// Copyright 2016 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: --validate-asm --allow-natives-syntax function WrapInAsmModule(func) { function MODULE_NAME(stdlib) { "use asm"; var imul = stdlib.Math.imul; FUNC_BODY return {main: FUNC_NAME}; } var source = MODULE_NAME.toString() .replace(/MODULE_NAME/g, func.name + "_module") .replace(/FUNC_BODY/g, func.toString()) .replace(/FUNC_NAME/g, func.name); return eval("(" + source + ")"); } function RunAsmJsTest(asmfunc, expect) { var asm_source = asmfunc.toString(); var nonasm_source = asm_source.replace(new RegExp("use asm"), ""); var stdlib = {Math: Math}; print("Testing " + asmfunc.name + " (js)..."); var js_module = eval("(" + nonasm_source + ")")(stdlib); expect(js_module); print("Testing " + asmfunc.name + " (asm.js)..."); var asm_module = asmfunc(stdlib); assertTrue(%IsAsmWasmCode(asmfunc)); expect(asm_module); } const imul = Math.imul; function u32_add(a, b) { a = a | 0; b = b | 0; return +(((a >>> 0) + (b >>> 0)) >>> 0); } function u32_sub(a, b) { a = a | 0; b = b | 0; return +(((a >>> 0) - (b >>> 0)) >>> 0); } function u32_mul(a, b) { a = a | 0; b = b | 0; return +imul(a >>> 0, b >>> 0); } function u32_div(a, b) { a = a | 0; b = b | 0; return +(((a >>> 0) / (b >>> 0)) >>> 0); } function u32_mod(a, b) { a = a | 0; b = b | 0; return +(((a >>> 0) % (b >>> 0)) >>> 0); } function u32_and(a, b) { a = a | 0; b = b | 0; return +((a >>> 0) & (b >>> 0)); } function u32_or(a, b) { a = a | 0; b = b | 0; return +((a >>> 0) | (b >>> 0)); } function u32_xor(a, b) { a = a | 0; b = b | 0; return +((a >>> 0) ^ (b >>> 0)); } function u32_shl(a, b) { a = a | 0; b = b | 0; return +((a >>> 0) << (b >>> 0)); } function u32_shr(a, b) { a = a | 0; b = b | 0; return +((a >>> 0) >> (b >>> 0)); } function u32_sar(a, b) { a = a | 0; b = b | 0; return ((a >>> 0) >>> (b >>> 0)) | 0; } function u32_eq(a, b) { a = a | 0; b = b | 0; if ((a >>> 0) == (b >>> 0)) { return 1; } return 0; } function u32_ne(a, b) { a = a | 0; b = b | 0; if ((a >>> 0) < (b >>> 0)) { return 1; } return 0; } function u32_lt(a, b) { a = a | 0; b = b | 0; if ((a >>> 0) < (b >>> 0)) { return 1; } return 0; } function u32_lteq(a, b) { a = a | 0; b = b | 0; if ((a >>> 0) <= (b >>> 0)) { return 1; } return 0; } function u32_gt(a, b) { a = a | 0; b = b | 0; if ((a >>> 0) > (b >>> 0)) { return 1; } return 0; } function u32_gteq(a, b) { a = a | 0; b = b | 0; if ((a >>> 0) >= (b >>> 0)) { return 1; } return 0; } function u32_neg(a) { a = a | 0; return (-a) | 0; } function u32_invert(a) { a = a | 0; return (~a) | 0; } var inputs = [ 0, 1, 2, 3, 4, 2147483646, 2147483647, // max positive int32 2147483648, // overflow max positive int32 0x0000009e, 0x00000043, 0x0000af73, 0x0000116b, 0x00658ecc, 0x002b3b4c, 0xeeeeeeee, 0xfffffffd, 0xf0000000, 0x007fffff, 0x0003ffff, 0x00001fff, -1, -2, -3, -4, -2147483647, -2147483648, // min negative int32 -2147483649, // overflow min negative int32 ]; var funcs = [ u32_add, u32_sub, u32_div, u32_mod, // TODO(titzer): u32_mul crashes turbofan in asm.js mode u32_and, u32_or, u32_xor, u32_shl, u32_shr, u32_sar, u32_eq, u32_ne, u32_lt, u32_lteq, u32_gt, u32_gteq, u32_neg, u32_invert, // TODO(titzer): u32_min // TODO(titzer): u32_max // TODO(titzer): u32_abs ]; (function () { for (func of funcs) { RunAsmJsTest(WrapInAsmModule(func), function (module) { for (a of inputs) { for (b of inputs) { var expected = func(a, b); assertEquals(expected, module.main(a, b)); } } }); } })();