src/v8/test/mjsunit/object-seal.js - cobalt - Git at Google

 // Copyright 2010 the V8 project authors. All rights reserved.
 // Redistribution and use in source and binary forms, with or without
 // modification, are permitted provided that the following conditions are
 // met:
 //
 //     * Redistributions of source code must retain the above copyright
 //       notice, this list of conditions and the following disclaimer.
 //     * Redistributions in binary form must reproduce the above
 //       copyright notice, this list of conditions and the following
 //       disclaimer in the documentation and/or other materials provided
 //       with the distribution.
 //     * Neither the name of Google Inc. nor the names of its
 //       contributors may be used to endorse or promote products derived
 //       from this software without specific prior written permission.
 //
 // THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS
 // "AS IS" AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT
 // LIMITED TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR
 // A PARTICULAR PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT
 // OWNER OR CONTRIBUTORS BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL,
 // SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT
 // LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE,
 // DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY
 // THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT
 // (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE
 // OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE.

 // Tests the Object.seal and Object.isSealed methods - ES 19.1.2.17 and
 // ES 19.1.2.13

 // Flags: --allow-natives-syntax --opt --noalways-opt

 // Test that we return obj if non-object is passed as argument
 var non_objects = new Array(undefined, null, 1, -1, 0, 42.43, Symbol("test"));
 for (var key in non_objects) {
   assertSame(non_objects[key], Object.seal(non_objects[key]));
 }

 // Test that isFrozen always returns true for non-objects
 for (var key in non_objects) {
   assertTrue(Object.isSealed(non_objects[key]));
 }

 // Test normal data properties.
 var obj = { x: 42, z: 'foobar' };
 var desc = Object.getOwnPropertyDescriptor(obj, 'x');
 assertTrue(desc.writable);
 assertTrue(desc.configurable);
 assertEquals(42, desc.value);

 desc = Object.getOwnPropertyDescriptor(obj, 'z');
 assertTrue(desc.writable);
 assertTrue(desc.configurable);
 assertEquals('foobar', desc.value);

 assertTrue(Object.isExtensible(obj));
 assertFalse(Object.isSealed(obj));

 Object.seal(obj);

 // Make sure we are no longer extensible.
 assertFalse(Object.isExtensible(obj));
 assertTrue(Object.isSealed(obj));

 // We should not be frozen, since we are still able to
 // update values.
 assertFalse(Object.isFrozen(obj));

 // We should not allow new properties to be added.
 obj.foo = 42;
 assertEquals(obj.foo, undefined);

 desc = Object.getOwnPropertyDescriptor(obj, 'x');
 assertTrue(desc.writable);
 assertFalse(desc.configurable);
 assertEquals(42, desc.value);

 desc = Object.getOwnPropertyDescriptor(obj, 'z');
 assertTrue(desc.writable);
 assertFalse(desc.configurable);
 assertEquals("foobar", desc.value);

 // Since writable is not affected by seal we should still be able to
 // update the values.
 obj.x = "43";
 assertEquals("43", obj.x);

 // Test on accessors.
 var obj2 = {};
 function get() { return 43; };
 function set() {};
 Object.defineProperty(obj2, 'x', { get: get, set: set, configurable: true });

 desc = Object.getOwnPropertyDescriptor(obj2, 'x');
 assertTrue(desc.configurable);
 assertEquals(undefined, desc.value);
 assertEquals(set, desc.set);
 assertEquals(get, desc.get);

 assertTrue(Object.isExtensible(obj2));
 assertFalse(Object.isSealed(obj2));
 Object.seal(obj2);

 // Since this is an accessor property the object is now effectively both
 // sealed and frozen (accessors has no writable attribute).
 assertTrue(Object.isFrozen(obj2));
 assertFalse(Object.isExtensible(obj2));
 assertTrue(Object.isSealed(obj2));

 desc = Object.getOwnPropertyDescriptor(obj2, 'x');
 assertFalse(desc.configurable);
 assertEquals(undefined, desc.value);
 assertEquals(set, desc.set);
 assertEquals(get, desc.get);

 obj2.foo = 42;
 assertEquals(obj2.foo, undefined);

 // Test seal on arrays.
 var arr = new Array(42,43);

 desc = Object.getOwnPropertyDescriptor(arr, '0');
 assertTrue(desc.configurable);
 assertTrue(desc.writable);
 assertEquals(42, desc.value);

 desc = Object.getOwnPropertyDescriptor(arr, '1');
 assertTrue(desc.configurable);
 assertTrue(desc.writable);
 assertEquals(43, desc.value);

 assertTrue(Object.isExtensible(arr));
 assertFalse(Object.isSealed(arr));
 Object.seal(arr);
 assertTrue(Object.isSealed(arr));
 assertFalse(Object.isExtensible(arr));
 // Since the values in the array is still writable this object
 // is not frozen.
 assertFalse(Object.isFrozen(arr));

 desc = Object.getOwnPropertyDescriptor(arr, '0');
 assertFalse(desc.configurable);
 assertTrue(desc.writable);
 assertEquals(42, desc.value);

 desc = Object.getOwnPropertyDescriptor(arr, '1');
 assertFalse(desc.configurable);
 assertTrue(desc.writable);
 assertEquals(43, desc.value);

 arr[0] = 'foo';

 // We should be able to overwrite the existing value.
 assertEquals('foo', arr[0]);


 // Test that isSealed returns the correct value even if configurable
 // has been set to false on all properties manually and the extensible
 // flag has also been set to false manually.
 var obj3 = { x: 42, y: 'foo' };

 assertFalse(Object.isFrozen(obj3));

 Object.defineProperty(obj3, 'x', {configurable: false, writable: true});
 Object.defineProperty(obj3, 'y', {configurable: false, writable: false});
 Object.preventExtensions(obj3);

 assertTrue(Object.isSealed(obj3));


 // Make sure that an object that has a configurable property
 // is not classified as sealed.
 var obj4 = {};
 Object.defineProperty(obj4, 'x', {configurable: true, writable: false});
 Object.defineProperty(obj4, 'y', {configurable: false, writable: false});
 Object.preventExtensions(obj4);

 assertFalse(Object.isSealed(obj4));

 // Make sure that Object.seal returns the sealed object.
 var obj4 = {};
 assertTrue(obj4 === Object.seal(obj4));

 //
 // Test that built-in array functions can't modify a sealed array.
 //
 obj = [1, 2, 3];
 var objControl = [4, 5, 6];

 // Allow these functions to set up monomorphic calls, using custom built-ins.
 var push_call = function(a) { a.push(10); return a; }
 var pop_call = function(a) { return a.pop(); }
 for (var i = 0; i < 3; i++) {
   push_call(obj);
   pop_call(obj);
 }

 Object.seal(obj);
 assertThrows(function() { push_call(obj); }, TypeError);
 assertThrows(function() { pop_call(obj); }, TypeError);

 // But the control object is fine at these sites.
 assertDoesNotThrow(function() { push_call(objControl); });
 assertDoesNotThrow(function() { pop_call(objControl); });

 assertDoesNotThrow(function() { obj.push(); });
 assertThrows(function() { obj.push(3); }, TypeError);
 assertThrows(function() { obj.pop(); }, TypeError);
 assertThrows(function() { obj.shift(3); }, TypeError);
 assertDoesNotThrow(function() { obj.unshift(); });
 assertThrows(function() { obj.unshift(1); }, TypeError);
 assertThrows(function() { obj.splice(0, 0, 100, 101, 102); }, TypeError);
 assertDoesNotThrow(function() { obj.splice(0,0); });

 assertDoesNotThrow(function() { objControl.push(3); });
 assertDoesNotThrow(function() { objControl.pop(); });
 assertDoesNotThrow(function() { objControl.shift(3); });
 assertDoesNotThrow(function() { objControl.unshift(); });
 assertDoesNotThrow(function() { objControl.splice(0, 0, 100, 101, 102); });

 // Verify that crankshaft still does the right thing.
 obj = [1, 2, 3];

 push_call = function(a) { a.push(1000); return a; }
 // Include a call site that doesn't have a custom built-in.
 var shift_call = function(a) { a.shift(1000); return a; }
 for (var i = 0; i < 3; i++) {
   push_call(obj);
   shift_call(obj);
 }

 %OptimizeFunctionOnNextCall(push_call);
 %OptimizeFunctionOnNextCall(shift_call);
 push_call(obj);
 shift_call(obj);
 assertOptimized(push_call);
 assertOptimized(shift_call);
 Object.seal(obj);
 assertThrows(function() { push_call(obj); }, TypeError);
 assertThrows(function() { shift_call(obj); }, TypeError);
 assertUnoptimized(push_call);
 assertUnoptimized(shift_call);
 assertDoesNotThrow(function() { push_call(objControl); });
 assertDoesNotThrow(function() { shift_call(objControl); });

 // Verify special behavior of splice on sealed objects.
 obj = [1,2,3];
 Object.seal(obj);
 assertDoesNotThrow(function() { obj.splice(0,1,100); });
 assertEquals(100, obj[0]);
 assertDoesNotThrow(function() { obj.splice(0,2,1,2); });
 assertDoesNotThrow(function() { obj.splice(1,2,1,2); });
 // Count of items to delete is clamped by length.
 assertDoesNotThrow(function() { obj.splice(1,2000,1,2); });
 assertThrows(function() { obj.splice(0,0,1); }, TypeError);
 assertThrows(function() { obj.splice(1,2000,1,2,3); }, TypeError);

 // Test that the enumerable attribute is unperturbed by sealing.
 obj = { x: 42, y: 'foo' };
 Object.defineProperty(obj, 'y', {enumerable: false});
 Object.seal(obj);
 assertTrue(Object.isSealed(obj));
 assertFalse(Object.isFrozen(obj));
 desc = Object.getOwnPropertyDescriptor(obj, 'x');
 assertTrue(desc.enumerable);
 desc = Object.getOwnPropertyDescriptor(obj, 'y');
 assertFalse(desc.enumerable);

 // Fast properties should remain fast
 obj = { x: 42, y: 'foo' };
 assertTrue(%HasFastProperties(obj));
 Object.seal(obj);
 assertTrue(Object.isSealed(obj));
 assertFalse(Object.isFrozen(obj));
 assertTrue(%HasFastProperties(obj));

 // Sealed objects should share maps where possible
 obj = { prop1: 1, prop2: 2 };
 obj2 = { prop1: 3, prop2: 4 };
 assertTrue(%HaveSameMap(obj, obj2));
 Object.seal(obj);
 Object.seal(obj2);
 assertTrue(Object.isSealed(obj));
 assertTrue(Object.isSealed(obj2));
 assertFalse(Object.isFrozen(obj));
 assertFalse(Object.isFrozen(obj2));
 assertTrue(%HaveSameMap(obj, obj2));

 // Sealed objects should share maps even when they have elements
 obj = { prop1: 1, prop2: 2, 75: 'foo' };
 obj2 = { prop1: 3, prop2: 4, 150: 'bar' };
 assertTrue(%HaveSameMap(obj, obj2));
 Object.seal(obj);
 Object.seal(obj2);
 assertTrue(Object.isSealed(obj));
 assertTrue(Object.isSealed(obj2));
 assertFalse(Object.isFrozen(obj));
 assertFalse(Object.isFrozen(obj));
 assertTrue(%HaveSameMap(obj, obj2));

 // Setting elements after sealing should not be allowed
 obj = { prop: 'thing' };
 Object.seal(obj);
 assertTrue(Object.isSealed(obj));
 assertFalse(Object.isFrozen(obj));
 obj[0] = 'hello';
 assertFalse(obj.hasOwnProperty(0));

 // Sealing an object in dictionary mode should work
 // Also testing that getter/setter properties work after sealing
 obj = { };
 for (var i = 0; i < 100; ++i) {
   obj['x' + i] = i;
 }
 var accessorDidRun = false;
 Object.defineProperty(obj, 'accessor', {
   get: function() { return 42 },
   set: function() { accessorDidRun = true },
   configurable: true,
   enumerable: true
 });

 assertFalse(%HasFastProperties(obj));
 Object.seal(obj);
 assertFalse(%HasFastProperties(obj));
 assertTrue(Object.isSealed(obj));
 assertFalse(Object.isFrozen(obj));
 assertFalse(Object.isExtensible(obj));
 for (var i = 0; i < 100; ++i) {
   desc = Object.getOwnPropertyDescriptor(obj, 'x' + i);
   assertFalse(desc.configurable);
 }
 assertEquals(42, obj.accessor);
 assertFalse(accessorDidRun);
 obj.accessor = 'ignored value';
 assertTrue(accessorDidRun);

 // Sealing arguments should work
 var func = function(arg) {
   Object.seal(arguments);
   assertTrue(Object.isSealed(arguments));
 };
 func('hello', 'world');
 func('goodbye', 'world');

 // Sealing sparse arrays
 var sparseArr = [0, 1];
 sparseArr[10000] = 10000;
 Object.seal(sparseArr);
 assertTrue(Object.isSealed(sparseArr));

 // Accessors on fast object should behavior properly after sealing
 obj = {};
 Object.defineProperty(obj, 'accessor', {
   get: function() { return 42 },
   set: function() { accessorDidRun = true },
   configurable: true,
   enumerable: true
 });
 assertTrue(%HasFastProperties(obj));
 Object.seal(obj);
 assertTrue(Object.isSealed(obj));
 assertTrue(%HasFastProperties(obj));
 assertEquals(42, obj.accessor);
 accessorDidRun = false;
 obj.accessor = 'ignored value';
 assertTrue(accessorDidRun);

 // Test for regression in mixed accessor/data property objects.
 // The strict function is one such object.
 assertTrue(Object.isSealed(Object.seal(function(){"use strict";})));

 // Also test a simpler case
 obj = {};
 Object.defineProperty(obj, 'accessor2', {
   get: function() { return 42 },
   set: function() { accessorDidRun = true },
   configurable: true,
   enumerable: true
 });
 obj.data = 'foo';
 assertTrue(%HasFastProperties(obj));
 Object.seal(obj);
 assertTrue(%HasFastProperties(obj));
 assertTrue(Object.isSealed(obj));

 function Sealed() {}
 Object.seal(Sealed);
 assertDoesNotThrow(function() { return new Sealed(); });
 Sealed.prototype.prototypeExists = true;
 assertTrue((new Sealed()).prototypeExists);
	// Copyright 2010 the V8 project authors. All rights reserved.
	// Redistribution and use in source and binary forms, with or without
	// modification, are permitted provided that the following conditions are
	// met:
	//
	// * Redistributions of source code must retain the above copyright
	// notice, this list of conditions and the following disclaimer.
	// * Redistributions in binary form must reproduce the above
	// copyright notice, this list of conditions and the following
	// disclaimer in the documentation and/or other materials provided
	// with the distribution.
	// * Neither the name of Google Inc. nor the names of its
	// contributors may be used to endorse or promote products derived
	// from this software without specific prior written permission.
	//
	// THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS
	// "AS IS" AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT
	// LIMITED TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR
	// A PARTICULAR PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT
	// OWNER OR CONTRIBUTORS BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL,
	// SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT
	// LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE,
	// DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY
	// THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT
	// (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE
	// OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE.

	// Tests the Object.seal and Object.isSealed methods - ES 19.1.2.17 and
	// ES 19.1.2.13

	// Flags: --allow-natives-syntax --opt --noalways-opt

	// Test that we return obj if non-object is passed as argument
	var non_objects = new Array(undefined, null, 1, -1, 0, 42.43, Symbol("test"));
	for (var key in non_objects) {
	assertSame(non_objects[key], Object.seal(non_objects[key]));
	}

	// Test that isFrozen always returns true for non-objects
	for (var key in non_objects) {
	assertTrue(Object.isSealed(non_objects[key]));
	}

	// Test normal data properties.
	var obj = { x: 42, z: 'foobar' };
	var desc = Object.getOwnPropertyDescriptor(obj, 'x');
	assertTrue(desc.writable);
	assertTrue(desc.configurable);
	assertEquals(42, desc.value);

	desc = Object.getOwnPropertyDescriptor(obj, 'z');
	assertTrue(desc.writable);
	assertTrue(desc.configurable);
	assertEquals('foobar', desc.value);

	assertTrue(Object.isExtensible(obj));
	assertFalse(Object.isSealed(obj));

	Object.seal(obj);

	// Make sure we are no longer extensible.
	assertFalse(Object.isExtensible(obj));
	assertTrue(Object.isSealed(obj));

	// We should not be frozen, since we are still able to
	// update values.
	assertFalse(Object.isFrozen(obj));

	// We should not allow new properties to be added.
	obj.foo = 42;
	assertEquals(obj.foo, undefined);

	desc = Object.getOwnPropertyDescriptor(obj, 'x');
	assertTrue(desc.writable);
	assertFalse(desc.configurable);
	assertEquals(42, desc.value);

	desc = Object.getOwnPropertyDescriptor(obj, 'z');
	assertTrue(desc.writable);
	assertFalse(desc.configurable);
	assertEquals("foobar", desc.value);

	// Since writable is not affected by seal we should still be able to
	// update the values.
	obj.x = "43";
	assertEquals("43", obj.x);

	// Test on accessors.
	var obj2 = {};
	function get() { return 43; };
	function set() {};
	Object.defineProperty(obj2, 'x', { get: get, set: set, configurable: true });

	desc = Object.getOwnPropertyDescriptor(obj2, 'x');
	assertTrue(desc.configurable);
	assertEquals(undefined, desc.value);
	assertEquals(set, desc.set);
	assertEquals(get, desc.get);

	assertTrue(Object.isExtensible(obj2));
	assertFalse(Object.isSealed(obj2));
	Object.seal(obj2);

	// Since this is an accessor property the object is now effectively both
	// sealed and frozen (accessors has no writable attribute).
	assertTrue(Object.isFrozen(obj2));
	assertFalse(Object.isExtensible(obj2));
	assertTrue(Object.isSealed(obj2));

	desc = Object.getOwnPropertyDescriptor(obj2, 'x');
	assertFalse(desc.configurable);
	assertEquals(undefined, desc.value);
	assertEquals(set, desc.set);
	assertEquals(get, desc.get);

	obj2.foo = 42;
	assertEquals(obj2.foo, undefined);

	// Test seal on arrays.
	var arr = new Array(42,43);

	desc = Object.getOwnPropertyDescriptor(arr, '0');
	assertTrue(desc.configurable);
	assertTrue(desc.writable);
	assertEquals(42, desc.value);

	desc = Object.getOwnPropertyDescriptor(arr, '1');
	assertTrue(desc.configurable);
	assertTrue(desc.writable);
	assertEquals(43, desc.value);

	assertTrue(Object.isExtensible(arr));
	assertFalse(Object.isSealed(arr));
	Object.seal(arr);
	assertTrue(Object.isSealed(arr));
	assertFalse(Object.isExtensible(arr));
	// Since the values in the array is still writable this object
	// is not frozen.
	assertFalse(Object.isFrozen(arr));

	desc = Object.getOwnPropertyDescriptor(arr, '0');
	assertFalse(desc.configurable);
	assertTrue(desc.writable);
	assertEquals(42, desc.value);

	desc = Object.getOwnPropertyDescriptor(arr, '1');
	assertFalse(desc.configurable);
	assertTrue(desc.writable);
	assertEquals(43, desc.value);

	arr[0] = 'foo';

	// We should be able to overwrite the existing value.
	assertEquals('foo', arr[0]);


	// Test that isSealed returns the correct value even if configurable
	// has been set to false on all properties manually and the extensible
	// flag has also been set to false manually.
	var obj3 = { x: 42, y: 'foo' };

	assertFalse(Object.isFrozen(obj3));

	Object.defineProperty(obj3, 'x', {configurable: false, writable: true});
	Object.defineProperty(obj3, 'y', {configurable: false, writable: false});
	Object.preventExtensions(obj3);

	assertTrue(Object.isSealed(obj3));


	// Make sure that an object that has a configurable property
	// is not classified as sealed.
	var obj4 = {};
	Object.defineProperty(obj4, 'x', {configurable: true, writable: false});
	Object.defineProperty(obj4, 'y', {configurable: false, writable: false});
	Object.preventExtensions(obj4);

	assertFalse(Object.isSealed(obj4));

	// Make sure that Object.seal returns the sealed object.
	var obj4 = {};
	assertTrue(obj4 === Object.seal(obj4));

	//
	// Test that built-in array functions can't modify a sealed array.
	//
	obj = [1, 2, 3];
	var objControl = [4, 5, 6];

	// Allow these functions to set up monomorphic calls, using custom built-ins.
	var push_call = function(a) { a.push(10); return a; }
	var pop_call = function(a) { return a.pop(); }
	for (var i = 0; i < 3; i++) {
	push_call(obj);
	pop_call(obj);
	}

	Object.seal(obj);
	assertThrows(function() { push_call(obj); }, TypeError);
	assertThrows(function() { pop_call(obj); }, TypeError);

	// But the control object is fine at these sites.
	assertDoesNotThrow(function() { push_call(objControl); });
	assertDoesNotThrow(function() { pop_call(objControl); });

	assertDoesNotThrow(function() { obj.push(); });
	assertThrows(function() { obj.push(3); }, TypeError);
	assertThrows(function() { obj.pop(); }, TypeError);
	assertThrows(function() { obj.shift(3); }, TypeError);
	assertDoesNotThrow(function() { obj.unshift(); });
	assertThrows(function() { obj.unshift(1); }, TypeError);
	assertThrows(function() { obj.splice(0, 0, 100, 101, 102); }, TypeError);
	assertDoesNotThrow(function() { obj.splice(0,0); });

	assertDoesNotThrow(function() { objControl.push(3); });
	assertDoesNotThrow(function() { objControl.pop(); });
	assertDoesNotThrow(function() { objControl.shift(3); });
	assertDoesNotThrow(function() { objControl.unshift(); });
	assertDoesNotThrow(function() { objControl.splice(0, 0, 100, 101, 102); });

	// Verify that crankshaft still does the right thing.
	obj = [1, 2, 3];

	push_call = function(a) { a.push(1000); return a; }
	// Include a call site that doesn't have a custom built-in.
	var shift_call = function(a) { a.shift(1000); return a; }
	for (var i = 0; i < 3; i++) {
	push_call(obj);
	shift_call(obj);
	}

	%OptimizeFunctionOnNextCall(push_call);
	%OptimizeFunctionOnNextCall(shift_call);
	push_call(obj);
	shift_call(obj);
	assertOptimized(push_call);
	assertOptimized(shift_call);
	Object.seal(obj);
	assertThrows(function() { push_call(obj); }, TypeError);
	assertThrows(function() { shift_call(obj); }, TypeError);
	assertUnoptimized(push_call);
	assertUnoptimized(shift_call);
	assertDoesNotThrow(function() { push_call(objControl); });
	assertDoesNotThrow(function() { shift_call(objControl); });

	// Verify special behavior of splice on sealed objects.
	obj = [1,2,3];
	Object.seal(obj);
	assertDoesNotThrow(function() { obj.splice(0,1,100); });
	assertEquals(100, obj[0]);
	assertDoesNotThrow(function() { obj.splice(0,2,1,2); });
	assertDoesNotThrow(function() { obj.splice(1,2,1,2); });
	// Count of items to delete is clamped by length.
	assertDoesNotThrow(function() { obj.splice(1,2000,1,2); });
	assertThrows(function() { obj.splice(0,0,1); }, TypeError);
	assertThrows(function() { obj.splice(1,2000,1,2,3); }, TypeError);

	// Test that the enumerable attribute is unperturbed by sealing.
	obj = { x: 42, y: 'foo' };
	Object.defineProperty(obj, 'y', {enumerable: false});
	Object.seal(obj);
	assertTrue(Object.isSealed(obj));
	assertFalse(Object.isFrozen(obj));
	desc = Object.getOwnPropertyDescriptor(obj, 'x');
	assertTrue(desc.enumerable);
	desc = Object.getOwnPropertyDescriptor(obj, 'y');
	assertFalse(desc.enumerable);

	// Fast properties should remain fast
	obj = { x: 42, y: 'foo' };
	assertTrue(%HasFastProperties(obj));
	Object.seal(obj);
	assertTrue(Object.isSealed(obj));
	assertFalse(Object.isFrozen(obj));
	assertTrue(%HasFastProperties(obj));

	// Sealed objects should share maps where possible
	obj = { prop1: 1, prop2: 2 };
	obj2 = { prop1: 3, prop2: 4 };
	assertTrue(%HaveSameMap(obj, obj2));
	Object.seal(obj);
	Object.seal(obj2);
	assertTrue(Object.isSealed(obj));
	assertTrue(Object.isSealed(obj2));
	assertFalse(Object.isFrozen(obj));
	assertFalse(Object.isFrozen(obj2));
	assertTrue(%HaveSameMap(obj, obj2));

	// Sealed objects should share maps even when they have elements
	obj = { prop1: 1, prop2: 2, 75: 'foo' };
	obj2 = { prop1: 3, prop2: 4, 150: 'bar' };
	assertTrue(%HaveSameMap(obj, obj2));
	Object.seal(obj);
	Object.seal(obj2);
	assertTrue(Object.isSealed(obj));
	assertTrue(Object.isSealed(obj2));
	assertFalse(Object.isFrozen(obj));
	assertFalse(Object.isFrozen(obj));
	assertTrue(%HaveSameMap(obj, obj2));

	// Setting elements after sealing should not be allowed
	obj = { prop: 'thing' };
	Object.seal(obj);
	assertTrue(Object.isSealed(obj));
	assertFalse(Object.isFrozen(obj));
	obj[0] = 'hello';
	assertFalse(obj.hasOwnProperty(0));

	// Sealing an object in dictionary mode should work
	// Also testing that getter/setter properties work after sealing
	obj = { };
	for (var i = 0; i < 100; ++i) {
	obj['x' + i] = i;
	}
	var accessorDidRun = false;
	Object.defineProperty(obj, 'accessor', {
	get: function() { return 42 },
	set: function() { accessorDidRun = true },
	configurable: true,
	enumerable: true
	});

	assertFalse(%HasFastProperties(obj));
	Object.seal(obj);
	assertFalse(%HasFastProperties(obj));
	assertTrue(Object.isSealed(obj));
	assertFalse(Object.isFrozen(obj));
	assertFalse(Object.isExtensible(obj));
	for (var i = 0; i < 100; ++i) {
	desc = Object.getOwnPropertyDescriptor(obj, 'x' + i);
	assertFalse(desc.configurable);
	}
	assertEquals(42, obj.accessor);
	assertFalse(accessorDidRun);
	obj.accessor = 'ignored value';
	assertTrue(accessorDidRun);

	// Sealing arguments should work
	var func = function(arg) {
	Object.seal(arguments);
	assertTrue(Object.isSealed(arguments));
	};
	func('hello', 'world');
	func('goodbye', 'world');

	// Sealing sparse arrays
	var sparseArr = [0, 1];
	sparseArr[10000] = 10000;
	Object.seal(sparseArr);
	assertTrue(Object.isSealed(sparseArr));

	// Accessors on fast object should behavior properly after sealing
	obj = {};
	Object.defineProperty(obj, 'accessor', {
	get: function() { return 42 },
	set: function() { accessorDidRun = true },
	configurable: true,
	enumerable: true
	});
	assertTrue(%HasFastProperties(obj));
	Object.seal(obj);
	assertTrue(Object.isSealed(obj));
	assertTrue(%HasFastProperties(obj));
	assertEquals(42, obj.accessor);
	accessorDidRun = false;
	obj.accessor = 'ignored value';
	assertTrue(accessorDidRun);

	// Test for regression in mixed accessor/data property objects.
	// The strict function is one such object.
	assertTrue(Object.isSealed(Object.seal(function(){"use strict";})));

	// Also test a simpler case
	obj = {};
	Object.defineProperty(obj, 'accessor2', {
	get: function() { return 42 },
	set: function() { accessorDidRun = true },
	configurable: true,
	enumerable: true
	});
	obj.data = 'foo';
	assertTrue(%HasFastProperties(obj));
	Object.seal(obj);
	assertTrue(%HasFastProperties(obj));
	assertTrue(Object.isSealed(obj));

	function Sealed() {}
	Object.seal(Sealed);
	assertDoesNotThrow(function() { return new Sealed(); });
	Sealed.prototype.prototypeExists = true;
	assertTrue((new Sealed()).prototypeExists);