src/third_party/mozjs-45/js/src/tests/js1_8_5/extensions/clone-complex-object.js - cobalt - Git at Google

 // |reftest| skip-if(!xulRuntime.shell)
 // -*- Mode: C++; tab-width: 8; indent-tabs-mode: nil; c-basic-offset: 4 -*-
 // Any copyright is dedicated to the Public Domain.
 // http://creativecommons.org/licenses/publicdomain/

 // Set of properties on a cloned object that are legitimately non-enumerable,
 // grouped by object type.
 var non_enumerable = { 'Array': [ 'length' ],
                        'String': [ 'length' ] };

 // Set of properties on a cloned object that are legitimately non-configurable,
 // grouped by object type. The property name '0' stands in for any indexed
 // property.
 var non_configurable = { 'String': [ 0 ],
                          '(typed array)': [ 0 ] };

 // Set of properties on a cloned object that are legitimately non-writable,
 // grouped by object type. The property name '0' stands in for any indexed
 // property.
 var non_writable = { 'String': [ 0 ] };

 function classOf(obj) {
     var classString = Object.prototype.toString.call(obj);
     var [ all, classname ] = classString.match(/\[object (\w+)/);
     return classname;
 }

 function isIndex(p) {
     var u = p >>> 0;
     return ("" + u == p && u != 0xffffffff);
 }

 function notIndex(p) {
     return !isIndex(p);
 }

 function tableContains(table, cls, prop) {
     if (isIndex(prop))
         prop = 0;
     if (cls.match(/\wArray$/))
         cls = "(typed array)";
     var exceptionalProps = table[cls] || [];
     return exceptionalProps.indexOf(prop) != -1;
 }

 function shouldBeConfigurable(cls, prop) {
     return !tableContains(non_configurable, cls, prop);
 }

 function shouldBeWritable(cls, prop) {
     return !tableContains(non_writable, cls, prop);
 }

 function ownProperties(obj) {
     return Object.getOwnPropertyNames(obj).
         map(function (p) { return [p, Object.getOwnPropertyDescriptor(obj, p)]; });
 }

 function isCloneable(pair) {
     return typeof pair[0] === 'string' && pair[1].enumerable;
 }

 function compareProperties(a, b, stack, path) {
     var ca = classOf(a);

     // 'b', the original object, may have non-enumerable or XMLName properties;
     // ignore them. 'a', the clone, should not have any non-enumerable
     // properties (except .length, if it's an Array or String) or XMLName
     // properties.
     var pb = ownProperties(b).filter(isCloneable);
     var pa = ownProperties(a);
     for (var i = 0; i < pa.length; i++) {
         var propname = pa[i][0];
         assertEq(typeof propname, "string", "clone should not have E4X properties " + path);
         if (!pa[i][1].enumerable) {
             if (tableContains(non_enumerable, ca, propname)) {
                 // remove it so that the comparisons below will work
                 pa.splice(i, 1);
                 i--;
             } else {
                 throw new Error("non-enumerable clone property " + uneval(pa[i][0]) + " " + path);
             }
         }
     }

     // Check that, apart from properties whose names are array indexes,
     // the enumerable properties appear in the same order.
     var aNames = pa.map(function (pair) { return pair[1]; }).filter(notIndex);
     var bNames = pa.map(function (pair) { return pair[1]; }).filter(notIndex);
     assertEq(aNames.join(","), bNames.join(","), path);

     // Check that the lists are the same when including array indexes.
     function byName(a, b) { a = a[0]; b = b[0]; return a < b ? -1 : a === b ? 0 : 1; }
     pa.sort(byName);
     pb.sort(byName);
     assertEq(pa.length, pb.length, "should see the same number of properties " + path);
     for (var i = 0; i < pa.length; i++) {
         var aName = pa[i][0];
         var bName = pb[i][0];
         assertEq(aName, bName, path);

         var path2 = isIndex(aName) ? path + "[" + aName + "]" : path + "." + aName;
         var da = pa[i][1];
         var db = pb[i][1];
         assertEq(da.configurable, shouldBeConfigurable(ca, aName), path2);
         assertEq(da.writable, shouldBeWritable(ca, aName), path2);
         assertEq("value" in da, true, path2);
         var va = da.value;
         var vb = b[pb[i][0]];
         stack.push([va, vb, path2]);
     }
 }

 function isClone(a, b) {
     var stack = [[a, b, 'obj']];
     var memory = new WeakMap();
     var rmemory = new WeakMap();

     while (stack.length > 0) {
         var pair = stack.pop();
         var x = pair[0], y = pair[1], path = pair[2];
         if (typeof x !== "object" || x === null) {
             // x is primitive.
             assertEq(x, y, "equal primitives");
         } else if (x instanceof Date) {
             assertEq(x.getTime(), y.getTime(), "equal times for cloned Dates");
         } else if (memory.has(x)) {
             // x is an object we have seen before in a.
             assertEq(y, memory.get(x), "repeated object the same");
             assertEq(rmemory.get(y), x, "repeated object's clone already seen");
         } else {
             // x is an object we have not seen before.
 	    // Check that we have not seen y before either.
             assertEq(rmemory.has(y), false);

             var xcls = classOf(x);
             var ycls = classOf(y);
             assertEq(xcls, ycls, "same [[Class]]");

             // clone objects should have the default prototype of the class
             assertEq(Object.getPrototypeOf(x), this[xcls].prototype);

             compareProperties(x, y, stack, path);

             // Record that we have seen this pair of objects.
             memory.set(x, y);
             rmemory.set(y, x);
         }
     }
     return true;
 }

 function check(val) {
     var clone = deserialize(serialize(val));
     assertEq(isClone(val, clone), true);
     return clone;
 }

 // Various recursive objects

 // Recursive array.
 var a = [];
 a[0] = a;
 check(a);

 // Recursive Object.
 var b = {};
 b.next = b;
 check(b);

 // Mutually recursive objects.
 var a = [];
 var b = {};
 var c = {};
 a[0] = b;
 a[1] = b;
 a[2] = b;
 b.next = a;
 check(a);
 check(b);

 // A date
 check(new Date);

 // A recursive object that is very large.
 a = [];
 b = a;
 for (var i = 0; i < 10000; i++) {
     b[0] = {};
     b[1] = [];
     b = b[1];
 }
 b[0] = {owner: a};
 b[1] = [];
 check(a);

 // Date objects should not be identical even if representing the same date
 var ar = [ new Date(1000), new Date(1000) ];
 var clone = check(ar);
 assertEq(clone[0] === clone[1], false);

 // Identity preservation for various types of objects

 function checkSimpleIdentity(v)
 {
     a = check([ v, v ]);
     assertEq(a[0] === a[1], true);
     return a;
 }

 var v = new Boolean(true);
 checkSimpleIdentity(v);

 v = new Number(17);
 checkSimpleIdentity(v);

 v = new String("yo");
 checkSimpleIdentity(v);

 v = "fish";
 checkSimpleIdentity(v);

 v = new Int8Array([ 10, 20 ]);
 checkSimpleIdentity(v);

 v = new ArrayBuffer(7);
 checkSimpleIdentity(v);

 v = new Date(1000);
 b = [ v, v, { 'date': v } ];
 clone = check(b);
 assertEq(clone[0] === clone[1], true);
 assertEq(clone[0], clone[2]['date']);
 assertEq(clone[0] === v, false);

 // Reduced and modified from postMessage_structured_clone test
 let foo = { };
 let baz = { };
 let obj = { 'foo': foo,
             'bar': { 'foo': foo },
             'expando': { 'expando': baz },
             'baz': baz };
 check(obj);

 for (obj of new getTestContent)
     check(obj);

 // Stolen wholesale from postMessage_structured_clone_helper.js
 function getTestContent()
 {
   yield "hello";
   yield 2+3;
   yield 12;
   yield null;
   yield "complex" + "string";
   yield new Object();
   yield new Date(1306113544);
   yield [1, 2, 3, 4, 5];
   let obj = new Object();
   obj.foo = 3;
   obj.bar = "hi";
   obj.baz = new Date(1306113544);
   obj.boo = obj;
   yield obj;

   let recursiveobj = new Object();
   recursiveobj.a = recursiveobj;
   recursiveobj.foo = new Object();
   recursiveobj.foo.bar = "bar";
   recursiveobj.foo.backref = recursiveobj;
   recursiveobj.foo.baz = 84;
   recursiveobj.foo.backref2 = recursiveobj;
   recursiveobj.bar = new Object();
   recursiveobj.bar.foo = "foo";
   recursiveobj.bar.backref = recursiveobj;
   recursiveobj.bar.baz = new Date(1306113544);
   recursiveobj.bar.backref2 = recursiveobj;
   recursiveobj.expando = recursiveobj;
   yield recursiveobj;

   obj = new Object();
   obj.expando1 = 1;
   obj.foo = new Object();
   obj.foo.bar = 2;
   obj.bar = new Object();
   obj.bar.foo = obj.foo;
   obj.expando = new Object();
   obj.expando.expando = new Object();
   obj.expando.expando.obj = obj;
   obj.expando2 = 4;
   obj.baz = obj.expando.expando;
   obj.blah = obj.bar;
   obj.foo.baz = obj.blah;
   obj.foo.blah = obj.blah;
   yield obj;

   let diamond = new Object();
   obj = new Object();
   obj.foo = "foo";
   obj.bar = 92;
   obj.backref = diamond;
   diamond.ref1 = obj;
   diamond.ref2 = obj;
   yield diamond;

   let doubleref = new Object();
   obj = new Object();
   doubleref.ref1 = obj;
   doubleref.ref2 = obj;
   yield doubleref;
 }

 reportCompare(0, 0, 'ok');
	// \|reftest\| skip-if(!xulRuntime.shell)
	// -- Mode: C++; tab-width: 8; indent-tabs-mode: nil; c-basic-offset: 4 --
	// Any copyright is dedicated to the Public Domain.
	// http://creativecommons.org/licenses/publicdomain/

	// Set of properties on a cloned object that are legitimately non-enumerable,
	// grouped by object type.
	var non_enumerable = { 'Array': [ 'length' ],
	'String': [ 'length' ] };

	// Set of properties on a cloned object that are legitimately non-configurable,
	// grouped by object type. The property name '0' stands in for any indexed
	// property.
	var non_configurable = { 'String': [ 0 ],
	'(typed array)': [ 0 ] };

	// Set of properties on a cloned object that are legitimately non-writable,
	// grouped by object type. The property name '0' stands in for any indexed
	// property.
	var non_writable = { 'String': [ 0 ] };

	function classOf(obj) {
	var classString = Object.prototype.toString.call(obj);
	var [ all, classname ] = classString.match(/\[object (\w+)/);
	return classname;
	}

	function isIndex(p) {
	var u = p >>> 0;
	return ("" + u == p && u != 0xffffffff);
	}

	function notIndex(p) {
	return !isIndex(p);
	}

	function tableContains(table, cls, prop) {
	if (isIndex(prop))
	prop = 0;
	if (cls.match(/\wArray$/))
	cls = "(typed array)";
	var exceptionalProps = table[cls] \|\| [];
	return exceptionalProps.indexOf(prop) != -1;
	}

	function shouldBeConfigurable(cls, prop) {
	return !tableContains(non_configurable, cls, prop);
	}

	function shouldBeWritable(cls, prop) {
	return !tableContains(non_writable, cls, prop);
	}

	function ownProperties(obj) {
	return Object.getOwnPropertyNames(obj).
	map(function (p) { return [p, Object.getOwnPropertyDescriptor(obj, p)]; });
	}

	function isCloneable(pair) {
	return typeof pair[0] === 'string' && pair[1].enumerable;
	}

	function compareProperties(a, b, stack, path) {
	var ca = classOf(a);

	// 'b', the original object, may have non-enumerable or XMLName properties;
	// ignore them. 'a', the clone, should not have any non-enumerable
	// properties (except .length, if it's an Array or String) or XMLName
	// properties.
	var pb = ownProperties(b).filter(isCloneable);
	var pa = ownProperties(a);
	for (var i = 0; i < pa.length; i++) {
	var propname = pa[i][0];
	assertEq(typeof propname, "string", "clone should not have E4X properties " + path);
	if (!pa[i][1].enumerable) {
	if (tableContains(non_enumerable, ca, propname)) {
	// remove it so that the comparisons below will work
	pa.splice(i, 1);
	i--;
	} else {
	throw new Error("non-enumerable clone property " + uneval(pa[i][0]) + " " + path);
	}
	}
	}

	// Check that, apart from properties whose names are array indexes,
	// the enumerable properties appear in the same order.
	var aNames = pa.map(function (pair) { return pair[1]; }).filter(notIndex);
	var bNames = pa.map(function (pair) { return pair[1]; }).filter(notIndex);
	assertEq(aNames.join(","), bNames.join(","), path);

	// Check that the lists are the same when including array indexes.
	function byName(a, b) { a = a[0]; b = b[0]; return a < b ? -1 : a === b ? 0 : 1; }
	pa.sort(byName);
	pb.sort(byName);
	assertEq(pa.length, pb.length, "should see the same number of properties " + path);
	for (var i = 0; i < pa.length; i++) {
	var aName = pa[i][0];
	var bName = pb[i][0];
	assertEq(aName, bName, path);

	var path2 = isIndex(aName) ? path + "[" + aName + "]" : path + "." + aName;
	var da = pa[i][1];
	var db = pb[i][1];
	assertEq(da.configurable, shouldBeConfigurable(ca, aName), path2);
	assertEq(da.writable, shouldBeWritable(ca, aName), path2);
	assertEq("value" in da, true, path2);
	var va = da.value;
	var vb = b[pb[i][0]];
	stack.push([va, vb, path2]);
	}
	}

	function isClone(a, b) {
	var stack = [[a, b, 'obj']];
	var memory = new WeakMap();
	var rmemory = new WeakMap();

	while (stack.length > 0) {
	var pair = stack.pop();
	var x = pair[0], y = pair[1], path = pair[2];
	if (typeof x !== "object" \|\| x === null) {
	// x is primitive.
	assertEq(x, y, "equal primitives");
	} else if (x instanceof Date) {
	assertEq(x.getTime(), y.getTime(), "equal times for cloned Dates");
	} else if (memory.has(x)) {
	// x is an object we have seen before in a.
	assertEq(y, memory.get(x), "repeated object the same");
	assertEq(rmemory.get(y), x, "repeated object's clone already seen");
	} else {
	// x is an object we have not seen before.
	// Check that we have not seen y before either.
	assertEq(rmemory.has(y), false);

	var xcls = classOf(x);
	var ycls = classOf(y);
	assertEq(xcls, ycls, "same [[Class]]");

	// clone objects should have the default prototype of the class
	assertEq(Object.getPrototypeOf(x), this[xcls].prototype);

	compareProperties(x, y, stack, path);

	// Record that we have seen this pair of objects.
	memory.set(x, y);
	rmemory.set(y, x);
	}
	}
	return true;
	}

	function check(val) {
	var clone = deserialize(serialize(val));
	assertEq(isClone(val, clone), true);
	return clone;
	}

	// Various recursive objects

	// Recursive array.
	var a = [];
	a[0] = a;
	check(a);

	// Recursive Object.
	var b = {};
	b.next = b;
	check(b);

	// Mutually recursive objects.
	var a = [];
	var b = {};
	var c = {};
	a[0] = b;
	a[1] = b;
	a[2] = b;
	b.next = a;
	check(a);
	check(b);

	// A date
	check(new Date);

	// A recursive object that is very large.
	a = [];
	b = a;
	for (var i = 0; i < 10000; i++) {
	b[0] = {};
	b[1] = [];
	b = b[1];
	}
	b[0] = {owner: a};
	b[1] = [];
	check(a);

	// Date objects should not be identical even if representing the same date
	var ar = [ new Date(1000), new Date(1000) ];
	var clone = check(ar);
	assertEq(clone[0] === clone[1], false);

	// Identity preservation for various types of objects

	function checkSimpleIdentity(v)
	{
	a = check([ v, v ]);
	assertEq(a[0] === a[1], true);
	return a;
	}

	var v = new Boolean(true);
	checkSimpleIdentity(v);

	v = new Number(17);
	checkSimpleIdentity(v);

	v = new String("yo");
	checkSimpleIdentity(v);

	v = "fish";
	checkSimpleIdentity(v);

	v = new Int8Array([ 10, 20 ]);
	checkSimpleIdentity(v);

	v = new ArrayBuffer(7);
	checkSimpleIdentity(v);

	v = new Date(1000);
	b = [ v, v, { 'date': v } ];
	clone = check(b);
	assertEq(clone[0] === clone[1], true);
	assertEq(clone[0], clone[2]['date']);
	assertEq(clone[0] === v, false);

	// Reduced and modified from postMessage_structured_clone test
	let foo = { };
	let baz = { };
	let obj = { 'foo': foo,
	'bar': { 'foo': foo },
	'expando': { 'expando': baz },
	'baz': baz };
	check(obj);

	for (obj of new getTestContent)
	check(obj);

	// Stolen wholesale from postMessage_structured_clone_helper.js
	function getTestContent()
	{
	yield "hello";
	yield 2+3;
	yield 12;
	yield null;
	yield "complex" + "string";
	yield new Object();
	yield new Date(1306113544);
	yield [1, 2, 3, 4, 5];
	let obj = new Object();
	obj.foo = 3;
	obj.bar = "hi";
	obj.baz = new Date(1306113544);
	obj.boo = obj;
	yield obj;

	let recursiveobj = new Object();
	recursiveobj.a = recursiveobj;
	recursiveobj.foo = new Object();
	recursiveobj.foo.bar = "bar";
	recursiveobj.foo.backref = recursiveobj;
	recursiveobj.foo.baz = 84;
	recursiveobj.foo.backref2 = recursiveobj;
	recursiveobj.bar = new Object();
	recursiveobj.bar.foo = "foo";
	recursiveobj.bar.backref = recursiveobj;
	recursiveobj.bar.baz = new Date(1306113544);
	recursiveobj.bar.backref2 = recursiveobj;
	recursiveobj.expando = recursiveobj;
	yield recursiveobj;

	obj = new Object();
	obj.expando1 = 1;
	obj.foo = new Object();
	obj.foo.bar = 2;
	obj.bar = new Object();
	obj.bar.foo = obj.foo;
	obj.expando = new Object();
	obj.expando.expando = new Object();
	obj.expando.expando.obj = obj;
	obj.expando2 = 4;
	obj.baz = obj.expando.expando;
	obj.blah = obj.bar;
	obj.foo.baz = obj.blah;
	obj.foo.blah = obj.blah;
	yield obj;

	let diamond = new Object();
	obj = new Object();
	obj.foo = "foo";
	obj.bar = 92;
	obj.backref = diamond;
	diamond.ref1 = obj;
	diamond.ref2 = obj;
	yield diamond;

	let doubleref = new Object();
	obj = new Object();
	doubleref.ref1 = obj;
	doubleref.ref2 = obj;
	yield doubleref;
	}

	reportCompare(0, 0, 'ok');