Module
is a global JavaScript object with attributes that Emscripten-generated code calls at various points in its execution.
Developers can provide an implementation of Module
to control the execution of code. For example, to define how notification messages from Emscripten are displayed, developers implement the Module.print
attribute.
When an Emscripten application starts up it looks at the values on the Module
object and applies them. Note that changing the values after startup will not
work in general; in a build with ASSERTIONS
enabled you will get an error
in that case.
备注
Module
is also used to provide access to Emscripten API functions (for example ccall()
) in a safe way. Any function or runtime method exported (using EXPORTED_FUNCTIONS
for compiled functions, or EXPORTED_RUNTIME_METHODS
for runtime methods like ccall
) will be accessible on the Module
object, without minification changing the name, and the optimizer will make sure to keep the function present (and not remove it as unused). See the relevant FAQ entry.
Use emcc’s pre-js option to add JavaScript code that defines (or extends) the Module
object with the behaviour you need.
When generating only JavaScript (as opposed to HTML), no Module
object is created by default, and the behaviour is entirely defined by the developer. For example, creating a Module
object with the following code will cause all notifications from the program to be calls to alert()
.
var Module = { 'print': function(text) { alert('stdout: ' + text) }, 'printErr': function(text) { alert('stderr: ' + text) } };
重要
If you run the Closure Compiler on your code (which is optional, and can be done by --closure 1
), you will need quotation marks around the properties of Module
as in the example above. In addition, you need to run closure on the compiled code together with the declaration of Module
— this is done automatically for a --pre-js
file.
When generating HTML, Emscripten creates a Module
object with default methods (see src/shell.html). In this case you should again use --pre-js
, but this time you add properties to the existing Module
object, for example:
Module['print'] = function(text) { alert('stdout: ' + text) };
Note that once the Module object is received by the main JavaScript file, it will look for Module['print']
and so forth at that time, and use them accordingly. Changing their values later may not be noticed.
The INCOMING_MODULE_JS_API
compiler setting controls which Module
attributes are supported in the emitted JS. This list contains commonly-used
things by default.
Setting this to the smallest possible list for your application will save JS
code size. For example, if you use no Module
attributes, you can build
with -sINCOMING_MODULE_JS_API=[]
. Or, if you use just a few, you can list
them out, like this: -sINCOMING_MODULE_JS_API=print,printErr
.
The following Module
attributes affect code execution. Set them to customize behavior.
The commandline arguments. The value of arguments
contains the values returned if compiled code checks argc
and argv
.
Allows you to provide your own ArrayBuffer
or SharedArrayBuffer
to use as the memory.
备注
This is only supported if -sWASM=0
. See Module.wasmMemory
for WebAssembly support.
Allows you to provide your own WebAssembly.Memory
to use as the memory. The properties used to initialize the memory should match the compiler options.
For example, if you set INITIAL_MEMORY
to 8MB without memory growth, then the wasmMemory
you provide (if any) should have both the 'initial'
and 'maximum'
set to 128 (due to WASM page sizes being 64KB).
If set, this method will be called when the runtime needs to load a file, such as a .wasm
WebAssembly file, .mem
memory init file, or a file generated by the file packager. The function receives the relative path to the file as configured in build process and a prefix
(path to the main JavaScript file’s directory), and should return the actual URL. This lets you host file packages or the .mem
file etc. on a different location than the directory of the JavaScript file (which is the default expectation), for example if you want to host them on a CDN.
备注
prefix
might be an empty string, if locateFile
is called before we load the main JavaScript. For example, that can happen if a file package or a memory initializer file are loaded beforehand (perhaps from the HTML, before it loads the main JavaScript).
备注
Several Module.*PrefixURL
options have been deprecated in favor of locateFile
, which includes memoryInitializerPrefixURL
, pthreadMainPrefixURL
, cdInitializerPrefixURL
, filePackagePrefixURL
. To update your code, for example if you used Module.memoryInitializerPrefixURL
equal to "https://mycdn.com/memory-init-dir/"
, then you can replace that with something like:
Module['locateFile'] = function(path, prefix) {
// if it's a mem init file, use a custom dir
if (path.endsWith(".mem")) return "https://mycdn.com/memory-init-dir/" + path;
// otherwise, use the default, the prefix (JS file's dir) + the path
return prefix + path;
}
If set, stderr will log when any file is read.
Controls whether Emscripten runtime libraries try to print with colors. Currently, this only affects sanitizers.
If unset, colors will be enabled if printing to a terminal with node
.
If set to true
, colors will always be used if possible. If set to false
, colors will never be used.
If set, this function is called when abnormal program termination occurs. That can happen due to the C method abort()
being called directly, or called from JavaScript, or due to a fatal problem such as being unable to fetch a necessary file during startup (such as the Wasm binary), etc. After calling this function, program termination occurs (i.e., you can’t use this to try to do something else instead of stopping; there is no possibility of recovering here).
If set, this function is called when the runtime is fully initialized, that is, when compiled code is safe to run, which is after any asynchronous startup operations have completed (such as asynchronous WebAssembly compilation, file preloading, etc.). (An alternative to waiting for this to be called is to wait for main()
to be called.)
If noExitRuntime
is set to true
, the runtime is not shut down after run
completes. Shutting down the runtime calls shutdown callbacks, for example atexit
calls. If you want to continue using the code after run()
finishes, it is necessary to set this. This is automatically set for you if you use an API command that implies that you want the runtime to not be shut down, for example emscripten_set_main_loop
.
If noInitialRun
is set to true
, main()
will not be automatically called (you can do so yourself later). The program will still call global initializers, set up memory initialization, and so forth.
A function (or array of functions) that must be called before global initializers run, but after basic initialization of the JavaScript runtime. This is typically used for File System operations.
If building with -sGL_PREINITIALIZED_CONTEXT
set, you can set Module.preinitializedWebGLContext
to a precreated instance of a WebGL context, which will be used later when initializing WebGL in C/C++ side. Precreating the GL context is useful if doing GL side loading (shader compilation, texture loading etc.) parallel to other page startup actions, and/or for detecting WebGL feature support, such as GL version or compressed texture support up front on a page before or in parallel to loading up any compiled code.
An array of functions to call right before calling run()
, but after defining and setting up the environment, including global initializers. This is useful, for example, to set up directories and files using the 文件系统API — as this needs to happen after the FileSystem API has been loaded, but before the program starts to run.
备注
If code needs to affect global initializers, it should instead be run using preInit
.
Called when something is printed to standard output (stdout)
Called when something is printed to standard error (stderr)
Allows pthread workers or WASM workers to independently load up the main application module JavaScript file (e.g. main.js) from a URL or blob. Creation of pthread workers or WASM workers need to load the main application module JavaScript file (e.g. main.js). By default, they load the content of main.js from the URL of main.js. However, if the main.js file was loaded from a Blob, it is not possible to access the URL of the main.js. Also, when main.js is bundled by a Node.JS module bundler (e.g. webpack), the URL of that script can be wrong, the URL after webpack bundler will result in wrong URL like main.chunk.js
This method should be called to destroy C++ objects created in JavaScript using WebIDL bindings. If this method is not called, an object may be garbage collected, but its destructor will not be called.
obj – The JavaScript-wrapped C++ object to be destroyed.
If you want to manually manage the download of .data file packages for custom caching, progress reporting and error handling behavior, you can implement the Module.getPreloadedPackage = function(remotePackageName, remotePackageSize)
callback to provide the contents of the data files back to the file loading scripts. The return value of this callback should be an Arraybuffer with the contents of the downloaded file data. See file test/manual_download_data.html
and the test browser.test_preload_file_with_manual_data_download
for an example.
When targeting WebAssembly, Module.instantiateWasm is an optional user-implemented callback function that the Emscripten runtime calls to perform the WebAssembly instantiation action. The callback function will be called with two parameters, imports
and successCallback
. imports
is a JS object which contains all the function imports that need to be passed to the WebAssembly Module when instantiating, and once instantiated, this callback function should call successCallback()
with the generated WebAssembly Instance object.
The instantiation can be performed either synchronously or asynchronously. The return value of this function should contain the exports
object of the instantiated WebAssembly Module, or an empty dictionary object {}
if the instantiation is performed asynchronously, or false
if instantiation failed.
Overriding the WebAssembly instantiation procedure via this function is useful when you have other custom asynchronous startup actions or downloads that can be performed in parallel to WebAssembly compilation. Implementing this callback allows performing all of these in parallel. See the file test/manual_wasm_instantiate.html
and the test browser.test_manual_wasm_instantiate
for an example of how this construct works in action.
备注
Sanitizers or source map is currently not supported if overriding WebAssembly instantiation with Module.instantiateWasm. Providing Module.instantiateWasm when source map or sanitizer is enabled can prevent WebAssembly instantiation from finishing.
When compiled with PROXY_TO_WORKER = 1
(see settings.js), this callback (which should be implemented on both the client and worker’s Module
object) allows sending custom messages and data between the web worker and the main thread (using the postCustomMessage
function defined in proxyClient.js and proxyWorker.js).
Override the default settings object used when fetching the Wasm module from
the network. This attribute is expected to be a string and it defaults to {
credentials: 'same-origin' }
.