Dépôt officiel du code source de l'ERP OpenConcerto
svn://code.openconcerto.org/openconcerto
(root)/trunk/OpenConcerto/src/org/openconcerto/xml/Step.java - Rev 180
Rev 73 | Blame | Compare with Previous | Last modification | View Log | RSS feed
/** DO NOT ALTER OR REMOVE COPYRIGHT NOTICES OR THIS HEADER.** Copyright 2011 OpenConcerto, by ILM Informatique. All rights reserved.** The contents of this file are subject to the terms of the GNU General Public License Version 3* only ("GPL"). You may not use this file except in compliance with the License. You can obtain a* copy of the License at http://www.gnu.org/licenses/gpl-3.0.html See the License for the specific* language governing permissions and limitations under the License.** When distributing the software, include this License Header Notice in each file.*/package org.openconcerto.xml;import org.openconcerto.utils.Tuple2.List2;import org.openconcerto.utils.cc.IPredicate;import org.openconcerto.xml.SimpleXMLPath.Node;import java.util.ArrayList;import java.util.Collections;import java.util.List;import org.jdom.Attribute;import org.jdom.Element;import org.jdom.Namespace;/*** A step in {@link SimpleXMLPath}. There's only 2 types of step, those which go to {@link Element}* and those which go to {@link Attribute}. Thread-safe if its {@link #getPredicate() predicate} is.** @author Sylvain CUAZ** @param <T> type of items after the step.*/public final class Step<T> {public enum Axis {attribute, child, ancestor, descendantOrSelf}private static final Step<Attribute> ANY_ATTRIBUTE = createAttributeStep(null, null);private static final Step<Element> ANY_CHILD_ELEMENT = createElementStep(Axis.child, null, null);/*** Return a step that match any attribute.** @return the equivalent of <code>@*</code>.*/public static Step<Attribute> getAnyAttributeStep() {return ANY_ATTRIBUTE;}public static Step<Attribute> createAttributeStepFromQualifiedName(final String qName) {final List2<String> splitName = XMLUtils.splitQualifiedName(qName);return createAttributeStep(splitName.get1(), splitName.get0());}public static Step<Attribute> createAttributeStep(final String name, final String ns) {return createAttributeStep(name, ns, null);}public static Step<Attribute> createAttributeStep(final String name, final String ns, final IPredicate<Attribute> pred) {return new Step<Attribute>(Axis.attribute, name, ns, Attribute.class, pred);}/*** Return a step that match any child element.** @return the equivalent of <code>*</code>.*/public static Step<Element> getAnyChildElementStep() {return ANY_CHILD_ELEMENT;}public static Step<Element> createElementStepFromQualifiedName(final String qName) {final List2<String> splitName = XMLUtils.splitQualifiedName(qName);return createElementStep(splitName.get1(), splitName.get0());}public static Step<Element> createElementStep(final String name, final String ns) {return createElementStep(name, ns, null);}public static Step<Element> createElementStep(final String name, final String ns, final IPredicate<Element> pred) {return createElementStep(Axis.child, name, ns, pred);}public static Step<Element> createElementStep(final Axis axis, final String name) {return createElementStep(axis, name, null);}public static Step<Element> createElementStep(final Axis axis, final String name, final String ns) {return createElementStep(axis, name, ns, null);}public static Step<Element> createElementStep(final Axis axis, final String name, final String ns, final IPredicate<Element> pred) {return new Step<Element>(axis, name, ns, Element.class, pred);}private final Axis axis;private final String name;private final String ns;private final Class<T> clazz;private final Node<T> node;private final IPredicate<T> pred;private Step(Axis axis, final String name, final String ns, final Class<T> clazz, IPredicate<T> pred) {super();this.axis = axis;this.name = name;this.ns = ns;this.clazz = clazz;this.node = Node.get(this.clazz);this.pred = pred;}public final Axis getAxis() {return this.axis;}public final String getName() {return this.name;}public final IPredicate<T> getPredicate() {return this.pred;}protected final Namespace getNS(final Element elem) {return this.ns == null ? Namespace.NO_NAMESPACE : elem.getNamespace(this.ns);}protected final T evaluate(final Object node) {if (node == null)return null;final T n = this.clazz.cast(node);final T filtered = this.node.filter(n, this.getName(), this.ns);if (filtered == null)return null;return this.pred == null || this.pred.evaluateChecked(filtered) ? filtered : null;}protected final void add(final Object node, final List<T> l) {final T filtered = evaluate(node);if (filtered != null)l.add(filtered);}final <U> List<T> nextNodes(final Node<U> n, final U jdom) {return this.nextNodes(new ArrayList<T>(), n, jdom);}final <U> List<T> nextNodes(final List<T> res, final Node<U> n, final U jdom) {n.nextNodes(res, jdom, this);return res;}final <U> List<T> nextNodes(List<U> jdom) {final int stop = jdom.size();if (stop == 0)return Collections.emptyList();final Node<U> n = Node.get(jdom.get(0));// nextNodes adding to res is far speedier than creating a list each callfinal List<T> res = new ArrayList<T>();// since we're using ArrayList it is faster to use for than to use iteratorfor (int i = 0; i < stop; i++) {nextNodes(res, n, jdom.get(i));}return res;}final List<String> getValues(List<T> jdom) {final List<String> res = new ArrayList<>();for (final T n : jdom)res.add(this.node.getValue(n));return res;}@Overridepublic final String toString() {return this.getClass().getSimpleName() + " " + this.getAxis() + " " + this.ns + ":" + this.name;}}