Version: 2019.3
Compatibilidad del navegador con WebGL
WebGL: Deploying compressed builds

Building and running a WebGL project

When you build a WebGL project, Unity creates a folder with the following files:

  • An index.html file which browsers can navigate to load your content.

  • A TemplateData folder (when building with the default template) containing the build logo, loading bar and other template Assets. The build template folder is normally used to customize the appearance of the build while loading. See the User Manual page on WebGL templates for more information.

  • A Build folder containing your generated build output files.

The Build folder contains the following files (the MyProject file name represents the name of your project).

  • A UnityLoader.js JavaScript file containing the code needed to load up the Unity content in the web page.

  • A MyProject.json JSON file containing all the necessary information about your build. The URL of this JSON file is provided as an argument for the Unity Loader when the build is instantiated. JSON file contains URLs of all the other build files, which can be absolute or relative to the location of the JSON file. JSON may contain additional Module parameters, such as the splash screen style or the initial size of the memory heap.

  • A MyProject.wasm.framework.unityweb file containing the JavaScript runtime and plugins.

  • A MyProject.wasm.code.unityweb file containing the WebAssembly binary.

  • A MyProject.wasm.memory.unityweb file containing a binary image to initialize the heap memory for your player. Note that this file is only generated for multi-threaded builds.

  • A MyProject.data.unityweb file containing the Asset data and Scenes.

The contents of the *.unityweb files in the Build folder may be compressed with gzip, brotli or may be uncompressed, depending on the Publishing Settings. See documentation on deploying compressed builds for more information

You can view your WebGL player directly in most browsers by opening the index.html file. However, for security reasons, Chrome places restrictions on scripts opened from local file URLs, so this technique does not work in Chrome. To work round Chrome’s restrictions, use Unity’s Build & Run command ( File > Build & Run); the file is then temporarily hosted in a local web server and opened from a local host URL. Alternatively, you can run Chrome with the --allow-file-access-from-files command line option which allows it to load content from local file URLs. This is required on a PC to allow execution of the build.

On some servers you need to explicitly make .unityweb files accessible, because the server needs to provide these files to clients.

Build Settings

To access the WebGL build settings, open the Build Settings window (File > Build Settings). Then select WebGL from the Platform list.

Development Build

When you select the Development Build setting, Unity generates a development build which has Profiler support and a development console which you can use to see any errors in your application. Additionally, development builds do not minify content. The JavaScript in development builds are in human-readable form, and Unity preserves function names so you can see stack traces for errors. However, this means development builds are very large, and too large to distribute. You can only select Autoconnect Profiler and Deep Profiling Support if you enable the Development Build setting.

Autoconnect Profiler

Enable the Autoconnect Profiler setting to profile your Unity WebGL content. For WebGL, it is not possible to connect the Profiler to a running build as on other platforms, so you have to use this option to connect the content to the Editor. This is because the Profiler connection is handled using WebSockets on WebGL, but a web browser only allows outgoing connections from the content.

Deep Profiling Support

Enable the Deep Profiling Support setting to make the Unity Profiler profile every function call in your application. For more information see the documentation on Deep Profiling.

Player settings (Configuraciones del reproductor)

WebGL has some additional options in the Player settings (menu: Edit > Project Settings, then select the Player category).

Other Settings

Strip Engine Code

Open Other Settings to access the Strip Engine Code option. This option is checked by default to enable code stripping for WebGL. With this option checked, Unity does not include code for any classes you don’t use. For example, if you don’t use any physics components or functions, the whole physics engine is removed from your build. See the Stripping section below for more details.

Publishing Settings

Enable Exceptions

Open Publishing Settings to access Enable Exceptions. Enable Exceptions allows you to specify how unexpected code behavior (generally considered errors) is handled at run time. It has these options:

  • None: Select this if you don’t need any exception support. This gives the best performance and smallest builds. With this option, any exception thrown causes your content to stop with an error in that setting.
  • Explicitly Thrown Exceptions Only (default): Select this to capture exceptions which are explicitly specified from a throw statement in your scripts and to also ensure finally blocks are called. Note that selecting this option makes the generated JavaScript code from your scripts longer and slower; This might only be an issue if scripts are the main bottleneck in your project.
  • Full Without Stacktrace: Select this option to capture:
    • Exceptions which are explicitly specified from throw statements in your scripts (the same as in the Explicitly Thrown Exceptions Only option)
    • Null References
    • Out of Bounds Array accesses
  • Full With Stacktrace: This option is similar to the option above but it also captures Stack traces. Unity generates these exceptions by embedding checks for them in the code, so this option decreases performance and increases browser memory usage. Only use this for debugging, and always test in a 64-bit browser.

Select Publishing Settings to access Data Caching. Select this to enable automatic local caching of your player data. This option sets asset storage as a local cached in the browser’s IndexedDB database, so that assets won’t have to be downloaded again in subsequent runs of your content. Note that different browsers have different rules on allowing IndexedDB storage; browsers may ask the user for permission to store the data, and your build may exceed a size limit defined by the browser.

Tamaño de Distribución

When publishing for WebGL, it is important to keep your build size low so users get reasonable download times before the content starts. For generic tips on reducing asset sizes, see documentation on Reducing the file size of the build.

Hints and tips specific to WebGL

  • Specify the Crunch texture compression format for all your compressed textures in the Texture Importer.

  • Don’t deploy development builds; they are not compressed or minified, and so have much larger file sizes.

  • Open the Player settings (menu: Edit > Project Settings, then select the Player category), open the Publishing Settings panel and set Enable Exceptions to None if you don’t need exceptions in your build.

  • Open the Player settings (menu: Edit > Project Settings, then select the Player category), open the Other Settings panel, and enable Strip Engine Code to ensure an efficient build.

  • Take care when using third-party managed dlls, as they might include a lot of dependencies and so significantly increase the generated code size.

If you make a release build, Unity compresses the build output files according to the Compression Format selected in the Publishing Settings panel of the WebGL Player settings.

See documentation on Deploying compressed builds for more info on these options, and on how to publish builds with them.

AssetBundles

Since all your Asset data needs to be pre-downloaded before your content starts, you should consider moving Assets out of your main data files and into AssetBundles. That way, you can create a small loader Scene for your content which loads quickly. It then dynamically loads Assets on-demand as the user proceeds through your content. AssetBundles also help with Asset data memory management: You can unload Asset data from memory for Assets you don’t need any more by calling AssetBundle.Unload.

Algunas consideraciones aplican cuando utilice AssetBundles en la plataforma WebGL.

  • When you use class types in your AssetBundle which are not used in your main build, Unity may strip the code for those classes from the build. This can cause a fail when trying to load Assets from the AssetBundle. Use BuildPlayerOptions.assetBundleManifestPath to fix that, or see the section on Stripping, below, for other options.

  • WebGL does not support threading, but http downloads only become available when they have finished downloading. Because of this, Unity WebGL builds need to decompress AssetBundle data on the main thread when the download is done, blocking the main thread. To avoid this interruption, LZMA AssetBundle compression is not available for AssetBundles on WebGL. AssetBundles are compressed using LZ4 instead, which is de-compressed very efficiently on-demand. If you need smaller compression sizes than LZ4 delivers, you can configure your web server to use gzip or Brotli compression (on top of LZ4 compression) on your AssetBundles. See documentation on Deploying compressed builds for more information on how to do this.

  • AssetBundle caching using WWW.LoadFromCacheOrDownload is supported in WebGL using the IndexedDB API from the browser to implement caching on the user’s computer. Note that IndexedDB may have limited support on some browsers, and that browsers may request the user’s authorization to store data on disk. See documentation on WebGL browser compatibility for more information.

Stripping

Unity removes all unused code from your build by default. You can change this via the Player settings (menu: Edit > Project Settings, then select the Player category): Select the Other Settings panel to access the Strip Engine Code option. It is better to build with stripping enabled.

With code stripping, Unity scans your project for any UnityObject-derived classes used (either by being referenced in your script code, or in the serialized data in your Scenes). It then removes from the build any Unity subsystems which have none of their classes used. This makes your build have less code, resulting in both smaller downloads and less code to parse (so code runs faster and uses less memory).

Issues with code stripping

Code stripping might cause issues with your project if it strips code which is actually necessary. This can be the case when you load AssetBundles at run time which contain classes that are not included in the main build, and have therefore been stripped from the project. Error messages appear in your browser’s JavaScript console when this happens (possibly followed by more errors). For example:

Could not produce class with ID XXX

To troubleshoot these errors, look up the ID (such as XXX in the example above) in the Class ID Reference to see which class it is trying to create an instance of. In such cases, you can force Unity to include the code for that class in the build, either by adding a reference to that class to your scripts or to your Scenes, or by adding a link.xml file to your project.

Below is an example which makes sure that the Collider class (and therefore the Physics module) gets preserved in a project. Add this XML code to a file called link.xml, and put that file into your Assets folder.

<linker>
    <assembly fullname="UnityEngine">
        <type fullname="UnityEngine.Collider" preserve="all"/>
    </assembly>
</linker>

If you suspect that stripping is causing problems with your build, you can also try disabling the Strip Engine Code option during testing.

Unity does not provide a convenient way to see which modules and classes are included in a build, which would allow you to optimize your project to strip well. However, to get an overview of included classes and modules, you can look at the generated file Temp/StagingArea/Data/il2cppOutput/UnityClassRegistration.cpp after making a build.

Note that the Strip Engine Code option only affects Unity engine code. IL2CPP always strips byte code from your managed dlls and scripts. This can cause problems when you need to reference managed types dynamically through reflection rather than through static references in your code. If you need to access types through reflection, you may also need to set up a link.xml file to preserve those types. See the documentation page on iOS Build size optimization for more information on link.xml files.

Moviendo archivos de salida (output) de la construcción

To change the location of your Build folder, change the URL of the JSON file (the second argument of the UnityLoader.instantiate) in the index.html file.

To change the location of the files inside the Build folder, change their URLs (that is, dataUrl, wasmCodeUrl, wasmMemoryUrl, and wasmFrameworkUrl) in the JSON file. All non-absolute URLs in the JSON file are treated as URLs relative to the location of the JSON file. You can specify URLs on external servers for these if you want to host your files on a content distribution network (CDN), but you need to make sure that the hosting server has enabled Cross Origin Resource Sharing (CORS) for this to work. See the manual page on WebGL networking for more information about CORS.

Construcciones incrementales

The C++ code generated for your project by IL2CPP is compiled incrementally; that is, only generated C++ code that has changed since the last build is compiled again. Unchanged source code re-uses the same object files generated for the previous build. The object files used for incremental C++ builds are stored in the Library/il2cpp_cache directory in your Unity project.

To perform a clean, from-scratch build of the generated C++ code which doesn’t use incremental compiling, delete the Library/il2cpp_cache directory in your Unity project. Note that if the Unity Editor version differs from the one used for the previous WebGL build, Unity does a clean, from-scratch build automatically.


  • 2019–06–10 Page amended

  • Full Without Stacktrace added in Unity 2017.3

  • Removed asm.js linker target in Unity 2019.1

Compatibilidad del navegador con WebGL
WebGL: Deploying compressed builds
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