Writing tests

Each Bats test file is evaluated n+1 times, where n is the number of test cases in the file. The first run counts the number of test cases, then iterates over the test cases and executes each one in its own process.

For more details about how Bats evaluates test files, see Bats Evaluation Process on the wiki.

For sample test files, see examples.

Comment syntax

External tools (like shellcheck, shfmt, and various IDE’s) may not support the standard .bats syntax. Because of this, we provide a valid bash alternative:

function invoking_foo_without_arguments_prints_usage { #@test
  run foo
  [ "$status" -eq 1 ]
  [ "${lines[0]}" = "usage: foo <filename>" ]
}

When using this syntax, the function name will be the title in the result output and the value checked when using --filter.

run: Test other commands

Many Bats tests need to run a command and then make assertions about its exit status and output. Bats includes a run helper that invokes its arguments as a command, saves the exit status and output into special global variables, and then returns with a 0 status code so you can continue to make assertions in your test case.

For example, let’s say you’re testing that the foo command, when passed a nonexistent filename, exits with a 1 status code and prints an error message.

@test "invoking foo with a nonexistent file prints an error" {
  run foo nonexistent_filename
  [ "$status" -eq 1 ]
  [ "$output" = "foo: no such file 'nonexistent_filename'" ]
  [ "$BATS_RUN_COMMAND" = "foo nonexistent_filename" ]

}

The $status variable contains the status code of the command, the $output variable contains the combined contents of the command’s standard output and standard error streams, and the $BATS_RUN_COMMAND string contains the command and command arguments passed to run for execution.

If invoked with one of the following as the first argument, run will perform an implicit check on the exit status of the invoked command:

⚠️ CAUTION ⚠️: Previous versions of this documentation erronously contained the syntax =N instead of -N below. Using this wrong format leads to silent errors. See issue #578 for more details and how to found out if your tests are affected.

    -N  expect exit status N (0-255), fail if otherwise
    ! expect nonzero exit status (1-255), fail if command succeeds

We can then write the above more elegantly as:

@test "invoking foo with a nonexistent file prints an error" {
  run -1 foo nonexistent_filename
  [ "$output" = "foo: no such file 'nonexistent_filename'" ]
}

A third special variable, the $lines array, is available for easily accessing individual lines of output. For example, if you want to test that invoking foo without any arguments prints usage information on the first line:

@test "invoking foo without arguments prints usage" {
  run -1 foo
  [ "${lines[0]}" = "usage: foo <filename>" ]
}

Note: The run helper executes its argument(s) in a subshell, so if writing tests against environmental side-effects like a variable’s value being changed, these changes will not persist after run completes.

By default run leaves out empty lines in ${lines[@]}. Use run --keep-empty-lines to retain them.

Additionally, you can use --separate-stderr to split stdout and stderr into $output/$stderr and ${lines[@]}/${stderr_lines[@]}.

All additional parameters to run should come before the command. If you want to run a command that starts with -, prefix it with -- to prevent run from parsing it as an option.

load: Share common code

You may want to share common code across multiple test files. Bats includes a convenient load command for sourcing a Bash source files relative to the current test file and from absolute paths.

For example, if you have a Bats test in test/foo.bats, the command

load test_helper.bash

will source the script test/test_helper.bash in your test file (limitations apply, see below). This can be useful for sharing functions to set up your environment or load fixtures. load delegates to Bash’s source command after resolving paths.

If load encounters errors - e.g. because the targeted source file errored - it will print a message with the failing library and Bats exits.

To allow to use load in conditions bats_load_safe has been added. bats_load_safe prints a message and returns 1 if a source file cannot be loaded instead of exiting Bats. Aside from that bats_load_safe acts exactly like load.

As pointed out by @iatrou in https://www.tldp.org/LDP/abs/html/declareref.html, using the declare builtin restricts scope of a variable. Thus, since actual source-ing is performed in context of the load function, declared symbols will not be made available to callers of load.

load argument resolution

load supports the following arguments:

  • absolute paths

  • relative paths (to the current test file)

For backwards compatibility load first searches for a file ending in .bash (e.g. load test_helper searches for test_helper.bash before it looks for test_helper). This behaviour is deprecated and subject to change, please use exact filenames instead.

If argument is an absolute path load tries to determine the load path directly.

If argument is a relative path or a name load looks for a matching path in the directory of the current test.

bats_load_library: Load system wide libraries

Some libraries are installed on the system, e.g. by npm or brew. These should not be loaded, as their path depends on the installation method. Instead, one should use bats_load_library together with setting BATS_LIB_PATH, a PATH-like colon-delimited variable.

bats_load_library has two modes of resolving requests:

  1. by relative path from the BATS_LIB_PATH to a file in the library

  2. by library name, expecting libraries to have a load.bash entrypoint

For example if your BATS_LIB_PATH is set to ~/.bats/libs:/usr/lib/bats, then bats_load_library test_helper would look for existing files with the following paths:

  • ~/.bats/libs/test_helper

  • ~/.bats/libs/test_helper/load.bash

  • /usr/lib/bats/test_helper

  • /usr/lib/bats/test_helper/load.bash

The first existing file in this list will be sourced.

If you want to load only part of a library or the entry point is not named load.bash, you have to include it in the argument: bats_load_library library_name/file_to_load will try

  • ~/.bats/libs/library_name/file_to_load

  • ~/.bats/libs/library_name/file_to_load/load.bash

  • /usr/lib/bats/library_name/file_to_load

  • /usr/lib/bats/library_name/file_to_load/load.bash

Apart from the changed lookup rules, bats_load_library behaves like load.

Note: As seen above load.bash is the entry point for libraries and meant to load more files from its directory or other libraries.

Note: Obviously, the actual BATS_LIB_PATH is highly dependant on the environment. To maintain a uniform location across systems, (distribution) package maintainers are encouraged to use /usr/lib/bats/ as the install path for libraries where possible. However, if the package manager has another preferred location, like npm or brew, you should use this instead.

skip: Easily skip tests

Tests can be skipped by using the skip command at the point in a test you wish to skip.

@test "A test I don't want to execute for now" {
  skip
  run foo
  [ "$status" -eq 0 ]
}

Optionally, you may include a reason for skipping:

@test "A test I don't want to execute for now" {
  skip "This command will return zero soon, but not now"
  run foo
  [ "$status" -eq 0 ]
}

Or you can skip conditionally:

@test "A test which should run" {
  if [ foo != bar ]; then
    skip "foo isn't bar"
  fi

  run foo
  [ "$status" -eq 0 ]
}

Note: setup and teardown hooks still run for skipped tests.

setup and teardown: Pre- and post-test hooks

You can define special setup and teardown functions, which run before and after each test case, respectively. Use these to load fixtures, set up your environment, and clean up when you’re done.

You can also define setup_file and teardown_file, which will run once before the first test’s setup and after the last test’s teardown for the containing file. Variables that are exported in setup_file will be visible to all following functions (setup, the test itself, teardown, teardown_file).

Example of setup/setup_file/teardown/teardown_file call order For example the following call order would result from two files (file 1 with tests 1 and 2, and file 2 with test3) beeing tested:
setup_file # from file 1, on entering file 1
  setup
    test1
  teardown
  setup
    test2
  teardown
teardown_file # from file 1, on leaving file 1
setup_file # from file 2,  on enter file 2
  setup
    test3
  teardown
teardown_file # from file 2,  on leaving file 2

Code outside of test cases

You can include code in your test file outside of @test functions. For example, this may be useful if you want to check for dependencies and fail immediately if they’re not present. However, any output that you print in code outside of @test, setup or teardown functions must be redirected to stderr (>&2). Otherwise, the output may cause Bats to fail by polluting the TAP stream on stdout.

File descriptor 3 (read this if Bats hangs)

Bats makes a separation between output from the code under test and output that forms the TAP stream (which is produced by Bats internals). This is done in order to produce TAP-compliant output. In the Printing to the terminal section, there are details on how to use file descriptor 3 to print custom text properly.

A side effect of using file descriptor 3 is that, under some circumstances, it can cause Bats to block and execution to seem dead without reason. This can happen if a child process is spawned in the background from a test. In this case, the child process will inherit file descriptor 3. Bats, as the parent process, will wait for the file descriptor to be closed by the child process before continuing execution. If the child process takes a lot of time to complete (eg if the child process is a sleep 100 command or a background service that will run indefinitely), Bats will be similarly blocked for the same amount of time.

To prevent this from happening, close FD 3 explicitly when running any command that may launch long-running child processes, e.g. command_name 3>&- .

Printing to the terminal

Bats produces output compliant with version 12 of the TAP protocol. The produced TAP stream is by default piped to a pretty formatter for human consumption, but if Bats is called with the -t flag, then the TAP stream is directly printed to the console.

This has implications if you try to print custom text to the terminal. As mentioned in File descriptor 3, bats provides a special file descriptor, &3, that you should use to print your custom text. Here are some detailed guidelines to refer to:

  • Printing from within a test function:

    • First you should consider if you want the text to be always visible or only when the test fails. Text that is output directly to stdout or stderr (file descriptor 1 or 2), ie echo 'text' is considered part of the test function output and is printed only on test failures for diagnostic purposes, regardless of the formatter used (TAP or pretty).

    • To have text printed unconditionally from within a test function you need to redirect the output to file descriptor 3, eg echo 'text' >&3. This output will become part of the TAP stream. You are encouraged to prepend text printed this way with a hash (eg echo '# text' >&3) in order to produce 100% TAP compliant output. Otherwise, depending on the 3rd-party tools you use to analyze the TAP stream, you can encounter unexpected behavior or errors.

  • Printing from within the setup or teardown functions: The same hold true as for printing with test functions.

  • Printing outside test or setup/teardown functions:

    • Regardless of where text is redirected to (stdout, stderr or file descriptor 3) text is immediately visible in the terminal.

    • Text printed in such a way, will disable pretty formatting. Also, it will make output non-compliant with the TAP spec. The reason for this is that each test file is evaluated n+1 times (as mentioned earlier). The first run will cause such output to be produced before the plan line is printed, contrary to the spec that requires the plan line to be either the first or the last line of the output.

    • Due to internal pipes/redirects, output to stderr is always printed first.

Special variables

There are several global variables you can use to introspect on Bats tests:

  • $BATS_RUN_COMMAND is the run command used in your test case.

  • $BATS_TEST_FILENAME is the fully expanded path to the Bats test file.

  • $BATS_TEST_DIRNAME is the directory in which the Bats test file is located.

  • $BATS_TEST_NAMES is an array of function names for each test case.

  • $BATS_TEST_NAME is the name of the function containing the current test case.

  • $BATS_TEST_DESCRIPTION is the description of the current test case.

  • $BATS_TEST_NUMBER is the (1-based) index of the current test case in the test file.

  • $BATS_SUITE_TEST_NUMBER is the (1-based) index of the current test case in the test suite (over all files).

  • $BATS_TMPDIR is the base temporary directory used by bats to create its temporary files / directories. (default: $TMPDIR. If $TMPDIR is not set, /tmp is used.)

  • $BATS_RUN_TMPDIR is the location to the temporary directory used by bats to store all its internal temporary files during the tests. (default: $BATS_TMPDIR/bats-run-$BATS_ROOT_PID-XXXXXX)

  • $BATS_FILE_EXTENSION (default: bats) specifies the extension of test files that should be found when running a suite (via bats [-r] suite_folder/)

  • $BATS_SUITE_TMPDIR is a temporary directory common to all tests of a suite. Could be used to create files required by multiple tests.

  • $BATS_FILE_TMPDIR is a temporary directory common to all tests of a test file. Could be used to create files required by multiple tests in the same test file.

  • $BATS_TEST_TMPDIR is a temporary directory unique for each test. Could be used to create files required only for specific tests.

Libraries and Add-ons

Bats supports loading external assertion libraries and helpers. Those under bats-core are officially supported libraries (integration tests welcome!):

and some external libraries, supported on a “best-effort” basis: