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   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
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       http://www.apache.org/licenses/LICENSE-2.0

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package org.apache.batik.bridge.svg12;

import java.io.IOException;
import java.util.ArrayList;

import org.apache.batik.anim.dom.XBLOMContentElement;
import org.apache.batik.parser.AbstractScanner;
import org.apache.batik.parser.ParseException;
import org.apache.batik.xml.XMLUtilities;

import org.w3c.dom.Element;
import org.w3c.dom.Node;
import org.w3c.dom.NodeList;

A class to handle the XPath subset syntax for XBL content elements.
Author:Cameron McCormack
Version:$Id: XPathSubsetContentSelector.java 1733416 2016-03-03 07:07:13Z gadams $
/** * A class to handle the XPath subset syntax for XBL content elements. * * @author <a href="mailto:cam%40mcc%2eid%2eau">Cameron McCormack</a> * @version $Id: XPathSubsetContentSelector.java 1733416 2016-03-03 07:07:13Z gadams $ */
public class XPathSubsetContentSelector extends AbstractContentSelector { protected static final int SELECTOR_INVALID = -1; protected static final int SELECTOR_ANY = 0; protected static final int SELECTOR_QNAME = 1; protected static final int SELECTOR_ID = 2;
The type of XPath subset expression.
/** * The type of XPath subset expression. */
protected int selectorType;
The QName prefix used for selection.
/** * The QName prefix used for selection. */
protected String prefix;
The local name or ID used for selection.
/** * The local name or ID used for selection. */
protected String localName;
The index for selection. 0 means select all elements that match.
/** * The index for selection. 0 means select all elements that match. */
protected int index;
The selected nodes.
/** * The selected nodes. */
protected SelectedNodes selectedContent;
Creates a new XPathSubsetContentSelector object.
/** * Creates a new XPathSubsetContentSelector object. */
public XPathSubsetContentSelector(ContentManager cm, XBLOMContentElement content, Element bound, String selector) { super(cm, content, bound); parseSelector(selector); }
Parses the selector string.
/** * Parses the selector string. */
protected void parseSelector(String selector) { selectorType = SELECTOR_INVALID; Scanner scanner = new Scanner(selector); int token = scanner.next(); if (token == Scanner.NAME) { String name1 = scanner.getStringValue(); token = scanner.next(); if (token == Scanner.EOF) { selectorType = SELECTOR_QNAME; prefix = null; localName = name1; index = 0; return; } else if (token == Scanner.COLON) { token = scanner.next(); if (token == Scanner.NAME) { String name2 = scanner.getStringValue(); token = scanner.next(); if (token == Scanner.EOF) { selectorType = SELECTOR_QNAME; prefix = name1; localName = name2; index = 0; return; } else if (token == Scanner.LEFT_SQUARE_BRACKET) { token = scanner.next(); if (token == Scanner.NUMBER) { int number = Integer.parseInt(scanner.getStringValue()); token = scanner.next(); if (token == Scanner.RIGHT_SQUARE_BRACKET) { token = scanner.next(); if (token == Scanner.EOF) { selectorType = SELECTOR_QNAME; prefix = name1; localName = name2; index = number; return; } } } } } else if (token == Scanner.LEFT_SQUARE_BRACKET) { token = scanner.next(); if (token == Scanner.NUMBER) { int number = Integer.parseInt(scanner.getStringValue()); token = scanner.next(); if (token == Scanner.RIGHT_SQUARE_BRACKET) { token = scanner.next(); if (token == Scanner.EOF) { selectorType = SELECTOR_QNAME; prefix = null; localName = name1; index = number; return; } } } } else if (token == Scanner.LEFT_PARENTHESIS) { if (name1.equals("id")) { token = scanner.next(); if (token == Scanner.STRING) { String id = scanner.getStringValue(); token = scanner.next(); if (token == Scanner.RIGHT_PARENTHESIS) { token = scanner.next(); if (token == Scanner.EOF) { selectorType = SELECTOR_ID; localName = id; return; } } } } } } } else if (token == Scanner.ASTERISK) { token = scanner.next(); if (token == Scanner.EOF) { selectorType = SELECTOR_ANY; return; } else if (token == Scanner.LEFT_SQUARE_BRACKET) { token = scanner.next(); if (token == Scanner.NUMBER) { int number = Integer.parseInt(scanner.getStringValue()); token = scanner.next(); if (token == Scanner.RIGHT_SQUARE_BRACKET) { token = scanner.next(); if (token == Scanner.EOF) { selectorType = SELECTOR_ANY; index = number; return; } } } } } }
Returns a list of nodes that were matched by the given selector string.
/** * Returns a list of nodes that were matched by the given selector * string. */
public NodeList getSelectedContent() { if (selectedContent == null) { selectedContent = new SelectedNodes(); } return selectedContent; }
Forces this selector to update its selected nodes list. Returns true if the selected node list needed updating. This assumes that the previous content elements in this shadow tree (in document order) have up-to-date selectedContent lists.
/** * Forces this selector to update its selected nodes list. * Returns true if the selected node list needed updating. * This assumes that the previous content elements in this * shadow tree (in document order) have up-to-date selectedContent * lists. */
boolean update() { if (selectedContent == null) { selectedContent = new SelectedNodes(); return true; } return selectedContent.update(); }
Implementation of NodeList that contains the nodes that matched this selector.
/** * Implementation of NodeList that contains the nodes that matched * this selector. */
protected class SelectedNodes implements NodeList {
The selected nodes.
/** * The selected nodes. */
protected ArrayList nodes = new ArrayList(10);
Creates a new SelectedNodes object.
/** * Creates a new SelectedNodes object. */
public SelectedNodes() { update(); } protected boolean update() { ArrayList oldNodes = (ArrayList) nodes.clone(); nodes.clear(); int nth = 0; for (Node n = boundElement.getFirstChild(); n != null; n = n.getNextSibling()) { if (n.getNodeType() != Node.ELEMENT_NODE) { continue; } Element e = (Element) n; boolean matched = selectorType == SELECTOR_ANY; switch (selectorType) { case SELECTOR_ID: matched = e.getAttributeNS(null, "id").equals(localName); break; case SELECTOR_QNAME: if (prefix == null) { matched = e.getNamespaceURI() == null; } else { String ns = contentElement.lookupNamespaceURI(prefix); if (ns == null) { // XXX throw invalid prefix exception } else { matched = e.getNamespaceURI().equals(ns); } } matched = matched && localName.equals(e.getLocalName()); break; } if (selectorType == SELECTOR_ANY || selectorType == SELECTOR_QNAME) { matched = matched && (index == 0 || ++nth == index); } if (matched && !isSelected(n)) { nodes.add(e); } } int nodesSize = nodes.size(); if (oldNodes.size() != nodesSize) { return true; } for (int i = 0; i < nodesSize; i++) { if (oldNodes.get(i) != nodes.get(i)) { return true; } } return false; }
DOM: Implements NodeList.item(int).
/** * <b>DOM</b>: Implements {@link org.w3c.dom.NodeList#item(int)}. */
public Node item(int index) { if (index < 0 || index >= nodes.size()) { return null; } return (Node) nodes.get(index); }
DOM: Implements NodeList.getLength().
/** * <b>DOM</b>: Implements {@link org.w3c.dom.NodeList#getLength()}. */
public int getLength() { return nodes.size(); } }
A scanner for XPath subset selectors.
/** * A scanner for XPath subset selectors. */
protected static class Scanner extends AbstractScanner { public static final int EOF = 0; public static final int NAME = 1; public static final int COLON = 2; public static final int LEFT_SQUARE_BRACKET = 3; public static final int RIGHT_SQUARE_BRACKET = 4; public static final int LEFT_PARENTHESIS = 5; public static final int RIGHT_PARENTHESIS = 6; public static final int STRING = 7; public static final int NUMBER = 8; public static final int ASTERISK = 9;
Creates a new Scanner object.
/** * Creates a new Scanner object. */
public Scanner(String s) { super(s); }
Returns the end gap of the current lexical unit.
/** * Returns the end gap of the current lexical unit. */
protected int endGap() { return (current == -1) ? 0 : 1; } // public int next() { // int i = super.next(); // System.err.print("\t\t"); // switch (i) { // case EOF: // System.err.println("EOF"); // break; // case NAME: // System.err.println("NAME " + getStringValue()); // break; // case COLON: // System.err.println("COLON"); // break; // case LEFT_SQUARE_BRACKET: // System.err.println("LEFT_SQUARE_BRACKET"); // break; // case RIGHT_SQUARE_BRACKET: // System.err.println("RIGHT_SQUARE_BRACKET"); // break; // case LEFT_PARENTHESIS: // System.err.println("LEFT_PARENTHESIS"); // break; // case RIGHT_PARENTHESIS: // System.err.println("RIGHT_PARENTHESIS"); // break; // case STRING: // System.err.println("STRING \"" + getStringValue() + "\""); // break; // case NUMBER: // System.err.println("NUMBER " + getStringValue()); // break; // case ASTERISK: // System.err.println("ASTERISK"); // break; // default: // System.err.println("?"); // } // return i; // }
Returns the next token.
/** * Returns the next token. */
protected void nextToken() throws ParseException { try { switch (current) { case -1: type = EOF; return; case ':': nextChar(); type = COLON; return; case '[': nextChar(); type = LEFT_SQUARE_BRACKET; return; case ']': nextChar(); type = RIGHT_SQUARE_BRACKET; return; case '(': nextChar(); type = LEFT_PARENTHESIS; return; case ')': nextChar(); type = RIGHT_PARENTHESIS; return; case '*': nextChar(); type = ASTERISK; return; case ' ': case '\t': case '\r': case '\n': case '\f': do { nextChar(); } while (XMLUtilities.isXMLSpace((char) current)); nextToken(); return; case '\'': type = string1(); return; case '"': type = string2(); return; case '0': case '1': case '2': case '3': case '4': case '5': case '6': case '7': case '8': case '9': type = number(); return; default: if (XMLUtilities.isXMLNameFirstCharacter((char) current)) { do { nextChar(); } while (current != -1 && current != ':' && XMLUtilities.isXMLNameCharacter((char) current)); type = NAME; return; } nextChar(); throw new ParseException("identifier.character", reader.getLine(), reader.getColumn()); } } catch (IOException e) { throw new ParseException(e); } }
Scans a single quoted string.
/** * Scans a single quoted string. */
protected int string1() throws IOException { start = position; loop: for (;;) { switch (nextChar()) { case -1: throw new ParseException("eof", reader.getLine(), reader.getColumn()); case '\'': break loop; } } nextChar(); return STRING; }
Scans a double quoted string.
/** * Scans a double quoted string. */
protected int string2() throws IOException { start = position; loop: for (;;) { switch (nextChar()) { case -1: throw new ParseException("eof", reader.getLine(), reader.getColumn()); case '"': break loop; } } nextChar(); return STRING; }
Scans a number.
/** * Scans a number. */
protected int number() throws IOException { loop: for (;;) { switch (nextChar()) { case '.': switch (nextChar()) { case '0': case '1': case '2': case '3': case '4': case '5': case '6': case '7': case '8': case '9': return dotNumber(); } throw new ParseException("character", reader.getLine(), reader.getColumn()); default: break loop; case '0': case '1': case '2': case '3': case '4': case '5': case '6': case '7': case '8': case '9': } } return NUMBER; }
Scans the decimal part of a number.
/** * Scans the decimal part of a number. */
protected int dotNumber() throws IOException { loop: for (;;) { switch (nextChar()) { default: break loop; case '0': case '1': case '2': case '3': case '4': case '5': case '6': case '7': case '8': case '9': } } return NUMBER; } } }