public ParenthesizedExpressionSyntax(TokenNode openNode, NewExpressionSyntax expressionNode, TokenNode closeNode) : base(openNode, expressionNode, closeNode) { _open = openNode ?? throw new ArgumentNullException(nameof(openNode)); _expression = expressionNode ?? throw new ArgumentNullException(nameof(expressionNode)); _close = closeNode ?? throw new ArgumentNullException(nameof(closeNode)); }
public ArrayReferenceSyntax(TokenNode idNode, TokenNode openBracketNode, NewExpressionSyntax expressionNode, TokenNode closeBracketNode) : base(idNode, openBracketNode, expressionNode, closeBracketNode) { _id = idNode ?? throw new ArgumentNullException(nameof(idNode)); _open = openBracketNode ?? throw new ArgumentNullException(nameof(openBracketNode)); _expression = expressionNode ?? throw new ArgumentNullException(nameof(expressionNode)); _close = closeBracketNode ?? throw new ArgumentNullException(nameof(closeBracketNode)); }
public static NewExpressionSyntax UnaryMinusExpression(NewExpressionSyntax expression) { return(new NewExpressionSyntax( new ExpressionSyntax( new UnaryExpressionSyntax( new UnaryOperatorSyntax(new TokenNode(new SyntaxToken(SyntaxTokenType.MinusOperator), 0)), expression)), new EmptyNode(0))); }
public ElseifSyntax(TokenNode elseifNode, NewExpressionSyntax expressionNode, TokenNode thenNode, LineDelimiterSyntax eolNode, StatementListSyntax statementsNode, EmptyNode emptyElseClauseNode) : base(elseifNode, expressionNode, thenNode, eolNode, statementsNode, emptyElseClauseNode) { _elseif = elseifNode ?? throw new ArgumentNullException(nameof(elseifNode)); _expression = expressionNode ?? throw new ArgumentNullException(nameof(expressionNode)); _then = thenNode ?? throw new ArgumentNullException(nameof(thenNode)); _eol = eolNode ?? throw new ArgumentNullException(nameof(eolNode)); _statements = statementsNode ?? throw new ArgumentNullException(nameof(statementsNode)); _emptyElseClause = emptyElseClauseNode ?? throw new ArgumentNullException(nameof(emptyElseClauseNode)); }
public IfStatementSyntax(TokenNode ifNode, NewExpressionSyntax expressionNode, TokenNode thenNode, LineDelimiterSyntax eolNode, StatementListSyntax statementListNode, ElseClauseSyntax elseClauseNode, TokenNode endifNode) : base(ifNode, expressionNode, thenNode, eolNode, statementListNode, elseClauseNode, endifNode) { _if = ifNode ?? throw new ArgumentNullException(nameof(ifNode)); _expression = expressionNode ?? throw new ArgumentNullException(nameof(expressionNode)); _then = thenNode ?? throw new ArgumentNullException(nameof(thenNode)); _eol = eolNode ?? throw new ArgumentNullException(nameof(eolNode)); _statements = statementListNode ?? throw new ArgumentNullException(nameof(statementListNode)); _elseClause = elseClauseNode ?? throw new ArgumentNullException(nameof(elseClauseNode)); _endif = endifNode ?? throw new ArgumentNullException(nameof(endifNode)); }
public static NewExpressionSyntax ConstantExpression(float real) { var isPositive = real >= 0f; var isIntegral = real % 1 == 0f; var realString = $"{(isPositive ? real : -real)}{(isIntegral ? "." : string.Empty)}"; var expr = new NewExpressionSyntax( new ExpressionSyntax( new ConstantExpressionSyntax( new TokenNode(new SyntaxToken(SyntaxTokenType.RealNumber, realString), 0))), new EmptyNode(0)); return(isPositive ? expr : new NewExpressionSyntax( new ExpressionSyntax( new UnaryExpressionSyntax( new UnaryOperatorSyntax(new TokenNode(new SyntaxToken(SyntaxTokenType.MinusOperator), 0)), expr)), new EmptyNode(0))); }
/*public*/ static NewExpressionSyntax ConstantExpression(float real, int decimalPlaces) { var isPositive = real >= 0f; var realString = $"{(isPositive ? real : -real).ToString()}{(decimalPlaces == 0 ? "." : string.Empty)}"; throw new NotImplementedException(); var expr = new NewExpressionSyntax( new ExpressionSyntax( new ConstantExpressionSyntax( new TokenNode(new SyntaxToken(SyntaxTokenType.RealNumber, realString), 0))), new EmptyNode(0)); return(isPositive ? expr : new NewExpressionSyntax( new ExpressionSyntax( new UnaryExpressionSyntax( new UnaryOperatorSyntax(new TokenNode(new SyntaxToken(SyntaxTokenType.MinusOperator), 0)), expr)), new EmptyNode(0))); }
public UnaryExpressionSyntax(UnaryOperatorSyntax operatorNode, NewExpressionSyntax expressionNode) : base(operatorNode, expressionNode) { _operator = operatorNode ?? throw new ArgumentNullException(nameof(operatorNode)); _expression = expressionNode ?? throw new ArgumentNullException(nameof(expressionNode)); }
public ReturnStatementSyntax(TokenNode returnNode, NewExpressionSyntax expressionNode) : base(returnNode, expressionNode) { _return = returnNode ?? throw new ArgumentNullException(nameof(returnNode)); _expression = expressionNode ?? throw new ArgumentNullException(nameof(expressionNode)); }
public EqualsValueClauseSyntax(TokenNode assignmentNode, NewExpressionSyntax expressionNode) : base(assignmentNode, expressionNode) { _ass = assignmentNode ?? throw new ArgumentNullException(nameof(assignmentNode)); _expression = expressionNode ?? throw new ArgumentNullException(nameof(expressionNode)); }
public BinaryExpressionTailSyntax(BinaryOperatorSyntax binaryOperatorNode, NewExpressionSyntax expressionNode) : base(binaryOperatorNode, expressionNode) { _operator = binaryOperatorNode ?? throw new ArgumentNullException(nameof(binaryOperatorNode)); _expr = expressionNode ?? throw new ArgumentNullException(nameof(expressionNode)); }
public CommaSeparatedExpressionSyntax(TokenNode commaNode, NewExpressionSyntax expressionNode) : base(commaNode, expressionNode) { _comma = commaNode ?? throw new ArgumentNullException(nameof(commaNode)); _expression = expressionNode ?? throw new ArgumentNullException(nameof(expressionNode)); }
public ExitStatementSyntax(TokenNode exitNode, NewExpressionSyntax expressionNode) : base(exitNode, expressionNode) { _exit = exitNode ?? throw new ArgumentNullException(nameof(exitNode)); _expression = expressionNode ?? throw new ArgumentNullException(nameof(exitNode)); }