protected override string GenerateCode(ITypeDefinition currentClass)
{
// string[] fields = listBox.SelectedItems.OfType<PropertyOrFieldWrapper>().Select(f2 => f2.MemberName).ToArray();
string[] fields = parameterList.Where(f => f.IsIncluded).Select(f2 => f2.MemberName).ToArray();
PrimitiveExpression formatString = new PrimitiveExpression(GenerateFormatString(currentClass, editor.Language.CodeGenerator, fields));
List<Expression> param = new List<Expression>() { formatString };
ReturnStatement ret = new ReturnStatement(new InvocationExpression(
new MemberReferenceExpression(new TypeReferenceExpression(ConvertType(KnownTypeCode.String)), "Format"),
param.Concat(fields.Select(f => new IdentifierExpression(f))).ToList()
));
if (baseCallNode != null) {
MethodDeclaration insertedOverrideMethod = refactoringContext.GetNode().PrevSibling as MethodDeclaration;
if (insertedOverrideMethod == null) {
// We are not inside of a method declaration
return null;
}
using (Script script = refactoringContext.StartScript()) {
NewLineNode nextNewLineNode = insertedOverrideMethod.NextSibling as NewLineNode;
// Find base method call and replace it by return statement
script.AddTo(insertedOverrideMethod.Body, ret);
AppendNewLine(script, insertedOverrideMethod, nextNewLineNode);
}
}
return null;
}
public void InsertAfterStatementIndentsLikeStatement()
{
var input =@"
public class Test
{
void DoublyIndented()
{
System.Console.WriteLine(""hello"");
}
}";
var expected = @"
public class Test
{
void DoublyIndented()
{
System.Console.WriteLine(""hello"");
return;
}
}";
DoInsertAfterTest(input, expected, (syntaxTree, script) =>
{
var nodeToInsert = new ReturnStatement();
var nodeToInsertAfter = syntaxTree.DescendantsAndSelf.OfType<ExpressionStatement>().Single();
script.InsertAfter(nodeToInsertAfter,nodeToInsert);
});
}
public void ReturnStatementProducesReturnWithValue()
{
var statement = new ReturnStatement(3);
Assert.AreEqual(3, statement.Value);
Assert.AreEqual("return 3;", statement.ToString());
statement.Value = "Yes!";
Assert.AreEqual("return \"Yes!\";", statement.ToString());
}
/**
* Call back method that must be called as soon as the given <code>
* ReturnStatement</code> object has been traversed.
*
* @param pReturnStatement The <code>ReturnStatement</code> object that has
* just been traversed.
*/
public void actionPerformed(
ReturnStatement pReturnStatement)
{
// Nothing to do.
}
public virtual void Visit(ReturnStatement expression)
{
logVisit(expression);
}
public override object Visit (Return returnStatement)
{
var result = new ReturnStatement ();
result.AddChild (new CSharpTokenNode (Convert (returnStatement.loc), "return".Length), ReturnStatement.Roles.Keyword);
if (returnStatement.Expr != null)
result.AddChild ((INode)returnStatement.Expr.Accept (this), ReturnStatement.Roles.Expression);
var location = LocationsBag.GetLocations (returnStatement);
if (location != null)
result.AddChild (new CSharpTokenNode (Convert (location[0]), 1), ReturnStatement.Roles.Semicolon);
return result;
}
public virtual void VisitReturnStatement(ReturnStatement statement)
{
VisitAbstractStatement(statement);
}
// ReturnStatement
protected internal virtual bool Walk(ReturnStatement node) { return true; }
public override bool Walk(ReturnStatement node)
{
node.Parent = _currentScope;
FunctionDefinition funcDef = _currentScope as FunctionDefinition;
if (funcDef != null) {
funcDef._hasReturn = true;
}
return base.Walk(node);
}
public virtual bool Enter(ReturnStatement node)
{
return true;
}
// ReturnStatement
public override bool Walk(ReturnStatement node)
{
return(false);
}
public void Visit(ReturnStatement node)
{
// not applicable; terminate
}
public override bool Walk(ReturnStatement node)
{
CanComplete = IsActualExpression(node.Expression);
CommitByDefault = true;
return(base.Walk(node));
}
public void AcceptReturn(ReturnStatement stmt)
{
IsEmpty = false;
}
private List <Inferred> InferReturnStatement(ReturnStatement node, Scope scope)
{
Debug.Print("Not implemented: InferReturnStatementIn");
return(null);
}
protected internal override bool DoMatch(AstNode other, PatternMatching.Match match)
{
ReturnStatement o = other as ReturnStatement;
return(o != null && this.Expression.DoMatch(o.Expression, match));
}
public override void Visit(ReturnStatement node)
{
}
public virtual void VisitReturnStatement(ReturnStatement returnStatement)
{
if (this.ThrowException)
{
throw (Exception)this.CreateException(returnStatement);
}
}
public override void VisitReturnStatement(ReturnStatement returnStatement)
{
if (!returnStatement.Expression.IsNull) {
AddIssue(
returnStatement,
string.Format (ctx.TranslateString("`{0}': A return keyword must not be followed by any expression when method returns void"), currentMethodName),
new CodeAction (
ctx.TranslateString("Remove returned expression"),
script => {
script.Remove(returnStatement.Expression);
}
)
);
}
}
// ReturnStatement
public virtual bool Walk(ReturnStatement node)
{
return(true);
}
public override StringBuilder VisitReturnStatement(ReturnStatement returnStatement, int data)
{
var result = new StringBuilder();
result.Append("return");
var exp = returnStatement.Expression.AcceptVisitor(this, data);
if (exp.Length > 0)
result.Append(" ").Append(exp);
result.Append(";");
return result;
}
public virtual void PostWalk(ReturnStatement node)
{
}
public override void Exit(ReturnStatement node)
{
level--;
}
public void EmptyReturnStatementTest()
{
ReturnStatement returnStatement = ParseUtilCSharp.ParseStatement <ReturnStatement>("return;");
Assert.IsTrue(returnStatement.Expression.IsNull);
}
// IMPORTANT NOTE:
// The grammar consists of a few LALR(1) conflicts. These issues are, however, correctly handled, due to the fact that the grammar
// is defined in a specific order making the already added parser actions have precedence over the other.
//
// Known conflicts that are correctly handled:
//
// - ELSE: Shift/Reduce conflict Dangling ELSE problem. Lots of articles are around on the internet.
// The shift action is taken here.
//
// - CLOSE_PARENS: Shift/Reduce conflict. This is due to the fact that the explicit cast expression is like the parenthesized
// expression. The shift action is taken here.
//
// - STAR: Reduce/Reduce conflict, between VariableType -> TypeNameExpression and PrimaryExpression -> TypeNameExpression,
// due to the fact variable types can have '*', and look therefore like a binary operator expression.
// The first reduce action is taken here.
public CSharpGrammar()
{
// Please let me know if there is a better way of tidying this :s
TokenMapping.Add((int)ERROR, Error);
#region Definitions to use later
var statementList = new GrammarDefinition("StatementList");
var statementListOptional = new GrammarDefinition("StatementListOptional",
rule: null
| statementList);
var blockStatement = new GrammarDefinition("BlockStatement");
var variableDeclarator = new GrammarDefinition("VariableDeclarator");
var variableDeclaratorList = new GrammarDefinition("VariableDeclaratorList");
variableDeclaratorList.Rule = variableDeclarator
| variableDeclaratorList
+ ToElement(COMMA)
+ variableDeclarator;
var variableDeclaration = new GrammarDefinition("VariableDeclaration");
var variableInitializer = new GrammarDefinition("VariableInitializer");
var arrayInitializer = new GrammarDefinition("ArrayInitializer");
var arrayInitializerOptional = new GrammarDefinition("ArrayInitializerOptional",
rule: null | arrayInitializer);
var identifierInsideBody = new GrammarDefinition("IdentifierInsideBody",
rule: ToElement(IDENTIFIER),
createNode: node => ToIdentifier(node.Children[0].Result));
var identifierInsideBodyOptional = new GrammarDefinition("IdentifierInsideBodyOptional",
rule: null | identifierInsideBody);
variableDeclarator.Rule = identifierInsideBody
| identifierInsideBody
+ ToElement(EQUALS)
+ variableInitializer;
variableDeclarator.ComputeResult = node =>
{
var result = new VariableDeclarator((Identifier) node.Children[0].Result);
if (node.Children.Count > 1)
{
result.OperatorToken = (AstToken) node.Children[1].Result;
result.Value = (Expression) node.Children[2].Result;
}
return result;
};
var typeReference = new GrammarDefinition("TypeReference");
var identifierExpression = new GrammarDefinition("IdentifierExpression",
rule: identifierInsideBody,
createNode: node => new IdentifierExpression((Identifier) node.Children[0].Result));
var usingDirectiveListOptional = new GrammarDefinition("UsingDirectiveListOptional");
#endregion
#region Type References
var namespaceOrTypeExpression = new GrammarDefinition("NamespaceOrTypeExpression");
namespaceOrTypeExpression.Rule = identifierExpression |
namespaceOrTypeExpression
+ ToElement(DOT)
+ ToElement(IDENTIFIER);
namespaceOrTypeExpression.ComputeResult = node =>
{
if (node.Children.Count == 1)
return ToTypeReference((IConvertibleToType) node.Children[0].Result);
var result = new MemberTypeReference();
result.Target = (TypeReference) node.Children[0].Result;
result.AddChild(AstNodeTitles.Accessor, node.Children[1].Result);
result.Identifier = ToIdentifier(node.Children[2].Result);
return result;
};
ComputeResultDelegate createPrimitiveTypeExpression = node =>
{
if (node.Children[0].Result is PrimitiveTypeReference)
return node.Children[0].Result;
return new PrimitiveTypeReference
{
Identifier = ToIdentifier(node.Children[0].Result),
PrimitiveType = CSharpLanguage.PrimitiveTypeFromString(((AstToken) node.Children[0].Result).Value)
};
};
var integralType = new GrammarDefinition("IntegralType",
rule: ToElement(SBYTE)
| ToElement(BYTE)
| ToElement(SHORT)
| ToElement(USHORT)
| ToElement(INT)
| ToElement(UINT)
| ToElement(LONG)
| ToElement(ULONG)
| ToElement(CHAR),
createNode: createPrimitiveTypeExpression);
var primitiveType = new GrammarDefinition("PrimitiveTypeExpression",
rule: ToElement(OBJECT)
| ToElement(STRING)
| ToElement(BOOL)
| ToElement(DECIMAL)
| ToElement(FLOAT)
| ToElement(DOUBLE)
| ToElement(VOID)
| integralType,
createNode: createPrimitiveTypeExpression);
var dimensionSeparators = new GrammarDefinition("DimensionSeparators");
dimensionSeparators.Rule = ToElement(COMMA)
| dimensionSeparators + ToElement(COMMA);
var rankSpecifier = new GrammarDefinition("RankSpecifier",
rule: ToElement(OPEN_BRACKET) + ToElement(CLOSE_BRACKET)
| ToElement(OPEN_BRACKET) + dimensionSeparators
+ ToElement(CLOSE_BRACKET),
createNode: node =>
{
var result = new ArrayTypeRankSpecifier();
result.LeftBracket = (AstToken) node.Children[0].Result;
if (node.Children.Count == 3)
{
foreach (var dimensionSeparator in node.Children[1].GetAllNodesFromListDefinition()
.Select(x => x.Result))
{
result.Dimensions++;
result.AddChild(AstNodeTitles.ElementSeparator, dimensionSeparator);
}
}
result.RightBracket = (AstToken) node.Children[node.Children.Count - 1].Result;
return result;
});
var arrayType = new GrammarDefinition("ArrayType",
rule: typeReference
+ rankSpecifier,
createNode: node => new ArrayTypeReference()
{
BaseType = (TypeReference) node.Children[0].Result,
RankSpecifier = (ArrayTypeRankSpecifier) node.Children[1].Result
});
var pointerType = new GrammarDefinition("PointerType",
rule: typeReference
+ ToElement(STAR),
createNode: node => new PointerTypeReference()
{
BaseType = (TypeReference) node.Children[0].Result,
PointerToken = (AstToken) node.Children[1].Result
});
var typeExpression = new GrammarDefinition("TypeExpression",
rule: namespaceOrTypeExpression
| primitiveType);
typeReference.Rule = typeExpression
| arrayType
| pointerType
;
#endregion
#region Expressions
ComputeResultDelegate createBinaryOperatorExpression = node =>
{
if (node.Children.Count == 1)
return node.Children[0].Result;
var result = new BinaryOperatorExpression();
result.Left = (Expression) node.Children[0].Result;
var operatorToken = (AstToken) (node.Children[1].Result ?? node.Children[1].Children[0].Result);
result.Operator = CSharpLanguage.BinaryOperatorFromString(operatorToken.Value);
result.OperatorToken = (AstToken) operatorToken;
result.Right = (Expression) node.Children[2].Result;
return result;
};
var expression = new GrammarDefinition("Expression");
var expressionOptional = new GrammarDefinition("ExpressionOptional",
rule: null
| expression);
var primaryExpression = new GrammarDefinition("PrimaryExpression");
var primitiveExpression = new GrammarDefinition("PrimitiveExpression",
rule: ToElement(LITERAL)
| ToElement(TRUE)
| ToElement(FALSE)
| ToElement(NULL),
createNode: node =>
{
object interpretedValue;
node.Children[0].Result.UserData.TryGetValue("InterpretedValue", out interpretedValue);
var result = new PrimitiveExpression(interpretedValue, ((AstToken) node.Children[0].Result).Value, node.Children[0].Range);
return result;
});
var parenthesizedExpression = new GrammarDefinition("ParenthesizedExpression",
rule: ToElement(OPEN_PARENS)
+ expression
+ ToElement(CLOSE_PARENS)
| ToElement(OPEN_PARENS)
+ Error
+ ToElement(CLOSE_PARENS),
createNode: node => new ParenthesizedExpression
{
LeftParenthese = (AstToken) node.Children[0].Result,
Expression = (Expression) node.Children[1].Result,
RightParenthese = (AstToken) node.Children[2].Result,
});
var memberAccessorOperator = new GrammarDefinition("MemberAccessorOperator",
rule: ToElement(DOT)
| ToElement(OP_PTR)
| ToElement(INTERR_OPERATOR));
var memberReferenceExpression = new GrammarDefinition("MemberReferenceExpression",
rule: primaryExpression + memberAccessorOperator + identifierInsideBody
| primaryExpression + memberAccessorOperator + Error,
createNode: node => new MemberReferenceExpression
{
Target =
(Expression)
((IConvertibleToExpression) node.Children[0].Result).ToExpression().Remove(),
Accessor = CSharpLanguage.AccessorFromString(((AstToken) node.Children[1].Children[0].Result).Value),
AccessorToken = (AstToken) node.Children[1].Children[0].Result,
Identifier = (Identifier) node.Children[2].Result
});
var argument = new GrammarDefinition("Argument",
rule: expression
| ToElement(REF) + expression
| ToElement(OUT) + expression,
createNode: node =>
{
if (node.Children.Count > 1)
{
return new DirectionExpression()
{
DirectionToken = (AstToken) node.Children[0].Result,
Direction = CSharpLanguage.DirectionFromString(((AstToken) node.Children[0].Result).Value),
Expression = (Expression) node.Children[1].Result
};
}
return node.Children[0].Result;
});
var argumentList = new GrammarDefinition("ArgumentList");
argumentList.Rule = argument
| argumentList + ToElement(COMMA) + argument;
var argumentListOptional = new GrammarDefinition("ArgumentListOptional",
rule: null | argumentList);
var invocationExpression = new GrammarDefinition("InvocationExpression",
rule: primaryExpression
+ ToElement(OPEN_PARENS)
+ argumentListOptional
+ ToElement(CLOSE_PARENS),
createNode: node =>
{
var result = new InvocationExpression()
{
Target = (Expression) node.Children[0].Result,
LeftParenthese = (AstToken) node.Children[1].Result,
};
if (node.Children[2].HasChildren)
{
foreach (var subNode in node.Children[2].Children[0].GetAllListAstNodes())
{
if (subNode is AstToken)
result.AddChild(AstNodeTitles.ElementSeparator, subNode);
else
result.Arguments.Add((Expression) subNode);
}
}
result.RightParenthese = (AstToken) node.Children[3].Result;
return result;
});
var indexerExpression = new GrammarDefinition("IndexerExpression",
rule: primaryExpression
+ ToElement(OPEN_BRACKET_EXPR)
+ argumentList
+ ToElement(CLOSE_BRACKET),
createNode: node =>
{
var result = new IndexerExpression()
{
Target = (Expression) node.Children[0].Result,
LeftBracket = (AstToken) node.Children[1].Result,
};
foreach (var subNode in node.Children[2].GetAllListAstNodes())
{
if (subNode is AstToken)
result.AddChild(AstNodeTitles.ElementSeparator, subNode);
else
result.Indices.Add((Expression) subNode);
}
result.RightBracket = (AstToken) node.Children[3].Result;
return result;
});
var createObjectExpression = new GrammarDefinition("CreateObjectExpression",
rule: ToElement(NEW)
+ typeReference
+ ToElement(OPEN_PARENS)
+ argumentListOptional
+ ToElement(CLOSE_PARENS)
+ arrayInitializerOptional
| ToElement(NEW)
+ namespaceOrTypeExpression
+ arrayInitializer,
createNode: node =>
{
var result = new CreateObjectExpression();
result.NewKeyword = (AstToken) node.Children[0].Result;
result.Type = (TypeReference) node.Children[1].Result;
if (node.Children.Count == 6)
{
result.LeftParenthese = (AstToken) node.Children[2].Result;
if (node.Children[3].HasChildren)
{
foreach (var subNode in node.Children[3].Children[0].GetAllListAstNodes())
{
if (subNode is AstToken)
result.AddChild(AstNodeTitles.ElementSeparator, subNode);
else
result.Arguments.Add((Expression) subNode);
}
}
result.RightParenthese = (AstToken) node.Children[4].Result;
}
var initializerNode = node.Children[node.Children.Count - 1];
if (initializerNode.HasChildren)
result.Initializer = (ArrayInitializer) initializerNode.Result;
return result;
});
var createArrayExpression = new GrammarDefinition("CreateArrayExpression",
rule: ToElement(NEW)
+ rankSpecifier
+ arrayInitializer
| ToElement(NEW)
+ typeReference
+ rankSpecifier
+ arrayInitializer
| ToElement(NEW)
+ typeReference
+ ToElement(OPEN_BRACKET_EXPR)
+ argumentList
+ ToElement(CLOSE_BRACKET)
+ arrayInitializerOptional
,
createNode: node =>
{
var result = new CreateArrayExpression();
result.NewKeyword = (AstToken) node.Children[0].Result;
switch (node.Children.Count)
{
case 3:
{
var rankSpecifierNode = (ArrayTypeRankSpecifier) node.Children[1].Result;
result.LeftBracket = (AstToken) rankSpecifierNode.LeftBracket.Remove();
result.RightBracket = (AstToken) rankSpecifierNode.RightBracket.Remove();
break;
}
case 4:
{
result.Type = (TypeReference) node.Children[1].Result;
var rankSpecifierNode = (ArrayTypeRankSpecifier) node.Children[2].Result;
result.LeftBracket = (AstToken) rankSpecifierNode.LeftBracket.Remove();
result.RightBracket = (AstToken) rankSpecifierNode.RightBracket.Remove();
break;
}
case 6:
{
result.Type = (TypeReference) node.Children[1].Result;
result.LeftBracket = (AstToken) node.Children[2].Result;
if (node.Children[3].HasChildren)
{
foreach (var subNode in node.Children[3].Children[0].GetAllListAstNodes())
{
if (subNode is AstToken)
result.AddChild(AstNodeTitles.ElementSeparator, subNode);
else
result.Arguments.Add((Expression) subNode);
}
}
result.RightBracket = (AstToken) node.Children[4].Result;
break;
}
}
var initializerNode = node.Children[node.Children.Count - 1];
if (initializerNode.HasChildren)
result.Initializer = (ArrayInitializer) initializerNode.Result;
return result;
});
var primitiveTypeExpression = new GrammarDefinition("PrimitiveTypeExpression",
rule: primitiveType,
createNode: node => ((IConvertibleToExpression) node.Children[0].Result).ToExpression());
var typeNameExpression = new GrammarDefinition("TypeNameExpression",
rule: identifierExpression
| memberReferenceExpression
| primitiveTypeExpression);
var thisExpression = new GrammarDefinition("ThisExpression",
rule: ToElement(THIS),
createNode: node => new ThisReferenceExpression()
{
ThisKeywordToken = (AstToken) node.Children[0].Result,
});
var baseExpression = new GrammarDefinition("BaseExpression",
rule: ToElement(BASE),
createNode: node => new BaseReferenceExpression()
{
BaseKeywordToken = (AstToken) node.Children[0].Result,
});
var typeofExpression = new GrammarDefinition("TypeOfExpression",
rule: ToElement(TYPEOF) + ToElement(OPEN_PARENS) + typeReference
+ ToElement(CLOSE_PARENS),
createNode: node => new GetTypeExpression()
{
GetTypeKeywordToken = (AstToken) node.Children[0].Result,
LeftParenthese = (AstToken) node.Children[1].Result,
TargetType = (TypeReference) node.Children[2].Result,
RightParenthese = (AstToken) node.Children[3].Result,
});
var defaultExpression = new GrammarDefinition("DefaultExpression",
rule: ToElement(DEFAULT)
+ ToElement(OPEN_PARENS)
+ typeReference
+ ToElement(CLOSE_PARENS),
createNode: node => new DefaultExpression()
{
KeywordToken = (AstToken) node.Children[0].Result,
LeftParenthese = (AstToken) node.Children[1].Result,
TargetType = (TypeReference) node.Children[2].Result,
RightParenthese = (AstToken) node.Children[3].Result,
});
var sizeofExpression = new GrammarDefinition("SizeOfExpression",
rule: ToElement(SIZEOF) + ToElement(OPEN_PARENS) + typeReference
+ ToElement(CLOSE_PARENS),
createNode: node => new SizeOfExpression()
{
SizeofKeyword = (AstToken) node.Children[0].Result,
LeftParenthese = (AstToken) node.Children[1].Result,
TargetType = (TypeReference) node.Children[2].Result,
RightParenthese = (AstToken) node.Children[3].Result,
});
var checkedExpression = new GrammarDefinition("CheckedExpression",
rule:
ToElement(CHECKED) + ToElement(OPEN_PARENS) + expression +
ToElement(CLOSE_PARENS),
createNode: node => new CheckedExpression()
{
CheckedKeyword = (AstToken) node.Children[0].Result,
LeftParenthese = (AstToken) node.Children[1].Result,
TargetExpression = (Expression) node.Children[2].Result,
RightParenthese = (AstToken) node.Children[3].Result,
});
var uncheckedExpression = new GrammarDefinition("UncheckedExpression",
rule:
ToElement(UNCHECKED) + ToElement(OPEN_PARENS) + expression +
ToElement(CLOSE_PARENS),
createNode: node => new UncheckedExpression()
{
UncheckedKeyword = (AstToken) node.Children[0].Result,
LeftParenthese = (AstToken) node.Children[1].Result,
TargetExpression = (Expression) node.Children[2].Result,
RightParenthese = (AstToken) node.Children[3].Result,
});
var stackAllocExpression = new GrammarDefinition("StackAllocExpression",
rule:
ToElement(STACKALLOC)
+ typeReference
+ ToElement(OPEN_BRACKET_EXPR)
+ expression
+ ToElement(CLOSE_BRACKET),
createNode: node => new StackAllocExpression()
{
StackAllocKeyword = (AstToken) node.Children[0].Result,
Type = (TypeReference) node.Children[1].Result,
LeftBracket = (AstToken) node.Children[2].Result,
Counter = (Expression) node.Children[3].Result,
RightBracket = (AstToken) node.Children[4].Result,
});
var explicitAnonymousMethodParameter = new GrammarDefinition("ExplicitAnonymousMethodParameter",
rule: typeReference + ToElement(IDENTIFIER),
createNode: node => new ParameterDeclaration
{
ParameterType = (TypeReference)node.Children[0].Result,
Declarator = new VariableDeclarator(ToIdentifier(node.Children[1].Result))
});
var explicitAnonymousMethodParameterList = new GrammarDefinition("ExplicitAnonymousMethodParameterList");
explicitAnonymousMethodParameterList.Rule = explicitAnonymousMethodParameter
| explicitAnonymousMethodParameterList
+ ToElement(COMMA)
+ explicitAnonymousMethodParameter;
var explicitAnonymousMethodParameterListOptional = new GrammarDefinition("ExplicitAnonymousMethodParameterListOptional",
rule: null | explicitAnonymousMethodParameterList);
var explicitAnonymousMethodSignature = new GrammarDefinition("ExplicitAnonymousMethodSignature",
rule: ToElement(OPEN_PARENS) + explicitAnonymousMethodParameterListOptional + ToElement(CLOSE_PARENS));
var explicitAnonymousMethodSignatureOptional =
new GrammarDefinition("ExplicitAnonymousMethodSignatureOptional",
rule: null | explicitAnonymousMethodSignature);
var anonymousMethodExpression = new GrammarDefinition("AnonymousMethodExpression",
rule: ToElement(DELEGATE) + explicitAnonymousMethodSignatureOptional + blockStatement,
createNode: node =>
{
var result = new AnonymousMethodExpression();
result.DelegateKeyword = (AstToken) node.Children[0].Result;
if (node.Children[1].HasChildren)
{
var signature = node.Children[1].Children[0];
result.LeftParenthese = (AstToken) signature.Children[0].Result;
if (signature.Children[1].HasChildren)
{
foreach (var child in signature.Children[1].Children[0].GetAllListAstNodes())
{
if (child is AstToken)
result.AddChild(AstNodeTitles.ElementSeparator, child);
else
result.Parameters.Add((ParameterDeclaration) child);
}
}
result.RightParenthese = (AstToken)signature.Children[2].Result;
}
result.Body = (BlockStatement) node.Children[2].Result;
return result;
});
var implicitAnonymousMethodParameter = new GrammarDefinition("ImplicitAnonymousMethodParameter",
rule: ToElement(IDENTIFIER),
createNode: node => new ParameterDeclaration
{
Declarator = new VariableDeclarator(ToIdentifier(node.Children[0].Result))
});
var implicitAnonymousMethodParameterList = new GrammarDefinition("ImplicitAnonymousMethodParameterList");
implicitAnonymousMethodParameterList.Rule = implicitAnonymousMethodParameter
| implicitAnonymousMethodParameterList
+ ToElement(COMMA)
+ implicitAnonymousMethodParameter;
var implicitAnonymousMethodParameterListOptional = new GrammarDefinition("ImplicitAnonymousMethodParameterListOptional",
rule: null | implicitAnonymousMethodParameterList);
var implicitAnonymousMethodSignature = new GrammarDefinition("implicitAnonymousMethodSignature",
rule: implicitAnonymousMethodParameter | ToElement(OPEN_PARENS_LAMBDA) + implicitAnonymousMethodParameterList + ToElement(CLOSE_PARENS));
var anonymousMethodSignature = new GrammarDefinition("AnonymousMethodSignature",
rule: implicitAnonymousMethodSignature);
var anonymousFunctionBody = new GrammarDefinition("AnonymousFunctionBody",
rule: expression | blockStatement);
var lambdaExpression = new GrammarDefinition("LambdaExpression",
rule: anonymousMethodSignature + ToElement(ARROW) + anonymousFunctionBody,
createNode: node =>
{
var result = new LambdaExpression();
result.Arrow = (AstToken)node.Children[1].Result;
result.Body = node.Children[2].Result;
return result;
});
primaryExpression.Rule =
typeNameExpression
| primitiveExpression
| parenthesizedExpression
| invocationExpression
| indexerExpression
| thisExpression
| baseExpression
| createObjectExpression
| createArrayExpression
| typeofExpression
| defaultExpression
| sizeofExpression
| checkedExpression
| uncheckedExpression
| stackAllocExpression
| anonymousMethodExpression
;
var preFixUnaryOperator = new GrammarDefinition("PreFixUnaryOperator",
rule: ToElement(PLUS)
| ToElement(MINUS)
| ToElement(STAR)
| ToElement(BANG)
| ToElement(OP_INC)
| ToElement(OP_DEC)
| ToElement(BITWISE_AND)
| ToElement(TILDE)
| ToElement(AWAIT));
var postFixUnaryOperator = new GrammarDefinition("PostFixUnaryOperator",
rule: ToElement(OP_INC)
| ToElement(OP_DEC));
var castExpression = new GrammarDefinition("CastExpression");
var unaryOperatorExpression = new GrammarDefinition("UnaryOperatorExpression",
rule: primaryExpression
| castExpression
| (preFixUnaryOperator + primaryExpression)
| (primaryExpression + postFixUnaryOperator),
createNode: node =>
{
if (node.Children.Count == 1)
return node.Children[0].Result;
var result = new UnaryOperatorExpression();
var isPrefix = node.Children[0].GrammarElement == preFixUnaryOperator;
if (isPrefix)
{
var operatorToken = ((AstToken) node.Children[0].Children[0].Result);
result.Operator = CSharpLanguage.UnaryOperatorFromString(operatorToken.Value);
result.OperatorToken = operatorToken;
}
result.Expression = (Expression) node.Children[isPrefix ? 1 : 0].Result;
if (!isPrefix)
{
var operatorToken = (AstToken) node.Children[1].Children[0].Result;
result.Operator = CSharpLanguage.UnaryOperatorFromString(operatorToken.Value, false);
result.OperatorToken = operatorToken;
}
return result;
});
castExpression.Rule = ToElement(OPEN_PARENS)
+ typeNameExpression
+ ToElement(CLOSE_PARENS)
+ unaryOperatorExpression;
castExpression.ComputeResult = node => new ExplicitCastExpression
{
LeftParenthese = (AstToken) node.Children[0].Result,
TargetType = ToTypeReference((IConvertibleToType) node.Children[1].Result),
RightParenthese = (AstToken) node.Children[2].Result,
TargetExpression = (Expression) node.Children[3].Result
};
var multiplicativeOperator = new GrammarDefinition("MultiplicativeOperator",
rule: ToElement(STAR)
| ToElement(DIV)
| ToElement(PERCENT));
var multiplicativeExpression = new GrammarDefinition("MultiplicativeExpression");
multiplicativeExpression.Rule = unaryOperatorExpression
| multiplicativeExpression
+ multiplicativeOperator
+ unaryOperatorExpression;
multiplicativeExpression.ComputeResult = createBinaryOperatorExpression;
var additiveOperator = new GrammarDefinition("AdditiveOperator",
rule: ToElement(PLUS)
| ToElement(MINUS));
var additiveExpression = new GrammarDefinition("AdditiveExpression");
additiveExpression.Rule = multiplicativeExpression
| additiveExpression
+ additiveOperator
+ multiplicativeExpression;
additiveExpression.ComputeResult = createBinaryOperatorExpression;
var shiftOperator = new GrammarDefinition("ShiftOperator",
rule: ToElement(OP_SHIFT_LEFT)
| ToElement(OP_SHIFT_RIGHT));
var shiftExpression = new GrammarDefinition("ShiftExpression");
shiftExpression.Rule = additiveExpression
| shiftExpression
+ shiftOperator
+ additiveExpression;
shiftExpression.ComputeResult = createBinaryOperatorExpression;
var relationalOperator = new GrammarDefinition("RelationalOperator",
rule: ToElement(OP_GT)
| ToElement(OP_GE)
| ToElement(OP_LT)
| ToElement(OP_LE)
| ToElement(IS)
| ToElement(AS));
var relationalExpression = new GrammarDefinition("RelationalExpression");
relationalExpression.Rule = shiftExpression
| relationalExpression
+ relationalOperator
+ shiftExpression;
relationalExpression.ComputeResult = node =>
{
if (node.Children.Count == 1)
return node.Children[0].Result;
var operatorToken = (CSharpAstToken) node.Children[1].Children[0].Result;
switch (operatorToken.Code)
{
case IS:
return new TypeCheckExpression()
{
TargetExpression = (Expression) node.Children[0].Result,
IsKeyword = operatorToken,
TargetType = ToTypeReference((IConvertibleToType) node.Children[2].Result)
};
case AS:
return new SafeCastExpression()
{
TargetExpression = (Expression) node.Children[0].Result,
CastKeyword = operatorToken,
TargetType = ToTypeReference((IConvertibleToType) node.Children[2].Result)
};
default:
return createBinaryOperatorExpression(node);
}
};
var equalityOperator = new GrammarDefinition("equalityOperator",
rule: ToElement(OP_EQUALS)
| ToElement(OP_NOTEQUALS));
var equalityExpression = new GrammarDefinition("EqualityExpression");
equalityExpression.Rule = relationalExpression
| equalityExpression
+ equalityOperator
+ relationalExpression;
equalityExpression.ComputeResult = createBinaryOperatorExpression;
var logicalAndExpression = new GrammarDefinition("LogicalAndExpression");
logicalAndExpression.Rule = equalityExpression
| logicalAndExpression
+ ToElement(BITWISE_AND)
+ equalityExpression;
logicalAndExpression.ComputeResult = createBinaryOperatorExpression;
var logicalXorExpression = new GrammarDefinition("LogicalOrExpression");
logicalXorExpression.Rule = logicalAndExpression
| logicalXorExpression
+ ToElement(CARRET)
+ logicalAndExpression;
logicalXorExpression.ComputeResult = createBinaryOperatorExpression;
var logicalOrExpression = new GrammarDefinition("LogicalOrExpression");
logicalOrExpression.Rule = logicalXorExpression
| logicalOrExpression
+ ToElement(BITWISE_OR)
+ logicalXorExpression;
logicalOrExpression.ComputeResult = createBinaryOperatorExpression;
var conditionalAndExpression = new GrammarDefinition("ConditionalAndExpression");
conditionalAndExpression.Rule = logicalOrExpression
| conditionalAndExpression
+ ToElement(OP_AND)
+ logicalOrExpression;
conditionalAndExpression.ComputeResult = createBinaryOperatorExpression;
var conditionalOrExpression = new GrammarDefinition("ConditionalOrExpression");
conditionalOrExpression.Rule = conditionalAndExpression
| conditionalOrExpression
+ ToElement(OP_OR)
+ conditionalAndExpression;
conditionalOrExpression.ComputeResult = createBinaryOperatorExpression;
var nullCoalescingExpression = new GrammarDefinition("NullCoalescingExpression");
nullCoalescingExpression.Rule = conditionalOrExpression
| nullCoalescingExpression
+ ToElement(OP_COALESCING)
+ conditionalOrExpression;
nullCoalescingExpression.ComputeResult = createBinaryOperatorExpression;
var conditionalExpression = new GrammarDefinition("ConditionalExpression",
rule: nullCoalescingExpression
| nullCoalescingExpression
+ ToElement(INTERR)
+ expression + ToElement(COLON) + expression,
createNode: node => node.Children.Count == 1
? node.Children[0].Result
: new ConditionalExpression
{
Condition = (Expression) node.Children[0].Result,
OperatorToken = (AstToken) node.Children[1].Result,
TrueExpression = (Expression) node.Children[2].Result,
ColonToken = (AstToken) node.Children[3].Result,
FalseExpression = (Expression) node.Children[4].Result
});
var assignmentOperator = new GrammarDefinition("AssignmentOperator",
rule: ToElement(EQUALS)
| ToElement(OP_ADD_ASSIGN)
| ToElement(OP_SUB_ASSIGN)
| ToElement(OP_MULT_ASSIGN)
| ToElement(OP_DIV_ASSIGN)
| ToElement(OP_AND_ASSIGN)
| ToElement(OP_OR_ASSIGN)
| ToElement(OP_XOR_ASSIGN)
| ToElement(OP_SHIFT_LEFT_ASSIGN)
| ToElement(OP_SHIFT_RIGHT_ASSIGN));
var assignmentExpression = new GrammarDefinition("AssignmentExpression",
rule: unaryOperatorExpression
+ assignmentOperator
+ expression,
createNode: node => new AssignmentExpression
{
Target = (Expression) node.Children[0].Result,
Operator = CSharpLanguage.AssignmentOperatorFromString(((AstToken) node.Children[1].Children[0].Result).Value),
OperatorToken = (AstToken) node.Children[1].Children[0].Result,
Value = (Expression) node.Children[2].Result,
});
var fromClause = new GrammarDefinition("FromClause",
rule: ToElement(FROM) + identifierInsideBody + ToElement(IN) + expression,
createNode: node => new LinqFromClause
{
FromKeyword = (AstToken) node.Children[0].Result,
VariableName = (Identifier) node.Children[1].Result,
InKeyword = (AstToken) node.Children[2].Result,
DataSource = (Expression) node.Children[3].Result
});
var letClause = new GrammarDefinition("LetClause",
rule: ToElement(LET) + variableDeclarator,
createNode: node => new LinqLetClause()
{
LetKeyword = (AstToken) node.Children[0].Result,
Variable = (VariableDeclarator) node.Children[1].Result
});
var whereClause = new GrammarDefinition("WhereClause",
rule: ToElement(WHERE) + expression,
createNode: node => new LinqWhereClause()
{
WhereKeyword = (AstToken) node.Children[0].Result,
Condition = (Expression) node.Children[1].Result
});
var orderingDirection = new GrammarDefinition("OrderingDirection",
rule: null | ToElement(ASCENDING) | ToElement(DESCENDING));
var ordering = new GrammarDefinition("Ordering",
rule: expression + orderingDirection,
createNode: node =>
{
var result = new LinqOrdering();
result.Expression = (Expression) node.Children[0].Result;
if (node.Children[1].HasChildren)
{
var directionNode = node.Children[1].Children[0];
result.DirectionKeyword = (AstToken) directionNode.Result;
result.Direction = directionNode.Result != null
? CSharpLanguage.OrderningDirectionFromString(result.DirectionKeyword.Value)
: LinqOrderingDirection.None;
}
return result;
});
var orderings = new GrammarDefinition("Orderings");
orderings.Rule = ordering | orderings + ToElement(COMMA) + ordering;
var orderByClause = new GrammarDefinition("OrderByClause",
rule: ToElement(ORDERBY) + orderings,
createNode: node =>
{
var result = new LinqOrderByClause();
result.OrderByKeyword = (AstToken) node.Children[0].Result;
foreach (var subNode in node.Children[1].GetAllListAstNodes())
{
if (subNode is AstToken)
result.AddChild(AstNodeTitles.ElementSeparator, subNode);
else
result.Ordernings.Add((LinqOrdering) subNode);
}
return result;
});
var groupByClause = new GrammarDefinition("GroupByClause",
rule: ToElement(GROUP) + expression + ToElement(BY) + expression,
createNode: node => new LinqGroupByClause()
{
GroupKeyword = (AstToken) node.Children[0].Result,
Expression = (Expression) node.Children[1].Result,
ByKeyword = (AstToken) node.Children[2].Result,
KeyExpression = (Expression) node.Children[3].Result
});
var selectClause = new GrammarDefinition("SelectClause",
rule: ToElement(SELECT) + expression,
createNode: node => new LinqSelectClause()
{
SelectKeyword = (AstToken) node.Children[0].Result,
Target = (Expression) node.Children[1].Result
});
var queryBodyClause = new GrammarDefinition("QueryBodyClause",
rule:
fromClause
| letClause
| groupByClause
| whereClause
| orderByClause
);
var queryBodyClauses = new GrammarDefinition("QueryBodyClauses");
queryBodyClauses.Rule = queryBodyClause | queryBodyClauses + queryBodyClause;
var queryBodyClausesOptional = new GrammarDefinition("QueryBodyClausesOptional",
rule: null | queryBodyClauses);
var linqExpression = new GrammarDefinition("LinqExpression",
rule: fromClause + queryBodyClausesOptional + selectClause,
createNode: node =>
{
var result = new LinqExpression();
result.Clauses.Add((LinqClause) node.Children[0].Result);
if (node.Children[1].HasChildren)
{
result.Clauses.AddRange(node.Children[1].Children[0].GetAllListAstNodes().Cast<LinqClause>());
}
result.Clauses.Add((LinqClause) node.Children[2].Result);
return result;
});
expression.Rule = conditionalExpression
| linqExpression
| lambdaExpression
| assignmentExpression;
#endregion
#region Statements
var statement = new GrammarDefinition("Statement");
var embeddedStatement = new GrammarDefinition("EmbeddedStatement");
var emptyStatement = new GrammarDefinition("EmptyStatement",
rule: ToElement(SEMICOLON),
createNode: node =>
{
var result = new EmptyStatement();
result.AddChild(AstNodeTitles.Semicolon, node.Children[0].Result);
return result;
});
var labelStatement = new GrammarDefinition("LabelStatement",
rule: identifierInsideBody + ToElement(COLON),
createNode: node => new LabelStatement((Identifier) node.Children[0].Result)
{
Colon = (AstToken) node.Children[1].Result
});
var expressionStatement = new GrammarDefinition("ExpressionStatement",
rule: expression + ToElement(SEMICOLON)
| Error + ToElement(SEMICOLON)
| Error + ToElement(CLOSE_BRACE)
| expression + ToElement(CLOSE_BRACE), // Common mistake in C# is to forget the semicolon at the end of a statement.
createNode: node =>
{
var result = new ExpressionStatement(node.Children[0].Result as Expression);
var endingToken = (AstToken) node.Children[1].Result;
if (endingToken.GetTokenCode() == (int) SEMICOLON)
{
result.AddChild(AstNodeTitles.Semicolon, node.Children[1].Result);
}
else
{
node.Context.SyntaxErrors.Add(new SyntaxError(
node.Children[1].Range.End,
"';' expected.",
MessageSeverity.Error));
node.Context.Lexer.PutBack((AstToken) endingToken);
}
return result;
});
blockStatement.Rule = ToElement(OPEN_BRACE)
+ statementListOptional
+ ToElement(CLOSE_BRACE);
blockStatement.ComputeResult = node =>
{
var result = new BlockStatement();
result.StartScope = node.Children[0].Result;
if (node.Children[1].HasChildren)
{
result.Statements.AddRange(node.Children[1].Children[0].GetAllListAstNodes<Statement>());
}
result.EndScope = node.Children[2].Result;
return result;
};
var variableDeclarationStatement = new GrammarDefinition("VariableDeclarationStatement",
rule: variableDeclaration
+ ToElement(SEMICOLON),
createNode: node =>
{
var result = node.Children[0].Result;
result.AddChild(AstNodeTitles.Semicolon, node.Children[1].Result);
return result;
});
var ifElseStatement = new GrammarDefinition("IfElseStatement",
rule: ToElement(IF) + parenthesizedExpression + embeddedStatement
| ToElement(IF) + parenthesizedExpression + embeddedStatement + ToElement(ELSE) + embeddedStatement
,
createNode: node =>
{
var result = new IfElseStatement();
result.IfKeyword = (AstToken) node.Children[0].Result;
var parenthesized = (ParenthesizedExpression) node.Children[1].Result;
result.LeftParenthese = (AstToken) parenthesized.LeftParenthese.Remove();
result.Condition = (Expression) parenthesized.Expression?.Remove();
result.RightParenthese = (AstToken) parenthesized.RightParenthese.Remove();
result.TrueBlock = (Statement) node.Children[2].Result;
if (node.Children.Count > 3)
{
result.ElseKeyword = (AstToken) node.Children[3].Result;
result.FalseBlock = (Statement) node.Children[4].Result;
CheckForPossibleMistakenEmptyStatement(node.Children[4]);
}
else
{
CheckForPossibleMistakenEmptyStatement(node.Children[2]);
}
return result;
});
var switchLabel = new GrammarDefinition("SwitchLabel",
rule: ToElement(CASE) + expression + ToElement(COLON)
| ToElement(DEFAULT_COLON) + ToElement(COLON),
createNode: node =>
{
var result = new SwitchCaseLabel();
result.CaseKeyword = (AstToken) node.Children[0].Result;
if (node.Children.Count > 2)
result.Condition = (Expression) node.Children[1].Result;
result.Colon = (AstToken) node.Children[node.Children.Count - 1].Result;
return result;
});
var switchLabels = new GrammarDefinition("SwitchLabels");
switchLabels.Rule = switchLabel | switchLabels + switchLabel;
var switchSection = new GrammarDefinition("SwitchSection",
rule: switchLabels + statementList,
createNode: node =>
{
var result = new SwitchSection();
result.Labels.AddRange(node.Children[0].GetAllListAstNodes<SwitchCaseLabel>());
result.Statements.AddRange(node.Children[1].GetAllListAstNodes<Statement>());
return result;
});
var switchSections = new GrammarDefinition("SwitchSections");
switchSections.Rule = switchSection
| switchSections + switchSection;
var switchBlock = new GrammarDefinition("SwitchBlock",
rule: ToElement(OPEN_BRACE)
+ switchSections
+ ToElement(CLOSE_BRACE));
var switchStatement = new GrammarDefinition("SwitchStatement",
rule: ToElement(SWITCH)
+ ToElement(OPEN_PARENS)
+ expression
+ ToElement(CLOSE_PARENS)
+ switchBlock,
createNode: node =>
{
var result = new SwitchStatement();
result.SwitchKeyword = (AstToken) node.Children[0].Result;
result.LeftParenthese = (AstToken) node.Children[1].Result;
result.Condition = (Expression) node.Children[2].Result;
result.RightParenthese = (AstToken) node.Children[3].Result;
var switchBlockNode = node.Children[4];
result.StartScope = switchBlockNode.Children[0].Result;
result.Sections.AddRange(switchBlockNode.Children[1].GetAllListAstNodes<SwitchSection>());
result.EndScope = switchBlockNode.Children[2].Result;
return result;
});
var selectionStatement = new GrammarDefinition("SelectionStatement",
rule: ifElseStatement
| switchStatement);
var whileLoopStatement = new GrammarDefinition("WhileLoopStatement",
rule: ToElement(WHILE)
+ parenthesizedExpression
+ embeddedStatement,
createNode: node =>
{
var bodyNode = node.Children[2];
CheckForPossibleMistakenEmptyStatement(bodyNode);
var conditionExpr = (ParenthesizedExpression) node.Children[1].Result;
return new WhileLoopStatement
{
WhileKeyword = (AstToken) node.Children[0].Result,
LeftParenthese = (AstToken) conditionExpr.LeftParenthese.Remove(),
Condition = (Expression) conditionExpr.Expression.Remove(),
RightParenthese = (AstToken) conditionExpr.RightParenthese.Remove(),
Body = (Statement) bodyNode.Result
};
});
var doLoopStatement = new GrammarDefinition("DoLoopStatement",
rule: ToElement(DO)
+ embeddedStatement
+ ToElement(WHILE)
+ parenthesizedExpression
+ ToElement(SEMICOLON),
createNode: node =>
{
var conditionExpr = (ParenthesizedExpression) node.Children[3].Result;
return new DoLoopStatement
{
DoKeyword = (AstToken) node.Children[0].Result,
Body = (Statement) node.Children[1].Result,
WhileKeyword = (AstToken) node.Children[2].Result,
LeftParenthese = (AstToken) conditionExpr.LeftParenthese.Remove(),
Condition = (Expression) conditionExpr.Expression.Remove(),
RightParenthese = (AstToken) conditionExpr.RightParenthese.Remove(),
Semicolon = (AstToken) node.Children[4].Result
};
});
var forLoopInitializer = new GrammarDefinition("ForLoopInitializer",
rule: variableDeclaration
| null
// TODO: statement-expression-list
);
var forLoopCondition = new GrammarDefinition("ForLoopCondition",
rule: expression
| null);
var forLoopStatement = new GrammarDefinition("ForLoopStatement",
rule: ToElement(FOR)
+ ToElement(OPEN_PARENS)
+ forLoopInitializer
+ ToElement(SEMICOLON)
+ expressionOptional
+ ToElement(SEMICOLON)
+ expressionOptional // TODO: statement-expression-list
+ ToElement(CLOSE_PARENS)
+ embeddedStatement,
createNode: node =>
{
var result = new ForLoopStatement();
result.ForKeyword = (AstToken) node.Children[0].Result;
result.LeftParenthese = (AstToken) node.Children[1].Result;
if (node.Children[2].HasChildren)
{
var declaration = node.Children[2].Children[0].Result as VariableDeclarationStatement;
if (declaration != null)
{
result.Initializers.Add(declaration);
}
else
{
result.Initializers.AddRange(node.Children[2].GetAllListAstNodes<Expression>()
.Select(x => new ExpressionStatement(x)));
}
}
result.AddChild(AstNodeTitles.Semicolon, node.Children[3].Result);
if (node.Children[4].HasChildren)
result.Condition = (Expression) node.Children[4].Result;
result.AddChild(AstNodeTitles.Semicolon, node.Children[5].Result);
if (node.Children[6].HasChildren)
{
result.Iterators.AddRange(node.Children[6].Children[0].GetAllListAstNodes<Expression>()
.Select(x => new ExpressionStatement(x)));
}
result.RightParenthese = (AstToken) node.Children[7].Result;
var bodyNode = node.Children[8];
CheckForPossibleMistakenEmptyStatement(bodyNode);
result.Body = (Statement) bodyNode.Result;
return result;
});
var foreachLoopStatement = new GrammarDefinition("ForEachLoopStatement",
rule: ToElement(FOREACH)
+ ToElement(OPEN_PARENS)
+ typeReference
+ identifierInsideBody
+ ToElement(IN)
+ expression
+ ToElement(CLOSE_PARENS)
+ embeddedStatement,
createNode: node =>
{
var bodyNode = node.Children[7];
CheckForPossibleMistakenEmptyStatement(bodyNode);
return new ForeachLoopStatement
{
ForeachKeyword = (AstToken) node.Children[0].Result,
LeftParenthese = (AstToken) node.Children[1].Result,
Type = (TypeReference) node.Children[2].Result,
Identifier = (Identifier) node.Children[3].Result,
InKeyword = (AstToken) node.Children[4].Result,
Target = (Expression) node.Children[5].Result,
RightParenthese = (AstToken) node.Children[6].Result,
Body = (Statement) bodyNode.Result
};
});
var loopStatement = new GrammarDefinition("LoopStatement",
rule: whileLoopStatement
| doLoopStatement
| forLoopStatement
| foreachLoopStatement);
var lockStatement = new GrammarDefinition("LockStatement",
rule: ToElement(LOCK)
+ ToElement(OPEN_PARENS)
+ expression
+ ToElement(CLOSE_PARENS)
+ statement,
createNode: node =>
{
var bodyNode = node.Children[4];
CheckForPossibleMistakenEmptyStatement(bodyNode);
return new LockStatement
{
LockKeyword = (AstToken) node.Children[0].Result,
LeftParenthese = (AstToken) node.Children[1].Result,
LockObject = (Expression) node.Children[2].Result,
RightParenthese = (AstToken) node.Children[3].Result,
Body = (Statement) bodyNode.Result
};
});
var resourceAcquisition = new GrammarDefinition("ResourceAcquisition",
rule: variableDeclaration | expression);
var usingStatement = new GrammarDefinition("UsingStatement",
rule: ToElement(USING)
+ ToElement(OPEN_PARENS)
+ resourceAcquisition
+ ToElement(CLOSE_PARENS)
+ statement,
createNode: node =>
{
var bodyNode = node.Children[4];
CheckForPossibleMistakenEmptyStatement(bodyNode);
return new UsingStatement()
{
UsingKeyword = (AstToken) node.Children[0].Result,
LeftParenthese = (AstToken) node.Children[1].Result,
DisposableObject = node.Children[2].Result,
RightParenthese = (AstToken) node.Children[3].Result,
Body = (Statement) bodyNode.Result
};
});
var breakStatement = new GrammarDefinition("BreakStatement",
rule: ToElement(BREAK)
+ ToElement(SEMICOLON),
createNode: node => new BreakStatement()
{
Keyword = (AstToken) node.Children[0].Result,
Semicolon = (AstToken) node.Children[1].Result
});
var continueStatement = new GrammarDefinition("ContinueStatement",
rule: ToElement(CONTINUE)
+ ToElement(SEMICOLON),
createNode: node => new BreakStatement()
{
Keyword = (AstToken) node.Children[0].Result,
Semicolon = (AstToken) node.Children[1].Result
});
var returnStatement = new GrammarDefinition("ReturnStatement",
rule: ToElement(RETURN)
+ expressionOptional
+ ToElement(SEMICOLON),
createNode: node =>
{
var result = new ReturnStatement();
result.ReturnKeyword = (AstToken) node.Children[0].Result;
if (node.Children[1].HasChildren)
result.Value = (Expression) node.Children[1].Result;
result.AddChild(AstNodeTitles.Semicolon, node.Children[2].Result);
return result;
});
var throwStatement = new GrammarDefinition("ThrowStatement",
rule: ToElement(THROW)
+ expressionOptional
+ ToElement(SEMICOLON),
createNode: node =>
{
var result = new ThrowStatement();
result.ThrowKeyword = (AstToken) node.Children[0].Result;
if (node.Children[1].HasChildren)
result.Expression = (Expression) node.Children[1].Result;
result.AddChild(AstNodeTitles.Semicolon, node.Children[2].Result);
return result;
});
var gotoStatement = new GrammarDefinition("GotoStatement",
rule: ToElement(GOTO)
+ identifierInsideBody
+ ToElement(SEMICOLON),
// TODO: goto case and goto default statements.
createNode: node =>
{
var result = new GotoStatement();
result.GotoKeyword = (AstToken) node.Children[0].Result;
result.LabelIdentifier = (Identifier) node.Children[1].Result;
result.AddChild(AstNodeTitles.Semicolon, node.Children[2].Result);
return result;
});
var jumpStatement = new GrammarDefinition("JumpStatement",
rule: breakStatement
| continueStatement
| gotoStatement
| returnStatement
| throwStatement);
var yieldStatement = new GrammarDefinition("YieldStatement",
rule: ToElement(YIELD)
+ ToElement(RETURN)
+ expression
+ ToElement(SEMICOLON),
createNode: node => new YieldStatement()
{
YieldKeyword = (AstToken) node.Children[0].Result,
ReturnKeyword = (AstToken) node.Children[1].Result,
Value = (Expression) node.Children[2].Result
});
var yieldBreakStatement = new GrammarDefinition("YieldBreakStatement",
rule: ToElement(YIELD)
+ ToElement(BREAK)
+ ToElement(SEMICOLON),
createNode: node => new YieldBreakStatement()
{
Keyword = (AstToken) node.Children[0].Result,
BreakKeyword = (AstToken) node.Children[1].Result
});
var specificCatchClause = new GrammarDefinition("SpecificCatchClause",
rule: ToElement(CATCH) + ToElement(OPEN_PARENS)
+ namespaceOrTypeExpression + identifierInsideBodyOptional + ToElement(CLOSE_PARENS)
+ blockStatement,
createNode: node =>
{
var result = new CatchClause();
result.CatchKeyword = (AstToken) node.Children[0].Result;
result.LeftParenthese = (AstToken) node.Children[1].Result;
result.ExceptionType = (TypeReference) node.Children[2].Result;
if (node.Children[3].HasChildren)
result.ExceptionIdentifier = (Identifier) node.Children[3].Result;
result.RightParenthese = (AstToken) node.Children[4].Result;
result.Body = (BlockStatement) node.Children[5].Result;
return result;
});
var generalCatchClause = new GrammarDefinition("GeneralCatchClause",
rule: ToElement(CATCH) + blockStatement,
createNode: node => new CatchClause
{
CatchKeyword = (AstToken) node.Children[0].Result,
Body = (BlockStatement) node.Children[1].Result
});
var catchClause = new GrammarDefinition("CatchClause",
rule: specificCatchClause | generalCatchClause);
var catchClauses = new GrammarDefinition("CatchClauses");
catchClauses.Rule = catchClause | catchClauses + catchClause;
var finallyClause = new GrammarDefinition("FinallyClause",
rule: ToElement(FINALLY) + blockStatement);
var tryCatchStatement = new GrammarDefinition("TryCatchStatement",
rule: ToElement(TRY) + blockStatement + catchClauses
| ToElement(TRY) + blockStatement + finallyClause
| ToElement(TRY) + blockStatement + catchClauses + finallyClause,
createNode: node =>
{
var result = new TryCatchStatement();
result.TryKeyword = (AstToken) node.Children[0].Result;
result.TryBlock = (BlockStatement) node.Children[1].Result;
ParserNode finallyClauseNode = null;
if (node.Children[2].GrammarElement == finallyClause)
{
finallyClauseNode = node.Children[2];
}
else
{
result.CatchClauses.AddRange(node.Children[2].GetAllListAstNodes<CatchClause>());
}
if (node.Children.Count == 4)
finallyClauseNode = node.Children[3];
if (finallyClauseNode != null)
{
result.FinallyKeyword = (AstToken) finallyClauseNode.Children[0].Result;
result.FinallyBlock = (BlockStatement) finallyClauseNode.Children[1].Result;
}
return result;
});
var unsafeStatement = new GrammarDefinition("UnsafeStatement",
rule: ToElement(UNSAFE) + blockStatement,
createNode: node => new UnsafeStatement()
{
Keyword = (AstToken) node.Children[0].Result,
Body = (BlockStatement) node.Children[1].Result
});
var fixedStatement = new GrammarDefinition("FixedStatement",
rule: ToElement(FIXED) + ToElement(OPEN_PARENS)
+ variableDeclaration + ToElement(CLOSE_PARENS) + embeddedStatement,
createNode: node =>
{
var result = new FixedStatement();
result.Keyword = (AstToken) node.Children[0].Result;
result.LeftParenthese = (AstToken) node.Children[1].Result;
result.VariableDeclaration = (VariableDeclarationStatement) node.Children[2].Result;
result.RightParenthese = (AstToken) node.Children[3].Result;
var bodyNode = node.Children[4];
result.Body = (Statement) bodyNode.Result;
CheckForPossibleMistakenEmptyStatement(bodyNode);
return result;
});
embeddedStatement.Rule = emptyStatement
| expressionStatement
| blockStatement
| selectionStatement
| loopStatement
| jumpStatement
| lockStatement
| usingStatement
| yieldStatement
| yieldBreakStatement
| tryCatchStatement
| unsafeStatement
| fixedStatement
;
statement.Rule = variableDeclarationStatement
| labelStatement
| embeddedStatement;
;
#endregion
#region Members
var customAttribute = new GrammarDefinition("CustomAttribute",
rule: namespaceOrTypeExpression
| namespaceOrTypeExpression + ToElement(OPEN_PARENS) + argumentListOptional + ToElement(CLOSE_PARENS),
createNode: node =>
{
var result = new CustomAttribute();
result.Type = ((IConvertibleToType) node.Children[0].Result).ToTypeReference();
if (node.Children.Count > 1)
{
result.LeftParenthese = (AstToken) node.Children[1].Result;
if (node.Children[2].HasChildren)
{
foreach (var child in node.Children[2].Children[0].GetAllListAstNodes())
{
if (child is AstToken)
result.AddChild(AstNodeTitles.ElementSeparator, child);
else
result.Arguments.Add((Expression) child);
}
}
result.RightParenthese = (AstToken) node.Children[3].Result;
}
return result;
});
var customAttributeList = new GrammarDefinition("CustomAttributeList");
customAttributeList.Rule = customAttribute | customAttributeList + ToElement(COMMA) + customAttribute;
var customAttributePrefix = new GrammarDefinition("CustomAttributePrefix",
rule: ToElement(ASSEMBLY) | ToElement(MODULE));
var customAttributePrefixOptional = new GrammarDefinition("CustomAttributePrefixOptional",
rule: null | customAttributePrefix + ToElement(COLON));
var customAttributeSection = new GrammarDefinition("CustomAttributeSection",
rule: ToElement(OPEN_BRACKET_EXPR) // HACK: use expression brackets instead to avoid conflicts.
+ customAttributePrefixOptional
+ customAttributeList
+ ToElement(CLOSE_BRACKET),
createNode: node =>
{
var result = new CustomAttributeSection();
result.LeftBracket = (AstToken) node.Children[0].Result;
if (node.Children[1].Result != null)
{
result.VariantKeyword = (AstToken) node.Children[1].Result;
result.Variant = CSharpLanguage.SectionVariantFromString(result.VariantKeyword.Value);
}
foreach (var child in node.Children[2].GetAllListAstNodes())
{
if (child is AstToken)
result.AddChild(AstNodeTitles.ElementSeparator, child);
else
result.Attributes.Add((CustomAttribute) child);
}
result.RightBracket = (AstToken) node.Children[3].Result;
return result;
});
var customAttributeSectionList = new GrammarDefinition("CustomAttributeSectionList");
customAttributeSectionList.Rule = customAttributeSection | customAttributeSectionList + customAttributeSection;
var customAttributeSectionListOptional = new GrammarDefinition("CustomAttributeSectionListOptional",
rule: null | customAttributeSectionList);
var modifier = new GrammarDefinition("Modifier",
rule: ToElement(PRIVATE)
| ToElement(PROTECTED)
| ToElement(INTERNAL)
| ToElement(PUBLIC)
| ToElement(STATIC)
| ToElement(ABSTRACT)
| ToElement(OVERRIDE)
| ToElement(PARTIAL)
| ToElement(CONST)
| ToElement(READONLY)
| ToElement(VIRTUAL)
| ToElement(SEALED)
| ToElement(UNSAFE)
| ToElement(FIXED)
| ToElement(ASYNC)
| ToElement(EXTERN),
createNode: node => new ModifierElement(((AstToken) node.Children[0].Result).Value, node.Children[0].Range)
{
Modifier = CSharpLanguage.ModifierFromString(((AstToken) node.Children[0].Result).Value)
});
var modifierList = new GrammarDefinition("ModifierList");
modifierList.Rule = modifier | modifierList + modifier;
var modifierListOptional = new GrammarDefinition("ModifierListOptional",
rule: null | modifierList);
var fieldDeclaration = new GrammarDefinition("FieldDeclaration",
rule: customAttributeSectionListOptional
+ modifierListOptional
+ typeReference
+ variableDeclaratorList
+ ToElement(SEMICOLON),
createNode: node =>
{
var result = new FieldDeclaration();
if (node.Children[0].HasChildren)
result.CustomAttributeSections.AddRange(node.Children[0].Children[0].GetAllListAstNodes<CustomAttributeSection>());
if (node.Children[1].HasChildren)
result.ModifierElements.AddRange(node.Children[1].Children[0].GetAllListAstNodes<ModifierElement>());
result.FieldType = (TypeReference) node.Children[2].Result;
foreach (var subNode in node.Children[3].GetAllListAstNodes())
{
if (subNode is AstToken)
result.AddChild(AstNodeTitles.ElementSeparator, subNode);
else
result.Declarators.Add((VariableDeclarator) subNode);
}
result.AddChild(AstNodeTitles.Semicolon, node.Children[4].Result);
return result;
});
var parameterModifier = new GrammarDefinition("ParameterModifier",
rule: null
| ToElement(THIS)
| ToElement(REF)
| ToElement(OUT)
| ToElement(PARAMS));
var parameterDeclaration = new GrammarDefinition("ParameterDeclaration",
rule: customAttributeSectionListOptional
+ parameterModifier
+ typeReference
+ variableDeclarator,
createNode: node =>
{
var result = new ParameterDeclaration();
if (node.Children[0].HasChildren)
{
result.CustomAttributeSections.AddRange(
node.Children[0].Children[0].GetAllListAstNodes<CustomAttributeSection>());
}
result.ParameterModifierToken = (AstToken) (node.Children[1].HasChildren ? node.Children[1].Children[0].Result : null);
result.ParameterType = (TypeReference) node.Children[2].Result;
result.Declarator = (VariableDeclarator) node.Children[3].Result;
return result;
});
var parameterDeclarationList = new GrammarDefinition("ParameterDeclarationList");
parameterDeclarationList.Rule = parameterDeclaration | parameterDeclarationList + ToElement(COMMA) + parameterDeclaration;
var optionalParameterDeclarationList = new GrammarDefinition("OptionalParameterDeclarationList",
rule: null | parameterDeclarationList);
var constructorInitializerVariant = new GrammarDefinition("ConstructorInitializerVariant",
rule: ToElement(THIS) | ToElement(BASE));
var constructorInitializer = new GrammarDefinition("ConstructorInitializer",
rule: constructorInitializerVariant
+ ToElement(OPEN_PARENS)
+ argumentListOptional
+ ToElement(CLOSE_PARENS),
createNode: node =>
{
var result = new Members.ConstructorInitializer();
result.VariantToken = (AstToken) node.Children[0].Children[0].Result;
result.LeftParenthese = (AstToken) node.Children[1].Result;
if (node.Children[2].HasChildren)
{
foreach (var subNode in node.Children[2].Children[0].GetAllListAstNodes())
{
if (subNode is AstToken)
result.AddChild(AstNodeTitles.ElementSeparator, subNode);
else
result.Arguments.Add((Expression) subNode);
}
}
result.RightParenthese = (AstToken) node.Children[3].Result;
return result;
});
var optionalConstructorInitializerList = new GrammarDefinition("OptionalConstructorInitializer",
rule: null | ToElement(COLON) + constructorInitializer);
var constructorDeclaration = new GrammarDefinition("ConstructorDeclaration",
rule: customAttributeSectionListOptional
+ modifierListOptional
+ ToElement(IDENTIFIER)
+ ToElement(OPEN_PARENS)
+ optionalParameterDeclarationList
+ ToElement(CLOSE_PARENS)
+ optionalConstructorInitializerList
+ blockStatement,
createNode: node =>
{
var result = new Members.ConstructorDeclaration();
if (node.Children[0].HasChildren)
result.CustomAttributeSections.AddRange(node.Children[0].Children[0].GetAllListAstNodes<CustomAttributeSection>());
if (node.Children[1].HasChildren)
result.ModifierElements.AddRange(node.Children[1].Children[0].GetAllListAstNodes<ModifierElement>());
result.Identifier = ToIdentifier(node.Children[2].Result);
result.LeftParenthese = (AstToken) node.Children[3].Result;
if (node.Children[4].HasChildren)
{
foreach (var subNode in node.Children[4].Children[0].GetAllListAstNodes())
{
if (subNode is AstToken)
result.AddChild(AstNodeTitles.ElementSeparator, subNode);
else
result.Parameters.Add((ParameterDeclaration) subNode);
}
}
result.RightParenthese = (AstToken) node.Children[5].Result;
if (node.Children[6].HasChildren)
{
result.Colon = (AstToken) node.Children[6].Children[0].Result;
result.Initializer = (Members.ConstructorInitializer) node.Children[6].Children[1].Result;
}
result.Body = (BlockStatement) node.Children[7].Result;
return result;
});
var conversionOperator = new GrammarDefinition("ConversionOperator",
rule: ToElement(IMPLICIT)
| ToElement(EXPLICIT));
var conversionOperatorDeclaration = new GrammarDefinition("ConversionOperatorDeclaration",
rule: customAttributeSectionListOptional
+ modifierListOptional
+ conversionOperator
+ ToElement(OPERATOR)
+ ToElement(IDENTIFIER)
+ ToElement(OPEN_PARENS)
+ optionalParameterDeclarationList
+ ToElement(CLOSE_PARENS)
+ blockStatement,
createNode: node =>
{
var result = new OperatorDeclaration();
if (node.Children[0].HasChildren)
result.CustomAttributeSections.AddRange(node.Children[0].Children[0].GetAllListAstNodes<CustomAttributeSection>());
if (node.Children[1].HasChildren)
result.ModifierElements.AddRange(node.Children[1].Children[0].GetAllListAstNodes<ModifierElement>());
result.Identifier = ToIdentifier(node.Children[2].Result);
result.OperatorType = CSharpLanguage.OperatorDeclarationTypeFromString(result.Identifier.Name);
result.OperatorKeyword = (AstToken) node.Children[3].Result;
result.ReturnType = ToTypeReference(ToIdentifier(node.Children[4].Result));
result.LeftParenthese = (AstToken)node.Children[5].Result;
if (node.Children[6].HasChildren)
{
foreach (var subNode in node.Children[6].Children[0].GetAllListAstNodes())
{
if (subNode is AstToken)
result.AddChild(AstNodeTitles.ElementSeparator, subNode);
else
result.Parameters.Add((ParameterDeclaration)subNode);
}
}
result.RightParenthese = (AstToken) node.Children[7].Result;
result.Body = (BlockStatement) node.Children[8].Result;
return result;
});
var overloadableOperator = new GrammarDefinition("OverloadableOperator",
rule: ToElement(PLUS)
| ToElement(MINUS)
| ToElement(STAR)
| ToElement(DIV)
| ToElement(PERCENT)
| ToElement(BITWISE_AND)
| ToElement(BITWISE_OR)
| ToElement(CARRET)
| ToElement(OP_EQUALS)
| ToElement(OP_NOTEQUALS)
| ToElement(OP_GT)
| ToElement(OP_GE)
| ToElement(OP_LT)
| ToElement(OP_LE)
| ToElement(OP_SHIFT_LEFT)
| ToElement(OP_SHIFT_RIGHT)
| ToElement(TRUE)
| ToElement(FALSE)
| ToElement(BANG)
| ToElement(TILDE)
| ToElement(OP_INC)
| ToElement(OP_DEC));
var arithmeticOperatorDeclaration = new GrammarDefinition("ArithmeticOperatorDeclaration",
rule: customAttributeSectionListOptional
+ modifierListOptional
+ typeReference
+ ToElement(OPERATOR)
+ overloadableOperator
+ ToElement(OPEN_PARENS)
+ optionalParameterDeclarationList
+ ToElement(CLOSE_PARENS)
+ blockStatement,
createNode: node =>
{
var result = new OperatorDeclaration();
if (node.Children[0].HasChildren)
result.CustomAttributeSections.AddRange(node.Children[0].Children[0].GetAllListAstNodes<CustomAttributeSection>());
if (node.Children[1].HasChildren)
result.ModifierElements.AddRange(node.Children[1].Children[0].GetAllListAstNodes<ModifierElement>());
result.ReturnType = (TypeReference) node.Children[2].Result;
result.OperatorKeyword = (AstToken)node.Children[3].Result;
result.Identifier = ToIdentifier(node.Children[4].Result);
result.LeftParenthese = (AstToken)node.Children[5].Result;
if (node.Children[6].HasChildren)
{
foreach (var subNode in node.Children[6].Children[0].GetAllListAstNodes())
{
if (subNode is AstToken)
result.AddChild(AstNodeTitles.ElementSeparator, subNode);
else
result.Parameters.Add((ParameterDeclaration)subNode);
}
}
result.RightParenthese = (AstToken)node.Children[7].Result;
result.OperatorType = CSharpLanguage.OperatorDeclarationTypeFromString(result.Identifier.Name);
if (result.Parameters.Count == 2)
{
if (result.OperatorType == OperatorDeclarationType.Positive)
result.OperatorType = OperatorDeclarationType.Add;
else if (result.OperatorType == OperatorDeclarationType.Negative)
result.OperatorType = OperatorDeclarationType.Subtract;
}
result.Body = (BlockStatement)node.Children[8].Result;
return result;
});
var operatorDeclaration = new GrammarDefinition("OperatorDeclaration",
rule: conversionOperatorDeclaration | arithmeticOperatorDeclaration);
var methodDeclarationBody = new GrammarDefinition("MethodDeclarationBody",
rule: ToElement(SEMICOLON) | blockStatement);
var methodDeclaration = new GrammarDefinition("MethodDeclaration",
rule: customAttributeSectionListOptional
+ modifierListOptional
+ typeReference
+ ToElement(IDENTIFIER)
+ ToElement(OPEN_PARENS)
+ optionalParameterDeclarationList
+ ToElement(CLOSE_PARENS)
+ methodDeclarationBody,
createNode: node =>
{
var result = new MethodDeclaration();
if (node.Children[0].HasChildren)
result.CustomAttributeSections.AddRange(node.Children[0].Children[0].GetAllListAstNodes<CustomAttributeSection>());
if (node.Children[1].HasChildren)
result.ModifierElements.AddRange(node.Children[1].Children[0].GetAllListAstNodes<ModifierElement>());
result.ReturnType = (TypeReference) node.Children[2].Result;
result.Identifier = ToIdentifier(node.Children[3].Result);
result.LeftParenthese = (AstToken) node.Children[4].Result;
if (node.Children[5].HasChildren)
{
foreach (var subNode in node.Children[5].Children[0].GetAllListAstNodes())
{
if (subNode is AstToken)
result.AddChild(AstNodeTitles.ElementSeparator, subNode);
else
result.Parameters.Add((ParameterDeclaration) subNode);
}
}
result.RightParenthese = (AstToken) node.Children[6].Result;
var body = node.Children[7].Result;
if (body is AstToken)
result.AddChild(AstNodeTitles.Semicolon, (AstToken) body);
else
result.Body = (BlockStatement) body;
return result;
});
var eventDeclaration = new GrammarDefinition("EventDeclaration",
rule: customAttributeSectionListOptional
+ modifierListOptional
+ ToElement(EVENT)
+ typeReference
+ variableDeclaratorList
+ ToElement(SEMICOLON),
createNode: node =>
{
var result = new EventDeclaration();
if (node.Children[0].HasChildren)
result.CustomAttributeSections.AddRange(node.Children[0].Children[0].GetAllListAstNodes<CustomAttributeSection>());
if (node.Children[1].HasChildren)
result.ModifierElements.AddRange(node.Children[1].Children[0].GetAllListAstNodes<ModifierElement>());
result.EventKeyword = (AstToken) node.Children[2].Result;
result.EventType = (TypeReference) node.Children[3].Result;
foreach (var subNode in node.Children[4].GetAllListAstNodes())
{
if (subNode is AstToken)
result.AddChild(AstNodeTitles.ElementSeparator, subNode);
else
result.Declarators.Add((VariableDeclarator) subNode);
}
result.AddChild(AstNodeTitles.Semicolon, node.Children[5].Result);
return result;
});
var accessorKeyword = new GrammarDefinition("AccessorKeyword",
rule: ToElement(GET)
| ToElement(SET));
var accessorBody = new GrammarDefinition("AccessorBody",
rule: ToElement(SEMICOLON)
| blockStatement);
var accessorDeclaration = new GrammarDefinition("AccessorDeclaration",
rule: customAttributeSectionListOptional
+ modifierListOptional
+ accessorKeyword
+ accessorBody,
createNode: node =>
{
var result = new AccessorDeclaration();
if (node.Children[0].HasChildren)
result.CustomAttributeSections.AddRange(node.Children[0].Children[0].GetAllListAstNodes<CustomAttributeSection>());
if (node.Children[1].HasChildren)
result.ModifierElements.AddRange(node.Children[1].Children[0].GetAllListAstNodes<ModifierElement>());
result.AccessorKeyword = (AstToken) node.Children[2].Children[0].Result;
var bodyNode = node.Children[3].Children[0].Result;
if (bodyNode is AstToken)
result.AddChild(AstNodeTitles.Semicolon, bodyNode);
else
result.Body = (BlockStatement) bodyNode;
return result;
});
var accessorDeclarationList = new GrammarDefinition("AccessorDeclarationList");
accessorDeclarationList.Rule = accessorDeclaration | accessorDeclaration + accessorDeclaration;
var propertyDeclaration = new GrammarDefinition("PropertyDeclaration",
rule: customAttributeSectionListOptional
+ modifierListOptional
+ typeReference
+ ToElement(IDENTIFIER)
+ ToElement(OPEN_BRACE)
+ accessorDeclarationList
+ ToElement(CLOSE_BRACE),
createNode: node =>
{
var result = new PropertyDeclaration();
if (node.Children[0].HasChildren)
result.CustomAttributeSections.AddRange(node.Children[0].Children[0].GetAllListAstNodes<CustomAttributeSection>());
if (node.Children[1].HasChildren)
result.ModifierElements.AddRange(node.Children[1].Children[0].GetAllListAstNodes<ModifierElement>());
result.PropertyType = (TypeReference) node.Children[2].Result;
result.Identifier = ToIdentifier(node.Children[3].Result);
result.StartScope = node.Children[4].Result;
foreach (var accessor in node.Children[5].Children)
{
var declaration = (AccessorDeclaration) accessor.Result;
// TODO: detect duplicate accessor declarations.
switch (declaration.AccessorKeyword.Value)
{
case "get":
result.Getter = declaration;
break;
case "set":
result.Setter = declaration;
break;
}
}
result.EndScope = node.Children[6].Result;
return result;
});
var memberDeclaration = new GrammarDefinition("MemberDeclaration");
var memberDeclarationList = new GrammarDefinition("MemberDeclarationList");
memberDeclarationList.Rule = memberDeclaration | memberDeclarationList + memberDeclaration;
var memberDeclarationListOptional = new GrammarDefinition("MemberDeclarationListOptional");
memberDeclarationListOptional.Rule = null | memberDeclarationList;
var baseTypeList = new GrammarDefinition("BaseTypeList");
baseTypeList.Rule = typeReference | baseTypeList + ToElement(COMMA) + typeReference;
var optionalBaseTypeList = new GrammarDefinition("OptionalBaseTypeList");
optionalBaseTypeList.Rule = null | ToElement(COLON) + baseTypeList;
var typeVariantKeyword = new GrammarDefinition("TypeVariantKeyword",
rule: ToElement(CLASS)
| ToElement(STRUCT)
| ToElement(INTERFACE)
| ToElement(ENUM));
var typeDeclaration = new GrammarDefinition("TypeDeclaration",
rule: customAttributeSectionListOptional
+ modifierListOptional
+ typeVariantKeyword
+ ToElement(IDENTIFIER)
+ optionalBaseTypeList
+ ToElement(OPEN_BRACE)
+ memberDeclarationListOptional
+ ToElement(CLOSE_BRACE),
createNode: node =>
{
var result = new TypeDeclaration();
if (node.Children[0].HasChildren)
result.CustomAttributeSections.AddRange(node.Children[0].Children[0].GetAllListAstNodes<CustomAttributeSection>());
if (node.Children[1].HasChildren)
result.ModifierElements.AddRange(node.Children[1].Children[0].GetAllListAstNodes<ModifierElement>());
var variantToken = (AstToken) node.Children[2].Children[0].Result;
result.TypeVariant = CSharpLanguage.TypeVariantFromString(variantToken.Value);
result.TypeVariantToken = variantToken;
result.Identifier = ToIdentifier(node.Children[3].Result);
if (node.Children[4].HasChildren)
{
result.AddChild(AstNodeTitles.Colon, node.Children[4].Children[0].Result);
foreach (var child in node.Children[4].Children[1].GetAllListAstNodes())
{
if (child is AstToken)
result.AddChild(AstNodeTitles.ElementSeparator, child);
else
result.BaseTypes.Add((TypeReference) child);
}
}
result.StartScope = node.Children[5].Result;
if (node.Children[6].HasChildren)
{
result.Members.AddRange(node.Children[6].Children[0].GetAllListAstNodes<MemberDeclaration>());
}
result.EndScope = node.Children[7].Result;
return result;
});
memberDeclaration.Rule = methodDeclaration
| constructorDeclaration
| operatorDeclaration
| propertyDeclaration
| eventDeclaration
| fieldDeclaration
| typeDeclaration
;
var typeOrNamespaceDeclarationList = new GrammarDefinition("TypeOrNamespaceDeclarationList");
var typeOrNamespaceDeclarationListOptional = new GrammarDefinition("TypeOrNamespaceDeclarationListOptional",
rule: null | typeOrNamespaceDeclarationList);
var namespaceDeclaration = new GrammarDefinition("NamespaceDeclaration",
rule: ToElement(NAMESPACE)
+ typeNameExpression
+ ToElement(OPEN_BRACE)
+ usingDirectiveListOptional
+ typeOrNamespaceDeclarationListOptional
+ ToElement(CLOSE_BRACE),
createNode: node =>
{
var result = new NamespaceDeclaration();
result.Keyword = (AstToken) node.Children[0].Result;
result.Identifier = ((IConvertibleToIdentifier) node.Children[1].Result).ToIdentifier();
result.StartScope = node.Children[2].Result;
if (node.Children[3].HasChildren)
{
result.UsingDirectives.AddRange(node.Children[3].Children[0].GetAllListAstNodes<UsingDirective>());
}
if (node.Children[4].HasChildren)
{
foreach (var subNode in node.Children[4].Children[0].GetAllListAstNodes())
{
var type = subNode as TypeDeclaration;
if (type != null)
result.Types.Add(type);
else
result.Namespaces.Add((NamespaceDeclaration) subNode);
}
}
result.EndScope = node.Children[5].Result;
return result;
});
var typeOrNamespaceDeclaration = new GrammarDefinition("TypeOrNamespaceDeclaration",
rule: namespaceDeclaration
| typeDeclaration);
typeOrNamespaceDeclarationList.Rule = typeOrNamespaceDeclaration
| typeOrNamespaceDeclarationList
+ typeOrNamespaceDeclaration;
#endregion
#region Initialize definitions
var variableInitializerList = new GrammarDefinition("VariableInitializerList");
variableInitializerList.Rule = variableInitializer
| variableInitializerList
+ ToElement(COMMA)
+ variableInitializer;
var variableInitializerListOptional = new GrammarDefinition("VariableInitializerListOptional",
rule: null | variableInitializerList);
arrayInitializer.Rule = ToElement(OPEN_BRACE)
+ variableInitializerListOptional
+ ToElement(CLOSE_BRACE)
| ToElement(OPEN_BRACE)
+ variableInitializerList
+ ToElement(COMMA)
+ ToElement(CLOSE_BRACE);
arrayInitializer.ComputeResult = node =>
{
var result = new ArrayInitializer();
result.OpeningBrace = node.Children[0].Result;
ParserNode initializersNode = null;
if (node.Children.Count == 4)
{
initializersNode = node.Children[1];
}
else
{
if (node.Children[1].HasChildren)
initializersNode = node.Children[1].Children[0];
}
if (initializersNode != null)
{
foreach (var element in initializersNode.GetAllListAstNodes())
{
if (element is AstToken)
result.AddChild(AstNodeTitles.ElementSeparator, element);
else
result.Elements.Add((Expression) element);
}
}
if (node.Children.Count == 4)
result.AddChild(AstNodeTitles.ElementSeparator, node.Children[2].Result);
result.ClosingBrace = node.Children[node.Children.Count - 1].Result;
return result;
};
variableInitializer.Rule = expression
| arrayInitializer
;
var variableType = new GrammarDefinition("VariableType");
variableType.Rule = typeNameExpression | variableType + rankSpecifier | variableType + ToElement(STAR);
variableType.ComputeResult = node =>
{
var type = ToTypeReference((IConvertibleToType) node.Children[0].Result);
if (node.Children.Count > 1)
{
var specifier = node.Children[1].Result as ArrayTypeRankSpecifier;
if (specifier != null)
{
type = new ArrayTypeReference(type, specifier);
}
else
{
type = new PointerTypeReference(type)
{
PointerToken = (AstToken) node.Children[1].Result
};
}
}
return type;
};
// Types are recognized as expressions to prevent a conflict in the grammar.
// TODO: also support array and pointer types.
variableDeclaration.Rule =
variableType
+ variableDeclaratorList;
variableDeclaration.ComputeResult = node =>
{
var result = new VariableDeclarationStatement();
result.VariableType = ToTypeReference((IConvertibleToType)node.Children[0].Result);
foreach (var subNode in node.Children[1].GetAllListAstNodes())
{
if (subNode is AstToken)
result.AddChild(AstNodeTitles.ElementSeparator, subNode);
else
result.Declarators.Add((VariableDeclarator) subNode);
}
return result;
};
statementList.Rule = statement | statementList + statement;
#endregion
#region Root compilation unit
var usingNamespaceDirective = new GrammarDefinition("UsingNamespaceDirective",
rule: ToElement(USING)
+ namespaceOrTypeExpression
+ ToElement(SEMICOLON),
createNode: node =>
{
var result = new UsingNamespaceDirective();
result.UsingKeyword = (AstToken) node.Children[0].Result;
result.NamespaceIdentifier = ((IConvertibleToIdentifier) node.Children[1].Result).ToIdentifier();
result.AddChild(AstNodeTitles.Semicolon, node.Children[2].Result);
return result;
});
var usingAliasDirective = new GrammarDefinition("UsingAliasDirective",
rule: ToElement(USING)
+ ToElement(IDENTIFIER)
+ ToElement(EQUALS)
+ typeReference
+ ToElement(SEMICOLON),
createNode: node =>
{
var result = new UsingAliasDirective
{
UsingKeyword = (AstToken) node.Children[0].Result,
AliasIdentifier = ToIdentifier(node.Children[1].Result),
OperatorToken = (AstToken) node.Children[2].Result,
TypeImport = (TypeReference) node.Children[3].Result
};
result.AddChild(AstNodeTitles.Semicolon, node.Children[4].Result);
return result;
});
var usingDirective = new GrammarDefinition("UsingNamespaceDirective",
rule: usingNamespaceDirective | usingAliasDirective);
var usingDirectiveList = new GrammarDefinition("UsingDirectiveList");
usingDirectiveList.Rule = usingDirective | usingDirectiveList + usingDirective;
usingDirectiveListOptional.Rule = null | usingDirectiveList;
var compilationUnit = new GrammarDefinition("CompilationUnit",
rule: usingDirectiveListOptional
+ typeOrNamespaceDeclarationListOptional,
createNode: node =>
{
var result = new CompilationUnit();
if (node.Children[0].HasChildren)
{
result.UsingDirectives.AddRange(node.Children[0].Children[0].GetAllListAstNodes<UsingDirective>());
}
if (node.Children[1].HasChildren)
{
foreach (var subNode in node.Children[1].Children[0].GetAllListAstNodes())
{
var typeDecl = subNode as TypeDeclaration;
if (typeDecl == null)
result.Namespaces.Add((NamespaceDeclaration) subNode);
else
result.Types.Add(typeDecl);
}
}
return result;
});
#endregion
RootDefinitions.Add(DefaultRoot = compilationUnit);
RootDefinitions.Add(MemberDeclarationRule = memberDeclaration);
RootDefinitions.Add(StatementRule = statement);
}
public void ReturnStatementTest()
{
ReturnStatement returnStatement = ParseUtilCSharp.ParseStatement <ReturnStatement>("return 5;");
Assert.IsTrue(returnStatement.Expression is PrimitiveExpression);
}
public virtual void VisitReturnStatement (ReturnStatement returnStatement)
{
VisitChildren (returnStatement);
}
public void ReturnStatementTest1()
{
ReturnStatement returnStatement = ParseUtilCSharp.ParseStatement <ReturnStatement>("return yield;");
Assert.IsTrue(returnStatement.Expression is IdentifierExpression);
}
public void VisitReturnStatement(ReturnStatement returnStatement)
{
StartNode(returnStatement);
WriteKeyword(ReturnStatement.ReturnKeywordRole);
if (!returnStatement.Expression.IsNull) {
Space();
returnStatement.Expression.AcceptVisitor(this);
}
Semicolon();
EndNode(returnStatement);
}
public override void visit_return_statement(ReturnStatement stmt)
{
stmt.accept_children(this);
}
public override void Accept(ReturnStatement returnStmt)
{
errorLog.AddError(ErrorType.ParserError, returnStmt.Location,
"statement can not exist inside pattern!");
}
public virtual R Accept(ReturnStatement element, A data)
{
return(Accept((Base)element, data));
}
public virtual void Visit(ReturnStatement expression)
{
if (expression.Expression != null)
{
outStream.Write("return ");
expression.Expression.Accept(this);
}
else
outStream.Write("return");
}
public override object VisitReturnStatement(ReturnStatement returnStatement, object data)
{
returnExpressions.Add(returnStatement.Expression);
return(base.VisitReturnStatement(returnStatement, data));
}
/// <summary>
/// Generates the code for a ReturnStatement node.
/// </summary>
/// <param name="rs">The ReturnStatement node.</param>
/// <returns>String containing C# code for ReturnStatement rs.</returns>
private string GenerateReturnStatement(ReturnStatement rs)
{
StringBuilder retVal = new StringBuilder();
bool dump = FuncCallsMarc();
if (IsParentEnumerable)
{
retVal.Append(GenerateLine("{ "));
if (rs.kids.Count == 0)
retVal.Append(GenerateLine("yield break;", rs));
else
{
retVal.Append(Generate(string.Format("yield return ({0})(", _currentGlobalFunctionDeclaration.ReturnType), rs));
foreach (SYMBOL kid in rs.kids)
retVal.Append(GenerateNode(kid));
retVal.Append(GenerateLine(");", null));
retVal.Append(GenerateLine("yield break;", null));
}
retVal.Append(GenerateLine("}"));
}
else
{
retVal.Append(Generate(string.Format("return ({0})", _currentGlobalFunctionDeclaration.ReturnType), rs));
foreach (SYMBOL kid in rs.kids)
retVal.Append(GenerateNode(kid));
}
if (dump)
return DumpFunc(dump) + retVal.ToString() + DumpAfterFunc(dump);
return retVal.ToString();
}
public override bool Walk(ReturnStatement node) => Save(node, base.Walk(node), "return");
public void VisitReturn(ReturnStatement r)
{
if (r.Expression != null)
gen.Return(r.Expression.Accept(xlat));
else
gen.Return();
}
public virtual object VisitReturnStatement(ReturnStatement returnStatement, object data)
{
throw new global::System.NotImplementedException("ReturnStatement");
}
public virtual void Exit(ReturnStatement node)
{
}
public override bool Walk(ReturnStatement node)
{
UpdateChildRanges(node);
return(base.Walk(node));
}
public override void VisitReturnStatement(ReturnStatement returnStatement) {
if (!returnStatement.Expression.IsNull) {
var expr = CompileExpression(returnStatement.Expression, CompileExpressionFlags.ReturnValueIsImportant | CompileExpressionFlags.IsAssignmentSource);
_result.AddRange(expr.AdditionalStatements);
_result.Add(JsStatement.Return(expr.Expression));
}
else {
_result.Add(JsStatement.Return());
}
}
internal string DoStatement(Statement s)
{
if (s is AssignmentStatement && !(s is AugmentedAssignmentStatement))
{
AssignmentStatement a = s as AssignmentStatement;
StringBuilder sb = new StringBuilder();
if (a.IsLocal)
{
sb.Append("local ");
}
for (int i = 0; i < a.Lhs.Count; i++)
{
sb.Append(DoExpr(a.Lhs[i]));
if (i != a.Lhs.Count - 1)
{
sb.Append(",");
}
}
if (a.Rhs.Count > 0)
{
sb.Append("=");
for (int i = 0; i < a.Rhs.Count; i++)
{
sb.Append(DoExpr(a.Rhs[i]));
if (i != a.Rhs.Count - 1)
{
sb.Append(",");
}
}
}
return(sb.ToString());
}
else if (s is AugmentedAssignmentStatement)
{
AugmentedAssignmentStatement a = s as AugmentedAssignmentStatement;
StringBuilder sb = new StringBuilder();
//sb.Append(DoExpr(a.Lhs[0]));
if (a.IsLocal)
{
sb.Append("local ");
}
Expression assignment = ((BinOpExpr)a.Rhs[0]).Rhs;
sb.Append(DoExpr((((BinOpExpr)a.Rhs[0]).Lhs)));
sb.Append("" + ((BinOpExpr)a.Rhs[0]).Op + "=");
sb.Append(DoExpr(assignment));
return(sb.ToString());
}
else if (s is BreakStatement)
{
// HAHAHA this is incredibly simple...
return("break");
}
else if (s is ContinueStatement)
{
return("continue");
}
else if (s is CallStatement)
{
// Also incredibly simple...
CallStatement c = s as CallStatement;
return(DoExpr(c.Expression));
}
else if (s is DoStatement)
{
DoStatement d = s as DoStatement;
StringBuilder sb = new StringBuilder();
sb.Append("do ");
sb.Append(DoChunk(d.Body));
sb.Append("end");
return(sb.ToString());
}
else if (s is GenericForStatement)
{
GenericForStatement g = s as GenericForStatement;
StringBuilder sb = new StringBuilder();
sb.Append("for ");
for (int i = 0; i < g.VariableList.Count; i++)
{
sb.Append(g.VariableList[i].Name);
if (i != g.VariableList.Count - 1)
{
sb.Append(",");
}
}
sb.Append(" in ");
for (int i = 0; i < g.Generators.Count; i++)
{
sb.Append(DoExpr(g.Generators[i]));
if (i != g.Generators.Count - 1)
{
sb.Append(",");
}
}
sb.Append(" do ");
sb.Append(DoChunk(g.Body));
sb.Append("end");
return(sb.ToString());
}
else if (s is NumericForStatement)
{
NumericForStatement n = s as NumericForStatement;
StringBuilder sb = new StringBuilder();
sb.Append("for ");
sb.Append(n.Variable.Name);
sb.Append("=");
sb.Append(DoExpr(n.Start));
sb.Append(",");
sb.Append(DoExpr(n.End));
if (n.Step != null)
{
sb.Append(",");
sb.Append(DoExpr(n.Step));
}
sb.Append(" do ");
sb.Append(DoChunk(n.Body));
sb.Append("end");
return(sb.ToString());
}
else if (s is FunctionStatement)
{
FunctionStatement f = s as FunctionStatement;
StringBuilder sb = new StringBuilder();
sb.Append("function " + DoExpr(f.Name) + "(");
for (int i = 0; i < f.Arguments.Count; i++)
{
sb.Append(f.Arguments[i].Name);
if (i != f.Arguments.Count - 1 || f.IsVararg)
{
sb.Append(",");
}
}
if (f.IsVararg)
{
sb.Append("...");
}
sb.Append(")");
sb.Append(DoChunk(f.Body));
sb.Append("end");
return(sb.ToString());
}
else if (s is GotoStatement)
{
GotoStatement g = s as GotoStatement;
return("goto " + g.Label);
}
else if (s is IfStmt)
{
IfStmt i = s as IfStmt;
StringBuilder sb = new StringBuilder();
for (int x = 0; x < i.Clauses.Count; x++)
{
string ss = DoStatement(i.Clauses[x]);
if (x == 0)
{
sb.Append("if ");
sb.Append(ss);
}
else if (i.Clauses[x] is ElseStmt)
{
sb.Append(" else ");
sb.Append(ss);
}
else
{
sb.Append("elseif " + ss);
}
}
sb.Append("end");
return(sb.ToString());
}
else if (s is LabelStatement)
{
LabelStatement l = s as LabelStatement;
return("::" + l.Label + "::");
}
else if (s is RepeatStatement)
{
RepeatStatement r = s as RepeatStatement;
StringBuilder sb = new StringBuilder();
sb.Append("repeat ");
sb.Append(DoChunk(r.Body));
sb.Append(" until " + DoExpr(r.Condition));
return(sb.ToString());
}
else if (s is ReturnStatement)
{
ReturnStatement r = s as ReturnStatement;
StringBuilder sb = new StringBuilder();
sb.Append("return ");
for (int i = 0; i < r.Arguments.Count; i++)
{
sb.Append(DoExpr(r.Arguments[i]));
if (i != r.Arguments.Count - 1)
{
sb.Append(",");
}
}
return(sb.ToString());
}
else if (s is UsingStatement)
{
UsingStatement u = s as UsingStatement;
StringBuilder sb = new StringBuilder();
sb.Append("using ");
sb.Append(DoStatement(u.Vars));
sb.Append(" do ");
sb.Append(DoChunk(u.Body));
sb.Append("end");
return(sb.ToString());
}
else if (s is WhileStatement)
{
WhileStatement w = s as WhileStatement;
StringBuilder sb = new StringBuilder();
sb.Append("while ");
sb.Append(DoExpr(w.Condition));
sb.Append(" do ");
sb.Append(DoChunk(w.Body));
sb.Append("end");
return(sb.ToString());
}
else if (s is ElseIfStmt)
{
ElseIfStmt e = s as ElseIfStmt;
string s2 = DoExpr(e.Condition) + " then ";
s2 += DoChunk(e.Body);
return(s2);
}
else if (s is ElseStmt)
{
return(DoChunk(((ElseStmt)s).Body));
}
throw new NotImplementedException(s.GetType().Name + " is not implemented");
}
public override bool Enter(ReturnStatement node)
{
Print("ReturnStatement");
level++;
return true;
}
public override void ExplicitVisit(ReturnStatement node)
{
this.ReturnStatements.Add(node);
}
public virtual void Visit(ReturnStatement s)
{
VisitAbstractStmt(s);
if (s.ReturnExpression != null)
s.ReturnExpression.Accept(this);
}
// ReturnStatement
public virtual bool Walk(ReturnStatement node) { return true; }
protected internal virtual void PostWalk(ReturnStatement node) { }
// ReturnStatement
public override bool Walk(ReturnStatement node) { return false; }
public virtual void Accept(ReturnStatement returnStmt)
{
}
public object Visit(ReturnStatement obj)
{
throw new NotImplementedException();
}
public virtual void PostWalk(ReturnStatement node) { }
public void ReturnStatementProducesReturnWithoutValue()
{
var statement = new ReturnStatement();
Assert.AreEqual("return;", statement.ToString());
}
public override void PostWalk(ReturnStatement node) { }
public override ControlFlowNode VisitReturnStatement(ReturnStatement returnStatement, ControlFlowNode data)
{
return(builder.CreateEndNode(returnStatement)); // end not connected with data
}
public void VisitReturnStatement(ReturnStatement returnStmt)
{
returnStmt.Expression.AcceptWalker(this);
}
public override void VisitReturnStatement(ReturnStatement returnStatement)
{
base.VisitReturnStatement(returnStatement);
if (skip)
{
return;
}
if (returnStatement.Expression.IsNull)
{
var entity = returnStatement.GetParent <EntityDeclaration>();
if (entity is Accessor)
{
entity = entity.GetParent <EntityDeclaration>();
}
if (entity == null)
{
return;
}
AstNode entityNode;
var rr = GetRequestedReturnType(ctx, returnStatement, out entityNode);
if (rr.Kind == TypeKind.Void)
{
return;
}
var actions = new List <CodeAction>();
if (rr.Kind != TypeKind.Unknown)
{
actions.Add(new CodeAction(ctx.TranslateString("Return default value"), script => {
Expression p;
if (rr.IsKnownType(KnownTypeCode.Boolean))
{
p = new PrimitiveExpression(false);
}
else if (rr.IsKnownType(KnownTypeCode.String))
{
p = new PrimitiveExpression("");
}
else if (rr.IsKnownType(KnownTypeCode.Char))
{
p = new PrimitiveExpression(' ');
}
else if (rr.IsReferenceType == true)
{
p = new NullReferenceExpression();
}
else if (rr.GetDefinition() != null &&
rr.GetDefinition().KnownTypeCode < KnownTypeCode.DateTime)
{
p = new PrimitiveExpression(0x0);
}
else
{
p = new DefaultValueExpression(ctx.CreateTypeSystemAstBuilder(returnStatement).ConvertType(rr));
}
script.Replace(returnStatement, new ReturnStatement(p));
}, returnStatement));
}
var method = returnStatement.GetParent <MethodDeclaration>();
if (method != null)
{
actions.Add(new CodeAction(ctx.TranslateString("Change method return type to 'void'"), script => {
script.Replace(method.ReturnType, new PrimitiveType("sub"));
}, returnStatement));
}
AddIssue(new CodeIssue(
returnStatement,
string.Format(ctx.TranslateString("`{0}': A return keyword must be followed by any expression when method returns a value"), currentMethodName),
actions
));
}
}
public void AcceptReturn(ReturnStatement stmt)
{
Check(stmt);
}
public override void Complete(CompletionContext context)
{
if (declarationBegin > context.StartOffset)
{
base.Complete(context);
return;
}
TypeSystemAstBuilder b = new TypeSystemAstBuilder(contextAtCaret);
b.ShowTypeParameterConstraints = false;
b.GenerateBody = true;
var entityDeclaration = b.ConvertEntity(this.Entity);
entityDeclaration.Modifiers &= ~(Modifiers.Virtual | Modifiers.Abstract);
entityDeclaration.Modifiers |= Modifiers.Override;
var body = entityDeclaration.GetChildByRole(Roles.Body);
Statement baseCallStatement = body.Children.OfType <Statement>().FirstOrDefault();
if (!this.Entity.IsAbstract)
{
// modify body to call the base method
if (this.Entity.SymbolKind == SymbolKind.Method)
{
var baseCall = new BaseReferenceExpression().Invoke(this.Entity.Name, new Expression[] { });
if (((IMethod)this.Entity).ReturnType.IsKnownType(KnownTypeCode.Void))
{
baseCallStatement = new ExpressionStatement(baseCall);
}
else
{
baseCallStatement = new ReturnStatement(baseCall);
}
// Clear body of inserted method
entityDeclaration.GetChildByRole(Roles.Body).Statements.Clear();
}
}
var document = context.Editor.Document;
StringWriter w = new StringWriter();
var formattingOptions = CSharpFormattingPolicies.Instance.GetProjectOptions(contextAtCaret.Compilation.GetProject());
var segmentDict = SegmentTrackingOutputFormatter.WriteNode(
w, entityDeclaration, formattingOptions.OptionsContainer.GetEffectiveOptions(), context.Editor.Options);
using (document.OpenUndoGroup()) {
InsertionContext insertionContext = new InsertionContext(context.Editor.GetService(typeof(TextArea)) as TextArea, declarationBegin);
insertionContext.InsertionPosition = context.Editor.Caret.Offset;
string newText = w.ToString().TrimEnd();
document.Replace(declarationBegin, context.EndOffset - declarationBegin, newText);
var throwStatement = entityDeclaration.Descendants.FirstOrDefault(n => n is ThrowStatement);
if (throwStatement != null)
{
var segment = segmentDict[throwStatement];
context.Editor.Select(declarationBegin + segment.Offset, segment.Length);
}
CSharpFormatterHelper.Format(context.Editor, declarationBegin, newText.Length, formattingOptions.OptionsContainer);
var refactoringContext = SDRefactoringContext.Create(context.Editor, CancellationToken.None);
var typeResolveContext = refactoringContext.GetTypeResolveContext();
if (typeResolveContext == null)
{
return;
}
var resolvedCurrent = typeResolveContext.CurrentTypeDefinition;
IEditorUIService uiService = context.Editor.GetService(typeof(IEditorUIService)) as IEditorUIService;
ITextAnchor endAnchor = context.Editor.Document.CreateAnchor(context.Editor.Caret.Offset);
endAnchor.MovementType = AnchorMovementType.AfterInsertion;
ITextAnchor startAnchor = context.Editor.Document.CreateAnchor(context.Editor.Caret.Offset);
startAnchor.MovementType = AnchorMovementType.BeforeInsertion;
ITextAnchor insertionPos = context.Editor.Document.CreateAnchor(endAnchor.Offset);
insertionPos.MovementType = AnchorMovementType.BeforeInsertion;
var current = typeResolveContext.CurrentTypeDefinition;
AbstractInlineRefactorDialog dialog = new OverrideEqualsGetHashCodeMethodsDialog(insertionContext, context.Editor, endAnchor, insertionPos, current, Entity as IMethod, baseCallStatement);
dialog.Element = uiService.CreateInlineUIElement(insertionPos, dialog);
insertionContext.RegisterActiveElement(new InlineRefactorSnippetElement(cxt => null, ""), dialog);
insertionContext.RaiseInsertionCompleted(EventArgs.Empty);
}
}
public override void Complete(CompletionContext context)
{
if (declarationBegin > context.StartOffset) {
base.Complete(context);
return;
}
TypeSystemAstBuilder b = new TypeSystemAstBuilder(contextAtCaret);
b.ShowTypeParameterConstraints = false;
b.GenerateBody = true;
var entityDeclaration = b.ConvertEntity(this.Entity);
entityDeclaration.Modifiers &= ~(Modifiers.Virtual | Modifiers.Abstract);
entityDeclaration.Modifiers |= Modifiers.Override;
var body = entityDeclaration.GetChildByRole(Roles.Body);
Statement baseCallStatement = body.Children.OfType<Statement>().FirstOrDefault();
if (!this.Entity.IsAbstract) {
// modify body to call the base method
if (this.Entity.SymbolKind == SymbolKind.Method) {
var baseCall = new BaseReferenceExpression().Invoke(this.Entity.Name, new Expression[] { });
if (((IMethod)this.Entity).ReturnType.IsKnownType(KnownTypeCode.Void))
baseCallStatement = new ExpressionStatement(baseCall);
else
baseCallStatement = new ReturnStatement(baseCall);
// Clear body of inserted method
entityDeclaration.GetChildByRole(Roles.Body).Statements.Clear();
}
}
var document = context.Editor.Document;
StringWriter w = new StringWriter();
var formattingOptions = FormattingOptionsFactory.CreateSharpDevelop();
var segmentDict = SegmentTrackingOutputFormatter.WriteNode(w, entityDeclaration, formattingOptions, context.Editor.Options);
using (document.OpenUndoGroup()) {
InsertionContext insertionContext = new InsertionContext(context.Editor.GetService(typeof(TextArea)) as TextArea, declarationBegin);
insertionContext.InsertionPosition = context.Editor.Caret.Offset;
string newText = w.ToString().TrimEnd();
document.Replace(declarationBegin, context.EndOffset - declarationBegin, newText);
var throwStatement = entityDeclaration.Descendants.FirstOrDefault(n => n is ThrowStatement);
if (throwStatement != null) {
var segment = segmentDict[throwStatement];
context.Editor.Select(declarationBegin + segment.Offset, segment.Length);
}
CSharpFormatterHelper.Format(context.Editor, declarationBegin, newText.Length, formattingOptions);
var refactoringContext = SDRefactoringContext.Create(context.Editor, CancellationToken.None);
var typeResolveContext = refactoringContext.GetTypeResolveContext();
if (typeResolveContext == null) {
return;
}
var resolvedCurrent = typeResolveContext.CurrentTypeDefinition;
var entities = FindFieldsAndProperties(resolvedCurrent).ToList();
if (entities.Any()) {
IEditorUIService uiService = context.Editor.GetService(typeof(IEditorUIService)) as IEditorUIService;
ITextAnchor endAnchor = context.Editor.Document.CreateAnchor(context.Editor.Caret.Offset);
endAnchor.MovementType = AnchorMovementType.AfterInsertion;
ITextAnchor startAnchor = context.Editor.Document.CreateAnchor(context.Editor.Caret.Offset);
startAnchor.MovementType = AnchorMovementType.BeforeInsertion;
ITextAnchor insertionPos = context.Editor.Document.CreateAnchor(endAnchor.Offset);
insertionPos.MovementType = AnchorMovementType.BeforeInsertion;
AbstractInlineRefactorDialog dialog = new OverrideToStringMethodDialog(insertionContext, context.Editor, insertionPos, entities, baseCallStatement);
dialog.Element = uiService.CreateInlineUIElement(insertionPos, dialog);
insertionContext.RegisterActiveElement(new InlineRefactorSnippetElement(cxt => null, ""), dialog);
} else {
if (baseCallStatement != null) {
// Add default base call
MethodDeclaration insertedOverrideMethod = refactoringContext.GetNode().PrevSibling as MethodDeclaration;
if (insertedOverrideMethod == null)
{
// We are not inside of a method declaration
return;
}
using (Script script = refactoringContext.StartScript()) {
script.AddTo(insertedOverrideMethod.Body, baseCallStatement);
}
}
}
insertionContext.RaiseInsertionCompleted(EventArgs.Empty);
}
}
public override void PostWalk(ReturnStatement node)
{
}
