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sourceRevisionAtLastExport: 33f2fb0e53d135f0ee17cfccd9d993eb2a6f47de targetRevisionAtLastExport: 31340cbd9add103f586d501b0c3354b7b182abc0
243 lines
6.9 KiB
JavaScript
243 lines
6.9 KiB
JavaScript
// Copyright 2011 the V8 project authors. All rights reserved.
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// Redistribution and use in source and binary forms, with or without
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// modification, are permitted provided that the following conditions are
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// met:
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//
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// * Redistributions of source code must retain the above copyright
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// notice, this list of conditions and the following disclaimer.
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// * Redistributions in binary form must reproduce the above
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// copyright notice, this list of conditions and the following
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// disclaimer in the documentation and/or other materials provided
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// with the distribution.
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// * Neither the name of Google Inc. nor the names of its
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// contributors may be used to endorse or promote products derived
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// from this software without specific prior written permission.
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//
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// THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS
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// "AS IS" AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT
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// LIMITED TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR
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// A PARTICULAR PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT
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// OWNER OR CONTRIBUTORS BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL,
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// SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT
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// LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE,
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// DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY
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// THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT
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// (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE
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// OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE.
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// Flags: --allow-natives-syntax --noalways-opt --opt
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// It's nice to run this in other browsers too.
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var standalone = false;
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if (standalone) {
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assertTrue = function(val) {
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if (val != true) {
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print("FAILURE");
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}
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}
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assertFalse = function(val) {
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if (val != false) {
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print("FAILURE");
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}
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}
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assertEquals = function(expected, val) {
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if (expected !== val) {
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print("FAILURE");
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}
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}
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empty_func = function(name) { }
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assertUnoptimized = empty_func;
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assertOptimized = empty_func;
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optimize = empty_func;
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clearFunctionTypeFeedback = empty_func;
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deoptimizeFunction = empty_func;
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} else {
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optimize = function(name) {
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%OptimizeFunctionOnNextCall(name);
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}
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clearFunctionTypeFeedback = function(name) {
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%ClearFunctionFeedback(name);
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}
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deoptimizeFunction = function(name) {
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%DeoptimizeFunction(name);
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}
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}
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function base_getter_test(create_func) {
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var calls = 0;
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// Testcase: setter in prototype chain
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foo = function(a) { var x = a[0]; return x + 3; }
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var a = create_func();
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var ap = [];
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ap.__defineGetter__(0, function() { calls++; return 0; });
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foo(a);
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assertUnoptimized(foo);
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// Smi and Double elements transition the KeyedLoadIC to Generic state
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// here, because they miss twice with the same map when loading the hole.
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// For HOLEY_ELEMENTS, however, the IC knows how to convert the hole
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// to undefined if the prototype is the original array prototype, so it
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// stays monomorphic for now...
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foo(a);
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foo(a);
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delete a[0];
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assertEquals(0, calls);
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a.__proto__ = ap;
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// ...and later becomes polymorphic when it sees a second map. Optimized
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// code will therefore inline the elements access, and deopt right away
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// when it loads the hole from index [0].
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// Possible solutions:
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// - remove the convert_hole_to_undefined flag from the IC, to force it
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// into generic state for all elements kinds. Cost: slower ICs in code
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// that doesn't get optimized.
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// - teach Turbofan about the same trick: for holey elements with the
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// original array prototype, convert hole to undefined inline. Cost:
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// larger optimized code size, because the loads for different maps with
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// the same elements kind can no longer be consolidated if they handle
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// the hole differently.
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// - call "foo" twice after setting a.__proto__ and before optimizing it;
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// this is the simplest fix so let's do that for now.
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foo(a);
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assertEquals(1, calls);
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foo(a);
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assertEquals(2, calls);
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optimize(foo);
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foo(a);
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assertEquals(3, calls);
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assertOptimized(foo);
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// Testcase: getter "deep" in prototype chain.
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clearFunctionTypeFeedback(foo);
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deoptimizeFunction(foo);
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clearFunctionTypeFeedback(foo);
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calls = 0;
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a = create_func();
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var ap2 = [];
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a.__proto__ = ap2;
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foo(a);
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foo(a);
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foo(a);
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delete a[0];
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assertEquals(0, calls);
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ap2.__proto__ = ap; // "sneak" in a callback.
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// The sneak case should be caught by unoptimized code too.
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assertUnoptimized(foo);
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foo(a);
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foo(a);
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foo(a);
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assertEquals(3, calls);
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// Testcase: getter added after optimization (feedback is monomorphic)
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clearFunctionTypeFeedback(foo);
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deoptimizeFunction(foo);
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clearFunctionTypeFeedback(foo);
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calls = 0;
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a = create_func();
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ap2 = [];
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a.__proto__ = ap2;
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foo(a);
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foo(a);
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foo(a);
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optimize(foo);
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foo(a);
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assertOptimized(foo);
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delete a[0];
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ap2.__proto__ = ap;
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foo(a);
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assertOptimized(foo); // getters don't require deopt on shape change.
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assertEquals(1, calls);
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// Testcase: adding additional getters to a prototype chain that already has
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// one shouldn't deopt anything.
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clearFunctionTypeFeedback(foo);
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calls = 0;
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a = create_func();
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a.__proto__ = ap2;
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bar = function(a) { return a[3] + 600; }
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bar(a);
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bar(a);
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bar(a);
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optimize(bar);
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bar(a);
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assertOptimized(bar);
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assertEquals(0, calls);
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delete a[3];
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ap2.__defineGetter__(3, function() { calls++; return 0; });
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bar(a);
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assertOptimized(bar);
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assertEquals(1, calls);
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// Reset the state of foo and bar.
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clearFunctionTypeFeedback(foo);
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deoptimizeFunction(foo);
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clearFunctionTypeFeedback(foo);
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clearFunctionTypeFeedback(bar);
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deoptimizeFunction(bar);
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clearFunctionTypeFeedback(bar);
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}
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// Verify that map transitions don't confuse us.
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create_func_smi = function() { return [,,,,,,5]; }
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create_func_double = function() { return [,,,,,,5.5]; }
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create_func_fast = function() { return [,,,,,,true]; }
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var cf = [create_func_smi,
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create_func_double,
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create_func_fast];
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for(var c = 0; c < cf.length; c++) {
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base_getter_test(cf[c]);
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}
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// A special test for LoadKeyedHoleMode. Ensure that optimized is generated
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// which sets ALLOW_RETURN_HOLE, then add a setter on the prototype that should
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// cause the function to deoptimize.
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var a = [3.5,,,3.5];
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fun = function(a) { return a[0] + 5.5; }
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fun(a);
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fun(a);
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fun(a); // should have a monomorphic KeyedLoadIC.
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optimize(fun);
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fun(a);
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assertOptimized(fun);
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// returning undefined shouldn't phase us.
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delete a[0];
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fun(a);
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assertOptimized(fun);
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// but messing up the prototype chain will.
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a.__proto__ = [];
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fun(a);
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assertUnoptimized(fun);
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// Construct a non-trivial prototype chain.
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var a = [3.5,,,,3.5];
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var ap = [,,3.5];
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ap.__proto__ = a.__proto__;
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a.__proto__ = ap;
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fun(a);
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optimize(fun);
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fun(a);
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assertOptimized(fun);
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var calls = 0;
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delete a[0];
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ap.__defineGetter__(0, function() { calls++; return 0; });
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fun(a);
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assertEquals(1, calls);
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assertUnoptimized(fun);
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