// Copyright 2015 the V8 project authors. All rights reserved. // Use of this source code is governed by a BSD-style license that can be // found in the LICENSE file. // Flags: --strong-mode --allow-natives-syntax "use strict"; // Boolean indicates whether an operator can be part of a compound assignment. let strongNumberBinops = [ ["-", true], ["*", true], ["/", true], ["%", true], ["|", true], ["&", true], ["^", true], ["<<", true], [">>", true], [">>>", true] ]; let strongStringOrNumberBinops = [ ["+", true], ["<", false], [">", false], ["<=", false], [">=", false] ]; let strongBinops = strongNumberBinops.concat(strongStringOrNumberBinops); let strongUnops = [ "~", "+", "-" ]; let nonStringOrNumberValues = [ "null", "undefined", "{}", "false", "(function(){})", "[]", "(class Foo {})" ]; let stringValues = [ "''", "' '", "'foo'", "'f\\u006F\\u006F'", "'0'", "'NaN'" ]; let nonNumberValues = nonStringOrNumberValues.concat(stringValues); let numberValues = [ "0", "(-0)", "1", "0.79", "(-0.79)", "4294967295", "4294967296", "(-4294967295)", "(-4294967296)", "9999999999999", "(-9999999999999)", "1.5e10", "(-1.5e10)", "0xFFF", "(-0xFFF)", "NaN", "Infinity", "(-Infinity)" ]; function add_strong(x, y) { "use strong"; return x + y; } function add_num_strong(x, y) { "use strong"; return x + y; } function sub_strong(x, y) { "use strong"; return x - y; } function mul_strong(x, y) { "use strong"; return x * y; } function div_strong(x, y) { "use strong"; return x / y; } function mod_strong(x, y) { "use strong"; return x % y; } function or_strong(x, y) { "use strong"; return x | y; } function and_strong(x, y) { "use strong"; return x & y; } function xor_strong(x, y) { "use strong"; return x ^ y; } function shl_strong(x, y) { "use strong"; return x << y; } function shr_strong(x, y) { "use strong"; return x >> y; } function sar_strong(x, y) { "use strong"; return x >>> y; } function less_strong(x, y) { "use strong"; return x < y; } function less_num_strong(x, y) { "use strong"; return x < y; } function greater_strong(x, y) { "use strong"; return x > y; } function greater_num_strong(x, y) { "use strong"; return x > y; } function less_equal_strong(x, y) { "use strong"; return x <= y; } function less_equal_num_strong(x, y) { "use strong"; return x <= y; } function greater_equal_strong(x, y) { "use strong"; return x >= y; } function greater_equal_num_strong(x, y) { "use strong"; return x >= y; } function typed_add_strong(x, y) { "use strong"; return (+x) + (+y); } function typed_sub_strong(x, y) { "use strong"; return (+x) - (+y); } function typed_mul_strong(x, y) { "use strong"; return (+x) * (+y); } function typed_div_strong(x, y) { "use strong"; return (+x) / (+y); } function typed_mod_strong(x, y) { "use strong"; return (+x) % (+y); } function typed_or_strong(x, y) { "use strong"; return (+x) | (+y); } function typed_and_strong(x, y) { "use strong"; return (+x) & (+y); } function typed_xor_strong(x, y) { "use strong"; return (+x) ^ (+y); } function typed_shl_strong(x, y) { "use strong"; return (+x) << (+y); } function typed_shr_strong(x, y) { "use strong"; return (+x) >> (+y); } function typed_sar_strong(x, y) { "use strong"; return (+x) >>> (+y); } function typed_less_strong(x, y) { "use strong"; return (+x) < (+y); } function typed_greater_strong(x, y) { "use strong"; return (+x) > (+y); } function typed_less_equal_strong(x, y) { "use strong"; return (+x) <= (+y); } function typed_greater_equal_strong(x, y) { "use strong"; return (+x) >= (+y); } let strongNumberFuncs = [add_num_strong, sub_strong, mul_strong, div_strong, mod_strong, or_strong, and_strong, xor_strong, shl_strong, shr_strong, sar_strong, less_num_strong, greater_num_strong, less_equal_num_strong, greater_equal_num_strong, typed_add_strong, typed_sub_strong, typed_mul_strong, typed_div_strong, typed_mod_strong, typed_or_strong, typed_and_strong, typed_xor_strong, typed_shl_strong, typed_shr_strong, typed_sar_strong, typed_less_strong, typed_greater_strong, typed_less_equal_strong, typed_greater_equal_strong]; let strongStringOrNumberFuncs = [add_strong, less_strong, greater_strong, less_equal_strong, greater_equal_strong]; let strongFuncs = strongNumberFuncs.concat(strongStringOrNumberFuncs); function assertStrongNonThrowBehaviour(expr) { assertEquals(eval(expr), eval("'use strong';" + expr)); assertDoesNotThrow("'use strong'; " + expr + ";"); assertDoesNotThrow("'use strong'; let v = " + expr + ";"); } function assertStrongThrowBehaviour(expr) { assertDoesNotThrow("'use strict'; " + expr + ";"); assertDoesNotThrow("'use strict'; let v = " + expr + ";"); assertThrows("'use strong'; " + expr + ";", TypeError); assertThrows("'use strong'; let v = " + expr + ";", TypeError); } function checkArgumentCombinations(op, leftList, rightList, willThrow) { for (let v1 of leftList) { let assignExpr = "foo " + op[0] + "= " + v1 + ";"; for (let v2 of rightList) { let compoundAssignment = "'use strong'; let foo = " + v2 + "; " + assignExpr; if (willThrow) { if (op[1]) { assertThrows(compoundAssignment, TypeError); } assertStrongThrowBehaviour("(" + v1 + op[0] + v2 + ")"); } else { if (op[1]) { assertDoesNotThrow(compoundAssignment); } assertStrongNonThrowBehaviour("(" + v1 + op[0] + v2 + ")"); } } } } for (let op of strongBinops) { checkArgumentCombinations(op, numberValues, numberValues, false); checkArgumentCombinations(op, numberValues, nonNumberValues, true); } for (let op of strongNumberBinops) { checkArgumentCombinations(op, nonNumberValues, numberValues.concat(nonNumberValues), true); } for (let op of strongStringOrNumberBinops) { checkArgumentCombinations(op, nonNumberValues, numberValues.concat(nonStringOrNumberValues), true); checkArgumentCombinations(op, nonStringOrNumberValues, stringValues, true); checkArgumentCombinations(op, stringValues, stringValues, false); } for (let op of strongUnops) { for (let value of numberValues) { assertStrongNonThrowBehaviour("(" + op + value + ")"); } for (let value of nonNumberValues) { assertStrongThrowBehaviour("(" + op + value + ")"); } } for (let func of strongNumberFuncs) { // Check IC None*None->None throws assertThrows(function(){func(2, "foo");}, TypeError); %OptimizeFunctionOnNextCall(func); assertThrows(function(){func(2, "foo");}, TypeError); %DeoptimizeFunction(func); func(4, 5); func(4, 5); // Check IC Smi*Smi->Smi throws assertThrows(function(){func(2, "foo");}, TypeError); %OptimizeFunctionOnNextCall(func); assertThrows(function(){func(2, "foo");}, TypeError); %DeoptimizeFunction(func); func(NaN, NaN); func(NaN, NaN); // Check IC Number*Number->Number throws assertThrows(function(){func(2, "foo");}, TypeError); %OptimizeFunctionOnNextCall(func); assertThrows(function(){func(2, "foo");}, TypeError); %DeoptimizeFunction(func); } for (let func of strongStringOrNumberFuncs) { // Check IC None*None->None throws assertThrows(function(){func(2, "foo");}, TypeError); %OptimizeFunctionOnNextCall(func); assertThrows(function(){func(2, "foo");}, TypeError); %DeoptimizeFunction(func); func("foo", "bar"); func("foo", "bar"); // Check IC String*String->String throws assertThrows(function(){func(2, "foo");}, TypeError); %OptimizeFunctionOnNextCall(func); assertThrows(function(){func(2, "foo");}, TypeError); %DeoptimizeFunction(func); func(NaN, NaN); func(NaN, NaN); // Check IC Generic*Generic->Generic throws assertThrows(function(){func(2, "foo");}, TypeError); %OptimizeFunctionOnNextCall(func); assertThrows(function(){func(2, "foo");}, TypeError); %DeoptimizeFunction(func); }