This section contains how-to guides on creating code coverage reports for various purposes. For an introduction on using gcovr, see the User Guide instead.
Recipes in the cookbook:
Collecting code coverage data on the C code that makes up a Python extension module is not quite as straightforward as with a regular C program.
As with a normal C project,
we have to compile our code with coverage instrumentation.
and then run
python3 setup.py build_ext.
build_ext can rebuild a source file
even if the current object file is up to date.
If multiple extension modules share the same source code file,
gcov will get confused by the different timestamps
and report inaccurate coverage.
It is nontrivial to adapt the
build_ext process to avoid this.
Instead, we can use the
ccache utility to make the compilation lazy
(works best on Unix systems).
Before we invoke the
build_ext step, we first
export CC="ccache gcc".
Ccache works well but isn’t absolutely perfect,
see the ccache manual for caveats.
A shell session might look like this:
# Set required env vars export CFLAGS="--coverage" export CC="ccache gcc" # clear out build files so we get a fresh compile rm -rf build/temp.* # contains old .gcda, .gcno files rm -rf build/lib.* # rebuild extensions python3 setup.py build_ext --inplace # possibly --force # run test command i.e. pytest # run gcovr rm -rf coverage; mkdir coverage gcovr --filter src/ --print-summary --html-details coverage/index.html
Tools such as
cmake encourage the use of out-of-source builds,
where the code is compiled in a directory other than the one which
contains the sources. This is an extra complication for
In order to pass the correct compiler and linker flags, the following
commands need to be in
# This flags are used if cmake is called with -DCMAKE_BUILD_TYPE=PROFILE set(CMAKE_C_FLAGS_PROFILE --coverage) set(CMAKE_CXX_FLAGS_PROFILE --coverage) add_executable(program example.cpp)
--coverage compiler flag is an alternative to
-fprofile-arcs -ftest-coverage for
recent version of gcc.
In versions 3.13 and later of
target_link_libraries command can be removed and
add_link_options("--coverage") added after
We then follow a normal
cmake build process:
cd $BLD_DIR cmake -DCMAKE_BUILD_TYPE=PROFILE $SRC_DIR make VERBOSE=1
and run the program:
cd $BLD_DIR ./program
However, invocation of
gcovr itself has to change. The assorted
.gcda files will appear under the
BLD_DIR, rather than next to the sources. Since
gcovr requires both, the command we need to run is:
cd $BLD_DIR gcovr -r $SRC_DIR .