// 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: --validate-asm --allow-natives-syntax var stdlib = this; function assertValidAsm(func) { assertTrue(%IsAsmWasmCode(func)); } function assertWasm(expected, func, ffi) { print("Testing " + func.name + "..."); assertEquals( expected, func(stdlib, ffi, new ArrayBuffer(1024)).caller()); assertValidAsm(func); } function EmptyTest(a, b, c) { "use asm"; function caller() { empty(); return 11; } function empty() { } return {caller: caller}; } assertWasm(11, EmptyTest); function VoidReturnTest(a, b, c) { "use asm"; function caller() { empty(); return 19; } function empty() { var x = 0; if (x) return; } return {caller: caller}; } assertWasm(19, VoidReturnTest); function IntTest(a, b, c) { "use asm"; function sum(a, b) { a = a|0; b = b|0; var c = 0; var d = 3.0; var e = 0; e = ~~d; // double conversion c = (b + 1)|0 return (a + c + 1)|0; } function caller() { return sum(77,22) | 0; } return {caller: caller}; } assertWasm(101,IntTest); function Float64Test() { "use asm"; function sum(a, b) { a = +a; b = +b; return +(a + b); } function caller() { var a = 0.0; var ret = 0|0; a = +sum(70.1,10.2); if (a == 80.3) { ret = 1|0; } else { ret = 0|0; } return ret|0; } return {caller: caller}; } assertWasm(1, Float64Test); function BadModule() { "use asm"; function caller(a, b) { a = a|0; b = b+0; var c = 0; c = (b + 1)|0 return (a + c + 1)|0; } function caller() { return call(1, 2)|0; } return {caller: caller}; } assertFalse(%IsAsmWasmCode(BadModule)); function TestReturnInBlock() { "use asm"; function caller() { if(1) { { { return 1; } } } return 0; } return {caller: caller}; } assertWasm(1, TestReturnInBlock); function TestAddSimple() { "use asm"; function caller() { var x = 0; x = (x + 1)|0; return x|0; } return {caller: caller}; } assertWasm(1, TestAddSimple); function TestWhileSimple() { "use asm"; function caller() { var x = 0; while((x|0) < 5) { x = (x + 1)|0; } return x|0; } return {caller: caller}; } assertWasm(5, TestWhileSimple); function TestWhileWithoutBraces() { "use asm"; function caller() { var x = 0; while((x|0) <= 3) x = (x + 1)|0; return x|0; } return {caller: caller}; } assertWasm(4, TestWhileWithoutBraces); function TestReturnInWhile() { "use asm"; function caller() { var x = 0; while((x|0) < 10) { x = (x + 6)|0; return x|0; } return x|0; } return {caller: caller}; } assertWasm(6, TestReturnInWhile); function TestReturnInWhileWithoutBraces() { "use asm"; function caller() { var x = 0; while((x|0) < 5) return 7; return x|0; } return {caller: caller}; } assertWasm(7, TestReturnInWhileWithoutBraces); function TestBreakInIf() { "use asm"; function caller() { label: { if(1) break label; return 11; } return 12; } return {caller: caller}; } assertWasm(12, TestBreakInIf); function TestBreakInIfInDoWhileFalse() { "use asm"; function caller() { do { if(1) break; return 11; } while(0); return 12; } return {caller: caller}; } assertWasm(12, TestBreakInIfInDoWhileFalse); function TestBreakInElse() { "use asm"; function caller() { do { if(0) ; else break; return 14; } while(0); return 15; } return {caller: caller}; } assertWasm(15, TestBreakInElse); function TestBreakInWhile() { "use asm"; function caller() { while(1) { break; } return 8; } return {caller: caller}; } assertWasm(8, TestBreakInWhile); function TestBreakInIfInWhile() { "use asm"; function caller() { while(1) { if (1) break; else break; } return 8; } return {caller: caller}; } assertWasm(8, TestBreakInIfInWhile); function TestBreakInNestedWhile() { "use asm"; function caller() { var x = 1.0; var ret = 0; while(x < 1.5) { while(1) break; x = +(x + 0.25); } if (x == 1.5) { ret = 9; } return ret|0; } return {caller: caller}; } assertWasm(9, TestBreakInNestedWhile); function TestBreakInBlock() { "use asm"; function caller() { var x = 0; abc: { x = 10; if ((x|0) == 10) { break abc; } x = 20; } return x|0; } return {caller: caller}; } assertWasm(10, TestBreakInBlock); function TestBreakInNamedWhile() { "use asm"; function caller() { var x = 0; outer: while (1) { x = (x + 1)|0; while ((x|0) == 11) { break outer; } } return x|0; } return {caller: caller}; } assertWasm(11, TestBreakInNamedWhile); function TestContinue() { "use asm"; function caller() { var x = 5; var ret = 0; while ((x|0) >= 0) { x = (x - 1)|0; if ((x|0) == 2) { continue; } ret = (ret - 1)|0; } return ret|0; } return {caller: caller}; } assertWasm(-5, TestContinue); function TestContinueInNamedWhile() { "use asm"; function caller() { var x = 5; var y = 0; var ret = 0; outer: while ((x|0) > 0) { x = (x - 1)|0; y = 0; while ((y|0) < 5) { if ((x|0) == 3) { continue outer; } ret = (ret + 1)|0; y = (y + 1)|0; } } return ret|0; } return {caller: caller}; } assertWasm(20, TestContinueInNamedWhile); function TestContinueInDoWhileFalse() { "use asm"; function caller() { do { continue; } while (false); return 47; } return {caller: caller}; } assertWasm(47, TestContinueInDoWhileFalse); function TestNot() { "use asm"; function caller() { var a = 0; a = !(2 > 3); return a | 0; } return {caller:caller}; } assertWasm(1, TestNot); function TestNotEquals() { "use asm"; function caller() { var a = 3; if ((a|0) != 2) { return 21; } return 0; } return {caller:caller}; } assertWasm(21, TestNotEquals); function TestUnsignedComparison() { "use asm"; function caller() { var a = 0xffffffff; if ((a>>>0) > (0>>>0)) { return 22; } return 0; } return {caller:caller}; } assertWasm(22, TestUnsignedComparison); function TestMixedAdd() { "use asm"; function caller() { var a = 0x80000000; var b = 0x7fffffff; var c = 0; c = ((a>>>0) + b)|0; if ((c >>> 0) > (0>>>0)) { if ((c|0) < 0) { return 23; } } return 0; } return {caller:caller}; } assertWasm(23, TestMixedAdd); function TestInt32HeapAccess(stdlib, foreign, buffer) { "use asm"; var m = new stdlib.Int32Array(buffer); function caller() { var i = 4; m[0] = (i + 1) | 0; m[i >> 2] = ((m[0]|0) + 1) | 0; m[2] = ((m[i >> 2]|0) + 1) | 0; return m[2] | 0; } return {caller: caller}; } assertWasm(7, TestInt32HeapAccess); function TestInt32HeapAccessExternal() { var memory = new ArrayBuffer(1024); var memory_int32 = new Int32Array(memory); var module_decl = eval('(' + TestInt32HeapAccess.toString() + ')'); var module = module_decl(stdlib, null, memory); assertValidAsm(module_decl); assertEquals(7, module.caller()); assertEquals(7, memory_int32[2]); } TestInt32HeapAccessExternal(); function TestHeapAccessIntTypes() { var types = [ [Int8Array, 'Int8Array', '>> 0'], [Uint8Array, 'Uint8Array', '>> 0'], [Int16Array, 'Int16Array', '>> 1'], [Uint16Array, 'Uint16Array', '>> 1'], [Int32Array, 'Int32Array', '>> 2'], [Uint32Array, 'Uint32Array', '>> 2'], ]; for (var i = 0; i < types.length; i++) { var code = TestInt32HeapAccess.toString(); code = code.replace('Int32Array', types[i][1]); code = code.replace(/>> 2/g, types[i][2]); var memory = new ArrayBuffer(1024); var memory_view = new types[i][0](memory); var module_decl = eval('(' + code + ')'); var module = module_decl(stdlib, null, memory); assertValidAsm(module_decl); assertEquals(7, module.caller()); assertEquals(7, memory_view[2]); assertEquals(7, module_decl(stdlib).caller()); assertValidAsm(module_decl); } } TestHeapAccessIntTypes(); function TestFloatHeapAccess(stdlib, foreign, buffer) { "use asm"; var f32 = new stdlib.Float32Array(buffer); var f64 = new stdlib.Float64Array(buffer); var fround = stdlib.Math.fround; function caller() { var i = 8; var j = 8; var v = 6.0; f64[2] = v + 1.0; f64[i >> 3] = +f64[2] + 1.0; f64[j >> 3] = +f64[j >> 3] + 1.0; i = +f64[i >> 3] == 9.0; return i|0; } return {caller: caller}; } assertWasm(1, TestFloatHeapAccess); function TestFloatHeapAccessExternal() { var memory = new ArrayBuffer(1024); var memory_float64 = new Float64Array(memory); var module_decl = eval('(' + TestFloatHeapAccess.toString() + ')'); var module = module_decl(stdlib, null, memory); assertValidAsm(module_decl); assertEquals(1, module.caller()); assertEquals(9.0, memory_float64[1]); } TestFloatHeapAccessExternal(); function TestConvertI32() { "use asm"; function caller() { var a = 1.5; if ((~~(a + a)) == 3) { return 24; } return 0; } return {caller:caller}; } assertWasm(24, TestConvertI32); function TestConvertF64FromInt() { "use asm"; function caller() { var a = 1; if ((+((a + a)|0)) > 1.5) { return 25; } return 0; } return {caller:caller}; } assertWasm(25, TestConvertF64FromInt); function TestConvertF64FromUnsigned() { "use asm"; function caller() { var a = 0xffffffff; if ((+(a>>>0)) > 0.0) { if((+(a|0)) < 0.0) { return 26; } } return 0; } return {caller:caller}; } assertWasm(26, TestConvertF64FromUnsigned); function TestModInt() { "use asm"; function caller() { var a = -83; var b = 28; return ((a|0)%(b|0))|0; } return {caller:caller}; } assertWasm(-27,TestModInt); function TestModUnsignedInt() { "use asm"; function caller() { var a = 0x80000000; //2147483648 var b = 10; return ((a>>>0)%(b>>>0))|0; } return {caller:caller}; } assertWasm(8, TestModUnsignedInt); function TestModDouble() { "use asm"; function caller() { var a = 5.25; var b = 2.5; if (a%b == 0.25) { return 28; } return 0; } return {caller:caller}; } assertWasm(28, TestModDouble); function TestModDoubleNegative() { "use asm"; function caller() { var a = -34359738368.25; var b = 2.5; if (a%b == -0.75) { return 28; } return 0; } return {caller:caller}; } assertWasm(28, TestModDoubleNegative); (function () { function TestNamedFunctions() { "use asm"; var a = 0.0; var b = 0.0; function add() { return +(a + b); } function init() { a = 43.25; b = 34.25; } return {init:init, add:add}; } var module_decl = eval('(' + TestNamedFunctions.toString() + ')'); var module = module_decl(stdlib); assertValidAsm(module_decl); module.init(); assertEquals(77.5, module.add()); })(); (function () { function TestGlobalsWithInit() { "use asm"; var a = 43.25; var b = 34.25; function add() { return +(a + b); } return {add:add}; } var module_decl = eval('(' + TestGlobalsWithInit.toString() + ')'); var module = module_decl(stdlib); assertValidAsm(module_decl); assertEquals(77.5, module.add()); })(); function TestForLoop() { "use asm" function caller() { var ret = 0; var i = 0; for (i = 2; (i|0) <= 10; i = (i+1)|0) { ret = (ret + i) | 0; } return ret|0; } return {caller:caller}; } assertWasm(54, TestForLoop); function TestForLoopWithoutInit() { "use asm" function caller() { var ret = 0; var i = 0; for (; (i|0) < 10; i = (i+1)|0) { ret = (ret + 10) | 0; } return ret|0; } return {caller:caller}; } assertWasm(100,TestForLoopWithoutInit); function TestForLoopWithoutCondition() { "use asm" function caller() { var ret = 0; var i = 0; for (i=1;; i = (i+1)|0) { ret = (ret + i) | 0; if ((i|0) == 11) { break; } } return ret|0; } return {caller:caller}; } assertWasm(66, TestForLoopWithoutCondition); function TestForLoopWithoutNext() { "use asm" function caller() { var i = 0; for (i=1; (i|0) < 41;) { i = (i + 1) | 0; } return i|0; } return {caller:caller}; } assertWasm(41, TestForLoopWithoutNext); function TestForLoopWithoutBody() { "use asm" function caller() { var i = 0; for (i=1; (i|0) < 45 ; i = (i+1)|0) { } return i|0; } return {caller:caller}; } assertWasm(45, TestForLoopWithoutBody); function TestDoWhile() { "use asm" function caller() { var i = 0; var ret = 21; do { ret = (ret + ret)|0; i = (i + 1)|0; } while ((i|0) < 2); return ret|0; } return {caller:caller}; } assertWasm(84, TestDoWhile); function TestConditional() { "use asm" function caller() { var x = 1; return (((x|0) > 0) ? 41 : 71)|0; } return {caller:caller}; } assertWasm(41, TestConditional); function TestInitFunctionWithNoGlobals() { "use asm"; function caller() { return 51; } return {caller}; } assertWasm(51, TestInitFunctionWithNoGlobals); (function () { function TestExportNameDifferentFromFunctionName() { "use asm"; function caller() { return 55; } return {alt_caller:caller}; } var module_decl = eval( '(' + TestExportNameDifferentFromFunctionName.toString() + ')'); var module = module_decl(stdlib); assertValidAsm(module_decl); assertEquals(55, module.alt_caller()); })(); function TestFunctionTableSingleFunction() { "use asm"; function dummy() { return 71; } function caller() { // TODO(jpp): the parser optimizes function_table[0&0] to function table[0]. var v = 0; return function_table[v&0]() | 0; } var function_table = [dummy] return {caller:caller}; } assertWasm(71, TestFunctionTableSingleFunction); function TestFunctionTableMultipleFunctions() { "use asm"; function inc1(x) { x = x|0; return (x+1)|0; } function inc2(x) { x = x|0; return (x+2)|0; } function caller() { var i = 0, j = 1; if ((function_table[i&1](50)|0) == 51) { if ((function_table[j&1](60)|0) == 62) { return 73; } } return 0; } var function_table = [inc1, inc2] return {caller:caller}; } assertWasm(73, TestFunctionTableMultipleFunctions); (function () { function TestFunctionTable(stdlib, foreign, buffer) { "use asm"; function add(a, b) { a = a|0; b = b|0; return (a+b)|0; } function sub(a, b) { a = a|0; b = b|0; return (a-b)|0; } function inc(a) { a = a|0; return (a+1)|0; } function caller(table_id, fun_id, arg1, arg2) { table_id = table_id|0; fun_id = fun_id|0; arg1 = arg1|0; arg2 = arg2|0; if ((table_id|0) == 0) { return funBin[fun_id&3](arg1, arg2)|0; } else if ((table_id|0) == 1) { return fun[fun_id&0](arg1)|0; } return 0; } var funBin = [add, sub, sub, add]; var fun = [inc]; return {caller:caller}; } print("TestFunctionTable..."); var module = TestFunctionTable(stdlib); assertEquals(55, module.caller(0, 0, 33, 22)); assertEquals(11, module.caller(0, 1, 33, 22)); assertEquals(9, module.caller(0, 2, 54, 45)); assertEquals(99, module.caller(0, 3, 54, 45)); assertEquals(23, module.caller(0, 4, 12, 11)); assertEquals(31, module.caller(1, 0, 30, 11)); })(); function TestForeignFunctions() { function AsmModule(stdlib, foreign, buffer) { "use asm"; var setVal = foreign.setVal; var getVal = foreign.getVal; function caller(initial_value, new_value) { initial_value = initial_value|0; new_value = new_value|0; if ((getVal()|0) == (initial_value|0)) { setVal(new_value|0); return getVal()|0; } return 0; } return {caller:caller}; } function ffi(initial_val) { var val = initial_val; function getVal() { return val; } function setVal(new_val) { val = new_val; } return {getVal:getVal, setVal:setVal}; } var foreign = new ffi(23); var module = AsmModule({Math: Math}, foreign, null); assertValidAsm(AsmModule); assertEquals(103, module.caller(23, 103)); } print("TestForeignFunctions..."); TestForeignFunctions(); function TestForeignFunctionMultipleUse() { function AsmModule(stdlib, foreign, buffer) { "use asm"; var getVal = foreign.getVal; function caller(int_val, double_val) { int_val = int_val|0; double_val = +double_val; if ((getVal()|0) == (int_val|0)) { if ((+getVal()) == (+double_val)) { return 89; } } return 0; } return {caller:caller}; } function ffi() { function getVal() { return 83.25; } return {getVal:getVal}; } var foreign = new ffi(); var module_decl = eval('(' + AsmModule.toString() + ')'); var module = module_decl(stdlib, foreign, null); assertValidAsm(module_decl); assertEquals(89, module.caller(83, 83.25)); } print("TestForeignFunctionMultipleUse..."); TestForeignFunctionMultipleUse(); function TestForeignVariables() { function AsmModule(stdlib, foreign, buffer) { "use asm"; var i1 = foreign.foo | 0; var f1 = +foreign.bar; var i2 = foreign.baz | 0; var f2 = +foreign.baz; function geti1() { return i1|0; } function getf1() { return +f1; } function geti2() { return i2|0; } function getf2() { return +f2; } return {geti1:geti1, getf1:getf1, geti2:geti2, getf2:getf2}; } function TestCase(env, i1, f1, i2, f2) { print("Testing foreign variables..."); var module_decl = eval('(' + AsmModule.toString() + ')'); var module = module_decl(stdlib, env); assertValidAsm(module_decl); assertEquals(i1, module.geti1()); assertEquals(f1, module.getf1()); assertEquals(i2, module.geti2()); assertEquals(f2, module.getf2()); } // Check normal operation. TestCase({foo: 123, bar: 234.5, baz: 345.7}, 123, 234.5, 345, 345.7); // Check partial operation. TestCase({baz: 345.7}, 0, NaN, 345, 345.7); // Check that undefined values are converted to proper defaults. TestCase({qux: 999}, 0, NaN, 0, NaN); // Check that an undefined ffi is ok. TestCase(undefined, 0, NaN, 0, NaN); // Check that true values are converted properly. TestCase({foo: true, bar: true, baz: true}, 1, 1.0, 1, 1.0); // Check that false values are converted properly. TestCase({foo: false, bar: false, baz: false}, 0, 0, 0, 0); // Check that null values are converted properly. TestCase({foo: null, bar: null, baz: null}, 0, 0, 0, 0); // Check that string values are converted properly. TestCase({foo: 'hi', bar: 'there', baz: 'dude'}, 0, NaN, 0, NaN); TestCase({foo: '0xff', bar: '234', baz: '456.1'}, 255, 234, 456, 456.1, 456); // Check that Date values are converted properly. TestCase({foo: new Date(123), bar: new Date(456), baz: new Date(789)}, 123, 456, 789, 789); // Check that list values are converted properly. TestCase({foo: [], bar: [], baz: []}, 0, 0, 0, 0); // Check that object values are converted properly. TestCase({foo: {}, bar: {}, baz: {}}, 0, NaN, 0, NaN); // Check that getter object values are converted properly. var o = { get foo() { return 123.4; } }; TestCase({foo: o.foo, bar: o.foo, baz: o.foo}, 123, 123.4, 123, 123.4); // Check that getter object values are converted properly. var o = { get baz() { return 123.4; } }; TestCase(o, 0, NaN, 123, 123.4); // Check that objects with valueOf are converted properly. var o = { valueOf: function() { return 99; } }; TestCase({foo: o, bar: o, baz: o}, 99, 99, 99, 99); // Check that function values are converted properly. TestCase({foo: TestCase, bar: TestCase, qux: TestCase}, 0, NaN, 0, NaN); // Check that a missing ffi object is safe. TestCase(undefined, 0, NaN, 0, NaN); } print("TestForeignVariables..."); TestForeignVariables(); (function() { function TestByteHeapAccessCompat(stdlib, foreign, buffer) { "use asm"; var HEAP8 = new stdlib.Uint8Array(buffer); var HEAP32 = new stdlib.Int32Array(buffer); function store(i, v) { i = i | 0; v = v | 0; HEAP32[i >> 2] = v; } function storeb(i, v) { i = i | 0; v = v | 0; HEAP8[i | 0] = v; } function load(i) { i = i | 0; return HEAP8[i] | 0; } function iload(i) { i = i | 0; return HEAP8[HEAP32[i >> 2] | 0] | 0; } return {load: load, iload: iload, store: store, storeb: storeb}; } var module_decl = eval('(' + TestByteHeapAccessCompat.toString() + ')'); var m = module_decl(stdlib); assertValidAsm(module_decl); m.store(0, 20); m.store(4, 21); m.store(8, 22); m.storeb(20, 123); m.storeb(21, 42); m.storeb(22, 77); assertEquals(123, m.load(20)); assertEquals(42, m.load(21)); assertEquals(77, m.load(22)); assertEquals(123, m.iload(0)); assertEquals(42, m.iload(4)); assertEquals(77, m.iload(8)); })(); function TestGlobalBlock(stdlib, foreign, buffer) { "use asm"; var x = foreign.x | 0, y = foreign.y | 0; function test() { return (x + y) | 0; } return {caller: test}; } assertWasm(15, TestGlobalBlock, { x: 4, y: 11 }); (function TestComma() { function CommaModule() { "use asm"; function ifunc(a, b) { a = +a; b = b | 0; return (a, b) | 0; } function dfunc(a, b) { a = a | 0; b = +b; return +(a, b); } return {ifunc: ifunc, dfunc: dfunc}; } var module_decl = eval('(' + CommaModule.toString() + ')'); var m = module_decl(stdlib); assertValidAsm(module_decl); assertEquals(123, m.ifunc(456.7, 123)); assertEquals(123.4, m.dfunc(456, 123.4)); })(); function TestFloatAsDouble(stdlib) { "use asm"; var fround = stdlib.Math.fround; function func() { var x = fround(1.0); return +fround(x); } return {caller: func}; } assertWasm(1, TestFloatAsDouble); function TestOr() { "use asm"; function func() { var x = 1; var y = 2; return (x | y) | 0; } return {caller: func}; } assertWasm(3, TestOr); function TestAnd() { "use asm"; function func() { var x = 3; var y = 2; return (x & y) | 0; } return {caller: func}; } assertWasm(2, TestAnd); function TestXor() { "use asm"; function func() { var x = 3; var y = 2; return (x ^ y) | 0; } return {caller: func}; } assertWasm(1, TestXor); function TestIntishAssignment(stdlib, foreign, heap) { "use asm"; var HEAP32 = new stdlib.Int32Array(heap); function func() { var a = 1; var b = 2; HEAP32[0] = a + b; return HEAP32[0] | 0; } return {caller: func}; } assertWasm(3, TestIntishAssignment); function TestFloatishAssignment(stdlib, foreign, heap) { "use asm"; var HEAPF32 = new stdlib.Float32Array(heap); var fround = stdlib.Math.fround; function func() { var a = fround(1.0); var b = fround(2.0); HEAPF32[0] = a + b; return +HEAPF32[0]; } return {caller: func}; } assertWasm(3, TestFloatishAssignment); function TestDoubleToFloatAssignment(stdlib, foreign, heap) { "use asm"; var HEAPF32 = new stdlib.Float32Array(heap); var fround = stdlib.Math.fround; function func() { var a = 1.23; HEAPF32[0] = a; return +HEAPF32[0]; } return {caller: func}; } assertWasm(Math.fround(1.23), TestDoubleToFloatAssignment); function TestIntegerMultiplyBothWays(stdlib, foreign, heap) { "use asm"; function func() { var a = 1; return (((a * 3)|0) + ((4 * a)|0)) | 0; } return {caller: func}; } assertWasm(7, TestIntegerMultiplyBothWays); (function TestBadAssignDoubleFromIntish() { function Module(stdlib, foreign, heap) { "use asm"; function func() { var a = 1; var b = 3.0; b = a; } return {func: func}; } print("TestBadAssignDoubleFromIntish..."); Module(stdlib); assertFalse(%IsAsmWasmCode(Module)); })(); (function TestBadAssignIntFromDouble() { function Module(stdlib, foreign, heap) { "use asm"; function func() { var a = 1; var b = 3.0; a = b; } return {func: func}; } print("TestBadAssignIntFromDouble..."); Module(stdlib); assertFalse(%IsAsmWasmCode(Module)); })(); (function TestBadMultiplyIntish() { function Module(stdlib, foreign, heap) { "use asm"; function func() { var a = 1; return ((a + a) * 4) | 0; } return {func: func}; } print("TestBadMultiplyIntish..."); Module(stdlib); assertFalse(%IsAsmWasmCode(Module)); })(); (function TestBadCastFromInt() { function Module(stdlib, foreign, heap) { "use asm"; function func() { var a = 1; return +a; } return {func: func}; } print("TestBadCastFromInt..."); Module(stdlib); assertFalse(%IsAsmWasmCode(Module)); })(); function TestAndNegative() { "use asm"; function func() { var x = 1; var y = 2; var z = 0; z = x + y & -1; return z | 0; } return {caller: func}; } assertWasm(3, TestAndNegative); function TestNegativeDouble() { "use asm"; function func() { var x = -(34359738368.25); var y = -2.5; return +(x + y); } return {caller: func}; } assertWasm(-34359738370.75, TestNegativeDouble); (function TestBadAndDouble() { function Module() { "use asm"; function func() { var x = 1.0; var y = 2.0; return (x & y) | 0; } return {func: func}; } Module(stdlib); assertFalse(%IsAsmWasmCode(Module)); })(); (function TestBadExportKey() { function Module() { "use asm"; function func() { } return {123: func}; } Module(stdlib); assertFalse(%IsAsmWasmCode(Module)); })(); (function TestUnicodeExportKey() { function Module() { "use asm"; function func() { return 42; } return {"\u00d1\u00e6": func}; } var m = Module(stdlib); assertEquals(42, m.Ñæ()); assertValidAsm(Module); })(); function TestAndIntAndHeapValue(stdlib, foreign, buffer) { "use asm"; var HEAP32 = new stdlib.Int32Array(buffer); function func() { var x = 0; x = HEAP32[0] & -1; return x | 0; } return {caller: func}; } assertWasm(0, TestAndIntAndHeapValue); function TestOutOfBoundsConversion($a,$b,$c){'use asm'; function aaa() { var f = 0.0; var a = 0; f = 5616315000.000001; a = ~~f >>>0; return a | 0; } return { caller : aaa }; } assertWasm(1321347704, TestOutOfBoundsConversion); (function TestUnsignedLiterals() { function asmModule() { "use asm"; function u0xffffffff() { var f = 0xffffffff; return +(f >>> 0); } function u0x80000000() { var f = 0x80000000; return +(f >>> 0); } function u0x87654321() { var f = 0x87654321; return +(f >>> 0); } return { u0xffffffff: u0xffffffff, u0x80000000: u0x80000000, u0x87654321: u0x87654321, }; } var decl = eval('(' + asmModule.toString() + ')'); var wasm = decl(stdlib); assertValidAsm(decl); assertEquals(0xffffffff, wasm.u0xffffffff()); assertEquals(0x80000000, wasm.u0x80000000()); assertEquals(0x87654321, wasm.u0x87654321()); })(); function TestIfWithUnsigned() { "use asm"; function main() { if (2147483658) { // 2^31 + 10 return 231; } return 0; } return {caller:main}; } assertWasm(231, TestIfWithUnsigned); function TestLoopsWithUnsigned() { "use asm"; function main() { var val = 1; var count = 0; for (val = 2147483648; 2147483648;) { val = 2147483649; break; } while (val>>>0) { val = (val + 1) | 0; count = (count + 1)|0; if ((count|0) == 9) { break; } } count = 0; do { val = (val + 2) | 0; count = (count + 1)|0; if ((count|0) == 5) { break; } } while (0xffffffff); if ((val>>>0) == 2147483668) { return 323; } return 0; } return {caller:main}; } assertWasm(323, TestLoopsWithUnsigned); function TestSingleFunctionModule() { "use asm"; function add(a, b) { a = a | 0; b = b | 0; return (a + b) | 0; } return add; } assertEquals(7, TestSingleFunctionModule()(3, 4)); function TestNotZero() { "use asm"; function caller() { if (!0) { return 44; } else { return 55; } return 0; } return {caller: caller}; } assertWasm(44, TestNotZero); function TestNotOne() { "use asm"; function caller() { if (!1) { return 44; } else { return 55; } return 0; } return {caller: caller}; } assertWasm(55, TestNotOne); function TestDotfulFloat(stdlib) { "use asm"; var fround = stdlib.Math.fround; var foo = fround(55.0); function caller() { return +foo; } return {caller: caller}; } assertWasm(55, TestDotfulFloat); function TestDotfulLocalFloat(stdlib) { "use asm"; var fround = stdlib.Math.fround; function caller() { var foo = fround(55.0); return +foo; } return {caller: caller}; } assertWasm(55, TestDotfulLocalFloat); function TestDotlessFloat(stdlib) { "use asm"; var fround = stdlib.Math.fround; var foo = fround(55); function caller() { return +foo; } return {caller: caller}; } assertWasm(55, TestDotlessFloat); function TestDotlessLocalFloat(stdlib) { "use asm"; var fround = stdlib.Math.fround; function caller() { var foo = fround(55); return +foo; } return {caller: caller}; } assertWasm(55, TestDotlessLocalFloat); function TestFloatGlobals(stdlib) { "use asm"; var fround = stdlib.Math.fround; var foo = fround(1.25); function caller() { foo = fround(foo + fround(1.0)); foo = fround(foo + fround(1.0)); return +foo; } return {caller: caller}; } assertWasm(3.25, TestFloatGlobals); (function TestExportTwice() { function asmModule() { "use asm"; function foo() { return 42; } return {bar: foo, baz: foo}; } var m = asmModule(); assertEquals(42, m.bar()); assertEquals(42, m.baz()); })();