Step 5: Installing and Testing¶
Exercise 1 - Install Rules¶
Often, it is not enough to only build an executable, it should also be
installable. With CMake, we can specify install rules using the
install()
command. Supporting local installations for your builds in
CMake is often as simple as specifying an install location and the targets and
files to be installed.
Goal¶
Install the Tutorial
executable and the MathFunctions
library.
Helpful Materials¶
Files to Edit¶
MathFunctions/CMakeLists.txt
CMakeLists.txt
Getting Started¶
The starting code is provided in the Step5
directory. In this
exercise, complete TODO 1
through TODO 4
.
First, update MathFunctions/CMakeLists.txt
to install the
MathFunctions
and tutorial_compiler_flags
libraries to the lib
directory. In that same file, specify the install rules needed to install
MathFunctions.h
to the include
directory.
Then, update the top level CMakeLists.txt
to install
the Tutorial
executable to the bin
directory. Lastly, any header files
should be installed to the include
directory. Remember that
TutorialConfig.h
is in the PROJECT_BINARY_DIR
.
Build and Run¶
Make a new directory called Step5_build
. Run the
cmake
executable or the
cmake-gui
to configure the project and then build it
with your chosen build tool.
Then, run the install step by using the --install
option of the cmake
command (introduced in 3.15, older
versions of CMake must use make install
) from the command line. This step
will install the appropriate header files, libraries, and executables.
For example:
cmake --install .
For multi-configuration tools, don't forget to use the
--config
argument to specify the configuration.
cmake --install . --config Release
If using an IDE, simply build the INSTALL
target. You can build the same
install target from the command line like the following:
cmake --build . --target install --config Debug
The CMake variable CMAKE_INSTALL_PREFIX
is used to determine the
root of where the files will be installed. If using the cmake --install
command, the installation prefix can be overridden via the
--prefix
argument. For example:
cmake --install . --prefix "/home/myuser/installdir"
Navigate to the install directory and verify that the installed Tutorial
runs.
Solution¶
The install rules for our project are fairly simple:
For
MathFunctions
, we want to install the libraries and header file to thelib
andinclude
directories respectively.For the
Tutorial
executable, we want to install the executable and configured header file to thebin
andinclude
directories respectively.
So to the end of MathFunctions/CMakeLists.txt
we add:
TODO 1: Click to show/hide answer
set(installable_libs MathFunctions tutorial_compiler_flags)
install(TARGETS ${installable_libs} DESTINATION lib)
and
TODO 2: Click to show/hide answer
install(FILES MathFunctions.h DESTINATION include)
The install rules for the Tutorial
executable and configured header file
are similar. To the end of the top-level CMakeLists.txt
we add:
TODO 3,4: Click to show/hide answer
install(TARGETS Tutorial DESTINATION bin)
install(FILES "${PROJECT_BINARY_DIR}/TutorialConfig.h"
DESTINATION include
)
That is all that is needed to create a basic local install of the tutorial.
Exercise 2 - Testing Support¶
CTest offers a way to easily manage tests for your project. Tests can be
added through the add_test()
command. Although it is not
explicitly covered in this tutorial, there is a lot of compatibility
between CTest and other testing frameworks such as GoogleTest
.
Goal¶
Create unit tests for our executable using CTest.
Helpful Materials¶
Files to Edit¶
CMakeLists.txt
Getting Started¶
The starting source code is provided in the Step5
directory. In this
exercise, complete TODO 5
through TODO 9
.
First, we need to enable testing. Next, begin adding tests to our project
using add_test()
. We will work through adding 3 simple tests and
then you can add additional testing as you see fit.
Build and Run¶
Navigate to the build directory and rebuild the application. Then, run the
ctest
executable: ctest -N
and ctest -VV
. For
multi-config generators (e.g. Visual Studio), the configuration type must be
specified with the -C <mode>
flag. For example, to run tests in Debug
mode use ctest -C Debug -VV
from the build directory
(not the Debug subdirectory!). Release mode would be executed from the same
location but with a -C Release
. Alternatively, build the RUN_TESTS
target from the IDE.
Solution¶
Let's test our application. At the end of the top-level CMakeLists.txt
file we first need to enable testing with the
enable_testing()
command.
TODO 5: Click to show/hide answer
enable_testing()
With testing enabled, we will add a number of basic tests to verify
that the application is working correctly. First, we create a test using
add_test()
which runs the Tutorial
executable with the
parameter 25 passed in. For this test, we are not going to check the
executable's computed answer. This test will verify that
application runs, does not segfault or otherwise crash, and has a zero
return value. This is the basic form of a CTest test.
TODO 6: Click to show/hide answer
add_test(NAME Runs COMMAND Tutorial 25)
Next, let's use the PASS_REGULAR_EXPRESSION
test property to
verify that the output of the test contains certain strings. In this case,
verifying that the usage message is printed when an incorrect number of
arguments are provided.
TODO 7: Click to show/hide answer
add_test(NAME Usage COMMAND Tutorial)
set_tests_properties(Usage
PROPERTIES PASS_REGULAR_EXPRESSION "Usage:.*number"
)
The next test we will add verifies the computed value is truly the square root.
TODO 8: Click to show/hide answer
add_test(NAME StandardUse COMMAND Tutorial 4)
set_tests_properties(StandardUse
PROPERTIES PASS_REGULAR_EXPRESSION "4 is 2"
)
This one test is not enough to give us confidence that it will
work for all values passed in. We should add more tests to verify this.
To easily add more tests, we make a function called do_test
that runs the
application and verifies that the computed square root is correct for
given input. For each invocation of do_test
, another test is added to
the project with a name, input, and expected results based on the passed
arguments.
TODO 9: Click to show/hide answer
function(do_test target arg result)
add_test(NAME Comp${arg} COMMAND ${target} ${arg})
set_tests_properties(Comp${arg}
PROPERTIES PASS_REGULAR_EXPRESSION ${result}
)
endfunction()
# do a bunch of result based tests
do_test(Tutorial 4 "4 is 2")
do_test(Tutorial 9 "9 is 3")
do_test(Tutorial 5 "5 is 2.236")
do_test(Tutorial 7 "7 is 2.645")
do_test(Tutorial 25 "25 is 5")
do_test(Tutorial -25 "-25 is (-nan|nan|0)")
do_test(Tutorial 0.0001 "0.0001 is 0.01")