewObjClear(ApplinkImporter); importer->Execute(doc, &gPreferences); SetTimer(1000); } else { SetBool(IDC_CHK_PROMPT, false); } } } }
Bool ApplinkExporter::WriteMatsFile(BaseDocument* document, BaseContainer* bc) { Filename filenameMTL; filenameMTL.SetDirectory(bc->GetString(IDC_TMP_FOLDER)); filenameMTL.SetFile(document->GetDocumentName()); filenameMTL.SetSuffix("mtl"); GePrint(filenameMTL.GetString()); AutoAlloc<BaseFile> fileMTL; if (!fileMTL->Open(filenameMTL, FILEOPEN_WRITE, FILEDIALOG_NONE, GeGetByteOrder())) return FALSE; for(LONG i=0; i < materialArray.GetCount(); i++) { BaseMaterial* mat = materialArray[i]; String str; str = "newmtl " + mat->GetName() + "\n"; this->WriteString(str, fileMTL); //Ka str = "Ka 0.300000 0.300000 0.300000\n"; this->WriteString(str, fileMTL); ///////////////////////////////////////////////////////// //////////////////////////////////////////////////////// //Kd if(getParameterLong(*mat, MATERIAL_USE_COLOR)) { ExportChannel(document, fileMTL, *mat, MATERIAL_COLOR_SHADER, MATERIAL_COLOR_COLOR, "Kd"); } //Ks if(getParameterLong(*mat, MATERIAL_USE_REFLECTION)) { ExportChannel(document, fileMTL, *mat, MATERIAL_REFLECTION_SHADER, MATERIAL_REFLECTION_COLOR, "Ks"); } //Ns str = "Ns 50.000000\n"; this->WriteString(str, fileMTL); //Tr str = "Tr 0.000000\n"; this->WriteString(str, fileMTL); //illum str = "illum 2\n"; this->WriteString(str, fileMTL); this->WriteEndLine(fileMTL); } fileMTL->Close(); return TRUE; }
Bool ApplinkExporter::Execute(BaseDocument* document, BaseContainer* bc) { matDefault = BaseMaterial::Alloc(Mmaterial); if(!matDefault) return false; Filename fileObjPath; fileObjPath.SetDirectory(bc->GetString(IDC_TMP_FOLDER)); fileObjPath.SetFile(document->GetDocumentName()); fileObjPath.SetSuffix("obj"); Filename fileObjOutPath; fileObjOutPath.SetDirectory(bc->GetString(IDC_TMP_FOLDER)); fileObjOutPath.SetFile("output.obj"); Filename fileImport; fileImport.SetDirectory(bc->GetString(IDC_EXCH_FOLDER)); fileImport.SetFile("import.txt"); GePrint(fileObjPath.GetString()); GePrint(fileObjOutPath.GetString()); GePrint(fileImport.GetString()); const Matrix tM(LVector(0.0f, 0.0f, 0.0f), LVector(1.0f, 0.0f, 0.0f), LVector(0.0f, 1.0f, 0.0f), LVector(0.0f, 0.0f, -1.0f)); //BaseDocument* doc = document->Polygonize(); AutoAlloc<AtomArray> oSel; document->GetActiveObjects(oSel, GETACTIVEOBJECTFLAGS_0); if(oSel->GetCount() > 0) { //Write import.txt// AutoAlloc<BaseFile> basefileImport; if (!basefileImport->Open(fileImport, FILEOPEN_WRITE, FILEDIALOG_NONE, GeGetByteOrder())) return FALSE; this->WriteString(fileObjPath.GetString() + "\n", basefileImport); this->WriteString(fileObjOutPath.GetString() + "\n", basefileImport); this->WriteString(mapType(bc->GetLong(IDC_COMBO_MAP_TYPE)) + "\n", basefileImport); Bool bSkipImp = bc->GetBool(IDC_CHK_SKIP_IMP_DIALOG); if(bSkipImp) { this->WriteString("[SkipImport]\n", basefileImport); } Bool bSkipExp = bc->GetBool(IDC_CHK_SKIP_EXP_DIALOG); if(bSkipExp) { this->WriteString("[SkipExport]\n", basefileImport); } GePrint(mapType(bc->GetLong(IDC_COMBO_MAP_TYPE))); basefileImport->Close(); GePrint("File " + fileImport.GetString() + " write success!"); //Write file.obj// AutoAlloc<BaseFile> objfile; //if (!objfile) return FALSE; if (!objfile->Open(fileObjPath, FILEOPEN_WRITE, FILEDIALOG_NONE, GeGetByteOrder())) return FALSE; String str; str = "#Wavefront OBJ Export for 3D-Coat\n"; this->WriteString(str, objfile); DateTime t; GetDateTimeNow(t); str = "#File created: " + FormatTime("%d.%m.%Y %H:%M:%S", t) + "\n"; this->WriteString(str, objfile); str = "#Cinema4D Version: " + LongToString(GetC4DVersion()) + "\n"; this->WriteString(str, objfile); this->WriteEndLine(objfile); Bool expMat = bc->GetBool(IDC_CHK_EXP_MAT); vpcnt = vtcnt = 0; for(int i = 0; i < oSel->GetCount(); i++) { StatusSetSpin(); PolygonObject* ob = (PolygonObject*) oSel->GetIndex(i); if (ob->GetType() == Opolygon) { StatusSetText("Export object " + ob->GetName()); ExportObject mObject; GePrint("Name " + ob->GetName()); //GePrint("Type " + LongToString(ob->GetType())); if(expMat) { mObject.pmatidxArray.ReSize(ob->GetPolygonCount()); mObject.tempMats.ReSize(1); mObject.pmatidxArray.Fill(0); Bool haveMats = false; ////////////////////////////////////////// for(BaseTag* tag = ob->GetFirstTag(); tag != NULL; tag = tag->GetNext()) { LONG typ = tag->GetType(); if(typ == Ttexture) { if (!getParameterLink(*tag, TEXTURETAG_MATERIAL, Mbase)) continue; haveMats = true; TextureTag* txttag = (TextureTag*)tag; BaseMaterial* material = txttag->GetMaterial(); if(material == NULL) { GePrint("Material not found on " + ob->GetName() + "object."); return false; } //GePrint("Mat Name: " + material->GetName()); String restrict = getParameterString(*tag, TEXTURETAG_RESTRICTION); if (restrict.Content()) { mObject.tempMats.Push(material); //GePrint("Selection: " + restrict); for(BaseTag* seltag = ob->GetFirstTag(); seltag != NULL; seltag = seltag->GetNext()) { LONG seltyp = seltag->GetType(); if(seltyp == Tpolygonselection && seltag->GetName() == restrict) { SelectionTag* selecttag = (SelectionTag*)seltag; BaseSelect* sel = selecttag->GetBaseSelect(); //GePrint("sel data count: " + LongToString(sel->GetCount())); LONG seg = 0, a, b, p; while (sel->GetRange(seg++, &a, &b)) { for (p = a; p <= b; ++p) { //GePrint("seltpolygon: " + LongToString(p)); mObject.pmatidxArray[p] = mObject.tempMats.GetCount()-1; } } } } } else { mObject.tempMats[0] = material; mObject.pmatidxArray.Fill(0); } } } if(!mObject.tempMats[0]) { matDefault->SetName("Default"); BaseChannel* color = matDefault->GetChannel(CHANNEL_COLOR); if (!color) return false; // return some error BaseContainer cdata = color->GetData(); cdata.SetVector(BASECHANNEL_COLOR_EX, Vector(1.0f, 1.0f, 1.0f)); //document->InsertMaterial(matDefault, NULL, FALSE); //matDefault->Update(TRUE, TRUE); //matDefault->Message(MSG_UPDATE); mObject.tempMats[0] = matDefault; //GePrint("Global material not found on object " + ob->GetName() + "."); //return false; } if(haveMats) { //GePrint("mObject.tempMats.GetCount(): " + LongToString(mObject.tempMats.GetCount())); for(LONG m = 0; m < mObject.tempMats.GetCount(); m++) { Bool inMats = false; //GePrint("materialArray.GetCount(): " + LongToString(materialArray.GetCount())); for(LONG n = 0; n < materialArray.GetCount(); n++) { if(mObject.tempMats[m]->GetName() == materialArray[n]->GetName()) { inMats = true; break; } } if(!inMats) { materialArray.Push(mObject.tempMats[m]); } } } //String str1; //for (LONG p = 0; p < ob->GetPolygonCount(); p++) //{ // str1 += LongToString(mObject.pmatidxArray[p]) + ","; //} //GePrint(str1); } ///////////////////////////////////////////////// const Vector* vadr = ob->GetPointR(); const CPolygon* padr = ob->GetPolygonR(); LONG vcnt = ob->GetPointCount(); LONG pcnt = ob->GetPolygonCount(); mObject.Fpvnb.ReSize(pcnt);// poly counts for(LONG p = 0; p < pcnt; p++) { if(padr[p].c != padr[p].d) { mObject.Fpvnb[p] = 4; } else { mObject.Fpvnb[p] = 3; } } mObject.pVertexCount = PVertexLength(mObject); //Vertex positions mObject.Vp.ReSize(vcnt); Matrix mg = tM * ob->GetMgn(); for (LONG v = 0; v < vcnt; v++) { mObject.Vp[v] = vadr[v] * mg; //GePrint("Point[" + LongToString(i) + "] " + LongToString(padr[i].x) + ", " + LongToString(padr[i].y) + ", " + LongToString(padr[i].z)); //str = "v " + LongToString(vadr[p].x) + " " + LongToString(vadr[p].y) + " " + LongToString(vadr[p].z) + "\n"; //this->WriteString(str, objfile); } mObject.Fv.ReSize(mObject.pVertexCount); LONG y=0; for (LONG p = 0; p < pcnt; p++) { if(mObject.Fpvnb[p] == 4) { mObject.Fv[y] = padr[p].d; mObject.Fv[y+1] = padr[p].c; mObject.Fv[y+2] = padr[p].b; mObject.Fv[y+3] = padr[p].a; } else { mObject.Fv[y] = padr[p].c; mObject.Fv[y+1] = padr[p].b; mObject.Fv[y+2] = padr[p].a; } y += mObject.Fpvnb[p]; } //String str1; //for (LONG p = 0; p < mObject.Fv.GetCount(); p++) //{ // str1 += LongToString(mObject.Fv[p]) + " "; //} //GePrint(str1); /////////////////////////////// ///////////vertex UV ////////////////////////////// if(bc->GetBool(IDC_CHK_EXP_UV)) { // Get first UV tag (if at least one) UVWTag* uvw_tag = (UVWTag*)ob->GetTag(Tuvw, 0); if(!uvw_tag) { GePrint("Object \"" + ob->GetName() + "\" has no UVW tag.\nUV coordinates can't be exported."); return FALSE; } else { mObject.Vt.ReSize(mObject.pVertexCount); mObject.Fvt.ReSize(mObject.pVertexCount); const UVWHandle dataptr = uvw_tag->GetDataAddressR(); UVWStruct res; for(LONG t=0, y=0; t < pcnt; t++) { //GePrint("y: " + LongToString(y)); UVWTag::Get(dataptr, t, res); if(mObject.Fpvnb[t] == 4) { mObject.Vt[y] = res.d; mObject.Vt[y + 1] = res.c; mObject.Vt[y + 2] = res.b; mObject.Vt[y + 3] = res.a; mObject.Fvt[y] = y; mObject.Fvt[y + 1] = y + 1; mObject.Fvt[y + 2] = y + 2; mObject.Fvt[y + 3] = y + 3; } else { mObject.Vt[y] = res.c; mObject.Vt[y + 1] = res.b; mObject.Vt[y + 2] = res.a; mObject.Fvt[y] = y; mObject.Fvt[y + 1] = y + 1; mObject.Fvt[y + 2] = y + 2; } y += mObject.Fpvnb[t]; } } //String str1; //for (LONG p = 0; p < mObject.Fvt.GetCount(); p++) //{ // str1 += LongToString(mObject.Fvt[p]) + " "; //} //GePrint(str1); } WriteExportFile(bc, ob, objfile, mObject, vcnt, pcnt); //GePrint("Fvt: " + LongToString(Fvt.GetCount())); vpcnt += mObject.Vp.GetCount(); if(bc->GetBool(IDC_CHK_EXP_UV)) vtcnt += mObject.Vt.GetCount(); } } objfile->Close(); if(expMat && materialArray.GetCount() > 0) WriteMatsFile(document, bc); } else { GePrint("No selected objects!"); } BaseMaterial::Free(matDefault); return TRUE; }
void ApplinkExporter::WriteExportFile(BaseContainer* bc, PolygonObject* ob, BaseFile* objfile, ExportObject& mObject, LONG vcnt, LONG pcnt) { const CPolygon* padr = ob->GetPolygonR(); Bool expUV = bc->GetBool(IDC_CHK_EXP_UV); Bool expMat = bc->GetBool(IDC_CHK_EXP_MAT); String str; if(expMat && materialArray.GetCount() > 0) { Filename fileMatObj; fileMatObj.SetFile(GetActiveDocument()->GetDocumentName()); fileMatObj.SetSuffix("mtl"); str = "mtllib " + fileMatObj.GetFile().GetString() + "\n"; this->WriteString(str, objfile); this->WriteEndLine(objfile); } str = "g " + ob->GetName() + "\n"; this->WriteString(str, objfile); this->WriteEndLine(objfile); // vertex positions ApplinkExporter::WriteVertexPositions(objfile, mObject, vcnt); //UV if(expUV) ApplinkExporter::WriteUVWTag(objfile, mObject, pcnt, padr); //Polygon faces v/vt/vn (v//vn) str = "# begin " + LongToString(pcnt) + " faces\n"; this->WriteString(str, objfile); LONG y=0; String prevMat = "", currMat = ""; for (LONG i = 0; i < pcnt; i++) { if(expMat && materialArray.GetCount() > 0) { currMat = mObject.tempMats[mObject.pmatidxArray[i]]->GetName(); if(currMat != prevMat) { str = "usemtl " + currMat + "\n"; this->WriteString(str, objfile); prevMat = currMat; } } //GePrint("Polygon[" + LongToString(i) + "] " + LongToString(vadr[i].a) + ", " + LongToString(vadr[i].b) + ", " + LongToString(vadr[i].c) + ", " + LongToString(vadr[i].d)); str = "f"; //GePrint("poly vertices: " + LongToString(mObject.Fpvnb[i])); for(LONG j = 0; j < mObject.Fpvnb[i]; j++) { str += " "; str += LongToString(mObject.Fv[y+j] + 1 + vpcnt); if(expUV && mObject.Fvt.GetCount() > 0) { str += "/"; str += LongToString(mObject.Fvt[y+j] + 1 + vtcnt); } } str += "\n"; //GePrint("str = " + str); this->WriteString(str, objfile); y += mObject.Fpvnb[i]; } str = "# end " + LongToString(pcnt) + " faces\n"; this->WriteString(str, objfile); this->WriteEndLine(objfile); }