private static void Factory(OutputWriter writer, SyntaxNode node, bool isConst)
{
if (node is ConstructorInitializerSyntax)
{
WriteConstructorInitializer.Go(writer, node.As <ConstructorInitializerSyntax>());
}
else if (node is CheckedExpressionSyntax)
{
WriteChecked.Go(writer, node.As <CheckedExpressionSyntax>());
}
else if (node is CheckedStatementSyntax)
{
WriteChecked.Go(writer, node.As <CheckedStatementSyntax>());
}
else if (node is UnsafeStatementSyntax)
{
WriteUnsafeStatement.Go(writer, node.As <UnsafeStatementSyntax>());
}
else if (node is InitializerExpressionSyntax)
{
WriteInitializer.Go(writer, node.As <InitializerExpressionSyntax>());
}
else if (node is GotoStatementSyntax)
{
WriteGoto.Go(writer, node.As <GotoStatementSyntax>());
}
else if (node is CaseSwitchLabelSyntax)
{
WriteLabel.Go(writer, node.As <CaseSwitchLabelSyntax>());
}
else if (node is LabeledStatementSyntax)
{
WriteLabel.Go(writer, node.As <LabeledStatementSyntax>());
}
else if (node is OperatorDeclarationSyntax)
{
WriteOperatorDeclaration.Go(writer, node.As <OperatorDeclarationSyntax>());
}
else if (node is MethodDeclarationSyntax)
{
WriteMethod.Go(writer, node.As <MethodDeclarationSyntax>());
}
else if (node is PropertyDeclarationSyntax)
{
WriteProperty.Go(writer, node.As <PropertyDeclarationSyntax>());
}
else if (node is EventDeclarationSyntax)
{
WriteEvent.Go(writer, node.As <EventDeclarationSyntax>());
}
else if (node is FieldDeclarationSyntax)
{
WriteField.Go(writer, node.As <FieldDeclarationSyntax>());
}
else if (node is EventFieldDeclarationSyntax)
{
WriteField.Go(writer, node.As <EventFieldDeclarationSyntax>());
}
else if (node is ConstructorDeclarationSyntax)
{
WriteConstructorBody.Go(writer, node.As <ConstructorDeclarationSyntax>());
}
else if (node is ExpressionStatementSyntax)
{
WriteStatement(writer, node.As <ExpressionStatementSyntax>());
}
else if (node is FixedStatementSyntax)
{
WriteFixedStatement(writer, node.As <FixedStatementSyntax>());
}
else if (node is LocalDeclarationStatementSyntax)
{
WriteLocalDeclaration.Go(writer, node.As <LocalDeclarationStatementSyntax>());
}
else if (node is VariableDeclarationSyntax)
{
WriteVariableDeclaration.Go(writer, node.As <VariableDeclarationSyntax>());
}
else if (node is BlockSyntax)
{
WriteBlock(writer, node.As <BlockSyntax>());
}
else if (node is InvocationExpressionSyntax)
{
WriteInvocationExpression.Go(writer, node.As <InvocationExpressionSyntax>());
}
else if (node is LiteralExpressionSyntax)
{
WriteLiteralExpression.Go(writer, node.As <LiteralExpressionSyntax>(), isConst);
}
else if (node is IdentifierNameSyntax)
{
WriteIdentifierName.Go(writer, node.As <IdentifierNameSyntax>());
}
else if (node is ImplicitArrayCreationExpressionSyntax)
{
WriteArrayCreationExpression.Go(writer, node.As <ImplicitArrayCreationExpressionSyntax>());
}
else if (node is ArrayCreationExpressionSyntax)
{
WriteArrayCreationExpression.Go(writer, node.As <ArrayCreationExpressionSyntax>());
}
else if (node is MemberAccessExpressionSyntax)
{
WriteMemberAccessExpression.Go(writer, node.As <MemberAccessExpressionSyntax>());
}
else if (node is ParenthesizedLambdaExpressionSyntax)
{
WriteLambdaExpression.Go(writer, node.As <ParenthesizedLambdaExpressionSyntax>());
}
else if (node is SimpleLambdaExpressionSyntax)
{
WriteLambdaExpression.Go(writer, node.As <SimpleLambdaExpressionSyntax>());
}
else if (node is AnonymousMethodExpressionSyntax)
{
WriteLambdaExpression.Go(writer, node.As <AnonymousMethodExpressionSyntax>());
}
else if (node is ReturnStatementSyntax)
{
WriteReturnStatement.Go(writer, node.As <ReturnStatementSyntax>());
}
else if (node is ObjectCreationExpressionSyntax)
{
WriteObjectCreationExpression.Go(writer, node.As <ObjectCreationExpressionSyntax>());
}
else if (node is ElementAccessExpressionSyntax)
{
WriteElementAccessExpression.Go(writer, node.As <ElementAccessExpressionSyntax>());
}
else if (node is ForEachStatementSyntax)
{
WriteForEachStatement.Go(writer, node.As <ForEachStatementSyntax>());
}
else if (node is IfStatementSyntax)
{
WriteIfStatement.Go(writer, node.As <IfStatementSyntax>());
}
else if (node is BinaryExpressionSyntax)
{
WriteBinaryExpression.Go(writer, node.As <BinaryExpressionSyntax>());
}
else if (node is AssignmentExpressionSyntax)
{
WriteAssignmentExpression.Go(writer, node.As <AssignmentExpressionSyntax>());
}
else if (node is ConditionalExpressionSyntax)
{
WriteConditionalExpression.Go(writer, node.As <ConditionalExpressionSyntax>());
}
else if (node is BaseExpressionSyntax)
{
WriteBaseExpression.Go(writer, node.As <BaseExpressionSyntax>());
}
else if (node is ThisExpressionSyntax)
{
WriteThisExpression.Go(writer, node.As <ThisExpressionSyntax>());
}
else if (node is CastExpressionSyntax)
{
WriteCastExpression.Go(writer, node.As <CastExpressionSyntax>());
}
else if (node is ThrowStatementSyntax)
{
WriteThrowStatement.Go(writer, node.As <ThrowStatementSyntax>());
}
else if (node is EqualsValueClauseSyntax)
{
WriteEqualsValueClause.Go(writer, node.As <EqualsValueClauseSyntax>());
}
else if (node is ForStatementSyntax)
{
WriteForStatement.Go(writer, node.As <ForStatementSyntax>());
}
else if (node is WhileStatementSyntax)
{
WriteWhileStatement.Go(writer, node.As <WhileStatementSyntax>());
}
else if (node is BreakStatementSyntax)
{
WriteBreakStatement.Go(writer, node.As <BreakStatementSyntax>());
}
else if (node is ContinueStatementSyntax)
{
WriteContinueStatement.Go(writer, node.As <ContinueStatementSyntax>());
}
else if (node is DoStatementSyntax)
{
WriteDoStatement.Go(writer, node.As <DoStatementSyntax>());
}
else if (node is SwitchStatementSyntax)
{
WriteSwitchStatement.Go(writer, node.As <SwitchStatementSyntax>());
}
else if (node is TryStatementSyntax)
{
WriteTryStatement.Go(writer, node.As <TryStatementSyntax>());
}
else if (node is UsingStatementSyntax)
{
WriteUsingStatement.Go(writer, node.As <UsingStatementSyntax>());
}
else if (node is ParenthesizedExpressionSyntax)
{
WriteParenthesizedExpression.Go(writer, node.As <ParenthesizedExpressionSyntax>());
}
else if (node is LockStatementSyntax)
{
WriteLockStatement.Go(writer, node.As <LockStatementSyntax>());
}
else if (node is TypeOfExpressionSyntax)
{
WriteTypeOfExpression.Go(writer, node.As <TypeOfExpressionSyntax>());
}
else if (node is AnonymousObjectCreationExpressionSyntax)
{
WriteAnonymousObjectCreationExpression.Go(writer, node.As <AnonymousObjectCreationExpressionSyntax>());
}
else if (node is EmptyStatementSyntax)
{
return; //ignore empty statements
}
else if (node is DelegateDeclarationSyntax)
{
return; //don't write delegates - TypeProcessor converts them to function types directly
}
else if (node is DefaultExpressionSyntax)
{
WriteDefaultExpression.Go(writer, node.As <DefaultExpressionSyntax>());
}
else if (node is GenericNameSyntax)
{
WriteGenericName.Go(writer, node.As <GenericNameSyntax>());
}
else if (node is ConversionOperatorDeclarationSyntax)
{
WriteConversionOperatorDeclaration.Go(writer, node.As <ConversionOperatorDeclarationSyntax>());
}
else if (node is PrefixUnaryExpressionSyntax)
{
WriteUnaryExpression.WritePrefix(writer, node.As <PrefixUnaryExpressionSyntax>());
}
else if (node is PostfixUnaryExpressionSyntax)
{
WriteUnaryExpression.WritePostfix(writer, node.As <PostfixUnaryExpressionSyntax>());
}
else if (node is SizeOfExpressionSyntax)
{
WriteSizeOfExpression.Go(writer, node.As <SizeOfExpressionSyntax>());
}
else if (node is DestructorDeclarationSyntax)
{
WriteDestructorBody.WriteDestructor(writer, node.As <DestructorDeclarationSyntax>());
}
else if (node is IndexerDeclarationSyntax)
{
WriteIndexer.Go(writer, node.As <IndexerDeclarationSyntax>());
}
else if (node is StackAllocArrayCreationExpressionSyntax)
{
WriteStackArrayCreation.Go(writer, node.As <StackAllocArrayCreationExpressionSyntax>());
}
// writer.Write(node.ToFullString() + "//TODO: StackAlloc not supported yet");
else if (node is YieldStatementSyntax)
{
WriteYieldStatement.Go(writer, node.As <YieldStatementSyntax>());
}
else
{
throw new NotImplementedException(node.GetType().Name + " is not supported. " + Utility.Descriptor(node));
}
}
public static void Go(OutputWriter writer, SwitchStatementSyntax switchStatement)
{
// writer.WriteIndent();
var isStringSwitch = false;
var isEnumSwitch = false;
var symbol = TypeProcessor.GetTypeInfo(switchStatement.Expression);
if (symbol.Type != null) // Sometimes its null why ?
{
if (symbol.Type.SpecialType == SpecialType.System_String)
{
isStringSwitch = true;
}
if (symbol.Type.TypeKind == TypeKind.Enum)
{
isEnumSwitch = true;
}
}
if (!(switchStatement.Expression is LiteralExpressionSyntax))
{
writer.WriteLine("switch(" + Core.WriteString(switchStatement.Expression) + (isStringSwitch ? ".Hash" : "") + (isEnumSwitch ? ".__Value" : "") + ")");
}
else
{
var typeInfo = TypeProcessor.GetTypeInfo(switchStatement.Expression);
if (typeInfo.Type.SpecialType == SpecialType.System_String)
{
writer.WriteLine("switch(");
WriteLiteralExpression.Go(writer, (LiteralExpressionSyntax)switchStatement.Expression, true, true);
writer.WriteLine((isStringSwitch ? ".Hash" : "") + ")");
}
else
{
writer.WriteLine("switch(" + Core.WriteString(switchStatement.Expression) + (isStringSwitch ? ".Hash" : "") + (isEnumSwitch ? ".__Value" : "") + ")");
}
}
writer.OpenBrace();
//First process all blocks except the section with the default block
foreach (
var section in
switchStatement.Sections.Where(
o => o.Labels.None(z => z.Keyword.RawKind == (decimal)SyntaxKind.DefaultKeyword)))
{
foreach (var label in section.Labels)
{
writer.WriteIndent();
WriteLabel.Go(writer, (CaseSwitchLabelSyntax)label, isStringSwitch);
}
writer.OpenBrace(false);
foreach (var statement in section.Statements)
{
if (!(statement is BreakStatementSyntax))
{
writer.Write(Core.WriteString(statement, false, writer.Indent + 2));
}
}
writer.WriteLine("break;\r\n");
writer.CloseBrace(false);
}
//Now write the default section
var defaultSection =
switchStatement.Sections.SingleOrDefault(
o => o.Labels.Any(z => z.Keyword.RawKind == (decimal)SyntaxKind.DefaultKeyword));
if (defaultSection != null)
{
foreach (var label in defaultSection.Labels) // Could be more than one label :P
{
writer.WriteIndent();
if (label is CaseSwitchLabelSyntax)
{
WriteLabel.Go(writer, (CaseSwitchLabelSyntax)label, isStringSwitch);
}
else
{
writer.WriteLine(label.ToFullString().Trim());
}
}
// writer.WriteLine("default:");
writer.OpenBrace(false);
foreach (var statement in defaultSection.Statements)
{
if (!(statement is BreakStatementSyntax))
{
writer.Write(Core.WriteString(statement, false, writer.Indent + 2));
}
}
writer.WriteLine("break;");
writer.CloseBrace(false);
}
else
{
writer.WriteLine("default:");
writer.WriteLine("break;");
}
writer.CloseBrace();
}
public static void Go(OutputWriter writer, SwitchStatementSyntax switchStatement)
{
writer.WriteIndent();
var isStringSwitch = false;
var symbol = TypeProcessor.GetTypeInfo(switchStatement.Expression);
if (symbol.Type.SpecialType == SpecialType.System_String)
{
isStringSwitch = true;
}
writer.Write("switch( ");
Core.Write(writer, switchStatement.Expression);
writer.Write(isStringSwitch ? ".Text" : "");
writer.Write(" )\n");
writer.OpenBrace();
//First process all blocks except the section with the default block
foreach (
var section in
switchStatement.Sections.Where(
o => o.Labels.None(z => z.Keyword.RawKind == (decimal)SyntaxKind.DefaultKeyword)))
{
writer.WriteIndent();
foreach (var label in section.Labels)
{
//Core.Write(writer, label, true);
WriteLabel.Go(writer, (CaseSwitchLabelSyntax)label, isStringSwitch);
}
// writer.Write(" :\r\n");
writer.Indent++;
foreach (var statement in section.Statements)
{
if (!(statement is BreakStatementSyntax))
{
Core.Write(writer, statement);
}
}
writer.WriteLine("break;");
writer.Indent--;
}
//Now write the default section
var defaultSection =
switchStatement.Sections.SingleOrDefault(
o => o.Labels.Any(z => z.Keyword.RawKind == (decimal)SyntaxKind.DefaultKeyword));
if (defaultSection != null)
{
// if (defaultSection.Labels.Count > 1)
// throw new Exception("Cannot fall-through into or out of the default section of switch statement " + Utility.Descriptor(defaultSection));
writer.WriteLine("default:\r\n");
writer.Indent++;
foreach (var statement in defaultSection.Statements)
{
if (!(statement is BreakStatementSyntax))
{
Core.Write(writer, statement);
}
}
writer.WriteLine("break;");
writer.Indent--;
}
else
{
writer.WriteLine("default:\r\nbreak;\r\n");
}
writer.CloseBrace();
}