// 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;
using System.Collections.Generic;
using System.Linq;
using ICSharpCode.Decompiler.CSharp;
using ICSharpCode.Decompiler.CSharp.OutputVisitor;
using ICSharpCode.Decompiler.CSharp.Resolver;
using ICSharpCode.Decompiler.CSharp.Syntax;
using ICSharpCode.Decompiler.IL;
using ICSharpCode.Decompiler.Semantics;
using ICSharpCode.Decompiler.TypeSystem;
using ICSharpCode.Decompiler.TypeSystem.Implementation;
namespace ICSharpCode.Decompiler
{
public class TextTokenWriter : TokenWriter
{
readonly ITextOutput output;
readonly DecompilerSettings settings;
readonly IDecompilerTypeSystem typeSystem;
readonly Stack<AstNode> nodeStack = new Stack<AstNode>();
int braceLevelWithinType = -1;
bool inDocumentationComment = false;
bool firstUsingDeclaration;
bool lastUsingDeclaration;
public TextTokenWriter(ITextOutput output, DecompilerSettings settings, IDecompilerTypeSystem typeSystem)
{
if (output == null)
throw new ArgumentNullException(nameof(output));
if (settings == null)
throw new ArgumentNullException(nameof(settings));
if (typeSystem == null)
throw new ArgumentNullException(nameof(typeSystem));
this.output = output;
this.settings = settings;
this.typeSystem = typeSystem;
}
public override void WriteIdentifier(Identifier identifier)
{
if (identifier.IsVerbatim || CSharpOutputVisitor.IsKeyword(identifier.Name, identifier))
{
output.Write('@');
}
var definition = GetCurrentDefinition();
string name = TextWriterTokenWriter.EscapeIdentifier(identifier.Name);
switch (definition)
{
case IType t:
output.WriteReference(t, name, true);
return;
case IMember m:
output.WriteReference(m, name, true);
return;
}
var member = GetCurrentMemberReference();
switch (member)
{
case IType t:
output.WriteReference(t, name, false);
return;
case IMember m:
output.WriteReference(m, name, false);
return;
}
var localDefinition = GetCurrentLocalDefinition(identifier);
if (localDefinition != null)
{
output.WriteLocalReference(name, localDefinition, isDefinition: true);
return;
}
var localRef = GetCurrentLocalReference();
if (localRef != null)
{
output.WriteLocalReference(name, localRef);
return;
}
if (firstUsingDeclaration && !lastUsingDeclaration)
{
output.MarkFoldStart(defaultCollapsed: !settings.ExpandUsingDeclarations);
firstUsingDeclaration = false;
}
output.Write(name);
}
ISymbol GetCurrentMemberReference()
{
AstNode node = nodeStack.Peek();
var symbol = node.GetSymbol();
if (symbol == null && node.Role == Roles.TargetExpression && node.Parent is InvocationExpression)
{
symbol = node.Parent.GetSymbol();
}
if (symbol != null && node.Role == Roles.Type && node.Parent is ObjectCreateExpression)
{
symbol = node.Parent.GetSymbol();
}
if (node is IdentifierExpression && node.Role == Roles.TargetExpression && node.Parent is InvocationExpression && symbol is IMember member)
{
var declaringType = member.DeclaringType;
if (declaringType != null && declaringType.Kind == TypeKind.Delegate)
return null;
}
return FilterMember(symbol);
}
ISymbol FilterMember(ISymbol symbol)
{
if (symbol == null)
return null;
if (symbol is LocalFunctionMethod)
return null;
return symbol;
}
object GetCurrentLocalReference()
{
AstNode node = nodeStack.Peek();
ILVariable variable = node.Annotation<ILVariableResolveResult>()?.Variable;
if (variable != null)
return variable;
var letClauseVariable = node.Annotation<CSharp.Transforms.LetIdentifierAnnotation>();
if (letClauseVariable != null)
return letClauseVariable;
if (node is GotoStatement gotoStatement)
{
var method = nodeStack.Select(nd => nd.GetSymbol() as IMethod).FirstOrDefault(mr => mr != null);
if (method != null)
return method + gotoStatement.Label;
}
if (node.Role == Roles.TargetExpression && node.Parent is InvocationExpression)
{
var symbol = node.Parent.GetSymbol();
if (symbol is LocalFunctionMethod)
return symbol;
}
return null;
}
object GetCurrentLocalDefinition(Identifier id)
{
AstNode node = nodeStack.Peek();
if (node is Identifier && node.Parent != null)
node = node.Parent;
if (node is ParameterDeclaration || node is VariableInitializer || node is CatchClause || node is VariableDesignation)
{
var variable = node.Annotation<ILVariableResolveResult>()?.Variable;
if (variable != null)
return variable;
}
if (id.Role == QueryJoinClause.IntoIdentifierRole || id.Role == QueryJoinClause.JoinIdentifierRole)
{
var variable = id.Annotation<ILVariableResolveResult>()?.Variable;
if (variable != null)
return variable;
}
if (node is QueryLetClause)
{
var variable = node.Annotation<CSharp.Transforms.LetIdentifierAnnotation>();
if (variable != null)
return variable;
}
if (node is LabelStatement label)
{
var method = nodeStack.Select(nd => nd.GetSymbol() as IMethod).FirstOrDefault(mr => mr != null);
if (method != null)
return method + label.Label;
}
if (node is MethodDeclaration && node.Parent is LocalFunctionDeclarationStatement)
{
var localFunction = node.Parent.GetResolveResult() as MemberResolveResult;
if (localFunction != null)
return localFunction.Member;
}
return null;
}
ISymbol GetCurrentDefinition()
{
if (nodeStack == null || nodeStack.Count == 0)
return null;
var node = nodeStack.Peek();
if (node is Identifier)
node = node.Parent;
if (IsDefinition(ref node))
return node.GetSymbol();
return null;
}
public override void WriteKeyword(Role role, string keyword)
{
//To make reference for 'this' and 'base' keywords in the ClassName():this() expression
if (role == ConstructorInitializer.ThisKeywordRole || role == ConstructorInitializer.BaseKeywordRole)
{
if (nodeStack.Peek() is ConstructorInitializer initializer && initializer.GetSymbol() is IMember member)
{
output.WriteReference(member, keyword);
return;
}
}
output.Write(keyword);
}
public override void WriteToken(Role role, string token)
{
switch (token)
{
case "{":
if (role != Roles.LBrace)
{
output.Write("{");
break;
}
if (braceLevelWithinType >= 0 || nodeStack.Peek() is TypeDeclaration)
braceLevelWithinType++;
if (nodeStack.OfType<BlockStatement>().Count() <= 1 || settings.FoldBraces)
{
output.MarkFoldStart(defaultCollapsed: !settings.ExpandMemberDefinitions && braceLevelWithinType == 1, isDefinition: braceLevelWithinType == 1);
}
output.Write("{");
break;
case "}":
output.Write('}');
if (role != Roles.RBrace)
break;
if (nodeStack.OfType<BlockStatement>().Count() <= 1 || settings.FoldBraces)
output.MarkFoldEnd();
if (braceLevelWithinType >= 0)
braceLevelWithinType--;
break;
default:
// Attach member reference to token only if there's no identifier in the current node.
var member = GetCurrentMemberReference();
var node = nodeStack.Peek();
if (member != null && node.GetChildByRole(Roles.Identifier).IsNull)
{
switch (member)
{
case IType t:
output.WriteReference(t, token, false);
return;
case IMember m:
output.WriteReference(m, token, false);
return;
}
}
else
output.Write(token);
break;
}
}
public override void Space()
{
output.Write(' ');
}
public override void Indent()
{
output.Indent();
}
public override void Unindent()
{
output.Unindent();
}
public override void NewLine()
{
if (!firstUsingDeclaration && lastUsingDeclaration)
{
output.MarkFoldEnd();
lastUsingDeclaration = false;
}
output.WriteLine();
}
public override void WriteComment(CommentType commentType, string content)
{
switch (commentType)
{
case CommentType.SingleLine:
output.Write("//");
output.WriteLine(content);
break;
case CommentType.MultiLine:
output.Write("/*");
output.Write(content);
output.Write("*/");
break;
case CommentType.Documentation:
bool isLastLine = !(nodeStack.Peek().NextSibling is Comment);
if (!inDocumentationComment && !isLastLine)
{
inDocumentationComment = true;
output.MarkFoldStart("///" + content, true);
}
output.Write("///");
output.Write(content);
if (inDocumentationComment && isLastLine)
{
inDocumentationComment = false;
output.MarkFoldEnd();
}
output.WriteLine();
break;
default:
output.Write(content);
break;
}
}
public override void WritePreProcessorDirective(PreProcessorDirectiveType type, string argument)
{
// pre-processor directive must start on its own line
output.Write('#');
output.Write(type.ToString().ToLowerInvariant());
if (!string.IsNullOrEmpty(argument))
{
output.Write(' ');
output.Write(argument);
}
output.WriteLine();
}
public override void WritePrimitiveValue(object value, LiteralFormat format = LiteralFormat.None)
{
new TextWriterTokenWriter(new TextOutputWriter(output)).WritePrimitiveValue(value, format);
}
public override void WriteInterpolatedText(string text)
{
output.Write(TextWriterTokenWriter.ConvertString(text));
}
public override void WritePrimitiveType(string type)
{
switch (type)
{
case "new":
output.Write(type);
output.Write("()");
break;
case "bool":
case "byte":
case "sbyte":
case "short":
case "ushort":
case "int":
case "uint":
case "long":
case "ulong":
case "float":
case "double":
case "decimal":
case "char":
case "string":
case "object":
var node = nodeStack.Peek();
ISymbol symbol;
if (node.Role == Roles.Type && node.Parent is ObjectCreateExpression)
{
symbol = node.Parent.GetSymbol();
}
else
{
symbol = nodeStack.Peek().GetSymbol();
}
if (symbol == null)
goto default;
switch (symbol)
{
case IType t:
output.WriteReference(t, type, false);
return;
case IMember m:
output.WriteReference(m, type, false);
return;
}
break;
default:
output.Write(type);
break;
}
}
public override void StartNode(AstNode node)
{
if (nodeStack.Count == 0)
{
if (IsUsingDeclaration(node))
{
firstUsingDeclaration = !IsUsingDeclaration(node.PrevSibling);
lastUsingDeclaration = !IsUsingDeclaration(node.NextSibling);
}
else
{
firstUsingDeclaration = false;
lastUsingDeclaration = false;
}
}
nodeStack.Push(node);
}
private bool IsUsingDeclaration(AstNode node)
{
return node is UsingDeclaration || node is UsingAliasDeclaration;
}
public override void EndNode(AstNode node)
{
if (nodeStack.Pop() != node)
throw new InvalidOperationException();
}
public static bool IsDefinition(ref AstNode node)
{
if (node is EntityDeclaration && !(node.Parent is LocalFunctionDeclarationStatement))
return true;
if (node is VariableInitializer && node.Parent is FieldDeclaration or EventDeclaration)
{
node = node.Parent;
return true;
}
if (node is FixedVariableInitializer && node.Parent is FixedFieldDeclaration)
{
node = node.Parent;
return true;
}
return false;
}
}
}