AUTOMOC¶
Should the target be processed with auto-moc (for Qt projects).
AUTOMOC
is a boolean specifying whether CMake will handle the Qt moc
preprocessor automatically, i.e. without having to use commands like
QT4_WRAP_CPP()
, qt5_wrap_cpp(), etc.
Currently, Qt versions 4 to 6 are supported.
This property is initialized by the value of the CMAKE_AUTOMOC
variable if it is set when a target is created.
When this property is set ON
, CMake will scan the header and
source files at build time and invoke moc
accordingly.
Header file processing¶
At configuration time, a list of header files that should be scanned by
AUTOMOC
is computed from the target's sources.
All header files in the target's sources are added to the scan list.
For all C++ source files
<source_base>.<source_extension>
in the target's sources, CMake searches fora regular header with the same base name (
<source_base>.<header_extention>
) anda private header with the same base name and a
_p
suffix (<source_base>_p.<header_extention>
)
and adds these to the scan list.
At build time, CMake scans each unknown or modified header file from the list and searches for
a Qt macro from
AUTOMOC_MACRO_NAMES
,additional file dependencies from the
FILE
argument of aQ_PLUGIN_METADATA
macro andadditional file dependencies detected by filters defined in
AUTOMOC_DEPEND_FILTERS
.
If a Qt macro is found, then the header will be compiled by the moc
to the
output file moc_<base_name>.cpp
. The complete output file path is
described in the section Output file location.
The header will be moc
compiled again if a file from the additional file
dependencies changes.
Header moc
output files moc_<base_name>.cpp
can be included in source
files. In the section Including header moc files in sources there is more
information on that topic.
Source file processing¶
At build time, CMake scans each unknown or modified C++ source file from the target's sources for
a Qt macro from
AUTOMOC_MACRO_NAMES
,includes of header
moc
files (see Including header moc files in sources),additional file dependencies from the
FILE
argument of aQ_PLUGIN_METADATA
macro andadditional file dependencies detected by filters defined in
AUTOMOC_DEPEND_FILTERS
.
If a Qt macro is found, then the C++ source file
<base>.<source_extension>
is expected to as well contain an include
statement
#include <<base>.moc> // or
#include "<base>.moc"
The source file then will be compiled by the moc
to the output file
<base>.moc
. A description of the complete output file path is in section
Output file location.
The source will be moc
compiled again if a file from the additional file
dependencies changes.
Including header moc files in sources¶
A source file can include the moc
output file of a header
<header_base>.<header_extension>
by using an include statement of
the form
#include <moc_<header_base>.cpp> // or
#include "moc_<header_base>.cpp"
If the moc
output file of a header is included by a source, it will
be generated in a different location than if it was not included. This is
described in the section Output file location.
Output file location¶
Included moc output files¶
moc
output files that are included by a source file will be generated in
<AUTOGEN_BUILD_DIR>/include
for single configuration generators or in<AUTOGEN_BUILD_DIR>/include_<CONFIG>
formulti configuration
generators.
Where <AUTOGEN_BUILD_DIR>
is the value of the target property
AUTOGEN_BUILD_DIR
.
The include directory is automatically added to the target's
INCLUDE_DIRECTORIES
.
Not included moc output files¶
moc
output files that are not included in a source file will be generated
in
<AUTOGEN_BUILD_DIR>/<SOURCE_DIR_CHECKSUM>
for single configuration generators or in,<AUTOGEN_BUILD_DIR>/include_<CONFIG>/<SOURCE_DIR_CHECKSUM>
formulti configuration
generators.
Where <SOURCE_DIR_CHECKSUM>
is a checksum computed from the relative
parent directory path of the moc
input file. This scheme allows to have
moc
input files with the same name in different directories.
All not included moc
output files will be included automatically by the
CMake generated file
<AUTOGEN_BUILD_DIR>/mocs_compilation.cpp
, or<AUTOGEN_BUILD_DIR>/mocs_compilation_$<CONFIG>.cpp
,
which is added to the target's sources.
Qt version detection¶
AUTOMOC
enabled targets need to know the Qt major and minor
version they're working with. The major version usually is provided by the
INTERFACE_QT_MAJOR_VERSION
property of the Qt[456]Core
library,
that the target links to. To find the minor version, CMake builds a list of
available Qt versions from
Qt6Core_VERSION_MAJOR
andQt6Core_VERSION_MINOR
variables (usually set byfind_package(Qt6...)
)Qt6Core_VERSION_MAJOR
andQt6Core_VERSION_MINOR
directory propertiesQt5Core_VERSION_MAJOR
andQt5Core_VERSION_MINOR
variables (usually set byfind_package(Qt5...)
)Qt5Core_VERSION_MAJOR
andQt5Core_VERSION_MINOR
directory propertiesQT_VERSION_MAJOR
andQT_VERSION_MINOR
variables (usually set byfind_package(Qt4...)
)QT_VERSION_MAJOR
andQT_VERSION_MINOR
directory properties
in the context of the add_executable()
or add_library()
call.
Assumed INTERFACE_QT_MAJOR_VERSION
is a valid number, the first
entry in the list with a matching major version is taken. If no matching major
version was found, an error is generated.
If INTERFACE_QT_MAJOR_VERSION
is not a valid number, the first
entry in the list is taken.
A find_package(Qt[456]...)
call sets the QT/Qt[56]Core_VERSION_MAJOR/MINOR
variables. If the call is in a different context than the
add_executable()
or add_library()
call, e.g. in a function,
then the version variables might not be available to the AUTOMOC
enabled target.
In that case the version variables can be forwarded from the
find_package(Qt[456]...)
calling context to the add_executable()
or add_library()
calling context as directory properties.
The following Qt5 example demonstrates the procedure.
function (add_qt5_client)
find_package(Qt5 REQUIRED QUIET COMPONENTS Core Widgets)
...
set_property(DIRECTORY "${CMAKE_CURRENT_SOURCE_DIR}"
PROPERTY Qt5Core_VERSION_MAJOR "${Qt5Core_VERSION_MAJOR}")
set_property(DIRECTORY "${CMAKE_CURRENT_SOURCE_DIR}"
PROPERTY Qt5Core_VERSION_MINOR "${Qt5Core_VERSION_MAJOR}")
...
endfunction ()
...
add_qt5_client()
add_executable(myTarget main.cpp)
target_link_libraries(myTarget Qt5::QtWidgets)
set_property(TARGET myTarget PROPERTY AUTOMOC ON)
Modifiers¶
AUTOMOC_EXECUTABLE
:
The moc
executable will be detected automatically, but can be forced to
a certain binary using this target property.
AUTOMOC_MOC_OPTIONS
:
Additional command line options for moc
can be set in this target property.
AUTOMOC_MACRO_NAMES
:
This list of Qt macro names can be extended to search for additional macros in
headers and sources.
AUTOMOC_DEPEND_FILTERS
:
moc
dependency file names can be extracted from headers or sources by
defining file name filters in this target property.
AUTOMOC_COMPILER_PREDEFINES
:
Compiler pre definitions for moc
are written to the moc_predefs.h
file.
The generation of this file can be enabled or disabled in this target property.
SKIP_AUTOMOC
:
Sources and headers can be excluded from AUTOMOC
processing by
setting this source file property.
SKIP_AUTOGEN
:
Source files can be excluded from AUTOMOC
,
AUTOUIC
and AUTORCC
processing by
setting this source file property.
AUTOGEN_SOURCE_GROUP
:
This global property can be used to group files generated by
AUTOMOC
or AUTORCC
together in an IDE, e.g. in MSVS.
AUTOGEN_TARGETS_FOLDER
:
This global property can be used to group AUTOMOC
,
AUTOUIC
and AUTORCC
targets together in an IDE,
e.g. in MSVS.
CMAKE_GLOBAL_AUTOGEN_TARGET
:
A global autogen
target, that depends on all AUTOMOC
or
AUTOUIC
generated The <ORIGIN>_autogen target targets in the project,
will be generated when this variable is ON
.
AUTOGEN_PARALLEL
:
This target property controls the number of moc
or uic
processes to
start in parallel during builds.
AUTOGEN_COMMAND_LINE_LENGTH_MAX
:
This target property controls the limit when to use response files for
moc
or uic
processes on Windows.
See the cmake-qt(7)
manual for more information on using CMake
with Qt.