Acutest Readme
Home: https://github.com/mity/acutest
What Is Acutest
Acutest is C/C++ unit testing facility aiming to be as simple as possible, not to stand in the developer's way and to minimize any external dependencies.
To achieve that, the complete implementation resides in a single C header file, and its core depends only on few standard C library functions.
Overview
Main features:
- Unit tests in C or C++ are supported.
- No need to install/setup/configure any testing framework. Acutest is just
a single header file,
acutest.h
. - The header provides the program entry point (function
main()
). - Minimal dependencies: Core features only depend on few standard C headers, optional features may use more if available on the particular system.
- Trivial interface for writing unit tests: Few preprocessor macros described further below.
- Rudimentary support for Test Anything Protocol
(use
--tap
option). - Rudimentary support for xUnit-compatible XML output (use
--xml-output=FILE
).
C++ specific features:
- Acutest catches any C++ exception thrown from any unit test function. When that happens, the given test is considered to fail.
- If the exception is derived from
std::exception
,what()
is written out in the error message.
Unix/Posix specific features:
- By default, every unit test is executed as a child process.
- By default, if the output is directed to a terminal, the output is colorized.
- If the system offers Posix timer (
clock_gettime()
), user can measure test execution times with--time=real
(same as--time
) and--time=cpu
.
Linux specific features:
- If a debugger is detected, the default execution of tests as child processes is suppressed in order to make the debugging easier.
Windows specific features:
- By default, every unit test is executed as a child process.
- If a debugger is detected, the default execution of tests as child processes is suppressed in order to make the debugging easier.
- By default, if the output is directed to a terminal, the output is colorized.
- Acutest installs a SEH filter to print out uncaught SEH exceptions.
- User can measure test execution times with
--time
.
macOS specific features:
- If a debugger is detected, the default execution of tests as child processes is suppressed in order to make the debugging easier.
Any C/C++ module implementing one or more unit tests and including acutest.h
,
can be built as a standalone program. We call the resulted binary as a "test
suite" for purposes of this document. The suite is then executed to run the
tests, as specified with its command line options.
We say any unit test succeeds if and only if:
- all condition checks (as described below) called throughout its execution pass;
- the test does not throw any exception (C++ only); and
- (on Windows or Unix) the unit test subprocess is not interrupted/terminated (e.g. by a signal on Unix or SEH on Windows).
Writing Unit Tests
Basic Use
To use Acutest, simply include the header file acutest.h
on the beginning of
the C/C++ source file implementing one or more unit tests. Note the header
provides implementation of the main()
function.
#include "acutest.h"
Every test is supposed to be implemented as a function with the following prototype:
void test_example(void);
The tests can use some preprocessor macros to validate the test conditions. They can be used multiple times, and if any of those conditions fails, the particular test is considered to fail.
TEST_CHECK
is the most commonly used testing macro which simply tests a
boolean condition and fails if the condition evaluates to false (or zero).
For example:
void test_example(void)
{
void* mem;
int a, b;
mem = malloc(10);
TEST_CHECK(mem != NULL);
mem = realloc(mem, 20);
TEST_CHECK(mem != NULL);
}
Note that the tests should be completely independent on each other. Whenever the test suite is invoked, the user may run any number of tests in the suite, in any order. Furthermore by default, on platforms where supported, each unit test is executed as a standalone (sub)process.
Finally, the test suite source file has to list the unit tests, using the
macro TEST_LIST
. The list specifies name of each test (it has to be unique)
and pointer to a function implementing the test. I recommend names which are
easy to use on command line: especially avoid space and other special
characters which might require escaping in shell; also avoid dash (-
) as a
first character of the name, as it could then be interpreted as a command line
option and not as a test name.
TEST_LIST = {
{ "example", test_example },
...
{ NULL, NULL } /* zeroed record marking the end of the list */
};
Note the test list has to be ended with zeroed record.
For a basic test suites this is more or less all you need to know. However Acutest provides some more macros which can be useful in some specific situations. We cover them in the following sub-sections.
Aborting on a Check Failure
There is a macro TEST_ASSERT
which is very similar to TEST_CHECK
but, if it
fails, it aborts execution of the current unit test instantly.
For example:
void test_example(void)
{
void* mem;
int a, b;
mem = malloc(10);
TEST_ASSERT(mem != NULL);
mem = realloc(mem, 20);
TEST_ASSERT(mem != NULL);
}
The abortion in the case of failure is performed either by calling abort()
(if the test is executed as a child process) or via longjmp()
(if it is not).
Therefore it should be used only if you understand the costs connected with such a brutal abortion of the test. Depending on what your unit test does, it may include unflushed file descriptors, memory leaks, C++ objects destructed without their destructors being called and more.
In general, TEST_CHECK
should be preferred over TEST_ASSERT
, unless you
know exactly what you do and why you chose TEST_ASSERT
in some particular
situation.
Testing C++ Exceptions
For C++, there is an additional macro TEST_EXCEPTION
for verifying the given
code (typically just a function or a method call) throws the expected type of
exception.
The check fails if the function does not throw any exception or if it throws anything incompatible.
For example:
void test_example(void)
{
TEST_EXCEPTION(CallSomeFunction(), std::exception);
}
Richer Failure Diagnosis
If a condition check fails, it is often useful to provide some additional
information about the situation so the problem is easier to debug. Acutest
provides the macros TEST_MSG
and TEST_DUMP
for this purpose.
The former one outputs any printf
-like message, the other one outputs a
hexadecimal dump of a provided memory block.
So for example:
void test_example(void)
{
char produced[100];
char expected[] = "Hello World!";
SomeSprintfLikeFunction(produced, "Hello %s!", "world");
TEST_CHECK(strcmp(produced, expected) == 0);
TEST_MSG("Expected: %s", expected);
TEST_MSG("Produced: %s", produced);
/* Or, if the function could provide some binary stuff, we might rather
* use TEST_DUMP instead in order to output a hexadecimal dump of the data.
*/
TEST_DUMP("Expected:", expected, strlen(expected));
TEST_DUMP("Produced:", produced, strlen(produced));
}
Note that both macros output anything only when the most recently checking macro has failed. In other words, these two are equivalent:
if(!TEST_CHECK(some_condition != 0))
TEST_MSG("some message");
TEST_CHECK(some_condition != 0);
TEST_MSG("some message");
(Note that TEST_MSG
requires the compiler with variadic macros support.)
Loops over Test Vectors
Sometimes, it is useful to design your testing function as a loop over data providing a collection of test vectors and their respective expected outputs. For example imagine our unit test is supposed to verify some kind of a hashing function implementation and we've got a collection of test vectors for it in the hash specification.
In such cases, it is very useful to get some name associated with every test vector and output the name in the output log so that if any check fails, it is easy to identify the guilty test vector. However, the loop body may execute dozens of checking macros and so it may be impractical to add such name to customize every check message in the loop.
To solve this, Acutest provides the macro TEST_CASE
. The macro specifies
a string serving as the test vector name. When used, Acutest makes sure that
in the output log the provided name precedes any message from subsequent
condition checks.
For example, lets assume we are testing SomeFunction()
which is supposed,
for a given byte array of some size, return another array of bytes in a newly
malloc
-ed buffer. Then we can do something like this:
struct TestVector {
const char* name;
const uint8_t* input;
size_t input_size;
const uint8_t* expected_output;
size_t expected_output_size;
};
struct TestVector test_vectors[] = {
/* some data */
};
void test_example(void)
{
int i;
const uint8_t* output;
size_t output_size;
for(i = 0; i < sizeof(test_vectors) / sizeof(test_vectors[0]); i++) {
struct TestVector* vec = &test_vectors[i];
/* Output the name of the tested test vector. */
TEST_CASE(vec.name);
/* Now, we can check the function produces what it should for the
* current test vector. If any of the following checking macros
* produces any output (either because the check fails, or because
* high `--verbose` level is used), Acutest also outputs the currently
* tested vector's name. */
output = SomeFunction(vec->input, vec->input_size, &output_size);
if(TEST_CHECK(output != NULL)) {
TEST_CHECK(output_size == vec->expected_output_size);
TEST_CHECK(memcmp(output, vec->expected_output, output_size) == 0);
free(output);
}
}
}
The specified name applies to all checks executed after the use of TEST_CASE
- until the unit test ends; or
- until
TEST_CASE
is used again to specify another name; or - until the name is explicitly reset by using
TEST_CASE
with theNULL
as its argument.
Custom Log Messages
Many of the macros mentioned in the earlier sections have a counterpart which allows to output a custom messages instead of some default ones.
All of these have the same name as the aforementioned macros, just with the
underscore suffix added. With the suffix, they then expect printf
-like string
format and corresponding additional arguments.
So, for example, instead of the simple checking macros
TEST_CHECK(a == b);
TEST_ASSERT(x < y);
TEST_EXCEPTION(SomeFunction(), std::exception);
we can use their respective counterparts with a custom messages:
TEST_CHECK_(a == b, "%d is equal to %d", a, b);
TEST_ASSERT_(x < y, "%d is lower than %d", x, y);
TEST_EXCEPTION_(SomeFunction(), std::exception, "SomeFunction() throws std::exception");
You should use some neutral wording for them because, with the command line
option --verbose
, the messages are logged out even if the respective check
passes successfully.
(If you need to output some diagnostic information just in the case the check
fails, use the macro TEST_MSG
. That's exactly its purpose.)
Similarly, instead of
TEST_CASE("name");
we can use richer
TEST_CASE_("iteration #%d", 42);
However note all of these can only be used if your compiler supports variadic preprocessor macros. Variadic macros became a standard part of the C language with C99.
Building the Test Suite
When we are done with implementing the tests, we can simply compile it as
a simple C/C++ program. For example, assuming cc
is your C compiler:
$ cc test_example.c -o test_example
Running Unit Tests
When the test suite is compiled, the resulted testing binary can be used to run the tests.
Exit code of the test suite is 0 if all the executed unit tests pass, 1 if any of them fails, or any other number if an internal error occurs.
By default (without any command line options), it runs all implemented unit tests. It can also run only subset of the unit tests as specified on the command line:
$ ./test_example # Runs all tests in the suite
$ ./test_example test1 test2 # Runs only tests specified
$ ./test_example --skip test3 # Runs all tests but those specified
Note that a single command line argument can select a whole group of test units because Acutest implements several levels of unit test selection (the 1st one matching at least one test unit is used):
-
Exact match: When the argument matches exactly the whole name of a unit test then just the given test is selected.
-
Word match: When the argument does not match any complete test name, but it does match whole word in one or more test names, then all such tests are selected.
The following characters are recognized as word delimiters: space
\t
, dash-
, underscore_
, slash/
, dot.
, comma,
, colon:
, semicolon;
. -
Substring match: If even the word match failed to select any test, then all tests with a name which contains the argument as its substring are selected.
By adopting an appropriate test naming strategy, this allows user to run (or
to skip if --skip
is used) easily whole family of related tests with a single
command line argument.
For example consider test suite test_example
which implements tests foo-1
,
foo-2
, foomatic
, bar-1
and bar-10
:
$ ./test_example bar-1 # Runs only the test 'bar-1' (exact match)
$ ./test_example foo # Runs 'foo-1' and 'foo-2' (word match)
$ ./test_example oo # Runs 'foo-1', 'foo-2' and 'foomatic' (substring match)
$ ./test_example 1 # Runs 'foo-1' and 'bar-1' (word match)
You may use --list
or -l
to just list all unit tests implemented by the
given test suite:
$ ./test_example --list
To see description for all the supported command line options, run the binary
with the option --help
:
$ ./test_example --help
FAQ
Q: Wasn't this project known as "CUTest"?
A: Yes. It has been renamed as the original name was found to be too much overloaded.
Q: Do I need to distribute file README.md
and/or LICENSE.md
?
A: No. The header acutest.h
includes URL to our repo, copyright note and
the MIT license terms inside of it. As long as you leave those intact, we are
completely fine if you only add the header into your project. After all,
the simple use and all-in-one-header nature of it is our primary aim.
License
Acutest is covered with MIT license, see the file LICENSE.md
or beginning of
acutest.h
for its full text.
More Information
The project resides on github:
You can find the latest version of Acutest there, contribute with enhancements or report bugs.