public string Visit(PyAst.ConstantExpression node)
        {
            string formatString(string rawString)
            {
                foreach (var charToEscape in charsToEscape)
                {
                    if (rawString.Contains(charToEscape))
                    {
                        rawString = rawString.Replace(charToEscape, "\\" + charToEscape);
                    }
                }
                return($"\"{ rawString }\"");
            }

            switch (node.Value)
            {
            case double val:
                if (Math.Truncate(val) == val)
                {
                    // If we don't do this, the double value 1.0 will be output as integer 1
                    return(val.ToString("0.0"));
                }
                return(node.Value.ToString());

            case char val:
                return(formatString(val.ToString()));

            case string val:
                return(formatString(val));

            case int val:
                return(node.Value.ToString());

            case bool val:
                return(val ? "True" : "False");

            case null:
                return("None");

            default:
                throw new NotImplementedException($"Printing of constant expression {node.Value.GetType()} not implemented");
            }
        }
Beispiel #2
0
        // primary: atom | attributeref | subscription | slicing | call 
        // atom:    identifier | literal | enclosure 
        // enclosure: 
        //      parenth_form | 
        //      list_display | 
        //      generator_expression | 
        //      dict_display | 
        //      string_conversion | 
        //      yield_atom 
        private Expression ParsePrimary() {
            Token t = PeekToken();
            Expression ret;
            switch (t.Kind) {
                case TokenKind.LeftParenthesis: // parenth_form, generator_expression, yield_atom
                    NextToken();
                    return FinishTupleOrGenExp();
                case TokenKind.LeftBracket:     // list_display
                    NextToken();
                    return FinishListValue();
                case TokenKind.LeftBrace:       // dict_display
                    NextToken();
                    return FinishDictOrSetValue();
                case TokenKind.BackQuote:       // string_conversion
                    NextToken();
                    return FinishStringConversion();
                case TokenKind.Name:            // identifier
                    NextToken();
                    string name = (string)t.Value;
                    if (_sink != null) {
                        _sink.StartName(GetSourceSpan(), name);
                    }
                    ret = new NameExpression(FixName(name));
                    ret.SetLoc(_globalParent, GetStart(), GetEnd());
                    return ret;
                case TokenKind.Constant:        // literal
                    NextToken();
                    var start = GetStart();
                    object cv = t.Value;
                    string cvs = cv as string;
                    if (cvs != null) {
                        cv = FinishStringPlus(cvs);
                    } else {
                        Bytes bytes = cv as Bytes;
                        if (bytes != null) {
                            cv = FinishBytesPlus(bytes);
                        }
                    }

                    if (t is UnicodeStringToken) {
                        ret = ConstantExpression.MakeUnicode((string)cv);
                    } else {
                        ret = new ConstantExpression(cv);
                    }
                    ret.SetLoc(_globalParent, start, GetEnd());
                    return ret;
                default:
                    ReportSyntaxError(_lookahead.Token, _lookahead.Span, ErrorCodes.SyntaxError, _allowIncomplete || _tokenizer.EndContinues);

                    // error node
                    ret = new ErrorExpression();
                    ret.SetLoc(_globalParent, _lookahead.Span.Start, _lookahead.Span.End);
                    return ret;
            }
        }
Beispiel #3
0
            internal static expr Convert(ConstantExpression expr) {
                expr ast;

                if (expr.Value == null)
                    return new Name("None", Load.Instance);
#if CLR2
                if (expr.Value is int || expr.Value is double || expr.Value is Int64 || expr.Value is BigInteger || expr.Value is Complex64)
#else
                if (expr.Value is int || expr.Value is double || expr.Value is Int64 || expr.Value is BigInteger || expr.Value is Complex)
#endif
                    ast = new Num(expr.Value);
                else if (expr.Value is string)
                    ast = new Str((string)expr.Value);
                else if (expr.Value is IronPython.Runtime.Bytes)
                    ast = new Str(Converter.ConvertToString(expr.Value));
                else if (expr.Value == PythonOps.Ellipsis)
                    ast = Ellipsis.Instance;
                else
                    throw new ArgumentTypeException("Unexpected constant type: " + expr.Value.GetType());

                return ast;
            }
		public override bool Walk(ConstantExpression node)
		{
			if (!FoundInitializeComponentMethod) {
				return false;
			}
			
			fieldExpression.SetPropertyValue(componentCreator, node.Value);
			return false;
		}
Beispiel #5
0
 public override void PostWalk(ConstantExpression node)
 {
 }
Beispiel #6
0
        public override bool Walk(ConstantExpression node)
        {
            Content(WriteValue(node.Value));

            return false;
        }
Beispiel #7
0
        /// <summary>
        /// Peek if the next token is a 'yield' and parse a yield expression. Else return null.
        /// 
        /// Called w/ yield already eaten.
        /// </summary>
        /// <returns>A yield expression if present, else null. </returns>
        // yield_expression: "yield" [expression_list] 
        private Expression ParseYieldExpression() {
            // Mark that this function is actually a generator.
            // If we're in a generator expression, then we don't have a function yet.
            //    g=((yield i) for i in range(5))
            // In that acse, the genexp will mark IsGenerator. 
            FunctionDefinition current = CurrentFunction;
            if (current != null) {
                current.IsGenerator = true;
            }

            SourceLocation start = GetStart();

            // Parse expression list after yield. This can be:
            // 1) empty, in which case it becomes 'yield None'
            // 2) a single expression
            // 3) multiple expression, in which case it's wrapped in a tuple.
            const bool allowEmptyExpr = true;
            Expression yieldResult = ParseTestListAsExpr(allowEmptyExpr);

            // Check empty expression and convert to 'none'
            TupleExpression t = yieldResult as TupleExpression;
            if (t != null) {
                if (t.Items.Length == 0) {
                    yieldResult = new ConstantExpression(null);
                }
            }

            Expression yieldExpression = new YieldExpression(yieldResult);

            yieldExpression.SetLoc(start, GetEnd());
            return yieldExpression;

        }
Beispiel #8
0
 internal override AstExpression Revert()
 {
     AstExpression index = null;
     if (slice is Index)
         index = expr.Revert(((Index)slice).value);
     else if (slice is Slice) {
         Slice concreteSlice = (Slice)slice;
         AstExpression start = null;
         if (concreteSlice.lower != null)
             start = expr.Revert(concreteSlice.lower);
         AstExpression stop = null;
         if (concreteSlice.upper != null)
             stop = expr.Revert(concreteSlice.upper);
         AstExpression step = null;
         bool stepProvided = false;
         if (concreteSlice.step != null) {
             stepProvided = true;
             if (concreteSlice.step is Name && ((Name)concreteSlice.step).id == "None") {
                 // pass
             } else {
                 step = expr.Revert(concreteSlice.step);
             }
         }
         index = new SliceExpression(start, stop, step, stepProvided);
     } else if (slice is Ellipsis) {
         index = new ConstantExpression(PythonOps.Ellipsis);
     } else if (slice is ExtSlice) {
         index = new TupleExpression(true, ((ExtSlice)slice).Revert());
     } else {
         Debug.Assert(false, "Unexpected type when converting Subscript: " + slice.GetType());
     }
     return new IndexExpression(expr.Revert(value), index);
 }
 // ConstantExpression
 public bool Walk(ConstantExpression node)
 {
     return Process(node);
 }
 // ConstantExpression
 public override bool Walk(ConstantExpression node)
 {
     node.Parent = _currentScope;
     return(base.Walk(node));
 }
		object Deserialize(ConstantExpression expression)
		{
			return expression.Value;
		}
 public virtual void PostWalk(ConstantExpression node)
 {
 }
 // ConstantExpression
 public virtual bool Walk(ConstantExpression node)
 {
     return true;
 }
Beispiel #14
0
        // atom: '(' [testlist_gexp] ')' | '[' [listmaker] ']' | '{' [dictmaker] '}' | '`' testlist1 '`' | NAME | NUMBER | STRING+
        private Expression ParsePrimary()
        {
            Token t = NextToken();
            Expression ret;
            switch (t.Kind) {
                case TokenKind.LeftParenthesis:
                    return FinishTupleOrGenExp();
                case TokenKind.LeftBracket:
                    return FinishListValue();
                case TokenKind.LeftBrace:
                    return FinishDictValue();
                case TokenKind.BackQuote:
                    return FinishBackquote();
                case TokenKind.Name:
                    CodeSpan span = GetSpan();
                    SymbolId name = (SymbolId)t.Value;
                    context.Sink.StartName(span, name.GetString());
                    ret = new NameExpression(FixName(name));
                    ret.SetLoc(GetExternal(), GetStart(), GetEnd());
                    return ret;
                case TokenKind.Constant:
                    Location start = GetStart();
                    object cv = t.Value;
                    if (cv is String) {
                        cv = FinishStringPlus((string)cv);
                    }
                    // todo handle STRING+
                    ret = new ConstantExpression(cv);
                    ret.SetLoc(GetExternal(), start, GetEnd());
                    return ret;
                default:
                    ReportSyntaxError(t, ErrorCodes.SyntaxError, allowingIncomplete);

                    // error node
                    ret = new ErrorExpression();
                    ret.SetLoc(GetExternal(), GetStart(), GetEnd());
                    return ret;
            }
        }
Beispiel #15
0
        //subscriptlist: subscript (',' subscript)* [',']
        //subscript: '.' '.' '.' | expression | [expression] ':' [expression] [sliceop]
        //sliceop: ':' [expression]
        private Expression ParseSubscriptList() {
            const TokenKind terminator = TokenKind.RightBracket;
            var start0 = GetStart();
            bool trailingComma = false;

            List<Expression> l = new List<Expression>();
            while (true) {
                Expression e;
                if (MaybeEat(TokenKind.Dot)) {
                    var start = GetStart();
                    Eat(TokenKind.Dot); Eat(TokenKind.Dot);
                    e = new ConstantExpression(Ellipsis.Value);
                    e.SetLoc(_globalParent, start, GetEnd());
                } else if (MaybeEat(TokenKind.Colon)) {
                    e = FinishSlice(null, GetStart());
                } else {
                    e = ParseExpression();
                    if (MaybeEat(TokenKind.Colon)) {
                        e = FinishSlice(e, e.StartIndex);
                    }
                }

                l.Add(e);
                if (!MaybeEat(TokenKind.Comma)) {
                    Eat(terminator);
                    trailingComma = false;
                    break;
                }

                trailingComma = true;
                if (MaybeEat(terminator)) {
                    break;
                }
            }
            Expression ret = MakeTupleOrExpr(l, trailingComma, true);
            ret.SetLoc(_globalParent, start0, GetEnd());
            return ret;
        }
 public void PostWalk(ConstantExpression node)
 {
     PostProcess(node);
 }
Beispiel #17
0
        /// <summary>
        /// Peek if the next token is a 'yield' and parse a yield expression. Else return null.
        /// 
        /// Called w/ yield already eaten.
        /// </summary>
        /// <returns>A yield expression if present, else null. </returns>
        // yield_expression: "yield" [expression_list] 
        private Expression ParseYieldExpression() {
            // Mark that this function is actually a generator.
            // If we're in a generator expression, then we don't have a function yet.
            //    g=((yield i) for i in range(5))
            // In that acse, the genexp will mark IsGenerator. 
            FunctionDefinition current = CurrentFunction;
            if (current != null) {
                current.IsGenerator = true;
            }

            var start = GetStart();

            // Parse expression list after yield. This can be:
            // 1) empty, in which case it becomes 'yield None'
            // 2) a single expression
            // 3) multiple expression, in which case it's wrapped in a tuple.
            Expression yieldResult;

            bool trailingComma;
            List<Expression> l = ParseExpressionList(out trailingComma);
            if (l.Count == 0) {
                // Check empty expression and convert to 'none'
                yieldResult = new ConstantExpression(null);
            } else if (l.Count != 1) {
                // make a tuple
                yieldResult = MakeTupleOrExpr(l, trailingComma);
            } else {
                // just take the single expression
                yieldResult = l[0];
            }

            Expression yieldExpression = new YieldExpression(yieldResult);

            yieldExpression.SetLoc(_globalParent, start, GetEnd());
            return yieldExpression;

        }
Beispiel #18
0
		public override bool Walk(ConstantExpression node)
		{
			writer.WriteLine("ConstantExpression");
			return base.Walk(node);
		}