// Copyright 2009 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. // Flags: --allow-natives-syntax /** * @fileoverview Test reduce and reduceRight */ function clone(v) { // Shallow-copies arrays, returns everything else verbatim. if (v instanceof Array) { // Shallow-copy an array. var newArray = new Array(v.length); for (var i in v) { newArray[i] = v[i]; } return newArray; } return v; } // Creates a callback function for reduce/reduceRight that tests the number // of arguments and otherwise behaves as "func", but which also // records all calls in an array on the function (as arrays of arguments // followed by result). function makeRecorder(func, testName) { var record = []; var f = function recorder(a, b, i, s) { assertEquals(4, arguments.length, testName + "(number of arguments: " + arguments.length + ")"); assertEquals("number", typeof(i), testName + "(index must be number)"); assertEquals(s[i], b, testName + "(current argument is at index)"); if (record.length > 0) { var prevRecord = record[record.length - 1]; var prevResult = prevRecord[prevRecord.length - 1]; assertEquals(prevResult, a, testName + "(prev result -> current input)"); } var args = [clone(a), clone(b), i, clone(s)]; var result = func.apply(this, arguments); args.push(clone(result)); record.push(args); return result; }; f.record = record; return f; } function testReduce(type, testName, expectedResult, expectedCalls, array, combine, init) { var rec = makeRecorder(combine); var result; var performsCall; if (arguments.length > 6) { result = array[type](rec, init); } else { result = array[type](rec); } var calls = rec.record; assertEquals(expectedCalls.length, calls.length, testName + " (number of calls)"); for (var i = 0; i < expectedCalls.length; i++) { assertEquals(expectedCalls[i], calls[i], testName + " (call " + (i + 1) + ")"); } assertEquals(expectedResult, result, testName + " (result)"); } function sum(a, b) { return a + b; } function prod(a, b) { return a * b; } function dec(a, b, i, arr) { return a + b * Math.pow(10, arr.length - i - 1); } function accumulate(acc, elem, i) { acc[i] = elem; return acc; } // ---- Test Reduce[Left] var simpleArray = [2,4,6] testReduce("reduce", "SimpleReduceSum", 12, [[0, 2, 0, simpleArray, 2], [2, 4, 1, simpleArray, 6], [6, 6, 2, simpleArray, 12]], simpleArray, sum, 0); testReduce("reduce", "SimpleReduceProd", 48, [[1, 2, 0, simpleArray, 2], [2, 4, 1, simpleArray, 8], [8, 6, 2, simpleArray, 48]], simpleArray, prod, 1); testReduce("reduce", "SimpleReduceDec", 246, [[0, 2, 0, simpleArray, 200], [200, 4, 1, simpleArray, 240], [240, 6, 2, simpleArray, 246]], simpleArray, dec, 0); testReduce("reduce", "SimpleReduceAccumulate", simpleArray, [[[], 2, 0, simpleArray, [2]], [[2], 4, 1, simpleArray, [2, 4]], [[2,4], 6, 2, simpleArray, simpleArray]], simpleArray, accumulate, []); testReduce("reduce", "EmptyReduceSum", 0, [], [], sum, 0); testReduce("reduce", "EmptyReduceProd", 1, [], [], prod, 1); testReduce("reduce", "EmptyReduceDec", 0, [], [], dec, 0); testReduce("reduce", "EmptyReduceAccumulate", [], [], [], accumulate, []); testReduce("reduce", "EmptyReduceSumNoInit", 0, [], [0], sum); testReduce("reduce", "EmptyReduceProdNoInit", 1, [], [1], prod); testReduce("reduce", "EmptyReduceDecNoInit", 0, [], [0], dec); testReduce("reduce", "EmptyReduceAccumulateNoInit", [], [], [[]], accumulate); var simpleSparseArray = [,,,2,,4,,6,,]; testReduce("reduce", "SimpleSparseReduceSum", 12, [[0, 2, 3, simpleSparseArray, 2], [2, 4, 5, simpleSparseArray, 6], [6, 6, 7, simpleSparseArray, 12]], simpleSparseArray, sum, 0); testReduce("reduce", "SimpleSparseReduceProd", 48, [[1, 2, 3, simpleSparseArray, 2], [2, 4, 5, simpleSparseArray, 8], [8, 6, 7, simpleSparseArray, 48]], simpleSparseArray, prod, 1); testReduce("reduce", "SimpleSparseReduceDec", 204060, [[0, 2, 3, simpleSparseArray, 200000], [200000, 4, 5, simpleSparseArray, 204000], [204000, 6, 7, simpleSparseArray, 204060]], simpleSparseArray, dec, 0); testReduce("reduce", "SimpleSparseReduceAccumulate", [,,,2,,4,,6], [[[], 2, 3, simpleSparseArray, [,,,2]], [[,,,2], 4, 5, simpleSparseArray, [,,,2,,4]], [[,,,2,,4], 6, 7, simpleSparseArray, [,,,2,,4,,6]]], simpleSparseArray, accumulate, []); testReduce("reduce", "EmptySparseReduceSumNoInit", 0, [], [,,0,,], sum); testReduce("reduce", "EmptySparseReduceProdNoInit", 1, [], [,,1,,], prod); testReduce("reduce", "EmptySparseReduceDecNoInit", 0, [], [,,0,,], dec); testReduce("reduce", "EmptySparseReduceAccumulateNoInit", [], [], [,,[],,], accumulate); var verySparseArray = []; verySparseArray.length = 10000; verySparseArray[2000] = 2; verySparseArray[5000] = 4; verySparseArray[9000] = 6; var verySparseSlice2 = verySparseArray.slice(0, 2001); var verySparseSlice4 = verySparseArray.slice(0, 5001); var verySparseSlice6 = verySparseArray.slice(0, 9001); testReduce("reduce", "VerySparseReduceSum", 12, [[0, 2, 2000, verySparseArray, 2], [2, 4, 5000, verySparseArray, 6], [6, 6, 9000, verySparseArray, 12]], verySparseArray, sum, 0); testReduce("reduce", "VerySparseReduceProd", 48, [[1, 2, 2000, verySparseArray, 2], [2, 4, 5000, verySparseArray, 8], [8, 6, 9000, verySparseArray, 48]], verySparseArray, prod, 1); testReduce("reduce", "VerySparseReduceDec", Infinity, [[0, 2, 2000, verySparseArray, Infinity], [Infinity, 4, 5000, verySparseArray, Infinity], [Infinity, 6, 9000, verySparseArray, Infinity]], verySparseArray, dec, 0); testReduce("reduce", "VerySparseReduceAccumulate", verySparseSlice6, [[[], 2, 2000, verySparseArray, verySparseSlice2], [verySparseSlice2, 4, 5000, verySparseArray, verySparseSlice4], [verySparseSlice4, 6, 9000, verySparseArray, verySparseSlice6]], verySparseArray, accumulate, []); testReduce("reduce", "VerySparseReduceSumNoInit", 12, [[2, 4, 5000, verySparseArray, 6], [6, 6, 9000, verySparseArray, 12]], verySparseArray, sum); testReduce("reduce", "VerySparseReduceProdNoInit", 48, [[2, 4, 5000, verySparseArray, 8], [8, 6, 9000, verySparseArray, 48]], verySparseArray, prod); testReduce("reduce", "VerySparseReduceDecNoInit", Infinity, [[2, 4, 5000, verySparseArray, Infinity], [Infinity, 6, 9000, verySparseArray, Infinity]], verySparseArray, dec); testReduce("reduce", "SimpleSparseReduceAccumulateNoInit", 2, [[2, 4, 5000, verySparseArray, 2], [2, 6, 9000, verySparseArray, 2]], verySparseArray, accumulate); // ---- Test ReduceRight testReduce("reduceRight", "SimpleReduceRightSum", 12, [[0, 6, 2, simpleArray, 6], [6, 4, 1, simpleArray, 10], [10, 2, 0, simpleArray, 12]], simpleArray, sum, 0); testReduce("reduceRight", "SimpleReduceRightProd", 48, [[1, 6, 2, simpleArray, 6], [6, 4, 1, simpleArray, 24], [24, 2, 0, simpleArray, 48]], simpleArray, prod, 1); testReduce("reduceRight", "SimpleReduceRightDec", 246, [[0, 6, 2, simpleArray, 6], [6, 4, 1, simpleArray, 46], [46, 2, 0, simpleArray, 246]], simpleArray, dec, 0); testReduce("reduceRight", "SimpleReduceRightAccumulate", simpleArray, [[[], 6, 2, simpleArray, [,,6]], [[,,6], 4, 1, simpleArray, [,4,6]], [[,4,6], 2, 0, simpleArray, simpleArray]], simpleArray, accumulate, []); testReduce("reduceRight", "EmptyReduceRightSum", 0, [], [], sum, 0); testReduce("reduceRight", "EmptyReduceRightProd", 1, [], [], prod, 1); testReduce("reduceRight", "EmptyReduceRightDec", 0, [], [], dec, 0); testReduce("reduceRight", "EmptyReduceRightAccumulate", [], [], [], accumulate, []); testReduce("reduceRight", "EmptyReduceRightSumNoInit", 0, [], [0], sum); testReduce("reduceRight", "EmptyReduceRightProdNoInit", 1, [], [1], prod); testReduce("reduceRight", "EmptyReduceRightDecNoInit", 0, [], [0], dec); testReduce("reduceRight", "EmptyReduceRightAccumulateNoInit", [], [], [[]], accumulate); testReduce("reduceRight", "SimpleSparseReduceRightSum", 12, [[0, 6, 7, simpleSparseArray, 6], [6, 4, 5, simpleSparseArray, 10], [10, 2, 3, simpleSparseArray, 12]], simpleSparseArray, sum, 0); testReduce("reduceRight", "SimpleSparseReduceRightProd", 48, [[1, 6, 7, simpleSparseArray, 6], [6, 4, 5, simpleSparseArray, 24], [24, 2, 3, simpleSparseArray, 48]], simpleSparseArray, prod, 1); testReduce("reduceRight", "SimpleSparseReduceRightDec", 204060, [[0, 6, 7, simpleSparseArray, 60], [60, 4, 5, simpleSparseArray, 4060], [4060, 2, 3, simpleSparseArray, 204060]], simpleSparseArray, dec, 0); testReduce("reduceRight", "SimpleSparseReduceRightAccumulate", [,,,2,,4,,6], [[[], 6, 7, simpleSparseArray, [,,,,,,,6]], [[,,,,,,,6], 4, 5, simpleSparseArray, [,,,,,4,,6]], [[,,,,,4,,6], 2, 3, simpleSparseArray, [,,,2,,4,,6]]], simpleSparseArray, accumulate, []); testReduce("reduceRight", "EmptySparseReduceRightSumNoInit", 0, [], [,,0,,], sum); testReduce("reduceRight", "EmptySparseReduceRightProdNoInit", 1, [], [,,1,,], prod); testReduce("reduceRight", "EmptySparseReduceRightDecNoInit", 0, [], [,,0,,], dec); testReduce("reduceRight", "EmptySparseReduceRightAccumulateNoInit", [], [], [,,[],,], accumulate); var verySparseSuffix6 = []; verySparseSuffix6[9000] = 6; var verySparseSuffix4 = []; verySparseSuffix4[5000] = 4; verySparseSuffix4[9000] = 6; var verySparseSuffix2 = verySparseSlice6; testReduce("reduceRight", "VerySparseReduceRightSum", 12, [[0, 6, 9000, verySparseArray, 6], [6, 4, 5000, verySparseArray, 10], [10, 2, 2000, verySparseArray, 12]], verySparseArray, sum, 0); testReduce("reduceRight", "VerySparseReduceRightProd", 48, [[1, 6, 9000, verySparseArray, 6], [6, 4, 5000, verySparseArray, 24], [24, 2, 2000, verySparseArray, 48]], verySparseArray, prod, 1); testReduce("reduceRight", "VerySparseReduceRightDec", Infinity, [[0, 6, 9000, verySparseArray, Infinity], [Infinity, 4, 5000, verySparseArray, Infinity], [Infinity, 2, 2000, verySparseArray, Infinity]], verySparseArray, dec, 0); testReduce("reduceRight", "VerySparseReduceRightAccumulate", verySparseSuffix2, [[[], 6, 9000, verySparseArray, verySparseSuffix6], [verySparseSuffix6, 4, 5000, verySparseArray, verySparseSuffix4], [verySparseSuffix4, 2, 2000, verySparseArray, verySparseSuffix2]], verySparseArray, accumulate, []); testReduce("reduceRight", "VerySparseReduceRightSumNoInit", 12, [[6, 4, 5000, verySparseArray, 10], [10, 2, 2000, verySparseArray, 12]], verySparseArray, sum); testReduce("reduceRight", "VerySparseReduceRightProdNoInit", 48, [[6, 4, 5000, verySparseArray, 24], [24, 2, 2000, verySparseArray, 48]], verySparseArray, prod); testReduce("reduceRight", "VerySparseReduceRightDecNoInit", Infinity, [[6, 4, 5000, verySparseArray, Infinity], [Infinity, 2, 2000, verySparseArray, Infinity]], verySparseArray, dec); testReduce("reduceRight", "SimpleSparseReduceRightAccumulateNoInit", 6, [[6, 4, 5000, verySparseArray, 6], [6, 2, 2000, verySparseArray, 6]], verySparseArray, accumulate); // undefined is an element var undefArray = [,,undefined,,undefined,,]; testReduce("reduce", "SparseUndefinedReduceAdd", NaN, [[0, undefined, 2, undefArray, NaN], [NaN, undefined, 4, undefArray, NaN], ], undefArray, sum, 0); testReduce("reduceRight", "SparseUndefinedReduceRightAdd", NaN, [[0, undefined, 4, undefArray, NaN], [NaN, undefined, 2, undefArray, NaN], ], undefArray, sum, 0); testReduce("reduce", "SparseUndefinedReduceAddNoInit", NaN, [[undefined, undefined, 4, undefArray, NaN], ], undefArray, sum); testReduce("reduceRight", "SparseUndefinedReduceRightAddNoInit", NaN, [[undefined, undefined, 2, undefArray, NaN], ], undefArray, sum); // Ignore non-array properties: var arrayPlus = [1,2,,3]; arrayPlus[-1] = NaN; arrayPlus[Math.pow(2,32)] = NaN; arrayPlus[NaN] = NaN; arrayPlus["00"] = NaN; arrayPlus["02"] = NaN; arrayPlus["-0"] = NaN; testReduce("reduce", "ArrayWithNonElementPropertiesReduce", 6, [[0, 1, 0, arrayPlus, 1], [1, 2, 1, arrayPlus, 3], [3, 3, 3, arrayPlus, 6], ], arrayPlus, sum, 0); testReduce("reduceRight", "ArrayWithNonElementPropertiesReduceRight", 6, [[0, 3, 3, arrayPlus, 3], [3, 2, 1, arrayPlus, 5], [5, 1, 0, arrayPlus, 6], ], arrayPlus, sum, 0); // Test passing undefined as initial value (to test missing parameter // detection). [1].reduce((a, b) => { assertEquals(a, undefined); assertEquals(b, 1) }, undefined); [1, 2].reduce((a, b) => { assertEquals(a, 1); assertEquals(b, 2); }); [1].reduce((a, b) => { assertTrue(false); }); // Test error conditions: var exception = false; try { [1].reduce("not a function"); } catch (e) { exception = true; assertTrue(e instanceof TypeError, "reduce callback not a function not throwing TypeError"); assertTrue(e.message.indexOf(" is not a function") >= 0, "reduce non function TypeError type"); } assertTrue(exception); exception = false; try { [1].reduceRight("not a function"); } catch (e) { exception = true; assertTrue(e instanceof TypeError, "reduceRight callback not a function not throwing TypeError"); assertTrue(e.message.indexOf(" is not a function") >= 0, "reduceRight non function TypeError type"); } assertTrue(exception); exception = false; try { [].reduce(sum); } catch (e) { exception = true; assertTrue(e instanceof TypeError, "reduce no initial value not throwing TypeError"); assertEquals("Reduce of empty array with no initial value", e.message, "reduce no initial TypeError type"); } assertTrue(exception); exception = false; try { [].reduceRight(sum); } catch (e) { exception = true; assertTrue(e instanceof TypeError, "reduceRight no initial value not throwing TypeError"); assertEquals("Reduce of empty array with no initial value", e.message, "reduceRight no initial TypeError type"); } assertTrue(exception); exception = false; try { [,,,].reduce(sum); } catch (e) { exception = true; assertTrue(e instanceof TypeError, "reduce sparse no initial value not throwing TypeError"); assertEquals("Reduce of empty array with no initial value", e.message, "reduce no initial TypeError type"); } assertTrue(exception); exception = false; try { [,,,].reduceRight(sum); } catch (e) { exception = true; assertTrue(e instanceof TypeError, "reduceRight sparse no initial value not throwing TypeError"); assertEquals("Reduce of empty array with no initial value", e.message, "reduceRight no initial TypeError type"); } assertTrue(exception); // Array changing length function manipulator(a, b, i, s) { if (s.length % 2) { s[s.length * 3] = i; } else { s.length = s.length >> 1; } return a + b; } var arr = [1, 2, 3, 4]; testReduce("reduce", "ArrayManipulationShort", 3, [[0, 1, 0, [1, 2, 3, 4], 1], [1, 2, 1, [1, 2], 3], ], arr, manipulator, 0); var arr = [1, 2, 3, 4]; testReduce("reduceRight", "RightArrayManipulationShort", 7, [[0, 4, 3, [1, 2, 3, 4], 4], [4, 2, 1, [1, 2], 6], [6, 1, 0, [1], 7], ], arr, manipulator, 0); var arr = [1, 2, 3, 4, 5]; testReduce("reduce", "ArrayManipulationLonger", 10, [[0, 1, 0, [1, 2, 3, 4, 5], 1], [1, 2, 1, [1, 2, 3, 4, 5,,,,,,,,,,, 0], 3], [3, 3, 2, [1, 2, 3, 4, 5,,,,], 6], [6, 4, 3, [1, 2, 3, 4], 10], ], arr, manipulator, 0); function extender(a, b, i, s) { s[s.length] = s.length; return a + b; } var arr = [1, 2, 3, 4]; testReduce("reduce", "ArrayManipulationExtender", 10, [[0, 1, 0, [1, 2, 3, 4], 1], [1, 2, 1, [1, 2, 3, 4, 4], 3], [3, 3, 2, [1, 2, 3, 4, 4, 5], 6], [6, 4, 3, [1, 2, 3, 4, 4, 5, 6], 10], ], arr, extender, 0); var arr = []; Object.defineProperty(arr, "0", { get: function() { delete this[0] }, configurable: true }); assertEquals(undefined, arr.reduce(function(val) { return val })); var arr = []; Object.defineProperty(arr, "0", { get: function() { delete this[0] }, configurable: true}); assertEquals(undefined, arr.reduceRight(function(val) { return val })); (function ReduceRightMaxIndex() { const kMaxIndex = 0xffffffff-1; let array = []; array[kMaxIndex-2] = 'value-2'; array[kMaxIndex-1] = 'value-1'; // Use the maximum array index possible. array[kMaxIndex] = 'value'; // Add the next index which is a normal property and thus will not show up. array[kMaxIndex+1] = 'normal property'; assertThrowsEquals( () => { array.reduceRight((sum, value) => { assertEquals('initial', sum); assertEquals('value', value); // Throw at this point as we would very slowly loop down from kMaxIndex. throw 'do not continue'; }, 'initial') }, 'do not continue'); })(); (function OptimizedReduce() { let f = (a,current) => a + current; let g = function(a) { return a.reduce(f); }; %PrepareFunctionForOptimization(g); let a = [1,2,3,4,5,6,7,8,9,10]; g(a); g(a); let total = g(a); %OptimizeFunctionOnNextCall(g); assertEquals(total, g(a)); })(); (function OptimizedReduceEmpty() { let f = (a,current) => a + current; let g = function(a) { return a.reduce(f); }; %PrepareFunctionForOptimization(g); let a = [1,2,3,4,5,6,7,8,9,10]; g(a); g(a); g(a); %OptimizeFunctionOnNextCall(g); g(a); assertThrows(() => g([])); })(); (function OptimizedReduceLazyDeopt() { let deopt = false; let f = (a,current) => { if (deopt) %DeoptimizeNow(); return a + current; }; let g = function(a) { return a.reduce(f); }; %PrepareFunctionForOptimization(g); let a = [1,2,3,4,5,6,7,8,9,10]; g(a); g(a); let total = g(a); %OptimizeFunctionOnNextCall(g); g(a); deopt = true; assertEquals(total, g(a)); })(); (function OptimizedReduceLazyDeoptMiddleOfIteration() { let deopt = false; let f = (a,current) => { if (current == 6 && deopt) %DeoptimizeNow(); return a + current; }; let g = function(a) { return a.reduce(f); }; %PrepareFunctionForOptimization(g); let a = [11,22,33,45,56,6,77,84,93,101]; g(a); g(a); let total = g(a); %OptimizeFunctionOnNextCall(g); g(a); deopt = true; assertEquals(total, g(a)); })(); (function OptimizedReduceEagerDeoptMiddleOfIteration() { let deopt = false; let array = [11,22,33,45,56,6,77,84,93,101]; let f = (a,current) => { if (current == 6 && deopt) {array[0] = 1.5; } return a + current; }; let g = function() { return array.reduce(f); }; %PrepareFunctionForOptimization(g); g(); g(); let total = g(); %OptimizeFunctionOnNextCall(g); g(); deopt = true; g(); %PrepareFunctionForOptimization(g); deopt = false; array = [11,22,33,45,56,6,77,84,93,101]; %OptimizeFunctionOnNextCall(g); g(); deopt = true; assertEquals(total, g()); })(); (function OptimizedReduceEagerDeoptMiddleOfIterationHoley() { let deopt = false; let array = [, ,11,22,,33,45,56,,6,77,84,93,101,]; let f = (a,current) => { if (current == 6 && deopt) {array[0] = 1.5; } return a + current; }; let g = function() { return array.reduce(f); }; %PrepareFunctionForOptimization(g); g(); g(); let total = g(); %OptimizeFunctionOnNextCall(g); g(); deopt = true; g(); %PrepareFunctionForOptimization(g); deopt = false; array = [11,22,33,45,56,6,77,84,93,101]; %OptimizeFunctionOnNextCall(g); g(); deopt = true; assertEquals(total, g()); })(); (function TriggerReduceRightPreLoopDeopt() { function f(a) { a.reduceRight((x) => { return x + 1 }); }; %PrepareFunctionForOptimization(f); f([1,2,]); f([1,2,]); %OptimizeFunctionOnNextCall(f); assertThrows(() => f([]), TypeError); })(); (function OptimizedReduceRightEagerDeoptMiddleOfIterationHoley() { let deopt = false; let array = [, ,11,22,,33,45,56,,6,77,84,93,101,]; let f = (a,current) => { if (current == 6 && deopt) {array[array.length-1] = 1.5; } return a + current; }; let g = function() { return array.reduceRight(f); }; %PrepareFunctionForOptimization(g); g(); g(); let total = g(); %OptimizeFunctionOnNextCall(g); g(); deopt = true; g(); %PrepareFunctionForOptimization(g); deopt = false; array = [11,22,33,45,56,6,77,84,93,101]; %OptimizeFunctionOnNextCall(g); g(); deopt = true; assertEquals(total, g()); })(); (function ReduceCatch() { let f = (a,current) => { return a + current; }; let g = function() { try { return array.reduce(f); } catch (e) { } }; %PrepareFunctionForOptimization(g); g(); g(); let total = g(); %OptimizeFunctionOnNextCall(g); g(); g(); assertEquals(total, g()); })(); (function ReduceThrow() { let done = false; let f = (a, current) => { if (done) throw "x"; return a + current; }; let array = [1,2,3]; let g = function() { try { return array.reduce(f); } catch (e) { return null; } }; %PrepareFunctionForOptimization(g); g(); g(); let total = g(); %OptimizeFunctionOnNextCall(g); g(); assertEquals(6, g()); done = true; assertEquals(null, g()); done = false; %PrepareFunctionForOptimization(g); g(); g(); %OptimizeFunctionOnNextCall(g); g(); assertEquals(6, g()); done = true; assertEquals(null, g()); })(); (function ReduceThrow() { let done = false; let f = (a, current) => { if (done) throw "x"; return a + current; }; %NeverOptimizeFunction(f); let array = [1,2,3]; let g = function() { try { return array.reduce(f); } catch (e) { return null; } }; %PrepareFunctionForOptimization(g); g(); g(); let total = g(); %OptimizeFunctionOnNextCall(g); g(); assertEquals(6, g()); done = true; assertEquals(null, g()); done = false; %PrepareFunctionForOptimization(g); g(); g(); %OptimizeFunctionOnNextCall(g); g(); assertEquals(6, g()); done = true; assertEquals(null, g()); })(); (function ReduceFinally() { let done = false; let f = (a, current) => { if (done) throw "x"; return a + current; }; let array = [1,2,3]; let g = function() { try { return array.reduce(f); } catch (e) { } finally { if (done) return null; } }; %PrepareFunctionForOptimization(g); g(); g(); let total = g(); %OptimizeFunctionOnNextCall(g); g(); assertEquals(6, g()); done = true; assertEquals(null, g()); done = false; %PrepareFunctionForOptimization(g); g(); g(); %OptimizeFunctionOnNextCall(g); g(); assertEquals(6, g()); done = true; assertEquals(null, g()); })(); (function ReduceFinallyNoInline() { let done = false; let f = (a, current) => { if (done) throw "x"; return a + current; }; %NeverOptimizeFunction(f); let array = [1,2,3]; let g = function() { try { return array.reduce(f); } catch (e) { } finally { if (done) return null; } }; %PrepareFunctionForOptimization(g); g(); g(); let total = g(); %OptimizeFunctionOnNextCall(g); g(); assertEquals(6, g()); done = true; assertEquals(null, g()); done = false; %PrepareFunctionForOptimization(g); g(); g(); %OptimizeFunctionOnNextCall(g); g(); assertEquals(6, g()); done = true; assertEquals(null, g()); })(); (function ReduceNonCallableOpt() { let done = false; let f = (a, current) => { return a + current; }; let array = [1,2,3]; let g = function() { return array.reduce(f); }; %PrepareFunctionForOptimization(g); g(); g(); let total = g(); %OptimizeFunctionOnNextCall(g); g(); g(); assertEquals(6, g()); f = null; assertThrows(() => g()); })(); (function ReduceCatchInlineDeopt() { let done = false; let f = (a, current) => { if (done) { %DeoptimizeNow(); throw "x"; } return a + current; }; let array = [1,2,3]; let g = function() { try { return array.reduce(f); } catch (e) { if (done) return null; } }; %PrepareFunctionForOptimization(g); g(); g(); let total = g(); %OptimizeFunctionOnNextCall(g); g(); assertEquals(6, g()); done = true; assertEquals(null, g()); done = false; %PrepareFunctionForOptimization(g); g(); g(); %OptimizeFunctionOnNextCall(g); g(); assertEquals(6, g()); done = true; assertEquals(null, g()); })(); (function ReduceFinallyInlineDeopt() { let done = false; let f = (a, current) => { if (done) { %DeoptimizeNow(); throw "x"; } return a + current; }; let array = [1,2,3]; let g = function() { try { return array.reduce(f); } catch (e) { } finally { if (done) return null; } }; %PrepareFunctionForOptimization(g); g(); g(); let total = g(); %OptimizeFunctionOnNextCall(g); g(); assertEquals(6, g()); done = true; assertEquals(null, g()); done = false; %PrepareFunctionForOptimization(g); g(); g(); %OptimizeFunctionOnNextCall(g); g(); assertEquals(6, g()); done = true; assertEquals(null, g()); })(); (function OptimizedReduceRight() { let count = 0; let f = (a,current,i) => a + current * ++count; let g = function(a) { count = 0; return a.reduceRight(f); }; %PrepareFunctionForOptimization(g); let a = [1,2,3,4,5,6,7,8,9,10]; g(a); g(a); let total = g(a); %OptimizeFunctionOnNextCall(g); assertEquals(total, g(a)); })(); (function OptimizedReduceEmpty() { let count = 0; let f = (a,current,i) => a + current * ++count; let g = function(a) { count = 0; return a.reduceRight(f); }; %PrepareFunctionForOptimization(g); let a = [1,2,3,4,5,6,7,8,9,10]; g(a); g(a); g(a); %OptimizeFunctionOnNextCall(g); g(a); assertThrows(() => g([])); })(); (function OptimizedReduceLazyDeopt() { let deopt = false; let f = (a,current) => { if (deopt) %DeoptimizeNow(); return a + current; }; let g = function(a) { return a.reduceRight(f); }; %PrepareFunctionForOptimization(g); let a = [1,2,3,4,5,6,7,8,9,10]; g(a); g(a); let total = g(a); %OptimizeFunctionOnNextCall(g); g(a); deopt = true; assertEquals(total, g(a)); })(); (function OptimizedReduceLazyDeoptMiddleOfIteration() { let deopt = false; let f = (a,current) => { if (current == 6 && deopt) %DeoptimizeNow(); return a + current; }; let g = function(a) { return a.reduceRight(f); }; %PrepareFunctionForOptimization(g); let a = [11,22,33,45,56,6,77,84,93,101]; g(a); g(a); let total = g(a); %OptimizeFunctionOnNextCall(g); g(a); deopt = true; assertEquals(total, g(a)); })(); (function OptimizedReduceEagerDeoptMiddleOfIteration() { let deopt = false; let array = [11,22,33,45,56,6,77,84,93,101]; let f = (a,current) => { if (current == 6 && deopt) {array[9] = 1.5; } return a + current; }; let g = function() { return array.reduceRight(f); }; %PrepareFunctionForOptimization(g); g(); g(); let total = g(); %OptimizeFunctionOnNextCall(g); g(); deopt = true; g(); %PrepareFunctionForOptimization(g); deopt = false; array = [11,22,33,45,56,6,77,84,93,101]; %OptimizeFunctionOnNextCall(g); g(); deopt = true; assertEquals(total, g()); })(); (function ReduceCatch() { let f = (a,current) => { return a + current; }; let g = function() { try { return array.reduceRight(f); } catch (e) { } }; %PrepareFunctionForOptimization(g); g(); g(); let total = g(); %OptimizeFunctionOnNextCall(g); g(); g(); assertEquals(total, g()); })(); (function ReduceThrow() { let done = false; let f = (a, current) => { if (done) throw "x"; return a + current; }; let array = [1,2,3]; let g = function() { try { return array.reduceRight(f); } catch (e) { return null; } }; %PrepareFunctionForOptimization(g); g(); g(); let total = g(); %OptimizeFunctionOnNextCall(g); g(); assertEquals(6, g()); done = true; assertEquals(null, g()); done = false; %PrepareFunctionForOptimization(g); g(); g(); %OptimizeFunctionOnNextCall(g); g(); assertEquals(6, g()); done = true; assertEquals(null, g()); })(); (function ReduceThrow() { let done = false; let f = (a, current) => { if (done) throw "x"; return a + current; }; %NeverOptimizeFunction(f); let array = [1,2,3]; let g = function() { try { return array.reduceRight(f); } catch (e) { return null; } }; %PrepareFunctionForOptimization(g); g(); g(); let total = g(); %OptimizeFunctionOnNextCall(g); g(); assertEquals(6, g()); done = true; assertEquals(null, g()); done = false; %PrepareFunctionForOptimization(g); g(); g(); %OptimizeFunctionOnNextCall(g); g(); assertEquals(6, g()); done = true; assertEquals(null, g()); })(); (function ReduceFinally() { let done = false; let f = (a, current) => { if (done) throw "x"; return a + current; }; let array = [1,2,3]; let g = function() { try { return array.reduceRight(f); } catch (e) { } finally { if (done) return null; } }; %PrepareFunctionForOptimization(g); g(); g(); let total = g(); %OptimizeFunctionOnNextCall(g); g(); assertEquals(6, g()); done = true; assertEquals(null, g()); done = false; %PrepareFunctionForOptimization(g); g(); g(); %OptimizeFunctionOnNextCall(g); g(); assertEquals(6, g()); done = true; assertEquals(null, g()); })(); (function ReduceFinallyNoInline() { let done = false; let f = (a, current) => { if (done) throw "x"; return a + current; }; %NeverOptimizeFunction(f); let array = [1,2,3]; let g = function() { try { return array.reduceRight(f); } catch (e) { } finally { if (done) return null; } }; %PrepareFunctionForOptimization(g); g(); g(); let total = g(); %OptimizeFunctionOnNextCall(g); g(); assertEquals(6, g()); done = true; assertEquals(null, g()); done = false; %PrepareFunctionForOptimization(g); g(); g(); %OptimizeFunctionOnNextCall(g); g(); assertEquals(6, g()); done = true; assertEquals(null, g()); })(); (function ReduceNonCallableOpt() { let done = false; let f = (a, current) => { return a + current; }; let array = [1,2,3]; let g = function() { return array.reduceRight(f); }; %PrepareFunctionForOptimization(g); g(); g(); let total = g(); %OptimizeFunctionOnNextCall(g); g(); g(); assertEquals(6, g()); f = null; assertThrows(() => g()); })(); (function ReduceCatchInlineDeopt() { let done = false; let f = (a, current) => { if (done) { %DeoptimizeNow(); throw "x"; } return a + current; }; let array = [1,2,3]; let g = function() { try { return array.reduceRight(f); } catch (e) { if (done) return null; } }; %PrepareFunctionForOptimization(g); g(); g(); let total = g(); %OptimizeFunctionOnNextCall(g); g(); assertEquals(6, g()); done = true; assertEquals(null, g()); done = false; %PrepareFunctionForOptimization(g); g(); g(); %OptimizeFunctionOnNextCall(g); g(); assertEquals(6, g()); done = true; assertEquals(null, g()); })(); (function ReduceFinallyInlineDeopt() { let done = false; let f = (a, current) => { if (done) { %DeoptimizeNow(); throw "x"; } return a + current; }; let array = [1,2,3]; let g = function() { try { return array.reduceRight(f); } catch (e) { } finally { if (done) return null; } }; %PrepareFunctionForOptimization(g); g(); g(); let total = g(); %OptimizeFunctionOnNextCall(g); g(); assertEquals(6, g()); done = true; assertEquals(null, g()); done = false; %PrepareFunctionForOptimization(g); g(); g(); %OptimizeFunctionOnNextCall(g); g(); assertEquals(6, g()); done = true; assertEquals(null, g()); })(); (function ReduceHoleyArrayWithDefaultAccumulator() { var holey = new Array(10); function reduce(a) { let callback = function(accumulator, currentValue) { return currentValue; }; return a.reduce(callback, 13); }; %PrepareFunctionForOptimization(reduce); assertEquals(13, reduce(holey)); assertEquals(13, reduce(holey)); assertEquals(13, reduce(holey)); %OptimizeFunctionOnNextCall(reduce); assertEquals(13, reduce(holey)); })(); (function ReduceRightHoleyArrayWithDefaultAccumulator() { var holey = new Array(10); function reduce(a) { let callback = function(accumulator, currentValue) { return currentValue; }; return a.reduceRight(callback, 13); }; %PrepareFunctionForOptimization(reduce); assertEquals(13, reduce(holey)); assertEquals(13, reduce(holey)); assertEquals(13, reduce(holey)); %OptimizeFunctionOnNextCall(reduce); assertEquals(13, reduce(holey)); })(); (function ReduceHoleyArrayOneElementWithDefaultAccumulator() { var holey = new Array(10); holey[1] = 5; function reduce(a) { let callback = function(accumulator, currentValue) { return currentValue + accumulator; }; return a.reduce(callback, 13); }; %PrepareFunctionForOptimization(reduce); assertEquals(18, reduce(holey)); assertEquals(18, reduce(holey)); assertEquals(18, reduce(holey)); %OptimizeFunctionOnNextCall(reduce); assertEquals(18, reduce(holey)); })(); (function ReduceRightHoleyArrayOneElementWithDefaultAccumulator() { var holey = new Array(10); holey[1] = 5; function reduce(a) { let callback = function(accumulator, currentValue) { return currentValue + accumulator; }; return a.reduceRight(callback, 13); }; %PrepareFunctionForOptimization(reduce); assertEquals(18, reduce(holey)); assertEquals(18, reduce(holey)); assertEquals(18, reduce(holey)); %OptimizeFunctionOnNextCall(reduce); assertEquals(18, reduce(holey)); })(); (function ReduceMixedHoleyArrays() { function r(a) { return a.reduce((acc, i) => {acc[0]}); }; %PrepareFunctionForOptimization(r); r([[0]]); r([[0]]); r([0,,]); %OptimizeFunctionOnNextCall(r); r([,0,0]); })();