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authorMatt A. Tobin <mattatobin@localhost.localdomain>2018-02-02 04:16:08 -0500
committerMatt A. Tobin <mattatobin@localhost.localdomain>2018-02-02 04:16:08 -0500
commit5f8de423f190bbb79a62f804151bc24824fa32d8 (patch)
tree10027f336435511475e392454359edea8e25895d /js/src/jit-test/tests/asm.js/testAtomics.js
parent49ee0794b5d912db1f95dce6eb52d781dc210db5 (diff)
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Add m-esr52 at 52.6.0
Diffstat (limited to 'js/src/jit-test/tests/asm.js/testAtomics.js')
-rw-r--r--js/src/jit-test/tests/asm.js/testAtomics.js1886
1 files changed, 1886 insertions, 0 deletions
diff --git a/js/src/jit-test/tests/asm.js/testAtomics.js b/js/src/jit-test/tests/asm.js/testAtomics.js
new file mode 100644
index 000000000..5b30fb622
--- /dev/null
+++ b/js/src/jit-test/tests/asm.js/testAtomics.js
@@ -0,0 +1,1886 @@
+if (!this.SharedArrayBuffer || !this.Atomics || !isAsmJSCompilationAvailable())
+ quit();
+
+// The code duplication below is very far from elegant but provides
+// flexibility that comes in handy several places.
+
+load(libdir + "asm.js");
+load(libdir + "asserts.js");
+
+setJitCompilerOption('asmjs.atomics.enable', 1);
+
+const RuntimeError = WebAssembly.RuntimeError;
+const outOfBounds = /index out of bounds/;
+
+var loadModule_int32_code =
+ USE_ASM + `
+ var atomic_load = stdlib.Atomics.load;
+ var atomic_store = stdlib.Atomics.store;
+ var atomic_cmpxchg = stdlib.Atomics.compareExchange;
+ var atomic_exchange = stdlib.Atomics.exchange;
+ var atomic_add = stdlib.Atomics.add;
+ var atomic_sub = stdlib.Atomics.sub;
+ var atomic_and = stdlib.Atomics.and;
+ var atomic_or = stdlib.Atomics.or;
+ var atomic_xor = stdlib.Atomics.xor;
+
+ var i32a = new stdlib.Int32Array(heap);
+
+ // Load element 0
+ function do_load() {
+ var v = 0;
+ v = atomic_load(i32a, 0);
+ return v|0;
+ }
+
+ // Load element i
+ function do_load_i(i) {
+ i = i|0;
+ var v = 0;
+ v = atomic_load(i32a, i>>2);
+ return v|0;
+ }
+
+ // Store 37 in element 0
+ function do_store() {
+ var v = 0;
+ v = atomic_store(i32a, 0, 37);
+ return v|0;
+ }
+
+ // Store 37 in element i
+ function do_store_i(i) {
+ i = i|0;
+ var v = 0;
+ v = atomic_store(i32a, i>>2, 37);
+ return v|0;
+ }
+
+ // Exchange 37 into element 200
+ function do_xchg() {
+ var v = 0;
+ v = atomic_exchange(i32a, 200, 37);
+ return v|0;
+ }
+
+ // Exchange 42 into element i
+ function do_xchg_i(i) {
+ i = i|0;
+ var v = 0;
+ v = atomic_exchange(i32a, i>>2, 42);
+ return v|0;
+ }
+
+ // Exchange 1+2 into element 200. This is not called; all we're
+ // checking is that the compilation succeeds, since 1+2 has type
+ // "intish" (asm.js spec "AdditiveExpression") and this should be
+ // allowed.
+ function do_xchg_intish() {
+ var v = 0;
+ v = atomic_exchange(i32a, 200, 1+2);
+ return v|0;
+ }
+
+ // Add 37 to element 10
+ function do_add() {
+ var v = 0;
+ v = atomic_add(i32a, 10, 37);
+ return v|0;
+ }
+
+ // Add 37 to element i
+ function do_add_i(i) {
+ i = i|0;
+ var v = 0;
+ v = atomic_add(i32a, i>>2, 37);
+ return v|0;
+ }
+
+ // As for do_xchg_intish, above. Given the structure of the
+ // compiler, this covers all the binops.
+ function do_add_intish() {
+ var v = 0;
+ v = atomic_add(i32a, 10, 1+2);
+ return v|0;
+ }
+
+ // Subtract 148 from element 20
+ function do_sub() {
+ var v = 0;
+ v = atomic_sub(i32a, 20, 148);
+ return v|0;
+ }
+
+ // Subtract 148 from element i
+ function do_sub_i(i) {
+ i = i|0;
+ var v = 0;
+ v = atomic_sub(i32a, i>>2, 148);
+ return v|0;
+ }
+
+ // AND 0x33333333 into element 30
+ function do_and() {
+ var v = 0;
+ v = atomic_and(i32a, 30, 0x33333333);
+ return v|0;
+ }
+
+ // AND 0x33333333 into element i
+ function do_and_i(i) {
+ i = i|0;
+ var v = 0;
+ v = atomic_and(i32a, i>>2, 0x33333333);
+ return v|0;
+ }
+
+ // OR 0x33333333 into element 40
+ function do_or() {
+ var v = 0;
+ v = atomic_or(i32a, 40, 0x33333333);
+ return v|0;
+ }
+
+ // OR 0x33333333 into element i
+ function do_or_i(i) {
+ i = i|0;
+ var v = 0;
+ v = atomic_or(i32a, i>>2, 0x33333333);
+ return v|0;
+ }
+
+ // XOR 0x33333333 into element 50
+ function do_xor() {
+ var v = 0;
+ v = atomic_xor(i32a, 50, 0x33333333);
+ return v|0;
+ }
+
+ // XOR 0x33333333 into element i
+ function do_xor_i(i) {
+ i = i|0;
+ var v = 0;
+ v = atomic_xor(i32a, i>>2, 0x33333333);
+ return v|0;
+ }
+
+ // CAS element 100: 0 -> -1
+ function do_cas1() {
+ var v = 0;
+ v = atomic_cmpxchg(i32a, 100, 0, -1);
+ return v|0;
+ }
+
+ // As for do_xchg_intish, above. Will not be called, is here just
+ // to test that the compiler allows intish arguments.
+ function do_cas_intish() {
+ var v = 0;
+ v = atomic_cmpxchg(i32a, 100, 1+2, 2+3);
+ return v|0;
+ }
+
+ // CAS element 100: -1 -> 0x5A5A5A5A
+ function do_cas2() {
+ var v = 0;
+ v = atomic_cmpxchg(i32a, 100, -1, 0x5A5A5A5A);
+ return v|0;
+ }
+
+ // CAS element i: 0 -> -1
+ function do_cas1_i(i) {
+ i = i|0;
+ var v = 0;
+ v = atomic_cmpxchg(i32a, i>>2, 0, -1);
+ return v|0;
+ }
+
+ // CAS element i: -1 -> 0x5A5A5A5A
+ function do_cas2_i(i) {
+ i = i|0;
+ var v = 0;
+ v = atomic_cmpxchg(i32a, i>>2, -1, 0x5A5A5A5A);
+ return v|0;
+ }
+
+ return { load: do_load,
+ load_i: do_load_i,
+ store: do_store,
+ store_i: do_store_i,
+ xchg: do_xchg,
+ xchg_i: do_xchg_i,
+ xchg_intish: do_xchg_intish,
+ add: do_add,
+ add_i: do_add_i,
+ add_intish: do_add_intish,
+ sub: do_sub,
+ sub_i: do_sub_i,
+ and: do_and,
+ and_i: do_and_i,
+ or: do_or,
+ or_i: do_or_i,
+ xor: do_xor,
+ xor_i: do_xor_i,
+ cas1: do_cas1,
+ cas2: do_cas2,
+ cas_intish: do_cas_intish,
+ cas1_i: do_cas1_i,
+ cas2_i: do_cas2_i };
+`;
+
+var loadModule_int32 = asmCompile('stdlib', 'foreign', 'heap', loadModule_int32_code);
+
+function test_int32(heap) {
+ var i32a = new Int32Array(heap);
+ var i32m = asmLink(loadModule_int32, this, {}, heap);
+
+ var size = Int32Array.BYTES_PER_ELEMENT;
+
+ i32a[0] = 12345;
+ assertEq(i32m.load(), 12345);
+ assertEq(i32m.load_i(size*0), 12345);
+
+ assertEq(i32m.store(), 37);
+ assertEq(i32a[0], 37);
+ assertEq(i32m.store_i(size*0), 37);
+
+ i32a[200] = 78;
+ assertEq(i32m.xchg(), 78); // 37 into #200
+ assertEq(i32a[0], 37);
+ assertEq(i32m.xchg_i(size*200), 37); // 42 into #200
+ assertEq(i32a[200], 42);
+
+ i32a[10] = 18;
+ assertEq(i32m.add(), 18);
+ assertEq(i32a[10], 18+37);
+ assertEq(i32m.add_i(size*10), 18+37);
+ assertEq(i32a[10], 18+37+37);
+
+ i32a[20] = 4972;
+ assertEq(i32m.sub(), 4972);
+ assertEq(i32a[20], 4972 - 148);
+ assertEq(i32m.sub_i(size*20), 4972 - 148);
+ assertEq(i32a[20], 4972 - 148 - 148);
+
+ i32a[30] = 0x66666666;
+ assertEq(i32m.and(), 0x66666666);
+ assertEq(i32a[30], 0x22222222);
+ i32a[30] = 0x66666666;
+ assertEq(i32m.and_i(size*30), 0x66666666);
+ assertEq(i32a[30], 0x22222222);
+
+ i32a[40] = 0x22222222;
+ assertEq(i32m.or(), 0x22222222);
+ assertEq(i32a[40], 0x33333333);
+ i32a[40] = 0x22222222;
+ assertEq(i32m.or_i(size*40), 0x22222222);
+ assertEq(i32a[40], 0x33333333);
+
+ i32a[50] = 0x22222222;
+ assertEq(i32m.xor(), 0x22222222);
+ assertEq(i32a[50], 0x11111111);
+ i32a[50] = 0x22222222;
+ assertEq(i32m.xor_i(size*50), 0x22222222);
+ assertEq(i32a[50], 0x11111111);
+
+ i32a[100] = 0;
+ assertEq(i32m.cas1(), 0);
+ assertEq(i32m.cas2(), -1);
+ assertEq(i32a[100], 0x5A5A5A5A);
+
+ i32a[100] = 0;
+ assertEq(i32m.cas1_i(size*100), 0);
+ assertEq(i32m.cas2_i(size*100), -1);
+ assertEq(i32a[100], 0x5A5A5A5A);
+
+ // Out-of-bounds accesses.
+
+ var oob = (heap.byteLength * 2) & ~7;
+
+ assertErrorMessage(() => i32m.cas1_i(oob), RuntimeError, outOfBounds);
+ assertErrorMessage(() => i32m.cas2_i(oob), RuntimeError, outOfBounds);
+
+ assertErrorMessage(() => i32m.or_i(oob), RuntimeError, outOfBounds);
+ assertErrorMessage(() => i32m.xor_i(oob), RuntimeError, outOfBounds);
+ assertErrorMessage(() => i32m.and_i(oob), RuntimeError, outOfBounds);
+ assertErrorMessage(() => i32m.add_i(oob), RuntimeError, outOfBounds);
+ assertErrorMessage(() => i32m.sub_i(oob), RuntimeError, outOfBounds);
+ assertErrorMessage(() => i32m.load_i(oob), RuntimeError, outOfBounds);
+ assertErrorMessage(() => i32m.store_i(oob), RuntimeError, outOfBounds);
+ assertErrorMessage(() => i32m.xchg_i(oob), RuntimeError, outOfBounds);
+
+ // Edge cases
+ const INT32_MAX = Math.pow(2, 31);
+ const UINT32_MAX = Math.pow(2, 32);
+ for (var i of [i32a.length*4, INT32_MAX - 4, INT32_MAX, UINT32_MAX - 4]) {
+ assertErrorMessage(() => i32m.load_i(i), RuntimeError, outOfBounds);
+ assertErrorMessage(() => i32m.store_i(i), RuntimeError, outOfBounds);
+ assertErrorMessage(() => i32m.add_i(i), RuntimeError, outOfBounds);
+ }
+
+ i32a[i32a.length-1] = 88;
+ assertEq(i32m.load_i((i32a.length-1)*4), 88);
+ assertEq(i32m.store_i((i32a.length-1)*4), 37);
+ assertEq(i32m.add_i((i32a.length-1)*4), 37);
+ assertEq(i32m.load_i((i32a.length-1)*4), 37+37);
+ i32a[i32a.length-1] = 0;
+}
+
+var loadModule_uint32_code =
+ USE_ASM + `
+ var atomic_load = stdlib.Atomics.load;
+ var atomic_store = stdlib.Atomics.store;
+ var atomic_cmpxchg = stdlib.Atomics.compareExchange;
+ var atomic_exchange = stdlib.Atomics.exchange;
+ var atomic_add = stdlib.Atomics.add;
+ var atomic_sub = stdlib.Atomics.sub;
+ var atomic_and = stdlib.Atomics.and;
+ var atomic_or = stdlib.Atomics.or;
+ var atomic_xor = stdlib.Atomics.xor;
+
+ var i32a = new stdlib.Uint32Array(heap);
+
+ // Load element 0
+ function do_load() {
+ var v = 0;
+ v = atomic_load(i32a, 0);
+ return +(v>>>0);
+ }
+
+ // Load element i
+ function do_load_i(i) {
+ i = i|0;
+ var v = 0;
+ v = atomic_load(i32a, i>>2);
+ return +(v>>>0);
+ }
+
+ // Store 37 in element 0
+ function do_store() {
+ var v = 0;
+ v = atomic_store(i32a, 0, 37);
+ return +(v>>>0);
+ }
+
+ // Store 37 in element i
+ function do_store_i(i) {
+ i = i|0;
+ var v = 0;
+ v = atomic_store(i32a, i>>2, 37);
+ return +(v>>>0);
+ }
+
+ // Exchange 37 into element 200
+ function do_xchg() {
+ var v = 0;
+ v = atomic_exchange(i32a, 200, 37);
+ return v|0;
+ }
+
+ // Exchange 42 into element i
+ function do_xchg_i(i) {
+ i = i|0;
+ var v = 0;
+ v = atomic_exchange(i32a, i>>2, 42);
+ return v|0;
+ }
+
+ // Add 37 to element 10
+ function do_add() {
+ var v = 0;
+ v = atomic_add(i32a, 10, 37);
+ return +(v>>>0);
+ }
+
+ // Add 37 to element i
+ function do_add_i(i) {
+ i = i|0;
+ var v = 0;
+ v = atomic_add(i32a, i>>2, 37);
+ return +(v>>>0);
+ }
+
+ // Subtract 148 from element 20
+ function do_sub() {
+ var v = 0;
+ v = atomic_sub(i32a, 20, 148);
+ return +(v>>>0);
+ }
+
+ // Subtract 148 from element i
+ function do_sub_i(i) {
+ i = i|0;
+ var v = 0;
+ v = atomic_sub(i32a, i>>2, 148);
+ return +(v>>>0);
+ }
+
+ // AND 0x33333333 into element 30
+ function do_and() {
+ var v = 0;
+ v = atomic_and(i32a, 30, 0x33333333);
+ return +(v>>>0);
+ }
+
+ // AND 0x33333333 into element i
+ function do_and_i(i) {
+ i = i|0;
+ var v = 0;
+ v = atomic_and(i32a, i>>2, 0x33333333);
+ return +(v>>>0);
+ }
+
+ // OR 0x33333333 into element 40
+ function do_or() {
+ var v = 0;
+ v = atomic_or(i32a, 40, 0x33333333);
+ return +(v>>>0);
+ }
+
+ // OR 0x33333333 into element i
+ function do_or_i(i) {
+ i = i|0;
+ var v = 0;
+ v = atomic_or(i32a, i>>2, 0x33333333);
+ return +(v>>>0);
+ }
+
+ // XOR 0x33333333 into element 50
+ function do_xor() {
+ var v = 0;
+ v = atomic_xor(i32a, 50, 0x33333333);
+ return +(v>>>0);
+ }
+
+ // XOR 0x33333333 into element i
+ function do_xor_i(i) {
+ i = i|0;
+ var v = 0;
+ v = atomic_xor(i32a, i>>2, 0x33333333);
+ return +(v>>>0);
+ }
+
+ // CAS element 100: 0 -> -1
+ function do_cas1() {
+ var v = 0;
+ v = atomic_cmpxchg(i32a, 100, 0, -1);
+ return +(v>>>0);
+ }
+
+ // CAS element 100: -1 -> 0x5A5A5A5A
+ function do_cas2() {
+ var v = 0;
+ v = atomic_cmpxchg(i32a, 100, -1, 0x5A5A5A5A);
+ return +(v>>>0);
+ }
+
+ // CAS element i: 0 -> -1
+ function do_cas1_i(i) {
+ i = i|0;
+ var v = 0;
+ v = atomic_cmpxchg(i32a, i>>2, 0, -1);
+ return +(v>>>0);
+ }
+
+ // CAS element i: -1 -> 0x5A5A5A5A
+ function do_cas2_i(i) {
+ i = i|0;
+ var v = 0;
+ v = atomic_cmpxchg(i32a, i>>2, -1, 0x5A5A5A5A);
+ return +(v>>>0);
+ }
+
+ return { load: do_load,
+ load_i: do_load_i,
+ store: do_store,
+ store_i: do_store_i,
+ xchg: do_xchg,
+ xchg_i: do_xchg_i,
+ add: do_add,
+ add_i: do_add_i,
+ sub: do_sub,
+ sub_i: do_sub_i,
+ and: do_and,
+ and_i: do_and_i,
+ or: do_or,
+ or_i: do_or_i,
+ xor: do_xor,
+ xor_i: do_xor_i,
+ cas1: do_cas1,
+ cas2: do_cas2,
+ cas1_i: do_cas1_i,
+ cas2_i: do_cas2_i };
+`;
+
+var loadModule_uint32 = asmCompile('stdlib', 'foreign', 'heap', loadModule_uint32_code);
+
+function test_uint32(heap) {
+ var i32a = new Uint32Array(heap);
+ var i32m = loadModule_uint32(this, {}, heap);
+
+ var size = Uint32Array.BYTES_PER_ELEMENT;
+
+ i32a[0] = 12345;
+ assertEq(i32m.load(), 12345);
+ assertEq(i32m.load_i(size*0), 12345);
+
+ assertEq(i32m.store(), 37);
+ assertEq(i32a[0], 37);
+ assertEq(i32m.store_i(size*0), 37);
+
+ i32a[200] = 78;
+ assertEq(i32m.xchg(), 78); // 37 into #200
+ assertEq(i32a[0], 37);
+ assertEq(i32m.xchg_i(size*200), 37); // 42 into #200
+ assertEq(i32a[200], 42);
+
+ i32a[10] = 18;
+ assertEq(i32m.add(), 18);
+ assertEq(i32a[10], 18+37);
+ assertEq(i32m.add_i(size*10), 18+37);
+ assertEq(i32a[10], 18+37+37);
+
+ i32a[20] = 4972;
+ assertEq(i32m.sub(), 4972);
+ assertEq(i32a[20], 4972 - 148);
+ assertEq(i32m.sub_i(size*20), 4972 - 148);
+ assertEq(i32a[20], 4972 - 148 - 148);
+
+ i32a[30] = 0x66666666;
+ assertEq(i32m.and(), 0x66666666);
+ assertEq(i32a[30], 0x22222222);
+ i32a[30] = 0x66666666;
+ assertEq(i32m.and_i(size*30), 0x66666666);
+ assertEq(i32a[30], 0x22222222);
+
+ i32a[40] = 0x22222222;
+ assertEq(i32m.or(), 0x22222222);
+ assertEq(i32a[40], 0x33333333);
+ i32a[40] = 0x22222222;
+ assertEq(i32m.or_i(size*40), 0x22222222);
+ assertEq(i32a[40], 0x33333333);
+
+ i32a[50] = 0x22222222;
+ assertEq(i32m.xor(), 0x22222222);
+ assertEq(i32a[50], 0x11111111);
+ i32a[50] = 0x22222222;
+ assertEq(i32m.xor_i(size*50), 0x22222222);
+ assertEq(i32a[50], 0x11111111);
+
+ i32a[100] = 0;
+ assertEq(i32m.cas1(), 0);
+ assertEq(i32m.cas2(), 0xFFFFFFFF);
+ assertEq(i32a[100], 0x5A5A5A5A);
+
+ i32a[100] = 0;
+ assertEq(i32m.cas1_i(size*100), 0);
+ assertEq(i32m.cas2_i(size*100), 0xFFFFFFFF);
+ assertEq(i32a[100], 0x5A5A5A5A);
+
+ // Out-of-bounds accesses.
+
+ var oob = (heap.byteLength * 2) & ~7;
+
+ assertErrorMessage(() => i32m.cas1_i(oob), RuntimeError, outOfBounds);
+ assertErrorMessage(() => i32m.cas2_i(oob), RuntimeError, outOfBounds);
+
+ assertErrorMessage(() => i32m.or_i(oob), RuntimeError, outOfBounds);
+ assertErrorMessage(() => i32m.xor_i(oob), RuntimeError, outOfBounds);
+ assertErrorMessage(() => i32m.and_i(oob), RuntimeError, outOfBounds);
+ assertErrorMessage(() => i32m.add_i(oob), RuntimeError, outOfBounds);
+ assertErrorMessage(() => i32m.sub_i(oob), RuntimeError, outOfBounds);
+ assertErrorMessage(() => i32m.load_i(oob), RuntimeError, outOfBounds);
+ assertErrorMessage(() => i32m.store_i(oob), RuntimeError, outOfBounds);
+ assertErrorMessage(() => i32m.xchg_i(oob), RuntimeError, outOfBounds);
+
+ // Edge cases
+ const INT32_MAX = Math.pow(2, 31);
+ const UINT32_MAX = Math.pow(2, 32);
+ for (var i of [i32a.length*4, INT32_MAX - 4, INT32_MAX, UINT32_MAX - 4]) {
+ assertErrorMessage(() => i32m.load_i(i), RuntimeError, outOfBounds);
+ assertErrorMessage(() => i32m.store_i(i), RuntimeError, outOfBounds);
+ assertErrorMessage(() => i32m.add_i(i), RuntimeError, outOfBounds);
+ }
+
+ i32a[i32a.length-1] = 88;
+ assertEq(i32m.load_i((i32a.length-1)*4), 88);
+ assertEq(i32m.store_i((i32a.length-1)*4), 37);
+ assertEq(i32m.add_i((i32a.length-1)*4), 37);
+ assertEq(i32m.load_i((i32a.length-1)*4), 37+37);
+ i32a[i32a.length-1] = 0;
+}
+
+var loadModule_int16_code =
+ USE_ASM + `
+ var atomic_load = stdlib.Atomics.load;
+ var atomic_store = stdlib.Atomics.store;
+ var atomic_cmpxchg = stdlib.Atomics.compareExchange;
+ var atomic_exchange = stdlib.Atomics.exchange;
+ var atomic_add = stdlib.Atomics.add;
+ var atomic_sub = stdlib.Atomics.sub;
+ var atomic_and = stdlib.Atomics.and;
+ var atomic_or = stdlib.Atomics.or;
+ var atomic_xor = stdlib.Atomics.xor;
+
+ var i16a = new stdlib.Int16Array(heap);
+
+ // Load element 0
+ function do_load() {
+ var v = 0;
+ v = atomic_load(i16a, 0);
+ return v|0;
+ }
+
+ // Load element i
+ function do_load_i(i) {
+ i = i|0;
+ var v = 0;
+ v = atomic_load(i16a, i>>1);
+ return v|0;
+ }
+
+ // Store 37 in element 0
+ function do_store() {
+ var v = 0;
+ v = atomic_store(i16a, 0, 37);
+ return v|0;
+ }
+
+ // Store 37 in element i
+ function do_store_i(i) {
+ i = i|0;
+ var v = 0;
+ v = atomic_store(i16a, i>>1, 37);
+ return v|0;
+ }
+
+ // Exchange 37 into element 200
+ function do_xchg() {
+ var v = 0;
+ v = atomic_exchange(i16a, 200, 37);
+ return v|0;
+ }
+
+ // Exchange 42 into element i
+ function do_xchg_i(i) {
+ i = i|0;
+ var v = 0;
+ v = atomic_exchange(i16a, i>>1, 42);
+ return v|0;
+ }
+
+ // Add 37 to element 10
+ function do_add() {
+ var v = 0;
+ v = atomic_add(i16a, 10, 37);
+ return v|0;
+ }
+
+ // Add 37 to element i
+ function do_add_i(i) {
+ i = i|0;
+ var v = 0;
+ v = atomic_add(i16a, i>>1, 37);
+ return v|0;
+ }
+
+ // Subtract 148 from element 20
+ function do_sub() {
+ var v = 0;
+ v = atomic_sub(i16a, 20, 148);
+ return v|0;
+ }
+
+ // Subtract 148 from element i
+ function do_sub_i(i) {
+ i = i|0;
+ var v = 0;
+ v = atomic_sub(i16a, i>>1, 148);
+ return v|0;
+ }
+
+ // AND 0x3333 into element 30
+ function do_and() {
+ var v = 0;
+ v = atomic_and(i16a, 30, 0x3333);
+ return v|0;
+ }
+
+ // AND 0x3333 into element i
+ function do_and_i(i) {
+ i = i|0;
+ var v = 0;
+ v = atomic_and(i16a, i>>1, 0x3333);
+ return v|0;
+ }
+
+ // OR 0x3333 into element 40
+ function do_or() {
+ var v = 0;
+ v = atomic_or(i16a, 40, 0x3333);
+ return v|0;
+ }
+
+ // OR 0x3333 into element i
+ function do_or_i(i) {
+ i = i|0;
+ var v = 0;
+ v = atomic_or(i16a, i>>1, 0x3333);
+ return v|0;
+ }
+
+ // XOR 0x3333 into element 50
+ function do_xor() {
+ var v = 0;
+ v = atomic_xor(i16a, 50, 0x3333);
+ return v|0;
+ }
+
+ // XOR 0x3333 into element i
+ function do_xor_i(i) {
+ i = i|0;
+ var v = 0;
+ v = atomic_xor(i16a, i>>1, 0x3333);
+ return v|0;
+ }
+
+ // CAS element 100: 0 -> -1
+ function do_cas1() {
+ var v = 0;
+ v = atomic_cmpxchg(i16a, 100, 0, -1);
+ return v|0;
+ }
+
+ // CAS element 100: -1 -> 0x5A5A
+ function do_cas2() {
+ var v = 0;
+ v = atomic_cmpxchg(i16a, 100, -1, 0x5A5A);
+ return v|0;
+ }
+
+ // CAS element i: 0 -> -1
+ function do_cas1_i(i) {
+ i = i|0;
+ var v = 0;
+ v = atomic_cmpxchg(i16a, i>>1, 0, -1);
+ return v|0;
+ }
+
+ // CAS element i: -1 -> 0x5A5A
+ function do_cas2_i(i) {
+ i = i|0;
+ var v = 0;
+ v = atomic_cmpxchg(i16a, i>>1, -1, 0x5A5A);
+ return v|0;
+ }
+
+ return { load: do_load,
+ load_i: do_load_i,
+ store: do_store,
+ store_i: do_store_i,
+ xchg: do_xchg,
+ xchg_i: do_xchg_i,
+ add: do_add,
+ add_i: do_add_i,
+ sub: do_sub,
+ sub_i: do_sub_i,
+ and: do_and,
+ and_i: do_and_i,
+ or: do_or,
+ or_i: do_or_i,
+ xor: do_xor,
+ xor_i: do_xor_i,
+ cas1: do_cas1,
+ cas2: do_cas2,
+ cas1_i: do_cas1_i,
+ cas2_i: do_cas2_i };
+`
+
+var loadModule_int16 = asmCompile('stdlib', 'foreign', 'heap', loadModule_int16_code);
+
+function test_int16(heap) {
+ var i16a = new Int16Array(heap);
+ var i16m = loadModule_int16(this, {}, heap);
+
+ var size = Int16Array.BYTES_PER_ELEMENT;
+
+ i16a[0] = 12345;
+ assertEq(i16m.load(), 12345);
+ assertEq(i16m.load_i(size*0), 12345);
+
+ i16a[0] = -38;
+ assertEq(i16m.load(), -38);
+ assertEq(i16m.load_i(size*0), -38);
+
+ assertEq(i16m.store(), 37);
+ assertEq(i16a[0], 37);
+ assertEq(i16m.store_i(size*0), 37);
+
+ i16a[200] = 78;
+ assertEq(i16m.xchg(), 78); // 37 into #200
+ assertEq(i16a[0], 37);
+ assertEq(i16m.xchg_i(size*200), 37); // 42 into #200
+ assertEq(i16a[200], 42);
+
+ i16a[10] = 18;
+ assertEq(i16m.add(), 18);
+ assertEq(i16a[10], 18+37);
+ assertEq(i16m.add_i(size*10), 18+37);
+ assertEq(i16a[10], 18+37+37);
+
+ i16a[10] = -38;
+ assertEq(i16m.add(), -38);
+ assertEq(i16a[10], -38+37);
+ assertEq(i16m.add_i(size*10), -38+37);
+ assertEq(i16a[10], -38+37+37);
+
+ i16a[20] = 4972;
+ assertEq(i16m.sub(), 4972);
+ assertEq(i16a[20], 4972 - 148);
+ assertEq(i16m.sub_i(size*20), 4972 - 148);
+ assertEq(i16a[20], 4972 - 148 - 148);
+
+ i16a[30] = 0x6666;
+ assertEq(i16m.and(), 0x6666);
+ assertEq(i16a[30], 0x2222);
+ i16a[30] = 0x6666;
+ assertEq(i16m.and_i(size*30), 0x6666);
+ assertEq(i16a[30], 0x2222);
+
+ i16a[40] = 0x2222;
+ assertEq(i16m.or(), 0x2222);
+ assertEq(i16a[40], 0x3333);
+ i16a[40] = 0x2222;
+ assertEq(i16m.or_i(size*40), 0x2222);
+ assertEq(i16a[40], 0x3333);
+
+ i16a[50] = 0x2222;
+ assertEq(i16m.xor(), 0x2222);
+ assertEq(i16a[50], 0x1111);
+ i16a[50] = 0x2222;
+ assertEq(i16m.xor_i(size*50), 0x2222);
+ assertEq(i16a[50], 0x1111);
+
+ i16a[100] = 0;
+ assertEq(i16m.cas1(), 0);
+ assertEq(i16m.cas2(), -1);
+ assertEq(i16a[100], 0x5A5A);
+
+ i16a[100] = 0;
+ assertEq(i16m.cas1_i(size*100), 0);
+ assertEq(i16m.cas2_i(size*100), -1);
+ assertEq(i16a[100], 0x5A5A);
+
+ var oob = (heap.byteLength * 2) & ~7;
+
+ assertErrorMessage(() => i16m.cas1_i(oob), RuntimeError, outOfBounds);
+ assertErrorMessage(() => i16m.cas2_i(oob), RuntimeError, outOfBounds);
+
+ assertErrorMessage(() => i16m.or_i(oob), RuntimeError, outOfBounds);
+ assertErrorMessage(() => i16m.xor_i(oob), RuntimeError, outOfBounds);
+ assertErrorMessage(() => i16m.and_i(oob), RuntimeError, outOfBounds);
+ assertErrorMessage(() => i16m.add_i(oob), RuntimeError, outOfBounds);
+ assertErrorMessage(() => i16m.sub_i(oob), RuntimeError, outOfBounds);
+ assertErrorMessage(() => i16m.load_i(oob), RuntimeError, outOfBounds);
+ assertErrorMessage(() => i16m.store_i(oob), RuntimeError, outOfBounds);
+ assertErrorMessage(() => i16m.xchg_i(oob), RuntimeError, outOfBounds);
+
+ // Edge cases
+ const INT32_MAX = Math.pow(2, 31);
+ const UINT32_MAX = Math.pow(2, 32);
+ for (var i of [i16a.length*2, INT32_MAX - 2, INT32_MAX, UINT32_MAX - 2]) {
+ assertErrorMessage(() => i16m.load_i(i), RuntimeError, outOfBounds);
+ assertErrorMessage(() => i16m.store_i(i), RuntimeError, outOfBounds);
+ assertErrorMessage(() => i16m.add_i(i), RuntimeError, outOfBounds);
+ }
+
+ i16a[i16a.length-1] = 88;
+ assertEq(i16m.load_i((i16a.length-1)*2), 88);
+ assertEq(i16m.store_i((i16a.length-1)*2), 37);
+ assertEq(i16m.add_i((i16a.length-1)*2), 37);
+ assertEq(i16m.load_i((i16a.length-1)*2), 37+37);
+ i16a[i16a.length-1] = 0;
+}
+
+var loadModule_uint16_code =
+ USE_ASM + `
+ var atomic_load = stdlib.Atomics.load;
+ var atomic_store = stdlib.Atomics.store;
+ var atomic_cmpxchg = stdlib.Atomics.compareExchange;
+ var atomic_exchange = stdlib.Atomics.exchange;
+ var atomic_add = stdlib.Atomics.add;
+ var atomic_sub = stdlib.Atomics.sub;
+ var atomic_and = stdlib.Atomics.and;
+ var atomic_or = stdlib.Atomics.or;
+ var atomic_xor = stdlib.Atomics.xor;
+
+ var i16a = new stdlib.Uint16Array(heap);
+
+ // Load element 0
+ function do_load() {
+ var v = 0;
+ v = atomic_load(i16a, 0);
+ return v|0;
+ }
+
+ // Load element i
+ function do_load_i(i) {
+ i = i|0;
+ var v = 0;
+ v = atomic_load(i16a, i>>1);
+ return v|0;
+ }
+
+ // Store 37 in element 0
+ function do_store() {
+ var v = 0;
+ v = atomic_store(i16a, 0, 37);
+ return v|0;
+ }
+
+ // Store 37 in element i
+ function do_store_i(i) {
+ i = i|0;
+ var v = 0;
+ v = atomic_store(i16a, i>>1, 37);
+ return v|0;
+ }
+
+ // Exchange 37 into element 200
+ function do_xchg() {
+ var v = 0;
+ v = atomic_exchange(i16a, 200, 37);
+ return v|0;
+ }
+
+ // Exchange 42 into element i
+ function do_xchg_i(i) {
+ i = i|0;
+ var v = 0;
+ v = atomic_exchange(i16a, i>>1, 42);
+ return v|0;
+ }
+
+ // Add 37 to element 10
+ function do_add() {
+ var v = 0;
+ v = atomic_add(i16a, 10, 37);
+ return v|0;
+ }
+
+ // Add 37 to element i
+ function do_add_i(i) {
+ i = i|0;
+ var v = 0;
+ v = atomic_add(i16a, i>>1, 37);
+ return v|0;
+ }
+
+ // Subtract 148 from element 20
+ function do_sub() {
+ var v = 0;
+ v = atomic_sub(i16a, 20, 148);
+ return v|0;
+ }
+
+ // Subtract 148 from element i
+ function do_sub_i(i) {
+ i = i|0;
+ var v = 0;
+ v = atomic_sub(i16a, i>>1, 148);
+ return v|0;
+ }
+
+ // AND 0x3333 into element 30
+ function do_and() {
+ var v = 0;
+ v = atomic_and(i16a, 30, 0x3333);
+ return v|0;
+ }
+
+ // AND 0x3333 into element i
+ function do_and_i(i) {
+ i = i|0;
+ var v = 0;
+ v = atomic_and(i16a, i>>1, 0x3333);
+ return v|0;
+ }
+
+ // OR 0x3333 into element 40
+ function do_or() {
+ var v = 0;
+ v = atomic_or(i16a, 40, 0x3333);
+ return v|0;
+ }
+
+ // OR 0x3333 into element i
+ function do_or_i(i) {
+ i = i|0;
+ var v = 0;
+ v = atomic_or(i16a, i>>1, 0x3333);
+ return v|0;
+ }
+
+ // XOR 0x3333 into element 50
+ function do_xor() {
+ var v = 0;
+ v = atomic_xor(i16a, 50, 0x3333);
+ return v|0;
+ }
+
+ // XOR 0x3333 into element i
+ function do_xor_i(i) {
+ i = i|0;
+ var v = 0;
+ v = atomic_xor(i16a, i>>1, 0x3333);
+ return v|0;
+ }
+
+ // CAS element 100: 0 -> -1
+ function do_cas1() {
+ var v = 0;
+ v = atomic_cmpxchg(i16a, 100, 0, -1);
+ return v|0;
+ }
+
+ // CAS element 100: -1 -> 0x5A5A
+ function do_cas2() {
+ var v = 0;
+ v = atomic_cmpxchg(i16a, 100, -1, 0x5A5A);
+ return v|0;
+ }
+
+ // CAS element i: 0 -> -1
+ function do_cas1_i(i) {
+ i = i|0;
+ var v = 0;
+ v = atomic_cmpxchg(i16a, i>>1, 0, -1);
+ return v|0;
+ }
+
+ // CAS element i: -1 -> 0x5A5A
+ function do_cas2_i(i) {
+ i = i|0;
+ var v = 0;
+ v = atomic_cmpxchg(i16a, i>>1, -1, 0x5A5A);
+ return v|0;
+ }
+
+ return { load: do_load,
+ load_i: do_load_i,
+ store: do_store,
+ store_i: do_store_i,
+ xchg: do_xchg,
+ xchg_i: do_xchg_i,
+ add: do_add,
+ add_i: do_add_i,
+ sub: do_sub,
+ sub_i: do_sub_i,
+ and: do_and,
+ and_i: do_and_i,
+ or: do_or,
+ or_i: do_or_i,
+ xor: do_xor,
+ xor_i: do_xor_i,
+ cas1: do_cas1,
+ cas2: do_cas2,
+ cas1_i: do_cas1_i,
+ cas2_i: do_cas2_i };
+`
+
+var loadModule_uint16 = asmCompile('stdlib', 'foreign', 'heap', loadModule_uint16_code);
+
+function test_uint16(heap) {
+ var i16a = new Uint16Array(heap);
+ var i16m = loadModule_uint16(this, {}, heap);
+
+ var size = Uint16Array.BYTES_PER_ELEMENT;
+
+ i16a[0] = 12345;
+ assertEq(i16m.load(), 12345);
+ assertEq(i16m.load_i(size*0), 12345);
+
+ i16a[0] = -38;
+ assertEq(i16m.load(), (0x10000-38));
+ assertEq(i16m.load_i(size*0), (0x10000-38));
+
+ assertEq(i16m.store(), 37);
+ assertEq(i16a[0], 37);
+ assertEq(i16m.store_i(size*0), 37);
+
+ i16a[200] = 78;
+ assertEq(i16m.xchg(), 78); // 37 into #200
+ assertEq(i16a[0], 37);
+ assertEq(i16m.xchg_i(size*200), 37); // 42 into #200
+ assertEq(i16a[200], 42);
+
+ i16a[10] = 18;
+ assertEq(i16m.add(), 18);
+ assertEq(i16a[10], 18+37);
+ assertEq(i16m.add_i(size*10), 18+37);
+ assertEq(i16a[10], 18+37+37);
+
+ i16a[10] = -38;
+ assertEq(i16m.add(), (0x10000-38));
+ assertEq(i16a[10], (0x10000-38)+37);
+ assertEq(i16m.add_i(size*10), (0x10000-38)+37);
+ assertEq(i16a[10], ((0x10000-38)+37+37) & 0xFFFF);
+
+ i16a[20] = 4972;
+ assertEq(i16m.sub(), 4972);
+ assertEq(i16a[20], 4972 - 148);
+ assertEq(i16m.sub_i(size*20), 4972 - 148);
+ assertEq(i16a[20], 4972 - 148 - 148);
+
+ i16a[30] = 0x6666;
+ assertEq(i16m.and(), 0x6666);
+ assertEq(i16a[30], 0x2222);
+ i16a[30] = 0x6666;
+ assertEq(i16m.and_i(size*30), 0x6666);
+ assertEq(i16a[30], 0x2222);
+
+ i16a[40] = 0x2222;
+ assertEq(i16m.or(), 0x2222);
+ assertEq(i16a[40], 0x3333);
+ i16a[40] = 0x2222;
+ assertEq(i16m.or_i(size*40), 0x2222);
+ assertEq(i16a[40], 0x3333);
+
+ i16a[50] = 0x2222;
+ assertEq(i16m.xor(), 0x2222);
+ assertEq(i16a[50], 0x1111);
+ i16a[50] = 0x2222;
+ assertEq(i16m.xor_i(size*50), 0x2222);
+ assertEq(i16a[50], 0x1111);
+
+ i16a[100] = 0;
+ assertEq(i16m.cas1(), 0);
+ assertEq(i16m.cas2(), -1 & 0xFFFF);
+ assertEq(i16a[100], 0x5A5A);
+
+ i16a[100] = 0;
+ assertEq(i16m.cas1_i(size*100), 0);
+ assertEq(i16m.cas2_i(size*100), -1 & 0xFFFF);
+ assertEq(i16a[100], 0x5A5A);
+
+ var oob = (heap.byteLength * 2) & ~7;
+
+ assertErrorMessage(() => i16m.cas1_i(oob), RuntimeError, outOfBounds);
+ assertErrorMessage(() => i16m.cas2_i(oob), RuntimeError, outOfBounds);
+
+ assertErrorMessage(() => i16m.or_i(oob), RuntimeError, outOfBounds);
+ assertErrorMessage(() => i16m.xor_i(oob), RuntimeError, outOfBounds);
+ assertErrorMessage(() => i16m.and_i(oob), RuntimeError, outOfBounds);
+ assertErrorMessage(() => i16m.add_i(oob), RuntimeError, outOfBounds);
+ assertErrorMessage(() => i16m.sub_i(oob), RuntimeError, outOfBounds);
+ assertErrorMessage(() => i16m.load_i(oob), RuntimeError, outOfBounds);
+ assertErrorMessage(() => i16m.store_i(oob), RuntimeError, outOfBounds);
+ assertErrorMessage(() => i16m.xchg_i(oob), RuntimeError, outOfBounds);
+
+ // Edge cases
+ const INT32_MAX = Math.pow(2, 31);
+ const UINT32_MAX = Math.pow(2, 32);
+ for (var i of [i16a.length*2, INT32_MAX - 2, INT32_MAX, UINT32_MAX - 2]) {
+ assertErrorMessage(() => i16m.load_i(i), RuntimeError, outOfBounds);
+ assertErrorMessage(() => i16m.store_i(i), RuntimeError, outOfBounds);
+ assertErrorMessage(() => i16m.add_i(i), RuntimeError, outOfBounds);
+ }
+
+ i16a[i16a.length-1] = 88;
+ assertEq(i16m.load_i((i16a.length-1)*2), 88);
+ assertEq(i16m.store_i((i16a.length-1)*2), 37);
+ assertEq(i16m.add_i((i16a.length-1)*2), 37);
+ assertEq(i16m.load_i((i16a.length-1)*2), 37+37);
+ i16a[i16a.length-1] = 0;
+}
+
+var loadModule_int8_code =
+ USE_ASM + `
+ var atomic_load = stdlib.Atomics.load;
+ var atomic_store = stdlib.Atomics.store;
+ var atomic_cmpxchg = stdlib.Atomics.compareExchange;
+ var atomic_exchange = stdlib.Atomics.exchange;
+ var atomic_add = stdlib.Atomics.add;
+ var atomic_sub = stdlib.Atomics.sub;
+ var atomic_and = stdlib.Atomics.and;
+ var atomic_or = stdlib.Atomics.or;
+ var atomic_xor = stdlib.Atomics.xor;
+
+ var i8a = new stdlib.Int8Array(heap);
+
+ // Load element 0
+ function do_load() {
+ var v = 0;
+ v = atomic_load(i8a, 0);
+ return v|0;
+ }
+
+ // Load element i
+ function do_load_i(i) {
+ i = i|0;
+ var v = 0;
+ v = atomic_load(i8a, i);
+ return v|0;
+ }
+
+ // Store 37 in element 0
+ function do_store() {
+ var v = 0;
+ v = atomic_store(i8a, 0, 37);
+ return v|0;
+ }
+
+ // Store 37 in element i
+ function do_store_i(i) {
+ i = i|0;
+ var v = 0;
+ v = atomic_store(i8a, i, 37);
+ return v|0;
+ }
+
+ // Exchange 37 into element 200
+ function do_xchg() {
+ var v = 0;
+ v = atomic_exchange(i8a, 200, 37);
+ return v|0;
+ }
+
+ // Exchange 42 into element i
+ function do_xchg_i(i) {
+ i = i|0;
+ var v = 0;
+ v = atomic_exchange(i8a, i, 42);
+ return v|0;
+ }
+
+ // Add 37 to element 10
+ function do_add() {
+ var v = 0;
+ v = atomic_add(i8a, 10, 37);
+ return v|0;
+ }
+
+ // Add 37 to element i
+ function do_add_i(i) {
+ i = i|0;
+ var v = 0;
+ v = atomic_add(i8a, i, 37);
+ return v|0;
+ }
+
+ // Subtract 108 from element 20
+ function do_sub() {
+ var v = 0;
+ v = atomic_sub(i8a, 20, 108);
+ return v|0;
+ }
+
+ // Subtract 108 from element i
+ function do_sub_i(i) {
+ i = i|0;
+ var v = 0;
+ v = atomic_sub(i8a, i, 108);
+ return v|0;
+ }
+
+ // AND 0x33 into element 30
+ function do_and() {
+ var v = 0;
+ v = atomic_and(i8a, 30, 0x33);
+ return v|0;
+ }
+
+ // AND 0x33 into element i
+ function do_and_i(i) {
+ i = i|0;
+ var v = 0;
+ v = atomic_and(i8a, i, 0x33);
+ return v|0;
+ }
+
+ // OR 0x33 into element 40
+ function do_or() {
+ var v = 0;
+ v = atomic_or(i8a, 40, 0x33);
+ return v|0;
+ }
+
+ // OR 0x33 into element i
+ function do_or_i(i) {
+ i = i|0;
+ var v = 0;
+ v = atomic_or(i8a, i, 0x33);
+ return v|0;
+ }
+
+ // XOR 0x33 into element 50
+ function do_xor() {
+ var v = 0;
+ v = atomic_xor(i8a, 50, 0x33);
+ return v|0;
+ }
+
+ // XOR 0x33 into element i
+ function do_xor_i(i) {
+ i = i|0;
+ var v = 0;
+ v = atomic_xor(i8a, i, 0x33);
+ return v|0;
+ }
+
+ // CAS element 100: 0 -> -1
+ function do_cas1() {
+ var v = 0;
+ v = atomic_cmpxchg(i8a, 100, 0, -1);
+ return v|0;
+ }
+
+ // CAS element 100: -1 -> 0x5A
+ function do_cas2() {
+ var v = 0;
+ v = atomic_cmpxchg(i8a, 100, -1, 0x5A);
+ return v|0;
+ }
+
+ // CAS element i: 0 -> -1
+ function do_cas1_i(i) {
+ i = i|0;
+ var v = 0;
+ v = atomic_cmpxchg(i8a, i, 0, -1);
+ return v|0;
+ }
+
+ // CAS element i: -1 -> 0x5A
+ function do_cas2_i(i) {
+ i = i|0;
+ var v = 0;
+ v = atomic_cmpxchg(i8a, i, -1, 0x5A);
+ return v|0;
+ }
+
+ return { load: do_load,
+ load_i: do_load_i,
+ store: do_store,
+ store_i: do_store_i,
+ xchg: do_xchg,
+ xchg_i: do_xchg_i,
+ add: do_add,
+ add_i: do_add_i,
+ sub: do_sub,
+ sub_i: do_sub_i,
+ and: do_and,
+ and_i: do_and_i,
+ or: do_or,
+ or_i: do_or_i,
+ xor: do_xor,
+ xor_i: do_xor_i,
+ cas1: do_cas1,
+ cas2: do_cas2,
+ cas1_i: do_cas1_i,
+ cas2_i: do_cas2_i };
+`
+
+var loadModule_int8 = asmCompile('stdlib', 'foreign', 'heap', loadModule_int8_code);
+
+function test_int8(heap) {
+ var i8a = new Int8Array(heap);
+ var i8m = loadModule_int8(this, {}, heap);
+
+ for ( var i=0 ; i < i8a.length ; i++ )
+ i8a[i] = 0;
+
+ var size = Int8Array.BYTES_PER_ELEMENT;
+
+ i8a[0] = 123;
+ assertEq(i8m.load(), 123);
+ assertEq(i8m.load_i(0), 123);
+
+ assertEq(i8m.store(), 37);
+ assertEq(i8a[0], 37);
+ assertEq(i8m.store_i(0), 37);
+
+ i8a[200] = 78;
+ assertEq(i8m.xchg(), 78); // 37 into #200
+ assertEq(i8a[0], 37);
+ assertEq(i8m.xchg_i(size*200), 37); // 42 into #200
+ assertEq(i8a[200], 42);
+
+ i8a[10] = 18;
+ assertEq(i8m.add(), 18);
+ assertEq(i8a[10], 18+37);
+ assertEq(i8m.add_i(10), 18+37);
+ assertEq(i8a[10], 18+37+37);
+
+ i8a[20] = 49;
+ assertEq(i8m.sub(), 49);
+ assertEq(i8a[20], 49 - 108);
+ assertEq(i8m.sub_i(20), 49 - 108);
+ assertEq(i8a[20], ((49 - 108 - 108) << 24) >> 24); // Byte, sign extended
+
+ i8a[30] = 0x66;
+ assertEq(i8m.and(), 0x66);
+ assertEq(i8a[30], 0x22);
+ i8a[30] = 0x66;
+ assertEq(i8m.and_i(30), 0x66);
+ assertEq(i8a[30], 0x22);
+
+ i8a[40] = 0x22;
+ assertEq(i8m.or(), 0x22);
+ assertEq(i8a[40], 0x33);
+ i8a[40] = 0x22;
+ assertEq(i8m.or_i(40), 0x22);
+ assertEq(i8a[40], 0x33);
+
+ i8a[50] = 0x22;
+ assertEq(i8m.xor(), 0x22);
+ assertEq(i8a[50], 0x11);
+ i8a[50] = 0x22;
+ assertEq(i8m.xor_i(50), 0x22);
+ assertEq(i8a[50], 0x11);
+
+ i8a[100] = 0;
+ assertEq(i8m.cas1(), 0);
+ assertEq(i8m.cas2(), -1);
+ assertEq(i8a[100], 0x5A);
+
+ i8a[100] = 0;
+ assertEq(i8m.cas1_i(100), 0);
+ assertEq(i8m.cas2_i(100), -1);
+ assertEq(i8a[100], 0x5A);
+
+ var oob = (heap.byteLength * 2) & ~7;
+
+ assertErrorMessage(() => i8m.cas1_i(oob), RuntimeError, outOfBounds);
+ assertErrorMessage(() => i8m.cas2_i(oob), RuntimeError, outOfBounds);
+
+ assertErrorMessage(() => i8m.or_i(oob), RuntimeError, outOfBounds);
+ assertErrorMessage(() => i8m.xor_i(oob), RuntimeError, outOfBounds);
+ assertErrorMessage(() => i8m.and_i(oob), RuntimeError, outOfBounds);
+ assertErrorMessage(() => i8m.add_i(oob), RuntimeError, outOfBounds);
+ assertErrorMessage(() => i8m.sub_i(oob), RuntimeError, outOfBounds);
+ assertErrorMessage(() => i8m.load_i(oob), RuntimeError, outOfBounds);
+ assertErrorMessage(() => i8m.store_i(oob), RuntimeError, outOfBounds);
+ assertErrorMessage(() => i8m.xchg_i(oob), RuntimeError, outOfBounds);
+
+ // Edge cases
+ const INT32_MAX = Math.pow(2, 31);
+ const UINT32_MAX = Math.pow(2, 32);
+ for (var i of [i8a.length, INT32_MAX - 1, INT32_MAX, UINT32_MAX - 1]) {
+ assertErrorMessage(() => i8m.load_i(i), RuntimeError, outOfBounds);
+ assertErrorMessage(() => i8m.store_i(i), RuntimeError, outOfBounds);
+ assertErrorMessage(() => i8m.add_i(i), RuntimeError, outOfBounds);
+ }
+
+ i8a[i8a.length-1] = 88;
+ assertEq(i8m.load_i(i8a.length-1), 88);
+ assertEq(i8m.store_i(i8a.length-1), 37);
+ assertEq(i8m.add_i(i8a.length-1), 37);
+ assertEq(i8m.load_i(i8a.length-1), 37+37);
+ i8a[i8a.length-1] = 0;
+}
+
+var loadModule_uint8_code =
+ USE_ASM + `
+ var atomic_load = stdlib.Atomics.load;
+ var atomic_store = stdlib.Atomics.store;
+ var atomic_cmpxchg = stdlib.Atomics.compareExchange;
+ var atomic_exchange = stdlib.Atomics.exchange;
+ var atomic_add = stdlib.Atomics.add;
+ var atomic_sub = stdlib.Atomics.sub;
+ var atomic_and = stdlib.Atomics.and;
+ var atomic_or = stdlib.Atomics.or;
+ var atomic_xor = stdlib.Atomics.xor;
+
+ var i8a = new stdlib.Uint8Array(heap);
+
+ // Load element 0
+ function do_load() {
+ var v = 0;
+ v = atomic_load(i8a, 0);
+ return v|0;
+ }
+
+ // Load element i
+ function do_load_i(i) {
+ i = i|0;
+ var v = 0;
+ v = atomic_load(i8a, i);
+ return v|0;
+ }
+
+ // Store 37 in element 0
+ function do_store() {
+ var v = 0;
+ v = atomic_store(i8a, 0, 37);
+ return v|0;
+ }
+
+ // Store 37 in element i
+ function do_store_i(i) {
+ i = i|0;
+ var v = 0;
+ v = atomic_store(i8a, i, 37);
+ return v|0;
+ }
+
+ // Exchange 37 into element 200
+ function do_xchg() {
+ var v = 0;
+ v = atomic_exchange(i8a, 200, 37);
+ return v|0;
+ }
+
+ // Exchange 42 into element i
+ function do_xchg_i(i) {
+ i = i|0;
+ var v = 0;
+ v = atomic_exchange(i8a, i, 42);
+ return v|0;
+ }
+
+ // Add 37 to element 10
+ function do_add() {
+ var v = 0;
+ v = atomic_add(i8a, 10, 37);
+ return v|0;
+ }
+
+ // Add 37 to element i
+ function do_add_i(i) {
+ i = i|0;
+ var v = 0;
+ v = atomic_add(i8a, i, 37);
+ return v|0;
+ }
+
+ // Subtract 108 from element 20
+ function do_sub() {
+ var v = 0;
+ v = atomic_sub(i8a, 20, 108);
+ return v|0;
+ }
+
+ // Subtract 108 from element i
+ function do_sub_i(i) {
+ i = i|0;
+ var v = 0;
+ v = atomic_sub(i8a, i, 108);
+ return v|0;
+ }
+
+ // AND 0x33 into element 30
+ function do_and() {
+ var v = 0;
+ v = atomic_and(i8a, 30, 0x33);
+ return v|0;
+ }
+
+ // AND 0x33 into element i
+ function do_and_i(i) {
+ i = i|0;
+ var v = 0;
+ v = atomic_and(i8a, i, 0x33);
+ return v|0;
+ }
+
+ // OR 0x33 into element 40
+ function do_or() {
+ var v = 0;
+ v = atomic_or(i8a, 40, 0x33);
+ return v|0;
+ }
+
+ // OR 0x33 into element i
+ function do_or_i(i) {
+ i = i|0;
+ var v = 0;
+ v = atomic_or(i8a, i, 0x33);
+ return v|0;
+ }
+
+ // XOR 0x33 into element 50
+ function do_xor() {
+ var v = 0;
+ v = atomic_xor(i8a, 50, 0x33);
+ return v|0;
+ }
+
+ // XOR 0x33 into element i
+ function do_xor_i(i) {
+ i = i|0;
+ var v = 0;
+ v = atomic_xor(i8a, i, 0x33);
+ return v|0;
+ }
+
+ // CAS element 100: 0 -> -1
+ function do_cas1() {
+ var v = 0;
+ v = atomic_cmpxchg(i8a, 100, 0, -1);
+ return v|0;
+ }
+
+ // CAS element 100: -1 -> 0x5A
+ function do_cas2() {
+ var v = 0;
+ v = atomic_cmpxchg(i8a, 100, -1, 0x5A);
+ return v|0;
+ }
+
+ // CAS element i: 0 -> -1
+ function do_cas1_i(i) {
+ i = i|0;
+ var v = 0;
+ v = atomic_cmpxchg(i8a, i, 0, -1);
+ return v|0;
+ }
+
+ // CAS element i: -1 -> 0x5A
+ function do_cas2_i(i) {
+ i = i|0;
+ var v = 0;
+ v = atomic_cmpxchg(i8a, i, -1, 0x5A);
+ return v|0;
+ }
+
+ return { load: do_load,
+ load_i: do_load_i,
+ store: do_store,
+ store_i: do_store_i,
+ xchg: do_xchg,
+ xchg_i: do_xchg_i,
+ add: do_add,
+ add_i: do_add_i,
+ sub: do_sub,
+ sub_i: do_sub_i,
+ and: do_and,
+ and_i: do_and_i,
+ or: do_or,
+ or_i: do_or_i,
+ xor: do_xor,
+ xor_i: do_xor_i,
+ cas1: do_cas1,
+ cas2: do_cas2,
+ cas1_i: do_cas1_i,
+ cas2_i: do_cas2_i };
+`
+
+var loadModule_uint8 = asmCompile('stdlib', 'foreign', 'heap', loadModule_uint8_code);
+
+function test_uint8(heap) {
+ var i8a = new Uint8Array(heap);
+ var i8m = loadModule_uint8(this, {}, heap);
+
+ for ( var i=0 ; i < i8a.length ; i++ )
+ i8a[i] = 0;
+
+ var size = Uint8Array.BYTES_PER_ELEMENT;
+
+ i8a[0] = 123;
+ assertEq(i8m.load(), 123);
+ assertEq(i8m.load_i(0), 123);
+
+ i8a[0] = -38;
+ assertEq(i8m.load(), (0x100-38));
+ assertEq(i8m.load_i(size*0), (0x100-38));
+
+ assertEq(i8m.store(), 37);
+ assertEq(i8a[0], 37);
+ assertEq(i8m.store_i(0), 37);
+
+ i8a[200] = 78;
+ assertEq(i8m.xchg(), 78); // 37 into #200
+ assertEq(i8a[0], 37);
+ assertEq(i8m.xchg_i(size*200), 37); // 42 into #200
+ assertEq(i8a[200], 42);
+
+ i8a[10] = 18;
+ assertEq(i8m.add(), 18);
+ assertEq(i8a[10], 18+37);
+ assertEq(i8m.add_i(10), 18+37);
+ assertEq(i8a[10], 18+37+37);
+
+ i8a[10] = -38;
+ assertEq(i8m.add(), (0x100-38));
+ assertEq(i8a[10], (0x100-38)+37);
+ assertEq(i8m.add_i(size*10), (0x100-38)+37);
+ assertEq(i8a[10], ((0x100-38)+37+37) & 0xFF);
+
+ i8a[20] = 49;
+ assertEq(i8m.sub(), 49);
+ assertEq(i8a[20], (49 - 108) & 255);
+ assertEq(i8m.sub_i(20), (49 - 108) & 255);
+ assertEq(i8a[20], (49 - 108 - 108) & 255); // Byte, zero extended
+
+ i8a[30] = 0x66;
+ assertEq(i8m.and(), 0x66);
+ assertEq(i8a[30], 0x22);
+ i8a[30] = 0x66;
+ assertEq(i8m.and_i(30), 0x66);
+ assertEq(i8a[30], 0x22);
+
+ i8a[40] = 0x22;
+ assertEq(i8m.or(), 0x22);
+ assertEq(i8a[40], 0x33);
+ i8a[40] = 0x22;
+ assertEq(i8m.or_i(40), 0x22);
+ assertEq(i8a[40], 0x33);
+
+ i8a[50] = 0x22;
+ assertEq(i8m.xor(), 0x22);
+ assertEq(i8a[50], 0x11);
+ i8a[50] = 0x22;
+ assertEq(i8m.xor_i(50), 0x22);
+ assertEq(i8a[50], 0x11);
+
+ i8a[100] = 0;
+ assertEq(i8m.cas1(), 0);
+ assertEq(i8m.cas2(), 255);
+ assertEq(i8a[100], 0x5A);
+
+ i8a[100] = 0;
+ assertEq(i8m.cas1_i(100), 0);
+ assertEq(i8m.cas2_i(100), 255);
+ assertEq(i8a[100], 0x5A);
+
+ var oob = (heap.byteLength * 2) & ~7;
+
+ assertErrorMessage(() => i8m.cas1_i(oob), RuntimeError, outOfBounds);
+ assertErrorMessage(() => i8m.cas2_i(oob), RuntimeError, outOfBounds);
+
+ assertErrorMessage(() => i8m.or_i(oob), RuntimeError, outOfBounds);
+ assertErrorMessage(() => i8m.xor_i(oob), RuntimeError, outOfBounds);
+ assertErrorMessage(() => i8m.and_i(oob), RuntimeError, outOfBounds);
+ assertErrorMessage(() => i8m.add_i(oob), RuntimeError, outOfBounds);
+ assertErrorMessage(() => i8m.sub_i(oob), RuntimeError, outOfBounds);
+ assertErrorMessage(() => i8m.load_i(oob), RuntimeError, outOfBounds);
+ assertErrorMessage(() => i8m.store_i(oob), RuntimeError, outOfBounds);
+ assertErrorMessage(() => i8m.xchg_i(oob), RuntimeError, outOfBounds);
+
+ // Edge cases
+ const INT32_MAX = Math.pow(2, 31);
+ const UINT32_MAX = Math.pow(2, 32);
+ for (var i of [i8a.length, INT32_MAX - 1, INT32_MAX, UINT32_MAX - 1]) {
+ assertErrorMessage(() => i8m.load_i(i), RuntimeError, outOfBounds);
+ assertErrorMessage(() => i8m.store_i(i), RuntimeError, outOfBounds);
+ assertErrorMessage(() => i8m.add_i(i), RuntimeError, outOfBounds);
+ }
+
+ i8a[i8a.length-1] = 88;
+ assertEq(i8m.load_i(i8a.length-1), 88);
+ assertEq(i8m.store_i(i8a.length-1), 37);
+ assertEq(i8m.add_i(i8a.length-1), 37);
+ assertEq(i8m.load_i(i8a.length-1), 37+37);
+ i8a[i8a.length-1] = 0;
+}
+
+var loadModule_misc_code =
+ USE_ASM + `
+ var atomic_isLockFree = stdlib.Atomics.isLockFree;
+
+ function ilf1() {
+ return atomic_isLockFree(1)|0;
+ }
+
+ function ilf2() {
+ return atomic_isLockFree(2)|0;
+ }
+
+ function ilf3() {
+ return atomic_isLockFree(3)|0;
+ }
+
+ function ilf4() {
+ return atomic_isLockFree(4)|0;
+ }
+
+ function ilf5() {
+ return atomic_isLockFree(5)|0;
+ }
+
+ function ilf6() {
+ return atomic_isLockFree(6)|0;
+ }
+
+ function ilf7() {
+ return atomic_isLockFree(7)|0;
+ }
+
+ function ilf8() {
+ return atomic_isLockFree(8)|0;
+ }
+
+ function ilf9() {
+ return atomic_isLockFree(9)|0;
+ }
+
+ return { ilf1: ilf1,
+ ilf2: ilf2,
+ ilf3: ilf3,
+ ilf4: ilf4,
+ ilf5: ilf5,
+ ilf6: ilf6,
+ ilf7: ilf7,
+ ilf8: ilf8,
+ ilf9: ilf9 };
+`
+
+var loadModule_misc = asmCompile('stdlib', 'foreign', 'heap', loadModule_misc_code);
+
+function test_misc(heap) {
+ var misc = loadModule_misc(this, {}, heap);
+
+ assertEq(misc.ilf1(), 1); // Guaranteed by SpiderMonkey, not spec
+ assertEq(misc.ilf2(), 1); // Guaranteed by SpiderMonkey, not spec
+ assertEq(misc.ilf3(), 0);
+ assertEq(misc.ilf4(), 1); // Guaranteed by SpiderMonkey, not spec
+ assertEq(misc.ilf5(), 0);
+ assertEq(misc.ilf6(), 0);
+ assertEq(misc.ilf7(), 0);
+ assertEq(misc.ilf8(), 0); // Required by spec, for now
+ assertEq(misc.ilf9(), 0);
+}
+
+// Shared-memory Uint8ClampedArray is not supported for asm.js.
+
+var heap = new SharedArrayBuffer(65536);
+
+test_int8(heap);
+test_uint8(heap);
+test_int16(heap);
+test_uint16(heap);
+test_int32(heap);
+test_uint32(heap);
+test_misc(heap);
+
+// Bug 1254167: Effective Address Analysis should be void on atomics accesses,
+var code = `
+ "use asm";
+ var HEAP32 = new stdlib.Int32Array(heap);
+ var load = stdlib.Atomics.load;
+ function f() {
+ var i2 = 0;
+ i2 = 305002 | 0;
+ return load(HEAP32, i2 >> 2) | 0;
+ }
+ return f;
+`;
+var f = asmLink(asmCompile('stdlib', 'ffi', 'heap', code), this, {}, new SharedArrayBuffer(0x10000));
+assertErrorMessage(f, RuntimeError, outOfBounds);
+
+// Test that ARM callouts compile.
+setARMHwCapFlags('vfp');
+
+asmCompile('stdlib', 'ffi', 'heap',
+ USE_ASM + `
+ var atomic_exchange = stdlib.Atomics.exchange;
+ var i8a = new stdlib.Int8Array(heap);
+
+ function do_xchg() {
+ var v = 0;
+ v = atomic_exchange(i8a, 200, 37);
+ return v|0;
+ }
+
+ return { xchg: do_xchg }
+`);
+