gecko/content/test/unit/test_range.js

457 lines
15 KiB
JavaScript

/* This Source Code Form is subject to the terms of the Mozilla Public
* License, v. 2.0. If a copy of the MPL was not distributed with this
* file, You can obtain one at http://mozilla.org/MPL/2.0/. */
const C_i = Components.interfaces;
const UNORDERED_TYPE = C_i.nsIDOMXPathResult.ANY_UNORDERED_NODE_TYPE;
/**
* Determine if the data node has only ignorable white-space.
*
* @return nsIDOMNodeFilter.FILTER_SKIP if it does.
* @return nsIDOMNodeFilter.FILTER_ACCEPT otherwise.
*/
function isWhitespace(aNode) {
return ((/\S/).test(aNode.nodeValue)) ?
C_i.nsIDOMNodeFilter.FILTER_SKIP :
C_i.nsIDOMNodeFilter.FILTER_ACCEPT;
}
/**
* Create a DocumentFragment with cloned children equaling a node's children.
*
* @param aNode The node to copy from.
*
* @return DocumentFragment node.
*/
function getFragment(aNode) {
var frag = aNode.ownerDocument.createDocumentFragment();
for (var i = 0; i < aNode.childNodes.length; i++) {
frag.appendChild(aNode.childNodes.item(i).cloneNode(true));
}
return frag;
}
// Goodies from head_content.js
const serializer = new DOMSerializer();
const parser = new DOMParser();
/**
* Dump the contents of a document fragment to the console.
*
* @param aFragment The fragment to serialize.
*/
function dumpFragment(aFragment) {
dump(serializer.serializeToString(aFragment) + "\n\n");
}
/**
* Translate an XPath to a DOM node. This method uses a document
* fragment as context node.
*
* @param aContextNode The context node to apply the XPath to.
* @param aPath The XPath to use.
*
* @return nsIDOMNode The target node retrieved from the XPath.
*/
function evalXPathInDocumentFragment(aContextNode, aPath) {
do_check_true(aContextNode instanceof C_i.nsIDOMDocumentFragment);
do_check_true(aContextNode.childNodes.length > 0);
if (aPath == ".") {
return aContextNode;
}
// Separate the fragment's xpath lookup from the rest.
var firstSlash = aPath.indexOf("/");
if (firstSlash == -1) {
firstSlash = aPath.length;
}
var prefix = aPath.substr(0, firstSlash);
var realPath = aPath.substr(firstSlash + 1);
if (!realPath) {
realPath = ".";
}
// Set up a special node filter to look among the fragment's child nodes.
var childIndex = 1;
var bracketIndex = prefix.indexOf("[");
if (bracketIndex != -1) {
childIndex = Number(prefix.substring(bracketIndex + 1, prefix.indexOf("]")));
do_check_true(childIndex > 0);
prefix = prefix.substr(0, bracketIndex);
}
var targetType = C_i.nsIDOMNodeFilter.SHOW_ELEMENT;
var targetNodeName = prefix;
if (prefix.indexOf("processing-instruction(") == 0) {
targetType = C_i.nsIDOMNodeFilter.SHOW_PROCESSING_INSTRUCTION;
targetNodeName = prefix.substring(prefix.indexOf("(") + 2, prefix.indexOf(")") - 1);
}
switch (prefix) {
case "text()":
targetType = C_i.nsIDOMNodeFilter.SHOW_TEXT |
C_i.nsIDOMNodeFilter.SHOW_CDATA_SECTION;
targetNodeName = null;
break;
case "comment()":
targetType = C_i.nsIDOMNodeFilter.SHOW_COMMENT;
targetNodeName = null;
break;
case "node()":
targetType = C_i.nsIDOMNodeFilter.SHOW_ALL;
targetNodeName = null;
}
var filter = {
count: 0,
// nsIDOMNodeFilter
acceptNode: function acceptNode(aNode) {
if (aNode.parentNode != aContextNode) {
// Don't bother looking at kids either.
return C_i.nsIDOMNodeFilter.FILTER_REJECT;
}
if (targetNodeName && targetNodeName != aNode.nodeName) {
return C_i.nsIDOMNodeFilter.FILTER_SKIP;
}
this.count++;
if (this.count != childIndex) {
return C_i.nsIDOMNodeFilter.FILTER_SKIP;
}
return C_i.nsIDOMNodeFilter.FILTER_ACCEPT;
}
};
// Look for the node matching the step from the document fragment.
var walker = aContextNode.ownerDocument.createTreeWalker(
aContextNode,
targetType,
filter);
var targetNode = walker.nextNode();
do_check_neq(targetNode, null);
// Apply our remaining xpath to the found node.
var expr = aContextNode.ownerDocument.createExpression(realPath, null);
var result = expr.evaluate(targetNode, UNORDERED_TYPE, null);
return result.singleNodeValue;
}
/**
* Get a DOM range corresponding to the test's source node.
*
* @param aSourceNode <source/> element with range information.
* @param aFragment DocumentFragment generated with getFragment().
*
* @return Range object.
*/
function getRange(aSourceNode, aFragment) {
do_check_true(aSourceNode instanceof C_i.nsIDOMElement);
do_check_true(aFragment instanceof C_i.nsIDOMDocumentFragment);
var doc = aSourceNode.ownerDocument;
var containerPath = aSourceNode.getAttribute("startContainer");
var startContainer = evalXPathInDocumentFragment(aFragment, containerPath);
var startOffset = Number(aSourceNode.getAttribute("startOffset"));
containerPath = aSourceNode.getAttribute("endContainer");
var endContainer = evalXPathInDocumentFragment(aFragment, containerPath);
var endOffset = Number(aSourceNode.getAttribute("endOffset"));
var range = doc.createRange();
range.setStart(startContainer, startOffset);
range.setEnd(endContainer, endOffset);
return range;
}
/**
* Get the document for a given path, and clean it up for our tests.
*
* @param aPath The path to the local document.
*/
function getParsedDocument(aPath) {
var doc = do_parse_document(aPath, "application/xml");
do_check_true(doc.documentElement.localName != "parsererror");
do_check_true(doc instanceof C_i.nsIDOMXPathEvaluator);
do_check_true(doc instanceof C_i.nsIDOMDocument);
// Clean out whitespace.
var walker = doc.createTreeWalker(doc,
C_i.nsIDOMNodeFilter.SHOW_TEXT |
C_i.nsIDOMNodeFilter.SHOW_CDATA_SECTION,
isWhitespace);
while (walker.nextNode()) {
var parent = walker.currentNode.parentNode;
parent.removeChild(walker.currentNode);
walker.currentNode = parent;
}
// Clean out mandatory splits between nodes.
var splits = doc.getElementsByTagName("split");
var i;
for (i = splits.length - 1; i >= 0; i--) {
var node = splits.item(i);
node.parentNode.removeChild(node);
}
splits = null;
// Replace empty CDATA sections.
var emptyData = doc.getElementsByTagName("empty-cdata");
for (i = emptyData.length - 1; i >= 0; i--) {
var node = emptyData.item(i);
var cdata = doc.createCDATASection("");
node.parentNode.replaceChild(cdata, node);
}
return doc;
}
/**
* Run the extraction tests.
*/
function run_extract_test() {
var filePath = "test_delete_range.xml";
var doc = getParsedDocument(filePath);
var tests = doc.getElementsByTagName("test");
// Run our deletion, extraction tests.
for (var i = 0; i < tests.length; i++) {
dump("Configuring for test " + i + "\n");
var currentTest = tests.item(i);
// Validate the test is properly formatted for what this harness expects.
var baseSource = currentTest.firstChild;
do_check_eq(baseSource.nodeName, "source");
var baseResult = baseSource.nextSibling;
do_check_eq(baseResult.nodeName, "result");
var baseExtract = baseResult.nextSibling;
do_check_eq(baseExtract.nodeName, "extract");
do_check_eq(baseExtract.nextSibling, null);
/* We do all our tests on DOM document fragments, derived from the test
element's children. This lets us rip the various fragments to shreds,
while preserving the original elements so we can make more copies of
them.
After the range's extraction or deletion is done, we use
nsIDOMNode.isEqualNode() between the altered source fragment and the
result fragment. We also run isEqualNode() between the extracted
fragment and the fragment from the baseExtract node. If they are not
equal, we have failed a test.
We also have to ensure the original nodes on the end points of the
range are still in the source fragment. This is bug 332148. The nodes
may not be replaced with equal but separate nodes. The range extraction
may alter these nodes - in the case of text containers, they will - but
the nodes must stay there, to preserve references such as user data,
event listeners, etc.
First, an extraction test.
*/
var resultFrag = getFragment(baseResult);
var extractFrag = getFragment(baseExtract);
dump("Extract contents test " + i + "\n\n");
var baseFrag = getFragment(baseSource);
var baseRange = getRange(baseSource, baseFrag);
var startContainer = baseRange.startContainer;
var endContainer = baseRange.endContainer;
var cutFragment = baseRange.extractContents();
dump("cutFragment: " + cutFragment + "\n");
if (cutFragment) {
do_check_true(extractFrag.isEqualNode(cutFragment));
} else {
do_check_eq(extractFrag.firstChild, null);
}
do_check_true(baseFrag.isEqualNode(resultFrag));
dump("Ensure the original nodes weren't extracted - test " + i + "\n\n");
var walker = doc.createTreeWalker(baseFrag,
C_i.nsIDOMNodeFilter.SHOW_ALL,
null);
var foundStart = false;
var foundEnd = false;
do {
if (walker.currentNode == startContainer) {
foundStart = true;
}
if (walker.currentNode == endContainer) {
// An end container node should not come before the start container node.
do_check_true(foundStart);
foundEnd = true;
break;
}
} while (walker.nextNode())
do_check_true(foundEnd);
/* Now, we reset our test for the deleteContents case. This one differs
from the extractContents case only in that there is no extracted document
fragment to compare against. So we merely compare the starting fragment,
minus the extracted content, against the result fragment.
*/
dump("Delete contents test " + i + "\n\n");
baseFrag = getFragment(baseSource);
baseRange = getRange(baseSource, baseFrag);
var startContainer = baseRange.startContainer;
var endContainer = baseRange.endContainer;
baseRange.deleteContents();
do_check_true(baseFrag.isEqualNode(resultFrag));
dump("Ensure the original nodes weren't deleted - test " + i + "\n\n");
walker = doc.createTreeWalker(baseFrag,
C_i.nsIDOMNodeFilter.SHOW_ALL,
null);
foundStart = false;
foundEnd = false;
do {
if (walker.currentNode == startContainer) {
foundStart = true;
}
if (walker.currentNode == endContainer) {
// An end container node should not come before the start container node.
do_check_true(foundStart);
foundEnd = true;
break;
}
} while (walker.nextNode())
do_check_true(foundEnd);
// Clean up after ourselves.
walker = null;
}
}
/**
* Miscellaneous tests not covered above.
*/
function run_miscellaneous_tests() {
var filePath = "test_delete_range.xml";
var doc = getParsedDocument(filePath);
var tests = doc.getElementsByTagName("test");
// Let's try some invalid inputs to our DOM range and see what happens.
var currentTest = tests.item(0);
var baseSource = currentTest.firstChild;
var baseResult = baseSource.nextSibling;
var baseExtract = baseResult.nextSibling;
var baseFrag = getFragment(baseSource);
var baseRange = getRange(baseSource, baseFrag);
var startContainer = baseRange.startContainer;
var endContainer = baseRange.endContainer;
var startOffset = baseRange.startOffset;
var endOffset = baseRange.endOffset;
// Text range manipulation.
if ((endOffset > startOffset) &&
(startContainer == endContainer) &&
(startContainer instanceof C_i.nsIDOMText)) {
// Invalid start node
try {
baseRange.setStart(null, 0);
do_throw("Should have thrown NOT_OBJECT_ERR!");
} catch (e) {
do_check_eq(e.constructor.name, "TypeError");
}
// Invalid start node
try {
baseRange.setStart({}, 0);
do_throw("Should have thrown SecurityError!");
} catch (e) {
do_check_eq(e.constructor.name, "TypeError");
}
// Invalid index
try {
baseRange.setStart(startContainer, -1);
do_throw("Should have thrown IndexSizeError!");
} catch (e) {
do_check_eq(e.name, "IndexSizeError");
}
// Invalid index
var newOffset = startContainer instanceof C_i.nsIDOMText ?
startContainer.nodeValue.length + 1 :
startContainer.childNodes.length + 1;
try {
baseRange.setStart(startContainer, newOffset);
do_throw("Should have thrown IndexSizeError!");
} catch (e) {
do_check_eq(e.name, "IndexSizeError");
}
newOffset--;
// Valid index
baseRange.setStart(startContainer, newOffset);
do_check_eq(baseRange.startContainer, baseRange.endContainer);
do_check_eq(baseRange.startOffset, newOffset);
do_check_true(baseRange.collapsed);
// Valid index
baseRange.setEnd(startContainer, 0);
do_check_eq(baseRange.startContainer, baseRange.endContainer);
do_check_eq(baseRange.startOffset, 0);
do_check_true(baseRange.collapsed);
} else {
do_throw("The first test should be a text-only range test. Test is invalid.")
}
/* See what happens when a range has a startContainer in one fragment, and an
endContainer in another. According to the DOM spec, section 2.4, the range
should collapse to the new container and offset. */
baseRange = getRange(baseSource, baseFrag);
startContainer = baseRange.startContainer;
var startOffset = baseRange.startOffset;
endContainer = baseRange.endContainer;
var endOffset = baseRange.endOffset;
dump("External fragment test\n\n");
var externalTest = tests.item(1);
var externalSource = externalTest.firstChild;
var externalFrag = getFragment(externalSource);
var externalRange = getRange(externalSource, externalFrag);
baseRange.setEnd(externalRange.endContainer, 0);
do_check_eq(baseRange.startContainer, externalRange.endContainer);
do_check_eq(baseRange.startOffset, 0);
do_check_true(baseRange.collapsed);
/*
// XXX ajvincent if rv == WRONG_DOCUMENT_ERR, return false?
do_check_false(baseRange.isPointInRange(startContainer, startOffset));
do_check_false(baseRange.isPointInRange(startContainer, startOffset + 1));
do_check_false(baseRange.isPointInRange(endContainer, endOffset));
*/
// Requested by smaug: A range involving a comment as a document child.
doc = parser.parseFromString("<!-- foo --><foo/>", "application/xml");
do_check_true(doc instanceof C_i.nsIDOMDocument);
do_check_eq(doc.childNodes.length, 2);
baseRange = doc.createRange();
baseRange.setStart(doc.firstChild, 1);
baseRange.setEnd(doc.firstChild, 2);
var frag = baseRange.extractContents();
do_check_eq(frag.childNodes.length, 1);
do_check_true(frag.firstChild instanceof C_i.nsIDOMComment);
do_check_eq(frag.firstChild.nodeValue, "f");
/* smaug also requested attribute tests. Sadly, those are not yet supported
in ranges - see https://bugzilla.mozilla.org/show_bug.cgi?id=302775.
*/
}
function run_test() {
run_extract_test();
run_miscellaneous_tests();
}