Node
package org.jsoup.nodes; import org.jsoup.SerializationException; import org.jsoup.helper.StringUtil; import org.jsoup.helper.Validate; import org.jsoup.parser.Parser; import org.jsoup.select.NodeFilter; import org.jsoup.select.NodeTraversor; import org.jsoup.select.NodeVisitor; import java.io.IOException; import java.util.*; /** The base, abstract Node model. Elements, Documents, Comments etc are all Node instances. @author Jonathan Hedley, [email protected] */ public abstract class Node implements Cloneable { static final String EmptyString = ""; Node parentNode; int siblingIndex; /** * Default constructor. Doesn't setup base uri, children, or attributes; use with caution. */ protected Node() { } /** Get the node name of this node. Use for debugging purposes and not logic switching (for that, use instanceof). @return node name */ public abstract String nodeName(); /** * Check if this Node has an actual Attributes object. */ protected abstract boolean hasAttributes(); public boolean hasParent() { return parentNode != null; } /** * Get an attribute's value by its key. <b>Case insensitive</b> * <p> * To get an absolute URL from an attribute that may be a relative URL, prefix the key with <code><b>abs</b></code>, * which is a shortcut to the {@link #absUrl} method. * </p> * E.g.: * <blockquote><code>String url = a.attr("abs:href");</code></blockquote> * * @param attributeKey The attribute key. * @return The attribute, or empty string if not present (to avoid nulls). * @see #attributes() * @see #hasAttr(String) * @see #absUrl(String) */ public String attr(String attributeKey) { Validate.notNull(attributeKey); if (!hasAttributes()) return EmptyString; String val = attributes().getIgnoreCase(attributeKey); if (val.length() > 0) return val; else if (attributeKey.startsWith("abs:")) return absUrl(attributeKey.substring("abs:".length())); else return ""; } /** * Get all of the element's attributes. * @return attributes (which implements iterable, in same order as presented in original HTML). */ public abstract Attributes attributes(); /** * Set an attribute (key=value). If the attribute already exists, it is replaced. The attribute key comparison is * <b>case insensitive</b>. * @param attributeKey The attribute key. * @param attributeValue The attribute value. * @return this (for chaining) */ public Node attr(String attributeKey, String attributeValue) { attributes().putIgnoreCase(attributeKey, attributeValue); return this; } /** * Test if this element has an attribute. <b>Case insensitive</b> * @param attributeKey The attribute key to check. * @return true if the attribute exists, false if not. */ public boolean hasAttr(String attributeKey) { Validate.notNull(attributeKey); if (attributeKey.startsWith("abs:")) { String key = attributeKey.substring("abs:".length()); if (attributes().hasKeyIgnoreCase(key) && !absUrl(key).equals("")) return true; } return attributes().hasKeyIgnoreCase(attributeKey); } /** * Remove an attribute from this element. * @param attributeKey The attribute to remove. * @return this (for chaining) */ public Node removeAttr(String attributeKey) { Validate.notNull(attributeKey); attributes().removeIgnoreCase(attributeKey); return this; } /** * Clear (remove) all of the attributes in this node. * @return this, for chaining */ public Node clearAttributes() { Iterator<Attribute> it = attributes().iterator(); while (it.hasNext()) { it.next(); it.remove(); } return this; } /** Get the base URI of this node. @return base URI */ public abstract String baseUri(); /** * Set the baseUri for just this node (not its descendants), if this Node tracks base URIs. * @param baseUri new URI */ protected abstract void doSetBaseUri(String baseUri); /** Update the base URI of this node and all of its descendants. @param baseUri base URI to set */ public void setBaseUri(final String baseUri) { Validate.notNull(baseUri); traverse(new NodeVisitor() { public void head(Node node, int depth) { node.doSetBaseUri(baseUri); } public void tail(Node node, int depth) { } }); } /** * Get an absolute URL from a URL attribute that may be relative (i.e. an <code><a href></code> or * <code><img src></code>). * <p> * E.g.: <code>String absUrl = linkEl.absUrl("href");</code> * </p> * <p> * If the attribute value is already absolute (i.e. it starts with a protocol, like * <code>http://</code> or <code>https://</code> etc), and it successfully parses as a URL, the attribute is * returned directly. Otherwise, it is treated as a URL relative to the element's {@link #baseUri}, and made * absolute using that. * </p> * <p> * As an alternate, you can use the {@link #attr} method with the <code>abs:</code> prefix, e.g.: * <code>String absUrl = linkEl.attr("abs:href");</code> * </p> * * @param attributeKey The attribute key * @return An absolute URL if one could be made, or an empty string (not null) if the attribute was missing or * could not be made successfully into a URL. * @see #attr * @see java.net.URL#URL(java.net.URL, String) */ public String absUrl(String attributeKey) { Validate.notEmpty(attributeKey); if (!hasAttr(attributeKey)) { return ""; // nothing to make absolute with } else { return StringUtil.resolve(baseUri(), attr(attributeKey)); } } protected abstract List<Node> ensureChildNodes(); /** Get a child node by its 0-based index. @param index index of child node @return the child node at this index. Throws a {@code IndexOutOfBoundsException} if the index is out of bounds. */ public Node childNode(int index) { return ensureChildNodes().get(index); } /** Get this node's children. Presented as an unmodifiable list: new children can not be added, but the child nodes themselves can be manipulated. @return list of children. If no children, returns an empty list. */ public List<Node> childNodes() { return Collections.unmodifiableList(ensureChildNodes()); } /** * Returns a deep copy of this node's children. Changes made to these nodes will not be reflected in the original * nodes * @return a deep copy of this node's children */ public List<Node> childNodesCopy() { final List<Node> nodes = ensureChildNodes(); final ArrayList<Node> children = new ArrayList<>(nodes.size()); for (Node node : nodes) { children.add(node.clone()); } return children; } /** * Get the number of child nodes that this node holds. * @return the number of child nodes that this node holds. */ public abstract int childNodeSize(); protected Node[] childNodesAsArray() { return ensureChildNodes().toArray(new Node[childNodeSize()]); } /** Gets this node's parent node. @return parent node; or null if no parent. */ public Node parent() { return parentNode; } /** Gets this node's parent node. Not overridable by extending classes, so useful if you really just need the Node type. @return parent node; or null if no parent. */ public final Node parentNode() { return parentNode; } /** * Get this node's root node; that is, its topmost ancestor. If this node is the top ancestor, returns {@code this}. * @return topmost ancestor. */ public Node root() { Node node = this; while (node.parentNode != null) node = node.parentNode; return node; } /** * Gets the Document associated with this Node. * @return the Document associated with this Node, or null if there is no such Document. */ public Document ownerDocument() { Node root = root(); return (root instanceof Document) ? (Document) root : null; } /** * Remove (delete) this node from the DOM tree. If this node has children, they are also removed. */ public void remove() { Validate.notNull(parentNode); parentNode.removeChild(this); } /** * Insert the specified HTML into the DOM before this node (i.e. as a preceding sibling). * @param html HTML to add before this node * @return this node, for chaining * @see #after(String) */ public Node before(String html) { addSiblingHtml(siblingIndex, html); return this; } /** * Insert the specified node into the DOM before this node (i.e. as a preceding sibling). * @param node to add before this node * @return this node, for chaining * @see #after(Node) */ public Node before(Node node) { Validate.notNull(node); Validate.notNull(parentNode); parentNode.addChildren(siblingIndex, node); return this; } /** * Insert the specified HTML into the DOM after this node (i.e. as a following sibling). * @param html HTML to add after this node * @return this node, for chaining * @see #before(String) */ public Node after(String html) { addSiblingHtml(siblingIndex + 1, html); return this; } /** * Insert the specified node into the DOM after this node (i.e. as a following sibling). * @param node to add after this node * @return this node, for chaining * @see #before(Node) */ public Node after(Node node) { Validate.notNull(node); Validate.notNull(parentNode); parentNode.addChildren(siblingIndex + 1, node); return this; } private void addSiblingHtml(int index, String html) { Validate.notNull(html); Validate.notNull(parentNode); Element context = parent() instanceof Element ? (Element) parent() : null; List<Node> nodes = Parser.parseFragment(html, context, baseUri()); parentNode.addChildren(index, nodes.toArray(new Node[nodes.size()])); } /** Wrap the supplied HTML around this node. @param html HTML to wrap around this element, e.g. {@code <div class="head"></div>}. Can be arbitrarily deep. @return this node, for chaining. */ public Node wrap(String html) { Validate.notEmpty(html); Element context = parent() instanceof Element ? (Element) parent() : null; List<Node> wrapChildren = Parser.parseFragment(html, context, baseUri()); Node wrapNode = wrapChildren.get(0); if (wrapNode == null || !(wrapNode instanceof Element)) // nothing to wrap with; noop return null; Element wrap = (Element) wrapNode; Element deepest = getDeepChild(wrap); parentNode.replaceChild(this, wrap); deepest.addChildren(this); // remainder (unbalanced wrap, like <div></div><p></p> -- The <p> is remainder if (wrapChildren.size() > 0) { //noinspection ForLoopReplaceableByForEach (beacause it allocates an Iterator which is wasteful here) for (int i = 0; i < wrapChildren.size(); i++) { Node remainder = wrapChildren.get(i); remainder.parentNode.removeChild(remainder); wrap.appendChild(remainder); } } return this; } /** * Removes this node from the DOM, and moves its children up into the node's parent. This has the effect of dropping * the node but keeping its children. * <p> * For example, with the input html: * </p> * <p>{@code <div>One <span>Two <b>Three</b></span></div>}</p> * Calling {@code element.unwrap()} on the {@code span} element will result in the html: * <p>{@code <div>One Two <b>Three</b></div>}</p> * and the {@code "Two "} {@link TextNode} being returned. * * @return the first child of this node, after the node has been unwrapped. Null if the node had no children. * @see #remove() * @see #wrap(String) */ public Node unwrap() { Validate.notNull(parentNode); final List<Node> childNodes = ensureChildNodes(); Node firstChild = childNodes.size() > 0 ? childNodes.get(0) : null; parentNode.addChildren(siblingIndex, this.childNodesAsArray()); this.remove(); return firstChild; } private Element getDeepChild(Element el) { List<Element> children = el.children(); if (children.size() > 0) return getDeepChild(children.get(0)); else return el; } void nodelistChanged() { // Element overrides this to clear its shadow children elements } /** * Replace this node in the DOM with the supplied node. * @param in the node that will will replace the existing node. */ public void replaceWith(Node in) { Validate.notNull(in); Validate.notNull(parentNode); parentNode.replaceChild(this, in); } protected void setParentNode(Node parentNode) { Validate.notNull(parentNode); if (this.parentNode != null) this.parentNode.removeChild(this); this.parentNode = parentNode; } protected void replaceChild(Node out, Node in) { Validate.isTrue(out.parentNode == this); Validate.notNull(in); if (in.parentNode != null) in.parentNode.removeChild(in); final int index = out.siblingIndex; ensureChildNodes().set(index, in); in.parentNode = this; in.setSiblingIndex(index); out.parentNode = null; } protected void removeChild(Node out) { Validate.isTrue(out.parentNode == this); final int index = out.siblingIndex; ensureChildNodes().remove(index); reindexChildren(index); out.parentNode = null; } protected void addChildren(Node... children) { //most used. short circuit addChildren(int), which hits reindex children and array copy final List<Node> nodes = ensureChildNodes(); for (Node child: children) { reparentChild(child); nodes.add(child); child.setSiblingIndex(nodes.size()-1); } } protected void addChildren(int index, Node... children) { Validate.noNullElements(children); final List<Node> nodes = ensureChildNodes(); for (Node child : children) { reparentChild(child); } nodes.addAll(index, Arrays.asList(children)); reindexChildren(index); } protected void reparentChild(Node child) { child.setParentNode(this); } private void reindexChildren(int start) { final List<Node> childNodes = ensureChildNodes(); for (int i = start; i < childNodes.size(); i++) { childNodes.get(i).setSiblingIndex(i); } } /** Retrieves this node's sibling nodes. Similar to {@link #childNodes() node.parent.childNodes()}, but does not include this node (a node is not a sibling of itself). @return node siblings. If the node has no parent, returns an empty list. */ public List<Node> siblingNodes() { if (parentNode == null) return Collections.emptyList(); List<Node> nodes = parentNode.ensureChildNodes(); List<Node> siblings = new ArrayList<>(nodes.size() - 1); for (Node node: nodes) if (node != this) siblings.add(node); return siblings; } /** Get this node's next sibling. @return next sibling, or null if this is the last sibling */ public Node nextSibling() { if (parentNode == null) return null; // root final List<Node> siblings = parentNode.ensureChildNodes(); final int index = siblingIndex+1; if (siblings.size() > index) return siblings.get(index); else return null; } /** Get this node's previous sibling. @return the previous sibling, or null if this is the first sibling */ public Node previousSibling() { if (parentNode == null) return null; // root if (siblingIndex > 0) return parentNode.ensureChildNodes().get(siblingIndex-1); else return null; } /** * Get the list index of this node in its node sibling list. I.e. if this is the first node * sibling, returns 0. * @return position in node sibling list * @see org.jsoup.nodes.Element#elementSiblingIndex() */ public int siblingIndex() { return siblingIndex; } protected void setSiblingIndex(int siblingIndex) { this.siblingIndex = siblingIndex; } /** * Perform a depth-first traversal through this node and its descendants. * @param nodeVisitor the visitor callbacks to perform on each node * @return this node, for chaining */ public Node traverse(NodeVisitor nodeVisitor) { Validate.notNull(nodeVisitor); NodeTraversor.traverse(nodeVisitor, this); return this; } /** * Perform a depth-first filtering through this node and its descendants. * @param nodeFilter the filter callbacks to perform on each node * @return this node, for chaining */ public Node filter(NodeFilter nodeFilter) { Validate.notNull(nodeFilter); NodeTraversor.filter(nodeFilter, this); return this; } /** Get the outer HTML of this node. @return HTML */ public String outerHtml() { StringBuilder accum = new StringBuilder(128); outerHtml(accum); return accum.toString(); } protected void outerHtml(Appendable accum) { NodeTraversor.traverse(new OuterHtmlVisitor(accum, getOutputSettings()), this); } // if this node has no document (or parent), retrieve the default output settings Document.OutputSettings getOutputSettings() { Document owner = ownerDocument(); return owner != null ? owner.outputSettings() : (new Document("")).outputSettings(); } /** Get the outer HTML of this node. @param accum accumulator to place HTML into @throws IOException if appending to the given accumulator fails. */ abstract void outerHtmlHead(final Appendable accum, int depth, final Document.OutputSettings out) throws IOException; abstract void outerHtmlTail(final Appendable accum, int depth, final Document.OutputSettings out) throws IOException; /** * Write this node and its children to the given {@link Appendable}. * * @param appendable the {@link Appendable} to write to. * @return the supplied {@link Appendable}, for chaining. */ public <T extends Appendable> T html(T appendable) { outerHtml(appendable); return appendable; } public String toString() { return outerHtml(); } protected void indent(Appendable accum, int depth, Document.OutputSettings out) throws IOException { accum.append('\n').append(StringUtil.padding(depth * out.indentAmount())); } /** * Check if this node is the same instance of another (object identity test). * @param o other object to compare to * @return true if the content of this node is the same as the other * @see Node#hasSameValue(Object) to compare nodes by their value */ @Override public boolean equals(Object o) { // implemented just so that javadoc is clear this is an identity test return this == o; } /** * Check if this node is has the same content as another node. A node is considered the same if its name, attributes and content match the * other node; particularly its position in the tree does not influence its similarity. * @param o other object to compare to * @return true if the content of this node is the same as the other */ public boolean hasSameValue(Object o) { if (this == o) return true; if (o == null || getClass() != o.getClass()) return false; return this.outerHtml().equals(((Node) o).outerHtml()); } /** * Create a stand-alone, deep copy of this node, and all of its children. The cloned node will have no siblings or * parent node. As a stand-alone object, any changes made to the clone or any of its children will not impact the * original node. * <p> * The cloned node may be adopted into another Document or node structure using {@link Element#appendChild(Node)}. * @return a stand-alone cloned node, including clones of any children * @see #shallowClone() */ @Override public Node clone() { Node thisClone = doClone(null); // splits for orphan // Queue up nodes that need their children cloned (BFS). final LinkedList<Node> nodesToProcess = new LinkedList<>(); nodesToProcess.add(thisClone); while (!nodesToProcess.isEmpty()) { Node currParent = nodesToProcess.remove(); final int size = currParent.childNodeSize(); for (int i = 0; i < size; i++) { final List<Node> childNodes = currParent.ensureChildNodes(); Node childClone = childNodes.get(i).doClone(currParent); childNodes.set(i, childClone); nodesToProcess.add(childClone); } } return thisClone; } /** * Create a stand-alone, shallow copy of this node. None of its children (if any) will be cloned, and it will have * no parent or sibling nodes. * @return a single independent copy of this node * @see #clone() */ public Node shallowClone() { return doClone(null); } /* * Return a clone of the node using the given parent (which can be null). * Not a deep copy of children. */ protected Node doClone(Node parent) { Node clone; try { clone = (Node) super.clone(); } catch (CloneNotSupportedException e) { throw new RuntimeException(e); } clone.parentNode = parent; // can be null, to create an orphan split clone.siblingIndex = parent == null ? 0 : siblingIndex; return clone; } private static class OuterHtmlVisitor implements NodeVisitor { private Appendable accum; private Document.OutputSettings out; OuterHtmlVisitor(Appendable accum, Document.OutputSettings out) { this.accum = accum; this.out = out; out.prepareEncoder(); } public void head(Node node, int depth) { try { node.outerHtmlHead(accum, depth, out); } catch (IOException exception) { throw new SerializationException(exception); } } public void tail(Node node, int depth) { if (!node.nodeName().equals("#text")) { // saves a void hit. try { node.outerHtmlTail(accum, depth, out); } catch (IOException exception) { throw new SerializationException(exception); } } } } }
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