private ExpressionNode parsePrimaryExpression() { ExpressionNode result = null; switch (lexicalUnit) { case CharacterLiteral: result = createLiteralExpression(LiteralKind.Character); nextLexicalUnit(false); break; case DecimalIntegerLiteral: result = createLiteralExpression(LiteralKind.DecimalInteger); nextLexicalUnit(false); break; case DoubleLiteral: result = createLiteralExpression(LiteralKind.Double); nextLexicalUnit(false); break; case FloatLiteral: result = createLiteralExpression(LiteralKind.Float); nextLexicalUnit(false); break; case HexadecimalIntegerLiteral: result = createLiteralExpression(LiteralKind.HexadecimalInteger); nextLexicalUnit(false); break; case HexadecimalLongLiteral: result = createLiteralExpression(LiteralKind.HexadecimalLong); nextLexicalUnit(false); break; case LongLiteral: result = createLiteralExpression(LiteralKind.Long); nextLexicalUnit(false); break; case RealLiteral: result = createLiteralExpression(LiteralKind.Real); nextLexicalUnit(false); break; case StringLiteral: result = createLiteralExpression(LiteralKind.String); nextLexicalUnit(false); break; case VerbatimStringLiteral: result = createLiteralExpression(LiteralKind.VerbatimString); nextLexicalUnit(false); break; case VerbatimIdentifier: case ContextualKeyword: case Identifier: { var name = new SimpleNameExpressionNode { NameOffset = scanner.StartPosition, NameLength = getLexicalUnitLength() }; result = name; setScannerState(result); int endPosition = scanner.EndPosition; nextLexicalUnit(false); result.EndPosition = parseTypeArguments(name.TypeArguments, true, endPosition); } break; case OpenParenthesis: { nextLexicalUnit(true); result = parseExpression(); result.Parenthesized = true; if (lexicalUnit != LexicalUnit.CloseParenthesis) { throw error(ParseErrorId.CloseParenthesisExpected); } result.EndPosition = scanner.EndPosition; nextLexicalUnit(false); } break; case Keyword: switch (scanner.Keyword) { case True: result = createLiteralExpression(LiteralKind.True); nextLexicalUnit(false); break; case False: result = createLiteralExpression(LiteralKind.False); nextLexicalUnit(false); break; case Null: result = createLiteralExpression(LiteralKind.Null); nextLexicalUnit(false); break; case Boolean: result = createTypeExpression(TypeReferenceKind.Boolean); nextLexicalUnit(false); break; case Byte: result = createTypeExpression(TypeReferenceKind.Byte); nextLexicalUnit(false); break; case Char: result = createTypeExpression(TypeReferenceKind.Char); nextLexicalUnit(false); break; case Double: result = createTypeExpression(TypeReferenceKind.Double); nextLexicalUnit(false); break; case Float: result = createTypeExpression(TypeReferenceKind.Float); nextLexicalUnit(false); break; case Int: result = createTypeExpression(TypeReferenceKind.Int); nextLexicalUnit(false); break; case Long: result = createTypeExpression(TypeReferenceKind.Long); nextLexicalUnit(false); break; case Short: result = createTypeExpression(TypeReferenceKind.Short); nextLexicalUnit(false); break; case String: result = createTypeExpression(TypeReferenceKind.String); nextLexicalUnit(false); break; case Sizeof: saveScannerState(); if (nextLexicalUnit(true) != LexicalUnit.OpenParenthesis) { throw error(ParseErrorId.OpenParenthesisExpected); } nextLexicalUnit(true); var sizeofExp = new SizeofExpressionNode(); setSavedScannerState(sizeofExp); sizeofExp.Expression = parseExpression(); result = sizeofExp; if (lexicalUnit != LexicalUnit.CloseParenthesis) { throw error(ParseErrorId.CloseParenthesisExpected); } result.EndPosition = scanner.EndPosition; nextLexicalUnit(false); break; case Typeof: { saveScannerState(); if (nextLexicalUnit(true) != LexicalUnit.OpenParenthesis) { throw error(ParseErrorId.OpenParenthesisExpected); } nextLexicalUnit(true); var typeofExp = new TypeofExpressionNode(); setSavedScannerState(typeofExp); if (lexicalUnit == LexicalUnit.Keyword && scanner.Keyword == Keyword.Void) { typeofExp.Type = new PrimitiveTypeReferenceNode(TypeReferenceKind.Void); } else { typeofExp.Type = parseType(true); } result = typeofExp; if (lexicalUnit != LexicalUnit.CloseParenthesis) { throw error(ParseErrorId.CloseParenthesisExpected); } result.EndPosition = scanner.EndPosition; nextLexicalUnit(false); break; } case This: { result = new ThisAccessExpressionNode { EndPosition = scanner.EndPosition }; setScannerState(result); nextLexicalUnit(false); break; } case Super: { saveScannerState(); result = parseSuperAccessExpression(); setSavedScannerState(result); break; } case New: result = parseNewExpression(); break; } break; } if (result == null) { throw error(ParseErrorId.UnexpectedLexicalUnit); } for (;;) { switch (lexicalUnit) { case Dot: { nextLexicalUnit(true); if (!isIdentifier(lexicalUnit)) { throw error(ParseErrorId.IdentifierExpected); } var memberAccess = new MemberAccessExpressionNode { TargetObject = result, Member = new SimpleNameExpressionNode { NameOffset = scanner.StartPosition, NameLength = getLexicalUnitLength() } }; copyScannerState(result, memberAccess); setScannerState(memberAccess.Member); memberAccess.Member.EndPosition = scanner.EndPosition; result = memberAccess; int endPosition = scanner.EndPosition; nextLexicalUnit(false); memberAccess.EndPosition = parseTypeArguments(memberAccess.Member.TypeArguments, true, endPosition); } break; case NullSafeMemberAccess: { nextLexicalUnit(true); if (!isIdentifier(lexicalUnit)) { throw error(ParseErrorId.IdentifierExpected); } var memberAccess = new NullSafeMemberAccessExpressionNode { TargetObject = result, Member = new SimpleNameExpressionNode { NameOffset = scanner.StartPosition, NameLength = getLexicalUnitLength() } }; copyScannerState(result, memberAccess); setScannerState(memberAccess.Member); memberAccess.Member.EndPosition = scanner.EndPosition; result = memberAccess; int endPosition = scanner.EndPosition; nextLexicalUnit(false); memberAccess.EndPosition = parseTypeArguments(memberAccess.Member.TypeArguments, true, endPosition); } break; case OpenParenthesis: { if (result.ExpressionKind == ExpressionKind.Type) { throw error(ParseErrorId.UnexpectedLexicalUnit); } var invocation = new InvocationExpressionNode { TargetObject = result }; setScannerState(invocation); invocation.StartPosition = result.StartPosition; result = invocation; nextLexicalUnit(true); result.EndPosition = parseArguments(invocation.Arguments); } break; case OpenBracket: { switch (result.ExpressionKind) { case Type: case ArrayCreation: throw error(ParseErrorId.UnexpectedLexicalUnit); } nextLexicalUnit(true); var elementAccess = new ElementAccessExpressionNode { TargetObject = result }; copyScannerState(result, elementAccess); result = elementAccess; result.EndPosition = parseExpressionList(elementAccess.Indexes); } break; case Increment: { var unary = new UnaryExpressionNode { Operator = UnaryOperator.PostIncrement, Operand = result }; copyScannerState(result, unary); result = unary; result.EndPosition = scanner.EndPosition; nextLexicalUnit(false); break; } case Decrement: { var unary = new UnaryExpressionNode { Operator = UnaryOperator.PostDecrement, Operand = result }; copyScannerState(result, unary); result = unary; result.EndPosition = scanner.EndPosition; nextLexicalUnit(false); break; } default: if (result.ExpressionKind == ExpressionKind.Type) { throw error(ParseErrorId.UnexpectedLexicalUnit); } return result; } } }
protected virtual TResult handleTypeof(TypeofExpressionNode typeofExpression, TSource source, bool nested) { return(defaultHandler()); }