//zu debugzwecken void PlanRepInc::writeGML(const char *fileName, GraphAttributes &AG, bool colorEmbed) { OGDF_ASSERT(m_pGraphAttributes == &(AG)); ofstream os(fileName); writeGML(os, AG);//drawing, colorEmbed); }//writegml with AG layout
void CompactionConstraintGraphBase::writeGML(const char *filename, NodeArray<bool> one) const { ofstream os(filename); writeGML(os, one); }
// output in gml-format with special edge colouring // arcs with cost 0 are green, other arcs red void CompactionConstraintGraphBase::writeGML(const char *filename) const { ofstream os(filename); writeGML(os); }
int SMVMain::qt_metacall(QMetaObject::Call _c, int _id, void **_a) { _id = QMainWindow::qt_metacall(_c, _id, _a); if (_id < 0) return _id; if (_c == QMetaObject::InvokeMetaMethod) { switch (_id) { case 0: treeViewCollapsSlot((*reinterpret_cast< QModelIndex(*)>(_a[1]))); break; case 1: treeViewExpandSlot((*reinterpret_cast< QModelIndex(*)>(_a[1]))); break; case 2: featureTreeViewCollapsSlot((*reinterpret_cast< QModelIndex(*)>(_a[1]))); break; case 3: featureTreeViewExpandSlot((*reinterpret_cast< QModelIndex(*)>(_a[1]))); break; case 4: stripe0(); break; case 5: stripe1(); break; case 6: stripe2(); break; case 7: stripe3(); break; case 8: stripe4(); break; case 9: stripe5(); break; case 10: stripe6(); break; case 11: stripe7(); break; case 12: stripe8(); break; case 13: stripe9(); break; case 14: stripe10(); break; case 15: zmButton(); break; case 16: zpButton(); break; case 17: openColorDialog(); break; case 18: setFullFileGraph(); break; case 19: directFadeInFeatureView(); break; case 20: directFadeInFileView(); break; case 21: directFadeInCodeView(); break; case 22: fadeInFeatureView(); break; case 23: fadeInFileView(); break; case 24: fadeInCodeView(); break; case 25: showFeatureView(); break; case 26: showFileView(); break; case 27: showCodeView(); break; case 28: openFile(); break; case 29: setCircularLayout((*reinterpret_cast< ViewMode(*)>(_a[1]))); break; case 30: setCircularLayout(); break; case 31: setFastHierarchicalLayout((*reinterpret_cast< ViewMode(*)>(_a[1]))); break; case 32: setFastHierarchicalLayout(); break; case 33: setBallonLayout((*reinterpret_cast< ViewMode(*)>(_a[1]))); break; case 34: setBallonLayout(); break; case 35: setTreeLayout((*reinterpret_cast< ViewMode(*)>(_a[1]))); break; case 36: setTreeLayout(); break; case 37: setHierarchicalLayout((*reinterpret_cast< ViewMode(*)>(_a[1]))); break; case 38: setHierarchicalLayout(); break; case 39: setEnergybasedLayout((*reinterpret_cast< ViewMode(*)>(_a[1]))); break; case 40: setEnergybasedLayout(); break; case 41: setOrthogonalLayout((*reinterpret_cast< ViewMode(*)>(_a[1]))); break; case 42: setOrthogonalLayout(); break; case 43: writeGML(); break; case 44: about(); break; case 45: CodeColorTransparency((*reinterpret_cast< int(*)>(_a[1]))); break; case 46: setFeaturesTransparent(); break; case 47: setFeaturesOpaque(); break; default: ; } _id -= 48; } return _id; }
void MultilevelGraph::writeGML(const char *fileName) { std::ofstream os(fileName); writeGML(os); }
// outputs the GML-file, which illustrates the Polygon as Graph void DPolygon::writeGML(const char *filename) const { ofstream file(filename); writeGML(file); }
void PlanRep::writeGML(const char *fileName, const OrthoRep &OR, const GridLayout &drawing) { ofstream os(fileName); writeGML(os,OR,drawing); }