This chapter describes how to set up qmake project files for three common project types that are based on Qt: application, library, and plugin. Although all project types use many of the same variables, each of them uses project-specific variables to customize output files.
Platform-specific variables are not described here. For more information, see Qt for Windows - Deployment and Qt for macOS.
The app
template tells qmake to generate a Makefile that will build an application. With this template, the type of application can be specified by adding one of the following options to the CONFIG variable definition:
Option | Description |
---|---|
windows | The application is a Windows GUI application. |
console | app template only: the application is a Windows console application. |
testcase | The application is an automated test. |
When using this template, the following qmake system variables are recognized. You should use these in your .pro file to specify information about your application. For additional platform-dependent system variables, you could have a look at the Platform Notes.
You only need to use the system variables that you have values for. For example, if you do not have any extra INCLUDEPATHs then you do not need to specify any. qmake will add the necessary default values. An example project file might look like this:
TEMPLATE = app DESTDIR = c:/helloapp HEADERS += hello.h SOURCES += hello.cpp SOURCES += main.cpp DEFINES += USE_MY_STUFF CONFIG += release
For items that are single valued, such as the template or the destination directory, we use "="; but for multi-valued items we use "+=" to add to the existing items of that type. Using "=" replaces the variable value
with the new value. For example, if we write DEFINES=USE_MY_STUFF
, all other definitions are deleted.
A testcase project is an app
project intended to be run as an automated test. Any app
may be marked as a testcase by adding the value testcase
to the CONFIG
variable.
For testcase projects, qmake will insert a check
target into the generated Makefile. This target will run the application. The test is considered to pass if it terminates with an exit code equal to zero.
The check
target automatically recurses through SUBDIRS projects. This means it is possible to issue a make check
command from within a
SUBDIRS project to run an entire test suite.
The execution of the check
target may be customized by certain Makefile variables. These variables are:
Variable | Description |
---|---|
TESTRUNNER | A command or shell fragment prepended to each test command. An example use-case is a "timeout" script which will terminate a test if it does not complete within a specified time. |
TESTARGS |
Additional arguments appended to each test command. For example, it may be useful to pass additional arguments to set the output file and format from the test (such as the -o filename,format option
supported by QTestLib).
|
Note: The variables must be set while invoking the make
tool, not in the .pro file. Most make
tools support the setting of Makefile variables directly on the command-line:
# Run tests through test-wrapper and use JUnit XML output format. # In this example, test-wrapper is a fictional wrapper script which terminates # a test if it does not complete within the amount of seconds set by "--timeout". # The "-o result.xml,junitxml" options are interpreted by QTestLib. make check TESTRUNNER="test-wrapper --timeout 120" TESTARGS="-o result.xml,junitxml"
Testcase projects may be further customized with the following CONFIG
options:
Option | Description |
---|---|
insignificant_test | The exit code of the test will be ignored during make check . |
Test cases will often be written with QTest or TestCase
, but it is not a requirement to make use of CONFIG+=testcase
and make check
. The only primary
requirement is that the test program exit with a zero exit code on success, and a non-zero exit code on failure.
The lib
template tells qmake to generate a Makefile that will build a library. When using this template, the VERSION variable is supported, in addition to
the system variables that the app
template supports. Use the variables in your .pro file to specify information about the library.
When using the lib
template, the following options can be added to the CONFIG variable to determine the type of library that is built:
Option | Description |
---|---|
dll | The library is a shared library (dll). |
staticlib | The library is a static library. |
plugin | The library is a plugin. |
The following option can also be defined to provide additional information about the library.
The target file name for the library is platform-dependent. For example, on X11, macOS, and iOS, the library name will be prefixed by lib
. On Windows, no prefix is added to the file name.
Plugins are built using the lib
template, as described in the previous section. This tells qmake to generate a Makefile for the project that will build a plugin in a suitable form for each platform, usually in
the form of a library. As with ordinary libraries, the VERSION variable is used to specify information about the plugin.
Qt Designer plugins are built using a specific set of configuration settings that depend on the way Qt was configured for your system. For convenience, these settings can be enabled by adding designer
to
the QT variable. For example:
QT += widgets designer
See the Qt Designer Examples for more examples of plugin-based projects.
Sometimes, it is necessary to build a project in both debug and release modes. Although the CONFIG variable can hold both debug
and release
options, only the option that is specified last is applied.
To enable a project to be built in both modes, you must add the debug_and_release
option to the CONFIG
variable:
CONFIG += debug_and_release CONFIG(debug, debug|release) { TARGET = debug_binary } else { TARGET = release_binary }
The scope in the above snippet modifies the build target in each mode to ensure that the resulting targets have different names. Providing different names for targets ensures that one will not overwrite the other.
When qmake processes the project file, it will generate a Makefile rule to allow the project to be built in both modes. This can be invoked in the following way:
make all
The build_all
option can be added to the CONFIG
variable in the project file to ensure that the project is built in both modes by default:
CONFIG += build_all
This allows the Makefile to be processed using the default rule:
make
The build_all
option also ensures that both versions of the target will be installed when the installation rule is invoked:
make install
It is possible to customize the names of the build targets depending on the target platform. For example, a library or plugin may be named using a different convention on Windows from the one used on Unix platforms:
CONFIG(debug, debug|release) { mac: TARGET = $$join(TARGET,,,_debug) win32: TARGET = $$join(TARGET,,d) }
The default behavior in the above snippet is to modify the name used for the build target when building in debug mode. An else
clause could be added to the scope to do the same for release mode. Left as it is,
the target name remains unmodified.