GenerateExportHeaderΒΆ
Function for generation of export macros for libraries
This module provides the function GENERATE_EXPORT_HEADER().
The GENERATE_EXPORT_HEADER
function can be used to generate a file
suitable for preprocessor inclusion which contains EXPORT macros to be
used in library classes:
GENERATE_EXPORT_HEADER( LIBRARY_TARGET
[BASE_NAME <base_name>]
[EXPORT_MACRO_NAME <export_macro_name>]
[EXPORT_FILE_NAME <export_file_name>]
[DEPRECATED_MACRO_NAME <deprecated_macro_name>]
[NO_EXPORT_MACRO_NAME <no_export_macro_name>]
[INCLUDE_GUARD_NAME <include_guard_name>]
[STATIC_DEFINE <static_define>]
[NO_DEPRECATED_MACRO_NAME <no_deprecated_macro_name>]
[DEFINE_NO_DEPRECATED]
[PREFIX_NAME <prefix_name>]
[CUSTOM_CONTENT_FROM_VARIABLE <variable>]
)
The target properties CXX_VISIBILITY_PRESET
and VISIBILITY_INLINES_HIDDEN
can be used to add the appropriate
compile flags for targets. See the documentation of those target properties,
and the convenience variables
CMAKE_CXX_VISIBILITY_PRESET
and
CMAKE_VISIBILITY_INLINES_HIDDEN
.
By default GENERATE_EXPORT_HEADER()
generates macro names in a file
name determined by the name of the library. This means that in the
simplest case, users of GenerateExportHeader
will be equivalent to:
set(CMAKE_CXX_VISIBILITY_PRESET hidden)
set(CMAKE_VISIBILITY_INLINES_HIDDEN 1)
add_library(somelib someclass.cpp)
generate_export_header(somelib)
install(TARGETS somelib DESTINATION ${LIBRARY_INSTALL_DIR})
install(FILES
someclass.h
${PROJECT_BINARY_DIR}/somelib_export.h DESTINATION ${INCLUDE_INSTALL_DIR}
)
And in the ABI header files:
#include "somelib_export.h"
class SOMELIB_EXPORT SomeClass {
...
};
The CMake fragment will generate a file in the
${CMAKE_CURRENT_BINARY_DIR}
called somelib_export.h
containing the
macros SOMELIB_EXPORT
, SOMELIB_NO_EXPORT
, SOMELIB_DEPRECATED
,
SOMELIB_DEPRECATED_EXPORT
and SOMELIB_DEPRECATED_NO_EXPORT
.
They will be followed by content taken from the variable specified by
the CUSTOM_CONTENT_FROM_VARIABLE
option, if any.
The resulting file should be installed with other headers in the library.
The BASE_NAME
argument can be used to override the file name and the
names used for the macros:
add_library(somelib someclass.cpp)
generate_export_header(somelib
BASE_NAME other_name
)
Generates a file called other_name_export.h
containing the macros
OTHER_NAME_EXPORT
, OTHER_NAME_NO_EXPORT
and OTHER_NAME_DEPRECATED
etc.
The BASE_NAME
may be overridden by specifying other options in the
function. For example:
add_library(somelib someclass.cpp)
generate_export_header(somelib
EXPORT_MACRO_NAME OTHER_NAME_EXPORT
)
creates the macro OTHER_NAME_EXPORT
instead of SOMELIB_EXPORT
, but
other macros and the generated file name is as default:
add_library(somelib someclass.cpp)
generate_export_header(somelib
DEPRECATED_MACRO_NAME KDE_DEPRECATED
)
creates the macro KDE_DEPRECATED
instead of SOMELIB_DEPRECATED
.
If LIBRARY_TARGET
is a static library, macros are defined without
values.
If the same sources are used to create both a shared and a static
library, the uppercased symbol ${BASE_NAME}_STATIC_DEFINE
should be
used when building the static library:
add_library(shared_variant SHARED ${lib_SRCS})
add_library(static_variant ${lib_SRCS})
generate_export_header(shared_variant BASE_NAME libshared_and_static)
set_target_properties(static_variant PROPERTIES
COMPILE_FLAGS -DLIBSHARED_AND_STATIC_STATIC_DEFINE)
This will cause the export macros to expand to nothing when building the static library.
If DEFINE_NO_DEPRECATED
is specified, then a macro
${BASE_NAME}_NO_DEPRECATED
will be defined This macro can be used to
remove deprecated code from preprocessor output:
option(EXCLUDE_DEPRECATED "Exclude deprecated parts of the library" FALSE)
if (EXCLUDE_DEPRECATED)
set(NO_BUILD_DEPRECATED DEFINE_NO_DEPRECATED)
endif()
generate_export_header(somelib ${NO_BUILD_DEPRECATED})
And then in somelib:
class SOMELIB_EXPORT SomeClass
{
public:
#ifndef SOMELIB_NO_DEPRECATED
SOMELIB_DEPRECATED void oldMethod();
#endif
};
#ifndef SOMELIB_NO_DEPRECATED
void SomeClass::oldMethod() { }
#endif
If PREFIX_NAME
is specified, the argument will be used as a prefix to
all generated macros.
For example:
generate_export_header(somelib PREFIX_NAME VTK_)
Generates the macros VTK_SOMELIB_EXPORT
etc.
ADD_COMPILER_EXPORT_FLAGS( [<output_variable>] )
The ADD_COMPILER_EXPORT_FLAGS
function adds -fvisibility=hidden
to
CMAKE_CXX_FLAGS
if supported, and is a no-op
on Windows which does not need extra compiler flags for exporting support.
You may optionally pass a single argument to ADD_COMPILER_EXPORT_FLAGS
that will be populated with the CXX_FLAGS
required to enable visibility
support for the compiler/architecture in use.
This function is deprecated. Set the target properties
CXX_VISIBILITY_PRESET
and
VISIBILITY_INLINES_HIDDEN
instead.