private static bool doesSourceConditionMatch(TreeElementType ruleTreeElement, TreeElementType apply, ITreeManipulationFacade <TreeElementType> treeManipulationFacade) { bool isVariable = treeManipulationFacade.getType(ruleTreeElement) == ITreeManipulationFacade <TreeElementType> .EnumTreeElementType.VARIABLE; if (isVariable) { return(true); } else { int ruleChildrenCount = treeManipulationFacade.getNumberOfChildren(ruleTreeElement); int applyChildrenCount = treeManipulationFacade.getNumberOfChildren(apply); if (treeManipulationFacade.isLeaf(ruleTreeElement) && treeManipulationFacade.isLeaf(apply)) { return(treeManipulationFacade.isEqual(ruleTreeElement, apply)); } if (ruleChildrenCount != applyChildrenCount) { return(false); } int childrenCount = ruleChildrenCount; for (int i = 0; i < childrenCount; i++) { if (!doesSourceConditionMatch(treeManipulationFacade.getChildren(ruleTreeElement, i), treeManipulationFacade.getChildren(apply, i), treeManipulationFacade)) { return(false); } } return(true); } }
private static void assignVariablesHelper(TreeElementType ruleTreeElement, TreeElementType apply, List <Tuple <string, TreeElementType> > variablesDestination, ITreeManipulationFacade <TreeElementType> treeManipulationFacade) { if (treeManipulationFacade.getType(ruleTreeElement) == ITreeManipulationFacade <TreeElementType> .EnumTreeElementType.VARIABLE) { variablesDestination.Add(new Tuple <string, TreeElementType>(treeManipulationFacade.getVariableName(ruleTreeElement), apply)); } else { int childrenCount = treeManipulationFacade.getNumberOfChildren(ruleTreeElement); Debug.Assert(treeManipulationFacade.getNumberOfChildren(ruleTreeElement) == treeManipulationFacade.getNumberOfChildren(apply)); for (int i = 0; i < childrenCount; i++) { assignVariablesHelper(treeManipulationFacade.getChildren(ruleTreeElement, i), treeManipulationFacade.getChildren(apply, i), variablesDestination, treeManipulationFacade); } } }
private static TreeElementType rewrite(TreeElementType apply, List <Tuple <string, TreeElementType> > variables, ITreeManipulationFacade <TreeElementType> treeManipulationFacade) { if (treeManipulationFacade.getType(apply) == ITreeManipulationFacade <TreeElementType> .EnumTreeElementType.VARIABLE) { TreeElementType variableValue = (TreeElementType)getVariableByName(variables, treeManipulationFacade.getVariableName(apply)).Clone(); treeManipulationFacade.setType(variableValue, ITreeManipulationFacade <TreeElementType> .EnumTreeElementType.VALUE); return(variableValue); } else { for (int i = 0; i < treeManipulationFacade.getNumberOfChildren(apply); i++) { TreeElementType iterationApplyChildren = treeManipulationFacade.getChildren(apply, i); TreeElementType rewritten = rewrite(iterationApplyChildren, variables, treeManipulationFacade); treeManipulationFacade.setChildren(apply, i, rewritten); } return(apply); } }
public static TreeElementType tryToApplyRulesRecursivly(List <Rule <TreeElementType> > rules, TreeElementType apply, ITreeManipulationFacade <TreeElementType> treeManipulationFacade) { TreeElementType rewritten = apply; foreach (Rule <TreeElementType> iterationRule in rules) { if (doesSourceConditionMatch(iterationRule.matching, apply, treeManipulationFacade)) { List <Tuple <string, TreeElementType> > variableAssignments = assignVariables(iterationRule, apply, treeManipulationFacade); rewritten = rewrite(iterationRule.rewriteTarget, variableAssignments, treeManipulationFacade); break; } } for (int i = 0; i < treeManipulationFacade.getNumberOfChildren(rewritten); i++) { TreeElementType rwrittenChildren = tryToApplyRulesRecursivly(rules, treeManipulationFacade.getChildren(rewritten, i), treeManipulationFacade); treeManipulationFacade.setChildren(rewritten, i, rwrittenChildren); } return(rewritten); }