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ILSpy/ICSharpCode.Decompiler/CSharp/Transforms/IntroduceExtensionMethods.cs

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// Copyright (c) 2011 AlphaSierraPapa for the SharpDevelop Team
//
// Permission is hereby granted, free of charge, to any person obtaining a copy of this
// software and associated documentation files (the "Software"), to deal in the Software
// without restriction, including without limitation the rights to use, copy, modify, merge,
// publish, distribute, sublicense, and/or sell copies of the Software, and to permit persons
// to whom the Software is furnished to do so, subject to the following conditions:
//
// The above copyright notice and this permission notice shall be included in all copies or
// substantial portions of the Software.
//
// THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR IMPLIED,
// INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY, FITNESS FOR A PARTICULAR
// PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL THE AUTHORS OR COPYRIGHT HOLDERS BE LIABLE
// FOR ANY CLAIM, DAMAGES OR OTHER LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR
// OTHERWISE, ARISING FROM, OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER
// DEALINGS IN THE SOFTWARE.
using System.Collections.Generic;
using System.Diagnostics;
using System.Linq;
using ICSharpCode.Decompiler.CSharp.Resolver;
using ICSharpCode.Decompiler.CSharp.Syntax;
using ICSharpCode.Decompiler.CSharp.TypeSystem;
using ICSharpCode.Decompiler.Semantics;
using ICSharpCode.Decompiler.TypeSystem;
using ICSharpCode.Decompiler.Util;
namespace ICSharpCode.Decompiler.CSharp.Transforms
{
/// <summary>
/// Converts extension method calls into infix syntax.
/// </summary>
public class IntroduceExtensionMethods : DepthFirstAstVisitor, IAstTransform
{
TransformContext context;
CSharpResolver resolver;
CSharpConversions conversions;
public void Run(AstNode rootNode, TransformContext context)
{
this.context = context;
this.conversions = CSharpConversions.Get(context.TypeSystem);
InitializeContext(rootNode.Annotation<UsingScope>());
rootNode.AcceptVisitor(this);
}
Stack<CSharpTypeResolveContext> resolveContextStack = new Stack<CSharpTypeResolveContext>();
void InitializeContext(UsingScope usingScope)
{
this.resolveContextStack = new Stack<CSharpTypeResolveContext>();
if (!string.IsNullOrEmpty(context.CurrentTypeDefinition?.Namespace))
{
foreach (string ns in context.CurrentTypeDefinition.Namespace.Split('.'))
{
usingScope = new UsingScope(usingScope, ns);
}
}
var currentContext = new CSharpTypeResolveContext(context.TypeSystem.MainModule, usingScope.Resolve(context.TypeSystem), context.CurrentTypeDefinition);
this.resolveContextStack.Push(currentContext);
this.resolver = new CSharpResolver(currentContext);
}
public override void VisitNamespaceDeclaration(NamespaceDeclaration namespaceDeclaration)
{
var previousContext = resolveContextStack.Peek();
var usingScope = previousContext.CurrentUsingScope.UnresolvedUsingScope;
foreach (string ident in namespaceDeclaration.Identifiers)
{
usingScope = new UsingScope(usingScope, ident);
}
var currentContext = new CSharpTypeResolveContext(previousContext.CurrentModule, usingScope.Resolve(previousContext.Compilation));
resolveContextStack.Push(currentContext);
try
{
this.resolver = new CSharpResolver(currentContext);
base.VisitNamespaceDeclaration(namespaceDeclaration);
}
finally
{
this.resolver = new CSharpResolver(previousContext);
resolveContextStack.Pop();
}
}
public override void VisitTypeDeclaration(TypeDeclaration typeDeclaration)
{
var previousContext = resolveContextStack.Peek();
var currentContext = previousContext.WithCurrentTypeDefinition(typeDeclaration.GetSymbol() as ITypeDefinition);
resolveContextStack.Push(currentContext);
try
{
this.resolver = new CSharpResolver(currentContext);
base.VisitTypeDeclaration(typeDeclaration);
}
finally
{
this.resolver = new CSharpResolver(previousContext);
resolveContextStack.Pop();
}
}
public override void VisitInvocationExpression(InvocationExpression invocationExpression)
{
base.VisitInvocationExpression(invocationExpression);
if (!CanTransformToExtensionMethodCall(resolver, invocationExpression, out var memberRefExpr,
out var target, out var firstArgument))
{
return;
}
var method = (IMethod)invocationExpression.GetSymbol();
if (firstArgument is DirectionExpression dirExpr)
{
if (!context.Settings.RefExtensionMethods || dirExpr.FieldDirection == FieldDirection.Out)
return;
firstArgument = dirExpr.Expression;
target = firstArgument.GetResolveResult();
dirExpr.Detach();
}
else if (firstArgument is NullReferenceExpression)
{
Debug.Assert(context.RequiredNamespacesSuperset.Contains(method.Parameters[0].Type.Namespace));
firstArgument = firstArgument.ReplaceWith(expr => new CastExpression(context.TypeSystemAstBuilder.ConvertType(method.Parameters[0].Type), expr.Detach()));
}
if (invocationExpression.Target is IdentifierExpression identifierExpression)
{
identifierExpression.Detach();
memberRefExpr = new MemberReferenceExpression(firstArgument.Detach(), method.Name, identifierExpression.TypeArguments.Detach());
invocationExpression.Target = memberRefExpr;
}
else
{
memberRefExpr.Target = firstArgument.Detach();
}
if (invocationExpression.GetResolveResult() is CSharpInvocationResolveResult irr)
{
// do not forget to update the CSharpInvocationResolveResult => set IsExtensionMethodInvocation == true
invocationExpression.RemoveAnnotations<CSharpInvocationResolveResult>();
var newResolveResult = new CSharpInvocationResolveResult(
irr.TargetResult, irr.Member, irr.Arguments, irr.OverloadResolutionErrors,
isExtensionMethodInvocation: true, irr.IsExpandedForm, irr.IsDelegateInvocation,
irr.GetArgumentToParameterMap(), irr.InitializerStatements);
invocationExpression.AddAnnotation(newResolveResult);
}
}
static bool CanTransformToExtensionMethodCall(CSharpResolver resolver,
InvocationExpression invocationExpression, out MemberReferenceExpression memberRefExpr,
out ResolveResult target,
out Expression firstArgument)
{
var method = invocationExpression.GetSymbol() as IMethod;
memberRefExpr = null;
target = null;
firstArgument = null;
if (method == null || !method.IsExtensionMethod || !invocationExpression.Arguments.Any())
return false;
IReadOnlyList<IType> typeArguments;
switch (invocationExpression.Target)
{
case MemberReferenceExpression mre:
typeArguments = mre.TypeArguments.Any() ? method.TypeArguments : EmptyList<IType>.Instance;
memberRefExpr = mre;
break;
case IdentifierExpression ide:
typeArguments = ide.TypeArguments.Any() ? method.TypeArguments : EmptyList<IType>.Instance;
memberRefExpr = null;
break;
default:
return false;
}
firstArgument = invocationExpression.Arguments.First();
if (firstArgument is NamedArgumentExpression)
return false;
target = firstArgument.GetResolveResult();
if (target is ConstantResolveResult crr && crr.ConstantValue == null)
{
target = new ConversionResolveResult(method.Parameters[0].Type, crr, Conversion.NullLiteralConversion);
}
else if (firstArgument is DirectionExpression de)
{
target = de.Expression.GetResolveResult();
}
Debug.Assert(target != null);
ResolveResult[] args = new ResolveResult[invocationExpression.Arguments.Count - 1];
string[] argNames = null;
int pos = 0;
foreach (var arg in invocationExpression.Arguments.Skip(1))
{
if (arg is NamedArgumentExpression nae)
{
if (argNames == null)
{
argNames = new string[args.Length];
}
argNames[pos] = nae.Name;
args[pos] = nae.Expression.GetResolveResult();
}
else
{
args[pos] = arg.GetResolveResult();
}
pos++;
}
return CanTransformToExtensionMethodCall(resolver, method, typeArguments, target, args, argNames);
}
public static bool CanTransformToExtensionMethodCall(CSharpTypeResolveContext resolveContext,
InvocationExpression invocationExpression)
{
return CanTransformToExtensionMethodCall(new CSharpResolver(resolveContext),
invocationExpression, out _, out _, out _);
}
public static bool CanTransformToExtensionMethodCall(CSharpResolver resolver, IMethod method,
IReadOnlyList<IType> typeArguments, ResolveResult target, ResolveResult[] arguments, string[] argumentNames)
{
if (target is LambdaResolveResult)
return false;
var rr = resolver.ResolveMemberAccess(target, method.Name, typeArguments, NameLookupMode.InvocationTarget) as MethodGroupResolveResult;
if (rr == null)
return false;
var or = rr.PerformOverloadResolution(resolver.CurrentTypeResolveContext.Compilation, arguments, argumentNames, allowExtensionMethods: true);
if (or == null || or.IsAmbiguous)
return false;
return method.Equals(or.GetBestCandidateWithSubstitutedTypeArguments())
&& CSharpResolver.IsEligibleExtensionMethod(target.Type, method, useTypeInference: false, out _);
}
public static bool CanTransformToExtensionMethodCall(IMethod method, CSharpTypeResolveContext resolveContext, bool ignoreTypeArguments = false, bool ignoreArgumentNames = true)
{
if (method.Parameters.Count == 0)
return false;
var targetType = method.Parameters.Select(p => new ResolveResult(p.Type)).First();
var paramTypes = method.Parameters.Skip(1).Select(p => new ResolveResult(p.Type)).ToArray();
var paramNames = ignoreArgumentNames ? null : method.Parameters.SelectReadOnlyArray(p => p.Name);
var typeArgs = ignoreTypeArguments ? Empty<IType>.Array : method.TypeArguments.ToArray();
var resolver = new CSharpResolver(resolveContext);
return CanTransformToExtensionMethodCall(resolver, method, typeArgs, targetType, paramTypes, argumentNames: paramNames);
}
}
}