79a1468831
Changes: - Add possibility to define and emit all reference types. - Simplify function locals definition. - Change 'type' to 'type_index' where appropiate. Bug: v8:7748 Change-Id: Ie35a6204369e678298ee2ff2ec7c7793c5315c3e Reviewed-on: https://chromium-review.googlesource.com/c/v8/v8/+/2390144 Commit-Queue: Manos Koukoutos <manoskouk@chromium.org> Reviewed-by: Thibaud Michaud <thibaudm@chromium.org> Cr-Commit-Position: refs/heads/master@{#69814}
345 lines
12 KiB
JavaScript
345 lines
12 KiB
JavaScript
// Copyright 2018 the V8 project authors. All rights reserved.
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// Use of this source code is governed by a BSD-style license that can be
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// found in the LICENSE file.
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// Flags: --allow-natives-syntax --harmony-sharedarraybuffer
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// Flags: --experimental-wasm-threads
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'use strict';
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load("test/mjsunit/wasm/wasm-module-builder.js");
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function WasmAtomicNotify(memory, offset, index, num) {
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let builder = new WasmModuleBuilder();
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builder.addImportedMemory("m", "memory", 0, 20, "shared");
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builder.addFunction("main", kSig_i_ii)
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.addBody([
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kExprLocalGet, 0,
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kExprLocalGet, 1,
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kAtomicPrefix,
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kExprAtomicNotify, /* alignment */ 0, offset])
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.exportAs("main");
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// Instantiate module, get function exports
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let module = new WebAssembly.Module(builder.toBuffer());
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let instance = new WebAssembly.Instance(module, {m: {memory}});
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return instance.exports.main(index, num);
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}
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function WasmI32AtomicWait(memory, offset, index, val, timeout) {
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let builder = new WasmModuleBuilder();
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builder.addImportedMemory("m", "memory", 0, 20, "shared");
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builder.addFunction("main",
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makeSig([kWasmI32, kWasmI32, kWasmF64], [kWasmI32]))
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.addBody([
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kExprLocalGet, 0,
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kExprLocalGet, 1,
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kExprLocalGet, 2,
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kExprI64SConvertF64,
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kAtomicPrefix,
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kExprI32AtomicWait, /* alignment */ 0, offset])
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.exportAs("main");
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// Instantiate module, get function exports
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let module = new WebAssembly.Module(builder.toBuffer());
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let instance = new WebAssembly.Instance(module, {m: {memory}});
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return instance.exports.main(index, val, timeout);
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}
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function WasmI64AtomicWait(memory, offset, index, val_low,
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val_high, timeout) {
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let builder = new WasmModuleBuilder();
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builder.addImportedMemory("m", "memory", 0, 20, "shared");
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// Wrapper for I64AtomicWait that takes two I32 values and combines to into
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// I64 for the instruction parameter.
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builder.addFunction("main",
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makeSig([kWasmI32, kWasmI32, kWasmI32, kWasmF64], [kWasmI32]))
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.addLocals(kWasmI64, 1) // local that is passed as value param to wait
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.addBody([
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kExprLocalGet, 1,
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kExprI64UConvertI32,
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kExprI64Const, 32,
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kExprI64Shl,
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kExprLocalGet, 2,
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kExprI64UConvertI32,
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kExprI64Ior,
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kExprLocalSet, 4, // Store the created I64 value in local
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kExprLocalGet, 0,
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kExprLocalGet, 4,
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kExprLocalGet, 3,
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kExprI64SConvertF64,
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kAtomicPrefix,
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kExprI64AtomicWait, /* alignment */ 0, offset])
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.exportAs("main");
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// Instantiate module, get function exports
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let module = new WebAssembly.Module(builder.toBuffer());
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let instance = new WebAssembly.Instance(module, {m: {memory}});
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return instance.exports.main(index, val_high, val_low, timeout);
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}
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(function TestInvalidIndex() {
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let memory = new WebAssembly.Memory({initial: 1, maximum: 1, shared: true});
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// Valid indexes are 0-65535 (1 page).
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[-2, 65536, 0xffffffff].forEach(function(invalidIndex) {
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assertThrows(function() {
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WasmAtomicNotify(memory, 0, invalidIndex, -1);
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}, Error);
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assertThrows(function() {
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WasmI32AtomicWait(memory, 0, invalidIndex, 0, -1);
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}, Error);
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assertThrows(function() {
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WasmI64AtomicWait(memory, 0, invalidIndex, 0, 0, -1);
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}, Error);
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assertThrows(function() {
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WasmAtomicNotify(memory, invalidIndex, 0, -1);
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}, Error);
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assertThrows(function() {
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WasmI32AtomicWait(memory, invalidIndex, 0, 0, -1);
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}, Error);
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assertThrows(function() {
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WasmI64AtomicWait(memory, invalidIndex, 0, 0, 0, -1);
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}, Error);
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assertThrows(function() {
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WasmAtomicNotify(memory, invalidIndex/2, invalidIndex/2, -1);
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}, Error);
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assertThrows(function() {
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WasmI32AtomicWait(memory, invalidIndex/2, invalidIndex/2, 0, -1);
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}, Error);
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assertThrows(function() {
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WasmI64AtomicWait(memory, invalidIndex/2, invalidIndex/2, 0, 0, -1);
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}, Error);
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});
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})();
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(function TestInvalidAlignment() {
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let memory = new WebAssembly.Memory({initial: 1, maximum: 1, shared: true});
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// Wait and wake must be 4 byte aligned.
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[1, 2, 3].forEach(function(invalid) {
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assertThrows(function() {
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WasmAtomicNotify(memory, invalid, 0, -1)
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}, Error);
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assertThrows(function() {
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WasmAtomicNotify(memory, 0, invalid, -1)
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}, Error);
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assertThrows(function() {
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WasmI32AtomicWait(memory, invalid, 0, 0, -1)
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}, Error);
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assertThrows(function() {
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WasmI32AtomicWait(memory, 0, invalid, 0, -1)
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}, Error);
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assertThrows(function() {
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WasmI64AtomicWait(memory, invalid, 0, 0, 0, -1)
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}, Error);
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assertThrows(function() {
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WasmI64AtomicWait(memory, 0, invalid, 0, 0, -1)
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}, Error);
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});
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//WasmI64AtomicWait must be 8 byte aligned.
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[4, 5, 6, 7].forEach(function(invalid) {
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assertThrows(function() {
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WasmI64AtomicWait(memory, 0, invalid, 0, 0, -1)
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}, Error);
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assertThrows(function() {
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WasmI64AtomicWait(memory, invalid, 0, 0, 0, -1)
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}, Error);
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});
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})();
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(function TestI32WaitTimeout() {
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let memory = new WebAssembly.Memory({initial: 1, maximum: 1, shared: true});
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var waitMs = 100;
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var startTime = new Date();
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assertEquals(2, WasmI32AtomicWait(memory, 0, 0, 0, waitMs*1000000));
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var endTime = new Date();
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assertTrue(endTime - startTime >= waitMs);
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})();
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(function TestI64WaitTimeout() {
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let memory = new WebAssembly.Memory({initial: 1, maximum: 1, shared: true});
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var waitMs = 100;
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var startTime = new Date();
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assertEquals(2, WasmI64AtomicWait(memory, 0, 0, 0, 0, waitMs*1000000));
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var endTime = new Date();
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assertTrue(endTime - startTime >= waitMs);
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})();
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(function TestI32WaitNotEqual() {
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let memory = new WebAssembly.Memory({initial: 1, maximum: 1, shared: true});
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assertEquals(1, WasmI32AtomicWait(memory, 0, 0, 42, -1));
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assertEquals(2, WasmI32AtomicWait(memory, 0, 0, 0, 0));
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let i32a = new Int32Array(memory.buffer);
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i32a[0] = 1;
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assertEquals(1, WasmI32AtomicWait(memory, 0, 0, 0, -1));
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assertEquals(2, WasmI32AtomicWait(memory, 0, 0, 1, 0));
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})();
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(function TestI64WaitNotEqual() {
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let memory = new WebAssembly.Memory({initial: 1, maximum: 1, shared: true});
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assertEquals(1, WasmI64AtomicWait(memory, 0, 0, 42, 0, -1));
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assertEquals(2, WasmI64AtomicWait(memory, 0, 0, 0, 0, 0));
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let i32a = new Int32Array(memory.buffer);
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i32a[0] = 1;
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i32a[1] = 2;
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assertEquals(1, WasmI64AtomicWait(memory, 0, 0, 0, 0, -1));
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assertEquals(2, WasmI64AtomicWait(memory, 0, 0, 1, 2, 0));
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})();
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(function TestWakeCounts() {
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let memory = new WebAssembly.Memory({initial: 1, maximum: 1, shared: true});
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[-1, 0, 4, 100, 0xffffffff].forEach(function(count) {
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WasmAtomicNotify(memory, 0, 0, count);
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});
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})();
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//// WORKER ONLY TESTS
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if (this.Worker) {
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// This test creates 4 workers that wait on consecutive (8 byte separated to
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// satisfy alignments for all kinds of wait) memory locations to test various
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// wait/wake combinations. For each combination, each thread waits 3 times
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// expecting all 4 threads to be woken with wake(4) in first iteration, all 4
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// to be woken with wake(5) in second iteration and, 3 and 1 to be woken in
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// third iteration.
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let memory = new WebAssembly.Memory({initial: 1, maximum: 1, shared: true});
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let i32a = new Int32Array(memory.buffer);
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const numWorkers = 4;
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let workerScript = `onmessage = function(msg) {
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load("test/mjsunit/wasm/wasm-module-builder.js");
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${WasmI32AtomicWait.toString()}
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${WasmI64AtomicWait.toString()}
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let id = msg.id;
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let memory = msg.memory;
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let i32a = new Int32Array(memory.buffer);
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// indices are right shifted by 2 for Atomics.wait to convert them to index
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// for Int32Array
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// for wasm-wake numWorkers threads
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let result = Atomics.wait(i32a, 0>>>2, 0);
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postMessage(result);
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// for wasm-wake numWorkers + 1 threads
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result = Atomics.wait(i32a, 8>>>2, 0);
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postMessage(result);
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// for wasm-wake numWorkers - 1 threads
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result = Atomics.wait(i32a, 16>>>2, 0);
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postMessage(result);
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// for js-wake numWorkers threads
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result = WasmI32AtomicWait(memory, 0, 24, 0, -1);
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postMessage(result);
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// for js-wake numWorkers + 1 threads
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result = WasmI32AtomicWait(memory, 0, 32, 0, -1);
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postMessage(result);
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// for js-wake numWorkers - 1 threads
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result = WasmI32AtomicWait(memory, 0, 40, 0, -1);
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postMessage(result);
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// for wasm-wake numWorkers threads
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result = WasmI32AtomicWait(memory, 0, 48, 0, -1);
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postMessage(result);
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// for wasm-wake numWorkers + 1 threads
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result = WasmI32AtomicWait(memory, 0, 56, 0, -1);
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postMessage(result);
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// for wasm-wake numWorkers - 1 threads
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result = WasmI32AtomicWait(memory, 0, 64, 0, -1);
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postMessage(result);
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// for js-wake numWorkers threads
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result = WasmI64AtomicWait(memory, 0, 72, 0, 0, -1);
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postMessage(result);
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// for js-wake numWorkers + 1 threads
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result = WasmI64AtomicWait(memory, 0, 80, 0, 0, -1);
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postMessage(result);
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// for js-wake numWorkers - 1 threads
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result = WasmI64AtomicWait(memory, 0, 88, 0, 0, -1);
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postMessage(result);
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// for wasm-wake numWorkers threads
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result = WasmI64AtomicWait(memory, 0, 96, 0, 0, -1);
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postMessage(result);
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// for wasm-wake numWorkers + 1 threads
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result = WasmI64AtomicWait(memory, 0, 104, 0, 0, -1);
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postMessage(result);
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// for wasm-wake numWorkers - 1 threads
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result = WasmI64AtomicWait(memory, 0, 112, 0, 0, -1);
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postMessage(result);
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};`;
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let waitForAllWorkers = function(index) {
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// index is right shifted by 2 to convert to index in Int32Array
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while (%AtomicsNumWaitersForTesting(i32a, index>>>2) != numWorkers) {}
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}
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let jsWakeCheck = function(index, num, workers, msg) {
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waitForAllWorkers(index);
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let indexJs = index>>>2; // convert to index in Int32Array
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if (num >= numWorkers) {
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// if numWorkers or more is passed to wake, numWorkers workers should be
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// woken.
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assertEquals(numWorkers, Atomics.notify(i32a, indexJs, num));
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} else {
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// if num < numWorkers is passed to wake, num workers should be woken.
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// Then the remaining workers are woken for the next part
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assertEquals(num, Atomics.notify(i32a, indexJs, num));
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assertEquals(numWorkers-num, Atomics.notify(i32a, indexJs, numWorkers));
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}
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for (let id = 0; id < numWorkers; id++) {
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assertEquals(msg, workers[id].getMessage());
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}
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};
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let wasmWakeCheck = function(index, num, workers, msg) {
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waitForAllWorkers(index);
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if (num >= numWorkers) {
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// if numWorkers or more is passed to wake, numWorkers workers should be
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// woken.
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assertEquals(numWorkers, WasmAtomicNotify(memory, 0, index, num));
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} else {
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// if num < numWorkers is passed to wake, num workers should be woken.
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// Then the remaining workers are woken for the next part
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assertEquals(num, WasmAtomicNotify(memory, 0, index, num));
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assertEquals(numWorkers-num,
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WasmAtomicNotify(memory, 0, index, numWorkers));
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}
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for (let id = 0; id < numWorkers; id++) {
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assertEquals(msg, workers[id].getMessage());
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}
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};
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let workers = [];
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for (let id = 0; id < numWorkers; id++) {
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workers[id] = new Worker(workerScript, {type: 'string'});
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workers[id].postMessage({id, memory});
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}
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wasmWakeCheck(0, numWorkers, workers, "ok");
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wasmWakeCheck(8, numWorkers + 1, workers, "ok");
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wasmWakeCheck(16, numWorkers - 1, workers, "ok");
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jsWakeCheck(24, numWorkers, workers, 0);
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jsWakeCheck(32, numWorkers + 1, workers, 0);
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jsWakeCheck(40, numWorkers - 1, workers, 0);
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wasmWakeCheck(48, numWorkers, workers, 0);
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wasmWakeCheck(56, numWorkers + 1, workers, 0);
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wasmWakeCheck(64, numWorkers - 1, workers, 0);
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jsWakeCheck(72, numWorkers, workers, 0);
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jsWakeCheck(80, numWorkers + 1, workers, 0);
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jsWakeCheck(88, numWorkers - 1, workers, 0);
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wasmWakeCheck(96, numWorkers, workers, 0);
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wasmWakeCheck(104, numWorkers + 1, workers, 0);
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wasmWakeCheck(112, numWorkers - 1, workers, 0);
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for (let id = 0; id < numWorkers; id++) {
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workers[id].terminate();
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}
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}
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