.. _emscripten-test-suite:

=====================
Emscripten Test Suite
=====================

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 pass on the master branch. In addition to correctness tests, there are also benchmarks that you can run.

This article explains how to run the test and benchmark suite, and provides an overview of what tests are available.

Setting up
==========

To run the tests, you need an emscripten setup, as it will run ``emcc`` and other
commands. See the :ref:`developer's guide <developers-guide-setting-up>` for
how best to do that.

Running tests
=============

Run the test suite runner (`tests/runner.py <https://github.com/emscripten-core/emscripten/blob/master/tests/runner.py>`_) with no arguments to see the help message:

.. code-block:: bash

    python tests/runner.py

The tests are divided into *modes*. You can run either an entire mode or an individual test, or use wildcards to run some tests in some modes. For example:

.. code-block:: bash

  # run one test (in the default mode)
  python tests/runner.py test_loop

  # run one test in a specific mode (here, asm.js -O2)
  python tests/runner.py asm2.test_loop

  # run a test in a bunch of modes (here, all asm.js modes)
  python tests/runner.py asm*.test_loop

  # run a bunch of tests in one mode (here, all i64 tests in wasm -O3)
  python tests/runner.py wasm3.test_*i64*

  # run all tests in a specific mode (here, asm.js -O1)
  python tests/runner.py asm1

The *core* test modes (defined at the bottom of `tests/test_core.py <https://github.com/emscripten-core/emscripten/blob/master/tests/test_core.py>`_) let you run a specific test in either asm.js or wasm, and with different optimization flags. There are also non-core test modes, that run tests in more special manner (in particular, in those tests it is not possible to say "run the test with a different optimization flag" - that is what the core tests are for). The non-core test modes include

 * `other`: Non-core tests running in the shell.
 * `browser`: Tests that run in a browser.
 * `sockets`: Networking tests that run in a browser.
 * `interactive`: Browser tests that are not fully automated, and require user interaction (these should be automated eventually).
 * `sanity`: Tests for emscripten setting itself up. This modifies your `.emscripten` file temporarily.
 * `benchmark`: Runs benchmarks, measuring speed and code size.

The wildcards we mentioned above work for non-core test modes too, for example:

.. code-block:: bash

  # run one browser test
  python tests/runner.py browser.test_sdl_image

  # run all SDL2 browser tests
  python tests/runner.py browser.test_sdl2*

  # run all browser tests
  python tests/runner.py browser

Skipping Tests
==============

An individual test can be skipped by passing the "skip:" prefix. E.g.

.. code-block:: bash

  python tests/runner.py other skip:other.test_cmake

Wildcards can also be passed in skip, so

.. code-block:: bash

  python tests/runner.py browser skip:browser.test_pthread_*

will run the whole browser suite except for all the pthread tests in it.

Running a bunch of random tests
===============================

You can run a random subset of the test suite, using something like

.. code-block:: bash

    python tests/runner.py random100

Replace ``100`` with another number as you prefer. This will run that number of random tests, and tell you the statistical likelihood of almost all the test suite passing assuming those tests do. This works just like election surveys do - given a small sample, we can predict fairly well that so-and-so percent of the public will vote for candidate A. In our case, the "candidates" are pass or fail, and we can predict how much of the test suite will pass given that sample. Assuming the sample tests all pass, we can say with high likelihood that most of the test suite will in fact pass. (Of course, this is no guarantee, and even a single test failure is serious, however, this gives a quick estimate that your patch does not cause significant and obvious breakage.)

Important Tests
===============

Please see the bottom the file `tests/test_core.py <https://github.com/emscripten-core/emscripten/blob/master/tests/test_core.py>`_ for the current test modes, as they may change slowly over time.
When you want to run the entire test suite locally, these are currently the important commands:

.. code-block:: bash

  # Run all core wasm tests
  python tests/runner.py wasm*

  # Run "other" test suite
  python tests/runner.py other

  # Run "browser" test suite - this requires a web browser
  python tests/runner.py browser

  # Run "sockets" test suite - this requires a web browser too
  python tests/runner.py sockets

  # Run "sanity" test suite - this tests setting up emscripten during
  # first run, etc., and so it modifies your .emscripten file temporarily.
  python tests/runner.py sanity

  # Optionally, also run benchmarks to check for regressions
  python tests/runner.py benchmark

.. _benchmarking:

Benchmarking
============

Emscripten has a benchmark suite that measures both speed and code size, which
includes several interesting real-world codebases, from physics engines to
compression libraries to virtual machines. It also includes some existing
benchmarks such as CoreMark and LINPACK. See for example
`this post's section on speed <https://kripken.github.io/blog/wasm/2020/07/27/wasmboxc.html>`_
which gives an overview.

To run the benchmark suite, do:

.. code-block:: bash

  # Run all benchmarks
  python tests/runner.py benchmark

As with all the test suites, you can also run a specific benchmark:

.. code-block:: bash

  # Run one specific benchmark
  python tests/runner.py benchmark.test_skinning

Usually you will want to customize the python in `tests/test_benchmark.py` to
run the benchmarks you want (there is currently no external config file). Things
you may want to modify include:

* ``benchmarkers`` is the list of VMs to run the benchmarks on.
* ``DEFAULT_ARG`` is how long the benchmark should run (they all try to run for
  a similar amount of time for consistency).
* ``TEST_REPS`` is how many times to repeat each run (more will take longer, but
  should have less noise).
* ``PROFILING`` controls whether the builds are set up for profiling (which can
  increase code size, so it's not done by default).

Debugging test failures
=======================

Setting the :ref:`debugging-EMCC_DEBUG` is useful for debugging tests, as it emits debug output and intermediate files (the files go in **/tmp/emscripten_temp/**):

.. code-block:: bash

  # On Windows, use "set" to set and un-set the EMCC_DEBUG environment variable:
  set EMCC_DEBUG=1
  python tests/runner.py test_hello_world
  set EMCC_DEBUG=0

  # On Linux, you can do this all in one line
  EMCC_DEBUG=1 python tests/runner.py test_hello_world

  # EMCC_DEBUG=2 generates additional debug information.
  EMCC_DEBUG=2 python tests/runner.py test_hello_world


You can also specify ``EMTEST_SAVE_DIR=1`` in the environment to save the
temporary directory that the test runner uses into **/tmp/emscripten_test/**.
This is a test suite-specific feature, and is useful for inspecting test
outputs as well as temporary files generated by the test.  By default,
the temporary directory will be cleaned between each test run, but setting
``EMTEST_SAVE_DIR=2`` will preserve the directory even when a new test is
started.


The :ref:`Debugging` topic provides more guidance on how to debug Emscripten-generated code.

