Exemple #1
0
 protected virtual T VisitAttribute(NodeCtor node)
 {
     return(VisitChildren(node));
 }
Exemple #2
0
        private QilNode CompileAttribute(NodeCtor node)
        {
            QilNode qilNs = CompileStringAvt(node.NsAvt);
            QilNode qilName = CompileStringAvt(node.NameAvt);
            QilNode qname;
            bool explicitNamespace = false;

            if (qilName.NodeType == QilNodeType.LiteralString && (qilNs == null || qilNs.NodeType == QilNodeType.LiteralString))
            {
                string name = (string)(QilLiteral)qilName;
                string prefix, local, nsUri;

                bool isValid = _compiler.ParseQName(name, out prefix, out local, (IErrorHelper)this);

                if (qilNs == null)
                {
                    nsUri = isValid ? ResolvePrefix(/*ignoreDefaultNs:*/true, prefix) : _compiler.CreatePhantomNamespace();
                }
                else
                {
                    nsUri = (string)(QilLiteral)qilNs;
                    // if both name and ns are non AVT and this ns is already bind to the same prefix we can avoid reseting ns management
                    explicitNamespace = true;
                }
                // Check the case <xsl:attribute name="foo:xmlns" namespace=""/>
                if (name == "xmlns" || local == "xmlns" && nsUri.Length == 0)
                {
                    ReportError(/*[XT_031]*/SR.Xslt_XmlnsAttr, "name", name);
                }
                qname = _f.QName(local, nsUri, prefix);
            }
            else
            {
                // Process AVT
                if (qilNs != null)
                {
                    qname = _f.StrParseQName(qilName, qilNs);
                }
                else
                {
                    qname = ResolveQNameDynamic(/*ignoreDefaultNs:*/true, qilName);
                }
            }
            if (explicitNamespace)
            {
                // Optimization: attribute cannot change the default namespace
                _outputScope.InvalidateNonDefaultPrefixes();
            }
            return _f.AttributeCtor(qname, CompileInstructions(node.Content));
        }
Exemple #3
0
 protected virtual T VisitElement(NodeCtor node)
 {
     return(VisitChildren(node));
 }
Exemple #4
0
        private QilNode CompileElement(NodeCtor node)
        {
            QilNode qilNs = CompileStringAvt(node.NsAvt);
            QilNode qilName = CompileStringAvt(node.NameAvt);
            QilNode qname;

            if (qilName.NodeType == QilNodeType.LiteralString && (qilNs == null || qilNs.NodeType == QilNodeType.LiteralString))
            {
                string name = (string)(QilLiteral)qilName;
                string prefix, local, nsUri;

                bool isValid = _compiler.ParseQName(name, out prefix, out local, (IErrorHelper)this);

                if (qilNs == null)
                {
                    nsUri = isValid ? ResolvePrefix(/*ignoreDefaultNs:*/false, prefix) : _compiler.CreatePhantomNamespace();
                }
                else
                {
                    nsUri = (string)(QilLiteral)qilNs;
                }
                qname = _f.QName(local, nsUri, prefix);
            }
            else
            {           // Process AVT
                if (qilNs != null)
                {
                    qname = _f.StrParseQName(qilName, qilNs);
                }
                else
                {
                    qname = ResolveQNameDynamic(/*ignoreDefaultNs:*/false, qilName);
                }
            }

            _outputScope.PushScope();
            // ToDo if we don't have AVT we shouldn't do this:
            _outputScope.InvalidateAllPrefixes();
            QilNode content = CompileInstructions(node.Content);
            _outputScope.PopScope();

            return _f.ElementCtor(qname, content);
        }