.. _Tutorial: =================== Emscripten Tutorial =================== **Using Emscripten is, at a base level, fairly simple. This tutorial takes you through the steps needed to compile your first Emscripten examples from the command line. It also shows how to work with files and set the main compiler optimization flags.** First things first ====================== Make sure you have :ref:`downloaded and installed ` Emscripten (the exact approach for doing this will depend your operating system: Linux, Windows, or Mac). Emscripten is accessed using the :ref:`emccdoc`. This script invokes all the other tools needed to build your code, and can act as a drop-in replacement for a standard compiler like *gcc* or *clang*. It is called on the command line using ``./emcc`` or ``./em++``. .. note:: On Windows the tool is called using the slightly different syntax: ``emcc`` or ``em++``. The remainder of this tutorial uses the Linux approach (``./emcc``). For the next section you will need to open a command prompt: - On Linux or macOS, open a *Terminal*. - On Windows open the :ref:`Emscripten Command Prompt `, a command prompt that has been pre-configured with the correct system paths and settings to point to the :term:`active ` Emscripten tools. To access this prompt, type **Emscripten** in the Windows 8 start screen, and then select the **Emscripten Command Prompt** option. Navigate with the command prompt to the emscripten directory under the SDK. This is a folder below the :term:`emsdk root directory`, typically **/fastcomp/emscripten/** (for the older "fastcomp" compiler; for the newer upstream LLVM wasm backend it will be **/upstream/emscripten/**). The examples below will depend on finding files relative to that location. .. note:: In older emscripten versions the directory structure was different: the version number appeared, and the backend (fastcomp/upstream) did not, so you would use something like **/emscripten/1.20.0/**. Verifying Emscripten ===================== If you haven't run Emscripten before, run it now with: :: ./emcc -v If the output contains warnings about missing tools, see :ref:`verifying-the-emscripten-environment` for debugging help. Otherwise continue to the next sections where we'll build some code. Running Emscripten ================== You can now compile your first C/C++ file to JavaScript. First, lets have a look at the file to be compiled: **hello_world.c**. This is the simplest test code in the SDK, and as you can see, all it does is print "hello, world!" to the console and then exit. .. include:: ../../../../tests/hello_world.c :literal: To build the JavaScript version of this code, simply specify the C/C++ file after *emcc* (use *em++* to force compilation as C++): :: ./emcc tests/hello_world.c You should see two files generated by that command: **a.out.js** and **a.out.wasm**. The second is a WebAssembly file containing the compiled code, and the first is a JavaScript file containing the runtime support to load and execute it. You can run them using :term:`node.js`: :: node a.out.js This prints "hello, world!" to the console, as expected. .. note:: Older node.js versions do not have WebAssembly support yet. In that case you will see an error message suggesting that you build with ``-s WASM=0`` to disable WebAssembly, and then emscripten will emit the compiled code as JavaScript. In general, WebAssembly is recommended as it has widespread browser support and is more efficient both to execute and to download (and therefore emscripten emits it by default), but sometimes you may need your code to run in an environment where it is not yet present and so should disable it. .. tip:: If an error occurs when calling *emcc*, run it with the ``-v`` option to print out a lot of useful debug information. .. note:: In this section, and later on, we run some files from the ``tests/`` folder. That folder contains files for the Emscripten test suite. Some can be run standalone, but others must be run through the test harness itself, see :ref:`emscripten-test-suite` for more information. Generating HTML =============== Emscripten can also generate HTML for testing embedded JavaScript. To generate HTML, use the ``-o`` (:ref:`output `) command and specify an html file as the target file: :: ./emcc tests/hello_world.c -o hello.html You can now open ``hello.html`` in a web browser. .. note:: Unfortunately several browsers (including *Chrome*, *Safari*, and *Internet Explorer*) do not support ``file://`` :term:`XHR` requests, and can't load extra files needed by the HTML (like a ``.wasm`` file, or packaged file data as mentioned lower down). For these browsers you'll need to serve the files using a :ref:`local webserver ` and then open ``http://localhost:8000/hello.html``). Once you have the HTML loaded in your browser, you'll see a text area for displaying the output of the ``printf()`` calls in the native code. The HTML output isn't limited just to just displaying text. You can also use the SDL API to show a colored cube in a ```` element (on browsers that support it). For an example, build the `hello_world_sdl.cpp `_ test code and then refresh the browser: :: ./emcc tests/hello_world_sdl.cpp -o hello.html The source code for the second example is given below: .. include:: ../../../../tests/hello_world_sdl.cpp :literal: .. _tutorial-files: Using files =========== .. note:: Your C/C++ code can access files using the normal libc stdio API (``fopen``, ``fclose``, etc.) JavaScript is usually run in the sandboxed environment of a web browser, without direct access to the local file system. Emscripten simulates a file system that you can access from your compiled C/C++ code using the normal libc stdio API. Files that you want to access should be :ref:`preloaded ` or :ref:`embedded ` into the virtual file system. Preloading (or embedding) generates a virtual file system that corresponds to the file system structure at *compile* time, *relative to the current directory*. The `hello_world_file.cpp `_ example shows how to load a file (both the test code and the file to be loaded shown below): .. include:: ../../../../tests/hello_world_file.cpp :literal: .. include:: ../../../../tests/hello_world_file.txt :literal: .. note:: The example expects to be able to load a file located at **tests/hello_world_file.txt**: :: FILE *file = fopen("tests/hello_world_file.txt", "rb"); We compile the example from the directory "above" **tests** to ensure that virtual filesystem is created with the correct structure relative to the compile-time directory. The following command is used to specify a data file to :ref:`preload ` into Emscripten's virtual file system — before running any compiled code. This approach is useful because Browsers can only load data from the network asynchronously (except in Web Workers) while a lot of native code uses synchronous file system access. Preloading ensures that the asynchronous download of data files is complete (and the file is available) before compiled code has the opportunity to access the Emscripten file system. :: ./emcc tests/hello_world_file.cpp -o hello.html --preload-file tests/hello_world_file.txt Run the above command, then open **hello.html** in a web browser to see the data from **hello_world_file.txt** being displayed. For more information about working with the file system see the :ref:`file-system-overview`, :ref:`Filesystem-API` and :ref:`Synchronous-virtual-XHR-backed-file-system-usage`. Optimizing code =============== Emscripten, like *gcc* and *clang*, generates unoptimized code by default. You can generate :ref:`slightly-optimized ` code with the ``-O1`` command line argument: :: ./emcc -O1 tests/hello_world.cpp The "hello world" code created in **a.out.js** doesn't really need to be optimized, so you won't see a difference in speed when compared to the unoptimized version. However, you can compare the generated code to see the differences. ``-O1`` applies several minor optimizations and removes some runtime assertions. For example, ``printf`` will have been replaced by ``puts`` in the generated code. The optimizations provided by ``-O2`` (see :ref:`here `) are much more aggressive. If you run the following command and inspect the generated code (**a.out.js**) you will see that it looks very different: :: ./emcc -O2 tests/hello_world.cpp For more information about compiler optimization options see :ref:`Optimizing-Code` and the :ref:`emcc tool reference `. .. _running-emscripten-tests: Emscripten Test Suite and Benchmarks ==================================== Emscripten has a comprehensive test suite, which covers virtually all Emscripten functionality. These tests are an excellent resource for developers as they provide practical examples of most features, and are known to build successfully on the master branch. See :ref:`emscripten-test-suite` for more information. General tips and next steps =========================== This tutorial walked you through your first steps in calling Emscripten from the command line. There is, of course, far more you can do with the tool. Below are other general tips for using Emscripten: - This site has lots more information about :ref:`compiling and building projects `, :ref:`integrating your native code with the web environment `, :ref:`packaging your code ` and publishing. - The Emscripten test suite is a great place to look for examples of how to use Emscripten. For example, if you want to better understand how the *emcc* ``--pre-js`` option works, search for ``--pre-js`` in the test suite: the test suite is extensive and there are likely to be at least some examples. - To learn how to use Emscripten in advanced ways, read :ref:`src/settings.js ` and :ref:`emcc ` which describe the compiler options, and :ref:`emscripten-h` for details on JavaScript-specific C APIs that your C/C++ programs can use when compiled with Emscripten. - Read the :ref:`FAQ`. - When in doubt, :ref:`get in touch `!