// Copyright 2012 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. // Test dictionary -> double elements -> dictionary elements round trip // Flags: --allow-natives-syntax --unbox-double-arrays --expose-gc --noparallel-recompilation var large_array_size = 100000; var approx_dict_to_elements_threshold = 70000; var name = 0; function expected_array_value(i) { if ((i % 50) != 0) { return i; } else { return i + 0.5; } } function force_to_fast_double_array(a) { a[large_array_size - 2] = 1; for (var i= 0; i < approx_dict_to_elements_threshold; ++i ) { a[i] = expected_array_value(i); } assertTrue(%HasFastDoubleElements(a)); } function make_object_like_array(size) { obj = new Object(); obj.length = size; return obj; } function testOneArrayType(allocator) { var large_array = new allocator(large_array_size); force_to_fast_double_array(large_array); var six = 6; for (var i= 0; i < approx_dict_to_elements_threshold; i += 501 ) { assertEquals(expected_array_value(i), large_array[i]); } // This function has a constant and won't get inlined. function computed_6() { return six; } // Multiple versions of the test function makes sure that IC/Crankshaft state // doesn't get reused. function test_various_loads(a, value_5, value_6, value_7) { assertTrue(%HasFastDoubleElements(a)); assertEquals(value_5, a[5]); assertEquals(value_6, a[6]); assertEquals(value_6, a[computed_6()]); // Test non-constant key assertEquals(value_7, a[7]); assertEquals(large_array_size, a.length); assertTrue(%HasFastDoubleElements(a)); } function test_various_loads2(a, value_5, value_6, value_7) { assertTrue(%HasFastDoubleElements(a)); assertEquals(value_5, a[5]); assertEquals(value_6, a[6]); assertEquals(value_6, a[computed_6()]); // Test non-constant key assertEquals(value_7, a[7]); assertEquals(large_array_size, a.length); assertTrue(%HasFastDoubleElements(a)); } function test_various_loads3(a, value_5, value_6, value_7) { assertTrue(%HasFastDoubleElements(a)); assertEquals(value_5, a[5]); assertEquals(value_6, a[6]); assertEquals(value_6, a[computed_6()]); // Test non-constant key assertEquals(value_7, a[7]); assertEquals(large_array_size, a.length); assertTrue(%HasFastDoubleElements(a)); } function test_various_loads4(a, value_5, value_6, value_7) { assertTrue(%HasFastDoubleElements(a)); assertEquals(value_5, a[5]); assertEquals(value_6, a[6]); assertEquals(value_6, a[computed_6()]); // Test non-constant key assertEquals(value_7, a[7]); assertEquals(large_array_size, a.length); assertTrue(%HasFastDoubleElements(a)); } function test_various_loads5(a, value_5, value_6, value_7) { assertTrue(%HasFastDoubleElements(a)); if (value_5 != undefined) { assertEquals(value_5, a[5]); }; if (value_6 != undefined) { assertEquals(value_6, a[6]); assertEquals(value_6, a[computed_6()]); // Test non-constant key } assertEquals(value_7, a[7]); assertEquals(large_array_size, a.length); assertTrue(%HasFastDoubleElements(a)); } function test_various_loads6(a, value_5, value_6, value_7) { assertTrue(%HasFastDoubleElements(a)); assertEquals(value_5, a[5]); assertEquals(value_6, a[6]); assertEquals(value_6, a[computed_6()]); // Test non-constant key assertEquals(value_7, a[7]); assertEquals(large_array_size, a.length); assertTrue(%HasFastDoubleElements(a)); } function test_various_loads7(a, value_5, value_6, value_7) { assertTrue(%HasFastDoubleElements(a)); assertEquals(value_5, a[5]); assertEquals(value_6, a[6]); assertEquals(value_6, a[computed_6()]); // Test non-constant key assertEquals(value_7, a[7]); assertEquals(large_array_size, a.length); assertTrue(%HasFastDoubleElements(a)); } function test_various_stores(a, value_5, value_6, value_7) { assertTrue(%HasFastDoubleElements(a)); a[5] = value_5; a[computed_6()] = value_6; a[7] = value_7; assertTrue(%HasFastDoubleElements(a)); } // Test double and integer values test_various_loads(large_array, expected_array_value(5), expected_array_value(6), expected_array_value(7)); test_various_loads(large_array, expected_array_value(5), expected_array_value(6), expected_array_value(7)); test_various_loads(large_array, expected_array_value(5), expected_array_value(6), expected_array_value(7)); %OptimizeFunctionOnNextCall(test_various_loads); test_various_loads(large_array, expected_array_value(5), expected_array_value(6), expected_array_value(7)); // Test NaN values test_various_stores(large_array, NaN, -NaN, expected_array_value(7)); test_various_loads2(large_array, NaN, -NaN, expected_array_value(7)); test_various_loads2(large_array, NaN, -NaN, expected_array_value(7)); test_various_loads2(large_array, NaN, -NaN, expected_array_value(7)); %OptimizeFunctionOnNextCall(test_various_loads2); test_various_loads2(large_array, NaN, -NaN, expected_array_value(7)); // Test Infinity values test_various_stores(large_array, Infinity, -Infinity, expected_array_value(7)); test_various_loads3(large_array, Infinity, -Infinity, expected_array_value(7)); test_various_loads3(large_array, Infinity, -Infinity, expected_array_value(7)); test_various_loads3(large_array, Infinity, -Infinity, expected_array_value(7)); %OptimizeFunctionOnNextCall(test_various_loads3); test_various_loads3(large_array, Infinity, -Infinity, expected_array_value(7)); // Test the hole for the default runtime implementation. delete large_array[5]; delete large_array[6]; test_various_loads4(large_array, undefined, undefined, expected_array_value(7)); // Test the keyed load IC implementation when the value is the hole. test_various_stores(large_array, expected_array_value(5), expected_array_value(6), expected_array_value(7)); test_various_loads5(large_array, expected_array_value(5), expected_array_value(6), expected_array_value(7)); test_various_loads5(large_array, expected_array_value(5), expected_array_value(6), expected_array_value(7)); delete large_array[5]; delete large_array[6]; test_various_loads5(large_array, undefined, undefined, expected_array_value(7)); test_various_loads5(large_array, undefined, undefined, expected_array_value(7)); // Make sure Crankshaft code handles the hole correctly (bailout) var large_array = new allocator(large_array_size); force_to_fast_double_array(large_array); test_various_stores(large_array, expected_array_value(5), expected_array_value(6), expected_array_value(7)); test_various_loads6(large_array, expected_array_value(5), expected_array_value(6), expected_array_value(7)); test_various_loads6(large_array, expected_array_value(5), expected_array_value(6), expected_array_value(7)); %OptimizeFunctionOnNextCall(test_various_loads6); test_various_loads6(large_array, expected_array_value(5), expected_array_value(6), expected_array_value(7)); delete large_array[5]; delete large_array[6]; test_various_loads6(large_array, undefined, undefined, expected_array_value(7)); %DeoptimizeFunction(test_various_loads6); %ClearFunctionTypeFeedback(test_various_stores); %ClearFunctionTypeFeedback(test_various_loads7); // Test stores for non-NaN. var large_array = new allocator(large_array_size); force_to_fast_double_array(large_array); %OptimizeFunctionOnNextCall(test_various_stores); test_various_stores(large_array, expected_array_value(5), expected_array_value(6), expected_array_value(7)); test_various_stores(large_array, expected_array_value(5), expected_array_value(6), expected_array_value(7)); test_various_loads7(large_array, expected_array_value(5), expected_array_value(6), expected_array_value(7)); test_various_loads7(large_array, expected_array_value(5), expected_array_value(6), expected_array_value(7)); %OptimizeFunctionOnNextCall(test_various_loads7); test_various_loads7(large_array, expected_array_value(5), expected_array_value(6), expected_array_value(7)); // Test NaN behavior for stores. test_various_stores(large_array, NaN, -NaN, expected_array_value(7)); test_various_stores(large_array, NaN, -NaN, expected_array_value(7)); test_various_loads7(large_array, NaN, -NaN, expected_array_value(7)); // Test Infinity behavior for stores. test_various_stores(large_array, Infinity, -Infinity, expected_array_value(7)); test_various_stores(large_array, Infinity, -Infinity, expected_array_value(7)); test_various_loads7(large_array, Infinity, -Infinity, expected_array_value(7)); assertTrue(%GetOptimizationStatus(test_various_stores) != 2); // Make sure that we haven't converted from fast double. assertTrue(%HasFastDoubleElements(large_array)); } testOneArrayType(make_object_like_array); testOneArrayType(Array); var large_array = new Array(large_array_size); force_to_fast_double_array(large_array); assertTrue(%HasFastDoubleElements(large_array)); // Cause the array to grow beyond it's JSArray length. This will double the // size of the capacity and force the array into "slow" dictionary case. large_array[5] = Infinity; large_array[large_array_size+10001] = 50; assertTrue(%HasDictionaryElements(large_array)); assertEquals(50, large_array[large_array_size+10001]); assertEquals(large_array_size+10002, large_array.length); assertEquals(Infinity, large_array[5]); assertEquals(undefined, large_array[large_array_size-1]); assertEquals(undefined, large_array[-1]); assertEquals(large_array_size+10002, large_array.length); // Test dictionary -> double elements -> fast elements. var large_array2 = new Array(large_array_size); force_to_fast_double_array(large_array2); delete large_array2[5]; // Convert back to fast elements and make sure the contents of the array are // unchanged. large_array2[25] = new Object(); assertTrue(%HasFastObjectElements(large_array2)); for (var i= 0; i < approx_dict_to_elements_threshold; i += 500 ) { if (i != 25 && i != 5) { assertEquals(expected_array_value(i), large_array2[i]); } } assertEquals(undefined, large_array2[5]); assertEquals(undefined, large_array2[large_array_size-1]); assertEquals(undefined, large_array2[-1]); assertEquals(large_array_size, large_array2.length); // Make sure it's possible to change the array's length and that array is still // intact after the resize. var large_array3 = new Array(large_array_size); force_to_fast_double_array(large_array3); large_array3.length = 60000; assertEquals(60000, large_array3.length); assertEquals(undefined, large_array3[60000]); assertTrue(%HasFastDoubleElements(large_array3)); assertEquals(expected_array_value(5), large_array3[5]); assertEquals(expected_array_value(6), large_array3[6]); assertEquals(expected_array_value(7), large_array3[7]); assertEquals(expected_array_value(large_array3.length-1), large_array3[large_array3.length-1]); assertEquals(undefined, large_array3[large_array_size-1]); assertEquals(undefined, large_array3[-1]); gc(); for (var i= 0; i < large_array3.length; i += 501 ) { assertEquals(expected_array_value(i), large_array3[i]); } large_array3.length = 25; assertEquals(25, large_array3.length); assertTrue(%HasFastDoubleElements(large_array3)); assertEquals(undefined, large_array3[25]); assertEquals(expected_array_value(5), large_array3[5]); assertEquals(expected_array_value(6), large_array3[6]); assertEquals(expected_array_value(7), large_array3[7]); assertEquals(expected_array_value(large_array3.length-1), large_array3[large_array3.length-1]); assertEquals(undefined, large_array3[large_array_size-1]); assertEquals(undefined, large_array3[-1]); gc(); for (var i= 0; i < large_array3.length; ++i) { assertEquals(expected_array_value(i), large_array3[i]); } large_array3.length = 100; assertEquals(100, large_array3.length); large_array3[95] = 95; assertTrue(%HasFastDoubleElements(large_array3)); assertEquals(undefined, large_array3[100]); assertEquals(95, large_array3[95]); assertEquals(expected_array_value(5), large_array3[5]); assertEquals(expected_array_value(6), large_array3[6]); assertEquals(expected_array_value(7), large_array3[7]); assertEquals(undefined, large_array3[large_array3.length-1]); assertEquals(undefined, large_array3[large_array_size-1]); assertEquals(undefined, large_array3[-1]); gc(); // Test apply on arrays backed by double elements. function called_by_apply(arg0, arg1, arg2, arg3, arg4, arg5, arg6) { assertEquals(expected_array_value(0), arg0); assertEquals(NaN, arg1); assertEquals(-NaN, arg2); assertEquals(Infinity, arg3); assertEquals(-Infinity, arg4); assertEquals(expected_array_value(5), arg5); } large_array3[1] = NaN; large_array3[2] = -NaN; large_array3[3] = Infinity; large_array3[4] = -Infinity; function call_apply() { called_by_apply.apply({}, large_array3); } call_apply(); call_apply(); call_apply(); %OptimizeFunctionOnNextCall(call_apply); call_apply(); call_apply(); call_apply(); function test_for_in() { // Due to previous tests, keys 0..25 and 95 should be present. next_expected = 0; for (x in large_array3) { assertTrue(next_expected++ == x); if (next_expected == 25) { next_expected = 95; } } assertTrue(next_expected == 96); } test_for_in(); test_for_in(); test_for_in(); %OptimizeFunctionOnNextCall(test_for_in); test_for_in(); test_for_in(); test_for_in(); function test_get_property_names() { names = %GetPropertyNames(large_array3); property_name_count = 0; for (x in names) { property_name_count++; }; assertEquals(26, property_name_count); } test_get_property_names(); test_get_property_names(); test_get_property_names(); // Test elements getters. assertEquals(expected_array_value(10), large_array3[10]); assertEquals(expected_array_value(-NaN), large_array3[2]); large_array3.__defineGetter__("2", function(){ return expected_array_value(10); }); function test_getter() { assertEquals(expected_array_value(10), large_array3[10]); assertEquals(expected_array_value(10), large_array3[2]); } test_getter(); test_getter(); test_getter(); %OptimizeFunctionOnNextCall(test_getter); test_getter(); test_getter(); test_getter(); // Test element setters. large_array4 = new Array(large_array_size); force_to_fast_double_array(large_array4); var setter_called = false; assertEquals(expected_array_value(10), large_array4[10]); assertEquals(expected_array_value(2), large_array4[2]); large_array4.__defineSetter__("10", function(value){ setter_called = true; }); function test_setter() { setter_called = false; large_array4[10] = 119; assertTrue(setter_called); assertEquals(undefined, large_array4[10]); assertEquals(expected_array_value(2), large_array4[2]); } test_setter(); test_setter(); test_setter(); %OptimizeFunctionOnNextCall(test_setter); test_setter(); test_setter(); test_setter();