//
        // IVisitor implementations
        //
        public override void Visit(JsAstNodeList node)
        {
            if (node != null)
            {
                var commaOperator = node.Parent as JsCommaOperator;
                JsAstNodeList list;
                if (commaOperator != null
                    && (list = commaOperator.Operand2 as JsAstNodeList) != null)
                {
                    // this list is part of a comma-operator, which is a collection of contiguous
                    // expression statements that we combined together. What we want to do is
                    // delete all constant elements from the list.
                    // if the parent is a block, then this was just a collection of statements and
                    // we can delete ALL constant expressions. But if the parent is not a block, then
                    // we will want to keep the last one as-is because it is the return value of the
                    // overall expression.
                    for (var ndx = list.Count - (node.Parent is JsBlock ? 1 : 2); ndx >= 0; --ndx)
                    {
                        if (list[ndx] is JsConstantWrapper)
                        {
                            list.RemoveAt(ndx);
                        }
                    }

                }

                // then normally recurse whatever is left over
                base.Visit(node);
            }
        }
Exemplo n.º 2
0
 public virtual void Visit(JsAstNodeList node)
 {
     if (node != null)
     {
         foreach (var childNode in node.Children)
         {
             childNode.Accept(this);
         }
     }
 }
Exemplo n.º 3
0
 public virtual void Visit(JsAstNodeList node)
 {
     if (node != null)
     {
         foreach (var childNode in node.Children)
         {
             childNode.Accept(this);
         }
     }
 }
Exemplo n.º 4
0
 public override void Visit(JsAstNodeList node)
 {
     if (node != null && node.Count > 0)
     {
         // this is really only ever not-ed when it's the right-hand operand
         // of a comma operator, which we flattened to decrease stack recursion.
         // so to logical-not this element, we only need to not the last item
         // in the list (because all the others are comma-separated)
         node[node.Count - 1].Accept(this);
     }
 }
Exemplo n.º 5
0
 public override bool ReplaceChild(JsAstNode oldNode, JsAstNode newNode)
 {
     if (oldNode == m_properties)
     {
         var properties = newNode as JsAstNodeList;
         if (newNode == null || properties != null)
         {
             Properties = properties;
         }
     }
     return false;
 }
 public void Visit(JsAstNodeList node)
 {
     if (node != null)
     {
         // don't bother setting the order of the list itself, just the items
         for (var ndx = 0; ndx < node.Count; ++ndx)
         {
             var item = node[ndx];
             if (item != null)
             {
                 item.Accept(this);
             }
         }
     }
 }
 public void Visit(JsAstNodeList node)
 {
     // not applicable; terminate
 }
        private void PossiblyBreakExpressionList(JsBinaryOperator node, JsBlock parentBlock, JsAstNodeList nodeList)
        {
            // if the first item can be broken, then we an break it and be done.
            // otherwise we're going to have to walk until we find a breaking place
            if (CanBeBroken(nodeList[0]))
            {
                // break the first item. insert the left-hand side at our position and
                // recurse it. Then rotate the node.
                var index = parentBlock.IndexOf(node);
                var temp = node.Operand1;
                RotateOpeator(node, nodeList);
                parentBlock.Insert(index, temp);

                // assumes nothing will cause the node to be deleted, because then it
                // would cause us to miss the following item
                temp.Accept(this);
            }
            else
            {
                // the first one can't be broken, so find the first one that can (if any)
                for (var ndx = 1; ndx < nodeList.Count; ++ndx)
                {
                    if (CanBeBroken(nodeList[ndx]))
                    {
                        if (ndx == 1)
                        {
                            // the second item is where we are breaking it, so we're going to pull
                            // the first item, replace the list with that first item, then insert
                            // a new comma operator after the current node
                            var temp = nodeList[0];
                            nodeList.RemoveAt(0);
                            node.Operand2 = temp;

                            // if there's nothing left, then let it die. Otherwise split off
                            // the remainder and insert after the current item.
                            if (nodeList.Count > 0)
                            {
                                parentBlock.InsertAfter(node, CreateSplitNodeFromEnd(nodeList, 0));
                            }
                        }
                        else
                        {
                            // split off items from the index where we want to split, and insert
                            // it after the current node and leave the node list where it is.
                            parentBlock.InsertAfter(node, CreateSplitNodeFromEnd(nodeList, ndx));
                        }

                        // and now that we've broken it, bail.
                        break;
                    }
                }

                // regardless if anything changed, recurse this node now
                base.Visit(node);
            }
        }
 public void Visit(JsAstNodeList node)
 {
     // shoudn't get here
     Debug.Fail("shouldn't get here");
 }
Exemplo n.º 10
0
        private JsAstNode ParseLeftHandSideExpression(bool isMinus)
        {
            JsAstNode ast = null;
            bool skipToken = true;
            List<JsContext> newContexts = null;

            TryItAgain:

            // new expression
            while (JsToken.New == m_currentToken.Token)
            {
                if (null == newContexts)
                    newContexts = new List<JsContext>(4);
                newContexts.Add(m_currentToken.Clone());
                GetNextToken();
            }
            JsToken token = m_currentToken.Token;
            switch (token)
            {
                // primary expression
                case JsToken.Identifier:
                    ast = new JsLookup(m_currentToken.Clone(), this)
                        {
                            Name = m_scanner.Identifier
                        };
                    break;

                case JsToken.ConditionalCommentStart:
                    // skip past the start to the next token
                    GetNextToken();
                    if (m_currentToken.Token == JsToken.ConditionalCompilationVariable)
                    {
                        // we have /*@id
                        ast = new JsConstantWrapperPP(m_currentToken.Clone(), this)
                            {
                                VarName = m_currentToken.Code,
                                ForceComments = true
                            };

                        GetNextToken();

                        if (m_currentToken.Token == JsToken.ConditionalCommentEnd)
                        {
                            // skip past the closing comment
                            GetNextToken();
                        }
                        else
                        {
                            // we ONLY support /*@id@*/ in expressions right now. If there's not
                            // a closing comment after the ID, then we don't support it.
                            // throw an error, skip to the end of the comment, then ignore it and start
                            // looking for the next token.
                            CCTooComplicated(null);
                            goto TryItAgain;
                        }
                    }
                    else if (m_currentToken.Token == JsToken.ConditionalCommentEnd)
                    {
                        // empty conditional comment! Ignore.
                        GetNextToken();
                        goto TryItAgain;
                    }
                    else
                    {
                        // we DON'T have "/*@IDENT". We only support "/*@IDENT @*/", so since this isn't
                        // and id, throw the error, skip to the end of the comment, and ignore it
                        // by looping back and looking for the NEXT token.
                        m_currentToken.HandleError(JsError.ConditionalCompilationTooComplex);

                        // skip to end of conditional comment
                        while (m_currentToken.Token != JsToken.EndOfFile && m_currentToken.Token != JsToken.ConditionalCommentEnd)
                        {
                            GetNextToken();
                        }
                        GetNextToken();
                        goto TryItAgain;
                    }
                    break;

                case JsToken.This:
                    ast = new JsThisLiteral(m_currentToken.Clone(), this);
                    break;

                case JsToken.StringLiteral:
                    ast = new JsConstantWrapper(m_scanner.StringLiteralValue, JsPrimitiveType.String, m_currentToken.Clone(), this)
                        {
                            MayHaveIssues = m_scanner.LiteralHasIssues
                        };
                    break;

                case JsToken.IntegerLiteral:
                case JsToken.NumericLiteral:
                    {
                        JsContext numericContext = m_currentToken.Clone();
                        double doubleValue;
                        if (ConvertNumericLiteralToDouble(m_currentToken.Code, (token == JsToken.IntegerLiteral), out doubleValue))
                        {
                            // conversion worked fine
                            // check for some boundary conditions
                            var mayHaveIssues = m_scanner.LiteralHasIssues;
                            if (doubleValue == double.MaxValue)
                            {
                                ReportError(JsError.NumericMaximum, numericContext, true);
                            }
                            else if (isMinus && -doubleValue == double.MinValue)
                            {
                                ReportError(JsError.NumericMinimum, numericContext, true);
                            }

                            // create the constant wrapper from the value
                            ast = new JsConstantWrapper(doubleValue, JsPrimitiveType.Number, numericContext, this)
                                {
                                    MayHaveIssues = mayHaveIssues
                                };
                        }
                        else
                        {
                            // if we went overflow or are not a number, then we will use the "Other"
                            // primitive type so we don't try doing any numeric calcs with it.
                            if (double.IsInfinity(doubleValue))
                            {
                                // overflow
                                // and if we ARE an overflow, report it
                                ReportError(JsError.NumericOverflow, numericContext, true);
                            }

                            // regardless, we're going to create a special constant wrapper
                            // that simply echos the input as-is
                            ast = new JsConstantWrapper(m_currentToken.Code, JsPrimitiveType.Other, numericContext, this)
                            {
                                MayHaveIssues = true
                            };
                        }
                        break;
                    }

                case JsToken.True:
                    ast = new JsConstantWrapper(true, JsPrimitiveType.Boolean, m_currentToken.Clone(), this);
                    break;

                case JsToken.False:
                    ast = new JsConstantWrapper(false, JsPrimitiveType.Boolean, m_currentToken.Clone(), this);
                    break;

                case JsToken.Null:
                    ast = new JsConstantWrapper(null, JsPrimitiveType.Null, m_currentToken.Clone(), this);
                    break;

                case JsToken.ConditionalCompilationVariable:
                    ast = new JsConstantWrapperPP(m_currentToken.Clone(), this)
                        {
                            VarName = m_currentToken.Code,
                            ForceComments = false
                        };
                    break;

                case JsToken.DivideAssign:
                // normally this token is not allowed on the left-hand side of an expression.
                // BUT, this might be the start of a regular expression that begins with an equals sign!
                // we need to test to see if we can parse a regular expression, and if not, THEN
                // we can fail the parse.

                case JsToken.Divide:
                    // could it be a regexp?
                    ast = ScanRegularExpression();
                    if (ast != null)
                    {
                        // yup -- we're done here
                        break;
                    }

                    // nope -- go to the default branch
                    goto default;

                // expression
                case JsToken.LeftParenthesis:
                    {
                        var groupingOp = new JsGroupingOperator(m_currentToken.Clone(), this);
                        ast = groupingOp;
                        GetNextToken();
                        m_noSkipTokenSet.Add(NoSkipTokenSet.s_ParenExpressionNoSkipToken);
                        try
                        {
                            // parse an expression
                            groupingOp.Operand = ParseExpression();
                            if (JsToken.RightParenthesis != m_currentToken.Token)
                            {
                                ReportError(JsError.NoRightParenthesis);
                            }
                            else
                            {
                                // add the closing paren to the expression context
                                ast.Context.UpdateWith(m_currentToken);
                            }
                        }
                        catch (RecoveryTokenException exc)
                        {
                            if (IndexOfToken(NoSkipTokenSet.s_ParenExpressionNoSkipToken, exc) == -1)
                                throw;
                            else
                                groupingOp.Operand = exc._partiallyComputedNode;
                        }
                        finally
                        {
                            m_noSkipTokenSet.Remove(NoSkipTokenSet.s_ParenExpressionNoSkipToken);
                        }
                    }
                    break;

                // array initializer
                case JsToken.LeftBracket:
                    JsContext listCtx = m_currentToken.Clone();
                    GetNextToken();
                    JsAstNodeList list = new JsAstNodeList(CurrentPositionContext(), this);
                    var hasTrailingCommas = false;
                    while (JsToken.RightBracket != m_currentToken.Token)
                    {
                        if (JsToken.Comma != m_currentToken.Token)
                        {
                            m_noSkipTokenSet.Add(NoSkipTokenSet.s_ArrayInitNoSkipTokenSet);
                            try
                            {
                                var expression = ParseExpression(true);
                                list.Append(expression);
                                if (JsToken.Comma != m_currentToken.Token)
                                {
                                    if (JsToken.RightBracket != m_currentToken.Token)
                                    {
                                        ReportError(JsError.NoRightBracket);
                                    }

                                    break;
                                }
                                else
                                {
                                    // we have a comma -- skip it after adding it as a terminator
                                    // on the previous expression
                                    var commaContext = m_currentToken.Clone();
                                    expression.IfNotNull(e => e.TerminatingContext = commaContext);
                                    GetNextToken();

                                    // if the next token is the closing brackets, then we need to
                                    // add a missing value to the array because we end in a comma and
                                    // we need to keep it for cross-platform compat.
                                    // TECHNICALLY, that puts an extra item into the array for most modern browsers, but not ALL.
                                    if (m_currentToken.Token == JsToken.RightBracket)
                                    {
                                        hasTrailingCommas = true;
                                        list.Append(new JsConstantWrapper(JsMissing.Value, JsPrimitiveType.Other, m_currentToken.Clone(), this));

                                        // throw a cross-browser warning about trailing commas
                                        commaContext.HandleError(JsError.ArrayLiteralTrailingComma);
                                        break;
                                    }
                                }
                            }
                            catch (RecoveryTokenException exc)
                            {
                                if (exc._partiallyComputedNode != null)
                                    list.Append(exc._partiallyComputedNode);
                                if (IndexOfToken(NoSkipTokenSet.s_ArrayInitNoSkipTokenSet, exc) == -1)
                                {
                                    listCtx.UpdateWith(CurrentPositionContext());
                                    exc._partiallyComputedNode = new JsArrayLiteral(listCtx, this)
                                        {
                                            Elements = list,
                                            MayHaveIssues = true
                                        };
                                    throw;
                                }
                                else
                                {
                                    if (JsToken.RightBracket == m_currentToken.Token)
                                        break;
                                }
                            }
                            finally
                            {
                                m_noSkipTokenSet.Remove(NoSkipTokenSet.s_ArrayInitNoSkipTokenSet);
                            }
                        }
                        else
                        {
                            // comma -- missing array item in the list
                            var commaContext = m_currentToken.Clone();
                            list.Append(new JsConstantWrapper(JsMissing.Value, JsPrimitiveType.Other, m_currentToken.Clone(), this)
                                {
                                    TerminatingContext = commaContext
                                });

                            // skip over the comma
                            GetNextToken();

                            // if the next token is the closing brace, then we end with a comma -- and we need to
                            // add ANOTHER missing value to make sure this last comma doesn't get left off.
                            // TECHNICALLY, that puts an extra item into the array for most modern browsers, but not ALL.
                            if (m_currentToken.Token == JsToken.RightBracket)
                            {
                                hasTrailingCommas = true;
                                list.Append(new JsConstantWrapper(JsMissing.Value, JsPrimitiveType.Other, m_currentToken.Clone(), this));

                                // throw a cross-browser warning about trailing commas
                                commaContext.HandleError(JsError.ArrayLiteralTrailingComma);
                                break;
                            }
                        }
                    }

                    listCtx.UpdateWith(m_currentToken);
                    ast = new JsArrayLiteral(listCtx, this)
                        {
                            Elements = list,
                            MayHaveIssues = hasTrailingCommas
                        };
                    break;

                // object initializer
                case JsToken.LeftCurly:
                    JsContext objCtx = m_currentToken.Clone();
                    GetNextToken();

                    var propertyList = new JsAstNodeList(CurrentPositionContext(), this);

                    if (JsToken.RightCurly != m_currentToken.Token)
                    {
                        for (; ; )
                        {
                            JsObjectLiteralField field = null;
                            JsAstNode value = null;
                            bool getterSetter = false;
                            string ident;

                            switch (m_currentToken.Token)
                            {
                                case JsToken.Identifier:
                                    field = new JsObjectLiteralField(m_scanner.Identifier, JsPrimitiveType.String, m_currentToken.Clone(), this);
                                    break;

                                case JsToken.StringLiteral:
                                    field = new JsObjectLiteralField(m_scanner.StringLiteralValue, JsPrimitiveType.String, m_currentToken.Clone(), this)
                                        {
                                            MayHaveIssues = m_scanner.LiteralHasIssues
                                        };
                                    break;

                                case JsToken.IntegerLiteral:
                                case JsToken.NumericLiteral:
                                    {
                                        double doubleValue;
                                        if (ConvertNumericLiteralToDouble(m_currentToken.Code, (m_currentToken.Token == JsToken.IntegerLiteral), out doubleValue))
                                        {
                                            // conversion worked fine
                                            field = new JsObjectLiteralField(
                                              doubleValue,
                                              JsPrimitiveType.Number,
                                              m_currentToken.Clone(),
                                              this
                                              );
                                        }
                                        else
                                        {
                                            // something went wrong and we're not sure the string representation in the source is
                                            // going to convert to a numeric value well
                                            if (double.IsInfinity(doubleValue))
                                            {
                                                ReportError(JsError.NumericOverflow, m_currentToken.Clone(), true);
                                            }

                                            // use the source as the field name, not the numeric value
                                            field = new JsObjectLiteralField(
                                                m_currentToken.Code,
                                                JsPrimitiveType.Other,
                                                m_currentToken.Clone(),
                                                this);
                                        }
                                        break;
                                    }

                                case JsToken.Get:
                                case JsToken.Set:
                                    if (PeekToken() == JsToken.Colon)
                                    {
                                        // the field is either "get" or "set" and isn't the special Mozilla getter/setter
                                        field = new JsObjectLiteralField(m_currentToken.Code, JsPrimitiveType.String, m_currentToken.Clone(), this);
                                    }
                                    else
                                    {
                                        // ecma-script get/set property construct
                                        getterSetter = true;
                                        bool isGet = (m_currentToken.Token == JsToken.Get);
                                        value = ParseFunction(
                                          (JsToken.Get == m_currentToken.Token ? JsFunctionType.Getter : JsFunctionType.Setter),
                                          m_currentToken.Clone()
                                          );
                                        JsFunctionObject funcExpr = value as JsFunctionObject;
                                        if (funcExpr != null)
                                        {
                                            // getter/setter is just the literal name with a get/set flag
                                            field = new JsGetterSetter(
                                              funcExpr.Name,
                                              isGet,
                                              funcExpr.IdContext.Clone(),
                                              this
                                              );
                                        }
                                        else
                                        {
                                            ReportError(JsError.FunctionExpressionExpected);
                                        }
                                    }
                                    break;

                                default:
                                    // NOT: identifier token, string, number, or getter/setter.
                                    // see if it's a token that COULD be an identifierName.
                                    ident = m_scanner.Identifier;
                                    if (JsScanner.IsValidIdentifier(ident))
                                    {
                                        // BY THE SPEC, if it's a valid identifierName -- which includes reserved words -- then it's
                                        // okay for object literal syntax. However, reserved words here won't work in all browsers,
                                        // so if it is a reserved word, let's throw a low-sev cross-browser warning on the code.
                                        if (JsKeyword.CanBeIdentifier(m_currentToken.Token) == null)
                                        {
                                            ReportError(JsError.ObjectLiteralKeyword, m_currentToken.Clone(), true);
                                        }

                                        field = new JsObjectLiteralField(ident, JsPrimitiveType.String, m_currentToken.Clone(), this);
                                    }
                                    else
                                    {
                                        // throw an error but use it anyway, since that's what the developer has going on
                                        ReportError(JsError.NoMemberIdentifier, m_currentToken.Clone(), true);
                                        field = new JsObjectLiteralField(m_currentToken.Code, JsPrimitiveType.String, m_currentToken.Clone(), this);
                                    }
                                    break;
                            }

                            if (field != null)
                            {
                                if (!getterSetter)
                                {
                                    GetNextToken();
                                }

                                m_noSkipTokenSet.Add(NoSkipTokenSet.s_ObjectInitNoSkipTokenSet);
                                try
                                {
                                    if (!getterSetter)
                                    {
                                        // get the value
                                        if (JsToken.Colon != m_currentToken.Token)
                                        {
                                            ReportError(JsError.NoColon, true);
                                            value = ParseExpression(true);
                                        }
                                        else
                                        {
                                            field.ColonContext = m_currentToken.Clone();
                                            GetNextToken();
                                            value = ParseExpression(true);
                                        }
                                    }

                                    // put the pair into the list of fields
                                    var propCtx = field.Context.Clone().CombineWith(value.IfNotNull(v => v.Context));
                                    var property = new JsObjectLiteralProperty(propCtx, this)
                                        {
                                            Name = field,
                                            Value = value
                                        };

                                    propertyList.Append(property);

                                    if (JsToken.RightCurly == m_currentToken.Token)
                                    {
                                        break;
                                    }
                                    else
                                    {
                                        if (JsToken.Comma == m_currentToken.Token)
                                        {
                                            // skip the comma after adding it to the property as a terminating context
                                            property.IfNotNull(p => p.TerminatingContext = m_currentToken.Clone());
                                            GetNextToken();

                                            // if the next token is the right-curly brace, then we ended
                                            // the list with a comma, which is perfectly fine
                                            if (m_currentToken.Token == JsToken.RightCurly)
                                            {
                                                break;
                                            }
                                        }
                                        else
                                        {
                                            if (m_foundEndOfLine)
                                            {
                                                ReportError(JsError.NoRightCurly);
                                            }
                                            else
                                                ReportError(JsError.NoComma, true);
                                            SkipTokensAndThrow();
                                        }
                                    }
                                }
                                catch (RecoveryTokenException exc)
                                {
                                    if (exc._partiallyComputedNode != null)
                                    {
                                        // the problem was in ParseExpression trying to determine value
                                        value = exc._partiallyComputedNode;

                                        var propCtx = field.Context.Clone().CombineWith(value.IfNotNull(v => v.Context));
                                        var property = new JsObjectLiteralProperty(propCtx, this)
                                        {
                                            Name = field,
                                            Value = value
                                        };

                                        propertyList.Append(property);
                                    }

                                    if (IndexOfToken(NoSkipTokenSet.s_ObjectInitNoSkipTokenSet, exc) == -1)
                                    {
                                        exc._partiallyComputedNode = new JsObjectLiteral(objCtx, this)
                                            {
                                                Properties = propertyList
                                            };
                                        throw;
                                    }
                                    else
                                    {
                                        if (JsToken.Comma == m_currentToken.Token)
                                            GetNextToken();
                                        if (JsToken.RightCurly == m_currentToken.Token)
                                            break;
                                    }
                                }
                                finally
                                {
                                    m_noSkipTokenSet.Remove(NoSkipTokenSet.s_ObjectInitNoSkipTokenSet);
                                }
                            }
                        }
                    }
                    objCtx.UpdateWith(m_currentToken);
                    ast = new JsObjectLiteral(objCtx, this)
                        {
                            Properties = propertyList
                        };
                    break;

                // function expression
                case JsToken.Function:
                    ast = ParseFunction(JsFunctionType.Expression, m_currentToken.Clone());
                    skipToken = false;
                    break;

                case JsToken.AspNetBlock:
                    ast = new JsAspNetBlockNode(m_currentToken.Clone(), this)
                        {
                            AspNetBlockText = m_currentToken.Code
                        };
                    break;

                default:
                    string identifier = JsKeyword.CanBeIdentifier(m_currentToken.Token);
                    if (null != identifier)
                    {
                        ast = new JsLookup(m_currentToken.Clone(), this)
                            {
                                Name = identifier
                            };
                    }
                    else
                    {
                        ReportError(JsError.ExpressionExpected);
                        SkipTokensAndThrow();
                    }
                    break;
            }

            // can be a CallExpression, that is, followed by '.' or '(' or '['
            if (skipToken)
                GetNextToken();

            return MemberExpression(ast, newContexts);
        }
Exemplo n.º 11
0
        private JsFunctionObject ParseFunction(JsFunctionType functionType, JsContext fncCtx)
        {
            JsLookup name = null;
            JsAstNodeList formalParameters = null;
            JsBlock body = null;
            bool inExpression = (functionType == JsFunctionType.Expression);
            JsContext paramsContext = null;

            GetNextToken();

            // get the function name or make an anonymous function if in expression "position"
            if (JsToken.Identifier == m_currentToken.Token)
            {
                name = new JsLookup(m_currentToken.Clone(), this)
                    {
                        Name = m_scanner.Identifier
                    };
                GetNextToken();
            }
            else
            {
                string identifier = JsKeyword.CanBeIdentifier(m_currentToken.Token);
                if (null != identifier)
                {
                    name = new JsLookup(m_currentToken.Clone(), this)
                        {
                            Name = identifier
                        };
                    GetNextToken();
                }
                else
                {
                    if (!inExpression)
                    {
                        // if this isn't a function expression, then we need to throw an error because
                        // function DECLARATIONS always need a valid identifier name
                        ReportError(JsError.NoIdentifier, m_currentToken.Clone(), true);

                        // BUT if the current token is a left paren, we don't want to use it as the name.
                        // (fix for issue #14152)
                        if (m_currentToken.Token != JsToken.LeftParenthesis
                            && m_currentToken.Token != JsToken.LeftCurly)
                        {
                            identifier = m_currentToken.Code;
                            name = new JsLookup(CurrentPositionContext(), this)
                                {
                                    Name = identifier
                                };
                            GetNextToken();
                        }
                    }
                }
            }

            // make a new state and save the old one
            List<BlockType> blockType = m_blockType;
            m_blockType = new List<BlockType>(16);
            Dictionary<string, LabelInfo> labelTable = m_labelTable;
            m_labelTable = new Dictionary<string, LabelInfo>();

            try
            {
                // get the formal parameters
                if (JsToken.LeftParenthesis != m_currentToken.Token)
                {
                    // we expect a left paren at this point for standard cross-browser support.
                    // BUT -- some versions of IE allow an object property expression to be a function name, like window.onclick.
                    // we still want to throw the error, because it syntax errors on most browsers, but we still want to
                    // be able to parse it and return the intended results.
                    // Skip to the open paren and use whatever is in-between as the function name. Doesn't matter that it's
                    // an invalid identifier; it won't be accessible as a valid field anyway.
                    bool expandedIndentifier = false;
                    while (m_currentToken.Token != JsToken.LeftParenthesis
                        && m_currentToken.Token != JsToken.LeftCurly
                        && m_currentToken.Token != JsToken.Semicolon
                        && m_currentToken.Token != JsToken.EndOfFile)
                    {
                        name.Context.UpdateWith(m_currentToken);
                        GetNextToken();
                        expandedIndentifier = true;
                    }

                    // if we actually expanded the identifier context, then we want to report that
                    // the function name needs to be an identifier. Otherwise we didn't expand the
                    // name, so just report that we expected an open paren at this point.
                    if (expandedIndentifier)
                    {
                        name.Name = name.Context.Code;
                        name.Context.HandleError(JsError.FunctionNameMustBeIdentifier, false);
                    }
                    else
                    {
                        ReportError(JsError.NoLeftParenthesis, true);
                    }
                }

                if (m_currentToken.Token == JsToken.LeftParenthesis)
                {
                    // create the parameter list
                    formalParameters = new JsAstNodeList(m_currentToken.Clone(), this);
                    paramsContext = m_currentToken.Clone();

                    // skip the open paren
                    GetNextToken();

                    // create the list of arguments and update the context
                    while (JsToken.RightParenthesis != m_currentToken.Token)
                    {
                        String id = null;
                        m_noSkipTokenSet.Add(NoSkipTokenSet.s_FunctionDeclNoSkipTokenSet);
                        try
                        {
                            JsParameterDeclaration paramDecl = null;
                            if (JsToken.Identifier != m_currentToken.Token && (id = JsKeyword.CanBeIdentifier(m_currentToken.Token)) == null)
                            {
                                if (JsToken.LeftCurly == m_currentToken.Token)
                                {
                                    ReportError(JsError.NoRightParenthesis);
                                    break;
                                }
                                else if (JsToken.Comma == m_currentToken.Token)
                                {
                                    // We're missing an argument (or previous argument was malformed and
                                    // we skipped to the comma.)  Keep trying to parse the argument list --
                                    // we will skip the comma below.
                                    ReportError(JsError.SyntaxError, true);
                                }
                                else
                                {
                                    ReportError(JsError.SyntaxError, true);
                                    SkipTokensAndThrow();
                                }
                            }
                            else
                            {
                                if (null == id)
                                {
                                    id = m_scanner.Identifier;
                                }

                                paramDecl = new JsParameterDeclaration(m_currentToken.Clone(), this)
                                    {
                                        Name = id,
                                        Position = formalParameters.Count
                                    };
                                formalParameters.Append(paramDecl);
                                GetNextToken();
                            }

                            // got an arg, it should be either a ',' or ')'
                            if (JsToken.RightParenthesis == m_currentToken.Token)
                            {
                                break;
                            }
                            else if (JsToken.Comma == m_currentToken.Token)
                            {
                                // append the comma context as the terminator for the parameter
                                paramDecl.IfNotNull(p => p.TerminatingContext = m_currentToken.Clone());
                            }
                            else
                            {
                                // deal with error in some "intelligent" way
                                if (JsToken.LeftCurly == m_currentToken.Token)
                                {
                                    ReportError(JsError.NoRightParenthesis);
                                    break;
                                }
                                else
                                {
                                    if (JsToken.Identifier == m_currentToken.Token)
                                    {
                                        // it's possible that the guy was writing the type in C/C++ style (i.e. int x)
                                        ReportError(JsError.NoCommaOrTypeDefinitionError);
                                    }
                                    else
                                        ReportError(JsError.NoComma);
                                }
                            }

                            GetNextToken();
                        }
                        catch (RecoveryTokenException exc)
                        {
                            if (IndexOfToken(NoSkipTokenSet.s_FunctionDeclNoSkipTokenSet, exc) == -1)
                                throw;
                        }
                        finally
                        {
                            m_noSkipTokenSet.Remove(NoSkipTokenSet.s_FunctionDeclNoSkipTokenSet);
                        }
                    }

                    fncCtx.UpdateWith(m_currentToken);
                    GetNextToken();
                }

                // read the function body of non-abstract functions.
                if (JsToken.LeftCurly != m_currentToken.Token)
                    ReportError(JsError.NoLeftCurly, true);

                m_blockType.Add(BlockType.Block);
                m_noSkipTokenSet.Add(NoSkipTokenSet.s_BlockNoSkipTokenSet);
                m_noSkipTokenSet.Add(NoSkipTokenSet.s_StartStatementNoSkipTokenSet);
                try
                {
                    // parse the block locally to get the exact end of function
                    body = new JsBlock(m_currentToken.Clone(), this);
                    body.BraceOnNewLine = m_foundEndOfLine;
                    GetNextToken();

                    var possibleDirectivePrologue = true;
                    while (JsToken.RightCurly != m_currentToken.Token)
                    {
                        try
                        {
                            // function body's are SourceElements (Statements + FunctionDeclarations)
                            var statement = ParseStatement(true);
                            if (possibleDirectivePrologue)
                            {
                                var constantWrapper = statement as JsConstantWrapper;
                                if (constantWrapper != null && constantWrapper.PrimitiveType == JsPrimitiveType.String)
                                {
                                    // if it's already a directive prologues, we're good to go
                                    if (!(constantWrapper is JsDirectivePrologue))
                                    {
                                        // make the statement a directive prologue instead of a constant wrapper
                                        statement = new JsDirectivePrologue(constantWrapper.Value.ToString(), constantWrapper.Context, constantWrapper.Parser)
                                            {
                                                MayHaveIssues = constantWrapper.MayHaveIssues
                                            };
                                    }
                                }
                                else if (!m_newModule)
                                {
                                    // no longer considering constant wrappers
                                    possibleDirectivePrologue = false;
                                }
                            }
                            else if (m_newModule)
                            {
                                // we scanned into a new module -- we might find directive prologues again
                                possibleDirectivePrologue = true;
                            }

                            // add it to the body
                            body.Append(statement);
                        }
                        catch (RecoveryTokenException exc)
                        {
                            if (exc._partiallyComputedNode != null)
                            {
                                body.Append(exc._partiallyComputedNode);
                            }
                            if (IndexOfToken(NoSkipTokenSet.s_StartStatementNoSkipTokenSet, exc) == -1)
                                throw;
                        }
                    }

                    // make sure any important comments before the closing brace are kept
                    AppendImportantComments(body);

                    body.Context.UpdateWith(m_currentToken);
                    fncCtx.UpdateWith(m_currentToken);
                }
                catch (EndOfStreamException)
                {
                    // if we get an EOF here, we never had a chance to find the closing curly-brace
                    fncCtx.HandleError(JsError.UnclosedFunction, true);
                }
                catch (RecoveryTokenException exc)
                {
                    if (IndexOfToken(NoSkipTokenSet.s_BlockNoSkipTokenSet, exc) == -1)
                    {
                        exc._partiallyComputedNode = new JsFunctionObject(fncCtx, this)
                            {
                                FunctionType = (inExpression ? JsFunctionType.Expression : JsFunctionType.Declaration),
                                IdContext = name.IfNotNull(n => n.Context),
                                Name = name.IfNotNull(n => n.Name),
                                ParameterDeclarations = formalParameters,
                                ParametersContext = paramsContext,
                                Body = body
                            };
                        throw;
                    }
                }
                finally
                {
                    m_blockType.RemoveAt(m_blockType.Count - 1);
                    m_noSkipTokenSet.Remove(NoSkipTokenSet.s_StartStatementNoSkipTokenSet);
                    m_noSkipTokenSet.Remove(NoSkipTokenSet.s_BlockNoSkipTokenSet);
                }

                GetNextToken();
            }
            finally
            {
                // restore state
                m_blockType = blockType;
                m_labelTable = labelTable;
            }

            return new JsFunctionObject(fncCtx, this)
                {
                    FunctionType = functionType,
                    IdContext = name.IfNotNull(n => n.Context),
                    Name = name.IfNotNull(n => n.Name),
                    ParameterDeclarations = formalParameters,
                    ParametersContext = paramsContext,
                    Body = body
                };
        }
Exemplo n.º 12
0
        /// <summary>
        /// Parse the source code using the given settings, getting back an abstract syntax tree Block node as the root
        /// representing the list of statements in the source code.
        /// </summary>
        /// <param name="settings">code settings to use to process the source code</param>
        /// <returns>root Block node representing the top-level statements</returns>
        public JsBlock Parse(JsSettings settings)
        {
            // initialize the scanner with our settings
            // make sure the RawTokens setting is OFF or we won't be able to create our AST
            InitializeScanner(settings);

            // make sure we initialize the global scope's strict mode to our flag, whether or not it
            // is true. This means if the setting is false, we will RESET the flag to false if we are
            // reusing the scope and a previous Parse call had code that set it to strict with a
            // program directive.
            GlobalScope.UseStrict = m_settings.StrictMode;

            // make sure the global scope knows about our known global names
            GlobalScope.SetAssumedGlobals(m_settings);

            // start of a new module
            m_newModule = true;

            var timePoints = m_timingPoints = new long[9];
            var timeIndex = timePoints.Length;
            var stopWatch = new Stopwatch();
            stopWatch.Start();

            JsBlock scriptBlock = null;
            JsBlock returnBlock = null;
            try
            {
                switch (m_settings.SourceMode)
                {
                    case JsSourceMode.Program:
                        // simply parse a block of statements
                        returnBlock = scriptBlock = ParseStatements();
                        break;

                    case JsSourceMode.Expression:
                        // create a block, get the first token, add in the parse of a single expression,
                        // and we'll go fron there.
                        returnBlock = scriptBlock = new JsBlock(CurrentPositionContext(), this);
                        GetNextToken();
                        try
                        {
                            var expr = ParseExpression();
                            if (expr != null)
                            {
                                scriptBlock.Append(expr);
                                scriptBlock.UpdateWith(expr.Context);
                            }
                        }
                        catch (EndOfStreamException)
                        {
                            Debug.WriteLine("EOF");
                        }
                        break;

                    case JsSourceMode.EventHandler:
                        // we're going to create the global block, add in a function expression with a single
                        // parameter named "event", and then we're going to parse the input as the body of that
                        // function expression. We're going to resolve the global block, but only return the body
                        // of the function.
                        scriptBlock = new JsBlock(null, this);

                        var parameters = new JsAstNodeList(null, this);
                        parameters.Append(new JsParameterDeclaration(null, this)
                            {
                                Name = "event",
                                RenameNotAllowed = true
                            });

                        var funcExpression = new JsFunctionObject(null, this)
                            {
                                FunctionType = JsFunctionType.Expression,
                                ParameterDeclarations = parameters
                            };
                        scriptBlock.Append(funcExpression);
                        funcExpression.Body = returnBlock = ParseStatements();
                        break;

                    default:
                        Debug.Fail("Unexpected source mode enumeration");
                        return null;
                }
            }
            catch (RecoveryTokenException)
            {
                // this should never happen but let's make SURE we don't expose our
                // private exception object to the outside world
                m_currentToken.HandleError(JsError.ApplicationError, true);
            }

            timePoints[--timeIndex] = stopWatch.ElapsedTicks;

            if (scriptBlock != null)
            {
                // resolve everything
                JsResolutionVisitor.Apply(scriptBlock, GlobalScope, m_settings);
            }

            timePoints[--timeIndex] = stopWatch.ElapsedTicks;

            if (scriptBlock != null && Settings.MinifyCode && !Settings.PreprocessOnly)
            {
                // this visitor doesn't just reorder scopes. It also combines the adjacent var variables,
                // unnests blocks, identifies prologue directives, and sets the strict mode on scopes.
                JsReorderScopeVisitor.Apply(scriptBlock, this);
                timePoints[--timeIndex] = stopWatch.ElapsedTicks;

                // analyze the entire node tree (needed for hypercrunch)
                // root to leaf (top down)
                var analyzeVisitor = new JsAnalyzeNodeVisitor(this);
                scriptBlock.Accept(analyzeVisitor);
                timePoints[--timeIndex] = stopWatch.ElapsedTicks;

                // analyze the scope chain (also needed for hypercrunch)
                // root to leaf (top down)
                GlobalScope.AnalyzeScope();
                timePoints[--timeIndex] = stopWatch.ElapsedTicks;

                // if we want to crunch any names....
                if (m_settings.LocalRenaming != JsLocalRenaming.KeepAll
                    && m_settings.IsModificationAllowed(JsTreeModifications.LocalRenaming))
                {
                    // then do a top-down traversal of the scope tree. For each field that had not
                    // already been crunched (globals and outers will already be crunched), crunch
                    // the name with a crunch iterator that does not use any names in the verboten set.
                    GlobalScope.AutoRenameFields();
                }

                timePoints[--timeIndex] = stopWatch.ElapsedTicks;

                // if we want to evaluate literal expressions, do so now
                if (m_settings.EvalLiteralExpressions)
                {
                    var visitor = new JsEvaluateLiteralVisitor(this);
                    scriptBlock.Accept(visitor);
                }

                timePoints[--timeIndex] = stopWatch.ElapsedTicks;

                // make the final cleanup pass
                JsFinalPassVisitor.Apply(scriptBlock, this);
                timePoints[--timeIndex] = stopWatch.ElapsedTicks;

                // we want to walk all the scopes to make sure that any generated
                // variables that haven't been crunched have been assigned valid
                // variable names that don't collide with any existing variables.
                GlobalScope.ValidateGeneratedNames();
                timePoints[--timeIndex] = stopWatch.ElapsedTicks;
            }

            if (returnBlock != null && returnBlock.Parent != null)
            {
                returnBlock.Parent = null;
            }

            return returnBlock;
        }
Exemplo n.º 13
0
        //---------------------------------------------------------------------------------------
        // ParseExpressionList
        //
        //  Given a starting this.currentToken '(' or '[', parse a list of expression separated by
        //  ',' until matching ')' or ']'
        //---------------------------------------------------------------------------------------
        private JsAstNodeList ParseExpressionList(JsToken terminator)
        {
            JsContext listCtx = m_currentToken.Clone();
            GetNextToken();
            JsAstNodeList list = new JsAstNodeList(listCtx, this);
            if (terminator != m_currentToken.Token)
            {
                for (; ; )
                {
                    m_noSkipTokenSet.Add(NoSkipTokenSet.s_ExpressionListNoSkipTokenSet);
                    try
                    {
                        JsAstNode item;
                        if (JsToken.Comma == m_currentToken.Token)
                        {
                            item = new JsConstantWrapper(JsMissing.Value, JsPrimitiveType.Other, m_currentToken.Clone(), this);
                            list.Append(item);
                        }
                        else if (terminator == m_currentToken.Token)
                        {
                            break;
                        }
                        else
                        {
                            item = ParseExpression(true);
                            list.Append(item);
                        }

                        if (terminator == m_currentToken.Token)
                        {
                            break;
                        }
                        else
                        {
                            if (JsToken.Comma == m_currentToken.Token)
                            {
                                item.IfNotNull(n => n.TerminatingContext = m_currentToken.Clone());
                            }
                            else
                            {
                                if (terminator == JsToken.RightParenthesis)
                                {
                                    //  in ASP+ it's easy to write a semicolon at the end of an expression
                                    //  not realizing it is going to go inside a function call
                                    //  (ie. Response.Write()), so make a special check here
                                    if (JsToken.Semicolon == m_currentToken.Token)
                                    {
                                        if (JsToken.RightParenthesis == PeekToken())
                                        {
                                            ReportError(JsError.UnexpectedSemicolon, true);
                                            GetNextToken();
                                            break;
                                        }
                                    }

                                    ReportError(JsError.NoRightParenthesisOrComma);
                                }
                                else
                                {
                                    ReportError(JsError.NoRightBracketOrComma);
                                }

                                SkipTokensAndThrow();
                            }
                        }
                    }
                    catch (RecoveryTokenException exc)
                    {
                        if (exc._partiallyComputedNode != null)
                            list.Append(exc._partiallyComputedNode);
                        if (IndexOfToken(NoSkipTokenSet.s_ExpressionListNoSkipTokenSet, exc) == -1)
                        {
                            exc._partiallyComputedNode = list;
                            throw;
                        }
                    }
                    finally
                    {
                        m_noSkipTokenSet.Remove(NoSkipTokenSet.s_ExpressionListNoSkipTokenSet);
                    }
                    GetNextToken();
                }
            }
            listCtx.UpdateWith(m_currentToken);
            return list;
        }
Exemplo n.º 14
0
        public void Visit(JsAstNodeList node)
        {
            if (node != null && node.Count > 0)
            {
                var symbol = StartSymbol(node);

                // see if this parent is a comma operator whose parent in turn is a block.
                // if so, then these expressions were expression statements that we've combined.
                // if that's the case, we're going to put newlines in so it's a little easier
                // to read in multi-line mode
                var addNewLines = node.Parent is JsCommaOperator
                    && node.Parent.Parent is JsBlock
                    && m_settings.OutputMode == MinifierOutputMode.MultipleLines;

                // output as comma-separated expressions starting with the first one
                node[0].Accept(this);
                SetContextOutputPosition(node.Context, node[0].Context);

                // this should never be the first element of the line, but
                // just in case, reset the flag after the first expression.
                m_startOfStatement = false;

                // if we aren't breaking them up by newlines, indent now in case
                // one of the items causes a newline to be inserted.
                if (!addNewLines)
                {
                    Indent();
                }

                for (var ndx = 1; ndx < node.Count; ++ndx)
                {
                    // output a comma
                    OutputPossibleLineBreak(',');
                    MarkSegment(node, null, node[ndx-1].IfNotNull(n => n.TerminatingContext));

                    if (addNewLines)
                    {
                        NewLine();
                    }
                    else if (m_settings.OutputMode == MinifierOutputMode.MultipleLines)
                    {
                        OutputPossibleLineBreak(' ');
                    }

                    // output the next node
                    node[ndx].Accept(this);
                }

                // if we aren't breaking by newlines, unindent our previous indent
                if (!addNewLines)
                {
                    Unindent();
                }

                EndSymbol(symbol);
            }
        }
Exemplo n.º 15
0
        public static JsAstNode CombineWithComma(JsContext context, JsParser parser, JsAstNode operand1, JsAstNode operand2)
        {
            var comma = new JsCommaOperator(context, parser);

            // if the left is a comma-operator already....
            var leftBinary = operand1 as JsBinaryOperator;
            var rightBinary = operand2 as JsBinaryOperator;
            if (leftBinary != null && leftBinary.OperatorToken == JsToken.Comma)
            {
                // the left-hand side is already a comma operator. Instead of nesting these, we're
                // going to combine them
                // move the old list's left-hand side to our left-hand side
                comma.Operand1 = leftBinary.Operand1;

                JsAstNodeList list;
                if (rightBinary != null && rightBinary.OperatorToken == JsToken.Comma)
                {
                    // the right is ALSO a comma operator. Create a new list, append all the rest of the operands
                    // and set our right-hand side to be the list
                    list = new JsAstNodeList(null, parser);
                    list.Append(leftBinary.Operand2).Append(rightBinary.Operand1).Append(rightBinary.Operand2);
                }
                else
                {
                    // the right is not a comma operator.
                    // see if the left-hand side already has a list we can use
                    list = leftBinary.Operand2 as JsAstNodeList;
                    if (list == null)
                    {
                        // it's not a list already
                        // create a new list with the left's right and our right and set it to our right
                        list = new JsAstNodeList(null, parser);
                        list.Append(leftBinary.Operand2);
                    }

                    // and add our right-hand operand to the end of the list
                    list.Append(operand2);
                }

                // set the list on the right
                comma.Operand2 = list;
            }
            else if (rightBinary != null && rightBinary.OperatorToken == JsToken.Comma)
            {
                // the left hand side is NOT a comma operator.
                comma.Operand1 = operand1;

                // the right-hand side is already a comma-operator, but the left is not.
                // see if it already has a list we can reuse
                var rightList = rightBinary.Operand2 as JsAstNodeList;
                if (rightList != null)
                {
                    // it does. Prepend its right-hand operand and use the list
                    rightList.Insert(0, rightBinary.Operand1);
                }
                else
                {
                    // it's not -- create a new list containing the operands
                    rightList = new JsAstNodeList(rightBinary.Context, parser);
                    rightList.Append(rightBinary.Operand1);
                    rightList.Append(rightBinary.Operand2);
                }

                comma.Operand2 = rightList;
            }
            else
            {
                comma.Operand1 = operand1;
                comma.Operand2 = operand2;
            }

            return comma;
        }
        private static JsAstNode CreateSplitNodeFromEnd(JsAstNodeList nodeList, int ndx)
        {
            JsAstNode newNode;
            if (ndx == nodeList.Count - 1)
            {
                // the LAST one can be broken. Pull it off the list and we will just
                // insert it after the current node.
                newNode = nodeList[ndx];
                nodeList.RemoveAt(ndx);
            }
            else if (ndx == nodeList.Count - 2)
            {
                // the PENULTIMATE item can be broken. So create a new comma operator
                // with the just the last two item and we'll insert it after the current node
                var left = nodeList[ndx];
                nodeList.RemoveAt(ndx);
                var right = nodeList[ndx];
                nodeList.RemoveAt(ndx);

                newNode = new JsCommaOperator(null, nodeList.Parser)
                    {
                        Operand1 = left,
                        Operand2 = right
                    };
            }
            else
            {
                // at least three items will be pulled off, which means there will
                // be at least two items on the right, so we'll create a new astlist to
                // insert those items into a new comma operator
                var left = nodeList[ndx];
                nodeList.RemoveAt(ndx);

                // if we were passed zero, then just reuse the node list.
                // otherwise we need to create a new one and move the items
                // from the index position over.
                JsAstNodeList right;
                if (ndx == 0)
                {
                    right = nodeList;
                }
                else
                {
                    right = new JsAstNodeList(null, nodeList.Parser);
                    while (ndx < nodeList.Count)
                    {
                        var temp = nodeList[ndx];
                        nodeList.RemoveAt(ndx);
                        right.Append(temp);
                    }
                }

                newNode = new JsCommaOperator(null, nodeList.Parser)
                    {
                        Operand1 = left,
                        Operand2 = right
                    };
            }

            return newNode;
        }
Exemplo n.º 17
0
        private JsAstNode ParseSwitchStatement()
        {
            JsContext switchCtx = m_currentToken.Clone();
            JsAstNode expr = null;
            JsAstNodeList cases = null;
            var braceOnNewLine = false;
            JsContext braceContext = null;
            m_blockType.Add(BlockType.Switch);
            try
            {
                // read switch(expr)
                GetNextToken();
                if (JsToken.LeftParenthesis != m_currentToken.Token)
                    ReportError(JsError.NoLeftParenthesis);
                GetNextToken();
                m_noSkipTokenSet.Add(NoSkipTokenSet.s_BlockConditionNoSkipTokenSet);
                m_noSkipTokenSet.Add(NoSkipTokenSet.s_SwitchNoSkipTokenSet);
                try
                {
                    expr = ParseExpression();

                    if (JsToken.RightParenthesis != m_currentToken.Token)
                    {
                        ReportError(JsError.NoRightParenthesis);
                    }

                    GetNextToken();
                    if (JsToken.LeftCurly != m_currentToken.Token)
                    {
                        ReportError(JsError.NoLeftCurly);
                    }

                    braceOnNewLine = m_foundEndOfLine;
                    braceContext = m_currentToken.Clone();
                    GetNextToken();

                }
                catch (RecoveryTokenException exc)
                {
                    if (IndexOfToken(NoSkipTokenSet.s_BlockConditionNoSkipTokenSet, exc) == -1
                          && IndexOfToken(NoSkipTokenSet.s_SwitchNoSkipTokenSet, exc) == -1)
                    {
                        // give up
                        exc._partiallyComputedNode = null;
                        throw;
                    }
                    else
                    {
                        if (exc._partiallyComputedNode == null)
                            expr = new JsConstantWrapper(true, JsPrimitiveType.Boolean, CurrentPositionContext(), this);
                        else
                            expr = exc._partiallyComputedNode;

                        if (IndexOfToken(NoSkipTokenSet.s_BlockConditionNoSkipTokenSet, exc) != -1)
                        {
                            if (exc._token == JsToken.RightParenthesis)
                                GetNextToken();

                            if (JsToken.LeftCurly != m_currentToken.Token)
                            {
                                ReportError(JsError.NoLeftCurly);
                            }
                            braceOnNewLine = m_foundEndOfLine;
                            braceContext = m_currentToken.Clone();
                            GetNextToken();
                        }

                    }
                }
                finally
                {
                    m_noSkipTokenSet.Remove(NoSkipTokenSet.s_SwitchNoSkipTokenSet);
                    m_noSkipTokenSet.Remove(NoSkipTokenSet.s_BlockConditionNoSkipTokenSet);
                }

                // parse the switch body
                cases = new JsAstNodeList(CurrentPositionContext(), this);
                bool defaultStatement = false;
                m_noSkipTokenSet.Add(NoSkipTokenSet.s_BlockNoSkipTokenSet);
                try
                {
                    while (JsToken.RightCurly != m_currentToken.Token)
                    {
                        JsSwitchCase caseClause = null;
                        JsAstNode caseValue = null;
                        var caseCtx = m_currentToken.Clone();
                        JsContext colonContext = null;
                        m_noSkipTokenSet.Add(NoSkipTokenSet.s_CaseNoSkipTokenSet);
                        try
                        {
                            if (JsToken.Case == m_currentToken.Token)
                            {
                                // get the case
                                GetNextToken();
                                caseValue = ParseExpression();
                            }
                            else if (JsToken.Default == m_currentToken.Token)
                            {
                                // get the default
                                if (defaultStatement)
                                {
                                    // we report an error but we still accept the default
                                    ReportError(JsError.DupDefault, true);
                                }
                                else
                                {
                                    defaultStatement = true;
                                }
                                GetNextToken();
                            }
                            else
                            {
                                // This is an error, there is no case or default. Assume a default was missing and keep going
                                defaultStatement = true;
                                ReportError(JsError.BadSwitch);
                            }

                            if (JsToken.Colon != m_currentToken.Token)
                            {
                                ReportError(JsError.NoColon);
                            }
                            else
                            {
                                colonContext = m_currentToken.Clone();
                            }

                            // read the statements inside the case or default
                            GetNextToken();
                        }
                        catch (RecoveryTokenException exc)
                        {
                            // right now we can only get here for the 'case' statement
                            if (IndexOfToken(NoSkipTokenSet.s_CaseNoSkipTokenSet, exc) == -1)
                            {
                                // ignore the current case or default
                                exc._partiallyComputedNode = null;
                                throw;
                            }
                            else
                            {
                                caseValue = exc._partiallyComputedNode;

                                if (exc._token == JsToken.Colon)
                                {
                                    GetNextToken();
                                }
                            }
                        }
                        finally
                        {
                            m_noSkipTokenSet.Remove(NoSkipTokenSet.s_CaseNoSkipTokenSet);
                        }

                        m_blockType.Add(BlockType.Block);
                        try
                        {
                            var statements = new JsBlock(m_currentToken.Clone(), this);
                            m_noSkipTokenSet.Add(NoSkipTokenSet.s_SwitchNoSkipTokenSet);
                            m_noSkipTokenSet.Add(NoSkipTokenSet.s_StartStatementNoSkipTokenSet);
                            try
                            {
                                while (JsToken.RightCurly != m_currentToken.Token && JsToken.Case != m_currentToken.Token && JsToken.Default != m_currentToken.Token)
                                {
                                    try
                                    {
                                        // parse a Statement, not a SourceElement
                                        statements.Append(ParseStatement(false));
                                    }
                                    catch (RecoveryTokenException exc)
                                    {
                                        if (exc._partiallyComputedNode != null)
                                        {
                                            statements.Append(exc._partiallyComputedNode);
                                            exc._partiallyComputedNode = null;
                                        }

                                        if (IndexOfToken(NoSkipTokenSet.s_StartStatementNoSkipTokenSet, exc) == -1)
                                        {
                                            throw;
                                        }
                                    }
                                }
                            }
                            catch (RecoveryTokenException exc)
                            {
                                if (IndexOfToken(NoSkipTokenSet.s_SwitchNoSkipTokenSet, exc) == -1)
                                {
                                    caseClause = new JsSwitchCase(caseCtx, this)
                                        {
                                            CaseValue = caseValue,
                                            ColonContext = colonContext,
                                            Statements = statements
                                        };
                                    cases.Append(caseClause);
                                    throw;
                                }
                            }
                            finally
                            {
                                m_noSkipTokenSet.Remove(NoSkipTokenSet.s_StartStatementNoSkipTokenSet);
                                m_noSkipTokenSet.Remove(NoSkipTokenSet.s_SwitchNoSkipTokenSet);
                            }

                            caseCtx.UpdateWith(statements.Context);
                            caseClause = new JsSwitchCase(caseCtx, this)
                                {
                                    CaseValue = caseValue,
                                    ColonContext = colonContext,
                                    Statements = statements
                                };
                            cases.Append(caseClause);
                        }
                        finally
                        {
                            m_blockType.RemoveAt(m_blockType.Count - 1);
                        }
                    }
                }
                catch (RecoveryTokenException exc)
                {
                    if (IndexOfToken(NoSkipTokenSet.s_BlockNoSkipTokenSet, exc) == -1)
                    {
                        //save what you can a rethrow
                        switchCtx.UpdateWith(CurrentPositionContext());
                        exc._partiallyComputedNode = new JsSwitch(switchCtx, this)
                            {
                                Expression = expr,
                                BraceContext = braceContext,
                                Cases = cases,
                                BraceOnNewLine = braceOnNewLine
                            };
                        throw;
                    }
                }
                finally
                {
                    m_noSkipTokenSet.Remove(NoSkipTokenSet.s_BlockNoSkipTokenSet);
                }
                switchCtx.UpdateWith(m_currentToken);
                GetNextToken();
            }
            finally
            {
                m_blockType.RemoveAt(m_blockType.Count - 1);
            }

            return new JsSwitch(switchCtx, this)
                {
                    Expression = expr,
                    BraceContext = braceContext,
                    Cases = cases,
                    BraceOnNewLine = braceOnNewLine
                };
        }
Exemplo n.º 18
0
        //---------------------------------------------------------------------------------------
        // MemberExpression
        //
        // Accessor :
        //  <empty> |
        //  Arguments Accessor
        //  '[' Expression ']' Accessor |
        //  '.' Identifier Accessor |
        //
        //  Don't have this function throwing an exception without checking all the calling sites.
        //  There is state in instance variable that is saved on the calling stack in some function
        //  (i.e ParseFunction and ParseClass) and you don't want to blow up the stack
        //---------------------------------------------------------------------------------------
        private JsAstNode MemberExpression(JsAstNode expression, List<JsContext> newContexts)
        {
            for (; ; )
            {
                m_noSkipTokenSet.Add(NoSkipTokenSet.s_MemberExprNoSkipTokenSet);
                try
                {
                    switch (m_currentToken.Token)
                    {
                        case JsToken.LeftParenthesis:
                            JsAstNodeList args = null;
                            RecoveryTokenException callError = null;
                            m_noSkipTokenSet.Add(NoSkipTokenSet.s_ParenToken);
                            try
                            {
                                args = ParseExpressionList(JsToken.RightParenthesis);
                            }
                            catch (RecoveryTokenException exc)
                            {
                                args = (JsAstNodeList)exc._partiallyComputedNode;
                                if (IndexOfToken(NoSkipTokenSet.s_ParenToken, exc) == -1)
                                    callError = exc; // thrown later on
                            }
                            finally
                            {
                                m_noSkipTokenSet.Remove(NoSkipTokenSet.s_ParenToken);
                            }

                            expression = new JsCallNode(expression.Context.CombineWith(args.Context), this)
                                {
                                    Function = expression,
                                    Arguments = args,
                                    InBrackets = false
                                };

                            if (null != newContexts && newContexts.Count > 0)
                            {
                                (newContexts[newContexts.Count - 1]).UpdateWith(expression.Context);
                                if (!(expression is JsCallNode))
                                {
                                    expression = new JsCallNode(newContexts[newContexts.Count - 1], this)
                                        {
                                            Function = expression,
                                            Arguments = new JsAstNodeList(CurrentPositionContext(), this)
                                        };
                                }
                                else
                                {
                                    expression.Context = newContexts[newContexts.Count - 1];
                                }

                                ((JsCallNode)expression).IsConstructor = true;
                                newContexts.RemoveAt(newContexts.Count - 1);
                            }

                            if (callError != null)
                            {
                                callError._partiallyComputedNode = expression;
                                throw callError;
                            }

                            GetNextToken();
                            break;

                        case JsToken.LeftBracket:
                            m_noSkipTokenSet.Add(NoSkipTokenSet.s_BracketToken);
                            try
                            {
                                //
                                // ROTOR parses a[b,c] as a call to a, passing in the arguments b and c.
                                // the correct parse is a member lookup on a of c -- the "b,c" should be
                                // a single expression with a comma operator that evaluates b but only
                                // returns c.
                                // So we'll change the default behavior from parsing an expression list to
                                // parsing a single expression, but returning a single-item list (or an empty
                                // list if there is no expression) so the rest of the code will work.
                                //
                                //args = ParseExpressionList(JSToken.RightBracket);
                                GetNextToken();
                                args = new JsAstNodeList(CurrentPositionContext(), this);

                                JsAstNode accessor = ParseExpression();
                                if (accessor != null)
                                {
                                    args.Append(accessor);
                                }
                            }
                            catch (RecoveryTokenException exc)
                            {
                                if (IndexOfToken(NoSkipTokenSet.s_BracketToken, exc) == -1)
                                {
                                    if (exc._partiallyComputedNode != null)
                                    {
                                        exc._partiallyComputedNode =
                                           new JsCallNode(expression.Context.CombineWith(m_currentToken.Clone()), this)
                                            {
                                                Function = expression,
                                                Arguments = (JsAstNodeList)exc._partiallyComputedNode,
                                                InBrackets = true
                                            };
                                    }
                                    else
                                    {
                                        exc._partiallyComputedNode = expression;
                                    }
                                    throw;
                                }
                                else
                                    args = (JsAstNodeList)exc._partiallyComputedNode;
                            }
                            finally
                            {
                                m_noSkipTokenSet.Remove(NoSkipTokenSet.s_BracketToken);
                            }
                            expression = new JsCallNode(expression.Context.CombineWith(m_currentToken.Clone()), this)
                                {
                                    Function = expression,
                                    Arguments = args,
                                    InBrackets = true
                                };

                            // there originally was code here in the ROTOR sources that checked the new context list and
                            // changed this member call to a constructor call, effectively combining the two. I believe they
                            // need to remain separate.

                            // remove the close bracket token
                            GetNextToken();
                            break;

                        case JsToken.AccessField:
                            JsConstantWrapper id = null;
                            JsContext nameContext = m_currentToken.Clone();
                            GetNextToken();
                            if (JsToken.Identifier != m_currentToken.Token)
                            {
                                string identifier = JsKeyword.CanBeIdentifier(m_currentToken.Token);
                                if (null != identifier)
                                {
                                    // don't report an error here -- it's actually okay to have a property name
                                    // that is a keyword which is okay to be an identifier. For instance,
                                    // jQuery has a commonly-used method named "get" to make an ajax request
                                    //ForceReportInfo(JSError.KeywordUsedAsIdentifier);
                                    id = new JsConstantWrapper(identifier, JsPrimitiveType.String, m_currentToken.Clone(), this);
                                }
                                else if (JsScanner.IsValidIdentifier(m_currentToken.Code))
                                {
                                    // it must be a keyword, because it can't technically be an identifier,
                                    // but it IS a valid identifier format. Throw a warning but still
                                    // create the constant wrapper so we can output it as-is
                                    ReportError(JsError.KeywordUsedAsIdentifier, m_currentToken.Clone(), true);
                                    id = new JsConstantWrapper(m_currentToken.Code, JsPrimitiveType.String, m_currentToken.Clone(), this);
                                }
                                else
                                {
                                    ReportError(JsError.NoIdentifier);
                                    SkipTokensAndThrow(expression);
                                }
                            }
                            else
                            {
                                id = new JsConstantWrapper(m_scanner.Identifier, JsPrimitiveType.String, m_currentToken.Clone(), this);
                            }
                            GetNextToken();
                            expression = new JsMember(expression.Context.CombineWith(id.Context), this)
                                {
                                    Root = expression,
                                    Name = id.Context.Code,
                                    NameContext = nameContext.CombineWith(id.Context)
                                };
                            break;
                        default:
                            if (null != newContexts)
                            {
                                while (newContexts.Count > 0)
                                {
                                    (newContexts[newContexts.Count - 1]).UpdateWith(expression.Context);
                                    expression = new JsCallNode(newContexts[newContexts.Count - 1], this)
                                        {
                                            Function = expression,
                                            Arguments = new JsAstNodeList(CurrentPositionContext(), this)
                                        };
                                    ((JsCallNode)expression).IsConstructor = true;
                                    newContexts.RemoveAt(newContexts.Count - 1);
                                }
                            }
                            return expression;
                    }
                }
                catch (RecoveryTokenException exc)
                {
                    if (IndexOfToken(NoSkipTokenSet.s_MemberExprNoSkipTokenSet, exc) != -1)
                        expression = exc._partiallyComputedNode;
                    else
                    {
                        Debug.Assert(exc._partiallyComputedNode == expression);
                        throw;
                    }
                }
                finally
                {
                    m_noSkipTokenSet.Remove(NoSkipTokenSet.s_MemberExprNoSkipTokenSet);
                }
            }
        }
        public void Visit(JsAstNodeList node)
        {
            if (node != null)
            {
                for (var ndx = 0; ndx < node.Count; ++ndx)
                {
                    if (ndx > 0)
                    {
                        m_writer.Write(',');
                    }

                    if (node[ndx] != null)
                    {
                        node[ndx].Accept(this);
                    }
                }
            }
        }
 private static void RotateOpeator(JsBinaryOperator node, JsAstNodeList rightSide)
 {
     if (rightSide.Count == 0)
     {
         // the list is empty -- remove the node altogether
         node.Parent.ReplaceChild(node, null);
     }
     else if (rightSide.Count == 1)
     {
         // the list has only one item -- replace the node with the one item
         node.Parent.ReplaceChild(node, rightSide[0]);
     }
     else if (rightSide.Count == 2)
     {
         // there are only two items -- rotate the first to the left-hand side
         // and replace the right-hand side with the second item
         node.Operand1 = rightSide[0];
         node.Operand2 = rightSide[1];
     }
     else
     {
         // there will still be more than one left in the list after we peel off the
         // first one. rotate the first item to the left-hand side
         var temp = rightSide[0];
         rightSide.RemoveAt(0);
         node.Operand1 = temp;
     }
 }