src/third_party/v8/test/mjsunit/wasm/asm-wasm.js - cobalt - Git at Google

 // 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;
 let kMinHeapSize = 4096;

 function assertValidAsm(func) {
   assertTrue(%IsAsmWasmCode(func), "must be valid asm code");
 }

 function assertWasm(expected, func, ffi) {
   print("Testing " + func.name + "...");
   assertEquals(
       expected, func(stdlib, ffi, new ArrayBuffer(kMinHeapSize)).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;
     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 (0);
     return 47;
   }

   return {caller: caller};
 }

 assertWasm(47, TestContinueInDoWhileFalse);


 function TestContinueInForLoop() {
   "use asm";

   function caller() {
     var i = 0;
     for (; (i|0) < 10; i = (i+1)|0) {
       continue;
     }
     return 4711;
   }

   return {caller: caller};
 }

 assertWasm(4711, TestContinueInForLoop);


 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 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: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 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 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));
 })();


 /*
 // TODO(bradnelson): Technically invalid, but useful to cover unicode, revises
 // and re-enable.
 (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());
 })();

 (function TestGenerator() {
   function* asmModule() {
     "use asm";
     function foo() {
       return 42;
     }
     return {foo: foo};
   }
   asmModule();
   assertFalse(%IsAsmWasmCode(asmModule));
 })();

 (function TestAsyncFunction() {
   async function asmModule() {
     "use asm";
     function foo() {
       return 42;
     }
     return {foo: foo};
   }
   asmModule();
   assertFalse(%IsAsmWasmCode(asmModule));
 })();
	// 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;
	let kMinHeapSize = 4096;

	function assertValidAsm(func) {
	assertTrue(%IsAsmWasmCode(func), "must be valid asm code");
	}

	function assertWasm(expected, func, ffi) {
	print("Testing " + func.name + "...");
	assertEquals(
	expected, func(stdlib, ffi, new ArrayBuffer(kMinHeapSize)).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;
	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 (0);
	return 47;
	}

	return {caller: caller};
	}

	assertWasm(47, TestContinueInDoWhileFalse);


	function TestContinueInForLoop() {
	"use asm";

	function caller() {
	var i = 0;
	for (; (i\|0) < 10; i = (i+1)\|0) {
	continue;
	}
	return 4711;
	}

	return {caller: caller};
	}

	assertWasm(4711, TestContinueInForLoop);


	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 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: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 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 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));
	})();


	/*
	// TODO(bradnelson): Technically invalid, but useful to cover unicode, revises
	// and re-enable.
	(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());
	})();

	(function TestGenerator() {
	function* asmModule() {
	"use asm";
	function foo() {
	return 42;
	}
	return {foo: foo};
	}
	asmModule();
	assertFalse(%IsAsmWasmCode(asmModule));
	})();

	(function TestAsyncFunction() {
	async function asmModule() {
	"use asm";
	function foo() {
	return 42;
	}
	return {foo: foo};
	}
	asmModule();
	assertFalse(%IsAsmWasmCode(asmModule));
	})();