gecko-dev/dom/imptests/testharness.js

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/*
Distributed under both the W3C Test Suite License [1] and the W3C
3-clause BSD License [2]. To contribute to a W3C Test Suite, see the
policies and contribution forms [3].
[1] http://www.w3.org/Consortium/Legal/2008/04-testsuite-license
[2] http://www.w3.org/Consortium/Legal/2008/03-bsd-license
[3] http://www.w3.org/2004/10/27-testcases
*/
/*
* == Introduction ==
*
* This file provides a framework for writing testcases. It is intended to
* provide a convenient API for making common assertions, and to work both
* for testing synchronous and asynchronous DOM features in a way that
* promotes clear, robust, tests.
*
* == Basic Usage ==
*
* To use this file, import the script and the testharnessreport script into
* the test document:
* <script src="/resources/testharness.js"></script>
* <script src="/resources/testharnessreport.js"></script>
*
* Within each file one may define one or more tests. Each test is atomic
* in the sense that a single test has a single result (pass/fail/timeout).
* Within each test one may have a number of asserts. The test fails at the
* first failing assert, and the remainder of the test is (typically) not run.
*
* If the file containing the tests is a HTML file with an element of id "log"
* this will be populated with a table containing the test results after all
* the tests have run.
*
* NOTE: By default tests must be created before the load event fires. For ways
* to create tests after the load event, see "Determining when all tests
* are complete", below
*
* == Synchronous Tests ==
*
* To create a synchronous test use the test() function:
*
* test(test_function, name, properties)
*
* test_function is a function that contains the code to test. For example a
* trivial passing test would be:
*
* test(function() {assert_true(true)}, "assert_true with true")
*
* The function passed in is run in the test() call.
*
* properties is an object that overrides default test properties. The
* recognised properties are:
* timeout - the test timeout in ms
*
* e.g.
* test(test_function, "Sample test", {timeout:1000})
*
* would run test_function with a timeout of 1s.
*
* Additionally, test-specific metadata can be passed in the properties. These
* are used when the individual test has different metadata from that stored
* in the <head>.
* The recognized metadata properties are:
*
* help - The url of the part of the specification being tested
*
* assert - A human readable description of what the test is attempting
* to prove
*
* author - Name and contact information for the author of the test in the
* format: "Name <email_addr>" or "Name http://contact/url"
*
* == Asynchronous Tests ==
*
* Testing asynchronous features is somewhat more complex since the result of
* a test may depend on one or more events or other callbacks. The API provided
* for testing these features is indended to be rather low-level but hopefully
* applicable to many situations.
*
* To create a test, one starts by getting a Test object using async_test:
*
* async_test(name, properties)
*
* e.g.
* var t = async_test("Simple async test")
*
* Assertions can be added to the test by calling the step method of the test
* object with a function containing the test assertions:
*
* t.step(function() {assert_true(true)});
*
* When all the steps are complete, the done() method must be called:
*
* t.done();
*
* As a convenience, async_test can also takes a function as first argument.
* This function is called with the test object as both its `this` object and
* first argument. The above example can be rewritten as:
*
* async_test(function(t) {
* object.some_event = function() {
* t.step(function (){assert_true(true); t.done();});
* };
* }, "Simple async test");
*
* which avoids cluttering the global scope with references to async
* tests instances.
*
* The properties argument is identical to that for test().
*
* In many cases it is convenient to run a step in response to an event or a
* callback. A convenient method of doing this is through the step_func method
* which returns a function that, when called runs a test step. For example
*
* object.some_event = t.step_func(function(e) {assert_true(e.a)});
*
* == Making assertions ==
*
* Functions for making assertions start assert_
* The best way to get a list is to look in this file for functions names
* matching that pattern. The general signature is
*
* assert_something(actual, expected, description)
*
* although not all assertions precisely match this pattern e.g. assert_true
* only takes actual and description as arguments.
*
* The description parameter is used to present more useful error messages when
* a test fails
*
* NOTE: All asserts must be located in a test() or a step of an async_test().
* asserts outside these places won't be detected correctly by the harness
* and may cause a file to stop testing.
*
* == Harness Timeout ==
*
* The overall harness admits two timeout values "normal" (the
* default) and "long", used for tests which have an unusually long
* runtime. After the timeout is reached, the harness will stop
* waiting for further async tests to complete. By default the
* timeouts are set to 10s and 60s, respectively, but may be changed
* when the test is run on hardware with different performance
* characteristics to a common desktop computer. In order to opt-in
* to the longer test timeout, the test must specify a meta element:
* <meta name="timeout" content="long">
*
* == Setup ==
*
* Sometimes tests require non-trivial setup that may fail. For this purpose
* there is a setup() function, that may be called with one or two arguments.
* The two argument version is:
*
* setup(func, properties)
*
* The one argument versions may omit either argument.
* func is a function to be run synchronously. setup() becomes a no-op once
* any tests have returned results. Properties are global properties of the test
* harness. Currently recognised properties are:
*
*
* explicit_done - Wait for an explicit call to done() before declaring all
* tests complete (see below)
*
* output_document - The document to which results should be logged. By default
* this is the current document but could be an ancestor
* document in some cases e.g. a SVG test loaded in an HTML
* wrapper
*
* explicit_timeout - disable file timeout; only stop waiting for results
* when the timeout() function is called (typically for
* use when integrating with some existing test framework
* that has its own timeout mechanism).
*
* allow_uncaught_exception - don't treat an uncaught exception as an error;
* needed when e.g. testing the window.onerror
* handler.
*
* timeout_multiplier - Multiplier to apply to per-test timeouts.
*
* == Determining when all tests are complete ==
*
* By default the test harness will assume there are no more results to come
* when:
* 1) There are no Test objects that have been created but not completed
* 2) The load event on the document has fired
*
* This behaviour can be overridden by setting the explicit_done property to
* true in a call to setup(). If explicit_done is true, the test harness will
* not assume it is done until the global done() function is called. Once done()
* is called, the two conditions above apply like normal.
*
* == Generating tests ==
*
* NOTE: this functionality may be removed
*
* There are scenarios in which is is desirable to create a large number of
* (synchronous) tests that are internally similar but vary in the parameters
* used. To make this easier, the generate_tests function allows a single
* function to be called with each set of parameters in a list:
*
* generate_tests(test_function, parameter_lists, properties)
*
* For example:
*
* generate_tests(assert_equals, [
* ["Sum one and one", 1+1, 2],
* ["Sum one and zero", 1+0, 1]
* ])
*
* Is equivalent to:
*
* test(function() {assert_equals(1+1, 2)}, "Sum one and one")
* test(function() {assert_equals(1+0, 1)}, "Sum one and zero")
*
* Note that the first item in each parameter list corresponds to the name of
* the test.
*
* The properties argument is identical to that for test(). This may be a
* single object (used for all generated tests) or an array.
*
* == Callback API ==
*
* The framework provides callbacks corresponding to 3 events:
*
* start - happens when the first Test is created
* result - happens when a test result is recieved
* complete - happens when all results are recieved
*
* The page defining the tests may add callbacks for these events by calling
* the following methods:
*
* add_start_callback(callback) - callback called with no arguments
* add_result_callback(callback) - callback called with a test argument
* add_completion_callback(callback) - callback called with an array of tests
* and an status object
*
* tests have the following properties:
* status: A status code. This can be compared to the PASS, FAIL, TIMEOUT and
* NOTRUN properties on the test object
* message: A message indicating the reason for failure. In the future this
* will always be a string
*
* The status object gives the overall status of the harness. It has the
* following properties:
* status: Can be compared to the OK, ERROR and TIMEOUT properties
* message: An error message set when the status is ERROR
*
* == External API ==
*
* In order to collect the results of multiple pages containing tests, the test
* harness will, when loaded in a nested browsing context, attempt to call
* certain functions in each ancestor and opener browsing context:
*
* start - start_callback
* result - result_callback
* complete - completion_callback
*
* These are given the same arguments as the corresponding internal callbacks
* described above.
*
* == External API through cross-document messaging ==
*
* Where supported, the test harness will also send messages using
* cross-document messaging to each ancestor and opener browsing context. Since
* it uses the wildcard keyword (*), cross-origin communication is enabled and
* script on different origins can collect the results.
*
* This API follows similar conventions as those described above only slightly
* modified to accommodate message event API. Each message is sent by the harness
* is passed a single vanilla object, available as the `data` property of the
* event object. These objects are structures as follows:
*
* start - { type: "start" }
* result - { type: "result", test: Test }
* complete - { type: "complete", tests: [Test, ...], status: TestsStatus }
*
* == List of assertions ==
*
* assert_true(actual, description)
* asserts that /actual/ is strictly true
*
* assert_false(actual, description)
* asserts that /actual/ is strictly false
*
* assert_equals(actual, expected, description)
* asserts that /actual/ is the same value as /expected/
*
* assert_not_equals(actual, expected, description)
* asserts that /actual/ is a different value to /expected/. Yes, this means
* that "expected" is a misnomer
*
* assert_in_array(actual, expected, description)
* asserts that /expected/ is an Array, and /actual/ is equal to one of the
* members -- expected.indexOf(actual) != -1
*
* assert_array_equals(actual, expected, description)
* asserts that /actual/ and /expected/ have the same length and the value of
* each indexed property in /actual/ is the strictly equal to the corresponding
* property value in /expected/
*
* assert_approx_equals(actual, expected, epsilon, description)
* asserts that /actual/ is a number within +/- /epsilon/ of /expected/
*
* assert_less_than(actual, expected, description)
* asserts that /actual/ is a number less than /expected/
*
* assert_greater_than(actual, expected, description)
* asserts that /actual/ is a number greater than /expected/
*
* assert_less_than_equal(actual, expected, description)
* asserts that /actual/ is a number less than or equal to /expected/
*
* assert_greater_than_equal(actual, expected, description)
* asserts that /actual/ is a number greater than or equal to /expected/
*
* assert_regexp_match(actual, expected, description)
* asserts that /actual/ matches the regexp /expected/
*
* assert_class_string(object, class_name, description)
* asserts that the class string of /object/ as returned in
* Object.prototype.toString is equal to /class_name/.
*
* assert_own_property(object, property_name, description)
* assert that object has own property property_name
*
* assert_inherits(object, property_name, description)
* assert that object does not have an own property named property_name
* but that property_name is present in the prototype chain for object
*
* assert_idl_attribute(object, attribute_name, description)
* assert that an object that is an instance of some interface has the
* attribute attribute_name following the conditions specified by WebIDL
*
* assert_readonly(object, property_name, description)
* assert that property property_name on object is readonly
*
* assert_throws(code, func, description)
* code - the expected exception:
* o string: the thrown exception must be a DOMException with the given
* name, e.g., "TimeoutError" (for compatibility with existing
* tests, a constant is also supported, e.g., "TIMEOUT_ERR")
* o object: the thrown exception must have a property called "name" that
* matches code.name
* o null: allow any exception (in general, one of the options above
* should be used)
* func - a function that should throw
*
* assert_unreached(description)
* asserts if called. Used to ensure that some codepath is *not* taken e.g.
* an event does not fire.
*
* assert_any(assert_func, actual, expected_array, extra_arg_1, ... extra_arg_N)
* asserts that one assert_func(actual, expected_array_N, extra_arg1, ..., extra_arg_N)
* is true for some expected_array_N in expected_array. This only works for assert_func
* with signature assert_func(actual, expected, args_1, ..., args_N). Note that tests
* with multiple allowed pass conditions are bad practice unless the spec specifically
* allows multiple behaviours. Test authors should not use this method simply to hide
* UA bugs.
*
* assert_exists(object, property_name, description)
* *** deprecated ***
* asserts that object has an own property property_name
*
* assert_not_exists(object, property_name, description)
* *** deprecated ***
* assert that object does not have own property property_name
*/
(function ()
{
var debug = false;
// default timeout is 10 seconds, test can override if needed
var settings = {
output:true,
harness_timeout:{"normal":10000,
"long":60000},
test_timeout:null
};
var xhtml_ns = "http://www.w3.org/1999/xhtml";
// script_prefix is used by Output.prototype.show_results() to figure out
// where to get testharness.css from. It's enclosed in an extra closure to
// not pollute the library's namespace with variables like "src".
var script_prefix = null;
(function ()
{
var scripts = document.getElementsByTagName("script");
for (var i = 0; i < scripts.length; i++)
{
if (scripts[i].src)
{
var src = scripts[i].src;
}
else if (scripts[i].href)
{
//SVG case
var src = scripts[i].href.baseVal;
}
if (src && src.slice(src.length - "testharness.js".length) === "testharness.js")
{
script_prefix = src.slice(0, src.length - "testharness.js".length);
break;
}
}
})();
/*
* API functions
*/
var name_counter = 0;
function next_default_name()
{
//Don't use document.title to work around an Opera bug in XHTML documents
var title = document.getElementsByTagName("title")[0];
var prefix = (title && title.firstChild && title.firstChild.data) || "Untitled";
var suffix = name_counter > 0 ? " " + name_counter : "";
name_counter++;
return prefix + suffix;
}
function test(func, name, properties)
{
var test_name = name ? name : next_default_name();
properties = properties ? properties : {};
var test_obj = new Test(test_name, properties);
test_obj.step(func);
if (test_obj.phase === test_obj.phases.STARTED) {
test_obj.done();
}
}
function async_test(func, name, properties)
{
if (typeof func !== "function") {
properties = name;
name = func;
func = null;
}
var test_name = name ? name : next_default_name();
properties = properties ? properties : {};
var test_obj = new Test(test_name, properties);
if (func) {
test_obj.step(func, test_obj, test_obj);
}
return test_obj;
}
function setup(func_or_properties, maybe_properties)
{
var func = null;
var properties = {};
if (arguments.length === 2) {
func = func_or_properties;
properties = maybe_properties;
} else if (func_or_properties instanceof Function){
func = func_or_properties;
} else {
properties = func_or_properties;
}
tests.setup(func, properties);
output.setup(properties);
}
function done() {
tests.end_wait();
}
function generate_tests(func, args, properties) {
forEach(args, function(x, i)
{
var name = x[0];
test(function()
{
func.apply(this, x.slice(1));
},
name,
Array.isArray(properties) ? properties[i] : properties);
});
}
function on_event(object, event, callback)
{
object.addEventListener(event, callback, false);
}
expose(test, 'test');
expose(async_test, 'async_test');
expose(generate_tests, 'generate_tests');
expose(setup, 'setup');
expose(done, 'done');
expose(on_event, 'on_event');
/*
* Return a string truncated to the given length, with ... added at the end
* if it was longer.
*/
function truncate(s, len)
{
if (s.length > len) {
return s.substring(0, len - 3) + "...";
}
return s;
}
/*
* Return true if object is probably a Node object.
*/
function is_node(object)
{
// I use duck-typing instead of instanceof, because
// instanceof doesn't work if the node is from another window (like an
// iframe's contentWindow):
// http://www.w3.org/Bugs/Public/show_bug.cgi?id=12295
if ("nodeType" in object
&& "nodeName" in object
&& "nodeValue" in object
&& "childNodes" in object)
{
try
{
object.nodeType;
}
catch (e)
{
// The object is probably Node.prototype or another prototype
// object that inherits from it, and not a Node instance.
return false;
}
return true;
}
return false;
}
/*
* Convert a value to a nice, human-readable string
*/
function format_value(val, seen)
{
if (!seen) {
seen = [];
}
if (typeof val === "object" && val !== null)
{
if (seen.indexOf(val) >= 0)
{
return "[...]";
}
seen.push(val);
}
if (Array.isArray(val))
{
return "[" + val.map(function(x) {return format_value(x, seen)}).join(", ") + "]";
}
switch (typeof val)
{
case "string":
val = val.replace("\\", "\\\\");
for (var i = 0; i < 32; i++)
{
var replace = "\\";
switch (i) {
case 0: replace += "0"; break;
case 1: replace += "x01"; break;
case 2: replace += "x02"; break;
case 3: replace += "x03"; break;
case 4: replace += "x04"; break;
case 5: replace += "x05"; break;
case 6: replace += "x06"; break;
case 7: replace += "x07"; break;
case 8: replace += "b"; break;
case 9: replace += "t"; break;
case 10: replace += "n"; break;
case 11: replace += "v"; break;
case 12: replace += "f"; break;
case 13: replace += "r"; break;
case 14: replace += "x0e"; break;
case 15: replace += "x0f"; break;
case 16: replace += "x10"; break;
case 17: replace += "x11"; break;
case 18: replace += "x12"; break;
case 19: replace += "x13"; break;
case 20: replace += "x14"; break;
case 21: replace += "x15"; break;
case 22: replace += "x16"; break;
case 23: replace += "x17"; break;
case 24: replace += "x18"; break;
case 25: replace += "x19"; break;
case 26: replace += "x1a"; break;
case 27: replace += "x1b"; break;
case 28: replace += "x1c"; break;
case 29: replace += "x1d"; break;
case 30: replace += "x1e"; break;
case 31: replace += "x1f"; break;
}
val = val.replace(RegExp(String.fromCharCode(i), "g"), replace);
}
return '"' + val.replace(/"/g, '\\"') + '"';
case "boolean":
case "undefined":
return String(val);
case "number":
// In JavaScript, -0 === 0 and String(-0) == "0", so we have to
// special-case.
if (val === -0 && 1/val === -Infinity)
{
return "-0";
}
return String(val);
case "object":
if (val === null)
{
return "null";
}
// Special-case Node objects, since those come up a lot in my tests. I
// ignore namespaces.
if (is_node(val))
{
switch (val.nodeType)
{
case Node.ELEMENT_NODE:
var ret = "<" + val.tagName.toLowerCase();
for (var i = 0; i < val.attributes.length; i++)
{
ret += " " + val.attributes[i].name + '="' + val.attributes[i].value + '"';
}
ret += ">" + val.innerHTML + "</" + val.tagName.toLowerCase() + ">";
return "Element node " + truncate(ret, 60);
case Node.TEXT_NODE:
return 'Text node "' + truncate(val.data, 60) + '"';
case Node.PROCESSING_INSTRUCTION_NODE:
return "ProcessingInstruction node with target " + format_value(truncate(val.target, 60)) + " and data " + format_value(truncate(val.data, 60));
case Node.COMMENT_NODE:
return "Comment node <!--" + truncate(val.data, 60) + "-->";
case Node.DOCUMENT_NODE:
return "Document node with " + val.childNodes.length + (val.childNodes.length == 1 ? " child" : " children");
case Node.DOCUMENT_TYPE_NODE:
return "DocumentType node";
case Node.DOCUMENT_FRAGMENT_NODE:
return "DocumentFragment node with " + val.childNodes.length + (val.childNodes.length == 1 ? " child" : " children");
default:
return "Node object of unknown type";
}
}
// Fall through to default
default:
return typeof val + ' "' + truncate(String(val), 60) + '"';
}
}
expose(format_value, "format_value");
/*
* Assertions
*/
function assert_true(actual, description)
{
assert(actual === true, "assert_true", description,
"expected true got ${actual}", {actual:actual});
};
expose(assert_true, "assert_true");
function assert_false(actual, description)
{
assert(actual === false, "assert_false", description,
"expected false got ${actual}", {actual:actual});
};
expose(assert_false, "assert_false");
function same_value(x, y) {
if (y !== y)
{
//NaN case
return x !== x;
}
else if (x === 0 && y === 0) {
//Distinguish +0 and -0
return 1/x === 1/y;
}
else
{
//typical case
return x === y;
}
}
function assert_equals(actual, expected, description)
{
/*
* Test if two primitives are equal or two objects
* are the same object
*/
if (typeof actual != typeof expected)
{
assert(false, "assert_equals", description,
"expected (" + typeof expected + ") ${expected} but got (" + typeof actual + ") ${actual}",
{expected:expected, actual:actual});
return;
}
assert(same_value(actual, expected), "assert_equals", description,
"expected ${expected} but got ${actual}",
{expected:expected, actual:actual});
};
expose(assert_equals, "assert_equals");
function assert_not_equals(actual, expected, description)
{
/*
* Test if two primitives are unequal or two objects
* are different objects
*/
assert(!same_value(actual, expected), "assert_not_equals", description,
"got disallowed value ${actual}",
{actual:actual});
};
expose(assert_not_equals, "assert_not_equals");
function assert_in_array(actual, expected, description)
{
assert(expected.indexOf(actual) != -1, "assert_in_array", description,
"value ${actual} not in array ${expected}",
{actual:actual, expected:expected});
}
expose(assert_in_array, "assert_in_array");
function assert_object_equals(actual, expected, description)
{
//This needs to be improved a great deal
function check_equal(actual, expected, stack)
{
stack.push(actual);
var p;
for (p in actual)
{
assert(expected.hasOwnProperty(p), "assert_object_equals", description,
"unexpected property ${p}", {p:p});
if (typeof actual[p] === "object" && actual[p] !== null)
{
if (stack.indexOf(actual[p]) === -1)
{
check_equal(actual[p], expected[p], stack);
}
}
else
{
assert(same_value(actual[p], expected[p]), "assert_object_equals", description,
"property ${p} expected ${expected} got ${actual}",
{p:p, expected:expected, actual:actual});
}
}
for (p in expected)
{
assert(actual.hasOwnProperty(p),
"assert_object_equals", description,
"expected property ${p} missing", {p:p});
}
stack.pop();
}
check_equal(actual, expected, []);
};
expose(assert_object_equals, "assert_object_equals");
function assert_array_equals(actual, expected, description)
{
assert(actual.length === expected.length,
"assert_array_equals", description,
"lengths differ, expected ${expected} got ${actual}",
{expected:expected.length, actual:actual.length});
for (var i=0; i < actual.length; i++)
{
assert(actual.hasOwnProperty(i) === expected.hasOwnProperty(i),
"assert_array_equals", description,
"property ${i}, property expected to be $expected but was $actual",
{i:i, expected:expected.hasOwnProperty(i) ? "present" : "missing",
actual:actual.hasOwnProperty(i) ? "present" : "missing"});
assert(same_value(expected[i], actual[i]),
"assert_array_equals", description,
"property ${i}, expected ${expected} but got ${actual}",
{i:i, expected:expected[i], actual:actual[i]});
}
}
expose(assert_array_equals, "assert_array_equals");
function assert_approx_equals(actual, expected, epsilon, description)
{
/*
* Test if two primitive numbers are equal withing +/- epsilon
*/
assert(typeof actual === "number",
"assert_approx_equals", description,
"expected a number but got a ${type_actual}",
{type_actual:typeof actual});
assert(Math.abs(actual - expected) <= epsilon,
"assert_approx_equals", description,
"expected ${expected} +/- ${epsilon} but got ${actual}",
{expected:expected, actual:actual, epsilon:epsilon});
};
expose(assert_approx_equals, "assert_approx_equals");
function assert_less_than(actual, expected, description)
{
/*
* Test if a primitive number is less than another
*/
assert(typeof actual === "number",
"assert_less_than", description,
"expected a number but got a ${type_actual}",
{type_actual:typeof actual});
assert(actual < expected,
"assert_less_than", description,
"expected a number less than ${expected} but got ${actual}",
{expected:expected, actual:actual});
};
expose(assert_less_than, "assert_less_than");
function assert_greater_than(actual, expected, description)
{
/*
* Test if a primitive number is greater than another
*/
assert(typeof actual === "number",
"assert_greater_than", description,
"expected a number but got a ${type_actual}",
{type_actual:typeof actual});
assert(actual > expected,
"assert_greater_than", description,
"expected a number greater than ${expected} but got ${actual}",
{expected:expected, actual:actual});
};
expose(assert_greater_than, "assert_greater_than");
function assert_less_than_equal(actual, expected, description)
{
/*
* Test if a primitive number is less than or equal to another
*/
assert(typeof actual === "number",
"assert_less_than_equal", description,
"expected a number but got a ${type_actual}",
{type_actual:typeof actual});
assert(actual <= expected,
"assert_less_than", description,
"expected a number less than or equal to ${expected} but got ${actual}",
{expected:expected, actual:actual});
};
expose(assert_less_than_equal, "assert_less_than_equal");
function assert_greater_than_equal(actual, expected, description)
{
/*
* Test if a primitive number is greater than or equal to another
*/
assert(typeof actual === "number",
"assert_greater_than_equal", description,
"expected a number but got a ${type_actual}",
{type_actual:typeof actual});
assert(actual >= expected,
"assert_greater_than_equal", description,
"expected a number greater than or equal to ${expected} but got ${actual}",
{expected:expected, actual:actual});
};
expose(assert_greater_than_equal, "assert_greater_than_equal");
function assert_regexp_match(actual, expected, description) {
/*
* Test if a string (actual) matches a regexp (expected)
*/
assert(expected.test(actual),
"assert_regexp_match", description,
"expected ${expected} but got ${actual}",
{expected:expected, actual:actual});
}
expose(assert_regexp_match, "assert_regexp_match");
function assert_class_string(object, class_string, description) {
assert_equals({}.toString.call(object), "[object " + class_string + "]",
description);
}
expose(assert_class_string, "assert_class_string");
function _assert_own_property(name) {
return function(object, property_name, description)
{
assert(object.hasOwnProperty(property_name),
name, description,
"expected property ${p} missing", {p:property_name});
};
}
expose(_assert_own_property("assert_exists"), "assert_exists");
expose(_assert_own_property("assert_own_property"), "assert_own_property");
function assert_not_exists(object, property_name, description)
{
assert(!object.hasOwnProperty(property_name),
"assert_not_exists", description,
"unexpected property ${p} found", {p:property_name});
};
expose(assert_not_exists, "assert_not_exists");
function _assert_inherits(name) {
return function (object, property_name, description)
{
assert(typeof object === "object",
name, description,
"provided value is not an object");
assert("hasOwnProperty" in object,
name, description,
"provided value is an object but has no hasOwnProperty method");
assert(!object.hasOwnProperty(property_name),
name, description,
"property ${p} found on object expected in prototype chain",
{p:property_name});
assert(property_name in object,
name, description,
"property ${p} not found in prototype chain",
{p:property_name});
};
}
expose(_assert_inherits("assert_inherits"), "assert_inherits");
expose(_assert_inherits("assert_idl_attribute"), "assert_idl_attribute");
function assert_readonly(object, property_name, description)
{
var initial_value = object[property_name];
try {
//Note that this can have side effects in the case where
//the property has PutForwards
object[property_name] = initial_value + "a"; //XXX use some other value here?
assert(same_value(object[property_name], initial_value),
"assert_readonly", description,
"changing property ${p} succeeded",
{p:property_name});
}
finally
{
object[property_name] = initial_value;
}
};
expose(assert_readonly, "assert_readonly");
function assert_throws(code, func, description)
{
try
{
func.call(this);
assert(false, "assert_throws", description,
"${func} did not throw", {func:func});
}
catch(e)
{
if (e instanceof AssertionError) {
throw(e);
}
if (code === null)
{
return;
}
if (typeof code === "object")
{
assert(typeof e == "object" && "name" in e && e.name == code.name,
"assert_throws", description,
"${func} threw ${actual} (${actual_name}) expected ${expected} (${expected_name})",
{func:func, actual:e, actual_name:e.name,
expected:code,
expected_name:code.name});
return;
}
var code_name_map = {
INDEX_SIZE_ERR: 'IndexSizeError',
HIERARCHY_REQUEST_ERR: 'HierarchyRequestError',
WRONG_DOCUMENT_ERR: 'WrongDocumentError',
INVALID_CHARACTER_ERR: 'InvalidCharacterError',
NO_MODIFICATION_ALLOWED_ERR: 'NoModificationAllowedError',
NOT_FOUND_ERR: 'NotFoundError',
NOT_SUPPORTED_ERR: 'NotSupportedError',
INVALID_STATE_ERR: 'InvalidStateError',
SYNTAX_ERR: 'SyntaxError',
INVALID_MODIFICATION_ERR: 'InvalidModificationError',
NAMESPACE_ERR: 'NamespaceError',
INVALID_ACCESS_ERR: 'InvalidAccessError',
TYPE_MISMATCH_ERR: 'TypeMismatchError',
SECURITY_ERR: 'SecurityError',
NETWORK_ERR: 'NetworkError',
ABORT_ERR: 'AbortError',
URL_MISMATCH_ERR: 'URLMismatchError',
QUOTA_EXCEEDED_ERR: 'QuotaExceededError',
TIMEOUT_ERR: 'TimeoutError',
INVALID_NODE_TYPE_ERR: 'InvalidNodeTypeError',
DATA_CLONE_ERR: 'DataCloneError'
};
var name = code in code_name_map ? code_name_map[code] : code;
var name_code_map = {
IndexSizeError: 1,
HierarchyRequestError: 3,
WrongDocumentError: 4,
InvalidCharacterError: 5,
NoModificationAllowedError: 7,
NotFoundError: 8,
NotSupportedError: 9,
InvalidStateError: 11,
SyntaxError: 12,
InvalidModificationError: 13,
NamespaceError: 14,
InvalidAccessError: 15,
TypeMismatchError: 17,
SecurityError: 18,
NetworkError: 19,
AbortError: 20,
URLMismatchError: 21,
QuotaExceededError: 22,
TimeoutError: 23,
InvalidNodeTypeError: 24,
DataCloneError: 25,
UnknownError: 0,
ConstraintError: 0,
DataError: 0,
TransactionInactiveError: 0,
ReadOnlyError: 0,
VersionError: 0
};
if (!(name in name_code_map))
{
throw new AssertionError('Test bug: unrecognized DOMException code "' + code + '" passed to assert_throws()');
}
var required_props = { code: name_code_map[name] };
if (required_props.code === 0
|| ("name" in e && e.name !== e.name.toUpperCase() && e.name !== "DOMException"))
{
// New style exception: also test the name property.
required_props.name = name;
}
//We'd like to test that e instanceof the appropriate interface,
//but we can't, because we don't know what window it was created
//in. It might be an instanceof the appropriate interface on some
//unknown other window. TODO: Work around this somehow?
assert(typeof e == "object",
"assert_throws", description,
"${func} threw ${e} with type ${type}, not an object",
{func:func, e:e, type:typeof e});
for (var prop in required_props)
{
assert(typeof e == "object" && prop in e && e[prop] == required_props[prop],
"assert_throws", description,
"${func} threw ${e} that is not a DOMException " + code + ": property ${prop} is equal to ${actual}, expected ${expected}",
{func:func, e:e, prop:prop, actual:e[prop], expected:required_props[prop]});
}
}
}
expose(assert_throws, "assert_throws");
function assert_unreached(description) {
assert(false, "assert_unreached", description,
"Reached unreachable code");
}
expose(assert_unreached, "assert_unreached");
function assert_any(assert_func, actual, expected_array)
{
var args = [].slice.call(arguments, 3)
var errors = []
var passed = false;
forEach(expected_array,
function(expected)
{
try {
assert_func.apply(this, [actual, expected].concat(args))
passed = true;
} catch(e) {
errors.push(e.message);
}
});
if (!passed) {
throw new AssertionError(errors.join("\n\n"));
}
}
expose(assert_any, "assert_any");
function Test(name, properties)
{
this.name = name;
this.phases = {
INITIAL:0,
STARTED:1,
HAS_RESULT:2,
COMPLETE:3
};
this.phase = this.phases.INITIAL;
this.status = this.NOTRUN;
this.timeout_id = null;
this.properties = properties;
var timeout = properties.timeout ? properties.timeout : settings.test_timeout
if (timeout != null) {
this.timeout_length = timeout * tests.timeout_multiplier;
} else {
this.timeout_length = null;
}
this.message = null;
var this_obj = this;
this.steps = [];
tests.push(this);
}
Test.statuses = {
PASS:0,
FAIL:1,
TIMEOUT:2,
NOTRUN:3
};
Test.prototype = merge({}, Test.statuses);
Test.prototype.structured_clone = function()
{
if(!this._structured_clone)
{
var msg = this.message;
msg = msg ? String(msg) : msg;
this._structured_clone = merge({
name:String(this.name),
status:this.status,
message:msg
}, Test.statuses);
}
return this._structured_clone;
};
Test.prototype.step = function(func, this_obj)
{
if (this.phase > this.phases.STARTED)
{
return;
}
this.phase = this.phases.STARTED;
//If we don't get a result before the harness times out that will be a test timout
this.set_status(this.TIMEOUT, "Test timed out");
tests.started = true;
if (this.timeout_id === null)
{
this.set_timeout();
}
this.steps.push(func);
if (arguments.length === 1)
{
this_obj = this;
}
try
{
return func.apply(this_obj, Array.prototype.slice.call(arguments, 2));
}
catch(e)
{
if (this.phase >= this.phases.HAS_RESULT)
{
return;
}
var message = (typeof e === "object" && e !== null) ? e.message : e;
if (typeof e.stack != "undefined" && typeof e.message == "string") {
//Try to make it more informative for some exceptions, at least
//in Gecko and WebKit. This results in a stack dump instead of
//just errors like "Cannot read property 'parentNode' of null"
//or "root is null". Makes it a lot longer, of course.
message += "(stack: " + e.stack + ")";
}
this.set_status(this.FAIL, message);
this.phase = this.phases.HAS_RESULT;
this.done();
}
};
Test.prototype.step_func = function(func, this_obj)
{
var test_this = this;
if (arguments.length === 1)
{
this_obj = test_this;
}
return function()
{
test_this.step.apply(test_this, [func, this_obj].concat(
Array.prototype.slice.call(arguments)));
};
};
Test.prototype.step_func_done = function(func, this_obj)
{
var test_this = this;
if (arguments.length === 1)
{
this_obj = test_this;
}
return function()
{
test_this.step.apply(test_this, [func, this_obj].concat(
Array.prototype.slice.call(arguments)));
test_this.done();
};
}
Test.prototype.set_timeout = function()
{
if (this.timeout_length !== null)
{
var this_obj = this;
this.timeout_id = setTimeout(function()
{
this_obj.timeout();
}, this.timeout_length);
}
}
Test.prototype.set_status = function(status, message)
{
this.status = status;
this.message = message;
}
Test.prototype.timeout = function()
{
this.timeout_id = null;
this.set_status(this.TIMEOUT, "Test timed out")
this.phase = this.phases.HAS_RESULT;
this.done();
};
Test.prototype.done = function()
{
if (this.phase == this.phases.COMPLETE) {
return;
} else if (this.phase <= this.phases.STARTED)
{
this.set_status(this.PASS, null);
}
if (this.status == this.NOTRUN)
{
alert(this.phase);
}
this.phase = this.phases.COMPLETE;
clearTimeout(this.timeout_id);
tests.result(this);
};
/*
* Harness
*/
function TestsStatus()
{
this.status = null;
this.message = null;
}
TestsStatus.statuses = {
OK:0,
ERROR:1,
TIMEOUT:2
};
TestsStatus.prototype = merge({}, TestsStatus.statuses);
TestsStatus.prototype.structured_clone = function()
{
if(!this._structured_clone)
{
var msg = this.message;
msg = msg ? String(msg) : msg;
this._structured_clone = merge({
status:this.status,
message:msg
}, TestsStatus.statuses);
}
return this._structured_clone;
};
function Tests()
{
this.tests = [];
this.num_pending = 0;
this.phases = {
INITIAL:0,
SETUP:1,
HAVE_TESTS:2,
HAVE_RESULTS:3,
COMPLETE:4
};
this.phase = this.phases.INITIAL;
this.properties = {};
//All tests can't be done until the load event fires
this.all_loaded = false;
this.wait_for_finish = false;
this.processing_callbacks = false;
this.allow_uncaught_exception = false;
this.timeout_multiplier = 1;
this.timeout_length = this.get_timeout();
this.timeout_id = null;
this.start_callbacks = [];
this.test_done_callbacks = [];
this.all_done_callbacks = [];
this.status = new TestsStatus();
var this_obj = this;
on_event(window, "load",
function()
{
this_obj.all_loaded = true;
if (this_obj.all_done())
{
this_obj.complete();
}
});
this.set_timeout();
}
Tests.prototype.setup = function(func, properties)
{
if (this.phase >= this.phases.HAVE_RESULTS)
{
return;
}
if (this.phase < this.phases.SETUP)
{
this.phase = this.phases.SETUP;
}
this.properties = properties;
for (var p in properties)
{
if (properties.hasOwnProperty(p))
{
var value = properties[p]
if (p == "allow_uncaught_exception") {
this.allow_uncaught_exception = value;
}
else if (p == "explicit_done" && value)
{
this.wait_for_finish = true;
}
else if (p == "explicit_timeout" && value) {
this.timeout_length = null;
if (this.timeout_id)
{
clearTimeout(this.timeout_id);
}
}
else if (p == "timeout_multiplier")
{
this.timeout_multiplier = value;
}
}
}
if (func)
{
try
{
func();
} catch(e)
{
this.status.status = this.status.ERROR;
this.status.message = e;
};
}
this.set_timeout();
};
Tests.prototype.get_timeout = function()
{
var metas = document.getElementsByTagName("meta");
for (var i=0; i<metas.length; i++)
{
if (metas[i].name == "timeout")
{
if (metas[i].content == "long")
{
return settings.harness_timeout.long;
}
break;
}
}
return settings.harness_timeout.normal;
}
Tests.prototype.set_timeout = function()
{
var this_obj = this;
clearTimeout(this.timeout_id);
if (this.timeout_length !== null)
{
this.timeout_id = setTimeout(function() {
this_obj.timeout();
}, this.timeout_length);
}
};
Tests.prototype.timeout = function() {
this.status.status = this.status.TIMEOUT;
this.complete();
};
Tests.prototype.end_wait = function()
{
this.wait_for_finish = false;
if (this.all_done()) {
this.complete();
}
};
Tests.prototype.push = function(test)
{
if (this.phase < this.phases.HAVE_TESTS) {
this.start();
}
this.num_pending++;
this.tests.push(test);
};
Tests.prototype.all_done = function() {
return (this.all_loaded && this.num_pending === 0 &&
!this.wait_for_finish && !this.processing_callbacks);
};
Tests.prototype.start = function() {
this.phase = this.phases.HAVE_TESTS;
this.notify_start();
};
Tests.prototype.notify_start = function() {
var this_obj = this;
forEach (this.start_callbacks,
function(callback)
{
callback(this_obj.properties);
});
forEach_windows(
function(w, is_same_origin)
{
if(is_same_origin && w.start_callback)
{
try
{
w.start_callback(this_obj.properties);
}
catch(e)
{
if (debug)
{
throw(e);
}
}
}
if (supports_post_message(w) && w !== self)
{
w.postMessage({
type: "start",
properties: this_obj.properties
}, "*");
}
});
};
Tests.prototype.result = function(test)
{
if (this.phase > this.phases.HAVE_RESULTS)
{
return;
}
this.phase = this.phases.HAVE_RESULTS;
this.num_pending--;
this.notify_result(test);
};
Tests.prototype.notify_result = function(test) {
var this_obj = this;
this.processing_callbacks = true;
forEach(this.test_done_callbacks,
function(callback)
{
callback(test, this_obj);
});
forEach_windows(
function(w, is_same_origin)
{
if(is_same_origin && w.result_callback)
{
try
{
w.result_callback(test);
}
catch(e)
{
if(debug) {
throw e;
}
}
}
if (supports_post_message(w) && w !== self)
{
w.postMessage({
type: "result",
test: test.structured_clone()
}, "*");
}
});
this.processing_callbacks = false;
if (this_obj.all_done())
{
this_obj.complete();
}
};
Tests.prototype.complete = function() {
if (this.phase === this.phases.COMPLETE) {
return;
}
this.phase = this.phases.COMPLETE;
var this_obj = this;
this.tests.forEach(
function(x)
{
if(x.status === x.NOTRUN)
{
this_obj.notify_result(x);
}
}
);
this.notify_complete();
};
Tests.prototype.notify_complete = function()
{
clearTimeout(this.timeout_id);
var this_obj = this;
var tests = map(this_obj.tests,
function(test)
{
return test.structured_clone();
});
if (this.status.status === null)
{
this.status.status = this.status.OK;
}
forEach (this.all_done_callbacks,
function(callback)
{
callback(this_obj.tests, this_obj.status);
});
forEach_windows(
function(w, is_same_origin)
{
if(is_same_origin && w.completion_callback)
{
try
{
w.completion_callback(this_obj.tests, this_obj.status);
}
catch(e)
{
if (debug)
{
throw e;
}
}
}
if (supports_post_message(w) && w !== self)
{
w.postMessage({
type: "complete",
tests: tests,
status: this_obj.status.structured_clone()
}, "*");
}
});
};
var tests = new Tests();
window.onerror = function(msg) {
if (!tests.allow_uncaught_exception)
{
tests.status.status = tests.status.ERROR;
tests.status.message = msg;
tests.complete();
}
}
function timeout() {
if (tests.timeout_length === null)
{
tests.timeout();
}
}
expose(timeout, 'timeout');
function add_start_callback(callback) {
tests.start_callbacks.push(callback);
}
function add_result_callback(callback)
{
tests.test_done_callbacks.push(callback);
}
function add_completion_callback(callback)
{
tests.all_done_callbacks.push(callback);
}
expose(add_start_callback, 'add_start_callback');
expose(add_result_callback, 'add_result_callback');
expose(add_completion_callback, 'add_completion_callback');
/*
* Output listener
*/
function Output() {
this.output_document = document;
this.output_node = null;
this.done_count = 0;
this.enabled = settings.output;
this.phase = this.INITIAL;
}
Output.prototype.INITIAL = 0;
Output.prototype.STARTED = 1;
Output.prototype.HAVE_RESULTS = 2;
Output.prototype.COMPLETE = 3;
Output.prototype.setup = function(properties) {
if (this.phase > this.INITIAL) {
return;
}
//If output is disabled in testharnessreport.js the test shouldn't be
//able to override that
this.enabled = this.enabled && (properties.hasOwnProperty("output") ?
properties.output : settings.output);
};
Output.prototype.init = function(properties)
{
if (this.phase >= this.STARTED) {
return;
}
if (properties.output_document) {
this.output_document = properties.output_document;
} else {
this.output_document = document;
}
this.phase = this.STARTED;
};
Output.prototype.resolve_log = function()
{
var output_document;
if (typeof this.output_document === "function")
{
output_document = this.output_document.apply(undefined);
} else
{
output_document = this.output_document;
}
if (!output_document)
{
return;
}
var node = output_document.getElementById("log");
if (node)
{
this.output_document = output_document;
this.output_node = node;
}
};
Output.prototype.show_status = function(test)
{
if (this.phase < this.STARTED)
{
this.init();
}
if (!this.enabled)
{
return;
}
if (this.phase < this.HAVE_RESULTS)
{
this.resolve_log();
this.phase = this.HAVE_RESULTS;
}
this.done_count++;
if (this.output_node)
{
if (this.done_count < 100
|| (this.done_count < 1000 && this.done_count % 100 == 0)
|| this.done_count % 1000 == 0) {
this.output_node.textContent = "Running, "
+ this.done_count + " complete, "
+ tests.num_pending + " remain";
}
}
};
Output.prototype.show_results = function (tests, harness_status)
{
if (this.phase >= this.COMPLETE) {
return;
}
if (!this.enabled)
{
return;
}
if (!this.output_node) {
this.resolve_log();
}
this.phase = this.COMPLETE;
var log = this.output_node;
if (!log)
{
return;
}
var output_document = this.output_document;
while (log.lastChild)
{
log.removeChild(log.lastChild);
}
if (script_prefix != null) {
var stylesheet = output_document.createElementNS(xhtml_ns, "link");
stylesheet.setAttribute("rel", "stylesheet");
stylesheet.setAttribute("href", script_prefix + "testharness.css");
var heads = output_document.getElementsByTagName("head");
if (heads.length) {
heads[0].appendChild(stylesheet);
}
}
var status_text_harness = {};
status_text_harness[harness_status.OK] = "OK";
status_text_harness[harness_status.ERROR] = "Error";
status_text_harness[harness_status.TIMEOUT] = "Timeout";
var status_text = {};
status_text[Test.prototype.PASS] = "Pass";
status_text[Test.prototype.FAIL] = "Fail";
status_text[Test.prototype.TIMEOUT] = "Timeout";
status_text[Test.prototype.NOTRUN] = "Not Run";
var status_number = {};
forEach(tests, function(test) {
var status = status_text[test.status];
if (status_number.hasOwnProperty(status))
{
status_number[status] += 1;
} else {
status_number[status] = 1;
}
});
function status_class(status)
{
return status.replace(/\s/g, '').toLowerCase();
}
var summary_template = ["section", {"id":"summary"},
["h2", {}, "Summary"],
function(vars)
{
if (harness_status.status === harness_status.OK)
{
return null;
}
else
{
var status = status_text_harness[harness_status.status];
var rv = [["p", {"class":status_class(status)}]];
if (harness_status.status === harness_status.ERROR)
{
rv[0].push("Harness encountered an error:");
rv.push(["pre", {}, harness_status.message]);
}
else if (harness_status.status === harness_status.TIMEOUT)
{
rv[0].push("Harness timed out.");
}
else
{
rv[0].push("Harness got an unexpected status.");
}
return rv;
}
},
["p", {}, "Found ${num_tests} tests"],
function(vars) {
var rv = [["div", {}]];
var i=0;
while (status_text.hasOwnProperty(i)) {
if (status_number.hasOwnProperty(status_text[i])) {
var status = status_text[i];
rv[0].push(["div", {"class":status_class(status)},
["label", {},
["input", {type:"checkbox", checked:"checked"}],
status_number[status] + " " + status]]);
}
i++;
}
return rv;
}];
log.appendChild(render(summary_template, {num_tests:tests.length}, output_document));
forEach(output_document.querySelectorAll("section#summary label"),
function(element)
{
on_event(element, "click",
function(e)
{
if (output_document.getElementById("results") === null)
{
e.preventDefault();
return;
}
var result_class = element.parentNode.getAttribute("class");
var style_element = output_document.querySelector("style#hide-" + result_class);
var input_element = element.querySelector("input");
if (!style_element && !input_element.checked) {
style_element = output_document.createElementNS(xhtml_ns, "style");
style_element.id = "hide-" + result_class;
style_element.textContent = "table#results > tbody > tr."+result_class+"{display:none}";
output_document.body.appendChild(style_element);
} else if (style_element && input_element.checked) {
style_element.parentNode.removeChild(style_element);
}
});
});
// This use of innerHTML plus manual escaping is not recommended in
// general, but is necessary here for performance. Using textContent
// on each individual <td> adds tens of seconds of execution time for
// large test suites (tens of thousands of tests).
function escape_html(s)
{
return s.replace(/\&/g, "&amp;")
.replace(/</g, "&lt;")
.replace(/"/g, "&quot;")
.replace(/'/g, "&#39;");
}
function has_assertions()
{
for (var i = 0; i < tests.length; i++) {
if (tests[i].properties.hasOwnProperty("assert")) {
return true;
}
}
return false;
}
function get_assertion(test)
{
if (test.properties.hasOwnProperty("assert")) {
if (Array.isArray(test.properties.assert)) {
return test.properties.assert.join(' ');
}
return test.properties.assert;
}
return '';
}
log.appendChild(document.createElementNS(xhtml_ns, "section"));
var assertions = has_assertions();
var html = "<h2>Details</h2><table id='results' " + (assertions ? "class='assertions'" : "" ) + ">"
+ "<thead><tr><th>Result</th><th>Test Name</th>"
+ (assertions ? "<th>Assertion</th>" : "")
+ "<th>Message</th></tr></thead>"
+ "<tbody>";
for (var i = 0; i < tests.length; i++) {
html += '<tr class="'
+ escape_html(status_class(status_text[tests[i].status]))
+ '"><td>'
+ escape_html(status_text[tests[i].status])
+ "</td><td>"
+ escape_html(tests[i].name)
+ "</td><td>"
+ (assertions ? escape_html(get_assertion(tests[i])) + "</td><td>" : "")
+ escape_html(tests[i].message ? tests[i].message : " ")
+ "</td></tr>";
}
html += "</tbody></table>";
try {
log.lastChild.innerHTML = html;
} catch (e) {
log.appendChild(document.createElementNS(xhtml_ns, "p"))
.textContent = "Setting innerHTML for the log threw an exception.";
log.appendChild(document.createElementNS(xhtml_ns, "pre"))
.textContent = html;
}
};
var output = new Output();
add_start_callback(function (properties) {output.init(properties);});
add_result_callback(function (test) {output.show_status(tests);});
add_completion_callback(function (tests, harness_status) {output.show_results(tests, harness_status);});
/*
* Template code
*
* A template is just a javascript structure. An element is represented as:
*
* [tag_name, {attr_name:attr_value}, child1, child2]
*
* the children can either be strings (which act like text nodes), other templates or
* functions (see below)
*
* A text node is represented as
*
* ["{text}", value]
*
* String values have a simple substitution syntax; ${foo} represents a variable foo.
*
* It is possible to embed logic in templates by using a function in a place where a
* node would usually go. The function must either return part of a template or null.
*
* In cases where a set of nodes are required as output rather than a single node
* with children it is possible to just use a list
* [node1, node2, node3]
*
* Usage:
*
* render(template, substitutions) - take a template and an object mapping
* variable names to parameters and return either a DOM node or a list of DOM nodes
*
* substitute(template, substitutions) - take a template and variable mapping object,
* make the variable substitutions and return the substituted template
*
*/
function is_single_node(template)
{
return typeof template[0] === "string";
}
function substitute(template, substitutions)
{
if (typeof template === "function") {
var replacement = template(substitutions);
if (replacement)
{
var rv = substitute(replacement, substitutions);
return rv;
}
else
{
return null;
}
}
else if (is_single_node(template))
{
return substitute_single(template, substitutions);
}
else
{
return filter(map(template, function(x) {
return substitute(x, substitutions);
}), function(x) {return x !== null;});
}
}
function substitute_single(template, substitutions)
{
var substitution_re = /\${([^ }]*)}/g;
function do_substitution(input) {
var components = input.split(substitution_re);
var rv = [];
for (var i=0; i<components.length; i+=2)
{
rv.push(components[i]);
if (components[i+1])
{
rv.push(String(substitutions[components[i+1]]));
}
}
return rv;
}
var rv = [];
rv.push(do_substitution(String(template[0])).join(""));
if (template[0] === "{text}") {
substitute_children(template.slice(1), rv);
} else {
substitute_attrs(template[1], rv);
substitute_children(template.slice(2), rv);
}
function substitute_attrs(attrs, rv)
{
rv[1] = {};
for (var name in template[1])
{
if (attrs.hasOwnProperty(name))
{
var new_name = do_substitution(name).join("");
var new_value = do_substitution(attrs[name]).join("");
rv[1][new_name] = new_value;
};
}
}
function substitute_children(children, rv)
{
for (var i=0; i<children.length; i++)
{
if (children[i] instanceof Object) {
var replacement = substitute(children[i], substitutions);
if (replacement !== null)
{
if (is_single_node(replacement))
{
rv.push(replacement);
}
else
{
extend(rv, replacement);
}
}
}
else
{
extend(rv, do_substitution(String(children[i])));
}
}
return rv;
}
return rv;
}
function make_dom_single(template, doc)
{
var output_document = doc || document;
if (template[0] === "{text}")
{
var element = output_document.createTextNode("");
for (var i=1; i<template.length; i++)
{
element.data += template[i];
}
}
else
{
var element = output_document.createElementNS(xhtml_ns, template[0]);
for (var name in template[1]) {
if (template[1].hasOwnProperty(name))
{
element.setAttribute(name, template[1][name]);
}
}
for (var i=2; i<template.length; i++)
{
if (template[i] instanceof Object)
{
var sub_element = make_dom(template[i]);
element.appendChild(sub_element);
}
else
{
var text_node = output_document.createTextNode(template[i]);
element.appendChild(text_node);
}
}
}
return element;
}
function make_dom(template, substitutions, output_document)
{
if (is_single_node(template))
{
return make_dom_single(template, output_document);
}
else
{
return map(template, function(x) {
return make_dom_single(x, output_document);
});
}
}
function render(template, substitutions, output_document)
{
return make_dom(substitute(template, substitutions), output_document);
}
/*
* Utility funcions
*/
function assert(expected_true, function_name, description, error, substitutions)
{
if (expected_true !== true)
{
throw new AssertionError(make_message(function_name, description,
error, substitutions));
}
}
function AssertionError(message)
{
this.message = message;
}
function make_message(function_name, description, error, substitutions)
{
for (var p in substitutions) {
if (substitutions.hasOwnProperty(p)) {
substitutions[p] = format_value(substitutions[p]);
}
}
var node_form = substitute(["{text}", "${function_name}: ${description}" + error],
merge({function_name:function_name,
description:(description?description + " ":"")},
substitutions));
return node_form.slice(1).join("");
}
function filter(array, callable, thisObj) {
var rv = [];
for (var i=0; i<array.length; i++)
{
if (array.hasOwnProperty(i))
{
var pass = callable.call(thisObj, array[i], i, array);
if (pass) {
rv.push(array[i]);
}
}
}
return rv;
}
function map(array, callable, thisObj)
{
var rv = [];
rv.length = array.length;
for (var i=0; i<array.length; i++)
{
if (array.hasOwnProperty(i))
{
rv[i] = callable.call(thisObj, array[i], i, array);
}
}
return rv;
}
function extend(array, items)
{
Array.prototype.push.apply(array, items);
}
function forEach (array, callback, thisObj)
{
for (var i=0; i<array.length; i++)
{
if (array.hasOwnProperty(i))
{
callback.call(thisObj, array[i], i, array);
}
}
}
function merge(a,b)
{
var rv = {};
var p;
for (p in a)
{
rv[p] = a[p];
}
for (p in b) {
rv[p] = b[p];
}
return rv;
}
function expose(object, name)
{
var components = name.split(".");
var target = window;
for (var i=0; i<components.length - 1; i++)
{
if (!(components[i] in target))
{
target[components[i]] = {};
}
target = target[components[i]];
}
target[components[components.length - 1]] = object;
}
function forEach_windows(callback) {
// Iterate of the the windows [self ... top, opener]. The callback is passed
// two objects, the first one is the windows object itself, the second one
// is a boolean indicating whether or not its on the same origin as the
// current window.
var cache = forEach_windows.result_cache;
if (!cache) {
cache = [[self, true]];
var w = self;
var i = 0;
var so;
var origins = location.ancestorOrigins;
while (w != w.parent)
{
w = w.parent;
// In WebKit, calls to parent windows' properties that aren't on the same
// origin cause an error message to be displayed in the error console but
// don't throw an exception. This is a deviation from the current HTML5
// spec. See: https://bugs.webkit.org/show_bug.cgi?id=43504
// The problem with WebKit's behavior is that it pollutes the error console
// with error messages that can't be caught.
//
// This issue can be mitigated by relying on the (for now) proprietary
// `location.ancestorOrigins` property which returns an ordered list of
// the origins of enclosing windows. See:
// http://trac.webkit.org/changeset/113945.
if(origins) {
so = (location.origin == origins[i]);
}
else
{
so = is_same_origin(w);
}
cache.push([w, so]);
i++;
}
w = window.opener;
if(w)
{
// window.opener isn't included in the `location.ancestorOrigins` prop.
// We'll just have to deal with a simple check and an error msg on WebKit
// browsers in this case.
cache.push([w, is_same_origin(w)]);
}
forEach_windows.result_cache = cache;
}
forEach(cache,
function(a)
{
callback.apply(null, a);
});
}
function is_same_origin(w) {
try {
'random_prop' in w;
return true;
} catch(e) {
return false;
}
}
function supports_post_message(w)
{
var supports;
var type;
// Given IE implements postMessage across nested iframes but not across
// windows or tabs, you can't infer cross-origin communication from the presence
// of postMessage on the current window object only.
//
// Touching the postMessage prop on a window can throw if the window is
// not from the same origin AND post message is not supported in that
// browser. So just doing an existence test here won't do, you also need
// to wrap it in a try..cacth block.
try
{
type = typeof w.postMessage;
if (type === "function")
{
supports = true;
}
// IE8 supports postMessage, but implements it as a host object which
// returns "object" as its `typeof`.
else if (type === "object")
{
supports = true;
}
// This is the case where postMessage isn't supported AND accessing a
// window property across origins does NOT throw (e.g. old Safari browser).
else
{
supports = false;
}
}
catch(e) {
// This is the case where postMessage isn't supported AND accessing a
// window property across origins throws (e.g. old Firefox browser).
supports = false;
}
return supports;
}
})();
// vim: set expandtab shiftwidth=4 tabstop=4: