WriteCompilerDetectionHeader¶
This module provides the function write_compiler_detection_header().
The WRITE_COMPILER_DETECTION_HEADER
function can be used to generate
a file suitable for preprocessor inclusion which contains macros to be
used in source code:
write_compiler_detection_header(
FILE <file>
PREFIX <prefix>
[OUTPUT_FILES_VAR <output_files_var> OUTPUT_DIR <output_dir>]
COMPILERS <compiler> [...]
FEATURES <feature> [...]
[VERSION <version>]
[PROLOG <prolog>]
[EPILOG <epilog>]
[ALLOW_UNKNOWN_COMPILERS]
[ALLOW_UNKNOWN_COMPILER_VERSIONS]
)
The write_compiler_detection_header
function generates the
file <file>
with macros which all have the prefix <prefix>
.
By default, all content is written directly to the <file>
. The
OUTPUT_FILES_VAR
may be specified to cause the compiler-specific
content to be written to separate files. The separate files are then
available in the <output_files_var>
and may be consumed by the caller
for installation for example. The OUTPUT_DIR
specifies a relative
path from the main <file>
to the compiler-specific files. For example:
write_compiler_detection_header(
FILE climbingstats_compiler_detection.h
PREFIX ClimbingStats
OUTPUT_FILES_VAR support_files
OUTPUT_DIR compilers
COMPILERS GNU Clang MSVC Intel
FEATURES cxx_variadic_templates
)
install(FILES
${CMAKE_CURRENT_BINARY_DIR}/climbingstats_compiler_detection.h
DESTINATION include
)
install(FILES
${support_files}
DESTINATION include/compilers
)
VERSION
may be used to specify the API version to be generated.
Future versions of CMake may introduce alternative APIs. A given
API is selected by any <version>
value greater than or equal
to the version of CMake that introduced the given API and less
than the version of CMake that introduced its succeeding API.
The value of the CMAKE_MINIMUM_REQUIRED_VERSION
variable is used if no explicit version is specified.
(As of CMake version 3.11.4 there is only one API version.)
PROLOG
may be specified as text content to write at the start of the
header. EPILOG
may be specified as text content to write at the end
of the header
At least one <compiler>
and one <feature>
must be listed. Compilers
which are known to CMake, but not specified are detected and a preprocessor
#error
is generated for them. A preprocessor macro matching
<PREFIX>_COMPILER_IS_<compiler>
is generated for each compiler
known to CMake to contain the value 0
or 1
.
Possible compiler identifiers are documented with the
CMAKE_<LANG>_COMPILER_ID
variable.
Available features in this version of CMake are listed in the
CMAKE_C_KNOWN_FEATURES
and
CMAKE_CXX_KNOWN_FEATURES
global properties.
The {c,cxx}_std_*
meta-features are ignored if requested.
See the cmake-compile-features(7)
manual for information on
compile features.
ALLOW_UNKNOWN_COMPILERS
and ALLOW_UNKNOWN_COMPILER_VERSIONS
cause
the module to generate conditions that treat unknown compilers as simply
lacking all features. Without these options the default behavior is to
generate a #error
for unknown compilers.
Feature Test Macros¶
For each compiler, a preprocessor macro is generated matching
<PREFIX>_COMPILER_IS_<compiler>
which has the content either 0
or 1
, depending on the compiler in use. Preprocessor macros for
compiler version components are generated matching
<PREFIX>_COMPILER_VERSION_MAJOR
<PREFIX>_COMPILER_VERSION_MINOR
and <PREFIX>_COMPILER_VERSION_PATCH
containing decimal values
for the corresponding compiler version components, if defined.
A preprocessor test is generated based on the compiler version
denoting whether each feature is enabled. A preprocessor macro
matching <PREFIX>_COMPILER_<FEATURE>
, where <FEATURE>
is the
upper-case <feature>
name, is generated to contain the value
0
or 1
depending on whether the compiler in use supports the
feature:
write_compiler_detection_header(
FILE climbingstats_compiler_detection.h
PREFIX ClimbingStats
COMPILERS GNU Clang AppleClang MSVC Intel
FEATURES cxx_variadic_templates
)
#if ClimbingStats_COMPILER_CXX_VARIADIC_TEMPLATES
template<typename... T>
void someInterface(T t...) { /* ... */ }
#else
// Compatibility versions
template<typename T1>
void someInterface(T1 t1) { /* ... */ }
template<typename T1, typename T2>
void someInterface(T1 t1, T2 t2) { /* ... */ }
template<typename T1, typename T2, typename T3>
void someInterface(T1 t1, T2 t2, T3 t3) { /* ... */ }
#endif
Symbol Macros¶
Some additional symbol-defines are created for particular features for use as symbols which may be conditionally defined empty:
class MyClass ClimbingStats_FINAL
{
ClimbingStats_CONSTEXPR int someInterface() { return 42; }
};
The ClimbingStats_FINAL
macro will expand to final
if the
compiler (and its flags) support the cxx_final
feature, and the
ClimbingStats_CONSTEXPR
macro will expand to constexpr
if cxx_constexpr
is supported.
The following features generate corresponding symbol defines:
Feature |
Define |
Symbol |
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Compatibility Implementation Macros¶
Some features are suitable for wrapping in a macro with a backward compatibility implementation if the compiler does not support the feature.
When the cxx_static_assert
feature is not provided by the compiler,
a compatibility implementation is available via the
<PREFIX>_STATIC_ASSERT(COND)
and
<PREFIX>_STATIC_ASSERT_MSG(COND, MSG)
function-like macros. The macros
expand to static_assert
where that compiler feature is available, and
to a compatibility implementation otherwise. In the first form, the
condition is stringified in the message field of static_assert
. In
the second form, the message MSG
is passed to the message field of
static_assert
, or ignored if using the backward compatibility
implementation.
The cxx_attribute_deprecated
feature provides a macro definition
<PREFIX>_DEPRECATED
, which expands to either the standard
[[deprecated]]
attribute or a compiler-specific decorator such
as __attribute__((__deprecated__))
used by GNU compilers.
The cxx_alignas
feature provides a macro definition
<PREFIX>_ALIGNAS
which expands to either the standard alignas
decorator or a compiler-specific decorator such as
__attribute__ ((__aligned__))
used by GNU compilers.
The cxx_alignof
feature provides a macro definition
<PREFIX>_ALIGNOF
which expands to either the standard alignof
decorator or a compiler-specific decorator such as __alignof__
used by GNU compilers.
Feature |
Define |
Symbol |
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A use-case which arises with such deprecation macros is the deprecation
of an entire library. In that case, all public API in the library may
be decorated with the <PREFIX>_DEPRECATED
macro. This results in
very noisy build output when building the library itself, so the macro
may be may be defined to empty in that case when building the deprecated
library:
add_library(compat_support ${srcs})
target_compile_definitions(compat_support
PRIVATE
CompatSupport_DEPRECATED=
)