/*
 * Copyright (c) 2015, 2017, Oracle and/or its affiliates. All rights reserved.
 */
/*
 * Licensed to the Apache Software Foundation (ASF) under one or more
 * contributor license agreements.  See the NOTICE file distributed with
 * this work for additional information regarding copyright ownership.
 * The ASF licenses this file to You under the Apache License, Version 2.0
 * (the "License"); you may not use this file except in compliance with
 * the License.  You may obtain a copy of the License at
 *
 *     http://www.apache.org/licenses/LICENSE-2.0
 *
 * Unless required by applicable law or agreed to in writing, software
 * distributed under the License is distributed on an "AS IS" BASIS,
 * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
 * See the License for the specific language governing permissions and
 * limitations under the License.
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package com.sun.org.apache.xalan.internal.xsltc.compiler;

import com.sun.java_cup.internal.runtime.Symbol;
import com.sun.org.apache.xalan.internal.XalanConstants;
import com.sun.org.apache.xalan.internal.utils.ObjectFactory;
import com.sun.org.apache.xalan.internal.utils.XMLSecurityManager;
import com.sun.org.apache.xalan.internal.xsltc.compiler.util.ErrorMsg;
import com.sun.org.apache.xalan.internal.xsltc.compiler.util.MethodType;
import com.sun.org.apache.xalan.internal.xsltc.compiler.util.Type;
import com.sun.org.apache.xalan.internal.xsltc.compiler.util.TypeCheckError;
import com.sun.org.apache.xml.internal.serializer.utils.SystemIDResolver;
import java.io.File;
import java.io.IOException;
import java.io.StringReader;
import java.util.ArrayList;
import java.util.HashMap;
import java.util.Iterator;
import java.util.List;
import java.util.Map;
import java.util.Properties;
import java.util.Stack;
import java.util.StringTokenizer;
import javax.xml.XMLConstants;
import javax.xml.catalog.CatalogFeatures;
import jdk.xml.internal.JdkXmlFeatures;
import jdk.xml.internal.JdkXmlUtils;
import jdk.xml.internal.SecuritySupport;
import org.xml.sax.Attributes;
import org.xml.sax.ContentHandler;
import org.xml.sax.InputSource;
import org.xml.sax.Locator;
import org.xml.sax.SAXException;
import org.xml.sax.SAXNotRecognizedException;
import org.xml.sax.SAXNotSupportedException;
import org.xml.sax.XMLReader;
import org.xml.sax.helpers.AttributesImpl;

Author:Jacek Ambroziak, Santiago Pericas-Geertsen, G. Todd Miller, Morten Jorgensen, Erwin Bolwidt
@LastModified: Nov 2017
/** * @author Jacek Ambroziak * @author Santiago Pericas-Geertsen * @author G. Todd Miller * @author Morten Jorgensen * @author Erwin Bolwidt <ejb@klomp.org> * @LastModified: Nov 2017 */
public class Parser implements Constants, ContentHandler { private static final String XSL = "xsl"; // standard prefix private static final String TRANSLET = "translet"; // extension prefix private Locator _locator = null; private XSLTC _xsltc; // Reference to the compiler object. private XPathParser _xpathParser; // Reference to the XPath parser. private ArrayList<ErrorMsg> _errors; // Contains all compilation errors private ArrayList<ErrorMsg> _warnings; // Contains all compilation warnings private Map<String, String> _instructionClasses; // Maps instructions to classes private Map<String, String[]> _instructionAttrs; // reqd and opt attrs private Map<String, QName> _qNames; private Map<String, Map<String, QName>> _namespaces; private QName _useAttributeSets; private QName _excludeResultPrefixes; private QName _extensionElementPrefixes; private Map<String, Object> _variableScope; private Stylesheet _currentStylesheet; private SymbolTable _symbolTable; // Maps QNames to syntax-tree nodes private Output _output; private Template _template; // Reference to the template being parsed. private boolean _rootNamespaceDef; // Used for validity check private SyntaxTreeNode _root; private String _target; private int _currentImportPrecedence; private boolean _overrideDefaultParser; public Parser(XSLTC xsltc, boolean useOverrideDefaultParser) { _xsltc = xsltc; _overrideDefaultParser = useOverrideDefaultParser; } public void init() { _qNames = new HashMap<>(512); _namespaces = new HashMap<>(); _instructionClasses = new HashMap<>(); _instructionAttrs = new HashMap<>(); _variableScope = new HashMap<>(); _template = null; _errors = new ArrayList<>(); _warnings = new ArrayList<>(); _symbolTable = new SymbolTable(); _xpathParser = new XPathParser(this); _currentStylesheet = null; _output = null; _root = null; _rootNamespaceDef = false; _currentImportPrecedence = 1; initStdClasses(); initInstructionAttrs(); initExtClasses(); initSymbolTable(); _useAttributeSets = getQName(XSLT_URI, XSL, "use-attribute-sets"); _excludeResultPrefixes = getQName(XSLT_URI, XSL, "exclude-result-prefixes"); _extensionElementPrefixes = getQName(XSLT_URI, XSL, "extension-element-prefixes"); } public void setOutput(Output output) { if (_output != null) { if (_output.getImportPrecedence() <= output.getImportPrecedence()) { output.mergeOutput(_output); _output.disable(); _output = output; } else { output.disable(); } } else { _output = output; } } public Output getOutput() { return _output; } public Properties getOutputProperties() { return getTopLevelStylesheet().getOutputProperties(); } public void addVariable(Variable var) { addVariableOrParam(var); } public void addParameter(Param param) { addVariableOrParam(param); } private void addVariableOrParam(VariableBase var) { Object existing = _variableScope.get(var.getName().getStringRep()); if (existing != null) { if (existing instanceof Stack) { @SuppressWarnings("unchecked") Stack<VariableBase> stack = (Stack<VariableBase>)existing; stack.push(var); } else if (existing instanceof VariableBase) { Stack<VariableBase> stack = new Stack<>(); stack.push((VariableBase)existing); stack.push(var); _variableScope.put(var.getName().getStringRep(), stack); } } else { _variableScope.put(var.getName().getStringRep(), var); } } public void removeVariable(QName name) { Object existing = _variableScope.get(name.getStringRep()); if (existing instanceof Stack) { @SuppressWarnings("unchecked") Stack<VariableBase> stack = (Stack<VariableBase>)existing; if (!stack.isEmpty()) stack.pop(); if (!stack.isEmpty()) return; } _variableScope.remove(name.getStringRep()); } public VariableBase lookupVariable(QName name) { Object existing = _variableScope.get(name.getStringRep()); if (existing instanceof VariableBase) { return (VariableBase)existing; } else if (existing instanceof Stack) { @SuppressWarnings("unchecked") Stack<VariableBase> stack = (Stack<VariableBase>)existing; return stack.peek(); } return null; } public void setXSLTC(XSLTC xsltc) { _xsltc = xsltc; } public XSLTC getXSLTC() { return _xsltc; } public int getCurrentImportPrecedence() { return _currentImportPrecedence; } public int getNextImportPrecedence() { return ++_currentImportPrecedence; } public void setCurrentStylesheet(Stylesheet stylesheet) { _currentStylesheet = stylesheet; } public Stylesheet getCurrentStylesheet() { return _currentStylesheet; } public Stylesheet getTopLevelStylesheet() { return _xsltc.getStylesheet(); } public QName getQNameSafe(final String stringRep) { // parse and retrieve namespace final int colon = stringRep.lastIndexOf(':'); if (colon != -1) { final String prefix = stringRep.substring(0, colon); final String localname = stringRep.substring(colon + 1); String namespace = null; // Get the namespace uri from the symbol table if (prefix.equals(XMLNS_PREFIX) == false) { namespace = _symbolTable.lookupNamespace(prefix); if (namespace == null) namespace = EMPTYSTRING; } return getQName(namespace, prefix, localname); } else { final String uri = stringRep.equals(XMLNS_PREFIX) ? null : _symbolTable.lookupNamespace(EMPTYSTRING); return getQName(uri, null, stringRep); } } public QName getQName(final String stringRep) { return getQName(stringRep, true, false); } public QName getQNameIgnoreDefaultNs(final String stringRep) { return getQName(stringRep, true, true); } public QName getQName(final String stringRep, boolean reportError) { return getQName(stringRep, reportError, false); } private QName getQName(final String stringRep, boolean reportError, boolean ignoreDefaultNs) { // parse and retrieve namespace final int colon = stringRep.lastIndexOf(':'); if (colon != -1) { final String prefix = stringRep.substring(0, colon); final String localname = stringRep.substring(colon + 1); String namespace = null; // Get the namespace uri from the symbol table if (prefix.equals(XMLNS_PREFIX) == false) { namespace = _symbolTable.lookupNamespace(prefix); if (namespace == null && reportError) { final int line = getLineNumber(); ErrorMsg err = new ErrorMsg(ErrorMsg.NAMESPACE_UNDEF_ERR, line, prefix); reportError(ERROR, err); } } return getQName(namespace, prefix, localname); } else { if (stringRep.equals(XMLNS_PREFIX)) { ignoreDefaultNs = true; } final String defURI = ignoreDefaultNs ? null : _symbolTable.lookupNamespace(EMPTYSTRING); return getQName(defURI, null, stringRep); } } public QName getQName(String namespace, String prefix, String localname) { if (namespace == null || namespace.equals(EMPTYSTRING)) { QName name = _qNames.get(localname); if (name == null) { name = new QName(null, prefix, localname); _qNames.put(localname, name); } return name; } else { Map<String, QName> space = _namespaces.get(namespace); String lexicalQName = (prefix == null || prefix.length() == 0) ? localname : (prefix + ':' + localname); if (space == null) { final QName name = new QName(namespace, prefix, localname); _namespaces.put(namespace, space = new HashMap<>()); space.put(lexicalQName, name); return name; } else { QName name = space.get(lexicalQName); if (name == null) { name = new QName(namespace, prefix, localname); space.put(lexicalQName, name); } return name; } } } public QName getQName(String scope, String name) { return getQName(scope + name); } public QName getQName(QName scope, QName name) { return getQName(scope.toString() + name.toString()); } public QName getUseAttributeSets() { return _useAttributeSets; } public QName getExtensionElementPrefixes() { return _extensionElementPrefixes; } public QName getExcludeResultPrefixes() { return _excludeResultPrefixes; }
Create an instance of the Stylesheet class, and then parse, typecheck and compile the instance. Must be called after parse().
/** * Create an instance of the <code>Stylesheet</code> class, * and then parse, typecheck and compile the instance. * Must be called after <code>parse()</code>. */
public Stylesheet makeStylesheet(SyntaxTreeNode element) throws CompilerException { try { Stylesheet stylesheet; if (element instanceof Stylesheet) { stylesheet = (Stylesheet)element; } else { stylesheet = new Stylesheet(); stylesheet.setSimplified(); stylesheet.addElement(element); stylesheet.setAttributes((AttributesImpl) element.getAttributes()); // Map the default NS if not already defined if (element.lookupNamespace(EMPTYSTRING) == null) { element.addPrefixMapping(EMPTYSTRING, EMPTYSTRING); } } stylesheet.setParser(this); return stylesheet; } catch (ClassCastException e) { ErrorMsg err = new ErrorMsg(ErrorMsg.NOT_STYLESHEET_ERR, element); throw new CompilerException(err.toString()); } }
Instanciates a SAX2 parser and generate the AST from the input.
/** * Instanciates a SAX2 parser and generate the AST from the input. */
public void createAST(Stylesheet stylesheet) { try { if (stylesheet != null) { stylesheet.parseContents(this); final Iterator<SyntaxTreeNode> elements = stylesheet.elements(); while (elements.hasNext()) { SyntaxTreeNode child = elements.next(); if (child instanceof Text) { final int l = getLineNumber(); ErrorMsg err = new ErrorMsg(ErrorMsg.ILLEGAL_TEXT_NODE_ERR,l,null); reportError(ERROR, err); } } if (!errorsFound()) { stylesheet.typeCheck(_symbolTable); } } } catch (TypeCheckError e) { reportError(ERROR, new ErrorMsg(ErrorMsg.JAXP_COMPILE_ERR, e)); } }
Parses a stylesheet and builds the internal abstract syntax tree
Params:
  • reader – A SAX2 SAXReader (parser)
  • input – A SAX2 InputSource can be passed to a SAX reader
Returns:The root of the abstract syntax tree
/** * Parses a stylesheet and builds the internal abstract syntax tree * @param reader A SAX2 SAXReader (parser) * @param input A SAX2 InputSource can be passed to a SAX reader * @return The root of the abstract syntax tree */
public SyntaxTreeNode parse(XMLReader reader, InputSource input) { try { // Parse the input document and build the abstract syntax tree reader.setContentHandler(this); reader.parse(input); // Find the start of the stylesheet within the tree return getStylesheet(_root); } catch (IOException e) { if (_xsltc.debug()) e.printStackTrace(); reportError(ERROR,new ErrorMsg(ErrorMsg.JAXP_COMPILE_ERR, e)); } catch (SAXException e) { Throwable ex = e.getException(); if (_xsltc.debug()) { e.printStackTrace(); if (ex != null) ex.printStackTrace(); } reportError(ERROR, new ErrorMsg(ErrorMsg.JAXP_COMPILE_ERR, e)); } catch (CompilerException e) { if (_xsltc.debug()) e.printStackTrace(); reportError(ERROR, new ErrorMsg(ErrorMsg.JAXP_COMPILE_ERR, e)); } catch (Exception e) { if (_xsltc.debug()) e.printStackTrace(); reportError(ERROR, new ErrorMsg(ErrorMsg.JAXP_COMPILE_ERR, e)); } return null; }
Parses a stylesheet and builds the internal abstract syntax tree
Params:
  • input – A SAX2 InputSource can be passed to a SAX reader
Returns:The root of the abstract syntax tree
/** * Parses a stylesheet and builds the internal abstract syntax tree * @param input A SAX2 InputSource can be passed to a SAX reader * @return The root of the abstract syntax tree */
public SyntaxTreeNode parse(InputSource input) { try { final XMLReader reader = JdkXmlUtils.getXMLReader(_overrideDefaultParser, _xsltc.isSecureProcessing()); JdkXmlUtils.setXMLReaderPropertyIfSupport(reader, XMLConstants.ACCESS_EXTERNAL_DTD, _xsltc.getProperty(XMLConstants.ACCESS_EXTERNAL_DTD), true); boolean supportCatalog = true; boolean useCatalog = _xsltc.getFeature(JdkXmlFeatures.XmlFeature.USE_CATALOG); try { reader.setFeature(JdkXmlUtils.USE_CATALOG, useCatalog); } catch (SAXNotRecognizedException | SAXNotSupportedException e) { supportCatalog = false; } if (supportCatalog && useCatalog) { try { CatalogFeatures cf = (CatalogFeatures)_xsltc.getProperty(JdkXmlFeatures.CATALOG_FEATURES); if (cf != null) { for (CatalogFeatures.Feature f : CatalogFeatures.Feature.values()) { reader.setProperty(f.getPropertyName(), cf.get(f)); } } } catch (SAXNotRecognizedException e) { //shall not happen for internal settings } } String lastProperty = ""; try { XMLSecurityManager securityManager = (XMLSecurityManager)_xsltc.getProperty(XalanConstants.SECURITY_MANAGER); for (XMLSecurityManager.Limit limit : XMLSecurityManager.Limit.values()) { lastProperty = limit.apiProperty(); reader.setProperty(lastProperty, securityManager.getLimitValueAsString(limit)); } if (securityManager.printEntityCountInfo()) { lastProperty = XalanConstants.JDK_ENTITY_COUNT_INFO; reader.setProperty(XalanConstants.JDK_ENTITY_COUNT_INFO, XalanConstants.JDK_YES); } } catch (SAXException se) { XMLSecurityManager.printWarning(reader.getClass().getName(), lastProperty, se); } // try setting other JDK-impl properties, ignore if not supported JdkXmlUtils.setXMLReaderPropertyIfSupport(reader, JdkXmlUtils.CDATA_CHUNK_SIZE, _xsltc.getProperty(JdkXmlUtils.CDATA_CHUNK_SIZE), false); return(parse(reader, input)); } catch (SAXException e) { reportError(ERROR, new ErrorMsg(e.getMessage())); } return null; } public SyntaxTreeNode getDocumentRoot() { return _root; } private String _PImedia = null; private String _PItitle = null; private String _PIcharset = null;
Set the parameters to use to locate the correct processing instruction in the case where the input document is an XML document with one or more references to a stylesheet.
Params:
  • media – The media attribute to be matched. May be null, in which case the prefered templates will be used (i.e. alternate = no).
  • title – The value of the title attribute to match. May be null.
  • charset – The value of the charset attribute to match. May be null.
/** * Set the parameters to use to locate the correct <?xml-stylesheet ...?> * processing instruction in the case where the input document is an * XML document with one or more references to a stylesheet. * @param media The media attribute to be matched. May be null, in which * case the prefered templates will be used (i.e. alternate = no). * @param title The value of the title attribute to match. May be null. * @param charset The value of the charset attribute to match. May be null. */
protected void setPIParameters(String media, String title, String charset) { _PImedia = media; _PItitle = title; _PIcharset = charset; }
Extracts the DOM for the stylesheet. In the case of an embedded stylesheet, it extracts the DOM subtree corresponding to the embedded stylesheet that has an 'id' attribute whose value is the same as the value declared in the processing instruction (P.I.). In the xml-stylesheet P.I. the value is labeled as the 'href' data of the P.I. The extracted DOM representing the stylesheet is returned as an Element object.
/** * Extracts the DOM for the stylesheet. In the case of an embedded * stylesheet, it extracts the DOM subtree corresponding to the * embedded stylesheet that has an 'id' attribute whose value is the * same as the value declared in the <?xml-stylesheet...?> processing * instruction (P.I.). In the xml-stylesheet P.I. the value is labeled * as the 'href' data of the P.I. The extracted DOM representing the * stylesheet is returned as an Element object. */
private SyntaxTreeNode getStylesheet(SyntaxTreeNode root) throws CompilerException { // Assume that this is a pure XSL stylesheet if there is not // <?xml-stylesheet ....?> processing instruction if (_target == null) { if (!_rootNamespaceDef) { ErrorMsg msg = new ErrorMsg(ErrorMsg.MISSING_XSLT_URI_ERR); throw new CompilerException(msg.toString()); } return(root); } // Find the xsl:stylesheet or xsl:transform with this reference if (_target.charAt(0) == '#') { SyntaxTreeNode element = findStylesheet(root, _target.substring(1)); if (element == null) { ErrorMsg msg = new ErrorMsg(ErrorMsg.MISSING_XSLT_TARGET_ERR, _target, root); throw new CompilerException(msg.toString()); } return(element); } else { try { String path = _target; if (path.indexOf(":")==-1) { path = "file:" + path; } path = SystemIDResolver.getAbsoluteURI(path); String accessError = SecuritySupport.checkAccess(path, (String)_xsltc.getProperty(XMLConstants.ACCESS_EXTERNAL_STYLESHEET), XalanConstants.ACCESS_EXTERNAL_ALL); if (accessError != null) { ErrorMsg msg = new ErrorMsg(ErrorMsg.ACCESSING_XSLT_TARGET_ERR, SecuritySupport.sanitizePath(_target), accessError, root); throw new CompilerException(msg.toString()); } } catch (IOException ex) { throw new CompilerException(ex); } return(loadExternalStylesheet(_target)); } }
Find a Stylesheet element with a specific ID attribute value. This method is used to find a Stylesheet node that is referred in a processing instruction.
/** * Find a Stylesheet element with a specific ID attribute value. * This method is used to find a Stylesheet node that is referred * in a <?xml-stylesheet ... ?> processing instruction. */
private SyntaxTreeNode findStylesheet(SyntaxTreeNode root, String href) { if (root == null) return null; if (root instanceof Stylesheet) { String id = root.getAttribute("id"); if (id.equals(href)) return root; } List<SyntaxTreeNode> children = root.getContents(); if (children != null) { final int count = children.size(); for (int i = 0; i < count; i++) { SyntaxTreeNode child = children.get(i); SyntaxTreeNode node = findStylesheet(child, href); if (node != null) return node; } } return null; }
For embedded stylesheets: Load an external file with stylesheet
/** * For embedded stylesheets: Load an external file with stylesheet */
private SyntaxTreeNode loadExternalStylesheet(String location) throws CompilerException { InputSource source; // Check if the location is URL or a local file if ((new File(location)).exists()) source = new InputSource("file:"+location); else source = new InputSource(location); SyntaxTreeNode external = parse(source); return(external); } private void initAttrTable(String elementName, String[] attrs) { _instructionAttrs.put(getQName(XSLT_URI, XSL, elementName).getStringRep(), attrs); } private void initInstructionAttrs() { initAttrTable("template", new String[] {"match", "name", "priority", "mode"}); initAttrTable("stylesheet", new String[] {"id", "version", "extension-element-prefixes", "exclude-result-prefixes"}); initAttrTable("transform", new String[] {"id", "version", "extension-element-prefixes", "exclude-result-prefixes"}); initAttrTable("text", new String[] {"disable-output-escaping"}); initAttrTable("if", new String[] {"test"}); initAttrTable("choose", new String[] {}); initAttrTable("when", new String[] {"test"}); initAttrTable("otherwise", new String[] {}); initAttrTable("for-each", new String[] {"select"}); initAttrTable("message", new String[] {"terminate"}); initAttrTable("number", new String[] {"level", "count", "from", "value", "format", "lang", "letter-value", "grouping-separator", "grouping-size"}); initAttrTable("comment", new String[] {}); initAttrTable("copy", new String[] {"use-attribute-sets"}); initAttrTable("copy-of", new String[] {"select"}); initAttrTable("param", new String[] {"name", "select"}); initAttrTable("with-param", new String[] {"name", "select"}); initAttrTable("variable", new String[] {"name", "select"}); initAttrTable("output", new String[] {"method", "version", "encoding", "omit-xml-declaration", "standalone", "doctype-public", "doctype-system", "cdata-section-elements", "indent", "media-type"}); initAttrTable("sort", new String[] {"select", "order", "case-order", "lang", "data-type"}); initAttrTable("key", new String[] {"name", "match", "use"}); initAttrTable("fallback", new String[] {}); initAttrTable("attribute", new String[] {"name", "namespace"}); initAttrTable("attribute-set", new String[] {"name", "use-attribute-sets"}); initAttrTable("value-of", new String[] {"select", "disable-output-escaping"}); initAttrTable("element", new String[] {"name", "namespace", "use-attribute-sets"}); initAttrTable("call-template", new String[] {"name"}); initAttrTable("apply-templates", new String[] {"select", "mode"}); initAttrTable("apply-imports", new String[] {}); initAttrTable("decimal-format", new String[] {"name", "decimal-separator", "grouping-separator", "infinity", "minus-sign", "NaN", "percent", "per-mille", "zero-digit", "digit", "pattern-separator"}); initAttrTable("import", new String[] {"href"}); initAttrTable("include", new String[] {"href"}); initAttrTable("strip-space", new String[] {"elements"}); initAttrTable("preserve-space", new String[] {"elements"}); initAttrTable("processing-instruction", new String[] {"name"}); initAttrTable("namespace-alias", new String[] {"stylesheet-prefix", "result-prefix"}); }
Initialize the _instructionClasses map, which maps XSL element names to Java classes in this package.
/** * Initialize the _instructionClasses map, which maps XSL element * names to Java classes in this package. */
private void initStdClasses() { initStdClass("template", "Template"); initStdClass("stylesheet", "Stylesheet"); initStdClass("transform", "Stylesheet"); initStdClass("text", "Text"); initStdClass("if", "If"); initStdClass("choose", "Choose"); initStdClass("when", "When"); initStdClass("otherwise", "Otherwise"); initStdClass("for-each", "ForEach"); initStdClass("message", "Message"); initStdClass("number", "Number"); initStdClass("comment", "Comment"); initStdClass("copy", "Copy"); initStdClass("copy-of", "CopyOf"); initStdClass("param", "Param"); initStdClass("with-param", "WithParam"); initStdClass("variable", "Variable"); initStdClass("output", "Output"); initStdClass("sort", "Sort"); initStdClass("key", "Key"); initStdClass("fallback", "Fallback"); initStdClass("attribute", "XslAttribute"); initStdClass("attribute-set", "AttributeSet"); initStdClass("value-of", "ValueOf"); initStdClass("element", "XslElement"); initStdClass("call-template", "CallTemplate"); initStdClass("apply-templates", "ApplyTemplates"); initStdClass("apply-imports", "ApplyImports"); initStdClass("decimal-format", "DecimalFormatting"); initStdClass("import", "Import"); initStdClass("include", "Include"); initStdClass("strip-space", "Whitespace"); initStdClass("preserve-space", "Whitespace"); initStdClass("processing-instruction", "ProcessingInstruction"); initStdClass("namespace-alias", "NamespaceAlias"); } private void initStdClass(String elementName, String className) { _instructionClasses.put(getQName(XSLT_URI, XSL, elementName).getStringRep(), COMPILER_PACKAGE + '.' + className); } public boolean elementSupported(String namespace, String localName) { return(_instructionClasses.get(getQName(namespace, XSL, localName).getStringRep()) != null); } public boolean functionSupported(String fname) { return(_symbolTable.lookupPrimop(fname) != null); } private void initExtClasses() { initExtClass("output", "TransletOutput"); initExtClass(REDIRECT_URI, "write", "TransletOutput"); } private void initExtClass(String elementName, String className) { _instructionClasses.put(getQName(TRANSLET_URI, TRANSLET, elementName).getStringRep(), COMPILER_PACKAGE + '.' + className); } private void initExtClass(String namespace, String elementName, String className) { _instructionClasses.put(getQName(namespace, TRANSLET, elementName).getStringRep(), COMPILER_PACKAGE + '.' + className); }
Add primops and base functions to the symbol table.
/** * Add primops and base functions to the symbol table. */
@SuppressWarnings("unused") private void initSymbolTable() { MethodType I_V = new MethodType(Type.Int, Type.Void); MethodType I_R = new MethodType(Type.Int, Type.Real); MethodType I_S = new MethodType(Type.Int, Type.String); MethodType I_D = new MethodType(Type.Int, Type.NodeSet); MethodType R_I = new MethodType(Type.Real, Type.Int); MethodType R_V = new MethodType(Type.Real, Type.Void); MethodType R_R = new MethodType(Type.Real, Type.Real); MethodType R_D = new MethodType(Type.Real, Type.NodeSet); MethodType R_O = new MethodType(Type.Real, Type.Reference); MethodType I_I = new MethodType(Type.Int, Type.Int); MethodType D_O = new MethodType(Type.NodeSet, Type.Reference); MethodType D_V = new MethodType(Type.NodeSet, Type.Void); MethodType D_S = new MethodType(Type.NodeSet, Type.String); MethodType D_D = new MethodType(Type.NodeSet, Type.NodeSet); MethodType A_V = new MethodType(Type.Node, Type.Void); MethodType S_V = new MethodType(Type.String, Type.Void); MethodType S_S = new MethodType(Type.String, Type.String); MethodType S_A = new MethodType(Type.String, Type.Node); MethodType S_D = new MethodType(Type.String, Type.NodeSet); MethodType S_O = new MethodType(Type.String, Type.Reference); MethodType B_O = new MethodType(Type.Boolean, Type.Reference); MethodType B_V = new MethodType(Type.Boolean, Type.Void); MethodType B_B = new MethodType(Type.Boolean, Type.Boolean); MethodType B_S = new MethodType(Type.Boolean, Type.String); MethodType D_X = new MethodType(Type.NodeSet, Type.Object); MethodType R_RR = new MethodType(Type.Real, Type.Real, Type.Real); MethodType I_II = new MethodType(Type.Int, Type.Int, Type.Int); MethodType B_RR = new MethodType(Type.Boolean, Type.Real, Type.Real); MethodType B_II = new MethodType(Type.Boolean, Type.Int, Type.Int); MethodType S_SS = new MethodType(Type.String, Type.String, Type.String); MethodType S_DS = new MethodType(Type.String, Type.Real, Type.String); MethodType S_SR = new MethodType(Type.String, Type.String, Type.Real); MethodType O_SO = new MethodType(Type.Reference, Type.String, Type.Reference); MethodType D_SS = new MethodType(Type.NodeSet, Type.String, Type.String); MethodType D_SD = new MethodType(Type.NodeSet, Type.String, Type.NodeSet); MethodType B_BB = new MethodType(Type.Boolean, Type.Boolean, Type.Boolean); MethodType B_SS = new MethodType(Type.Boolean, Type.String, Type.String); MethodType S_SD = new MethodType(Type.String, Type.String, Type.NodeSet); MethodType S_DSS = new MethodType(Type.String, Type.Real, Type.String, Type.String); MethodType S_SRR = new MethodType(Type.String, Type.String, Type.Real, Type.Real); MethodType S_SSS = new MethodType(Type.String, Type.String, Type.String, Type.String); /* * Standard functions: implemented but not in this table concat(). * When adding a new function make sure to uncomment * the corresponding line in <tt>FunctionAvailableCall</tt>. */ // The following functions are inlined _symbolTable.addPrimop("current", A_V); _symbolTable.addPrimop("last", I_V); _symbolTable.addPrimop("position", I_V); _symbolTable.addPrimop("true", B_V); _symbolTable.addPrimop("false", B_V); _symbolTable.addPrimop("not", B_B); _symbolTable.addPrimop("name", S_V); _symbolTable.addPrimop("name", S_A); _symbolTable.addPrimop("generate-id", S_V); _symbolTable.addPrimop("generate-id", S_A); _symbolTable.addPrimop("ceiling", R_R); _symbolTable.addPrimop("floor", R_R); _symbolTable.addPrimop("round", R_R); _symbolTable.addPrimop("contains", B_SS); _symbolTable.addPrimop("number", R_O); _symbolTable.addPrimop("number", R_V); _symbolTable.addPrimop("boolean", B_O); _symbolTable.addPrimop("string", S_O); _symbolTable.addPrimop("string", S_V); _symbolTable.addPrimop("translate", S_SSS); _symbolTable.addPrimop("string-length", I_V); _symbolTable.addPrimop("string-length", I_S); _symbolTable.addPrimop("starts-with", B_SS); _symbolTable.addPrimop("format-number", S_DS); _symbolTable.addPrimop("format-number", S_DSS); _symbolTable.addPrimop("unparsed-entity-uri", S_S); _symbolTable.addPrimop("key", D_SS); _symbolTable.addPrimop("key", D_SD); _symbolTable.addPrimop("id", D_S); _symbolTable.addPrimop("id", D_D); _symbolTable.addPrimop("namespace-uri", S_V); _symbolTable.addPrimop("function-available", B_S); _symbolTable.addPrimop("element-available", B_S); _symbolTable.addPrimop("document", D_S); _symbolTable.addPrimop("document", D_V); // The following functions are implemented in the basis library _symbolTable.addPrimop("count", I_D); _symbolTable.addPrimop("sum", R_D); _symbolTable.addPrimop("local-name", S_V); _symbolTable.addPrimop("local-name", S_D); _symbolTable.addPrimop("namespace-uri", S_V); _symbolTable.addPrimop("namespace-uri", S_D); _symbolTable.addPrimop("substring", S_SR); _symbolTable.addPrimop("substring", S_SRR); _symbolTable.addPrimop("substring-after", S_SS); _symbolTable.addPrimop("substring-before", S_SS); _symbolTable.addPrimop("normalize-space", S_V); _symbolTable.addPrimop("normalize-space", S_S); _symbolTable.addPrimop("system-property", S_S); // Extensions _symbolTable.addPrimop("nodeset", D_O); _symbolTable.addPrimop("objectType", S_O); _symbolTable.addPrimop("cast", O_SO); // Operators +, -, *, /, % defined on real types. _symbolTable.addPrimop("+", R_RR); _symbolTable.addPrimop("-", R_RR); _symbolTable.addPrimop("*", R_RR); _symbolTable.addPrimop("/", R_RR); _symbolTable.addPrimop("%", R_RR); // Operators +, -, * defined on integer types. // Operators / and % are not defined on integers (may cause exception) _symbolTable.addPrimop("+", I_II); _symbolTable.addPrimop("-", I_II); _symbolTable.addPrimop("*", I_II); // Operators <, <= >, >= defined on real types. _symbolTable.addPrimop("<", B_RR); _symbolTable.addPrimop("<=", B_RR); _symbolTable.addPrimop(">", B_RR); _symbolTable.addPrimop(">=", B_RR); // Operators <, <= >, >= defined on int types. _symbolTable.addPrimop("<", B_II); _symbolTable.addPrimop("<=", B_II); _symbolTable.addPrimop(">", B_II); _symbolTable.addPrimop(">=", B_II); // Operators <, <= >, >= defined on boolean types. _symbolTable.addPrimop("<", B_BB); _symbolTable.addPrimop("<=", B_BB); _symbolTable.addPrimop(">", B_BB); _symbolTable.addPrimop(">=", B_BB); // Operators 'and' and 'or'. _symbolTable.addPrimop("or", B_BB); _symbolTable.addPrimop("and", B_BB); // Unary minus. _symbolTable.addPrimop("u-", R_R); _symbolTable.addPrimop("u-", I_I); } public SymbolTable getSymbolTable() { return _symbolTable; } public Template getTemplate() { return _template; } public void setTemplate(Template template) { _template = template; } private int _templateIndex = 0; public int getTemplateIndex() { return(_templateIndex++); }
Creates a new node in the abstract syntax tree. This node can be o) a supported XSLT 1.0 element o) an unsupported XSLT element (post 1.0) o) a supported XSLT extension o) an unsupported XSLT extension o) a literal result element (not an XSLT element and not an extension) Unsupported elements do not directly generate an error. We have to wait until we have received all child elements of an unsupported element to see if any elements exist.
/** * Creates a new node in the abstract syntax tree. This node can be * o) a supported XSLT 1.0 element * o) an unsupported XSLT element (post 1.0) * o) a supported XSLT extension * o) an unsupported XSLT extension * o) a literal result element (not an XSLT element and not an extension) * Unsupported elements do not directly generate an error. We have to wait * until we have received all child elements of an unsupported element to * see if any <xsl:fallback> elements exist. */
private boolean versionIsOne = true; public SyntaxTreeNode makeInstance(String uri, String prefix, String local, Attributes attributes) { SyntaxTreeNode node = null; QName qname = getQName(uri, prefix, local); String className = _instructionClasses.get(qname.getStringRep()); if (className != null) { try { final Class<?> clazz = ObjectFactory.findProviderClass(className, true); node = (SyntaxTreeNode)clazz.getDeclaredConstructor().newInstance(); node.setQName(qname); node.setParser(this); if (_locator != null) { node.setLineNumber(getLineNumber()); } if (node instanceof Stylesheet) { _xsltc.setStylesheet((Stylesheet)node); } checkForSuperfluousAttributes(node, attributes); } catch (ClassNotFoundException e) { ErrorMsg err = new ErrorMsg(ErrorMsg.CLASS_NOT_FOUND_ERR, node); reportError(ERROR, err); } catch (Exception e) { ErrorMsg err = new ErrorMsg(ErrorMsg.INTERNAL_ERR, e.getMessage(), node); reportError(FATAL, err); } } else { if (uri != null) { // Check if the element belongs in our namespace if (uri.equals(XSLT_URI)) { node = new UnsupportedElement(uri, prefix, local, false); UnsupportedElement element = (UnsupportedElement)node; ErrorMsg msg = new ErrorMsg(ErrorMsg.UNSUPPORTED_XSL_ERR, getLineNumber(),local); element.setErrorMessage(msg); if (versionIsOne) { reportError(UNSUPPORTED,msg); } } // Check if this is an XSLTC extension element else if (uri.equals(TRANSLET_URI)) { node = new UnsupportedElement(uri, prefix, local, true); UnsupportedElement element = (UnsupportedElement)node; ErrorMsg msg = new ErrorMsg(ErrorMsg.UNSUPPORTED_EXT_ERR, getLineNumber(),local); element.setErrorMessage(msg); } // Check if this is an extension of some other XSLT processor else { Stylesheet sheet = _xsltc.getStylesheet(); if ((sheet != null) && (sheet.isExtension(uri))) { if (sheet != _parentStack.peek()) { node = new UnsupportedElement(uri, prefix, local, true); UnsupportedElement elem = (UnsupportedElement)node; ErrorMsg msg = new ErrorMsg(ErrorMsg.UNSUPPORTED_EXT_ERR, getLineNumber(), prefix+":"+local); elem.setErrorMessage(msg); } } } } if (node == null) { node = new LiteralElement(); node.setLineNumber(getLineNumber()); } } if ((node != null) && (node instanceof LiteralElement)) { ((LiteralElement)node).setQName(qname); } return(node); }
checks the list of attributes against a list of allowed attributes for a particular element node.
/** * checks the list of attributes against a list of allowed attributes * for a particular element node. */
private void checkForSuperfluousAttributes(SyntaxTreeNode node, Attributes attrs) { QName qname = node.getQName(); boolean isStylesheet = (node instanceof Stylesheet); String[] legal = _instructionAttrs.get(qname.getStringRep()); if (versionIsOne && legal != null) { int j; final int n = attrs.getLength(); for (int i = 0; i < n; i++) { final String attrQName = attrs.getQName(i); if (isStylesheet && attrQName.equals("version")) { versionIsOne = attrs.getValue(i).equals("1.0"); } // Ignore if special or if it has a prefix if (attrQName.startsWith("xml") || attrQName.indexOf(':') > 0) continue; for (j = 0; j < legal.length; j++) { if (attrQName.equalsIgnoreCase(legal[j])) { break; } } if (j == legal.length) { final ErrorMsg err = new ErrorMsg(ErrorMsg.ILLEGAL_ATTRIBUTE_ERR, attrQName, node); // Workaround for the TCK failure ErrorListener.errorTests.error001.. err.setWarningError(true); reportError(WARNING, err); } } } }
Parse an XPath expression: @param parent - XSL element where the expression occured @param exp - textual representation of the expression
/** * Parse an XPath expression: * @param parent - XSL element where the expression occured * @param exp - textual representation of the expression */
public Expression parseExpression(SyntaxTreeNode parent, String exp) { return (Expression)parseTopLevel(parent, "<EXPRESSION>"+exp, null); }
Parse an XPath expression: @param parent - XSL element where the expression occured @param attr - name of this element's attribute to get expression from @param def - default expression (if the attribute was not found)
/** * Parse an XPath expression: * @param parent - XSL element where the expression occured * @param attr - name of this element's attribute to get expression from * @param def - default expression (if the attribute was not found) */
public Expression parseExpression(SyntaxTreeNode parent, String attr, String def) { // Get the textual representation of the expression (if any) String exp = parent.getAttribute(attr); // Use the default expression if none was found if ((exp.length() == 0) && (def != null)) exp = def; // Invoke the XPath parser return (Expression)parseTopLevel(parent, "<EXPRESSION>"+exp, exp); }
Parse an XPath pattern: @param parent - XSL element where the pattern occured @param pattern - textual representation of the pattern
/** * Parse an XPath pattern: * @param parent - XSL element where the pattern occured * @param pattern - textual representation of the pattern */
public Pattern parsePattern(SyntaxTreeNode parent, String pattern) { return (Pattern)parseTopLevel(parent, "<PATTERN>"+pattern, pattern); }
Parse an XPath pattern: @param parent - XSL element where the pattern occured @param attr - name of this element's attribute to get pattern from @param def - default pattern (if the attribute was not found)
/** * Parse an XPath pattern: * @param parent - XSL element where the pattern occured * @param attr - name of this element's attribute to get pattern from * @param def - default pattern (if the attribute was not found) */
public Pattern parsePattern(SyntaxTreeNode parent, String attr, String def) { // Get the textual representation of the pattern (if any) String pattern = parent.getAttribute(attr); // Use the default pattern if none was found if ((pattern.length() == 0) && (def != null)) pattern = def; // Invoke the XPath parser return (Pattern)parseTopLevel(parent, "<PATTERN>"+pattern, pattern); }
Parse an XPath expression or pattern using the generated XPathParser The method will return a Dummy node if the XPath parser fails.
/** * Parse an XPath expression or pattern using the generated XPathParser * The method will return a Dummy node if the XPath parser fails. */
private SyntaxTreeNode parseTopLevel(SyntaxTreeNode parent, String text, String expression) { int line = getLineNumber(); try { _xpathParser.setScanner(new XPathLexer(new StringReader(text))); Symbol result = _xpathParser.parse(expression, line); if (result != null) { final SyntaxTreeNode node = (SyntaxTreeNode)result.value; if (node != null) { node.setParser(this); node.setParent(parent); node.setLineNumber(line); return node; } } reportError(ERROR, new ErrorMsg(ErrorMsg.XPATH_PARSER_ERR, expression, parent)); } catch (Exception e) { if (_xsltc.debug()) e.printStackTrace(); reportError(ERROR, new ErrorMsg(ErrorMsg.XPATH_PARSER_ERR, expression, parent)); } // Return a dummy pattern (which is an expression) SyntaxTreeNode.Dummy.setParser(this); return SyntaxTreeNode.Dummy; } /************************ ERROR HANDLING SECTION ************************/
Returns true if there were any errors during compilation
/** * Returns true if there were any errors during compilation */
public boolean errorsFound() { return _errors.size() > 0; }
Prints all compile-time errors
/** * Prints all compile-time errors */
public void printErrors() { final int size = _errors.size(); if (size > 0) { System.err.println(new ErrorMsg(ErrorMsg.COMPILER_ERROR_KEY)); for (int i = 0; i < size; i++) { System.err.println(" " + _errors.get(i)); } } }
Prints all compile-time warnings
/** * Prints all compile-time warnings */
public void printWarnings() { final int size = _warnings.size(); if (size > 0) { System.err.println(new ErrorMsg(ErrorMsg.COMPILER_WARNING_KEY)); for (int i = 0; i < size; i++) { System.err.println(" " + _warnings.get(i)); } } }
Common error/warning message handler
/** * Common error/warning message handler */
public void reportError(final int category, final ErrorMsg error) { switch (category) { case Constants.INTERNAL: // Unexpected internal errors, such as null-ptr exceptions, etc. // Immediately terminates compilation, no translet produced _errors.add(error); break; case Constants.UNSUPPORTED: // XSLT elements that are not implemented and unsupported ext. // Immediately terminates compilation, no translet produced _errors.add(error); break; case Constants.FATAL: // Fatal error in the stylesheet input (parsing or content) // Immediately terminates compilation, no translet produced _errors.add(error); break; case Constants.ERROR: // Other error in the stylesheet input (parsing or content) // Does not terminate compilation, no translet produced _errors.add(error); break; case Constants.WARNING: // Other error in the stylesheet input (content errors only) // Does not terminate compilation, a translet is produced _warnings.add(error); break; } } public ArrayList<ErrorMsg> getErrors() { return _errors; } public ArrayList<ErrorMsg> getWarnings() { return _warnings; }
SAX2 ContentHandler INTERFACE
/************************ SAX2 ContentHandler INTERFACE *****************/
private Stack<SyntaxTreeNode> _parentStack = null; private Map<String, String> _prefixMapping = null;
SAX2: Receive notification of the beginning of a document.
/** * SAX2: Receive notification of the beginning of a document. */
public void startDocument() { _root = null; _target = null; _prefixMapping = null; _parentStack = new Stack<>(); }
SAX2: Receive notification of the end of a document.
/** * SAX2: Receive notification of the end of a document. */
public void endDocument() { }
SAX2: Begin the scope of a prefix-URI Namespace mapping. This has to be passed on to the symbol table!
/** * SAX2: Begin the scope of a prefix-URI Namespace mapping. * This has to be passed on to the symbol table! */
public void startPrefixMapping(String prefix, String uri) { if (_prefixMapping == null) { _prefixMapping = new HashMap<>(); } _prefixMapping.put(prefix, uri); }
SAX2: End the scope of a prefix-URI Namespace mapping. This has to be passed on to the symbol table!
/** * SAX2: End the scope of a prefix-URI Namespace mapping. * This has to be passed on to the symbol table! */
public void endPrefixMapping(String prefix) { }
SAX2: Receive notification of the beginning of an element. The parser may re-use the attribute list that we're passed so we clone the attributes in our own Attributes implementation
/** * SAX2: Receive notification of the beginning of an element. * The parser may re-use the attribute list that we're passed so * we clone the attributes in our own Attributes implementation */
public void startElement(String uri, String localname, String qname, Attributes attributes) throws SAXException { final int col = qname.lastIndexOf(':'); final String prefix = (col == -1) ? null : qname.substring(0, col); SyntaxTreeNode element = makeInstance(uri, prefix, localname, attributes); if (element == null) { ErrorMsg err = new ErrorMsg(ErrorMsg.ELEMENT_PARSE_ERR, prefix+':'+localname); throw new SAXException(err.toString()); } // If this is the root element of the XML document we need to make sure // that it contains a definition of the XSL namespace URI if (_root == null) { if ((_prefixMapping == null) || (_prefixMapping.containsValue(Constants.XSLT_URI) == false)) _rootNamespaceDef = false; else _rootNamespaceDef = true; _root = element; } else { SyntaxTreeNode parent = _parentStack.peek(); if (element.getClass().isAssignableFrom(Import.class) && parent.notTypeOf(Import.class)) { ErrorMsg err = new ErrorMsg(ErrorMsg.IMPORT_PRECEDE_OTHERS_ERR, prefix+':'+localname); throw new SAXException(err.toString()); } parent.addElement(element); element.setParent(parent); } element.setAttributes(new AttributesImpl(attributes)); element.setPrefixMapping(_prefixMapping); if (element instanceof Stylesheet) { // Extension elements and excluded elements have to be // handled at this point in order to correctly generate // Fallback elements from <xsl:fallback>s. getSymbolTable().setCurrentNode(element); ((Stylesheet)element).declareExtensionPrefixes(this); } _prefixMapping = null; _parentStack.push(element); }
SAX2: Receive notification of the end of an element.
/** * SAX2: Receive notification of the end of an element. */
public void endElement(String uri, String localname, String qname) { _parentStack.pop(); }
SAX2: Receive notification of character data.
/** * SAX2: Receive notification of character data. */
public void characters(char[] ch, int start, int length) { String string = new String(ch, start, length); SyntaxTreeNode parent = _parentStack.peek(); if (string.length() == 0) return; // If this text occurs within an <xsl:text> element we append it // as-is to the existing text element if (parent instanceof Text) { ((Text)parent).setText(string); return; } // Ignore text nodes that occur directly under <xsl:stylesheet> if (parent instanceof Stylesheet) return; SyntaxTreeNode bro = parent.lastChild(); if ((bro != null) && (bro instanceof Text)) { Text text = (Text)bro; if (!text.isTextElement()) { if ((length > 1) || ( ((int)ch[0]) < 0x100)) { text.setText(string); return; } } } // Add it as a regular text node otherwise parent.addElement(new Text(string)); } private String getTokenValue(String token) { final int start = token.indexOf('"'); final int stop = token.lastIndexOf('"'); return token.substring(start+1, stop); }
SAX2: Receive notification of a processing instruction. These require special handling for stylesheet PIs.
/** * SAX2: Receive notification of a processing instruction. * These require special handling for stylesheet PIs. */
public void processingInstruction(String name, String value) { // We only handle the <?xml-stylesheet ...?> PI if ((_target == null) && (name.equals("xml-stylesheet"))) { String href = null; // URI of stylesheet found String media = null; // Media of stylesheet found String title = null; // Title of stylesheet found String charset = null; // Charset of stylesheet found // Get the attributes from the processing instruction StringTokenizer tokens = new StringTokenizer(value); while (tokens.hasMoreElements()) { String token = (String)tokens.nextElement(); if (token.startsWith("href")) href = getTokenValue(token); else if (token.startsWith("media")) media = getTokenValue(token); else if (token.startsWith("title")) title = getTokenValue(token); else if (token.startsWith("charset")) charset = getTokenValue(token); } // Set the target to this PI's href if the parameters are // null or match the corresponding attributes of this PI. if ( ((_PImedia == null) || (_PImedia.equals(media))) && ((_PItitle == null) || (_PImedia.equals(title))) && ((_PIcharset == null) || (_PImedia.equals(charset))) ) { _target = href; } } }
IGNORED - all ignorable whitespace is ignored
/** * IGNORED - all ignorable whitespace is ignored */
public void ignorableWhitespace(char[] ch, int start, int length) { }
IGNORED - we do not have to do anything with skipped entities
/** * IGNORED - we do not have to do anything with skipped entities */
public void skippedEntity(String name) { }
Store the document locator to later retrieve line numbers of all elements from the stylesheet
/** * Store the document locator to later retrieve line numbers of all * elements from the stylesheet */
public void setDocumentLocator(Locator locator) { _locator = locator; }
Get the line number, or zero if there is no _locator.
/** * Get the line number, or zero * if there is no _locator. */
private int getLineNumber() { int line = 0; if (_locator != null) line = _locator.getLineNumber(); return line; } }