bool SimplifyLiftedOperators(List<ILNode> body, ILExpression expr, int pos) { if (!new PatternMatcher(typeSystem).SimplifyLiftedOperators(expr)) return false; var inlining = new ILInlining(method); while (--pos >= 0 && inlining.InlineIfPossible(body, ref pos)) ; return true; }
bool SimplifyLiftedOperators(List <ILNode> body, ILExpression expr, int pos) { if (!new PatternMatcher(typeSystem).SimplifyLiftedOperators(expr)) { return(false); } var inlining = new ILInlining(method); while (--pos >= 0 && inlining.InlineIfPossible(body, ref pos)) { ; } return(true); }
bool MakeAssignmentExpression(List<ILNode> body, ILExpression expr, int pos) { // exprVar = ... // stloc(v, exprVar) // -> // exprVar = stloc(v, ...)) ILVariable exprVar; ILExpression initializer; if (!(expr.Match(ILCode.Stloc, out exprVar, out initializer) && exprVar.IsGenerated)) return false; ILExpression nextExpr = body.ElementAtOrDefault(pos + 1) as ILExpression; ILVariable v; ILExpression stLocArg; if (nextExpr.Match(ILCode.Stloc, out v, out stLocArg) && stLocArg.MatchLdloc(exprVar)) { ILExpression store2 = body.ElementAtOrDefault(pos + 2) as ILExpression; if (StoreCanBeConvertedToAssignment(store2, exprVar)) { // expr_44 = ... // stloc(v1, expr_44) // anystore(v2, expr_44) // -> // stloc(v1, anystore(v2, ...)) ILInlining inlining = new ILInlining(method); if (inlining.numLdloc.GetOrDefault(exprVar) == 2 && inlining.numStloc.GetOrDefault(exprVar) == 1) { body.RemoveAt(pos + 2); // remove store2 body.RemoveAt(pos); // remove expr = ... nextExpr.Arguments[0] = store2; store2.Arguments[store2.Arguments.Count - 1] = initializer; inlining.InlineIfPossible(body, ref pos); return true; } } body.RemoveAt(pos + 1); // remove stloc nextExpr.Arguments[0] = initializer; ((ILExpression)body[pos]).Arguments[0] = nextExpr; return true; } else if ((nextExpr.Code == ILCode.Stsfld || nextExpr.Code == ILCode.CallSetter || nextExpr.Code == ILCode.CallvirtSetter) && nextExpr.Arguments.Count == 1) { // exprVar = ... // stsfld(fld, exprVar) // -> // exprVar = stsfld(fld, ...)) if (nextExpr.Arguments[0].MatchLdloc(exprVar)) { body.RemoveAt(pos + 1); // remove stsfld nextExpr.Arguments[0] = initializer; ((ILExpression)body[pos]).Arguments[0] = nextExpr; return true; } } return false; }
/// <summary> /// Handles both object and collection initializers. /// </summary> bool TransformObjectInitializers(List <ILNode> body, ILExpression expr, int pos) { if (!context.Settings.ObjectOrCollectionInitializers) { return(false); } Debug.Assert(body[pos] == expr); // should be called for top-level expressions only ILVariable v; ILExpression newObjExpr; TypeReference newObjType; bool isValueType; MethodReference ctor; List <ILExpression> ctorArgs; if (expr.Match(ILCode.Stloc, out v, out newObjExpr)) { if (newObjExpr.Match(ILCode.Newobj, out ctor, out ctorArgs)) { // v = newObj(ctor, ctorArgs) newObjType = ctor.DeclaringType; isValueType = false; } else if (newObjExpr.Match(ILCode.DefaultValue, out newObjType)) { // v = defaultvalue(type) isValueType = true; } else { return(false); } } else if (expr.Match(ILCode.Call, out ctor, out ctorArgs)) { // call(SomeStruct::.ctor, ldloca(v), remainingArgs) if (ctorArgs.Count > 0 && ctorArgs[0].Match(ILCode.Ldloca, out v)) { isValueType = true; newObjType = ctor.DeclaringType; ctorArgs = new List <ILExpression>(ctorArgs); ctorArgs.RemoveAt(0); newObjExpr = new ILExpression(ILCode.Newobj, ctor, ctorArgs); } else { return(false); } } else { return(false); } if (newObjType.IsValueType != isValueType) { return(false); } int originalPos = pos; // don't use object initializer syntax for closures if (Ast.Transforms.DelegateConstruction.IsPotentialClosure(context, newObjType.ResolveWithinSameModule())) { return(false); } ILExpression initializer = ParseObjectInitializer(body, ref pos, v, newObjExpr, IsCollectionType(newObjType), isValueType); if (initializer.Arguments.Count == 1) // only newobj argument, no initializer elements { return(false); } int totalElementCount = pos - originalPos - 1; // totalElementCount: includes elements from nested collections Debug.Assert(totalElementCount >= initializer.Arguments.Count - 1); // Verify that we can inline 'v' into the next instruction: if (pos >= body.Count) { return(false); // reached end of block, but there should be another instruction which consumes the initialized object } ILInlining inlining = new ILInlining(method); if (isValueType) { // one ldloc for the use of the initialized object if (inlining.numLdloc.GetOrDefault(v) != 1) { return(false); } // one ldloca for each initializer argument, and also for the ctor call (if it exists) if (inlining.numLdloca.GetOrDefault(v) != totalElementCount + (expr.Code == ILCode.Call ? 1 : 0)) { return(false); } // one stloc for the initial store (if no ctor call was used) if (inlining.numStloc.GetOrDefault(v) != (expr.Code == ILCode.Call ? 0 : 1)) { return(false); } } else { // one ldloc for each initializer argument, and another ldloc for the use of the initialized object if (inlining.numLdloc.GetOrDefault(v) != totalElementCount + 1) { return(false); } if (!(inlining.numStloc.GetOrDefault(v) == 1 && inlining.numLdloca.GetOrDefault(v) == 0)) { return(false); } } ILExpression nextExpr = body[pos] as ILExpression; if (!inlining.CanInlineInto(nextExpr, v, initializer)) { return(false); } if (expr.Code == ILCode.Stloc) { expr.Arguments[0] = initializer; } else { Debug.Assert(expr.Code == ILCode.Call); expr.Code = ILCode.Stloc; expr.Operand = v; expr.Arguments.Clear(); expr.Arguments.Add(initializer); } // remove all the instructions that were pulled into the initializer body.RemoveRange(originalPos + 1, pos - originalPos - 1); // now that we know that it's an object initializer, change all the first arguments to 'InitializedObject' ChangeFirstArgumentToInitializedObject(initializer); inlining = new ILInlining(method); inlining.InlineIfPossible(body, ref originalPos); return(true); }
void CachedDelegateInitializationWithLocal(ILBlock block, ref int i) { // if (logicnot(ldloc(v))) { // stloc(v, newobj(Action::.ctor, ldloc(displayClass), ldftn(method))) // } else { // } // ...(..., ldloc(v), ...) ILCondition c = block.Body[i] as ILCondition; if (c == null || c.Condition == null && c.TrueBlock == null || c.FalseBlock == null) return; if (!(c.TrueBlock.Body.Count == 1 && c.FalseBlock.Body.Count == 0)) return; if (!c.Condition.Match(ILCode.LogicNot)) return; ILExpression condition = c.Condition.Arguments.Single() as ILExpression; if (condition == null || condition.Code != ILCode.Ldloc) return; ILVariable v = (ILVariable)condition.Operand; ILExpression stloc = c.TrueBlock.Body[0] as ILExpression; if (!(stloc != null && stloc.Code == ILCode.Stloc && (ILVariable)stloc.Operand == v)) return; ILExpression newObj = stloc.Arguments[0]; if (!(newObj.Code == ILCode.Newobj && newObj.Arguments.Count == 2)) return; if (newObj.Arguments[0].Code != ILCode.Ldloc) return; if (newObj.Arguments[1].Code != ILCode.Ldftn) return; MethodDefinition anonymousMethod = ((MethodReference)newObj.Arguments[1].Operand).ResolveWithinSameModule(); // method is defined in current assembly if (!Ast.Transforms.DelegateConstruction.IsAnonymousMethod(context, anonymousMethod)) return; ILNode followingNode = block.Body.ElementAtOrDefault(i + 1); if (followingNode != null && followingNode.GetSelfAndChildrenRecursive<ILExpression>().Count( e => e.Code == ILCode.Ldloc && (ILVariable)e.Operand == v) == 1) { ILInlining inlining = new ILInlining(method); if (!(inlining.numLdloc.GetOrDefault(v) == 2 && inlining.numStloc.GetOrDefault(v) == 2 && inlining.numLdloca.GetOrDefault(v) == 0)) return; // Find the store instruction that initializes the local to null: foreach (ILBlock storeBlock in method.GetSelfAndChildrenRecursive<ILBlock>()) { for (int j = 0; j < storeBlock.Body.Count; j++) { ILVariable storedVar; ILExpression storedExpr; if (storeBlock.Body[j].Match(ILCode.Stloc, out storedVar, out storedExpr) && storedVar == v && storedExpr.Match(ILCode.Ldnull)) { // Remove the instruction storeBlock.Body.RemoveAt(j); if (storeBlock == block && j < i) i--; break; } } } block.Body[i] = stloc; // remove the 'if (v==null)' inlining = new ILInlining(method); inlining.InlineIfPossible(block.Body, ref i); } }