public void finegrainChange(GRGEN_LIBGR.IActionExecutionEnvironment actionEnv, GRGEN_LIBGR.IGraph graph, GRGEN_LIBGR.IGraphElement elemCalledOn) { Console.WriteLine("finegrainChange called"); ((GRGEN_LIBGR.ISubactionAndOutputAdditionEnvironment)actionEnv).Recorder.External("add foo bar to " + ((GRGEN_LIBGR.INamedGraph)graph).GetElementName(elemCalledOn)); dummy.Add("foo","bar"); ((GRGEN_LIBGR.IGraphProcessingEnvironment)actionEnv).TransactionManager.ExternalTypeChanged(new UndoDummy((GRGEN_MODEL.INB)elemCalledOn, "foo", graph)); }
public static bool ApplyXGRS_createEdge(GRGEN_LGSP.LGSPGraphProcessingEnvironment procEnv, GRGEN_LIBGR.INode var_n1, GRGEN_LIBGR.INode var_n2, ref GRGEN_LIBGR.IEdge var_e) { // it is recommended to create an edge as in the function below, immediately adding it to the graph // then you must work with LGSPNodes, casting the INodes you receive as parameters to that concrete type (inheriting from INode) var_e = GRGEN_MODEL.E.TypeInstance.CreateEdge(var_n1, var_n2); procEnv.graph.AddEdge(var_e); return true; }
public static object ParseImpl(TextReader reader, GRGEN_LIBGR.AttributeType attrType, GRGEN_LIBGR.IGraph graph) { char lookahead = (char)reader.Peek(); if(lookahead == 'o') { reader.Read(); // eat 'o' return new Own(); } else if(lookahead == 'p') { reader.Read(); // eat 'p' StringBuilder sb = new StringBuilder(); while(reader.Peek() != ',' && reader.Peek() != ')') // attributes are separated by , a node/edge terminated by ) in .grs sb.Append((char)reader.Read()); // eat non ',', ')' OwnPown op = new OwnPown(); op.ehe = sb.ToString(); return op; } else if(lookahead == 'h') { reader.Read(); // eat 'h' StringBuilder sb = new StringBuilder(); while(reader.Peek() != ';') sb.Append((char)reader.Read()); // eat non ';' string ehe = sb.ToString(); sb.Length = 0; reader.Read(); // eat ';' while(reader.Peek() != ',' && reader.Peek() != ')') // attributes are separated by , a node/edge terminated by ) in .grs sb.Append((char)reader.Read()); // eat non ',',')' OwnPownHome oph = new OwnPownHome(); oph.ehe = ehe; oph.aha = sb.ToString(); return oph; } else { if(reader.Peek() == 'n') { reader.Read(); if(reader.Peek() == 'u') { reader.Read(); if(reader.Peek() == 'l') { reader.Read(); if(reader.Peek() == 'l') { reader.Read(); return null; } } } } throw new Exception("parsing failure"); } }
public override bool AreAttributesEqual(GRGEN_LIBGR.IGraphElement that) { if(!(that is D231_4121_Impl)) return false; D231_4121_Impl that_ = (D231_4121_Impl)that; return true && a2_M0no_suXx_h4rD == that_.a2_M0no_suXx_h4rD && b23_M0no_suXx_h4rD == that_.b23_M0no_suXx_h4rD && a4_M0no_suXx_h4rD == that_.a4_M0no_suXx_h4rD && b41_M0no_suXx_h4rD == that_.b41_M0no_suXx_h4rD && b42_M0no_suXx_h4rD == that_.b42_M0no_suXx_h4rD && a5_M0no_suXx_h4rD == that_.a5_M0no_suXx_h4rD && d231_4121_M0no_suXx_h4rD == that_.d231_4121_M0no_suXx_h4rD ; }
public override bool AreAttributesEqual(GRGEN_LIBGR.IGraphElement that) { if(!(that is @Node)) return false; @Node that_ = (@Node)that; return true ; }
public override bool AreAttributesEqual(GRGEN_LIBGR.IGraphElement that) { if(!(that is @Expression)) return false; @Expression that_ = (@Expression)that; return true ; }
public override bool IsA(GRGEN_LIBGR.GrGenType other) { return (this == other) || isA[other.TypeID]; }
public void External(string line, GRGEN_LIBGR.IGraph graph) { Console.Write("Ignoring: "); Console.WriteLine(line); }
public static bool ApplyXGRS_blo(GRGEN_LGSP.LGSPGraphProcessingEnvironment procEnv, GRGEN_LIBGR.INode var_v1, GRGEN_LIBGR.IEdge var_v2, ref GRGEN_LIBGR.INode var_r1, ref GRGEN_LIBGR.IEdge var_r2) { var_r1 = var_v1; var_r2 = var_v2; return true; }
public void FillIndexSetAsClone(GRGEN_LIBGR.IGraph graph, GRGEN_LIBGR.IGraph originalGraph, IDictionary<GRGEN_LIBGR.IGraphElement, GRGEN_LIBGR.IGraphElement> oldToNewMap) { ((StdIndexSet)((GRGEN_LGSP.LGSPGraph)graph).indices).FillAsClone((GRGEN_LGSP.LGSPGraph)originalGraph, oldToNewMap); }
public string Serialize(object attribute, GRGEN_LIBGR.AttributeType attrType, GRGEN_LIBGR.IGraph graph) { Console.WriteLine("Warning: Exporting attribute of object type to null"); return "null"; }
public override GRGEN_LIBGR.IEdge CreateEdge(GRGEN_LIBGR.INode source, GRGEN_LIBGR.INode target) { throw new Exception("The abstract edge type AEdge cannot be instantiated!"); }
public override void SetSourceAndTarget(GRGEN_LIBGR.IEdge edge, GRGEN_LIBGR.INode source, GRGEN_LIBGR.INode target) { throw new Exception("The abstract edge type AEdge does not support source and target setting!"); }
public static void externalProcedure(GRGEN_LIBGR.IActionExecutionEnvironment actionEnv, GRGEN_LIBGR.IGraph graph) { }
public override GRGEN_LIBGR.INode CreateNodeWithCopyCommons(GRGEN_LIBGR.INode oldINode) { return new GRGEN_MODEL.@Node(); }
public override object ApplyFunctionMethod(GRGEN_LIBGR.IActionExecutionEnvironment actionEnv, GRGEN_LIBGR.IGraph graph, string name, object[] arguments) { switch(name) { default: throw new NullReferenceException("MethodSignature does not have the function method " + name + "!"); } }
public override GRGEN_LIBGR.INode CreateNodeWithCopyCommons(GRGEN_LIBGR.INode oldINode) { throw new Exception("Cannot retype to the abstract type Feature!"); }
public void CreateAndBindIndexSet(GRGEN_LIBGR.IGraph graph) { ((GRGEN_LGSP.LGSPGraph)graph).indices = new ProgramGraphsOriginalIndexSet((GRGEN_LGSP.LGSPGraph)graph); }
public override GRGEN_LIBGR.IEdge CreateEdgeWithCopyCommons(GRGEN_LIBGR.INode source, GRGEN_LIBGR.INode target, GRGEN_LIBGR.IEdge oldIEdge) { return new GRGEN_MODEL.@UEdge((GRGEN_LGSP.LGSPNode) source, (GRGEN_LGSP.LGSPNode) target); }
public override GRGEN_LIBGR.IEdge CreateEdgeWithCopyCommons(GRGEN_LIBGR.INode source, GRGEN_LIBGR.INode target, GRGEN_LIBGR.IEdge oldIEdge) { throw new Exception("Cannot retype to the abstract type AEdge!"); }
public void CreateAndBindIndexSet(GRGEN_LIBGR.IGraph graph) { ((GRGEN_LGSP.LGSPGraph)graph).indices = new StdIndexSet((GRGEN_LGSP.LGSPGraph)graph); }
public override GRGEN_LIBGR.IEdge Clone(GRGEN_LIBGR.INode newSource, GRGEN_LIBGR.INode newTarget) { return new GRGEN_MODEL.@UEdge(this, (GRGEN_LGSP.LGSPNode) newSource, (GRGEN_LGSP.LGSPNode) newTarget); }
public object Parse(TextReader reader, GRGEN_LIBGR.AttributeType attrType, GRGEN_LIBGR.IGraph graph) { reader.Read(); reader.Read(); reader.Read(); reader.Read(); // eat 'n' 'u' 'l' 'l' return null; }
public override bool AreAttributesEqual(GRGEN_LIBGR.IGraphElement that) { if(!(that is @methodBodyContains)) return false; @methodBodyContains that_ = (@methodBodyContains)that; return true ; }
public string Emit(object attribute, GRGEN_LIBGR.AttributeType attrType, GRGEN_LIBGR.IGraph graph) { return attribute!=null ? attribute.ToString() : "null"; }
public override GRGEN_LIBGR.IEdge CreateEdge(GRGEN_LIBGR.INode source, GRGEN_LIBGR.INode target) { return new GRGEN_MODEL.@UEdge((GRGEN_LGSP.LGSPNode) source, (GRGEN_LGSP.LGSPNode) target); }
public GRGEN_LIBGR.INamedGraph AsGraph(object attribute, GRGEN_LIBGR.AttributeType attrType, GRGEN_LIBGR.IGraph graph) { return null; }
public override void SetSourceAndTarget(GRGEN_LIBGR.IEdge edge, GRGEN_LIBGR.INode source, GRGEN_LIBGR.INode target) { ((GRGEN_LGSP.LGSPEdge)edge).SetSourceAndTarget((GRGEN_LGSP.LGSPNode) source, (GRGEN_LGSP.LGSPNode) target); }
public override object[] ApplyProcedureMethod(GRGEN_LIBGR.IActionExecutionEnvironment actionEnv, GRGEN_LIBGR.IGraph graph, string name, object[] arguments) { switch(name) { default: throw new NullReferenceException("UEdge does not have the procedure method " + name + "!"); } }
public override bool AreAttributesEqual(GRGEN_LIBGR.IGraphElement that) { if(!(that is @classContainsClass)) return false; @classContainsClass that_ = (@classContainsClass)that; return true ; }