gecko-dev/dom/base/test/unit/test_xml_serializer.js

422 строки
13 KiB
JavaScript

// The xml serializer uses the default line break of the plateform.
// So we need to know the value of this default line break, in order
// to build correctly the reference strings for tests.
// This variable will contain this value.
var LB;
function run_test() {
if (mozinfo.os == "win") {
LB = "\r\n";
} else {
LB = "\n";
}
for (var i = 0; i < tests.length && tests[i]; ++i) {
tests[i].call();
}
}
var tests = [
test1,
test2,
test3,
test4,
test5,
test6,
test7,
test8,
test9,
test10,
null,
];
function testString(str) {
Assert.equal(roundtrip(str), str);
}
function test1() {
// Basic round-tripping which we expect to hand back the same text
// as we passed in (not strictly required for correctness in some of
// those cases, but best for readability of serializer output)
testString("<root/>");
testString("<root><child/></root>");
testString('<root xmlns=""/>');
testString('<root xml:lang="en"/>');
testString('<root xmlns="ns1"><child xmlns="ns2"/></root>');
testString('<root xmlns="ns1"><child xmlns=""/></root>');
testString('<a:root xmlns:a="ns1"><child/></a:root>');
testString('<a:root xmlns:a="ns1"><a:child/></a:root>');
testString('<a:root xmlns:a="ns1"><b:child xmlns:b="ns1"/></a:root>');
testString('<a:root xmlns:a="ns1"><a:child xmlns:a="ns2"/></a:root>');
testString(
'<a:root xmlns:a="ns1"><b:child xmlns:b="ns1" b:attr=""/></a:root>'
);
}
function test2() {
// Test setting of "xmlns" attribute in the null namespace
// XXXbz are these tests needed? What should happen here? These
// may be bogus.
// Setting random "xmlns" attribute
var doc = ParseXML('<root xmlns="ns1"/>');
doc.documentElement.setAttribute("xmlns", "ns2");
do_check_serialize(doc);
}
function test3() {
// Test basic appending of kids. Again, we're making assumptions
// about how our serializer will serialize simple DOMs.
var doc = ParseXML('<root xmlns="ns1"/>');
var root = doc.documentElement;
var child = doc.createElementNS("ns2", "child");
root.appendChild(child);
do_check_serialize(doc);
Assert.equal(
SerializeXML(doc),
'<root xmlns="ns1"><child xmlns="ns2"/></root>'
);
doc = ParseXML('<root xmlns="ns1"/>');
root = doc.documentElement;
child = doc.createElementNS("ns2", "prefix:child");
root.appendChild(child);
do_check_serialize(doc);
Assert.equal(
SerializeXML(doc),
'<root xmlns="ns1"><prefix:child xmlns:prefix="ns2"/></root>'
);
doc = ParseXML('<prefix:root xmlns:prefix="ns1"/>');
root = doc.documentElement;
child = doc.createElementNS("ns2", "prefix:child");
root.appendChild(child);
do_check_serialize(doc);
Assert.equal(
SerializeXML(doc),
'<prefix:root xmlns:prefix="ns1"><a0:child xmlns:a0="ns2"/>' +
"</prefix:root>"
);
}
function test4() {
// setAttributeNS tests
var doc = ParseXML('<root xmlns="ns1"/>');
var root = doc.documentElement;
root.setAttributeNS("ns1", "prefix:local", "val");
do_check_serialize(doc);
Assert.equal(
SerializeXML(doc),
'<root xmlns="ns1" prefix:local="val" xmlns:prefix="ns1"/>'
);
doc = ParseXML('<prefix:root xmlns:prefix="ns1"/>');
root = doc.documentElement;
root.setAttributeNS("ns1", "local", "val");
do_check_serialize(doc);
Assert.equal(
SerializeXML(doc),
'<prefix:root xmlns:prefix="ns1" prefix:local="val"/>'
);
doc = ParseXML('<root xmlns="ns1"/>');
root = doc.documentElement;
root.setAttributeNS("ns2", "local", "val");
do_check_serialize(doc);
Assert.equal(
SerializeXML(doc),
'<root xmlns="ns1" a0:local="val" xmlns:a0="ns2"/>'
);
// Handling of prefix-generation for non-null-namespace attributes
// which have the same namespace as the current default namespace
// (bug 301260).
doc = ParseXML('<root xmlns="ns1"/>');
root = doc.documentElement;
root.setAttributeNS("ns1", "local", "val");
do_check_serialize(doc);
Assert.equal(
SerializeXML(doc),
'<root xmlns="ns1" a0:local="val" xmlns:a0="ns1"/>'
);
// Tree-walking test
doc = ParseXML(
'<root xmlns="ns1" xmlns:a="ns2">' +
'<child xmlns:b="ns2" xmlns:a="ns3">' +
"<child2/></child></root>"
);
root = doc.documentElement;
var node = root.firstChild.firstChild;
node.setAttributeNS("ns4", "l1", "v1");
node.setAttributeNS("ns4", "p2:l2", "v2");
node.setAttributeNS("", "l3", "v3");
node.setAttributeNS("ns3", "l4", "v4");
node.setAttributeNS("ns3", "p5:l5", "v5");
node.setAttributeNS("ns3", "a:l6", "v6");
node.setAttributeNS("ns2", "l7", "v7");
node.setAttributeNS("ns2", "p8:l8", "v8");
node.setAttributeNS("ns2", "b:l9", "v9");
node.setAttributeNS("ns2", "a:l10", "v10");
node.setAttributeNS("ns1", "a:l11", "v11");
node.setAttributeNS("ns1", "b:l12", "v12");
node.setAttributeNS("ns1", "l13", "v13");
do_check_serialize(doc);
// Note: we end up with "a2" as the prefix on "l11" and "l12" because we use
// "a1" earlier, and discard it in favor of something we get off the
// namespace stack, apparently
Assert.equal(
SerializeXML(doc),
'<root xmlns="ns1" xmlns:a="ns2">' +
'<child xmlns:b="ns2" xmlns:a="ns3">' +
'<child2 a0:l1="v1" xmlns:a0="ns4"' +
' a0:l2="v2"' +
' l3="v3"' +
' a:l4="v4"' +
' a:l5="v5"' +
' a:l6="v6"' +
' b:l7="v7"' +
' b:l8="v8"' +
' b:l9="v9"' +
' b:l10="v10"' +
' a2:l11="v11" xmlns:a2="ns1"' +
' a2:l12="v12"' +
' a2:l13="v13"/></child></root>'
);
}
function test5() {
// Handling of kids in the null namespace when the default is a
// different namespace (bug 301260).
var doc = ParseXML('<root xmlns="ns1"/>');
var child = doc.createElement("child");
doc.documentElement.appendChild(child);
do_check_serialize(doc);
Assert.equal(SerializeXML(doc), '<root xmlns="ns1"><child xmlns=""/></root>');
}
function test6() {
// Handling of not using a namespace prefix (or default namespace!)
// that's not bound to our namespace in our scope (bug 301260).
var doc = ParseXML('<prefix:root xmlns:prefix="ns1"/>');
var root = doc.documentElement;
var child1 = doc.createElementNS("ns2", "prefix:child1");
var child2 = doc.createElementNS("ns1", "prefix:child2");
child1.appendChild(child2);
root.appendChild(child1);
do_check_serialize(doc);
Assert.equal(
SerializeXML(doc),
'<prefix:root xmlns:prefix="ns1"><a0:child1 xmlns:a0="ns2">' +
"<prefix:child2/></a0:child1></prefix:root>"
);
doc = ParseXML(
'<root xmlns="ns1"><prefix:child1 xmlns:prefix="ns2"/></root>'
);
root = doc.documentElement;
child1 = root.firstChild;
child2 = doc.createElementNS("ns1", "prefix:child2");
child1.appendChild(child2);
do_check_serialize(doc);
Assert.equal(
SerializeXML(doc),
'<root xmlns="ns1"><prefix:child1 xmlns:prefix="ns2">' +
"<child2/></prefix:child1></root>"
);
doc = ParseXML(
'<prefix:root xmlns:prefix="ns1">' +
'<prefix:child1 xmlns:prefix="ns2"/></prefix:root>'
);
root = doc.documentElement;
child1 = root.firstChild;
child2 = doc.createElementNS("ns1", "prefix:child2");
child1.appendChild(child2);
do_check_serialize(doc);
Assert.equal(
SerializeXML(doc),
'<prefix:root xmlns:prefix="ns1"><prefix:child1 xmlns:prefix="ns2">' +
'<a0:child2 xmlns:a0="ns1"/></prefix:child1></prefix:root>'
);
doc = ParseXML('<root xmlns="ns1"/>');
root = doc.documentElement;
child1 = doc.createElementNS("ns2", "child1");
child2 = doc.createElementNS("ns1", "child2");
child1.appendChild(child2);
root.appendChild(child1);
do_check_serialize(doc);
Assert.equal(
SerializeXML(doc),
'<root xmlns="ns1"><child1 xmlns="ns2"><child2 xmlns="ns1"/>' +
"</child1></root>"
);
}
function test7() {
// Handle xmlns attribute declaring a default namespace on a non-namespaced
// element (bug 326994).
var doc = ParseXML('<root xmlns=""/>');
var root = doc.documentElement;
root.setAttributeNS(
"http://www.w3.org/2000/xmlns/",
"xmlns",
"http://www.w3.org/1999/xhtml"
);
do_check_serialize(doc);
Assert.equal(SerializeXML(doc), "<root/>");
doc = ParseXML('<root xmlns=""><child1/></root>');
root = doc.documentElement;
root.setAttributeNS(
"http://www.w3.org/2000/xmlns/",
"xmlns",
"http://www.w3.org/1999/xhtml"
);
do_check_serialize(doc);
Assert.equal(SerializeXML(doc), "<root><child1/></root>");
doc = ParseXML(
'<root xmlns="http://www.w3.org/1999/xhtml">' +
'<child1 xmlns=""><child2/></child1></root>'
);
root = doc.documentElement;
var child1 = root.firstChild;
child1.setAttributeNS(
"http://www.w3.org/2000/xmlns/",
"xmlns",
"http://www.w3.org/1999/xhtml"
);
do_check_serialize(doc);
Assert.equal(
SerializeXML(doc),
'<root xmlns="http://www.w3.org/1999/xhtml"><child1 xmlns="">' +
"<child2/></child1></root>"
);
doc = ParseXML(
'<root xmlns="http://www.w3.org/1999/xhtml">' +
'<child1 xmlns="">' +
'<child2 xmlns="http://www.w3.org/1999/xhtml"></child2>' +
"</child1></root>"
);
root = doc.documentElement;
child1 = root.firstChild;
var child2 = child1.firstChild;
child1.setAttributeNS(
"http://www.w3.org/2000/xmlns/",
"xmlns",
"http://www.w3.org/1999/xhtml"
);
child2.setAttributeNS("http://www.w3.org/2000/xmlns/", "xmlns", "");
do_check_serialize(doc);
Assert.equal(
SerializeXML(doc),
'<root xmlns="http://www.w3.org/1999/xhtml"><child1 xmlns="">' +
'<a0:child2 xmlns:a0="http://www.w3.org/1999/xhtml" xmlns=""></a0:child2></child1></root>'
);
}
function test8() {
// Test behavior of serializing with a given charset.
var str1 = '<?xml version="1.0" encoding="windows-1252"?>' + LB + "<root/>";
var str2 = '<?xml version="1.0" encoding="UTF-8"?>' + LB + "<root/>";
var doc1 = ParseXML(str1);
var doc2 = ParseXML(str2);
var p = Pipe();
DOMSerializer().serializeToStream(doc1, p.outputStream, "windows-1252");
p.outputStream.close();
Assert.equal(ScriptableInput(p).read(-1), str1);
p = Pipe();
DOMSerializer().serializeToStream(doc2, p.outputStream, "windows-1252");
p.outputStream.close();
Assert.equal(ScriptableInput(p).read(-1), str1);
p = Pipe();
DOMSerializer().serializeToStream(doc1, p.outputStream, "UTF-8");
p.outputStream.close();
Assert.equal(ScriptableInput(p).read(-1), str2);
p = Pipe();
DOMSerializer().serializeToStream(doc2, p.outputStream, "UTF-8");
p.outputStream.close();
Assert.equal(ScriptableInput(p).read(-1), str2);
}
function test9() {
// Test behavior of serializing between given charsets, using
// windows-1252-representable text.
var contents =
// eslint-disable-next-line no-useless-concat
"<root>" + "\u00BD + \u00BE == \u00BD\u00B2 + \u00BC + \u00BE" + "</root>";
var str1 = '<?xml version="1.0" encoding="windows-1252"?>' + LB + contents;
var str2 = '<?xml version="1.0" encoding="UTF-8"?>' + LB + contents;
var str3 = '<?xml version="1.0" encoding="UTF-16"?>' + LB + contents;
var doc1 = ParseXML(str1);
var doc2 = ParseXML(str2);
var doc3 = ParseXML(str3);
checkSerialization(doc1, "windows-1252", str1);
checkSerialization(doc2, "windows-1252", str1);
checkSerialization(doc3, "windows-1252", str1);
checkSerialization(doc1, "UTF-8", str2);
checkSerialization(doc2, "UTF-8", str2);
checkSerialization(doc3, "UTF-8", str2);
checkSerialization(doc1, "UTF-16", str2);
checkSerialization(doc2, "UTF-16", str2);
checkSerialization(doc3, "UTF-16", str2);
}
function test10() {
// Test behavior of serializing between given charsets, using
// Unicode characters (XXX but only BMP ones because I don't know
// how to create one with non-BMP characters, either with JS strings
// or using DOM APIs).
var contents =
"<root>" +
"AZaz09 \u007F " + // U+000000 to U+00007F
"\u0080 \u0398 \u03BB \u0725 " + // U+000080 to U+0007FF
"\u0964 \u0F5F \u20AC \uFFFB" + // U+000800 to U+00FFFF
"</root>";
var str1 = '<?xml version="1.0" encoding="UTF-8"?>' + LB + contents;
var str2 = '<?xml version="1.0" encoding="UTF-16"?>' + LB + contents;
var doc1 = ParseXML(str1);
var doc2 = ParseXML(str2);
checkSerialization(doc1, "UTF8", str1);
checkSerialization(doc2, "UTF8", str1);
checkSerialization(doc1, "UTF-16", str1);
checkSerialization(doc2, "UTF-16", str1);
}
function checkSerialization(doc, toCharset, expectedString) {
var p = Pipe();
DOMSerializer().serializeToStream(doc, p.outputStream, toCharset);
p.outputStream.close();
var inCharset = toCharset == "UTF-16" ? "UTF-8" : toCharset;
var cin = C["@mozilla.org/intl/converter-input-stream;1"].createInstance(
I.nsIConverterInputStream
);
cin.init(p.inputStream, inCharset, 1024, 0x0);
// compare the first expectedString.length characters for equality
var outString = {};
var count = cin.readString(expectedString.length, outString);
Assert.equal(count, expectedString.length);
Assert.equal(outString.value, expectedString);
// if there's anything more in the stream, it's a bug
Assert.equal(0, cin.readString(1, outString));
Assert.equal(outString.value, "");
}