Difference between revisions of "Testing"

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(Running unit tests)
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The <code>./run_tests.sh</code> script controlls all tests
 
The <code>./run_tests.sh</code> script controlls all tests
 
<syntaxhighlight lang="bash">
 
<syntaxhighlight lang="bash">
Usage: ./run_tests.sh
+
usage: run_tests.py [-h] [-c] [-b] [-t] [--build-examples] [-e] [-s] [-d]
Options:
+
 
   -c  run only configuration test
+
Script to check you medusa library.
   -t   run only unit tests
+
 
   -s   run only stylechecks
+
optional arguments:
   -d  run only docs check
+
  -h, --help          show this help message and exit
   -h  print this help
+
   -c, --configure    check your system configuration
Example:
+
   -b, --build        build the library
./run_tests.sh -sd
+
   -t, --tests        run all tests
 +
   --build-examples    build all examples
 +
   -e, --run-examples  run selected examples
 +
   -s, --style        style checks all sources and reports any errors
 +
   -d, --docs          generate and check for documentation errors
 
</syntaxhighlight>
 
</syntaxhighlight>
  

Revision as of 13:29, 17 January 2019

Warning: This section is out of date. If will hopefully be fixed soon. See Gitlab repository for more details.

Output of successfull ./run_tests.sh script run.
Figure 1: Output of successfull ./run_tests.sh script run.

We have 4 different kind of tests in this library:

  • unit tests
  • style checks
  • docs check
  • system configuration check

The ./run_tests.sh script controlls all tests

usage: run_tests.py [-h] [-c] [-b] [-t] [--build-examples] [-e] [-s] [-d]

Script to check you medusa library.

optional arguments:
  -h, --help          show this help message and exit
  -c, --configure     check your system configuration
  -b, --build         build the library
  -t, --tests         run all tests
  --build-examples    build all examples
  -e, --run-examples  run selected examples
  -s, --style         style checks all sources and reports any errors
  -d, --docs          generate and check for documentation errors

Before pushing run ./run_tests.sh. This script makes and executes all <util_name>_test.cpp test files, checks coding style and documentation. If anything is wrong you will get pretty little red error, but if you see green, like in Figure 1, you're good to go.

Unit tests

All library code is tested by means of unit tests. Unit tests provide verification, are good examples and prevent regressions. For any newly added functionality, a unit test testing that functionality must be added.

Writing unit tests

Every new functionality (eg. added class, function or method) should have a unit test. Unit tests

  • assure that code compiles
  • assure that code executes without crashes
  • assure that code produces expected results
  • define observable behaviour of the method, class, ...
  • prevent future modifications of this code to change this behaviour accidentally

Unit tests should tests observable behaviour, eg. if function gets 1 and 3 as input, output should be 6. They should test for edge cases and most common cases, as well as for expected death cases.

We are using Google Test framework for our unit tests. See their introduction to unit testing for more details.

The basic structure is

TEST(Group, Name) {
    EXPECT_EQ(a, b);
}

Each header file should be accompanied by a <util_name>_test.cpp with unit tests.

When writing unit tests, always write them thoroughly and slowly, take your time. Never copy your own code's ouput to the test; rather produce it by hand or with another trusted tool. Even if it seems obvious the code is correct, remember that you are writing tests also for the future. If tests have a bug, it is much harder to debug!

See our examples in techincal documentation.

Running unit tests

Tests can be run all at once via make run_all_tests or individually via eg. make operators_run_tests.

Compiled binary supports running only specified test. Use ./all_tests --gtest_filter=Domain* for filtering and ./all_tests --help for more options.

Fixing bugs

When you find a bug in the normal code, fix it and write a test for it. The test should fail before the fix, and pass after the it.

Style check

Before commiting, a linter cpplint.py is ran on all the source and test files to make sure that the code follows the style guide. The linter is not perfect, so if any errors are unjust, feel free to comment appropriate lines in the linter out and commit the change.

Docs check

Every function, class or method should also have documentation as einforced by doxygen in the header where they are defined. In the comment block, all parameters, and return value should be meaningully described. It can also containg a short example.

Example:

/**
 * Computes the force that point a inflicts on point b.
 *
 * @param a The index of the first point.
 * @param b The index of the second point
 * @return The size of the force vector from a to b.
 */
double f (int a, int b);

Any longer discussions about the method used or long examples belong to this wiki, but can be linked from the docs.

Configuration testing

The script scripts/configure.sh checks the computer has appropriate packages and that very basic code examples (hdf5, sfml) compile. It currently support arch like and ubuntu like distros.

If you find yourself making modification to .gitlab-ci.yml then maybe you should update this check as well, as well as some documentation in the how to build page but this should not happen very often.

Continuous build

We use GitLab Runner, an open source project that is used to run your jobs and send the results back to GitLab. It is used in conjunction with GitLab CI, the open-source continuous integration service included with GitLab that coordinates the jobs.

Runner features

To configure runner that perform MM test on each commit edit gitlab-ci.yml on main (e62numcodes) repo.