/** * @license * Copyright 2010 The Emscripten Authors * SPDX-License-Identifier: MIT */ // === Preamble library stuff === // Documentation for the public APIs defined in this file must be updated in: // site/source/docs/api_reference/preamble.js.rst // A prebuilt local version of the documentation is available at: // site/build/text/docs/api_reference/preamble.js.txt // You can also build docs locally as HTML or other formats in site/ // An online HTML version (which may be of a different version of Emscripten) // is up at http://kripken.github.io/emscripten-site/docs/api_reference/preamble.js.html #if MAIN_MODULE {{{ makeModuleReceiveWithVar('dynamicLibraries', undefined, '[]') }}} #endif {{{ makeModuleReceiveWithVar('wasmBinary') }}} #if WASM2JS #if WASM != 2 // WASM == 2 includes wasm2js.js separately. #include "wasm2js.js" #endif if (WebAssembly.isWasm2js) { // We don't need to actually download a wasm binary, mark it as present but // empty. wasmBinary = []; } #endif #if ASSERTIONS && WASM == 1 if (!globalThis.WebAssembly) { err('no native wasm support detected'); } #endif // Wasm globals #if SHARED_MEMORY // For sending to workers. var wasmModule; #endif // SHARED_MEMORY //======================================== // Runtime essentials //======================================== // whether we are quitting the application. no code should run after this. // set in exit() and abort() var ABORT = false; // set by exit() and abort(). Passed to 'onExit' handler. // NOTE: This is also used as the process return code in shell environments // but only when noExitRuntime is false. var EXITSTATUS; #if ASSERTIONS || !STRICT // In STRICT mode, we only define assert() when ASSERTIONS is set. i.e. we // don't define it at all in release modes. This matches the behaviour of // MINIMAL_RUNTIME. // TODO(sbc): Make this the default even without STRICT enabled. /** @type {function(*, string=)} */ function assert(condition, text) { if (!condition) { #if ASSERTIONS abort('Assertion failed' + (text ? ': ' + text : '')); #else // This build was created without ASSERTIONS defined. `assert()` should not // ever be called in this configuration but in case there are callers in // the wild leave this simple abort() implementation here for now. abort(text); #endif } } #endif #if ASSERTIONS // We used to include malloc/free by default in the past. Show a helpful error in // builds with assertions. #if !hasExportedSymbol('malloc') function _malloc() { abort('malloc() called but not included in the build - add `_malloc` to EXPORTED_FUNCTIONS'); } #endif // malloc #if !hasExportedSymbol('free') function _free() { // Show a helpful error since we used to include free by default in the past. abort('free() called but not included in the build - add `_free` to EXPORTED_FUNCTIONS'); } #endif // free #endif // ASSERTIONS /** * Indicates whether filename is delivered via file protocol (as opposed to http/https) * @noinline */ var isFileURI = (filename) => filename.startsWith('file://'); #include "runtime_common.js" #if ASSERTIONS assert(globalThis.Int32Array && globalThis.Float64Array && Int32Array.prototype.subarray && Int32Array.prototype.set, 'JS engine does not provide full typed array support'); #endif #if MAIN_MODULE var __RELOC_FUNCS__ = []; #endif function preRun() { #if ASSERTIONS && PTHREADS assert(!ENVIRONMENT_IS_PTHREAD); // PThreads reuse the runtime from the main thread. #endif #if expectToReceiveOnModule('preRun') if (Module['preRun']) { if (typeof Module['preRun'] == 'function') Module['preRun'] = [Module['preRun']]; while (Module['preRun'].length) { addOnPreRun(Module['preRun'].shift()); } } #if ASSERTIONS consumedModuleProp('preRun'); #endif #endif <<< ATPRERUNS >>> } function initRuntime() { #if RUNTIME_DEBUG dbg('initRuntime'); #endif #if ASSERTIONS assert(!runtimeInitialized); #endif runtimeInitialized = true; #if WASM_WORKERS if (ENVIRONMENT_IS_WASM_WORKER) return _wasmWorkerInitializeRuntime(); #endif #if PTHREADS if (ENVIRONMENT_IS_PTHREAD) return startWorker(); #endif #if STACK_OVERFLOW_CHECK >= 2 setStackLimits(); #endif #if STACK_OVERFLOW_CHECK checkStackCookie(); #endif #if MAIN_MODULE callRuntimeCallbacks(__RELOC_FUNCS__); #endif <<< ATINITS >>> #if hasExportedSymbol('__wasm_call_ctors') #if WASM_ESM_INTEGRATION ___wasm_call_ctors(); #else wasmExports['__wasm_call_ctors'](); #endif #if RUNTIME_DEBUG dbg('done __wasm_call_ctors'); #endif #endif <<< ATPOSTCTORS >>> #if RUNTIME_DEBUG dbg('done ATPOSTCTORS'); #endif } #if HAS_MAIN function preMain() { #if STACK_OVERFLOW_CHECK checkStackCookie(); #endif <<< ATMAINS >>> } #endif #if EXIT_RUNTIME function exitRuntime() { #if RUNTIME_DEBUG dbg('exitRuntime'); #endif #if ASSERTIONS assert(!runtimeExited); #endif #if ASYNCIFY == 1 && ASSERTIONS // ASYNCIFY cannot be used once the runtime starts shutting down. Asyncify.state = Asyncify.State.Disabled; #endif #if STACK_OVERFLOW_CHECK checkStackCookie(); #endif {{{ runIfWorkerThread('return;') }}} // PThreads reuse the runtime from the main thread. #if !STANDALONE_WASM ___funcs_on_exit(); // Native atexit() functions #endif <<< ATEXITS >>> #if PTHREADS PThread.terminateRuntime(); #endif runtimeExited = true; } #endif function postRun() { #if STACK_OVERFLOW_CHECK checkStackCookie(); #endif {{{ runIfWorkerThread('return;') }}} // PThreads reuse the runtime from the main thread. #if expectToReceiveOnModule('postRun') if (Module['postRun']) { if (typeof Module['postRun'] == 'function') Module['postRun'] = [Module['postRun']]; while (Module['postRun'].length) { addOnPostRun(Module['postRun'].shift()); } } #if ASSERTIONS consumedModuleProp('postRun'); #endif #endif <<< ATPOSTRUNS >>> } /** * @param {string|number=} what */ function abort(what) { #if expectToReceiveOnModule('onAbort') Module['onAbort']?.(what); #endif what = `Aborted(${what})`; // TODO(sbc): Should we remove printing and leave it up to whoever // catches the exception? err(what); ABORT = true; #if ASSERTIONS == 0 what += '. Build with -sASSERTIONS for more info.'; #elif ASYNCIFY == 1 if (what.search(/RuntimeError: [Uu]nreachable/) >= 0) { what += '. "unreachable" may be due to ASYNCIFY_STACK_SIZE not being large enough (try increasing it)'; } #endif // ASSERTIONS // Use a wasm runtime error, because a JS error might be seen as a foreign // exception, which means we'd run destructors on it. We need the error to // simply make the program stop. // FIXME This approach does not work in Wasm EH because it currently does not assume // all RuntimeErrors are from traps; it decides whether a RuntimeError is from // a trap or not based on a hidden field within the object. So at the moment // we don't have a way of throwing a wasm trap from JS. TODO Make a JS API that // allows this in the wasm spec. // Suppress closure compiler warning here. Closure compiler's builtin extern // definition for WebAssembly.RuntimeError claims it takes no arguments even // though it can. // TODO(https://github.com/google/closure-compiler/pull/3913): Remove if/when upstream closure gets fixed. #if WASM_EXCEPTIONS == 1 // See above, in the meantime, we resort to wasm code for trapping. // // In case abort() is called before the module is initialized, wasmExports // and its exported '__trap' function is not available, in which case we throw // a RuntimeError. // // We trap instead of throwing RuntimeError to prevent infinite-looping in // Wasm EH code (because RuntimeError is considered as a foreign exception and // caught by 'catch_all'), but in case throwing RuntimeError is fine because // the module has not even been instantiated, even less running. if (runtimeInitialized) { ___trap(); } #endif /** @suppress {checkTypes} */ var e = new WebAssembly.RuntimeError(what); #if MODULARIZE readyPromiseReject?.(e); #endif // Throw the error whether or not MODULARIZE is set because abort is used // in code paths apart from instantiation where an exception is expected // to be thrown when abort is called. throw e; } #if ASSERTIONS && !('$FS' in addedLibraryItems) // show errors on likely calls to FS when it was not included function fsMissing() { abort('Filesystem support (FS) was not included. The problem is that you are using files from JS, but files were not used from C/C++, so filesystem support was not auto-included. You can force-include filesystem support with -sFORCE_FILESYSTEM'); } var FS = { init: fsMissing, createDataFile: fsMissing, createPreloadedFile: fsMissing, createLazyFile: fsMissing, open: fsMissing, mkdev: fsMissing, registerDevice: fsMissing, analyzePath: fsMissing, ErrnoError: fsMissing, }; {{{ addAtModule(` Module['FS_createDataFile'] = FS.createDataFile; Module['FS_createPreloadedFile'] = FS.createPreloadedFile; `); }}} #endif #if ASSERTIONS function createExportWrapper(name, nargs) { return (...args) => { assert(runtimeInitialized, `native function \`${name}\` called before runtime initialization`); #if EXIT_RUNTIME assert(!runtimeExited, `native function \`${name}\` called after runtime exit (use NO_EXIT_RUNTIME to keep it alive after main() exits)`); #endif var f = wasmExports[name]; assert(f, `exported native function \`${name}\` not found`); // Only assert for too many arguments. Too few can be valid since the missing arguments will be zero filled. assert(args.length <= nargs, `native function \`${name}\` called with ${args.length} args but expects ${nargs}`); return f(...args); }; } #endif #if ABORT_ON_WASM_EXCEPTIONS // `abortWrapperDepth` counts the recursion level of the wrapper function so // that we only handle exceptions at the top level letting the exception // mechanics work uninterrupted at the inner level. Additionally, // `abortWrapperDepth` is also manually incremented in callMain so that we know // to ignore exceptions from there since they're handled by callMain directly. var abortWrapperDepth = 0; function makeAbortWrapper(original) { return (...args) => { // Don't allow this function to be called if we're aborted! if (ABORT) { throw new Error('program has already aborted!'); } abortWrapperDepth++; try { return original(...args); } catch (e) { if ( ABORT // rethrow exception if abort() was called in the original function call above || abortWrapperDepth > 1 // rethrow exceptions not caught at the top level if exception catching is enabled; rethrow from exceptions from within callMain #if SUPPORT_LONGJMP == 'emscripten' // Rethrow longjmp if enabled || e instanceof EmscriptenSjLj #endif || e === 'unwind' ) { throw e; } abort('unhandled exception: ' + [e, e.stack]); } finally { abortWrapperDepth--; } } } // Instrument all the exported functions to: // - abort if an unhandled exception occurs // - throw an exception if someone tries to call them after the program has aborted // See settings.ABORT_ON_WASM_EXCEPTIONS for more info. function instrumentWasmExportsWithAbort(exports) { // Override the exported functions with the wrappers and copy over any other symbols var instExports = {}; for (var name in exports) { var original = exports[name]; if (typeof original == 'function') { instExports[name] = makeAbortWrapper(original); } else { instExports[name] = original; } } return instExports; } function instrumentWasmTableWithAbort() { // Override the wasmTable get function to return the wrappers var realGet = wasmTable.get; var wrapperCache = {}; wasmTable.get = (i) => { var func = realGet.call(wasmTable, {{{ toIndexType('i') }}}); var cached = wrapperCache[i]; if (!cached || cached.func !== func) { cached = wrapperCache[i] = { func, wrapper: makeAbortWrapper(func) } } return cached.wrapper; }; } #endif #if !SOURCE_PHASE_IMPORTS && !WASM_ESM_INTEGRATION var wasmBinaryFile; #if WASM2JS && WASM != 2 // When building with wasm2js these 3 functions all no-ops. function findWasmBinary(file) {} function getBinarySync(file) {} function getWasmBinary(file) {} #else function findWasmBinary() { #if SINGLE_FILE && SINGLE_FILE_BINARY_ENCODE && !WASM2JS return binaryDecode("<<< WASM_BINARY_DATA >>>"); #elif SINGLE_FILE return base64Decode('<<< WASM_BINARY_DATA >>>'); #elif AUDIO_WORKLET || !EXPORT_ES6 // For an Audio Worklet, we cannot use `new URL()`. return locateFile('{{{ WASM_BINARY_FILE }}}'); #else #if ENVIRONMENT_MAY_BE_SHELL if (ENVIRONMENT_IS_SHELL) { return '{{{ WASM_BINARY_FILE }}}'; } #endif #if ENVIRONMENT_MAY_BE_AUDIO_WORKLET && !AUDIO_WORKLET // AUDIO_WORKLET handled above if (ENVIRONMENT_IS_AUDIO_WORKLET) { return '{{{ WASM_BINARY_FILE }}}'; } #endif if (Module['locateFile']) { return locateFile('{{{ WASM_BINARY_FILE }}}'); } // Use bundler-friendly `new URL(..., import.meta.url)` pattern; works in browsers too. return new URL('{{{ WASM_BINARY_FILE }}}', import.meta.url).href; #endif } function getBinarySync(file) { #if SINGLE_FILE && SINGLE_FILE_BINARY_ENCODE return file; #else #if SINGLE_FILE if (ArrayBuffer.isView(file)) { return file; } #endif #if expectToReceiveOnModule('wasmBinary') || WASM2JS if (file == wasmBinaryFile && wasmBinary) { return new Uint8Array(wasmBinary); } #endif if (readBinary) { return readBinary(file); } // Throwing a plain string here, even though it not normally advisable since // this gets turning into an `abort` in instantiateArrayBuffer. #if WASM_ASYNC_COMPILATION throw 'both async and sync fetching of the wasm failed'; #else throw 'sync fetching of the wasm failed: you can preload it to Module["wasmBinary"] manually, or emcc.py will do that for you when generating HTML (but not JS)'; #endif #endif } async function getWasmBinary(binaryFile) { #if !SINGLE_FILE // If we don't have the binary yet, load it asynchronously using readAsync. if (!wasmBinary) { // Fetch the binary using readAsync try { var response = await readAsync(binaryFile); return new Uint8Array(response); } catch { // Fall back to getBinarySync below; } } #endif // Otherwise, getBinarySync should be able to get it synchronously return getBinarySync(binaryFile); } #endif #if SPLIT_MODULE {{{ makeModuleReceiveWithVar('loadSplitModule', undefined, JSPI ? '(secondaryFile, imports) => instantiateAsync(null, secondaryFile, imports)' : 'instantiateSync') }}} var splitModuleProxyHandler = { get(target, moduleName, receiver) { if (moduleName.startsWith('placeholder')) { let secondaryFile; if (moduleName == 'placeholder') { // old format secondaryFile = wasmBinaryFile.slice(0, -5) + '.deferred.wasm'; } else { // new format let moduleID = moduleName.split('.')[1]; secondaryFile = wasmBinaryFile.slice(0, -5) + '.' + moduleID + '.wasm'; } return new Proxy({}, { get(target, base, receiver) { let ret = {{{ asyncIf(ASYNCIFY == 2) }}} (...args) => { #if RUNTIME_DEBUG dbg(`placeholder function called: ${base}`); #endif var imports = {'primary': wasmRawExports}; // Replace '.wasm' suffix with '.deferred.wasm'. {{{ awaitIf(ASYNCIFY == 2) }}}loadSplitModule(secondaryFile, imports, base); #if RUNTIME_DEBUG dbg('instantiated deferred module, continuing'); #endif return wasmTable.get({{{ toIndexType('base') }}})(...args); }; #if JSPI return new WebAssembly.Suspending(ret); #else return ret; #endif } }); } return target[moduleName]; } }; #endif #if SPLIT_MODULE || !WASM_ASYNC_COMPILATION function instantiateSync(file, info) { var module; var binary = getBinarySync(file); #if NODE_CODE_CACHING if (ENVIRONMENT_IS_NODE) { var v8 = require('node:v8'); // Include the V8 version in the cache name, so that we don't try to // load cached code from another version, which fails silently (it seems // to load ok, but we do actually recompile the binary every time). var cachedCodeFile = '{{{ WASM_BINARY_FILE }}}.' + v8.cachedDataVersionTag() + '.cached'; cachedCodeFile = locateFile(cachedCodeFile); var hasCached = fs.existsSync(cachedCodeFile); if (hasCached) { #if RUNTIME_DEBUG dbg('NODE_CODE_CACHING: loading module'); #endif try { module = v8.deserialize(fs.readFileSync(cachedCodeFile)); } catch (e) { err(`NODE_CODE_CACHING: failed to deserialize, bad cache file? (${cachedCodeFile})`); // Save the new compiled code when we have it. hasCached = false; } } } module ||= new WebAssembly.Module(binary); if (ENVIRONMENT_IS_NODE && !hasCached) { #if RUNTIME_DEBUG dbg('NODE_CODE_CACHING: saving module'); #endif fs.writeFileSync(cachedCodeFile, v8.serialize(module)); } #else // NODE_CODE_CACHING module = new WebAssembly.Module(binary); #endif // NODE_CODE_CACHING var instance = new WebAssembly.Instance(module, info); return [instance, module]; } #endif #if WASM_ASYNC_COMPILATION async function instantiateArrayBuffer(binaryFile, imports) { try { var binary = await getWasmBinary(binaryFile); var instance = await WebAssembly.instantiate(binary, imports); return instance; } catch (reason) { err(`failed to asynchronously prepare wasm: ${reason}`); #if WASM == 2 #if ENVIRONMENT_MAY_BE_NODE || ENVIRONMENT_MAY_BE_SHELL if (globalThis.location) { #endif // WebAssembly compilation failed, try running the JS fallback instead. var search = location.search; if (search.indexOf('_rwasm=0') < 0) { // Reload the page with the `_rwasm=0` argument location.href += (search ? search + '&' : '?') + '_rwasm=0'; // Return a promise that never resolves. We don't want to // call abort below, or return an error to our caller. return new Promise(() => {}); } #if ENVIRONMENT_MAY_BE_NODE || ENVIRONMENT_MAY_BE_SHELL } #endif #endif // WASM == 2 #if ASSERTIONS // Warn on some common problems. if (isFileURI(binaryFile)) { err(`warning: Loading from a file URI (${binaryFile}) is not supported in most browsers. See https://emscripten.org/docs/getting_started/FAQ.html#how-do-i-run-a-local-webserver-for-testing-why-does-my-program-stall-in-downloading-or-preparing`); } #endif abort(reason); } } async function instantiateAsync(binary, binaryFile, imports) { #if !SINGLE_FILE if (!binary #if MIN_SAFARI_VERSION < 150000 // See: https://developer.mozilla.org/en-US/docs/Web/JavaScript/Reference/Global_Objects/WebAssembly/instantiateStreaming && WebAssembly.instantiateStreaming #endif #if ENVIRONMENT_MAY_BE_WEBVIEW // Don't use streaming for file:// delivered objects in a webview, fetch them synchronously. && !isFileURI(binaryFile) #endif #if ENVIRONMENT_MAY_BE_NODE // Avoid instantiateStreaming() on Node.js environment for now, as while // Node.js v18.1.0 implements it, it does not have a full fetch() // implementation yet. // // Reference: // https://github.com/emscripten-core/emscripten/pull/16917 && !ENVIRONMENT_IS_NODE #endif #if ENVIRONMENT_MAY_BE_SHELL // Shell environments don't have fetch. && !ENVIRONMENT_IS_SHELL #endif ) { try { var response = fetch(binaryFile, {{{ makeModuleReceiveExpr('fetchSettings', "{ credentials: 'same-origin' }") }}}); var instantiationResult = await WebAssembly.instantiateStreaming(response, imports); return instantiationResult; } catch (reason) { // We expect the most common failure cause to be a bad MIME type for the binary, // in which case falling back to ArrayBuffer instantiation should work. err(`wasm streaming compile failed: ${reason}`); err('falling back to ArrayBuffer instantiation'); // fall back of instantiateArrayBuffer below }; } #endif return instantiateArrayBuffer(binaryFile, imports); } #endif // WASM_ASYNC_COMPILATION #endif // SOURCE_PHASE_IMPORTS #if !WASM_ESM_INTEGRATION function getWasmImports() { #if PTHREADS || WASM_WORKERS || (IMPORTED_MEMORY && MODULARIZE == 'instance') assignWasmImports(); #endif #if ASYNCIFY && (ASSERTIONS || ASYNCIFY == 2) // instrumenting imports is used in asyncify in two ways: to add assertions // that check for proper import use, and for JSPI we use them to set up // the Promise API on the import side. #if PTHREADS // In pthreads builds getWasmImports is called more than once but we only // and the instrument the imports once. if (!wasmImports.__instrumented) { wasmImports.__instrumented = true; Asyncify.instrumentWasmImports(wasmImports); } #else Asyncify.instrumentWasmImports(wasmImports); #endif #endif // prepare imports #if MAIN_MODULE var GOTProxyHandler = new Proxy(new Set({{{ JSON.stringify(Array.from(WEAK_IMPORTS)) }}}), GOTHandler); #endif var imports = { #if MINIFY_WASM_IMPORTED_MODULES 'a': wasmImports, #else // MINIFY_WASM_IMPORTED_MODULES 'env': wasmImports, '{{{ WASI_MODULE_NAME }}}': wasmImports, #endif // MINIFY_WASM_IMPORTED_MODULES #if MAIN_MODULE 'GOT.mem': GOTProxyHandler, 'GOT.func': GOTProxyHandler, #endif }; #if SPLIT_MODULE imports = new Proxy(imports, splitModuleProxyHandler); #endif return imports; } // Create the wasm instance. // Receives the wasm imports, returns the exports. {{{ asyncIf(WASM_ASYNC_COMPILATION) }}}function createWasm() { // Load the wasm module and create an instance of using native support in the JS engine. // handle a generated wasm instance, receiving its exports and // performing other necessary setup /** @param {WebAssembly.Module=} module*/ function receiveInstance(instance, module) { #if RUNTIME_DEBUG dbg('receiveInstance') #endif wasmExports = instance.exports; #if MAIN_MODULE var origExports = wasmExports; #endif #if SPLIT_MODULE wasmRawExports = wasmExports; #endif #if ASYNCIFY wasmExports = Asyncify.instrumentWasmExports(wasmExports); #endif #if MAIN_MODULE mergeLibSymbols(wasmExports, 'main') var metadata = getDylinkMetadata(module); #if AUTOLOAD_DYLIBS if (metadata.neededDynlibs) { dynamicLibraries = metadata.neededDynlibs.concat(dynamicLibraries); } #endif #endif #if ABORT_ON_WASM_EXCEPTIONS wasmExports = instrumentWasmExportsWithAbort(wasmExports); #endif #if MEMORY64 || CAN_ADDRESS_2GB wasmExports = applySignatureConversions(wasmExports); #endif #if PTHREADS #if MAIN_MODULE registerTLSInit(wasmExports['_emscripten_tls_init'], instance.exports, metadata); #else registerTLSInit(wasmExports['_emscripten_tls_init']); #endif #endif #if hasExportedSymbol('__wasm_apply_data_relocs') __RELOC_FUNCS__.push(wasmExports['__wasm_apply_data_relocs']); #endif #if RUNTIME_DEBUG dbg('assigning exports') #endif assignWasmExports(wasmExports); #if MAIN_MODULE updateGOT(origExports); #endif #if EXPORTED_RUNTIME_METHODS.has('wasmExports') Module['wasmExports'] = wasmExports; #endif #if MAIN_MODULE #if '$LDSO' in addedLibraryItems LDSO.init(); #endif loadDylibs(); #endif #if ABORT_ON_WASM_EXCEPTIONS instrumentWasmTableWithAbort(); #endif #if !IMPORTED_MEMORY updateMemoryViews(); #endif #if PTHREADS || WASM_WORKERS // We now have the Wasm module loaded up, keep a reference to the compiled module so we can post it to the workers. wasmModule = module; #endif #if WASM_ASYNC_COMPILATION && !MODULARIZE removeRunDependency('wasm-instantiate'); #endif return wasmExports; } #if WASM_ASYNC_COMPILATION && !MODULARIZE addRunDependency('wasm-instantiate'); #endif // Prefer streaming instantiation if available. #if WASM_ASYNC_COMPILATION #if ASSERTIONS // Async compilation can be confusing when an error on the page overwrites Module // (for example, if the order of elements is wrong, and the one defining Module is // later), so we save Module and check it later. var trueModule = Module; #endif function receiveInstantiationResult(result) { // 'result' is a ResultObject object which has both the module and instance. // receiveInstance() will swap in the exports (to Module.asm) so they can be called #if ASSERTIONS assert(Module === trueModule, 'the Module object should not be replaced during async compilation - perhaps the order of HTML elements is wrong?'); trueModule = null; #endif #if SHARED_MEMORY || MAIN_MODULE return receiveInstance(result['instance'], result['module']); #else // TODO: Due to Closure regression https://github.com/google/closure-compiler/issues/3193, the above line no longer optimizes out down to the following line. // When the regression is fixed, can restore the above PTHREADS-enabled path. return receiveInstance(result['instance']); #endif } #endif // WASM_ASYNC_COMPILATION var info = getWasmImports(); #if expectToReceiveOnModule('instantiateWasm') // User shell pages can write their own Module.instantiateWasm = function(imports, successCallback) callback // to manually instantiate the Wasm module themselves. This allows pages to // run the instantiation parallel to any other async startup actions they are // performing. // Also pthreads and wasm workers initialize the wasm instance through this // path. if (Module['instantiateWasm']) { return new Promise((resolve, reject) => { #if ASSERTIONS try { #endif Module['instantiateWasm'](info, (inst, mod) => { resolve(receiveInstance(inst, mod)); }); #if ASSERTIONS } catch(e) { err(`Module.instantiateWasm callback failed with error: ${e}`); reject(e); } #endif }); } #endif #if PTHREADS || WASM_WORKERS if ({{{ ENVIRONMENT_IS_WORKER_THREAD() }}}) { // Instantiate from the module that was received via postMessage from // the main thread. We can just use sync instantiation in the worker. #if ASSERTIONS assert(wasmModule, "wasmModule should have been received via postMessage"); #endif var instance = new WebAssembly.Instance(wasmModule, getWasmImports()); return receiveInstance(instance, wasmModule); } #endif #if SOURCE_PHASE_IMPORTS var instance = await WebAssembly.instantiate(wasmModule, info); var exports = receiveInstantiationResult({instance, 'module':wasmModule}); return exports; #else wasmBinaryFile ??= findWasmBinary(); #if WASM_ASYNC_COMPILATION #if RUNTIME_DEBUG dbg('asynchronously preparing wasm'); #endif var result = await instantiateAsync(wasmBinary, wasmBinaryFile, info); var exports = receiveInstantiationResult(result); return exports; #else // WASM_ASYNC_COMPILATION var result = instantiateSync(wasmBinaryFile, info); #if PTHREADS || MAIN_MODULE return receiveInstance(result[0], result[1]); #else // TODO: Due to Closure regression https://github.com/google/closure-compiler/issues/3193, // the above line no longer optimizes out down to the following line. // When the regression is fixed, we can remove this if/else. return receiveInstance(result[0]); #endif #endif // WASM_ASYNC_COMPILATION #endif // SOURCE_PHASE_IMPORTS } #endif // WASM_ESM_INTEGRATION #if !WASM_BIGINT // Globals used by JS i64 conversions (see makeSetValue) var tempDouble; var tempI64; #endif #if RETAIN_COMPILER_SETTINGS var compilerSettings = {{{ JSON.stringify(makeRetainedCompilerSettings()) }}} ; function getCompilerSetting(name) { if (!(name in compilerSettings)) return 'invalid compiler setting: ' + name; return compilerSettings[name]; } #endif // RETAIN_COMPILER_SETTINGS #if MAIN_MODULE && ASYNCIFY // With MAIN_MODULE + ASYNCIFY the normal method of placing stub functions in // wasmImports for as-yet-undefined symbols doesn't work since ASYNCIFY then // wraps these stub functions and we can't then replace them directly. Instead // the stub functions call into `asyncifyStubs` which gets populated by the // dynamic linker as symbols are loaded. var asyncifyStubs = {}; #endif