JRE 8 rt.jar - com.* Package Source Code
JRE 8 rt.jar is the JAR file for JRE 8 RT (Runtime) libraries.
JRE (Java Runtime) 8 is the runtime environment included in JDK 8.
JRE 8 rt.jar libraries are divided into 6 packages:
com.* - Internal Oracle and Sun Microsystems libraries java.* - Standard Java API libraries. javax.* - Extended Java API libraries. jdk.* - JDK supporting libraries. org.* - Third party libraries. sun.* - Old libraries developed by Sun Microsystems.
JAR File Information:
Directory of C:\fyicenter\jdk-1.8.0_191\jre\lib
63,596,151 rt.jar
Here is the list of Java classes of the com.* package in JRE 1.8.0_191 rt.jar. Java source codes are also provided.
✍: FYIcenter
⏎ com/sun/org/apache/xalan/internal/xsltc/compiler/Parser.java
/*
* 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.
*/
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.SecuritySupport;
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 jdk.xml.internal.JdkXmlUtils;
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.XMLReader;
import org.xml.sax.helpers.AttributesImpl;
/**
* @author Jacek Ambroziak
* @author Santiago Pericas-Geertsen
* @author G. Todd Miller
* @author Morten Jorgensen
* @author Erwin Bolwidt <ejb@klomp.org>
*/
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 <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.
*/
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
* @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 (SyntaxTreeNode)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
* @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) {
final XMLReader reader = JdkXmlUtils.getXMLReader(_overrideDefaultParser,
_xsltc.isSecureProcessing());
JdkXmlUtils.setXMLReaderPropertyIfSupport(reader, XMLConstants.ACCESS_EXTERNAL_DTD,
_xsltc.getProperty(XMLConstants.ACCESS_EXTERNAL_DTD), true);
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);
}
return (parse(reader, input));
}
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 <?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 <?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 <?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
*/
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 = (SyntaxTreeNode)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.
*/
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.
*/
@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 <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.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.
*/
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
*/
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)
*/
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
*/
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)
*/
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.
*/
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
*/
public boolean errorsFound() {
return _errors.size() > 0;
}
/**
* 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
*/
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
*/
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 *****************/
private Stack<SyntaxTreeNode> _parentStack = null;
private Map<String, String> _prefixMapping = null;
/**
* 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.
*/
public void endDocument() { }
/**
* 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!
*/
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
*/
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();
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.
*/
public void endElement(String uri, String localname, String qname) {
_parentStack.pop();
}
/**
* 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.
*/
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
*/
public void ignorableWhitespace(char[] ch, int start, int length) { }
/**
* 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
*/
public void setDocumentLocator(Locator locator) {
_locator = 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;
}
}
⏎ com/sun/org/apache/xalan/internal/xsltc/compiler/Parser.java
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