gecko-dev/dom/imptests/idlharness.js
Marcos Cáceres 0f403e17c7 Bug 1735098 - Implement EpochTimeStamp from HR-Time r=edgar
Add the EpochTimeStamp, which can be used to incrementally rename/remove DOMTimeStamp. See also https://github.com/w3c/hr-time/pull/124 and https://github.com/whatwg/webidl/pull/1021

Differential Revision: https://phabricator.services.mozilla.com/D128030
2021-11-16 08:50:37 +00:00

1686 lines
64 KiB
JavaScript
Raw Blame History

This file contains ambiguous Unicode characters

This file contains Unicode characters that might be confused with other characters. If you think that this is intentional, you can safely ignore this warning. Use the Escape button to reveal them.

/*
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
*/
/* For user documentation see docs/idlharness.md */
/**
* Notes for people who want to edit this file (not just use it as a library):
*
* Most of the interesting stuff happens in the derived classes of IdlObject,
* especially IdlInterface. The entry point for all IdlObjects is .test(),
* which is called by IdlArray.test(). An IdlObject is conceptually just
* "thing we want to run tests on", and an IdlArray is an array of IdlObjects
* with some additional data thrown in.
*
* The object model is based on what WebIDLParser.js produces, which is in turn
* based on its pegjs grammar. If you want to figure out what properties an
* object will have from WebIDLParser.js, the best way is to look at the
* grammar:
*
* https://github.com/darobin/webidl.js/blob/master/lib/grammar.peg
*
* So for instance:
*
* // interface definition
* interface
* = extAttrs:extendedAttributeList? S? "interface" S name:identifier w herit:ifInheritance? w "{" w mem:ifMember* w "}" w ";" w
* { return { type: "interface", name: name, inheritance: herit, members: mem, extAttrs: extAttrs }; }
*
* This means that an "interface" object will have a .type property equal to
* the string "interface", a .name property equal to the identifier that the
* parser found, an .inheritance property equal to either null or the result of
* the "ifInheritance" production found elsewhere in the grammar, and so on.
* After each grammatical production is a JavaScript function in curly braces
* that gets called with suitable arguments and returns some JavaScript value.
*
* (Note that the version of WebIDLParser.js we use might sometimes be
* out-of-date or forked.)
*
* The members and methods of the classes defined by this file are all at least
* briefly documented, hopefully.
*/
(function(){
"use strict";
/// Helpers ///
function constValue (cnt) {
if (cnt.type === "null") return null;
if (cnt.type === "NaN") return NaN;
if (cnt.type === "Infinity") return cnt.negative ? -Infinity : Infinity;
return cnt.value;
}
function minOverloadLength(overloads) {
if (!overloads.length) {
return 0;
}
return overloads.map(function(attr) {
return attr.arguments ? attr.arguments.filter(function(arg) {
return !arg.optional && !arg.variadic;
}).length : 0;
})
.reduce(function(m, n) { return Math.min(m, n); });
}
/// IdlArray ///
// Entry point
self.IdlArray = function()
//@{
{
/**
* A map from strings to the corresponding named IdlObject, such as
* IdlInterface or IdlException. These are the things that test() will run
* tests on.
*/
this.members = {};
/**
* A map from strings to arrays of strings. The keys are interface or
* exception names, and are expected to also exist as keys in this.members
* (otherwise they'll be ignored). This is populated by add_objects() --
* see documentation at the start of the file. The actual tests will be
* run by calling this.members[name].test_object(obj) for each obj in
* this.objects[name]. obj is a string that will be eval'd to produce a
* JavaScript value, which is supposed to be an object implementing the
* given IdlObject (interface, exception, etc.).
*/
this.objects = {};
/**
* When adding multiple collections of IDLs one at a time, an earlier one
* might contain a partial interface or implements statement that depends
* on a later one. Save these up and handle them right before we run
* tests.
*
* .partials is simply an array of objects from WebIDLParser.js'
* "partialinterface" production. .implements maps strings to arrays of
* strings, such that
*
* A implements B;
* A implements C;
* D implements E;
*
* results in { A: ["B", "C"], D: ["E"] }.
*/
this.partials = [];
this["implements"] = {};
};
//@}
IdlArray.prototype.add_idls = function(raw_idls)
//@{
{
/** Entry point. See documentation at beginning of file. */
this.internal_add_idls(WebIDL2.parse(raw_idls));
};
//@}
IdlArray.prototype.add_untested_idls = function(raw_idls)
//@{
{
/** Entry point. See documentation at beginning of file. */
var parsed_idls = WebIDL2.parse(raw_idls);
for (var i = 0; i < parsed_idls.length; i++)
{
parsed_idls[i].untested = true;
if ("members" in parsed_idls[i])
{
for (var j = 0; j < parsed_idls[i].members.length; j++)
{
parsed_idls[i].members[j].untested = true;
}
}
}
this.internal_add_idls(parsed_idls);
};
//@}
IdlArray.prototype.internal_add_idls = function(parsed_idls)
//@{
{
/**
* Internal helper called by add_idls() and add_untested_idls().
* parsed_idls is an array of objects that come from WebIDLParser.js's
* "definitions" production. The add_untested_idls() entry point
* additionally sets an .untested property on each object (and its
* .members) so that they'll be skipped by test() -- they'll only be
* used for base interfaces of tested interfaces, return types, etc.
*/
parsed_idls.forEach(parsed_idl => {
if (parsed_idl.type == "interface" && parsed_idl.partial)
{
this.partials.push(parsed_idl);
return;
}
if (parsed_idl.type == "implements")
{
if (!(parsed_idl.target in this["implements"]))
{
this["implements"][parsed_idl.target] = [];
}
this["implements"][parsed_idl.target].push(parsed_idl["implements"]);
return;
}
parsed_idl.array = this;
if (parsed_idl.name in this.members)
{
throw "Duplicate identifier " + parsed_idl.name;
}
switch(parsed_idl.type)
{
case "interface":
this.members[parsed_idl.name] =
new IdlInterface(parsed_idl, /* is_callback = */ false);
break;
case "dictionary":
// Nothing to test, but we need the dictionary info around for type
// checks
this.members[parsed_idl.name] = new IdlDictionary(parsed_idl);
break;
case "typedef":
this.members[parsed_idl.name] = new IdlTypedef(parsed_idl);
break;
case "callback":
// TODO
console.log("callback not yet supported");
break;
case "enum":
this.members[parsed_idl.name] = new IdlEnum(parsed_idl);
break;
case "callback interface":
this.members[parsed_idl.name] =
new IdlInterface(parsed_idl, /* is_callback = */ true);
break;
default:
throw parsed_idl.name + ": " + parsed_idl.type + " not yet supported";
}
});
};
//@}
IdlArray.prototype.add_objects = function(dict)
//@{
{
/** Entry point. See documentation at beginning of file. */
for (var k in dict)
{
if (k in this.objects)
{
this.objects[k] = this.objects[k].concat(dict[k]);
}
else
{
this.objects[k] = dict[k];
}
}
};
//@}
IdlArray.prototype.prevent_multiple_testing = function(name)
//@{
{
/** Entry point. See documentation at beginning of file. */
this.members[name].prevent_multiple_testing = true;
};
//@}
IdlArray.prototype.recursively_get_implements = function(interface_name)
//@{
{
/**
* Helper function for test(). Returns an array of things that implement
* interface_name, so if the IDL contains
*
* A implements B;
* B implements C;
* B implements D;
*
* then recursively_get_implements("A") should return ["B", "C", "D"].
*/
var ret = this["implements"][interface_name];
if (ret === undefined)
{
return [];
}
for (var i = 0; i < this["implements"][interface_name].length; i++)
{
ret = ret.concat(this.recursively_get_implements(ret[i]));
if (ret.indexOf(ret[i]) != ret.lastIndexOf(ret[i]))
{
throw "Circular implements statements involving " + ret[i];
}
}
return ret;
};
//@}
IdlArray.prototype.test = function()
//@{
{
/** Entry point. See documentation at beginning of file. */
// First merge in all the partial interfaces and implements statements we
// encountered.
this.partials.forEach(parsed_idl => {
if (!(parsed_idl.name in this.members)
|| !(this.members[parsed_idl.name] instanceof IdlInterface))
{
throw "Partial interface " + parsed_idl.name + " with no original interface";
}
if (parsed_idl.extAttrs)
{
parsed_idl.extAttrs.forEach(extAttr => {
this.members[parsed_idl.name].extAttrs.push(extAttr);
});
}
parsed_idl.members.forEach(member => {
this.members[parsed_idl.name].members.push(new IdlInterfaceMember(member));
});
});
this.partials = [];
for (var lhs in this["implements"])
{
this.recursively_get_implements(lhs).forEach(rhs => {
var errStr = lhs + " implements " + rhs + ", but ";
if (!(lhs in this.members)) throw errStr + lhs + " is undefined.";
if (!(this.members[lhs] instanceof IdlInterface)) throw errStr + lhs + " is not an interface.";
if (!(rhs in this.members)) throw errStr + rhs + " is undefined.";
if (!(this.members[rhs] instanceof IdlInterface)) throw errStr + rhs + " is not an interface.";
this.members[rhs].members.forEach(member => {
this.members[lhs].members.push(new IdlInterfaceMember(member));
});
});
}
this["implements"] = {};
// Now run test() on every member, and test_object() for every object.
for (var name in this.members)
{
this.members[name].test();
if (name in this.objects)
{
this.objects[name].forEach(str => {
this.members[name].test_object(str);
});
}
}
};
//@}
IdlArray.prototype.assert_type_is = function(value, type)
//@{
{
/**
* Helper function that tests that value is an instance of type according
* to the rules of WebIDL. value is any JavaScript value, and type is an
* object produced by WebIDLParser.js' "type" production. That production
* is fairly elaborate due to the complexity of WebIDL's types, so it's
* best to look at the grammar to figure out what properties it might have.
*/
if (type.idlType == "any")
{
// No assertions to make
return;
}
if (type.nullable && value === null)
{
// This is fine
return;
}
if (type.array)
{
// TODO: not supported yet
return;
}
if (type.sequence)
{
assert_true(Array.isArray(value), "is not array");
if (!value.length)
{
// Nothing we can do.
return;
}
this.assert_type_is(value[0], type.idlType.idlType);
return;
}
type = type.idlType;
switch(type)
{
case "void":
assert_equals(value, undefined);
return;
case "boolean":
assert_equals(typeof value, "boolean");
return;
case "byte":
assert_equals(typeof value, "number");
assert_equals(value, Math.floor(value), "not an integer");
assert_true(-128 <= value && value <= 127, "byte " + value + " not in range [-128, 127]");
return;
case "octet":
assert_equals(typeof value, "number");
assert_equals(value, Math.floor(value), "not an integer");
assert_true(0 <= value && value <= 255, "octet " + value + " not in range [0, 255]");
return;
case "short":
assert_equals(typeof value, "number");
assert_equals(value, Math.floor(value), "not an integer");
assert_true(-32768 <= value && value <= 32767, "short " + value + " not in range [-32768, 32767]");
return;
case "unsigned short":
assert_equals(typeof value, "number");
assert_equals(value, Math.floor(value), "not an integer");
assert_true(0 <= value && value <= 65535, "unsigned short " + value + " not in range [0, 65535]");
return;
case "long":
assert_equals(typeof value, "number");
assert_equals(value, Math.floor(value), "not an integer");
assert_true(-2147483648 <= value && value <= 2147483647, "long " + value + " not in range [-2147483648, 2147483647]");
return;
case "unsigned long":
assert_equals(typeof value, "number");
assert_equals(value, Math.floor(value), "not an integer");
assert_true(0 <= value && value <= 4294967295, "unsigned long " + value + " not in range [0, 4294967295]");
return;
case "long long":
assert_equals(typeof value, "number");
return;
case "unsigned long long":
case "EpochTimeStamp":
case "DOMTimeStamp":
assert_equals(typeof value, "number");
assert_true(0 <= value, "unsigned long long is negative");
return;
case "float":
case "double":
case "DOMHighResTimeStamp":
case "unrestricted float":
case "unrestricted double":
// TODO: distinguish these cases
assert_equals(typeof value, "number");
return;
case "DOMString":
case "ByteString":
case "USVString":
// TODO: https://github.com/w3c/testharness.js/issues/92
assert_equals(typeof value, "string");
return;
case "object":
assert_true(typeof value == "object" || typeof value == "function", "wrong type: not object or function");
return;
}
if (!(type in this.members))
{
throw "Unrecognized type " + type;
}
if (this.members[type] instanceof IdlInterface)
{
// We don't want to run the full
// IdlInterface.prototype.test_instance_of, because that could result
// in an infinite loop. TODO: This means we don't have tests for
// NoInterfaceObject interfaces, and we also can't test objects that
// come from another self.
assert_true(typeof value == "object" || typeof value == "function", "wrong type: not object or function");
if (value instanceof Object
&& !this.members[type].has_extended_attribute("NoInterfaceObject")
&& type in self)
{
assert_true(value instanceof self[type], "not instanceof " + type);
}
}
else if (this.members[type] instanceof IdlEnum)
{
assert_equals(typeof value, "string");
}
else if (this.members[type] instanceof IdlDictionary)
{
// TODO: Test when we actually have something to test this on
}
else if (this.members[type] instanceof IdlTypedef)
{
// TODO: Test when we actually have something to test this on
}
else
{
throw "Type " + type + " isn't an interface or dictionary";
}
};
//@}
/// IdlObject ///
function IdlObject() {}
IdlObject.prototype.test = function()
//@{
{
/**
* By default, this does nothing, so no actual tests are run for IdlObjects
* that don't define any (e.g., IdlDictionary at the time of this writing).
*/
};
//@}
IdlObject.prototype.has_extended_attribute = function(name)
//@{
{
/**
* This is only meaningful for things that support extended attributes,
* such as interfaces, exceptions, and members.
*/
return this.extAttrs.some(function(o)
{
return o.name == name;
});
};
//@}
/// IdlDictionary ///
// Used for IdlArray.prototype.assert_type_is
function IdlDictionary(obj)
//@{
{
/**
* obj is an object produced by the WebIDLParser.js "dictionary"
* production.
*/
/** Self-explanatory. */
this.name = obj.name;
/** An array of objects produced by the "dictionaryMember" production. */
this.members = obj.members;
/**
* The name (as a string) of the dictionary type we inherit from, or null
* if there is none.
*/
this.base = obj.inheritance;
}
//@}
IdlDictionary.prototype = Object.create(IdlObject.prototype);
/// IdlInterface ///
function IdlInterface(obj, is_callback) {
/**
* obj is an object produced by the WebIDLParser.js "exception" or
* "interface" production, as appropriate.
*/
/** Self-explanatory. */
this.name = obj.name;
/** A back-reference to our IdlArray. */
this.array = obj.array;
/**
* An indicator of whether we should run tests on the (exception) interface
* object and (exception) interface prototype object. Tests on members are
* controlled by .untested on each member, not this.
*/
this.untested = obj.untested;
/** An array of objects produced by the "ExtAttr" production. */
this.extAttrs = obj.extAttrs;
/** An array of IdlInterfaceMembers. */
this.members = obj.members.map(function(m){return new IdlInterfaceMember(m); });
if (this.has_extended_attribute("Unforgeable")) {
this.members
.filter(function(m) { return !m["static"] && (m.type == "attribute" || m.type == "operation"); })
.forEach(function(m) { return m.isUnforgeable = true; });
}
/**
* The name (as a string) of the type we inherit from, or null if there is
* none.
*/
this.base = obj.inheritance;
this._is_callback = is_callback;
}
IdlInterface.prototype = Object.create(IdlObject.prototype);
IdlInterface.prototype.is_callback = function()
//@{
{
return this._is_callback;
};
//@}
IdlInterface.prototype.has_constants = function()
//@{
{
return this.members.some(function(member) {
return member.type === "const";
});
};
//@}
IdlInterface.prototype.is_global = function()
//@{
{
return this.extAttrs.some(function(attribute) {
return attribute.name === "Global" ||
attribute.name === "PrimaryGlobal";
});
};
//@}
IdlInterface.prototype.test = function()
//@{
{
if (this.has_extended_attribute("NoInterfaceObject"))
{
// No tests to do without an instance. TODO: We should still be able
// to run tests on the prototype object, if we obtain one through some
// other means.
return;
}
if (!this.untested)
{
// First test things to do with the exception/interface object and
// exception/interface prototype object.
this.test_self();
}
// Then test things to do with its members (constants, fields, attributes,
// operations, . . .). These are run even if .untested is true, because
// members might themselves be marked as .untested. This might happen to
// interfaces if the interface itself is untested but a partial interface
// that extends it is tested -- then the interface itself and its initial
// members will be marked as untested, but the members added by the partial
// interface are still tested.
this.test_members();
};
//@}
IdlInterface.prototype.test_self = function()
//@{
{
test(() => {
// This function tests WebIDL as of 2015-01-13.
// TODO: Consider [Exposed].
// "For every interface that is exposed in a given ECMAScript global
// environment and:
// * is a callback interface that has constants declared on it, or
// * is a non-callback interface that is not declared with the
// [NoInterfaceObject] extended attribute,
// a corresponding property MUST exist on the ECMAScript global object.
// The name of the property is the identifier of the interface, and its
// value is an object called the interface object.
// The property has the attributes { [[Writable]]: true,
// [[Enumerable]]: false, [[Configurable]]: true }."
if (this.is_callback() && !this.has_constants()) {
return;
}
// TODO: Should we test here that the property is actually writable
// etc., or trust getOwnPropertyDescriptor?
assert_own_property(self, this.name,
"self does not have own property " + format_value(this.name));
var desc = Object.getOwnPropertyDescriptor(self, this.name);
assert_false("get" in desc, "self's property " + format_value(this.name) + " has getter");
assert_false("set" in desc, "self's property " + format_value(this.name) + " has setter");
assert_true(desc.writable, "self's property " + format_value(this.name) + " is not writable");
assert_false(desc.enumerable, "self's property " + format_value(this.name) + " is enumerable");
assert_true(desc.configurable, "self's property " + format_value(this.name) + " is not configurable");
if (this.is_callback()) {
// "The internal [[Prototype]] property of an interface object for
// a callback interface MUST be the Object.prototype object."
assert_equals(Object.getPrototypeOf(self[this.name]), Object.prototype,
"prototype of self's property " + format_value(this.name) + " is not Object.prototype");
return;
}
// "The interface object for a given non-callback interface is a
// function object."
// "If an object is defined to be a function object, then it has
// characteristics as follows:"
// Its [[Prototype]] internal property is otherwise specified (see
// below).
// "* Its [[Get]] internal property is set as described in ECMA-262
// section 9.1.8."
// Not much to test for this.
// "* Its [[Construct]] internal property is set as described in
// ECMA-262 section 19.2.2.3."
// Tested below if no constructor is defined. TODO: test constructors
// if defined.
// "* Its @@hasInstance property is set as described in ECMA-262
// section 19.2.3.8, unless otherwise specified."
// TODO
// ES6 (rev 30) 19.1.3.6:
// "Else, if O has a [[Call]] internal method, then let builtinTag be
// "Function"."
assert_class_string(self[this.name], "Function", "class string of " + this.name);
// "The [[Prototype]] internal property of an interface object for a
// non-callback interface is determined as follows:"
var prototype = Object.getPrototypeOf(self[this.name]);
if (this.base) {
// "* If the interface inherits from some other interface, the
// value of [[Prototype]] is the interface object for that other
// interface."
var has_interface_object =
!this.array
.members[this.base]
.has_extended_attribute("NoInterfaceObject");
if (has_interface_object) {
assert_own_property(self, this.base,
'should inherit from ' + this.base +
', but self has no such property');
assert_equals(prototype, self[this.base],
'prototype of ' + this.name + ' is not ' +
this.base);
}
} else {
// "If the interface doesn't inherit from any other interface, the
// value of [[Prototype]] is %FunctionPrototype% ([ECMA-262],
// section 6.1.7.4)."
assert_equals(prototype, Function.prototype,
"prototype of self's property " + format_value(this.name) + " is not Function.prototype");
}
if (!this.has_extended_attribute("Constructor")) {
// "The internal [[Call]] method of the interface object behaves as
// follows . . .
//
// "If I was not declared with a [Constructor] extended attribute,
// then throw a TypeError."
assert_throws(new TypeError(), () => {
self[this.name]();
}, "interface object didn't throw TypeError when called as a function");
assert_throws(new TypeError(), () => {
new self[this.name]();
}, "interface object didn't throw TypeError when called as a constructor");
}
}, this.name + " interface: existence and properties of interface object");
if (!this.is_callback()) {
test(() => {
// This function tests WebIDL as of 2014-10-25.
// https://heycam.github.io/webidl/#es-interface-call
assert_own_property(self, this.name,
"self does not have own property " + format_value(this.name));
// "Interface objects for non-callback interfaces MUST have a
// property named “length” with attributes { [[Writable]]: false,
// [[Enumerable]]: false, [[Configurable]]: true } whose value is
// a Number."
assert_own_property(self[this.name], "length");
var desc = Object.getOwnPropertyDescriptor(self[this.name], "length");
assert_false("get" in desc, this.name + ".length has getter");
assert_false("set" in desc, this.name + ".length has setter");
assert_false(desc.writable, this.name + ".length is writable");
assert_false(desc.enumerable, this.name + ".length is enumerable");
assert_true(desc.configurable, this.name + ".length is not configurable");
var constructors = this.extAttrs
.filter(function(attr) { return attr.name == "Constructor"; });
var expected_length = minOverloadLength(constructors);
assert_equals(self[this.name].length, expected_length, "wrong value for " + this.name + ".length");
}, this.name + " interface object length");
}
// TODO: Test named constructors if I find any interfaces that have them.
test(() => {
// This function tests WebIDL as of 2015-01-21.
// https://heycam.github.io/webidl/#interface-object
if (this.is_callback() && !this.has_constants()) {
return;
}
assert_own_property(self, this.name,
"self does not have own property " + format_value(this.name));
if (this.is_callback()) {
assert_false("prototype" in self[this.name],
this.name + ' should not have a "prototype" property');
return;
}
// "An interface object for a non-callback interface must have a
// property named “prototype” with attributes { [[Writable]]: false,
// [[Enumerable]]: false, [[Configurable]]: false } whose value is an
// object called the interface prototype object. This object has
// properties that correspond to the regular attributes and regular
// operations defined on the interface, and is described in more detail
// in section 4.5.4 below."
assert_own_property(self[this.name], "prototype",
'interface "' + this.name + '" does not have own property "prototype"');
var desc = Object.getOwnPropertyDescriptor(self[this.name], "prototype");
assert_false("get" in desc, this.name + ".prototype has getter");
assert_false("set" in desc, this.name + ".prototype has setter");
assert_false(desc.writable, this.name + ".prototype is writable");
assert_false(desc.enumerable, this.name + ".prototype is enumerable");
assert_false(desc.configurable, this.name + ".prototype is configurable");
// Next, test that the [[Prototype]] of the interface prototype object
// is correct. (This is made somewhat difficult by the existence of
// [NoInterfaceObject].)
// TODO: Aryeh thinks there's at least other place in this file where
// we try to figure out if an interface prototype object is
// correct. Consolidate that code.
// "The interface prototype object for a given interface A must have an
// internal [[Prototype]] property whose value is returned from the
// following steps:
// "If A is declared with the [Global] or [PrimaryGlobal] extended
// attribute, and A supports named properties, then return the named
// properties object for A, as defined in section 4.5.5 below.
// "Otherwise, if A is declared to inherit from another interface, then
// return the interface prototype object for the inherited interface.
// "Otherwise, if A is declared with the [ArrayClass] extended
// attribute, then return %ArrayPrototype% ([ECMA-262], section
// 6.1.7.4).
// "Otherwise, return %ObjectPrototype% ([ECMA-262], section 6.1.7.4).
// ([ECMA-262], section 15.2.4).
if (this.name === "Window") {
assert_class_string(Object.getPrototypeOf(self[this.name].prototype),
'WindowProperties',
'Class name for prototype of Window' +
'.prototype is not "WindowProperties"');
} else {
var inherit_interface, inherit_interface_has_interface_object;
if (this.base) {
inherit_interface = this.base;
inherit_interface_has_interface_object =
!this.array
.members[inherit_interface]
.has_extended_attribute("NoInterfaceObject");
} else if (this.has_extended_attribute('ArrayClass')) {
inherit_interface = 'Array';
inherit_interface_has_interface_object = true;
} else {
inherit_interface = 'Object';
inherit_interface_has_interface_object = true;
}
if (inherit_interface_has_interface_object) {
assert_own_property(self, inherit_interface,
'should inherit from ' + inherit_interface + ', but self has no such property');
assert_own_property(self[inherit_interface], 'prototype',
'should inherit from ' + inherit_interface + ', but that object has no "prototype" property');
assert_equals(Object.getPrototypeOf(self[this.name].prototype),
self[inherit_interface].prototype,
'prototype of ' + this.name + '.prototype is not ' + inherit_interface + '.prototype');
} else {
// We can't test that we get the correct object, because this is the
// only way to get our hands on it. We only test that its class
// string, at least, is correct.
assert_class_string(Object.getPrototypeOf(self[this.name].prototype),
inherit_interface + 'Prototype',
'Class name for prototype of ' + this.name +
'.prototype is not "' + inherit_interface + 'Prototype"');
}
}
// "The class string of an interface prototype object is the
// concatenation of the interfaces identifier and the string
// “Prototype”."
assert_class_string(self[this.name].prototype, this.name + "Prototype",
"class string of " + this.name + ".prototype");
// String() should end up calling {}.toString if nothing defines a
// stringifier.
if (!this.has_stringifier()) {
assert_equals(String(self[this.name].prototype), "[object " + this.name + "Prototype]",
"String(" + this.name + ".prototype)");
}
}, this.name + " interface: existence and properties of interface prototype object");
test(() => {
if (this.is_callback() && !this.has_constants()) {
return;
}
assert_own_property(self, this.name,
"self does not have own property " + format_value(this.name));
if (this.is_callback()) {
assert_false("prototype" in self[this.name],
this.name + ' should not have a "prototype" property');
return;
}
assert_own_property(self[this.name], "prototype",
'interface "' + this.name + '" does not have own property "prototype"');
// "If the [NoInterfaceObject] extended attribute was not specified on
// the interface, then the interface prototype object must also have a
// property named “constructor” with attributes { [[Writable]]: true,
// [[Enumerable]]: false, [[Configurable]]: true } whose value is a
// reference to the interface object for the interface."
assert_own_property(self[this.name].prototype, "constructor",
this.name + '.prototype does not have own property "constructor"');
var desc = Object.getOwnPropertyDescriptor(self[this.name].prototype, "constructor");
assert_false("get" in desc, this.name + ".prototype.constructor has getter");
assert_false("set" in desc, this.name + ".prototype.constructor has setter");
assert_true(desc.writable, this.name + ".prototype.constructor is not writable");
assert_false(desc.enumerable, this.name + ".prototype.constructor is enumerable");
assert_true(desc.configurable, this.name + ".prototype.constructor in not configurable");
assert_equals(self[this.name].prototype.constructor, self[this.name],
this.name + '.prototype.constructor is not the same object as ' + this.name);
}, this.name + ' interface: existence and properties of interface prototype object\'s "constructor" property');
};
//@}
IdlInterface.prototype.test_member_const = function(member)
//@{
{
test(() => {
if (this.is_callback() && !this.has_constants()) {
return;
}
assert_own_property(self, this.name,
"self does not have own property " + format_value(this.name));
// "For each constant defined on an interface A, there must be
// a corresponding property on the interface object, if it
// exists."
assert_own_property(self[this.name], member.name);
// "The value of the property is that which is obtained by
// converting the constants IDL value to an ECMAScript
// value."
assert_equals(self[this.name][member.name], constValue(member.value),
"property has wrong value");
// "The property has attributes { [[Writable]]: false,
// [[Enumerable]]: true, [[Configurable]]: false }."
var desc = Object.getOwnPropertyDescriptor(self[this.name], member.name);
assert_false("get" in desc, "property has getter");
assert_false("set" in desc, "property has setter");
assert_false(desc.writable, "property is writable");
assert_true(desc.enumerable, "property is not enumerable");
assert_false(desc.configurable, "property is configurable");
}, this.name + " interface: constant " + member.name + " on interface object");
// "In addition, a property with the same characteristics must
// exist on the interface prototype object."
test(() => {
if (this.is_callback() && !this.has_constants()) {
return;
}
assert_own_property(self, this.name,
"self does not have own property " + format_value(this.name));
if (this.is_callback()) {
assert_false("prototype" in self[this.name],
this.name + ' should not have a "prototype" property');
return;
}
assert_own_property(self[this.name], "prototype",
'interface "' + this.name + '" does not have own property "prototype"');
assert_own_property(self[this.name].prototype, member.name);
assert_equals(self[this.name].prototype[member.name], constValue(member.value),
"property has wrong value");
var desc = Object.getOwnPropertyDescriptor(self[this.name], member.name);
assert_false("get" in desc, "property has getter");
assert_false("set" in desc, "property has setter");
assert_false(desc.writable, "property is writable");
assert_true(desc.enumerable, "property is not enumerable");
assert_false(desc.configurable, "property is configurable");
}, this.name + " interface: constant " + member.name + " on interface prototype object");
};
//@}
IdlInterface.prototype.test_member_attribute = function(member)
//@{
{
test(() => {
if (this.is_callback() && !this.has_constants()) {
return;
}
assert_own_property(self, this.name,
"self does not have own property " + format_value(this.name));
assert_own_property(self[this.name], "prototype",
'interface "' + this.name + '" does not have own property "prototype"');
if (member["static"]) {
assert_own_property(self[this.name], member.name,
"The interface object must have a property " +
format_value(member.name));
} else if (this.is_global()) {
assert_own_property(self, member.name,
"The global object must have a property " +
format_value(member.name));
assert_false(member.name in self[this.name].prototype,
"The prototype object must not have a property " +
format_value(member.name));
// Try/catch around the get here, since it can legitimately throw.
// If it does, we obviously can't check for equality with direct
// invocation of the getter.
var gotValue;
var propVal;
try {
propVal = self[member.name];
gotValue = true;
} catch (e) {
gotValue = false;
}
if (gotValue) {
var getter = Object.getOwnPropertyDescriptor(self, member.name).get;
assert_equals(typeof(getter), "function",
format_value(member.name) + " must have a getter");
assert_equals(propVal, getter.call(undefined),
"Gets on a global should not require an explicit this");
}
this.do_interface_attribute_asserts(self, member);
} else {
assert_true(member.name in self[this.name].prototype,
"The prototype object must have a property " +
format_value(member.name));
if (!member.has_extended_attribute("LenientThis")) {
assert_throws(new TypeError(), () => {
self[this.name].prototype[member.name];
}, "getting property on prototype object must throw TypeError");
} else {
assert_equals(self[this.name].prototype[member.name], undefined,
"getting property on prototype object must return undefined");
}
this.do_interface_attribute_asserts(self[this.name].prototype, member);
}
}, this.name + " interface: attribute " + member.name);
};
//@}
IdlInterface.prototype.test_member_operation = function(member)
//@{
{
test(() => {
if (this.is_callback() && !this.has_constants()) {
return;
}
assert_own_property(self, this.name,
"self does not have own property " + format_value(this.name));
if (this.is_callback()) {
assert_false("prototype" in self[this.name],
this.name + ' should not have a "prototype" property');
return;
}
assert_own_property(self[this.name], "prototype",
'interface "' + this.name + '" does not have own property "prototype"');
// "For each unique identifier of an operation defined on the
// interface, there must be a corresponding property on the
// interface prototype object (if it is a regular operation) or
// the interface object (if it is a static operation), unless
// the effective overload set for that identifier and operation
// and with an argument count of 0 (for the ECMAScript language
// binding) has no entries."
//
var memberHolderObject;
if (member["static"]) {
assert_own_property(self[this.name], member.name,
"interface object missing static operation");
memberHolderObject = self[this.name];
} else if (this.is_global()) {
assert_own_property(self, member.name,
"global object missing non-static operation");
memberHolderObject = self;
} else {
assert_own_property(self[this.name].prototype, member.name,
"interface prototype object missing non-static operation");
memberHolderObject = self[this.name].prototype;
}
this.do_member_operation_asserts(memberHolderObject, member);
}, this.name + " interface: operation " + member.name +
"(" + member.arguments.map(function(m) { return m.idlType.idlType; }) +
")");
};
//@}
IdlInterface.prototype.do_member_operation_asserts = function(memberHolderObject, member)
//@{
{
var operationUnforgeable = member.isUnforgeable;
var desc = Object.getOwnPropertyDescriptor(memberHolderObject, member.name);
// "The property has attributes { [[Writable]]: B,
// [[Enumerable]]: true, [[Configurable]]: B }, where B is false if the
// operation is unforgeable on the interface, and true otherwise".
assert_false("get" in desc, "property has getter");
assert_false("set" in desc, "property has setter");
assert_equals(desc.writable, !operationUnforgeable,
"property should be writable if and only if not unforgeable");
assert_true(desc.enumerable, "property is not enumerable");
assert_equals(desc.configurable, !operationUnforgeable,
"property should be configurable if and only if not unforgeable");
// "The value of the property is a Function object whose
// behavior is as follows . . ."
assert_equals(typeof memberHolderObject[member.name], "function",
"property must be a function");
// "The value of the Function objects “length” property is
// a Number determined as follows:
// ". . .
// "Return the length of the shortest argument list of the
// entries in S."
assert_equals(memberHolderObject[member.name].length,
minOverloadLength(this.members.filter(function(m) {
return m.type == "operation" && m.name == member.name;
})),
"property has wrong .length");
// Make some suitable arguments
var args = member.arguments.map(function(arg) {
return create_suitable_object(arg.idlType);
});
// "Let O be a value determined as follows:
// ". . .
// "Otherwise, throw a TypeError."
// This should be hit if the operation is not static, there is
// no [ImplicitThis] attribute, and the this value is null.
//
// TODO: We currently ignore the [ImplicitThis] case. Except we manually
// check for globals, since otherwise we'll invoke window.close(). And we
// have to skip this test for anything that on the proto chain of "self",
// since that does in fact have implicit-this behavior.
if (!member["static"]) {
if (!this.is_global() &&
memberHolderObject[member.name] != self[member.name])
{
assert_throws(new TypeError(), function() {
memberHolderObject[member.name].apply(null, args);
}, "calling operation with this = null didn't throw TypeError");
}
// ". . . If O is not null and is also not a platform object
// that implements interface I, throw a TypeError."
//
// TODO: Test a platform object that implements some other
// interface. (Have to be sure to get inheritance right.)
assert_throws(new TypeError(), function() {
memberHolderObject[member.name].apply({}, args);
}, "calling operation with this = {} didn't throw TypeError");
}
}
//@}
IdlInterface.prototype.test_member_stringifier = function(member)
//@{
{
test(() => {
if (this.is_callback() && !this.has_constants()) {
return;
}
assert_own_property(self, this.name,
"self does not have own property " + format_value(this.name));
if (this.is_callback()) {
assert_false("prototype" in self[this.name],
this.name + ' should not have a "prototype" property');
return;
}
assert_own_property(self[this.name], "prototype",
'interface "' + this.name + '" does not have own property "prototype"');
// ". . . the property exists on the interface prototype object."
var interfacePrototypeObject = self[this.name].prototype;
assert_own_property(self[this.name].prototype, "toString",
"interface prototype object missing non-static operation");
var stringifierUnforgeable = member.isUnforgeable;
var desc = Object.getOwnPropertyDescriptor(interfacePrototypeObject, "toString");
// "The property has attributes { [[Writable]]: B,
// [[Enumerable]]: true, [[Configurable]]: B }, where B is false if the
// stringifier is unforgeable on the interface, and true otherwise."
assert_false("get" in desc, "property has getter");
assert_false("set" in desc, "property has setter");
assert_equals(desc.writable, !stringifierUnforgeable,
"property should be writable if and only if not unforgeable");
assert_true(desc.enumerable, "property is not enumerable");
assert_equals(desc.configurable, !stringifierUnforgeable,
"property should be configurable if and only if not unforgeable");
// "The value of the property is a Function object, which behaves as
// follows . . ."
assert_equals(typeof interfacePrototypeObject.toString, "function",
"property must be a function");
// "The value of the Function objects “length” property is the Number
// value 0."
assert_equals(interfacePrototypeObject.toString.length, 0,
"property has wrong .length");
// "Let O be the result of calling ToObject on the this value."
assert_throws(new TypeError(), function() {
self[this.name].prototype.toString.apply(null, []);
}, "calling stringifier with this = null didn't throw TypeError");
// "If O is not an object that implements the interface on which the
// stringifier was declared, then throw a TypeError."
//
// TODO: Test a platform object that implements some other
// interface. (Have to be sure to get inheritance right.)
assert_throws(new TypeError(), function() {
self[this.name].prototype.toString.apply({}, []);
}, "calling stringifier with this = {} didn't throw TypeError");
}, this.name + " interface: stringifier");
};
//@}
IdlInterface.prototype.test_members = function()
//@{
{
for (var i = 0; i < this.members.length; i++)
{
var member = this.members[i];
if (member.untested) {
continue;
}
switch (member.type) {
case "const":
this.test_member_const(member);
break;
case "attribute":
// For unforgeable attributes, we do the checks in
// test_interface_of instead.
if (!member.isUnforgeable)
{
this.test_member_attribute(member);
}
break;
case "operation":
// TODO: Need to correctly handle multiple operations with the same
// identifier.
// For unforgeable operations, we do the checks in
// test_interface_of instead.
if (member.name) {
if (!member.isUnforgeable)
{
this.test_member_operation(member);
}
} else if (member.stringifier) {
this.test_member_stringifier(member);
}
break;
default:
// TODO: check more member types.
break;
}
}
};
//@}
IdlInterface.prototype.test_object = function(desc)
//@{
{
var obj, exception = null;
try
{
obj = eval(desc);
}
catch(e)
{
exception = e;
}
// TODO: WebIDLParser doesn't currently support named legacycallers, so I'm
// not sure what those would look like in the AST
var expected_typeof = this.members.some(function(member)
{
return member.legacycaller
|| ("idlType" in member && member.idlType.legacycaller)
|| ("idlType" in member && typeof member.idlType == "object"
&& "idlType" in member.idlType && member.idlType.idlType == "legacycaller");
}) ? "function" : "object";
this.test_primary_interface_of(desc, obj, exception, expected_typeof);
var current_interface = this;
while (current_interface)
{
if (!(current_interface.name in this.array.members))
{
throw "Interface " + current_interface.name + " not found (inherited by " + this.name + ")";
}
if (current_interface.prevent_multiple_testing && current_interface.already_tested)
{
return;
}
current_interface.test_interface_of(desc, obj, exception, expected_typeof);
current_interface = this.array.members[current_interface.base];
}
};
//@}
IdlInterface.prototype.test_primary_interface_of = function(desc, obj, exception, expected_typeof)
//@{
{
// We can't easily test that its prototype is correct if there's no
// interface object, or the object is from a different global environment
// (not instanceof Object). TODO: test in this case that its prototype at
// least looks correct, even if we can't test that it's actually correct.
if (!this.has_extended_attribute("NoInterfaceObject")
&& (typeof obj != expected_typeof || obj instanceof Object))
{
test(() => {
assert_equals(exception, null, "Unexpected exception when evaluating object");
assert_equals(typeof obj, expected_typeof, "wrong typeof object");
assert_own_property(self, this.name,
"self does not have own property " + format_value(this.name));
assert_own_property(self[this.name], "prototype",
'interface "' + this.name + '" does not have own property "prototype"');
// "The value of the internal [[Prototype]] property of the
// platform object is the interface prototype object of the primary
// interface from the platform objects associated global
// environment."
assert_equals(Object.getPrototypeOf(obj),
self[this.name].prototype,
desc + "'s prototype is not " + this.name + ".prototype");
}, this.name + " must be primary interface of " + desc);
}
// "The class string of a platform object that implements one or more
// interfaces must be the identifier of the primary interface of the
// platform object."
test(() => {
assert_equals(exception, null, "Unexpected exception when evaluating object");
assert_equals(typeof obj, expected_typeof, "wrong typeof object");
assert_class_string(obj, this.name, "class string of " + desc);
if (!this.has_stringifier())
{
assert_equals(String(obj), "[object " + this.name + "]", "String(" + desc + ")");
}
}, "Stringification of " + desc);
};
//@}
IdlInterface.prototype.test_interface_of = function(desc, obj, exception, expected_typeof)
//@{
{
// TODO: Indexed and named properties, more checks on interface members
this.already_tested = true;
for (var i = 0; i < this.members.length; i++)
{
var member = this.members[i];
if (member.type == "attribute" && member.isUnforgeable)
{
test(() => {
assert_equals(exception, null, "Unexpected exception when evaluating object");
assert_equals(typeof obj, expected_typeof, "wrong typeof object");
this.do_interface_attribute_asserts(obj, member);
}, this.name + " interface: " + desc + ' must have own property "' + member.name + '"');
}
else if (member.type == "operation" &&
member.name &&
member.isUnforgeable)
{
test(() => {
assert_equals(exception, null, "Unexpected exception when evaluating object");
assert_equals(typeof obj, expected_typeof, "wrong typeof object");
assert_own_property(obj, member.name,
"Doesn't have the unforgeable operation property");
this.do_member_operation_asserts(obj, member);
}, this.name + " interface: " + desc + ' must have own property "' + member.name + '"');
}
else if ((member.type == "const"
|| member.type == "attribute"
|| member.type == "operation")
&& member.name)
{
test(() => {
assert_equals(exception, null, "Unexpected exception when evaluating object");
assert_equals(typeof obj, expected_typeof, "wrong typeof object");
if (!member["static"]) {
if (!this.is_global()) {
assert_inherits(obj, member.name);
} else {
assert_own_property(obj, member.name);
}
if (member.type == "const")
{
assert_equals(obj[member.name], constValue(member.value));
}
if (member.type == "attribute")
{
// Attributes are accessor properties, so they might
// legitimately throw an exception rather than returning
// anything.
var property, thrown = false;
try
{
property = obj[member.name];
}
catch (e)
{
thrown = true;
}
if (!thrown)
{
this.array.assert_type_is(property, member.idlType);
}
}
if (member.type == "operation")
{
assert_equals(typeof obj[member.name], "function");
}
}
}, this.name + " interface: " + desc + ' must inherit property "' + member.name + '" with the proper type (' + i + ')');
}
// TODO: This is wrong if there are multiple operations with the same
// identifier.
// TODO: Test passing arguments of the wrong type.
if (member.type == "operation" && member.name && member.arguments.length)
{
test(() => {
assert_equals(exception, null, "Unexpected exception when evaluating object");
assert_equals(typeof obj, expected_typeof, "wrong typeof object");
if (!member["static"]) {
if (!this.is_global() && !member.isUnforgeable) {
assert_inherits(obj, member.name);
} else {
assert_own_property(obj, member.name);
}
}
else
{
assert_false(member.name in obj);
}
var minLength = minOverloadLength(this.members.filter(function(m) {
return m.type == "operation" && m.name == member.name;
}));
var args = [];
for (var i = 0; i < minLength; i++) {
assert_throws(new TypeError(), () => {
obj[member.name].apply(obj, args);
}, "Called with " + i + " arguments");
args.push(create_suitable_object(member.arguments[i].idlType));
}
}, this.name + " interface: calling " + member.name +
"(" + member.arguments.map(function(m) { return m.idlType.idlType; }) +
") on " + desc + " with too few arguments must throw TypeError");
}
}
};
//@}
IdlInterface.prototype.has_stringifier = function()
//@{
{
if (this.members.some(function(member) { return member.stringifier; })) {
return true;
}
if (this.base &&
this.array.members[this.base].has_stringifier()) {
return true;
}
return false;
};
//@}
IdlInterface.prototype.do_interface_attribute_asserts = function(obj, member)
//@{
{
// This function tests WebIDL as of 2015-01-27.
// TODO: Consider [Exposed].
// This is called by test_member_attribute() with the prototype as obj if
// it is not a global, and the global otherwise, and by test_interface_of()
// with the object as obj.
// "For each exposed attribute of the interface, whether it was declared on
// the interface itself or one of its consequential interfaces, there MUST
// exist a corresponding property. The characteristics of this property are
// as follows:"
// "The name of the property is the identifier of the attribute."
assert_own_property(obj, member.name);
// "The property has attributes { [[Get]]: G, [[Set]]: S, [[Enumerable]]:
// true, [[Configurable]]: configurable }, where:
// "configurable is false if the attribute was declared with the
// [Unforgeable] extended attribute and true otherwise;
// "G is the attribute getter, defined below; and
// "S is the attribute setter, also defined below."
var desc = Object.getOwnPropertyDescriptor(obj, member.name);
assert_false("value" in desc, 'property descriptor has value but is supposed to be accessor');
assert_false("writable" in desc, 'property descriptor has "writable" field but is supposed to be accessor');
assert_true(desc.enumerable, "property is not enumerable");
if (member.isUnforgeable)
{
assert_false(desc.configurable, "[Unforgeable] property must not be configurable");
}
else
{
assert_true(desc.configurable, "property must be configurable");
}
// "The attribute getter is a Function object whose behavior when invoked
// is as follows:"
assert_equals(typeof desc.get, "function", "getter must be Function");
// "If the attribute is a regular attribute, then:"
if (!member["static"]) {
// "If O is not a platform object that implements I, then:
// "If the attribute was specified with the [LenientThis] extended
// attribute, then return undefined.
// "Otherwise, throw a TypeError."
if (!member.has_extended_attribute("LenientThis")) {
assert_throws(new TypeError(), () => {
desc.get.call({});
}, "calling getter on wrong object type must throw TypeError");
} else {
assert_equals(desc.get.call({}), undefined,
"calling getter on wrong object type must return undefined");
}
}
// "The value of the Function objects “length” property is the Number
// value 0."
assert_equals(desc.get.length, 0, "getter length must be 0");
// TODO: Test calling setter on the interface prototype (should throw
// TypeError in most cases).
if (member.readonly
&& !member.has_extended_attribute("PutForwards")
&& !member.has_extended_attribute("Replaceable"))
{
// "The attribute setter is undefined if the attribute is declared
// readonly and has neither a [PutForwards] nor a [Replaceable]
// extended attribute declared on it."
assert_equals(desc.set, undefined, "setter must be undefined for readonly attributes");
}
else
{
// "Otherwise, it is a Function object whose behavior when
// invoked is as follows:"
assert_equals(typeof desc.set, "function", "setter must be function for PutForwards, Replaceable, or non-readonly attributes");
// "If the attribute is a regular attribute, then:"
if (!member["static"]) {
// "If /validThis/ is false and the attribute was not specified
// with the [LenientThis] extended attribute, then throw a
// TypeError."
// "If the attribute is declared with a [Replaceable] extended
// attribute, then: ..."
// "If validThis is false, then return."
if (!member.has_extended_attribute("LenientThis")) {
assert_throws(new TypeError(), () => {
desc.set.call({});
}, "calling setter on wrong object type must throw TypeError");
} else {
assert_equals(desc.set.call({}), undefined,
"calling setter on wrong object type must return undefined");
}
}
// "The value of the Function objects “length” property is the Number
// value 1."
assert_equals(desc.set.length, 1, "setter length must be 1");
}
}
//@}
/// IdlInterfaceMember ///
function IdlInterfaceMember(obj)
//@{
{
/**
* obj is an object produced by the WebIDLParser.js "ifMember" production.
* We just forward all properties to this object without modification,
* except for special extAttrs handling.
*/
for (var k in obj)
{
this[k] = obj[k];
}
if (!("extAttrs" in this))
{
this.extAttrs = [];
}
this.isUnforgeable = this.has_extended_attribute("Unforgeable");
}
//@}
IdlInterfaceMember.prototype = Object.create(IdlObject.prototype);
/// Internal helper functions ///
function create_suitable_object(type)
//@{
{
/**
* type is an object produced by the WebIDLParser.js "type" production. We
* return a JavaScript value that matches the type, if we can figure out
* how.
*/
if (type.nullable)
{
return null;
}
switch (type.idlType)
{
case "any":
case "boolean":
return true;
case "byte": case "octet": case "short": case "unsigned short":
case "long": case "unsigned long": case "long long":
case "unsigned long long": case "float": case "double":
case "unrestricted float": case "unrestricted double":
return 7;
case "DOMString":
case "ByteString":
case "USVString":
return "foo";
case "object":
return {a: "b"};
case "Node":
return document.createTextNode("abc");
}
return null;
}
//@}
/// IdlEnum ///
// Used for IdlArray.prototype.assert_type_is
function IdlEnum(obj)
//@{
{
/**
* obj is an object produced by the WebIDLParser.js "dictionary"
* production.
*/
/** Self-explanatory. */
this.name = obj.name;
/** An array of values produced by the "enum" production. */
this.values = obj.values;
}
//@}
IdlEnum.prototype = Object.create(IdlObject.prototype);
/// IdlTypedef ///
// Used for IdlArray.prototype.assert_type_is
function IdlTypedef(obj)
//@{
{
/**
* obj is an object produced by the WebIDLParser.js "typedef"
* production.
*/
/** Self-explanatory. */
this.name = obj.name;
/** An array of values produced by the "typedef" production. */
this.values = obj.values;
}
//@}
IdlTypedef.prototype = Object.create(IdlObject.prototype);
}());
// vim: set expandtab shiftwidth=4 tabstop=4 foldmarker=@{,@} foldmethod=marker: