public override void CaseAAssignmentExp(AAssignmentExp node) { if (!processMethodsOnly && !processStructs) { if (!processFieldsOnly) { if (node.GetLvalue() is ALocalLvalue) { ALocalLvalue lvalue = (ALocalLvalue)node.GetLvalue(); assignedToLocals[finalTrans.data.LocalLinks[lvalue]].Add(node); node.GetExp().Apply(this); return; } } if (node.GetLvalue() is AFieldLvalue) { AFieldLvalue lvalue = (AFieldLvalue)node.GetLvalue(); AFieldDecl decl = finalTrans.data.FieldLinks[lvalue]; if (!assignedToFields[decl].Contains(node)) { assignedToFields[decl].Add(node); } node.GetExp().Apply(this); return; } } base.CaseAAssignmentExp(node); }
public override void CaseAValueReturnStm(AValueReturnStm node) { /* * return <exp>; * -> * methodReturnerVar = <exp>; * hasMethodReturnedVar = true; * break; */ ALocalLvalue lvalue = new ALocalLvalue(new TIdentifier(methodReturnerVar.GetName().Text)); data.LvalueTypes[lvalue] = methodReturnerVar.GetType(); data.LocalLinks[lvalue] = methodReturnerVar; AAssignmentExp exp = new AAssignmentExp(new TAssign("="), lvalue, node.GetExp()); data.ExpTypes[exp] = methodReturnerVar.GetType(); PStm stm = new AExpStm(new TSemicolon(";"), exp); AABlock block = new AABlock(); block.GetStatements().Add(stm); block.GetStatements().Add(new AVoidReturnStm(node.GetToken())); node.ReplaceBy(new ABlockStm(new TLBrace("{"), block)); block.Apply(this); }
public override void CaseAAssignmentExp(AAssignmentExp node) { node.GetLvalue().Apply(this); //node.GetToken().Apply(this); Write(" = "); node.GetExp().Apply(this); }
public override void CaseAVoidReturnStm(AVoidReturnStm node) { if (!neededWhile) { node.Parent().RemoveChild(node); return; } /* * return; * -> * hasMethodReturnedVar = true; * break; */ ALocalLvalue lvalue = new ALocalLvalue(new TIdentifier(hasMethodReturnedVar.GetName().Text)); data.LvalueTypes[lvalue] = hasMethodReturnedVar.GetType(); data.LocalLinks[lvalue] = hasMethodReturnedVar; PExp exp = new ABooleanConstExp(new ATrueBool()); data.ExpTypes[exp] = new ANamedType(new TIdentifier("bool"), null); exp = new AAssignmentExp(new TAssign("="), lvalue, exp); data.ExpTypes[exp] = hasMethodReturnedVar.GetType(); PStm stm = new AExpStm(new TSemicolon(";"), exp); AABlock block = new AABlock(); block.GetStatements().Add(stm); block.GetStatements().Add(new ABreakStm(new TBreak("break"))); node.ReplaceBy(new ABlockStm(new TLBrace("{"), block)); }
private static List <AALocalDecl> GetAssignedTo(ControlFlowGraph.Node node, SharedData data) { if (node.Statement is ALocalDeclStm) { return new List <AALocalDecl>() { (AALocalDecl)((ALocalDeclStm)node.Statement).GetLocalDecl() } } ; PExp exp = node.Expression; if (exp != null && exp is AAssignmentExp) { AAssignmentExp aExp = (AAssignmentExp)exp; if (aExp.GetLvalue() is ALocalLvalue) { return new List <AALocalDecl>() { data.LocalLinks[(ALocalLvalue)aExp.GetLvalue()] } } ; } return(new List <AALocalDecl>()); }
public override void CaseALocalDeclStm(ALocalDeclStm node) { AMethodDecl pMethod = Util.GetAncestor <AMethodDecl>(node); AALocalDecl decl = (AALocalDecl)node.GetLocalDecl(); if (decl.GetInit() == null) { ALocalLvalue lvalue = new ALocalLvalue(new TIdentifier(decl.GetName().Text)); data.LocalLinks[lvalue] = decl; data.LvalueTypes[lvalue] = decl.GetType(); List <PStm> statements = AssignDefault(lvalue); AABlock pBlock = (AABlock)node.Parent(); foreach (PStm statement in statements) { pBlock.GetStatements().Insert(pBlock.GetStatements().IndexOf(node), statement); } pBlock.RemoveChild(node); } else { //Make an assignment expression before moving ALocalLvalue lvalue = new ALocalLvalue(new TIdentifier(decl.GetName().Text)); data.LvalueTypes[lvalue] = decl.GetType(); AAssignmentExp exp = new AAssignmentExp(new TAssign("="), lvalue, decl.GetInit()); AExpStm expStm = new AExpStm(new TSemicolon(";"), exp); node.ReplaceBy(expStm); data.LvalueTypes[lvalue] = decl.GetType(); data.ExpTypes[exp] = decl.GetType(); data.LocalLinks[lvalue] = decl; } AABlock block = (AABlock)pMethod.GetBlock(); block.GetStatements().Insert(0, node); }
public override void OutAAssignmentExp(AAssignmentExp node) { if (Util.GetAncestor <PStm>(node) == null) { node.ReplaceBy(node.GetExp()); return; } base.OutAAssignmentExp(node); }
public static bool Parse(ControlFlowGraph cfg, SharedData data, out bool redoLivenessAnalysis) { bool changed = false; redoLivenessAnalysis = false; Dictionary <ControlFlowGraph.Node, List <ASimpleInvokeExp> > Modifications = new Dictionary <ControlFlowGraph.Node, List <ASimpleInvokeExp> >(); foreach (ControlFlowGraph.Node node in cfg.Nodes) { if (node.Expression is AAssignmentExp) { AAssignmentExp exp = (AAssignmentExp)node.Expression; if (exp.GetLvalue() is ALocalLvalue) { AALocalDecl decl = data.LocalLinks[(ALocalLvalue)exp.GetLvalue()]; //If the variable is not live at any successors, remove this assignment bool inUse = false; foreach (ControlFlowGraph.Node successor in node.Successors) { if (successor.LiveVariables.Contains(decl)) { inUse = true; break; } } if (!inUse) { //Move method invokes out GetMethodInvokes getter = new GetMethodInvokes(); exp.GetExp().Apply(getter); //Might also have to redo because we removed a reference to a variable in the right side //if (getter.Invokes.Count > 0) redoLivenessAnalysis = true; Modifications[node] = getter.Invokes; changed = true; } } } } foreach (KeyValuePair <ControlFlowGraph.Node, List <ASimpleInvokeExp> > pair in Modifications) { ControlFlowGraph.Node node = pair.Key; foreach (ASimpleInvokeExp invoke in pair.Value) { AExpStm stm = new AExpStm(new TSemicolon(";"), invoke); AABlock pBlock = (AABlock)node.Statement.Parent(); pBlock.GetStatements().Insert(pBlock.GetStatements().IndexOf(node.Statement), stm); cfg.Insert(node, stm); } cfg.Remove(node); node.Statement.Parent().RemoveChild(node.Statement); } return(changed); }
public override void CaseAAssignmentExp(AAssignmentExp node) { currentLocal = null; node.GetLvalue().Apply(this); if (currentLocal != null) { AALocalDecl decl = data.LocalLinks[currentLocal]; NeededRefs[Util.GetAncestor <AMethodDecl>(node)].Add(decl); } node.GetExp().Apply(this); }
public override void CaseAAssignmentExp(AAssignmentExp node) { if (node.GetExp() is ALvalueExp && Util.ReturnsTheSame(node.GetLvalue(), ((ALvalueExp)node.GetExp()).GetLvalue(), data)) { RemovedOne = true; node.Parent().Parent().RemoveChild(node.Parent()); } else { base.CaseAAssignmentExp(node); } }
public override void CaseAContinueStm(AContinueStm node) { AABlock pBlock = (AABlock)node.Parent(); ALocalLvalue replaceVarRef = new ALocalLvalue(new TIdentifier("whileVar")); ASimpleInvokeExp clone = (ASimpleInvokeExp)Util.MakeClone(this.node, data); AAssignmentExp assignment = new AAssignmentExp(new TAssign("="), replaceVarRef, clone); data.LocalLinks[replaceVarRef] = replaceVarDecl; data.ExpTypes[assignment] = data.LvalueTypes[replaceVarRef] = replaceVarDecl.GetType(); pBlock.GetStatements().Insert(pBlock.GetStatements().IndexOf(node), new AExpStm(new TSemicolon(";"), assignment)); replacementExpressions.Add(clone); }
public override void CaseALocalLvalue(ALocalLvalue node) { //Only if it is not what it is assigning to AAssignmentExp exp = Util.GetAncestor <AAssignmentExp>(node); if (exp != null && node == exp.GetLvalue()) { return; } UsedLocals.Add(data.LocalLinks[node]); }
public override void CaseAAssignmentExp(AAssignmentExp node) { if (!(node.Parent() is AExpStm)) { PStm parentStm = Util.GetAncestor <PStm>(node); MoveMethodDeclsOut mover = new MoveMethodDeclsOut("multipleAssignmentsVar", finalTrans.data); node.GetLvalue().Apply(mover); PLvalue lvalue = Util.MakeClone(node.GetLvalue(), finalTrans.data); ALvalueExp exp = new ALvalueExp(lvalue); finalTrans.data.ExpTypes[exp] = finalTrans.data.LvalueTypes[lvalue]; node.ReplaceBy(exp); AExpStm stm = new AExpStm(new TSemicolon(";"), node); AABlock block = (AABlock)parentStm.Parent(); //block.GetStatements().Insert(block.GetStatements().IndexOf(parentStm), localDeclStm); block.GetStatements().Insert(block.GetStatements().IndexOf(parentStm), stm); //localDeclStm.Apply(this); stm.Apply(this); if (parentStm is AWhileStm && Util.IsAncestor(exp, ((AWhileStm)parentStm).GetCondition())) { AWhileStm aStm = (AWhileStm)parentStm; //Copy assignment before continues //Before each continue in the while, and at the end. //Add continue statement, if not present block = (AABlock)((ABlockStm)aStm.GetBody()).GetBlock(); if (block.GetStatements().Count == 0 || !(block.GetStatements()[block.GetStatements().Count - 1] is AContinueStm)) { block.GetStatements().Add(new AContinueStm(new TContinue("continue"))); } //Get all continue statements in the while ContinueFinder finder = new ContinueFinder(); block.Apply(finder); foreach (AContinueStm continueStm in finder.Continues) { stm = new AExpStm(new TSemicolon(";"), Util.MakeClone(node, finalTrans.data)); block.GetStatements().Insert(block.GetStatements().IndexOf(continueStm), stm); stm.Apply(this); } } return; } base.CaseAAssignmentExp(node); }
public override void OutASAssignmentExp(ASAssignmentExp node) { AAssignmentExp replacer = null; PAssignop assignop = node.GetAssignop(); Token token = null; PBinop binop = null; if (assignop is AAddAssignop) { token = ((AAddAssignop)assignop).GetToken(); binop = new APlusBinop(new TPlus("+", token.Line, token.Pos)); } else if (assignop is ASubAssignop) { token = ((ASubAssignop)assignop).GetToken(); binop = new AMinusBinop(new TMinus("-", token.Line, token.Pos)); } else if (assignop is AMulAssignop) { token = ((AMulAssignop)assignop).GetToken(); binop = new ATimesBinop(new TStar("*", token.Line, token.Pos)); } else if (assignop is ADivAssignop) { token = ((ADivAssignop)assignop).GetToken(); binop = new ADivideBinop(new TDiv("/", token.Line, token.Pos)); } else if (assignop is AModAssignop) { token = ((AModAssignop)assignop).GetToken(); binop = new AModuloBinop(new TMod("%", token.Line, token.Pos)); } else// if (assignop is AAssignAssignop) { token = ((AAssignAssignop)assignop).GetToken(); } PExp rightSide; if (binop != null) { rightSide = new ABinopExp(new ALvalueExp((PLvalue)node.GetLvalue().Clone()), binop, (PExp)node.GetExp().Clone()); } else { rightSide = (PExp)node.GetExp().Clone(); } replacer = new AAssignmentExp(new TAssign("=", token.Line, token.Pos), (PLvalue)node.GetLvalue().Clone(), rightSide); node.ReplaceBy(replacer); replacer.Apply(this); }
private void MakeAssignments(AABlock block, PType type, PLvalue leftSide, bool onEnhritedFields) { if (type is ANamedType && data.StructTypeLinks.ContainsKey((ANamedType)type)) { AStructDecl str = data.StructTypeLinks[(ANamedType)type]; foreach (AALocalDecl field in str.GetLocals().OfType <AALocalDecl>()) { if (!onEnhritedFields && data.EnheritanceLocalMap.ContainsKey(field)) { continue; } ALvalueExp lvalueExp = new ALvalueExp(Util.MakeClone(leftSide, data)); data.ExpTypes[lvalueExp] = data.LvalueTypes[leftSide]; AStructLvalue newLeftSide = new AStructLvalue(lvalueExp, new ADotDotType(new TDot(".")), new TIdentifier(field.GetName().Text)); data.StructFieldLinks[newLeftSide] = field; data.LvalueTypes[newLeftSide] = field.GetType(); if (field.GetInit() != null) { AAssignmentExp assignment = new AAssignmentExp(new TAssign("="), newLeftSide, Util.MakeClone(field.GetInit(), data)); data.ExpTypes[assignment] = data.LvalueTypes[newLeftSide]; block.GetStatements().Add(new AExpStm(new TSemicolon(";"), assignment)); } else { MakeAssignments(block, field.GetType(), newLeftSide, onEnhritedFields); } } } else if (type is AArrayTempType) { AArrayTempType aType = (AArrayTempType)type; for (int i = 0; i < int.Parse(aType.GetIntDim().Text); i++) { AIntConstExp index = new AIntConstExp(new TIntegerLiteral(i.ToString())); data.ExpTypes[index] = new ANamedType(new TIdentifier("int"), null); ALvalueExp lvalueExp = new ALvalueExp(Util.MakeClone(leftSide, data)); data.ExpTypes[lvalueExp] = data.LvalueTypes[leftSide]; AArrayLvalue newLeftSide = new AArrayLvalue(new TLBracket("["), lvalueExp, index); data.LvalueTypes[newLeftSide] = aType.GetType(); MakeAssignments(block, aType.GetType(), newLeftSide, onEnhritedFields); } } }
public override void CaseAAssignmentExp(AAssignmentExp node) { isLeftsideOfAssignment = true; node.GetLvalue().Apply(this); isLeftsideOfAssignment = false; }
public static bool Parse(ControlFlowGraph cfg, SharedData data) { Dictionary <PStm, ControlFlowGraph.Node> statementNodes = new Dictionary <PStm, ControlFlowGraph.Node>(); //Dictionary<ControlFlowGraph.Node, List<AALocalDecl>> uses = new Dictionary<ControlFlowGraph.Node, List<AALocalDecl>>(); foreach (ControlFlowGraph.Node node in cfg.Nodes) { statementNodes[node.Statement] = node; /*GetUses getUses = new GetUses(); * node.Statement.Apply(getUses); * uses[node] = getUses.Uses;*/ } foreach (ControlFlowGraph.Node node in cfg.Nodes) { if (node.Expression is AAssignmentExp) { AAssignmentExp exp = (AAssignmentExp)node.Expression; if (exp.GetLvalue() is ALocalLvalue) { AALocalDecl decl = data.LocalLinks[(ALocalLvalue)exp.GetLvalue()]; bool dontMove = false; LocalChecker.ModifyData declModData = LocalChecker.GetLocalData(node.Expression, data); /*1: Search for unique use of decl * Stop if you find an assignment to decl * Stop if decl is not live * Cancel if you find two uses of decl (also within one statement) */ ControlFlowGraph.Node useNode = null; LinkedList <ControlFlowGraph.Node> nextNodes = new LinkedList <ControlFlowGraph.Node>(); LinkedList <ControlFlowGraph.Node> visitedNodes = new LinkedList <ControlFlowGraph.Node>(); foreach (var successor in node.Successors) { nextNodes.AddLast(successor); } while (nextNodes.Count > 0) { ControlFlowGraph.Node successor = nextNodes.First.Value; nextNodes.RemoveFirst(); visitedNodes.AddLast(successor); LocalChecker.ModifyData succData = LocalChecker.GetLocalData(successor.Expression, data); //Stop if decl is not live if (!successor.LiveVariables.Contains(decl)) { continue; } //Check if this node uses it) if (succData.Locals.ContainsKey(decl)) { var val = succData.Locals[decl]; if (val.Reads) { if (useNode == null) { useNode = successor; } else { //Cancel if we found two uses dontMove = true; break; } } //Stop if it writes to the variable if (val.Writes) { continue; } } foreach (ControlFlowGraph.Node nextSucc in successor.Successors) { if (visitedNodes.Contains(nextSucc)) { continue; } nextNodes.AddLast(nextSucc); } } ALocalLvalue usedLvalue; if (dontMove || useNode == null || //Cancel if there are two uses of the local within same statement GetUses.HasMoreThanOneUses(useNode.Statement, decl, data, out usedLvalue)) { continue; } /*2: Search back from found statement, to ensure unique assignment * Stop if assignment reached * Cancel if start of method is reached * Cancel if any statement reads/writes to a variable used in the statement (where one of them writes) * Cancel if another assignment to x is found (including local decls) */ visitedNodes.Clear(); nextNodes.Clear(); foreach (ControlFlowGraph.Node predecessor in useNode.Predecessors) { nextNodes.AddLast(predecessor); } while (nextNodes.Count > 0) { ControlFlowGraph.Node predecessor = nextNodes.First.Value; nextNodes.RemoveFirst(); visitedNodes.AddLast(predecessor); LocalChecker.ModifyData predData = LocalChecker.GetLocalData(predecessor.Expression, data); //Stop if assignment reached if (predecessor == node) { continue; } //Cancel if this statement writes to decl if (predData.Locals.ContainsKey(decl) && predData.Locals[decl].Writes || predecessor.Statement is ALocalDeclStm && ((ALocalDeclStm)predecessor.Statement).GetLocalDecl() == decl) { dontMove = true; break; } //Cancel if any statement reads/writes to a variable used in the statement (where one of them writes) if (declModData.Conflicts(predData)) { dontMove = true; break; } //Cancel if start of method is reached if (predecessor.Predecessors.Count == 0) { dontMove = true; break; } foreach (ControlFlowGraph.Node nextPred in predecessor.Predecessors) { if (visitedNodes.Contains(nextPred)) { continue; } nextNodes.AddLast(nextPred); } } if (dontMove) { continue; } //Move it cfg.Remove(node); node.Statement.Parent().RemoveChild(node.Statement); usedLvalue.Parent().ReplaceBy(exp.GetExp()); //We now need to redo liveness analysis return(true); } } } return(false); }
public override void CaseADelegateInvokeExp(ADelegateInvokeExp node) { //Build a list of the possible methods AASourceFile currentFile = Util.GetAncestor <AASourceFile>(node); List <AMethodDecl> methods = new List <AMethodDecl>(); ANamedType type = (ANamedType)finalTrans.data.ExpTypes[node.GetReceiver()]; AMethodDecl delegateMethod = finalTrans.data.DelegateTypeLinks[type]; foreach (KeyValuePair <ADelegateExp, AMethodDecl> delegateCreationPair in finalTrans.data.DelegateCreationMethod) { if (TypeChecking.Assignable(delegateCreationPair.Key.GetType(), type)) { if (!methods.Contains(delegateCreationPair.Value)) { methods.Add(delegateCreationPair.Value); } } } MoveMethodDeclsOut mover; if (methods.Count == 0) { //Can only remove it if the return value is unused if (!(node.Parent() is AExpStm)) { finalTrans.errors.Add(new ErrorCollection.Error(node.GetToken(), currentFile, "No possible methods found for delegate invoke.")); throw new ParserException(node.GetToken(), "Delegates.OutADelegateInvokeExp"); } mover = new MoveMethodDeclsOut("delegateVar", finalTrans.data); foreach (Node arg in node.GetArgs()) { arg.Apply(mover); } node.Parent().Parent().RemoveChild(node.Parent()); foreach (PStm stm in mover.NewStatements) { stm.Apply(this); } return; } if (methods.Count == 1) { ASimpleInvokeExp invoke = new ASimpleInvokeExp(new TIdentifier("renameMe"), new ArrayList()); while (node.GetArgs().Count > 0) { invoke.GetArgs().Add(node.GetArgs()[0]); } //If we have a struct method, add the pointer from the delegate if (finalTrans.data.StructMethods.Any(str => str.Value.Contains(methods[0]))) { AStructDecl targetStr = finalTrans.data.StructMethods.First(str => str.Value.Contains(methods[0])).Key; AMethodDecl getPointerDecl = GetPointerMethod(targetStr.GetDimention() != null); ASimpleInvokeExp getPointerInvoke = new ASimpleInvokeExp(new TIdentifier("renameMe"), new ArrayList() { node.GetReceiver() }); invoke.GetArgs().Add(getPointerInvoke); finalTrans.data.SimpleMethodLinks[getPointerInvoke] = getPointerDecl; finalTrans.data.ExpTypes[getPointerInvoke] = getPointerDecl.GetReturnType(); } finalTrans.data.SimpleMethodLinks[invoke] = methods[0]; finalTrans.data.ExpTypes[invoke] = methods[0].GetReturnType(); node.ReplaceBy(invoke); return; } //Multiple methods. Make /* * <Methods moved out from reciever> * string delegate = GetMethodPart(<reciever>); * if (delegate == "...") * { * Foo(...); * } * else if (delegate == "...") * { * Bar(..., GetPointerPart(<reciever>); * } * else if(...) * ... * else * { * UIDisplayMessage(PlayerGroupAll(), c_messageAreaDebug, StringToText("[<file>:<line>]: No methods matched delegate.")); * int i = 1/0; * return; * } * */ AABlock block = new AABlock(new ArrayList(), new TRBrace("}")); mover = new MoveMethodDeclsOut("delegateVar", finalTrans.data); node.GetReceiver().Apply(mover); AMethodDecl methodPartMethod = GetMethodMethod(); ASimpleInvokeExp methodPartInvoke = new ASimpleInvokeExp(new TIdentifier("GetMethodPart"), new ArrayList() { Util.MakeClone(node.GetReceiver(), finalTrans.data) }); finalTrans.data.SimpleMethodLinks[methodPartInvoke] = methodPartMethod; finalTrans.data.ExpTypes[methodPartInvoke] = methodPartMethod.GetReturnType(); AALocalDecl methodPartDecl = new AALocalDecl(new APublicVisibilityModifier(), null, null, null, null, new ANamedType(new TIdentifier("string"), null), new TIdentifier("methodPart"), methodPartInvoke); block.GetStatements().Add(new ALocalDeclStm(new TSemicolon(";"), methodPartDecl)); //If the invoke's return value is used, get the lvalue PLvalue leftSide; if (node.Parent() is AALocalDecl) { leftSide = new ALocalLvalue(new TIdentifier("renameMe")); finalTrans.data.LocalLinks[(ALocalLvalue)leftSide] = (AALocalDecl)node.Parent(); finalTrans.data.LvalueTypes[leftSide] = new ANamedType(new TIdentifier("string"), null); PStm pStm = Util.GetAncestor <PStm>(node); AABlock pBlock = (AABlock)pStm.Parent(); pBlock.GetStatements().Insert(pBlock.GetStatements().IndexOf(pStm) + 1, new ABlockStm(new TLBrace("{"), block)); node.Parent().RemoveChild(node); } else if (node.Parent() is AAssignmentExp) { AAssignmentExp assignExp = (AAssignmentExp)node.Parent(); leftSide = assignExp.GetLvalue(); leftSide.Apply(mover); PStm pStm = Util.GetAncestor <PStm>(node); pStm.ReplaceBy(new ABlockStm(new TLBrace("{"), block)); } else if (node.Parent() is AExpStm) { //No assignments needed leftSide = null; node.Parent().ReplaceBy(new ABlockStm(new TLBrace("{"), block)); } else { //Create a new local AALocalDecl leftSideDecl = new AALocalDecl(new APublicVisibilityModifier(), null, null, null, null, Util.MakeClone(delegateMethod.GetReturnType(), finalTrans.data), new TIdentifier("delegateVar"), null); ALocalLvalue leftSideLink = new ALocalLvalue(new TIdentifier("delegateVar")); ALvalueExp leftSideLinkExp = new ALvalueExp(leftSideLink); PStm pStm = Util.GetAncestor <PStm>(node); AABlock pBlock = (AABlock)pStm.Parent(); pBlock.GetStatements().Insert(pBlock.GetStatements().IndexOf(pStm), new ABlockStm(new TLBrace("{"), block)); node.ReplaceBy(leftSideLinkExp); finalTrans.data.LocalLinks[leftSideLink] = leftSideDecl; finalTrans.data.LvalueTypes[leftSideLink] = finalTrans.data.ExpTypes[leftSideLinkExp] = leftSideDecl.GetType(); leftSide = leftSideLink; block.GetStatements().Add(new ALocalDeclStm(new TSemicolon(";"), leftSideDecl)); } ABlockStm elseBranch; //Make final else branch /* { * UIDisplayMessage(PlayerGroupAll(), c_messageAreaDebug, StringToText("<file>[<line>, <pos>]: No methods matched delegate.")); * IntToString(1/0); * return; * } */ { AABlock innerBlock = new AABlock(new ArrayList(), new TRBrace("}")); ASimpleInvokeExp playerGroupInvoke = new ASimpleInvokeExp(new TIdentifier("PlayerGroupAll"), new ArrayList()); AFieldLvalue messageAreaLink = new AFieldLvalue(new TIdentifier("c_messageAreaDebug")); ALvalueExp messageAreaLinkExp = new ALvalueExp(messageAreaLink); AStringConstExp stringConst = new AStringConstExp( new TStringLiteral("\"" + currentFile.GetName().Text.Replace('\\', '/') + "[" + node.GetToken().Line + ", " + node.GetToken().Pos + "]: Got a null delegate.\"")); ASimpleInvokeExp stringToTextInvoke = new ASimpleInvokeExp(new TIdentifier("StringToText"), new ArrayList() { stringConst }); ASimpleInvokeExp displayMessageInvoke = new ASimpleInvokeExp(new TIdentifier("UIDisplayMessage"), new ArrayList() { playerGroupInvoke, messageAreaLinkExp, stringToTextInvoke }); AIntConstExp intConst1 = new AIntConstExp(new TIntegerLiteral("1")); AIntConstExp intConst2 = new AIntConstExp(new TIntegerLiteral("0")); ABinopExp binop = new ABinopExp(intConst1, new ADivideBinop(new TDiv("/")), intConst2); ASimpleInvokeExp intToStringInvoke = new ASimpleInvokeExp(new TIdentifier("IntToString"), new ArrayList() { binop }); innerBlock.GetStatements().Add(new AExpStm(new TSemicolon(";"), displayMessageInvoke)); innerBlock.GetStatements().Add(new AExpStm(new TSemicolon(";"), intToStringInvoke)); //innerBlock.GetStatements().Add(new AVoidReturnStm(new TReturn("return"))); elseBranch = new ABlockStm(new TLBrace("{"), innerBlock); finalTrans.data.SimpleMethodLinks[playerGroupInvoke] = finalTrans.data.Libraries.Methods.First(m => m.GetName().Text == playerGroupInvoke.GetName().Text); finalTrans.data.SimpleMethodLinks[stringToTextInvoke] = finalTrans.data.Libraries.Methods.First(m => m.GetName().Text == stringToTextInvoke.GetName().Text); finalTrans.data.SimpleMethodLinks[displayMessageInvoke] = finalTrans.data.Libraries.Methods.First(m => m.GetName().Text == displayMessageInvoke.GetName().Text); finalTrans.data.SimpleMethodLinks[intToStringInvoke] = finalTrans.data.Libraries.Methods.First(m => m.GetName().Text == intToStringInvoke.GetName().Text); finalTrans.data.FieldLinks[messageAreaLink] = finalTrans.data.Libraries.Fields.First(m => m.GetName().Text == messageAreaLink.GetName().Text); finalTrans.data.ExpTypes[playerGroupInvoke] = finalTrans.data.SimpleMethodLinks[playerGroupInvoke].GetReturnType(); finalTrans.data.LvalueTypes[messageAreaLink] = finalTrans.data.ExpTypes[messageAreaLinkExp] = finalTrans.data.FieldLinks[messageAreaLink].GetType(); finalTrans.data.ExpTypes[stringToTextInvoke] = finalTrans.data.SimpleMethodLinks[stringToTextInvoke].GetReturnType(); finalTrans.data.ExpTypes[stringConst] = finalTrans.data.ExpTypes[intToStringInvoke] = new ANamedType(new TIdentifier("string"), null); finalTrans.data.ExpTypes[displayMessageInvoke] = new AVoidType(); finalTrans.data.ExpTypes[intConst1] = finalTrans.data.ExpTypes[intConst2] = finalTrans.data.ExpTypes[binop] = new ANamedType(new TIdentifier("int"), null); } foreach (AMethodDecl method in methods) { /* * if (delegate == "...") * { * Foo(...); * } * else if (delegate == "...") * { * Bar(..., GetPointerPart(<reciever>); * } * else if(...) * ... */ AABlock innerBlock = new AABlock(new ArrayList(), new TRBrace("}")); ASimpleInvokeExp invoke = new ASimpleInvokeExp(new TIdentifier(method.GetName().Text), new ArrayList()); for (int i = 0; i < node.GetArgs().Count; i++) { PExp arg = (PExp)node.GetArgs()[i]; invoke.GetArgs().Add(Util.MakeClone(arg, finalTrans.data)); } //If we have a struct method, add the pointer from the delegate if (finalTrans.data.StructMethods.Any(str => str.Value.Contains(method))) { AStructDecl targetStr = finalTrans.data.StructMethods.First(str => str.Value.Contains(method)).Key; AMethodDecl getPointerDecl = GetPointerMethod(targetStr.GetDimention() != null); ASimpleInvokeExp getPointerInvoke = new ASimpleInvokeExp(new TIdentifier("renameMe"), new ArrayList() { Util.MakeClone(node.GetReceiver(), data) }); invoke.GetArgs().Add(getPointerInvoke); finalTrans.data.SimpleMethodLinks[getPointerInvoke] = getPointerDecl; finalTrans.data.ExpTypes[getPointerInvoke] = getPointerDecl.GetReturnType(); } finalTrans.data.SimpleMethodLinks[invoke] = method; finalTrans.data.ExpTypes[invoke] = method.GetReturnType(); if (leftSide == null) { innerBlock.GetStatements().Add(new AExpStm(new TSemicolon(";"), invoke)); } else { AAssignmentExp assignment = new AAssignmentExp(new TAssign("="), Util.MakeClone(leftSide, finalTrans.data), invoke); finalTrans.data.ExpTypes[assignment] = finalTrans.data.ExpTypes[invoke]; innerBlock.GetStatements().Add(new AExpStm(new TSemicolon(";"), assignment)); } ALocalLvalue methodPartLink = new ALocalLvalue(new TIdentifier("methodPart")); ALvalueExp methodPartLinkExp = new ALvalueExp(methodPartLink); AStringConstExp stringConst = new AStringConstExp(new TStringLiteral("\"" + GetName(method) + "\"")); finalTrans.data.LocalLinks[methodPartLink] = methodPartDecl; finalTrans.data.LvalueTypes[methodPartLink] = finalTrans.data.ExpTypes[methodPartLinkExp] = finalTrans.data.ExpTypes[stringConst] = new ANamedType(new TIdentifier("string"), null); ABinopExp binop = new ABinopExp(methodPartLinkExp, new AEqBinop(new TEq("==")), stringConst); finalTrans.data.ExpTypes[binop] = new ANamedType(new TIdentifier("bool"), null); AIfThenElseStm ifThenElse = new AIfThenElseStm(new TLParen("("), binop, new ABlockStm(new TLBrace("{"), innerBlock), elseBranch); elseBranch = new ABlockStm(new TLBrace("{"), new AABlock(new ArrayList() { ifThenElse }, new TRBrace("}"))); } block.GetStatements().Add(elseBranch); }
public override void CaseAConstructorDecl(AConstructorDecl node) { AStructDecl str = Util.GetAncestor <AStructDecl>(node); AEnrichmentDecl enrichment = Util.GetAncestor <AEnrichmentDecl>(node); AMethodDecl replacer = new AMethodDecl(new APublicVisibilityModifier(), null, null, null, null, null, new AVoidType(new TVoid("void")), node.GetName(), new ArrayList(), node.GetBlock()); replacer.GetName().Text += "_Constructor"; while (node.GetFormals().Count > 0) { replacer.GetFormals().Add(node.GetFormals()[0]); } //Move the method outside the struct AASourceFile file = Util.GetAncestor <AASourceFile>(node); if (str != null) { str.RemoveChild(node.Parent()); } else { enrichment.RemoveChild(node); } int i = file.GetDecl().IndexOf(str ?? (PDecl)enrichment); file.GetDecl().Insert(i /* + 1*/, replacer); //Add the struct as a parameter PType type; if (str != null) { ANamedType structType = new ANamedType(new TIdentifier(str.GetName().Text), null); finalTrans.data.StructTypeLinks[structType] = str; type = structType; } else { type = Util.MakeClone(enrichment.GetType(), finalTrans.data); } finalTrans.data.ConstructorMap[node] = replacer; structFormal = new AALocalDecl(new APublicVisibilityModifier(), null, null, null, null, new APointerType(new TStar("*"), type), new TIdentifier("currentStruct", replacer.GetName().Line, replacer.GetName().Pos), null); replacer.GetFormals().Add(structFormal); finalTrans.data.Methods.Add(new SharedData.DeclItem <AMethodDecl>(file, replacer)); //Add return stm replacer.SetReturnType(new APointerType(new TStar("*"), Util.MakeClone(type, data))); replacer.Apply(new TransformConstructorReturns(structFormal, data)); //Insert call to base constructor);); if (finalTrans.data.ConstructorBaseLinks.ContainsKey(node)) { AMethodDecl baseConstructor = finalTrans.data.ConstructorMap[finalTrans.data.ConstructorBaseLinks[node]]; ASimpleInvokeExp invoke = new ASimpleInvokeExp(new TIdentifier(baseConstructor.GetName().Text), new ArrayList()); while (node.GetBaseArgs().Count > 0) { invoke.GetArgs().Add(node.GetBaseArgs()[0]); } AThisLvalue thisLvalue1 = new AThisLvalue(new TThis("this")); ALvalueExp thisExp1 = new ALvalueExp(thisLvalue1); invoke.GetArgs().Add(thisExp1); AThisLvalue thisLvalue2 = new AThisLvalue(new TThis("this")); AAssignmentExp assignExp = new AAssignmentExp(new TAssign("="), thisLvalue2, invoke); ANamedType structType = new ANamedType(new TIdentifier(str.GetName().Text), null); finalTrans.data.StructTypeLinks[structType] = str; finalTrans.data.LvalueTypes[thisLvalue1] = finalTrans.data.LvalueTypes[thisLvalue2] = finalTrans.data.ExpTypes[thisExp1] = finalTrans.data.ExpTypes[assignExp] = finalTrans.data.ExpTypes[invoke] = new APointerType(new TStar("*"), structType); //finalTrans.data.ExpTypes[invoke] = new AVoidType(new TVoid("void")); finalTrans.data.SimpleMethodLinks[invoke] = baseConstructor; ((AABlock)replacer.GetBlock()).GetStatements().Insert(0, new AExpStm(new TSemicolon(";"), assignExp)); //Inline if base and current are two different kinds of pointer types (int/string) AStructDecl baseStruct = null; AConstructorDecl baseC = finalTrans.data.ConstructorBaseLinks[node]; foreach (KeyValuePair <AStructDecl, List <AConstructorDecl> > pair in finalTrans.data.StructConstructors) { bool found = false; foreach (AConstructorDecl decl in pair.Value) { if (baseC == decl) { found = true; break; } } if (found) { baseStruct = pair.Key; break; } } if ((str.GetIntDim() == null) != (baseStruct.GetIntDim() == null)) { //For the inilining, change the type to the type of the caller AALocalDecl lastFormal = baseConstructor.GetFormals().OfType <AALocalDecl>().Last(); lastFormal.SetRef(new TRef("ref")); APointerType oldType = (APointerType)lastFormal.GetType(); structType = new ANamedType(new TIdentifier(str.GetName().Text), null); finalTrans.data.StructTypeLinks[structType] = str; APointerType newType = new APointerType(new TStar("*"), structType); lastFormal.SetType(newType); foreach ( ALocalLvalue lvalue in data.LocalLinks.Where(pair => pair.Value == lastFormal).Select(pair => pair.Key)) { data.LvalueTypes[lvalue] = newType; if (lvalue.Parent() is ALvalueExp) { data.ExpTypes[(PExp)lvalue.Parent()] = newType; if (lvalue.Parent().Parent() is APointerLvalue) { data.LvalueTypes[(PLvalue)lvalue.Parent().Parent()] = newType.GetType(); } } } FixInlineMethods.Inline(invoke, finalTrans); lastFormal.SetRef(null); foreach ( ALocalLvalue lvalue in data.LocalLinks.Where(pair => pair.Value == lastFormal).Select(pair => pair.Key)) { data.LvalueTypes[lvalue] = oldType; if (lvalue.Parent() is ALvalueExp) { data.ExpTypes[(PExp)lvalue.Parent()] = oldType; if (lvalue.Parent().Parent() is APointerLvalue) { data.LvalueTypes[(PLvalue)lvalue.Parent().Parent()] = oldType.GetType(); } } } lastFormal.SetType(oldType); } //Inline it instead, Since the pointer implementations might not be the same (int vs string) /*AMethodDecl baseConstructor = finalTrans.data.ConstructorMap[finalTrans.data.ConstructorBaseLinks[node]]; * * AABlock localsBlock = new AABlock(new ArrayList(), new TRBrace("}")); * ABlockStm cloneBlock = new ABlockStm(new TLBrace("{"), (PBlock) baseConstructor.GetBlock().Clone()); * Dictionary<AALocalDecl, PLvalue> localMap = new Dictionary<AALocalDecl, PLvalue>(); * for (int argNr = 0; argNr < baseConstructor.GetFormals().Count; argNr++) * { * AALocalDecl formal = (AALocalDecl) baseConstructor.GetFormals()[i]; * PExp arg; * if (i < baseConstructor.GetFormals().Count - 1) * arg = (PExp)node.GetBaseArgs()[i]; * else * { * AThisLvalue thisLvalue = new AThisLvalue(new TThis("this")); * ALvalueExp thisExp = new ALvalueExp(thisLvalue); * * ANamedType structType = new ANamedType(new TIdentifier(str.GetName().Text), null); * finalTrans.data.StructTypeLinks[structType] = str; * * finalTrans.data.LvalueTypes[thisLvalue] = * finalTrans.data.ExpTypes[thisExp] = new APointerType(new TStar("*"), structType); * * arg = thisExp; * } * * if (formal.GetRef() != null || formal.GetOut() != null) * { * //Use same variable * localMap[formal] = ((ALvalueExp) arg).GetLvalue(); * } * else * { * //Make a new variable * AALocalDecl newLocal = new AALocalDecl(new APublicVisibilityModifier(), null, null, null, null, * Util.MakeClone(formal.GetType(), finalTrans.data), * new TIdentifier(formal.GetName().Text), * Util.MakeClone(arg, data)); * * ALocalLvalue newLocalRef = new ALocalLvalue(new TIdentifier(newLocal.GetName().Text)); * * localMap[formal] = newLocalRef; * data.LvalueTypes[newLocalRef] = newLocal.GetType(); * data.LocalLinks[newLocalRef] = newLocal; * * localsBlock.GetStatements().Add(new ALocalDeclStm(new TSemicolon(";"), newLocal)); * } * * } * * CloneMethod cloner = new CloneMethod(finalTrans.data, localMap, cloneBlock); * baseConstructor.GetBlock().Apply(cloner); * * ((AABlock)cloneBlock.GetBlock()).GetStatements().Insert(0, new ABlockStm(new TLBrace("{"), localsBlock)); * ((AABlock)node.GetBlock()).GetStatements().Insert(0, cloneBlock);*/ } //Fix refferences to other struct stuff); base.CaseAMethodDecl(replacer); //Add functionality to refference the current struct in a constructor //Want to do it as a pointer type, since the constructer can only be called for pointer types }
private List <PStm> AssignDefault(PLvalue lvalue) { List <PStm> returner = new List <PStm>(); PType type = data.LvalueTypes[lvalue]; PExp rightSide = null; if (type is ANamedType) { ANamedType aType = (ANamedType)type; if (aType.IsPrimitive("string"))//aType.GetName().Text == "string") { rightSide = new AStringConstExp(new TStringLiteral("\"\"")); data.ExpTypes[rightSide] = new ANamedType(new TIdentifier("string"), null); } else if (aType.IsPrimitive(GalaxyKeywords.NullablePrimitives.words)) //GalaxyKeywords.NullablePrimitives.words.Contains(aType.GetName().Text)) { rightSide = new ANullExp(); data.ExpTypes[rightSide] = new ANamedType(new TIdentifier("null"), null); } else if (aType.IsPrimitive(new [] { "int", "byte", "fixed" })) /*aType.GetName().Text == "int" || * aType.GetName().Text == "byte" || * aType.GetName().Text == "fixed")*/ { rightSide = new AIntConstExp(new TIntegerLiteral("0")); data.ExpTypes[rightSide] = type; } else if (aType.IsPrimitive("bool"))//aType.GetName().Text == "bool") { rightSide = new ABooleanConstExp(new AFalseBool()); data.ExpTypes[rightSide] = type; } else if (aType.IsPrimitive("color"))//aType.GetName().Text == "color") { PExp arg1 = new AIntConstExp(new TIntegerLiteral("0")); PExp arg2 = new AIntConstExp(new TIntegerLiteral("0")); PExp arg3 = new AIntConstExp(new TIntegerLiteral("0")); ASimpleInvokeExp invoke = new ASimpleInvokeExp(new TIdentifier("Color"), new ArrayList() { arg1, arg2, arg3 }); rightSide = invoke; data.ExpTypes[rightSide] = type; data.ExpTypes[arg1] = data.ExpTypes[arg2] = data.ExpTypes[arg3] = new ANamedType(new TIdentifier("int"), null); data.SimpleMethodLinks[invoke] = data.Libraries.Methods.First(func => func.GetName().Text == invoke.GetName().Text); } else if (aType.IsPrimitive("char"))//aType.GetName().Text == "char") { //Dunno?! rightSide = new ACharConstExp(new TCharLiteral("'\0'")); data.ExpTypes[rightSide] = type; } else //Struct { AStructDecl str = data.StructTypeLinks[aType]; foreach (AALocalDecl localDecl in str.GetLocals()) { ALvalueExp reciever = new ALvalueExp(Util.MakeClone(lvalue, data)); AStructLvalue newLvalue = new AStructLvalue(reciever, new ADotDotType(new TDot(".")), new TIdentifier(localDecl.GetName().Text)); data.StructFieldLinks[newLvalue] = localDecl; data.ExpTypes[reciever] = type; data.LvalueTypes[newLvalue] = localDecl.GetType(); returner.AddRange(AssignDefault(newLvalue)); } return(returner); } AAssignmentExp assignment = new AAssignmentExp(new TAssign("="), Util.MakeClone(lvalue, data), rightSide); data.ExpTypes[assignment] = type; return(new List <PStm>() { new AExpStm(new TSemicolon(";"), assignment) }); } if (type is AArrayTempType) { AArrayTempType aType = (AArrayTempType)type; for (int i = 0; i < int.Parse(aType.GetIntDim().Text); i++) { ALvalueExp reciever = new ALvalueExp(Util.MakeClone(lvalue, data)); AArrayLvalue newLvalue = new AArrayLvalue(new TLBracket("["), reciever, new AIntConstExp(new TIntegerLiteral(i.ToString()))); data.ExpTypes[reciever] = type; data.LvalueTypes[newLvalue] = aType.GetType(); data.ExpTypes[newLvalue.GetIndex()] = new ANamedType(new TIdentifier("int"), null); returner.AddRange(AssignDefault(newLvalue)); } return(returner); } throw new Exception("Unexpected type. (LivenessAnalasys.AssignDefault), got " + type); }
/* * Apply after assignement fixup * Assume no i++ * * Convert usages to method invocations. */ public static void Parse(FinalTransformations finalTrans) { SharedData data = finalTrans.data; foreach (KeyValuePair <APropertyLvalue, APropertyDecl> pair in data.PropertyLinks) { APropertyLvalue lvalue = pair.Key; APropertyDecl property = pair.Value; if (Util.GetAncestor <AAProgram>(lvalue) == null) { continue; } if (lvalue.Parent() is AAssignmentExp) { AAssignmentExp assignment = (AAssignmentExp)lvalue.Parent(); ASimpleInvokeExp invoke = new ASimpleInvokeExp( new TIdentifier("Set" + property.GetName().Text, lvalue.GetName().Line, lvalue.GetName().Pos), new ArrayList() { assignment.GetExp() }); assignment.ReplaceBy(invoke); data.SimpleMethodLinks[invoke] = data.Setters[property]; data.ExpTypes[invoke] = new AVoidType(new TVoid("void")); } else { ALvalueExp exp = (ALvalueExp)lvalue.Parent(); ASimpleInvokeExp invoke = new ASimpleInvokeExp( new TIdentifier("Get" + property.GetName().Text, lvalue.GetName().Line, lvalue.GetName().Pos), new ArrayList() { }); exp.ReplaceBy(invoke); data.SimpleMethodLinks[invoke] = data.Getters[property]; data.ExpTypes[invoke] = property.GetType(); } } foreach (KeyValuePair <AStructLvalue, APropertyDecl> pair in data.StructPropertyLinks) { AStructLvalue lvalue = pair.Key; APropertyDecl property = pair.Value; AEnrichmentDecl enrichmentDecl = null; AStructDecl structDecl = null; if (data.EnrichmentTypeLinks.ContainsKey(data.ExpTypes[lvalue.GetReceiver()])) { enrichmentDecl = data.EnrichmentTypeLinks[data.ExpTypes[lvalue.GetReceiver()]]; } if (enrichmentDecl == null) { structDecl = data.StructTypeLinks[(ANamedType)data.ExpTypes[lvalue.GetReceiver()]]; } if (Util.GetAncestor <AAProgram>(lvalue) == null) { continue; } PExp structArg; if (structDecl == null || structDecl.GetClassToken() == null) { structArg = lvalue.GetReceiver(); } else { //Send pointer ALvalueExp lvalueExp = (ALvalueExp)lvalue.GetReceiver(); APointerLvalue pointerValue = (APointerLvalue)lvalueExp.GetLvalue(); structArg = pointerValue.GetBase(); } if (lvalue.Parent() is AAssignmentExp) { AAssignmentExp assignment = (AAssignmentExp)lvalue.Parent(); ASimpleInvokeExp invoke = new ASimpleInvokeExp( new TIdentifier("Set" + property.GetName().Text, lvalue.GetName().Line, lvalue.GetName().Pos), new ArrayList() { assignment.GetExp(), structArg }); assignment.ReplaceBy(invoke); data.SimpleMethodLinks[invoke] = data.Setters[property]; data.ExpTypes[invoke] = new AVoidType(new TVoid("void")); } else { ALvalueExp exp = (ALvalueExp)lvalue.Parent(); ASimpleInvokeExp invoke = new ASimpleInvokeExp( new TIdentifier("Get" + property.GetName().Text, lvalue.GetName().Line, lvalue.GetName().Pos), new ArrayList() { structArg }); exp.ReplaceBy(invoke); data.SimpleMethodLinks[invoke] = data.Getters[property]; data.ExpTypes[invoke] = property.GetType(); } } foreach (KeyValuePair <AArrayLvalue, Util.Pair <APropertyDecl, bool> > pair in data.ArrayPropertyLinks) { AArrayLvalue lvalue = pair.Key; APropertyDecl property = pair.Value.First; bool implicitMatch = pair.Value.Second; AEnrichmentDecl enrichmentDecl = null; AStructDecl structDecl = null; if (OldEnrichmentParents.ContainsKey(property)) { enrichmentDecl = OldEnrichmentParents[property]; } else { structDecl = OldStructParents[property]; } if (Util.GetAncestor <AAProgram>(lvalue) == null) { continue; } PExp structArg; if (structDecl == null || structDecl.GetClassToken() == null) { structArg = lvalue.GetBase(); } else { //Send pointer if (implicitMatch) { structArg = lvalue.GetBase(); } else { ALvalueExp lvalueExp = (ALvalueExp)lvalue.GetBase(); APointerLvalue pointerValue = (APointerLvalue)lvalueExp.GetLvalue(); structArg = pointerValue.GetBase(); } } /* if (!(structArg is ALvalueExp && * (((ALvalueExp)structArg).GetLvalue() is ALocalLvalue || ((ALvalueExp)structArg).GetLvalue() is AFieldLvalue || * ((ALvalueExp)structArg).GetLvalue() is AStructLvalue || ((ALvalueExp)structArg).GetLvalue() is AStructFieldLvalue)) * { * //Make new local * AALocalDecl decl = new AALocalDecl(new APublicVisibilityModifier(), null, null, null, null, * Util.MakeClone(data.ExpTypes[structArg], data), * new TIdentifier("propertyVar"), structArg); * ALocalLvalue declRef = new ALocalLvalue(new TIdentifier("propertyVar")); * structArg = new ALvalueExp(declRef); * PStm stm = Util.GetAncestor<PStm>(lvalue); * }*/ if (lvalue.Parent() is AAssignmentExp) { AAssignmentExp assignment = (AAssignmentExp)lvalue.Parent(); ASimpleInvokeExp invoke = new ASimpleInvokeExp( new TIdentifier("SetThis", lvalue.GetToken().Line, lvalue.GetToken().Pos), new ArrayList() { lvalue.GetIndex(), assignment.GetExp(), structArg }); assignment.ReplaceBy(invoke); data.SimpleMethodLinks[invoke] = data.Setters[property]; data.ExpTypes[invoke] = new AVoidType(new TVoid("void")); } else { ALvalueExp exp = (ALvalueExp)lvalue.Parent(); ASimpleInvokeExp invoke = new ASimpleInvokeExp( new TIdentifier("GetThis", lvalue.GetToken().Line, lvalue.GetToken().Pos), new ArrayList() { lvalue.GetIndex(), structArg }); exp.ReplaceBy(invoke); data.SimpleMethodLinks[invoke] = data.Getters[property]; data.ExpTypes[invoke] = property.GetType(); } } }
public override void OutAIfExp(AIfExp node) { //Transform to /* * var expIfVar; * if (<cond>) * { * expIfVar = <then>; * } * else * { * expIfVar = <else>; * } * ... expIfVar ... */ AALocalDecl expIfVarDecl = new AALocalDecl(new APublicVisibilityModifier(), null, null, null, null, Util.MakeClone(data.ExpTypes[node], data), new TIdentifier("expIfVar"), null); ALocalLvalue thenExpIfVarLink = new ALocalLvalue(new TIdentifier("expIfVar")); ALocalLvalue elseExpIfVarLink = new ALocalLvalue(new TIdentifier("expIfVar")); ALocalLvalue usageExpIfVarLink = new ALocalLvalue(new TIdentifier("expIfVar")); ALvalueExp usageExpIfVarLinkExp = new ALvalueExp(usageExpIfVarLink); AAssignmentExp thenAssignment = new AAssignmentExp(new TAssign("="), thenExpIfVarLink, node.GetThen()); AAssignmentExp elseAssignment = new AAssignmentExp(new TAssign("="), elseExpIfVarLink, node.GetElse()); AIfThenElseStm ifStm = new AIfThenElseStm(new TLParen("("), node.GetCond(), new ABlockStm(new TLBrace("{"), new AABlock( new ArrayList() { new AExpStm(new TSemicolon(";"), thenAssignment) }, new TRBrace("}"))), new ABlockStm(new TLBrace("{"), new AABlock( new ArrayList() { new AExpStm(new TSemicolon(";"), elseAssignment) }, new TRBrace("}")))); data.LocalLinks[thenExpIfVarLink] = data.LocalLinks[elseExpIfVarLink] = data.LocalLinks[usageExpIfVarLink] = expIfVarDecl; data.LvalueTypes[thenExpIfVarLink] = data.LvalueTypes[elseExpIfVarLink] = data.LvalueTypes[usageExpIfVarLink] = data.ExpTypes[usageExpIfVarLinkExp] = data.ExpTypes[thenAssignment] = data.ExpTypes[elseAssignment] = expIfVarDecl.GetType(); PStm pStm = Util.GetAncestor <PStm>(node); AABlock pBlock = (AABlock)pStm.Parent(); pBlock.GetStatements().Insert(pBlock.GetStatements().IndexOf(pStm), new ALocalDeclStm(new TSemicolon(";"), expIfVarDecl)); pBlock.GetStatements().Insert(pBlock.GetStatements().IndexOf(pStm), ifStm); node.ReplaceBy(usageExpIfVarLinkExp); base.OutAIfExp(node); }
public static List <AABlock> Inline(ASimpleInvokeExp node, FinalTransformations finalTrans) { /*if (Util.GetAncestor<AMethodDecl>(node) != null && Util.GetAncestor<AMethodDecl>(node).GetName().Text == "UIChatFrame_LeaveChannel") * node = node;*/ SharedData data = finalTrans.data; //If this node is inside the condition of a while, replace it with a new local var, //make a clone before the while, one before each continue in the while, and one at the end of the while //(unless the end is a return or break) AABlock pBlock; if (Util.HasAncestor <AWhileStm>(node)) { AWhileStm whileStm = Util.GetAncestor <AWhileStm>(node); if (Util.IsAncestor(node, whileStm.GetCondition())) { List <ASimpleInvokeExp> toInline = new List <ASimpleInvokeExp>(); //Above while AALocalDecl replaceVarDecl = new AALocalDecl(new APublicVisibilityModifier(), null, null, null, null, Util.MakeClone(data.ExpTypes[node], data), new TIdentifier("whileVar"), null); ALocalLvalue replaceVarRef = new ALocalLvalue(new TIdentifier("whileVar")); ALvalueExp replaceVarRefExp = new ALvalueExp(replaceVarRef); data.LocalLinks[replaceVarRef] = replaceVarDecl; data.ExpTypes[replaceVarRefExp] = data.LvalueTypes[replaceVarRef] = replaceVarDecl.GetType(); node.ReplaceBy(replaceVarRefExp); replaceVarDecl.SetInit(node); pBlock = (AABlock)whileStm.Parent(); pBlock.GetStatements().Insert(pBlock.GetStatements().IndexOf(whileStm), new ALocalDeclStm(new TSemicolon(";"), replaceVarDecl)); toInline.Add(node); //In the end of the while PStm lastStm = whileStm.GetBody(); while (lastStm is ABlockStm) { AABlock block = (AABlock)((ABlockStm)lastStm).GetBlock(); if (block.GetStatements().Count == 0) { lastStm = null; break; } lastStm = (PStm)block.GetStatements()[block.GetStatements().Count - 1]; } if (lastStm == null || !(lastStm is AValueReturnStm || lastStm is AVoidReturnStm || lastStm is ABreakStm)) { lastStm = whileStm.GetBody(); AABlock block; if (lastStm is ABlockStm) { block = (AABlock)((ABlockStm)lastStm).GetBlock(); } else { block = new AABlock(new ArrayList(), new TRBrace("}")); block.GetStatements().Add(lastStm); whileStm.SetBody(new ABlockStm(new TLBrace("{"), block)); } replaceVarRef = new ALocalLvalue(new TIdentifier("whileVar")); ASimpleInvokeExp clone = (ASimpleInvokeExp)Util.MakeClone(node, data); toInline.Add(clone); AAssignmentExp assignment = new AAssignmentExp(new TAssign("="), replaceVarRef, clone); data.LocalLinks[replaceVarRef] = replaceVarDecl; data.ExpTypes[assignment] = data.LvalueTypes[replaceVarRef] = replaceVarDecl.GetType(); block.GetStatements().Add(new AExpStm(new TSemicolon(";"), assignment)); } //After each continue CloneBeforeContinue cloner = new CloneBeforeContinue(node, replaceVarDecl, data); whileStm.GetBody().Apply(cloner); toInline.AddRange(cloner.replacementExpressions); List <AABlock> visitBlocks = new List <AABlock>(); foreach (ASimpleInvokeExp invoke in toInline) { visitBlocks.AddRange(Inline(invoke, finalTrans)); } return(visitBlocks); } } AMethodDecl decl = finalTrans.data.SimpleMethodLinks[node]; FindAssignedToFormals assignedToFormalsFinder = new FindAssignedToFormals(finalTrans.data); decl.Apply(assignedToFormalsFinder); List <AALocalDecl> assignedToFormals = assignedToFormalsFinder.AssignedFormals; /* * inline int foo(int a) * { * int b = 2; * int c; * ... * while(...) * { * ... * break; * ... * return c; * } * ... * return 2; * } * * bar(foo(<arg for a>)); * -> * * { * bool inlineMethodReturned = false; * int inlineReturner; * int a = <arg for a>; * while (!inlineMethodReturned) * { * int b = 2; * int c; * ... * while(...) * { * ... * break * ... * inlineReturner = c; * inlineMethodReturned = true; * break; * } * if (inlineMethodReturned) * { * break; * } * ... * inlineReturner = 2; * inlineMethodReturned = true; * break; * break; * } * bar(inlineReturner); * } * * */ AABlock outerBlock = new AABlock(); PExp exp = new ABooleanConstExp(new AFalseBool()); finalTrans.data.ExpTypes[exp] = new ANamedType(new TIdentifier("bool"), null); AALocalDecl hasMethodReturnedVar = new AALocalDecl(new APublicVisibilityModifier(), null, null, null, null, new ANamedType(new TIdentifier("bool"), null), new TIdentifier("hasInlineReturned"), exp); finalTrans.data.GeneratedVariables.Add(hasMethodReturnedVar); PStm stm = new ALocalDeclStm(new TSemicolon(";"), hasMethodReturnedVar); outerBlock.GetStatements().Add(stm); AALocalDecl methodReturnerVar = null; if (!(decl.GetReturnType() is AVoidType)) { methodReturnerVar = new AALocalDecl(new APublicVisibilityModifier(), null, null, null, null, Util.MakeClone(decl.GetReturnType(), finalTrans.data), new TIdentifier("inlineReturner"), null); stm = new ALocalDeclStm(new TSemicolon(";"), methodReturnerVar); outerBlock.GetStatements().Add(stm); } AABlock afterBlock = new AABlock(); //A dictionary from the formals of the inline method to a cloneable replacement lvalue Dictionary <AALocalDecl, PLvalue> Parameters = new Dictionary <AALocalDecl, PLvalue>(); Dictionary <AALocalDecl, PExp> ParameterExps = new Dictionary <AALocalDecl, PExp>(); for (int i = 0; i < decl.GetFormals().Count; i++) { AALocalDecl formal = (AALocalDecl)decl.GetFormals()[i]; PExp arg = (PExp)node.GetArgs()[0]; PLvalue lvalue; //if ref, dont make a new var if (formal.GetRef() != null && arg is ALvalueExp) { arg.Apply(new MoveMethodDeclsOut("inlineVar", finalTrans.data)); arg.Parent().RemoveChild(arg); lvalue = ((ALvalueExp)arg).GetLvalue(); } else if (!assignedToFormals.Contains(formal) && Util.IsLocal(arg, finalTrans.data)) { lvalue = new ALocalLvalue(new TIdentifier("I hope I dont make it")); finalTrans.data.LvalueTypes[lvalue] = formal.GetType(); finalTrans.data.LocalLinks[(ALocalLvalue)lvalue] = formal; ParameterExps[formal] = arg; arg.Parent().RemoveChild(arg); } else { AAssignmentExp assExp = null; if (formal.GetOut() != null) { //Dont initialize with arg, but assign arg after arg.Apply(new MoveMethodDeclsOut("inlineVar", finalTrans.data)); lvalue = ((ALvalueExp)arg).GetLvalue(); assExp = new AAssignmentExp(new TAssign("="), lvalue, null); finalTrans.data.ExpTypes[assExp] = finalTrans.data.LvalueTypes[lvalue]; arg.Parent().RemoveChild(arg); arg = null; } AALocalDecl parameter = new AALocalDecl(new APublicVisibilityModifier(), null, null, null, null, Util.MakeClone(formal.GetType(), finalTrans.data), new TIdentifier(formal.GetName().Text), arg); stm = new ALocalDeclStm(new TSemicolon(";"), parameter); outerBlock.GetStatements().Add(stm); lvalue = new ALocalLvalue(new TIdentifier(parameter.GetName().Text)); finalTrans.data.LvalueTypes[lvalue] = parameter.GetType(); finalTrans.data.LocalLinks[(ALocalLvalue)lvalue] = parameter; if (formal.GetOut() != null) { //Dont initialize with arg, but assign arg after ALvalueExp lvalueExp = new ALvalueExp(Util.MakeClone(lvalue, finalTrans.data)); finalTrans.data.ExpTypes[lvalueExp] = finalTrans.data.LvalueTypes[lvalue]; assExp.SetExp(lvalueExp); afterBlock.GetStatements().Add(new AExpStm(new TSemicolon(";"), assExp)); } } Parameters.Add(formal, lvalue); } AABlock innerBlock = (AABlock)decl.GetBlock().Clone(); exp = new ABooleanConstExp(new ATrueBool()); finalTrans.data.ExpTypes[exp] = new ANamedType(new TIdentifier("bool"), null); ABlockStm innerBlockStm = new ABlockStm(new TLBrace("{"), innerBlock); bool needWhile = CheckIfWhilesIsNeeded.IsWhileNeeded(decl.GetBlock()); if (needWhile) { stm = new AWhileStm(new TLParen("("), exp, innerBlockStm); } else { stm = innerBlockStm; } outerBlock.GetStatements().Add(stm); outerBlock.GetStatements().Add(new ABlockStm(new TLBrace("{"), afterBlock)); //Clone method contents to inner block. CloneMethod cloneFixer = new CloneMethod(finalTrans, Parameters, ParameterExps, innerBlockStm); decl.GetBlock().Apply(cloneFixer); foreach (KeyValuePair <PLvalue, PExp> pair in cloneFixer.ReplaceUsAfter) { PLvalue lvalue = pair.Key; PExp replacement = Util.MakeClone(pair.Value, finalTrans.data); ALvalueExp lvalueParent = (ALvalueExp)lvalue.Parent(); lvalueParent.ReplaceBy(replacement); } innerBlockStm.Apply(new FixTypes(finalTrans.data)); innerBlock.Apply(new FixReturnsAndWhiles(hasMethodReturnedVar, methodReturnerVar, finalTrans.data, needWhile)); GetNonBlockStm stmFinder = new GetNonBlockStm(false); innerBlock.Apply(stmFinder); if (needWhile && (stmFinder.Stm == null || !(stmFinder.Stm is ABreakStm))) { innerBlock.GetStatements().Add(new ABreakStm(new TBreak("break"))); } //Insert before current statement ABlockStm outerBlockStm = new ABlockStm(new TLBrace("{"), outerBlock); PStm pStm = Util.GetAncestor <PStm>(node); pBlock = (AABlock)pStm.Parent(); pBlock.GetStatements().Insert(pBlock.GetStatements().IndexOf(pStm), outerBlockStm); if (node.Parent() == pStm && pStm is AExpStm) { pBlock.RemoveChild(pStm); } else { PLvalue lvalue = new ALocalLvalue(new TIdentifier(methodReturnerVar.GetName().Text)); finalTrans.data.LvalueTypes[lvalue] = methodReturnerVar.GetType(); finalTrans.data.LocalLinks[(ALocalLvalue)lvalue] = methodReturnerVar; exp = new ALvalueExp(lvalue); finalTrans.data.ExpTypes[exp] = methodReturnerVar.GetType(); node.ReplaceBy(exp); } return(new List <AABlock>() { outerBlock }); }
private static void MakeCloneRefferences(PExp clone, PExp exp, SharedData data) { data.ExpTypes[clone] = data.ExpTypes[exp]; if (exp is AIntConstExp || exp is AHexConstExp || exp is AOctalConstExp || exp is AFixedConstExp || exp is AStringConstExp || exp is ACharConstExp || exp is ABooleanConstExp || exp is ANullExp) { //No more required } else if (exp is AIncDecExp) { AIncDecExp aExp = (AIncDecExp)exp; AIncDecExp aClone = (AIncDecExp)clone; MakeCloneRefferences(aClone.GetLvalue(), aExp.GetLvalue(), data); } else if (exp is ABinopExp) { ABinopExp aExp = (ABinopExp)exp; ABinopExp aClone = (ABinopExp)clone; MakeCloneRefferences(aClone.GetLeft(), aExp.GetLeft(), data); MakeCloneRefferences(aClone.GetRight(), aExp.GetRight(), data); } else if (exp is AUnopExp) { AUnopExp aExp = (AUnopExp)exp; AUnopExp aClone = (AUnopExp)clone; MakeCloneRefferences(aClone.GetExp(), aExp.GetExp(), data); } else if (exp is ASimpleInvokeExp) { ASimpleInvokeExp aExp = (ASimpleInvokeExp)exp; ASimpleInvokeExp aClone = (ASimpleInvokeExp)clone; data.SimpleMethodLinks[aClone] = data.SimpleMethodLinks[aExp]; for (int i = 0; i < aExp.GetArgs().Count; i++) { MakeCloneRefferences((PExp)aClone.GetArgs()[i], (PExp)aExp.GetArgs()[i], data); } } else if (exp is ANonstaticInvokeExp) { ANonstaticInvokeExp aExp = (ANonstaticInvokeExp)exp; ANonstaticInvokeExp aClone = (ANonstaticInvokeExp)clone; data.StructMethodLinks[aClone] = data.StructMethodLinks[aExp]; for (int i = 0; i < aExp.GetArgs().Count; i++) { MakeCloneRefferences((PExp)aClone.GetArgs()[i], (PExp)aExp.GetArgs()[i], data); } MakeCloneRefferences(aClone.GetReceiver(), aExp.GetReceiver(), data); } else if (exp is ALvalueExp) { ALvalueExp aExp = (ALvalueExp)exp; ALvalueExp aClone = (ALvalueExp)clone; MakeCloneRefferences(aClone.GetLvalue(), aExp.GetLvalue(), data); } else if (exp is AAssignmentExp) { AAssignmentExp aExp = (AAssignmentExp)exp; AAssignmentExp aClone = (AAssignmentExp)clone; MakeCloneRefferences(aClone.GetLvalue(), aExp.GetLvalue(), data); MakeCloneRefferences(aClone.GetExp(), aExp.GetExp(), data); } else if (exp is AParenExp) { AParenExp aExp = (AParenExp)exp; AParenExp aClone = (AParenExp)clone; MakeCloneRefferences(aClone.GetExp(), aExp.GetExp(), data); } else if (exp is AStringConstExp) { AStringConstExp aExp = (AStringConstExp)exp; AStringConstExp aClone = (AStringConstExp)clone; if (data.ObfuscatedStrings.ContainsKey(aExp)) { data.ObfuscatedStrings[aClone] = data.ObfuscatedStrings[aExp]; } if (data.StringsDontJoinRight.Contains(aExp)) { data.StringsDontJoinRight.Add(aClone); } } else if (exp is ANewExp) { ANewExp aExp = (ANewExp)exp; ANewExp aClone = (ANewExp)clone; if (data.ConstructorLinks.ContainsKey(aExp)) { data.ConstructorLinks[aClone] = data.ConstructorLinks[aExp]; } MakeCloneRefferences(aClone.GetType(), aExp.GetType(), data); for (int i = 0; i < aExp.GetArgs().Count; i++) { MakeCloneRefferences((PExp)aClone.GetArgs()[i], (PExp)aExp.GetArgs()[i], data); } } else if (exp is ACastExp) { ACastExp aExp = (ACastExp)exp; ACastExp aClone = (ACastExp)clone; MakeCloneRefferences(aClone.GetType(), aExp.GetType(), data); MakeCloneRefferences(aClone.GetExp(), aExp.GetExp(), data); } else if (exp is ADelegateExp) { ADelegateExp aExp = (ADelegateExp)exp; ADelegateExp aClone = (ADelegateExp)clone; if (data.DelegateCreationMethod.ContainsKey(aExp)) { data.DelegateCreationMethod[aClone] = data.DelegateCreationMethod[aExp]; } MakeCloneRefferences(aClone.GetType(), aExp.GetType(), data); MakeCloneRefferences(aClone.GetLvalue(), aExp.GetLvalue(), data); } else if (exp is ADelegateInvokeExp) { ADelegateInvokeExp aExp = (ADelegateInvokeExp)exp; ADelegateInvokeExp aClone = (ADelegateInvokeExp)clone; MakeCloneRefferences(aClone.GetReceiver(), aExp.GetReceiver(), data); for (int i = 0; i < aExp.GetArgs().Count; i++) { MakeCloneRefferences((PExp)aClone.GetArgs()[i], (PExp)aExp.GetArgs()[i], data); } } else if (exp is AIfExp) { AIfExp aExp = (AIfExp)exp; AIfExp aClone = (AIfExp)clone; MakeCloneRefferences(aClone.GetCond(), aExp.GetCond(), data); MakeCloneRefferences(aClone.GetThen(), aExp.GetThen(), data); MakeCloneRefferences(aClone.GetElse(), aExp.GetElse(), data); } else { throw new Exception("Unexpect exp. Got " + exp.GetType()); } }
private void MakeInitializerInvokes() { AABlock block = (AABlock)mainEntry.GetBlock(); AASourceFile file = Util.GetAncestor <AASourceFile>(mainEntry); AMethodDecl invokeMethod; /* Add * void Invoke(string methodName) * { * trigger initTrigger = TriggerCreate(methodName); * TriggerExecute(initTrigger, false, true); * TriggerDestroy(initTrigger); * } */ { //void Invoke(string methodName) AALocalDecl parameter = new AALocalDecl(new APublicVisibilityModifier(), null, null, null, null, new ANamedType(new TIdentifier("string"), null), new TIdentifier("methodName"), null); AABlock methodBody = new AABlock(); invokeMethod = new AMethodDecl(new APublicVisibilityModifier(), null, null, null, null, null, new AVoidType(new TVoid("void")), new TIdentifier("Invoke"), new ArrayList() { parameter }, methodBody); //trigger initTrigger = TriggerCreate(methodName); ALocalLvalue parameterLvalue = new ALocalLvalue(new TIdentifier("methodName")); data.LocalLinks[parameterLvalue] = parameter; ALvalueExp parameterLvalueExp = new ALvalueExp(parameterLvalue); data.LvalueTypes[parameterLvalue] = data.ExpTypes[parameterLvalueExp] = parameter.GetType(); ASimpleInvokeExp invoke = new ASimpleInvokeExp(new TIdentifier("TriggerCreate"), new ArrayList() { parameterLvalueExp }); data.ExpTypes[invoke] = new ANamedType(new TIdentifier("trigger"), null); foreach (AMethodDecl methodDecl in data.Libraries.Methods) { if (methodDecl.GetName().Text == "TriggerCreate") { data.SimpleMethodLinks[invoke] = methodDecl; break; } } AALocalDecl initTriggerDecl = new AALocalDecl(new APublicVisibilityModifier(), null, null, null, null, new ANamedType(new TIdentifier("trigger"), null), new TIdentifier("initTrigger"), invoke); methodBody.GetStatements().Add(new ALocalDeclStm(new TSemicolon(";"), initTriggerDecl)); //TriggerExecute(initTrigger, false, true); ALocalLvalue initTriggerLvalue = new ALocalLvalue(new TIdentifier("initTrigger")); data.LocalLinks[initTriggerLvalue] = initTriggerDecl; ALvalueExp initTriggerLvalueExp = new ALvalueExp(initTriggerLvalue); data.LvalueTypes[initTriggerLvalue] = data.ExpTypes[initTriggerLvalueExp] = initTriggerDecl.GetType(); ABooleanConstExp falseBool = new ABooleanConstExp(new AFalseBool()); ABooleanConstExp trueBool = new ABooleanConstExp(new ATrueBool()); data.ExpTypes[falseBool] = data.ExpTypes[trueBool] = new ANamedType(new TIdentifier("bool"), null); invoke = new ASimpleInvokeExp(new TIdentifier("TriggerExecute"), new ArrayList() { initTriggerLvalueExp, falseBool, trueBool }); data.ExpTypes[invoke] = new AVoidType(new TVoid("void")); foreach (AMethodDecl methodDecl in data.Libraries.Methods) { if (methodDecl.GetName().Text == "TriggerExecute") { data.SimpleMethodLinks[invoke] = methodDecl; break; } } methodBody.GetStatements().Add(new AExpStm(new TSemicolon(";"), invoke)); //TriggerDestroy(initTrigger); initTriggerLvalue = new ALocalLvalue(new TIdentifier("initTrigger")); data.LocalLinks[initTriggerLvalue] = initTriggerDecl; initTriggerLvalueExp = new ALvalueExp(initTriggerLvalue); data.LvalueTypes[initTriggerLvalue] = data.ExpTypes[initTriggerLvalueExp] = initTriggerDecl.GetType(); invoke = new ASimpleInvokeExp(new TIdentifier("TriggerDestroy"), new ArrayList() { initTriggerLvalueExp }); data.ExpTypes[invoke] = new AVoidType(new TVoid("void")); foreach (AMethodDecl methodDecl in data.Libraries.Methods) { if (methodDecl.GetName().Text == "TriggerDestroy") { data.SimpleMethodLinks[invoke] = methodDecl; break; } } methodBody.GetStatements().Add(new AExpStm(new TSemicolon(";"), invoke)); file.GetDecl().Add(invokeMethod); } for (int i = data.InitializerMethods.Count - 1; i >= 0; i--) { AMethodDecl method = data.InitializerMethods[i]; //Turn method into a trigger method.SetReturnType(new ANamedType(new TIdentifier("bool"), null)); method.GetFormals().Add(new AALocalDecl(new APublicVisibilityModifier(), null, null, null, null, new ANamedType(new TIdentifier("bool"), null), new TIdentifier("testConds"), null)); method.GetFormals().Add(new AALocalDecl(new APublicVisibilityModifier(), null, null, null, null, new ANamedType(new TIdentifier("bool"), null), new TIdentifier("runActions"), null)); method.SetTrigger(new TTrigger("trigger")); ((AABlock)method.GetBlock()).GetStatements().Add(new AVoidReturnStm(new TReturn("return"))); TriggerConvertReturn returnConverter = new TriggerConvertReturn(data); method.Apply(returnConverter); data.TriggerDeclarations[method] = new List <TStringLiteral>(); //Add Invoke(<name>); to main entry TStringLiteral literal = new TStringLiteral(method.GetName().Text); data.TriggerDeclarations[method].Add(literal); AStringConstExp stringConst = new AStringConstExp(literal); data.ExpTypes[stringConst] = new ANamedType(new TIdentifier("string"), null); ASimpleInvokeExp invoke = new ASimpleInvokeExp(new TIdentifier("Invoke"), new ArrayList() { stringConst }); data.SimpleMethodLinks[invoke] = invokeMethod; data.ExpTypes[invoke] = invokeMethod.GetReturnType(); block.GetStatements().Insert(0, new AExpStm(new TSemicolon(";"), invoke)); //ASyncInvokeExp syncInvokeExp = new ASyncInvokeExp(new TSyncInvoke("Invoke"), new AAmbiguousNameLvalue(new ASimpleName(new TIdentifier(method.GetName().Text))), new ArrayList()); //data.Invokes.Add(method, new List<InvokeStm>(){new InvokeStm(syncInvokeExp)}); //data.ExpTypes[syncInvokeExp] = new AVoidType(new TVoid("void")); //block.GetStatements().Insert(0, new AExpStm(new TSemicolon(";"), syncInvokeExp)); } for (int i = data.InvokeOnIniti.Count - 1; i >= 0; i--) { AMethodDecl method = data.InvokeOnIniti[i]; //Turn method into a trigger method.SetReturnType(new ANamedType(new TIdentifier("bool"), null)); method.GetFormals().Add(new AALocalDecl(new APublicVisibilityModifier(), null, null, null, null, new ANamedType(new TIdentifier("bool"), null), new TIdentifier("testConds"), null)); method.GetFormals().Add(new AALocalDecl(new APublicVisibilityModifier(), null, null, null, null, new ANamedType(new TIdentifier("bool"), null), new TIdentifier("runActions"), null)); method.SetTrigger(new TTrigger("trigger")); ((AABlock)method.GetBlock()).GetStatements().Add(new AVoidReturnStm(new TReturn("return"))); TriggerConvertReturn returnConverter = new TriggerConvertReturn(data); method.Apply(returnConverter); data.TriggerDeclarations[method] = new List <TStringLiteral>(); //Add Invoke(<name>); to main entry TStringLiteral literal = new TStringLiteral(method.GetName().Text); data.TriggerDeclarations[method].Add(literal); AStringConstExp stringConst = new AStringConstExp(literal); data.ExpTypes[stringConst] = new ANamedType(new TIdentifier("string"), null); ASimpleInvokeExp invoke = new ASimpleInvokeExp(new TIdentifier("Invoke"), new ArrayList() { stringConst }); data.SimpleMethodLinks[invoke] = invokeMethod; data.ExpTypes[invoke] = invokeMethod.GetReturnType(); block.GetStatements().Insert(0, new AExpStm(new TSemicolon(";"), invoke)); /* * ASyncInvokeExp syncInvokeExp = new ASyncInvokeExp(new TSyncInvoke("Invoke"), new AAmbiguousNameLvalue(new ASimpleName(new TIdentifier(method.GetName().Text))), new ArrayList()); * data.Invokes.Add(method, new List<InvokeStm>() { new InvokeStm(syncInvokeExp) }); * data.ExpTypes[syncInvokeExp] = new AVoidType(new TVoid("void")); * * block.GetStatements().Insert(0, new AExpStm(new TSemicolon(";"), syncInvokeExp));*/ } for (int i = data.FieldsToInitInMapInit.Count - 1; i >= 0; i--) { AFieldDecl field = data.FieldsToInitInMapInit[i]; if (field.GetInit() == null) { continue; } AFieldLvalue lvalue = new AFieldLvalue(new TIdentifier(field.GetName().Text)); AAssignmentExp assignment = new AAssignmentExp(new TAssign("="), lvalue, field.GetInit()); data.ExpTypes[assignment] = data.LvalueTypes[lvalue] = field.GetType(); data.FieldLinks[lvalue] = field; block.GetStatements().Insert(0, new AExpStm(new TSemicolon(";"), assignment)); } block.RemoveChild(mainEntryFieldInitBlock); block.GetStatements().Insert(0, mainEntryFieldInitBlock); }