public override AstVisitAction VisitUnaryExpression(UnaryExpressionAst unaryExpressionAst)
{
if (unaryExpressionAst.TokenKind.HasTrait(TokenFlags.DisallowedInRestrictedMode))
{
this.ReportError(unaryExpressionAst, () => ParserStrings.OperatorNotSupportedInDataSection, new object[] { unaryExpressionAst.TokenKind.Text() });
}
return(AstVisitAction.Continue);
}
public System.Object VisitUnaryExpression(System.Management.Automation.Language.UnaryExpressionAst unaryExpressionAst)
{
IScriptExtent mappedExtent = MapExtent(unaryExpressionAst.Extent);
ExpressionAst mappedChild = _VisitExpression(unaryExpressionAst.Child);
return(new UnaryExpressionAst(mappedExtent, unaryExpressionAst.TokenKind, mappedChild));
}
public object VisitUnaryExpression(UnaryExpressionAst unaryExpressionAst)
{
if (t_context == null)
{
throw PSTraceSource.NewArgumentException(nameof(unaryExpressionAst));
}
return(Compiler.GetExpressionValue(unaryExpressionAst, isTrustedInput: true, t_context, usingValues: null));
}
public object VisitUnaryExpression(UnaryExpressionAst unaryExpressionAst)
{
bool unaryExpressionIsSafe = unaryExpressionAst.TokenKind.HasTrait(TokenFlags.CanConstantFold) &&
!unaryExpressionAst.TokenKind.HasTrait(TokenFlags.DisallowedInRestrictedMode) &&
(bool)unaryExpressionAst.Child.Accept(this);
if (unaryExpressionIsSafe)
{
_visitCount++;
}
return unaryExpressionIsSafe;
}
public object VisitUnaryExpression(UnaryExpressionAst unaryExpressionAst)
{
if (s_context != null)
{
return(Compiler.GetExpressionValue(unaryExpressionAst, true, s_context, null));
}
else
{
throw PSTraceSource.NewArgumentException("ast");
}
}
public override AstVisitAction VisitUnaryExpression(UnaryExpressionAst unaryExpressionAst)
{
Action <Ast> reportError = null;
switch (unaryExpressionAst.TokenKind)
{
case TokenKind.MinusMinus:
case TokenKind.PlusPlus:
case TokenKind.PostfixPlusPlus:
case TokenKind.PostfixMinusMinus:
if (reportError == null)
{
reportError = delegate(Ast ast) {
this._parser.ReportError(ast.Extent, ParserStrings.OperatorRequiresVariableOrProperty, new object[] { unaryExpressionAst.TokenKind.Text() });
};
}
this.CheckAssignmentTarget(unaryExpressionAst.Child, false, reportError);
break;
}
return(AstVisitAction.Continue);
}
public override AstVisitAction VisitUnaryExpression(UnaryExpressionAst ast)
{
return(Check(ast));
}
private ExpressionAst UnaryExpressionRule()
{
//G unary-expression:
//G primary-expression
//G expression-with-unary-operator
//G
//G expression-with-unary-operator:
//G ',' new-lines:opt unary-expression
//G '-not' new-lines:opt unary-expression
//G '!' new-lines:opt unary-expression
//G '-bnot' new-lines:opt unary-expression
//G '+' new-lines:opt unary-expression
//G dash new-lines:opt unary-expression
//G pre-increment-expression
//G pre-decrement-expression
//G cast-expression
//G '-split' new-lines:opt unary-expression
//G '-join' new-lines:opt unary-expression
//G
//G pre-increment-expression:
//G '++' new-lines:opt unary-expression
//G
//G pre-decrement-expression:
//G dashdash new-lines:opt unary-expression
//G
//G cast-expression:
//G type-literal unary-expression
RuntimeHelpers.EnsureSufficientExecutionStack();
ExpressionAst expr = null;
Token token;
bool oldAllowSignedNumbers = _tokenizer.AllowSignedNumbers;
try
{
_tokenizer.AllowSignedNumbers = true;
if (_ungotToken != null && _ungotToken.Kind == TokenKind.Minus)
{
Resync(_ungotToken);
}
token = PeekToken();
}
finally
{
_tokenizer.AllowSignedNumbers = oldAllowSignedNumbers;
}
ExpressionAst child;
if (token.Kind.HasTrait(TokenFlags.UnaryOperator))
{
if (_disableCommaOperator && token.Kind == TokenKind.Comma)
{
return null;
}
SkipToken();
SkipNewlines();
child = UnaryExpressionRule();
if (child != null)
{
if (token.Kind == TokenKind.Comma)
{
expr = new ArrayLiteralAst(ExtentOf(token, child), new ExpressionAst[] { child });
}
else
{
expr = new UnaryExpressionAst(ExtentOf(token, child), token.Kind, child);
}
}
else
{
// ErrorRecovery: don't bother constructing a unary expression, but we know we must have
// some sort of expression, so return an error expression.
// Use token.Text, not token.Kind.Text() b/c the kind might not match the actual operator used
// when a case insensitive operator is used.
ReportIncompleteInput(After(token), () => ParserStrings.MissingExpressionAfterOperator, token.Text);
return new ErrorExpressionAst(token.Extent);
}
}
else if (token.Kind == TokenKind.LBracket)
{
// Possibly a type literal or attribute.
var attributes = AttributeListRule(true);
if (attributes == null)
{
return null;
}
AttributeBaseAst lastAttribute = attributes.Last();
if (lastAttribute is AttributeAst)
{
SkipNewlines();
child = UnaryExpressionRule();
if (child == null)
{
// ErrorRecovery: We have a list of attributes, and we know it's not before a param statement,
// so we know we must have some sort of expression. Return an error expression then.
ReportIncompleteInput(lastAttribute.Extent,
() => ParserStrings.UnexpectedAttribute, lastAttribute.TypeName.FullName);
return new ErrorExpressionAst(ExtentOf(token, lastAttribute));
}
expr = new AttributedExpressionAst(ExtentOf(lastAttribute, child), lastAttribute, child);
}
else
{
Diagnostics.Assert(_ungotToken == null || ErrorList.Count > 0,
"Unexpected lookahead from AttributeListRule.");
// If we've looked ahead, don't go looking for a member access token, we've already issued an error,
// just assume we're not trying to access a member.
var memberAccessToken = _ungotToken != null ? null : NextMemberAccessToken(false);
if (memberAccessToken != null)
{
expr = CheckPostPrimaryExpressionOperators(memberAccessToken,
new TypeExpressionAst(lastAttribute.Extent,
lastAttribute.TypeName));
}
else
{
token = PeekToken();
if (token.Kind != TokenKind.NewLine && token.Kind != TokenKind.Comma)
{
child = UnaryExpressionRule();
if (child != null)
{
expr = new ConvertExpressionAst(ExtentOf(lastAttribute, child),
(TypeConstraintAst)lastAttribute, child);
}
}
}
if (expr == null)
{
expr = new TypeExpressionAst(lastAttribute.Extent, lastAttribute.TypeName);
}
}
for (int i = attributes.Count - 2; i >= 0; --i)
{
var typeConstraint = attributes[i] as TypeConstraintAst;
expr = typeConstraint != null
? new ConvertExpressionAst(ExtentOf(typeConstraint, expr), typeConstraint, expr)
: new AttributedExpressionAst(ExtentOf(attributes[i], expr), attributes[i], expr);
}
}
else
{
expr = PrimaryExpressionRule(withMemberAccess: true);
}
if (expr != null)
{
token = PeekToken();
TokenKind operation = (token.Kind == TokenKind.PlusPlus)
? TokenKind.PostfixPlusPlus
: (token.Kind == TokenKind.MinusMinus)
? TokenKind.PostfixMinusMinus
: TokenKind.Unknown;
if (operation != TokenKind.Unknown)
{
SkipToken();
expr = new UnaryExpressionAst(ExtentOf(expr, token), operation, expr);
}
}
return expr;
}
public object VisitUnaryExpression(UnaryExpressionAst unaryExpressionAst)
{
return(CompileAndInvoke(unaryExpressionAst));
}
public override AstVisitAction VisitUnaryExpression(UnaryExpressionAst unaryExpressionAst)
{
switch (unaryExpressionAst.TokenKind)
{
case TokenKind.PostfixPlusPlus:
case TokenKind.PlusPlus:
case TokenKind.MinusMinus:
case TokenKind.PostfixMinusMinus:
VisitIncrementDecrementExpression(unaryExpressionAst);
break;
case TokenKind.Not:
var value = EvaluateAst(unaryExpressionAst.Child, _writeSideEffectsToPipeline);
var boolValue = (bool) LanguagePrimitives.ConvertTo(value, typeof(bool));
_pipelineCommandRuntime.WriteObject(!boolValue);
break;
default:
throw new NotImplementedException(unaryExpressionAst.ToString());
}
return AstVisitAction.SkipChildren;
}
/// <summary>
/// Visit unary expression
/// </summary>
/// <param name="unaryExpressionAst"></param>
/// <returns></returns>
public object VisitUnaryExpression(UnaryExpressionAst unaryExpressionAst)
{
if (unaryExpressionAst == null) return null;
unaryExpressionAst.Child.Visit(this.Decorator);
return null;
}
public object VisitUnaryExpression(UnaryExpressionAst unaryExpressionAst)
{
return CompileAndInvoke(unaryExpressionAst);
}
public object VisitUnaryExpression(UnaryExpressionAst unaryExpressionAst)
{
throw new UnexpectedElementException();
}
public override AstVisitAction VisitUnaryExpression(UnaryExpressionAst unaryExpressionAst)
{
switch (unaryExpressionAst.TokenKind)
{
case TokenKind.PlusPlus:
case TokenKind.PostfixPlusPlus:
case TokenKind.MinusMinus:
case TokenKind.PostfixMinusMinus:
CheckAssignmentTarget(unaryExpressionAst.Child, false,
ast => _parser.ReportError(ast.Extent, () => ParserStrings.OperatorRequiresVariableOrProperty,
unaryExpressionAst.TokenKind.Text()));
break;
}
return AstVisitAction.Continue;
}
/// <summary/> public virtual AstVisitAction VisitUnaryExpression(UnaryExpressionAst unaryExpressionAst) => DefaultVisit(unaryExpressionAst);
private ExpressionAst UnaryExpressionRule()
{
Token token;
ExpressionAst expressionAst;
TokenKind tokenKind;
Token token1;
ExpressionAst convertExpressionAst;
RuntimeHelpers.EnsureSufficientExecutionStack();
ExpressionAst typeExpressionAst = null;
bool allowSignedNumbers = this._tokenizer.AllowSignedNumbers;
try
{
this._tokenizer.AllowSignedNumbers = true;
if (this._ungotToken != null && this._ungotToken.Kind == TokenKind.Minus)
{
this.Resync(this._ungotToken);
}
token = this.PeekToken();
}
finally
{
this._tokenizer.AllowSignedNumbers = allowSignedNumbers;
}
if (!token.Kind.HasTrait(TokenFlags.UnaryOperator))
{
if (token.Kind != TokenKind.LBracket)
{
typeExpressionAst = this.PrimaryExpressionRule(true);
}
else
{
List<AttributeBaseAst> attributeBaseAsts = this.AttributeListRule(true);
if (attributeBaseAsts != null)
{
AttributeBaseAst attributeBaseAst = attributeBaseAsts.Last<AttributeBaseAst>();
if (attributeBaseAst as AttributeAst == null)
{
if (this._ungotToken != null)
{
token1 = null;
}
else
{
token1 = this.NextMemberAccessToken(false);
}
Token token2 = token1;
if (token2 == null)
{
token = this.PeekToken();
if (token.Kind != TokenKind.NewLine && token.Kind != TokenKind.Comma)
{
expressionAst = this.UnaryExpressionRule();
if (expressionAst != null)
{
typeExpressionAst = new ConvertExpressionAst(Parser.ExtentOf(attributeBaseAst, expressionAst), (TypeConstraintAst)attributeBaseAst, expressionAst);
}
}
}
else
{
typeExpressionAst = this.CheckPostPrimaryExpressionOperators(token2, new TypeExpressionAst(attributeBaseAst.Extent, attributeBaseAst.TypeName));
}
if (typeExpressionAst == null)
{
typeExpressionAst = new TypeExpressionAst(attributeBaseAst.Extent, attributeBaseAst.TypeName);
}
}
else
{
this.SkipNewlines();
expressionAst = this.UnaryExpressionRule();
if (expressionAst != null)
{
typeExpressionAst = new AttributedExpressionAst(Parser.ExtentOf(attributeBaseAst, expressionAst), attributeBaseAst, expressionAst);
}
else
{
object[] fullName = new object[1];
fullName[0] = attributeBaseAst.TypeName.FullName;
this.ReportIncompleteInput(attributeBaseAst.Extent, ParserStrings.UnexpectedAttribute, fullName);
return new ErrorExpressionAst(Parser.ExtentOf(token, attributeBaseAst), null);
}
}
for (int i = attributeBaseAsts.Count - 2; i >= 0; i--)
{
TypeConstraintAst item = attributeBaseAsts[i] as TypeConstraintAst;
if (item != null)
{
convertExpressionAst = new ConvertExpressionAst(Parser.ExtentOf(item, typeExpressionAst), item, typeExpressionAst);
}
else
{
convertExpressionAst = new AttributedExpressionAst(Parser.ExtentOf(attributeBaseAsts[i], typeExpressionAst), attributeBaseAsts[i], typeExpressionAst);
}
typeExpressionAst = convertExpressionAst;
}
}
else
{
return null;
}
}
}
else
{
if (!this._disableCommaOperator || token.Kind != TokenKind.Comma)
{
this.SkipToken();
this.SkipNewlines();
expressionAst = this.UnaryExpressionRule();
if (expressionAst == null)
{
object[] text = new object[1];
text[0] = token.Text;
this.ReportIncompleteInput(Parser.After(token), ParserStrings.MissingExpressionAfterOperator, text);
return new ErrorExpressionAst(token.Extent, null);
}
else
{
if (token.Kind != TokenKind.Comma)
{
typeExpressionAst = new UnaryExpressionAst(Parser.ExtentOf(token, expressionAst), token.Kind, expressionAst);
}
else
{
ExpressionAst[] expressionAstArray = new ExpressionAst[1];
expressionAstArray[0] = expressionAst;
typeExpressionAst = new ArrayLiteralAst(Parser.ExtentOf(token, expressionAst), expressionAstArray);
}
}
}
else
{
return null;
}
}
if (typeExpressionAst != null)
{
token = this.PeekToken();
if (token.Kind == TokenKind.PlusPlus)
{
tokenKind = TokenKind.PostfixPlusPlus;
}
else
{
if (token.Kind == TokenKind.MinusMinus)
{
tokenKind = TokenKind.PostfixMinusMinus;
}
else
{
tokenKind = TokenKind.Unknown;
}
}
TokenKind tokenKind1 = tokenKind;
if (tokenKind1 != TokenKind.Unknown)
{
this.SkipToken();
typeExpressionAst = new UnaryExpressionAst(Parser.ExtentOf(typeExpressionAst, token), tokenKind1, typeExpressionAst);
}
}
return typeExpressionAst;
}
public override AstVisitAction VisitUnaryExpression(UnaryExpressionAst unaryExpressionAst)
{
Action<Ast> reportError = null;
switch (unaryExpressionAst.TokenKind)
{
case TokenKind.MinusMinus:
case TokenKind.PlusPlus:
case TokenKind.PostfixPlusPlus:
case TokenKind.PostfixMinusMinus:
if (reportError == null)
{
reportError = delegate (Ast ast) {
this._parser.ReportError(ast.Extent, ParserStrings.OperatorRequiresVariableOrProperty, new object[] { unaryExpressionAst.TokenKind.Text() });
};
}
this.CheckAssignmentTarget(unaryExpressionAst.Child, false, reportError);
break;
}
return AstVisitAction.Continue;
}
public override AstVisitAction VisitUnaryExpression(UnaryExpressionAst ast) { return CheckParent(ast); }
public object VisitUnaryExpression(UnaryExpressionAst unaryExpressionAst)
{
return(unaryExpressionAst.TokenKind.HasTrait(TokenFlags.CanConstantFold) &&
(bool)unaryExpressionAst.Child.Accept(this));
}
public override AstVisitAction VisitUnaryExpression(UnaryExpressionAst ast)
{
return this.Check(ast);
}
public object VisitUnaryExpression(UnaryExpressionAst unaryExpressionAst)
{
unaryExpressionAst.Child.Accept(this);
return null;
}
public object VisitUnaryExpression(UnaryExpressionAst unaryExpressionAst)
{
return (bool) unaryExpressionAst.Child.Accept(this);
}
/// <summary/>
public virtual object VisitUnaryExpression(UnaryExpressionAst unaryExpressionAst)
{
return _decorated.VisitUnaryExpression(unaryExpressionAst);
}
public override AstVisitAction VisitUnaryExpression(UnaryExpressionAst unaryExpressionAst)
{
var childVariableExpressionAst = unaryExpressionAst.Child as VariableExpressionAst;
var childVariable = childVariableExpressionAst == null ? null : GetVariable(childVariableExpressionAst);
var childVariableValue = childVariable == null ? null : childVariable.Value;
switch (unaryExpressionAst.TokenKind)
{
case TokenKind.PostfixPlusPlus:
if (childVariable == null) throw new NotImplementedException(unaryExpressionAst.ToString());
if (childVariableValue is PSObject)
{
if (this._writeSideEffectsToPipeline) this._pipelineCommandRuntime.WriteObject(childVariable.Value);
childVariable.Value = PSObject.AsPSObject(((int)((PSObject)childVariableValue).BaseObject) + 1);
}
else throw new NotImplementedException(childVariableValue.ToString());
break;
case TokenKind.PlusPlus:
if (childVariable == null) throw new NotImplementedException(unaryExpressionAst.ToString());
if (childVariableValue is PSObject)
{
childVariable.Value = PSObject.AsPSObject(((int)((PSObject)childVariableValue).BaseObject) + 1);
if (this._writeSideEffectsToPipeline) this._pipelineCommandRuntime.WriteObject(childVariable.Value);
}
else throw new NotImplementedException(childVariableValue.ToString());
break;
default:
throw new NotImplementedException(unaryExpressionAst.ToString());
}
return AstVisitAction.SkipChildren;
}
private void VisitIncrementDecrementExpression(UnaryExpressionAst unaryExpressionAst)
{
var token = unaryExpressionAst.TokenKind;
// first validate the expression. Shouldn't fail, but let's be sure
var validTokens = new [] { TokenKind.PostfixPlusPlus, TokenKind.PostfixMinusMinus,
TokenKind.PlusPlus, TokenKind.MinusMinus};
if (!validTokens.Contains(token))
{
throw new PSInvalidOperationException("The unary expression is not a decrement/increment expression. " +
"Please report this issue.");
}
bool postfix = token == TokenKind.PostfixPlusPlus || token == TokenKind.PostfixMinusMinus;
bool increment = token == TokenKind.PostfixPlusPlus || token == TokenKind.PlusPlus;
// It's the duty of the AstBuilderto check wether the child expression is a settable expression
SettableExpression affectedExpression = SettableExpression.Create(unaryExpressionAst.Child, this);
object objValue = PSObject.Unwrap(affectedExpression.GetValue());
objValue = objValue ?? 0; // if the value is null, then we "convert" to integer 0, says the specification
// check for non-numerics
var valueType = objValue.GetType();
if (!valueType.IsNumeric())
{
var msg = String.Format("The operator '{0}' can only be used for numbers. The operand is '{1}'",
increment ? "++" : "--", valueType.FullName);
throw new RuntimeException(msg, "OperatorRequiresNumber", ErrorCategory.InvalidOperation, objValue);
}
// if it's a postfix operation, then we need to write the numeric value to pipeline
if (postfix && _writeSideEffectsToPipeline)
{
_pipelineCommandRuntime.WriteObject(objValue);
}
// now actually change the value, check for overflow
dynamic dynValue = (dynamic)objValue;
try
{
dynValue = checked(dynValue + (increment ? 1 : -1));
}
catch (OverflowException) // cast to double on overflow
{
dynValue = LanguagePrimitives.ConvertTo<double>(objValue) + (increment ? 1 : -1);
}
// set the new value
affectedExpression.SetValue((object)dynValue);
// if it was a prefix, then we need to write the new value to pipeline
if (!postfix && _writeSideEffectsToPipeline)
{
_pipelineCommandRuntime.WriteObject(dynValue);
}
}
public virtual AstVisitAction VisitUnaryExpression(UnaryExpressionAst unaryExpressionAst)
{
return AstVisitAction.Continue;
}
public override AstVisitAction VisitUnaryExpression(UnaryExpressionAst unaryExpressionAst)
{
throw new NotImplementedException(); //VisitUnaryExpression(unaryExpressionAst);
}
/// <summary/>
public virtual object VisitUnaryExpression(UnaryExpressionAst unaryExpressionAst) { return null; }
public object VisitUnaryExpression(UnaryExpressionAst unaryExpressionAst)
{
return unaryExpressionAst.TokenKind.HasTrait(TokenFlags.CanConstantFold) &&
(bool)unaryExpressionAst.Child.Accept(this);
}
public object VisitUnaryExpression(UnaryExpressionAst unaryExpressionAst)
{
CheckIsConstant(unaryExpressionAst, "Caller to verify ast is constant");
return CompileAndInvoke(unaryExpressionAst);
}
public object VisitUnaryExpression(UnaryExpressionAst unaryExpressionAst)
{
unaryExpressionAst.Child.Accept(this);
return(null);
}
public object VisitUnaryExpression(UnaryExpressionAst unaryExpressionAst)
{
bool unaryExpressionIsSafe = unaryExpressionAst.TokenKind.HasTrait(TokenFlags.CanConstantFold) &&
!unaryExpressionAst.TokenKind.HasTrait(TokenFlags.DisallowedInRestrictedMode) &&
(bool)unaryExpressionAst.Child.Accept(this);
if (unaryExpressionIsSafe)
{
_visitCount++;
}
return unaryExpressionIsSafe;
}
/// <summary/>
public virtual object VisitUnaryExpression(UnaryExpressionAst unaryExpressionAst)
{
return(null);
}
public object VisitUnaryExpression(UnaryExpressionAst unaryExpressionAst)
{
if (s_context != null)
{
return Compiler.GetExpressionValue(unaryExpressionAst, true, s_context, null);
}
else
{
throw PSTraceSource.NewArgumentException("ast");
}
}
public object VisitUnaryExpression(UnaryExpressionAst unaryExpressionAst)
{
return (!unaryExpressionAst.TokenKind.HasTrait(TokenFlags.CanConstantFold) ? ((object) false) : ((object) ((bool) unaryExpressionAst.Child.Accept(this))));
}
public object VisitUnaryExpression(UnaryExpressionAst unaryExpressionAst)
{
object constantValue;
if (!CompilingConstantExpression && IsConstantValueVisitor.IsConstant(unaryExpressionAst, out constantValue))
{
return Expression.Constant(constantValue);
}
ExpressionAst child = unaryExpressionAst.Child;
switch (unaryExpressionAst.TokenKind)
{
case TokenKind.Exclaim:
case TokenKind.Not:
return DynamicExpression.Dynamic(PSUnaryOperationBinder.Get(ExpressionType.Not), typeof(object), CompileExpressionOperand(child));
case TokenKind.Minus:
return DynamicExpression.Dynamic(PSBinaryOperationBinder.Get(ExpressionType.Subtract),
typeof(object), ExpressionCache.Constant(0), CompileExpressionOperand(child));
case TokenKind.Plus:
return DynamicExpression.Dynamic(PSBinaryOperationBinder.Get(ExpressionType.Add),
typeof(object), ExpressionCache.Constant(0), CompileExpressionOperand(child));
case TokenKind.Bnot:
return DynamicExpression.Dynamic(PSUnaryOperationBinder.Get(ExpressionType.OnesComplement),
typeof(object), CompileExpressionOperand(child));
case TokenKind.PlusPlus:
return CompileIncrementOrDecrement(child, 1, true);
case TokenKind.MinusMinus:
return CompileIncrementOrDecrement(child, -1, true);
case TokenKind.PostfixPlusPlus:
return CompileIncrementOrDecrement(child, 1, false);
case TokenKind.PostfixMinusMinus:
return CompileIncrementOrDecrement(child, -1, false);
case TokenKind.Join:
// TODO: replace this with faster code
return Expression.Call(CachedReflectionInfo.ParserOps_UnaryJoinOperator,
_executionContextParameter,
Expression.Constant(unaryExpressionAst.Extent),
(CompileExpressionOperand(child)).Cast(typeof(object)));
case TokenKind.Isplit:
case TokenKind.Csplit:
// TODO: replace this with faster code
return Expression.Call(CachedReflectionInfo.ParserOps_UnarySplitOperator,
_executionContextParameter,
Expression.Constant(unaryExpressionAst.Extent),
(CompileExpressionOperand(child)).Cast(typeof(object)));
}
throw new InvalidOperationException("Unknown token in unary operator.");
}
/// <summary/>
public virtual AstVisitAction VisitUnaryExpression(UnaryExpressionAst unaryExpressionAst)
{
return(AstVisitAction.Continue);
}
public override AstVisitAction VisitUnaryExpression(UnaryExpressionAst unaryExpressionAst)
{
if (unaryExpressionAst.TokenKind.HasTrait(TokenFlags.DisallowedInRestrictedMode))
{
this.ReportError(unaryExpressionAst, () => ParserStrings.OperatorNotSupportedInDataSection, new object[] { unaryExpressionAst.TokenKind.Text() });
}
return AstVisitAction.Continue;
}
public object VisitUnaryExpression(UnaryExpressionAst unaryExpressionAst)
{
CheckIsConstant(unaryExpressionAst, "Caller to verify ast is constant");
return(CompileAndInvoke(unaryExpressionAst));
}
public object VisitUnaryExpression(UnaryExpressionAst unaryExpressionAst)
{
throw new NotImplementedException();
}
