// |jit-test| load(libdir + "asm.js"); load(libdir + "asserts.js"); if (!isAsmJSCompilationAvailable()) quit(); var ab = new ArrayBuffer(BUF_MIN); // Compute a set of interesting indices. indices = [0] for (var i of [4,1024,BUF_MIN,Math.pow(2,30),Math.pow(2,31),Math.pow(2,32),Math.pow(2,33)]) { for (var j of [-2,-1,0,1,2]) { for (var k of [1,-1]) indices.push((i+j)*k); } } function testInt(ctor, shift, scale, disp) { var arr = new ctor(ab); var c = asmCompile('glob', 'imp', 'b', USE_ASM + 'var arr=new glob.' + ctor.name + '(b); ' + 'function load(i) {i=i|0; return arr[((i<<' + scale + ')+' + disp + ')>>' + shift + ']|0 } ' + 'function store(i,j) {i=i|0;j=j|0; arr[((i<<' + scale + ')+' + disp + ')>>' + shift + '] = j } ' + 'function storeZero(i) {i=i|0; arr[((i<<' + scale + ')+' + disp + ')>>' + shift + '] = 0 } ' + 'function storeNegOne(i) {i=i|0; arr[((i<<' + scale + ')+' + disp + ')>>' + shift + '] = -1 } ' + 'return { load: load, store: store, storeZero: storeZero, storeNegOne: storeNegOne }'); var f = asmLink(c, this, null, ab); var v = arr[0]; arr[0] = -1; var negOne = arr[0]|0; arr[0] = v; for (var i of indices) { var index = ((i<>shift; v = arr[index]|0; // Loads assertEq(f.load(i), v); // Stores of immediates arr[index] = 1; f.storeZero(i); assertEq(arr[index]|0, 0); f.storeNegOne(i); assertEq(arr[index]|0, index>>>0 < arr.length ? negOne : 0); // Stores arr[index] = ~v; f.store(i, v); assertEq(arr[index]|0, v); } } function testFloat(ctor, shift, scale, disp, coercion) { var arr = new ctor(ab); var c = asmCompile('glob', 'imp', 'b', USE_ASM + 'var arr=new glob.' + ctor.name + '(b); ' + 'var toF = glob.Math.fround; ' + 'function load(i) {i=i|0; return ' + coercion + '(arr[((i<<' + scale + ')+' + disp + ')>>' + shift + ']) } ' + 'function store(i,j) {i=i|0;j=+j; arr[((i<<' + scale + ')+' + disp + ')>>' + shift + '] = j } ' + 'return { load: load, store: store }'); var f = asmLink(c, this, null, ab); for (var i of indices) { var index = ((i<>shift; var v = +arr[index]; // Loads assertEq(f.load(i), v); // Stores arr[index] = ~v; f.store(i, v); assertEq(+arr[index], v); } } function testFloat32(ctor, shift, scale, disp) { testFloat(ctor, shift, scale, disp, "toF"); } function testFloat64(ctor, shift, scale, disp) { testFloat(ctor, shift, scale, disp, "+"); } function assertEqX4(observed, expected) { assertEq(observed.x, expected.x); assertEq(observed.y, expected.y); assertEq(observed.z, expected.z); assertEq(observed.w, expected.w); } function testSimdX4(ctor, shift, scale, disp, simdName, simdCtor) { var arr = new ctor(ab); var c = asmCompile('glob', 'imp', 'b', USE_ASM + 'var arr=new glob.' + ctor.name + '(b); ' + 'var SIMD_' + simdName + ' = glob.SIMD.' + simdName + '; ' + 'var SIMD_' + simdName + '_check = SIMD_' + simdName + '.check; ' + 'var SIMD_' + simdName + '_load = SIMD_' + simdName + '.load; ' + 'var SIMD_' + simdName + '_load2 = SIMD_' + simdName + '.load2; ' + 'var SIMD_' + simdName + '_load1 = SIMD_' + simdName + '.load1; ' + 'var SIMD_' + simdName + '_store = SIMD_' + simdName + '.store; ' + 'var SIMD_' + simdName + '_store2 = SIMD_' + simdName + '.store2; ' + 'var SIMD_' + simdName + '_store1 = SIMD_' + simdName + '.store1; ' + 'function load(i) {i=i|0; return SIMD_' + simdName + '_check(SIMD_' + simdName + '_load(arr, ((i<<' + scale + ')+' + disp + ')>>' + shift + ')) } ' + 'function load2(i) {i=i|0; return SIMD_' + simdName + '_check(SIMD_' + simdName + '_load2(arr, ((i<<' + scale + ')+' + disp + ')>>' + shift + ')) } ' + 'function load1(i) {i=i|0; return SIMD_' + simdName + '_check(SIMD_' + simdName + '_load1(arr, ((i<<' + scale + ')+' + disp + ')>>' + shift + ')) } ' + 'function store(i,j) {i=i|0;j=SIMD_' + simdName + '_check(j); SIMD_' + simdName + '_store(arr, ((i<<' + scale + ')+' + disp + ')>>' + shift + ', j) } ' + 'function store2(i,j) {i=i|0;j=SIMD_' + simdName + '_check(j); SIMD_' + simdName + '_store2(arr, ((i<<' + scale + ')+' + disp + ')>>' + shift + ', j) } ' + 'function store1(i,j) {i=i|0;j=SIMD_' + simdName + '_check(j); SIMD_' + simdName + '_store1(arr, ((i<<' + scale + ')+' + disp + ')>>' + shift + ', j) } ' + 'return { load: load, load2: load2, load1: load1, store: store, store2 : store2, store1 : store1 }'); var f = asmLink(c, this, null, ab); const RuntimeError = WebAssembly.RuntimeError; for (var i of indices) { var index = ((i<>shift; var v, v2, v1; var t = false, t2 = false, t1 = false; try { v = simdCtor.load(arr, index); } catch (e) { assertEq(e instanceof RangeError, true); t = true; } try { v2 = simdCtor.load2(arr, index); } catch (e) { assertEq(e instanceof RangeError, true); t2 = true; } try { v1 = simdCtor.load1(arr, index); } catch (e) { assertEq(e instanceof RangeError, true); t1 = true; } // Loads var l, l2, l1; var r = false, r2 = false, r1 = false; try { l = f.load(i); } catch (e) { assertEq(e instanceof RuntimeError, true); r = true; } try { l2 = f.load2(i); } catch (e) { assertEq(e instanceof RuntimeError, true); r2 = true; } try { l1 = f.load1(i); } catch (e) { assertEq(e instanceof RuntimeError, true); r1 = true; } assertEq(t, r); assertEq(t2, r2); assertEq(t1, r1); if (!t) assertEqX4(v, l); if (!t2) assertEqX4(v2, l2); if (!t1) assertEqX4(v1, l1); // Stores if (!t) { simdCtor.store(arr, index, simdCtor.neg(v)); f.store(i, v); assertEqX4(simdCtor.load(arr, index), v); } else assertThrowsInstanceOf(() => f.store(i, simdCtor()), RuntimeError); if (!t2) { simdCtor.store2(arr, index, simdCtor.neg(v2)); f.store2(i, v2); assertEqX4(simdCtor.load2(arr, index), v2); } else assertThrowsInstanceOf(() => f.store2(i, simdCtor()), RuntimeError); if (!t1) { simdCtor.store1(arr, index, simdCtor.neg(v1)); f.store1(i, v1); assertEqX4(simdCtor.load1(arr, index), v1); } else assertThrowsInstanceOf(() => f.store1(i, simdCtor()), RuntimeError); } } function testFloat32x4(ctor, shift, scale, disp) { testSimdX4(ctor, shift, scale, disp, 'Float32x4', SIMD.Float32x4); } function testInt32x4(ctor, shift, scale, disp) { testSimdX4(ctor, shift, scale, disp, 'Int32x4', SIMD.Int32x4); } function test(tester, ctor, shift) { var arr = new ctor(ab); for (var i = 0; i < arr.length; i++) arr[i] = Math.imul(i, Math.imul((i & 1), 2) - 1); for (scale of [0,1,2,3]) { for (disp of [0,1,2,8,Math.pow(2,30),Math.pow(2,31)-1,Math.pow(2,31),Math.pow(2,32)-1]) tester(ctor, shift, scale, disp); } for (var i = 0; i < arr.length; i++) { var v = arr[i]; arr[i] = Math.imul(i, Math.imul((i & 1), 2) - 1); assertEq(arr[i], v); } } test(testInt, Int8Array, 0); test(testInt, Uint8Array, 0); test(testInt, Int16Array, 1); test(testInt, Uint16Array, 1); test(testInt, Int32Array, 2); test(testInt, Uint32Array, 2); test(testFloat32, Float32Array, 2); test(testFloat64, Float64Array, 3); if (typeof SIMD !== 'undefined' && isSimdAvailable()) { // Avoid pathological --ion-eager compile times due to bails in loops setJitCompilerOption('ion.warmup.trigger', 1000000); // Use a fresh ArrayBuffer so prepareForAsmJS can allocated a guard page // which SIMD.js needs. Since the original ArrayBuffer was prepared for // asm.js that didn't use SIMD.js, it has no guard page (on 32-bit). ab = new ArrayBuffer(BUF_MIN); test(testInt32x4, Uint8Array, 0); test(testFloat32x4, Uint8Array, 0); }