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CMakeLists.txt
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CMakeLists.txt
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cmake_minimum_required(VERSION 3.20)
# We will use cmake_path for file-name manipulation
list(APPEND CMAKE_MESSAGE_CONTEXT "sisl")
message(STATUS "Building with CMake version: ${CMAKE_VERSION}")
if(SKBUILD)
message(STATUS "Building with scikit-build-core: ${SKBUILD_CORE_VERSION}")
endif()
project(sisl
DESCRIPTION "Cythonized or fortran codes"
HOMEPAGE_URL "https://github.com/zerothi/sisl"
LANGUAGES C
# cmake requires a version of X.Y.Z or some other form, it does not accept setuptools_scm dirty tags
# VERSION "${SKBUILD_PROJECT_VERSION}"
)
# Print out the discovered paths
include(CMakePrintHelpers)
# Enable python packages
find_package(Python COMPONENTS
Interpreter
Development.Module
NumPy # needed for f2py
REQUIRED)
# Retrive the cython executable
message(STATUS "Locating Cython executable")
find_program(CYTHON_EXECUTABLE "cython" REQUIRED)
execute_process(COMMAND
"${CYTHON_EXECUTABLE}" --version
OUTPUT_QUIET
OUTPUT_VARIABLE CYTHON_VERSION
RESULT_VARIABLE CYTHON_VERSION_ERR
OUTPUT_STRIP_TRAILING_WHITESPACE)
# Print it out
message(STATUS "Cython version information [${CYTHON_EXECUTABLE} --version]: ${CYTHON_VERSION}")
if(CYTHON_VERSION_ERR)
message(SEND_ERROR "ERROR: Cython version detection failed, this might be problematic")
endif()
# Define global definitions
# We will never use the deprecated API any-more
add_compile_definitions(NPY_NO_DEPRECATED_API=0)
add_compile_definitions(CYTHON_NO_PYINIT_EXPORT=1)
# All libraries in sisl will *not* be prefixed with
#: lib, perhaps we should change this
set(CMAKE_SHARED_MODULE_PREFIX "")
# Determine whether we are in CIBUILDWHEEL
# and whether we are building for the universal target
set(_def_fortran TRUE)
if( APPLE AND
"$ENV{CIBUILDWHEEL}" STREQUAL "1" AND
"$ENV{CIBW_ARCHS}" MATCHES "(universal2|arm64)")
# Disable fortran here, it shouldn't be needed
set(_def_fortran FALSE)
endif()
option(WITH_FORTRAN
"Whether to compile and ship fortran sources (default True)" ${_def_fortran})
# Define all options for the user
if( WITH_FORTRAN )
set(F2PY_REPORT_ON_ARRAY_COPY 10
CACHE STRING
"The minimum (element) size of arrays before warning about copies")
option(WITH_F2PY_REPORT_COPY
"Add instructions to track f2py-copies on routine calls use -DF2PY_REPORT_ON_ARRAY_COPY=<int> as well" FALSE)#
option(WITH_F2PY_REPORT_EXIT
"Report timings on routine exits" FALSE)
endif()
option(WITH_COVERAGE
"Add instructions for coverage in Cython files" FALSE)
option(WITH_LINE_DIRECTIVES
"Create line-directives in cythonized sources" FALSE)
option(WITH_ANNOTATE
"Create html file outputs that can be used for figuring out performance bottlenecks in cython sources" FALSE)
option(WITH_GDB
"Add GDB-enabled Cython sources" FALSE)
message(STATUS "Compilation flags")
list(APPEND CMAKE_MESSAGE_INDENT " ")
set(CC $ENV{CC})
set(CFLAGS $ENV{CFLAGS})
cmake_print_variables(CC)
cmake_print_variables(CFLAGS)
cmake_print_variables(CMAKE_C_COMPILER)
cmake_print_variables(CMAKE_C_FLAGS)
set(CXX $ENV{CXX})
set(CXXFLAGS $ENV{CXXFLAGS})
cmake_print_variables(CXX)
cmake_print_variables(CXXFLAGS)
cmake_print_variables(CMAKE_CXX_COMPILER)
cmake_print_variables(CMAKE_CXX_FLAGS)
if(WITH_FORTRAN)
set(FC $ENV{FC})
set(FFLAGS $ENV{FFLAGS})
cmake_print_variables(FC)
cmake_print_variables(FFLAGS)
cmake_print_variables(CMAKE_Fortran_COMPILER)
cmake_print_variables(CMAKE_Fortran_FLAGS)
endif()
set(ARCHFLAGS $ENV{ARCHFLAGS})
cmake_print_variables(ARCHFLAGS)
if( APPLE )
cmake_print_variables(CMAKE_OSX_ARCHITECTURES)
cmake_print_variables(CMAKE_APPLE_ARCH_SYSROOTS)
cmake_print_variables(CMAKE_OSX_SYSROOT_PATH)
elseif( WIN32 )
# When building using a Python not compiled with the same compiler,
# we then need to add this definition to pybass a Cython problem
# See https://github.com/cython/cython/issues/3405
add_compile_definitions(MS_WIN64)
endif()
list(POP_BACK CMAKE_MESSAGE_INDENT)
# Parse Cython global options
if(WITH_COVERAGE)
add_compile_definitions(CYTHON_TRACE_NOGIL=1)
endif()
if(WITH_ANNOTATE)
list(APPEND CYTHON_FLAGS --annotate)
endif()
if(WITH_LINE_DIRECTIVES)
list(APPEND CYTHON_FLAGS --line-directives)
endif()
if(WITH_GDB)
list(APPEND CYTHON_FLAGS --gdb)
endif()
# Decide for fortran stuff
if(WITH_FORTRAN)
# Enable Fortran language
enable_language(Fortran)
# Retrieve header information
# Define f2py executable
set(F2PY_EXECUTABLE "${PYTHON_EXECUTABLE}" -m numpy.f2py)
# Get numpy.f2py header
set(Python_NumPy_F2Py_INCLUDE_DIR)
foreach(dir IN LISTS Python_NumPy_INCLUDE_DIRS)
if(IS_DIRECTORY "${dir}/../../f2py/src")
set(Python_NumPy_F2Py_INCLUDE_DIR "${dir}/../../f2py/src")
break()
endif()
endforeach()
if(NOT Python_NumPy_F2Py_INCLUDE_DIR)
message(STATUS "Could not locate f2py sources in ${NumPy_NumPy_INCLUDE_DIRS}/../../f2py/src/ trying numpy.f2py.get_include()")
execute_process(COMMAND
"${PYTHON_EXECUTABLE}" -c "import numpy.f2py; print(numpy.f2py.get_include())"
OUTPUT_VARIABLE Python_NumPy_F2Py_INCLUDE_DIR
RESULT_VARIABLE NumPy_F2Py_ERR
OUTPUT_STRIP_TRAILING_WHITESPACE)
if(NumPy_F2Py_ERR)
message(SEND_ERROR "ERROR: NumPy.F2PY header not found (${err}), looked in: ${NumPy_NumPy_INCLUDE_DIRS}/../../f2py/src.")
endif()
endif()
# f2py requires a basic object
add_library(f2py_fortranobject OBJECT "${Python_NumPy_F2Py_INCLUDE_DIR}/fortranobject.c")
target_link_libraries(f2py_fortranobject PUBLIC Python::NumPy)
target_include_directories(f2py_fortranobject PUBLIC "${Python_NumPy_F2Py_INCLUDE_DIR}")
set_property(TARGET f2py_fortranobject PROPERTY POSITION_INDEPENDENT_CODE ON)
set(F2PY_LIBRARIES f2py_fortranobject)
if(WITH_F2PY_REPORT_EXIT)
target_compile_definitions(f2py_fortranobject PRIVATE F2PY_REPORT_ATEXIT)
endif()
if(WITH_F2PY_REPORT_COPY)
target_compile_definitions(f2py_fortranobject PRIVATE F2PY_REPORT_ON_ARRAY_COPY=${F2PY_REPORT_ON_ARRAY_COPY})
endif()
endif(WITH_FORTRAN)
message(STATUS "sisl options")
list(APPEND CMAKE_MESSAGE_INDENT " ")
cmake_print_variables(WITH_COVERAGE)
cmake_print_variables(WITH_ANNOTATE)
cmake_print_variables(WITH_LINE_DIRECTIVES)
cmake_print_variables(WITH_GDB)
cmake_print_variables(WITH_FORTRAN)
if(WITH_FORTRAN)
cmake_print_variables(WITH_F2PY_REPORT_COPY)
if(WITH_F2PY_REPORT_COPY)
cmake_print_variables(F2PY_REPORT_ON_ARRAY_COPY)
endif()
cmake_print_variables(WITH_F2PY_REPORT_EXIT)
endif()
list(POP_BACK CMAKE_MESSAGE_INDENT)
message(STATUS "Python variables:")
list(APPEND CMAKE_MESSAGE_INDENT " ")
cmake_print_variables(Python_INCLUDE_DIRS)
cmake_print_variables(Python_NumPy_INCLUDE_DIRS)
if(WITH_FORTRAN)
cmake_print_variables(Python_NumPy_F2Py_INCLUDE_DIR)
endif()
list(POP_BACK CMAKE_MESSAGE_INDENT)
# Document the properties that we are dealing with
# user-added properties on individual files
define_property(SOURCE
PROPERTY SISL_SIGNATURE_SKIP
BRIEF_DOCS "Pass which subroutines/functions to skip in the signature generation of a source file (in create_f2py_signature)"
FULL_DOCS "See BRIEF_DOCS"
)
define_property(SOURCE
PROPERTY SISL_SIGNATURE_ONLY
BRIEF_DOCS "Pass which subroutines/functions to retain (skip the rest) in the signature generation of a source file (in create_f2py_signature)"
FULL_DOCS "See BRIEF_DOCS"
)
define_property(SOURCE
PROPERTY SISL_GENERATE_TARGET
BRIEF_DOCS "The target that generates a specific file, be it Cython or f2py signature file. Can be used for dependency management"
FULL_DOCS "See BRIEF_DOCS"
)
define_property(SOURCE
PROPERTY SISL_MODULE_NAME
BRIEF_DOCS "The module name passed when the signature file was created (necessary to be equivalent in the library creation"
FULL_DOCS "See BRIEF_DOCS"
)
define_property(SOURCE
PROPERTY SISL_FROM_SOURCES
BRIEF_DOCS "The sources that generated the signature file in create_f2py_signature; automatic usage of these sources in add_f2py_library"
FULL_DOCS "See BRIEF_DOCS"
)
function(sisl_has_substring _bool _string _substring)
string(FIND "${_string}" "${_substring}" index)
if(${index} EQUAL -1)
set(${_bool} FALSE PARENT_SCOPE)
else()
set(${_bool} TRUE PARENT_SCOPE)
endif()
endfunction()
function(sisl_file_as_gentarget _name _output)
if(IS_ABSOLUTE "${_name}")
# shorten the generated target (easier on debugging)
# But we retain the tree-structure of the current build directory
cmake_path(RELATIVE_PATH _name
BASE_DIRECTORY "${PROJECT_BINARY_DIR}"
OUTPUT_VARIABLE _name_rel)
else()
set(_name_rel "${_name}")
endif()
string(REPLACE "/" "_" gen_signature "gen_${_name_rel}")
string(REPLACE " " "_" gen_signature "${gen_signature}")
set(${_output} ${gen_signature} PARENT_SCOPE)
endfunction()
# Define a function for cythonizing sources
# All source-files generated with cython are expected to depend
# on numpy, the include-folder will at least be forcefully
# added.
# We might consider adding an option to disable it, but for
# now this is fine.
function(add_cython_library)
set(options ANNOTATE GDB LINE_DIRECTIVES CXX)
set(oneValueArgs
SOURCE # in
LIBRARY # out
# these are optional
CYTHON_EXECUTABLE # in[opt]
OUTPUT # out[opt]
)
set(multiValueArgs
CYTHON_FLAGS # in[opt]
INCLUDE_DIRS # in[opt]
DEPENDS # in[opt]
)
# Parse arguments
cmake_parse_arguments(_c "${options}" "${oneValueArgs}" "${multiValueArgs}" ${ARGN})
# Figure out the source file
if(NOT DEFINED _c_SOURCE)
list(GET _c_UNPARSED_ARGUMENTS 0 _c_SOURCE)
endif()
# Parse simple flags
if(NOT DEFINED _c_CYTHON_EXECUTABLE)
set(_c_CYTHON_EXECUTABLE "${CYTHON_EXECUTABLE}")
endif()
if(NOT DEFINED _c_CYTHON_FLAGS)
set(_c_CYTHON_FLAGS "-3" ${CYTHON_FLAGS})
endif()
# Figure out the extension and convert to proper extension
cmake_path(GET _c_SOURCE STEM LAST_ONLY _c_SOURCE_stem)
# Define the C- source
if( _c_CXX )
set(_c_is_c FALSE)
set(_output_ext "cxx")
list(APPEND _c_CYTHON_FLAGS --cplus)
else()
set(_c_is_c TRUE)
set(_output_ext "c")
endif()
set(_c_output_base "${_c_SOURCE_stem}.${_output_ext}")
set(_c_output_full "${CMAKE_CURRENT_BINARY_DIR}/${_c_output_base}")
if(DEFINED _c_OUTPUT)
# return in output the source file
set(${_c_OUTPUT} "${_c_output_full}" PARENT_SCOPE)
endif()
# storage of comment
set(_comment "Cythonizing source ${_c_SOURCE} into ${_c_output_base}")
if( _c_ANNOTATE )
list(APPEND _c_CYTHON_FLAGS --annotate)
endif()
sisl_has_substring(_has "${_c_CYTHON_FLAGS}" "--annotate")
if(_has)
set(_comment "${_comment} | annotation")
endif()
if( _c_GDB )
list(APPEND _c_CYTHON_FLAGS --gdb)
endif()
sisl_has_substring(_has "${_c_CYTHON_FLAGS}" "--gdb")
if(_has)
set(_comment "${_comment} | GDB")
endif()
if( _c_LINE_DIRECTIVES )
list(APPEND _c_CYTHON_FLAGS --line-directives)
endif()
sisl_has_substring(_has "${_c_CYTHON_FLAGS}" "--line-directives")
if(_has)
set(_comment "${_comment} | line-directives")
endif()
# ensure no two flags will be present
list(REMOVE_DUPLICATES _c_CYTHON_FLAGS)
# Add include directories
foreach(dir IN LISTS _c_INCLUDE_DIRS)
if(IS_DIRECTORY "${dir}")
list(APPEND _c_CYTHON_FLAGS "-I ${dir}")
else()
message(WARNING "Trying to add include dir: ${dir} but the folder does not exist?")
endif()
endforeach()
# Now we have everything
sisl_file_as_gentarget(${_c_output_full} _gen_target)
add_custom_target(${_gen_target} DEPENDS "${_c_output_full}")
add_custom_command(
OUTPUT "${_c_output_full}"
DEPENDS ${_c_SOURCE} ${_c_DEPENDS}
COMMAND "${_c_CYTHON_EXECUTABLE}" "${_c_CYTHON_FLAGS}" --output-file "${_c_output_full}" "${_c_SOURCE}"
WORKING_DIRECTORY "${CMAKE_CURRENT_SOURCE_DIR}"
VERBATIM
# this handles the spaces from the c_CYTHON_FLAGS list
COMMAND_EXPAND_LISTS
COMMENT "${_comment}"
)
# Define it has numpy
set_source_files_properties("${_c_output_full}"
PROPERTIES
SISL_GENERATE_TARGET "${_gen_target}"
INCLUDE_DIRECTORIES "${Python_NumPy_INCLUDE_DIRS}"
)
# now we have a source file, lets create a library if required
if(DEFINED _c_LIBRARY)
python_add_library(${_c_LIBRARY} WITH_SOABI
MODULE "${_c_output_full}")
# ensure direct dependency on the source generator (for parallel builds)
add_dependencies(${_c_LIBRARY} ${_gen_target})
endif()
endfunction(add_cython_library)
function(create_f2py_signature)
set(options)
set(oneValueArgs
SIGNATURE # in
MODULE # in
F2PY_EXECUTABLE # in[opt]
OUTPUT
)
set(multiValueArgs
SOURCES # in could be foo.f only:bar bar2:
DEPENDS # in[opt]
F2PY_FLAGS # in[opt]
)
cmake_parse_arguments(_f "${options}" "${oneValueArgs}" "${multiValueArgs}" ${ARGN})
# We do not check whether the required arguments are added
# Check arguments
if(NOT IS_ABSOLUTE "${_f_SIGNATURE}")
set(_f_SIGNATURE "${CMAKE_CURRENT_BINARY_DIR}/${_f_SIGNATURE}")
endif()
# get full relative path (from current source dir)
cmake_path(RELATIVE_PATH _f_SIGNATURE
OUTPUT_VARIABLE _f_signature_rel)
# add signature file output and the module name
list(PREPEND _f_F2PY_FLAGS "-h" "${_f_SIGNATURE}")
list(PREPEND _f_F2PY_FLAGS "-m" "${_f_MODULE}")
if(NOT DEFINED _f_F2PY_EXECUTABLE)
set(_f_F2PY_EXECUTABLE "${F2PY_EXECUTABLE}")
endif()
# Create the full-path sources
macro(config_prefix prefix var)
if(${var})
message(VERBOSE "${name}[${prefix}]: ${${var}}")
set(${var} ${prefix}: ${${var}} :)
else()
# clear
unset(${var})
endif()
endmacro()
macro(get_config source)
get_filename_component(name "${source}" NAME)
get_source_file_property(s_skip "${name}" SISL_SIGNATURE_SKIP)
config_prefix("skip" s_skip)
get_source_file_property(s_only "${name}" SISL_SIGNATURE_ONLY)
config_prefix("only" s_only)
endmacro()
set(_sources)
set(_sources_all)
foreach(s IN LISTS _f_SOURCES)
get_config("${s}")
if(IS_ABSOLUTE "${s}")
list(APPEND _sources "${s}")
list(APPEND _sources_all "${s}")
elseif(EXISTS "${CMAKE_CURRENT_SOURCE_DIR}/${s}")
list(APPEND _sources "${CMAKE_CURRENT_SOURCE_DIR}/${s}")
list(APPEND _sources_all "${CMAKE_CURRENT_SOURCE_DIR}/${s}")
else()
# this will add the only|skip: : segments, if present
# Since the skip:...: is generally quoted, we will ensure
# unpacking it.
separate_arguments(seg UNIX_COMMAND ${s})
list(APPEND _sources_all ${seg})
endif()
# Add the properties of the signature handling
list(APPEND _sources_all ${seg} ${s_skip} ${s_only})
endforeach()
sisl_file_as_gentarget(${_f_SIGNATURE} _gen_target)
add_custom_target(${_gen_target} DEPENDS "${_f_SIGNATURE}")
add_custom_command(
OUTPUT "${_f_SIGNATURE}"
COMMAND "${_f_F2PY_EXECUTABLE}" "${_f_F2PY_FLAGS}" "${_sources_all}"
WORKING_DIRECTORY "${CMAKE_CURRENT_BINARY_DIR}"
DEPENDS ${_sources} ${_f_DEPENDS}
COMMENT "Generating signature file ${_f_signature_rel}"
VERBATIM
COMMAND_EXPAND_LISTS
)
# Set the module name property, so it is easier to deal with defaults
set_source_files_properties("${_f_SIGNATURE}"
PROPERTIES
SISL_GENERATE_TARGET ${_gen_target}
SISL_MODULE_NAME "${_f_MODULE}"
SISL_FROM_SOURCES "${_sources}"
GENERATED TRUE
)
if(DEFINED _f_OUTPUT)
set(${_f_OUTPUT} "${_f_SIGNATURE}" PARENT_SCOPE)
endif()
endfunction(create_f2py_signature)
# Create a library from a previously created f2py signature file.
# If this signature file has been created from `create_f2py_signature` the command is very
# simple as there are properties set on the signature file enabling full automatic discovery.
#
# Create a library from a f2py signature created file
# Note that.
# For fortran 77 files we have this:
# Input file blah.f
# Generates
# blahmodule.c
# blah-f2pywrappers.f
# When no COMMON blocks are present only a C wrapper file is generated. Wrappers are also generated to rewrite assumed shape arrays as automatic arrays.
# For fortran 90 files we have this:
# Input file blah.f90
# Generates:
# blahmodule.c
# blah-f2pywrappers.f
# blah-f2pywrappers2.f90
# The f90 wrapper is used to handle code which is subdivided into modules. The f wrapper makes subroutines for functions. It rewrites assumed shape arrays as automatic arrays.
# When WITH_COMMON is present, it means that some of the f files present will have common blocks
# When WITH_FUNCTIONS is present, it means that some of the f90 files present will have functions that will be wrapped in the .f file.
# When WITHOUT_MODULES is present the f90 file will be generated
# The code will adapt which wrappers are generated
function(add_f2py_library)
set(options WITH_F_WRAPPER WITH_F90_WRAPPER)
set(oneValueArgs
SIGNATURE # in
LIBRARY # in[opt] default to module name
MODULE # in[opt] default to get_property({SIGNATURE} SISL_MODULE_NAME)
F2PY_EXECUTABLE # in[opt]
F2PY_FLAGS # in[opt]
OUTPUTS # out
)
set(multiValueArgs
SOURCES # in[opt] addition to get_property({SIGNATURE} SISL_FROM_SOURCES)
DEPENDS # in[opt]
)
cmake_parse_arguments(_f "${options}" "${oneValueArgs}" "${multiValueArgs}" ${ARGN})
# Retrive module name
if(NOT DEFINED _f_MODULE)
get_source_file_property(_f_MODULE "${_f_SIGNATURE}" SISL_MODULE_NAME)
endif()
if(NOT _f_MODULE)
message(SEND_ERROR "add_f2py_library missing MODULE argument and/or the signature file misses the property SISL_MODULE_NAME")
endif()
if(NOT DEFINED _f_LIBRARY)
set(_f_LIBRARY "${_f_MODULE}")
endif()
get_source_file_property(_sig_SOURCES "${_f_SIGNATURE}" SISL_FROM_SOURCES)
# Add signature sources
list(PREPEND _f_SOURCES ${_sig_SOURCES})
# If the user has accidentially supplide duplicates, lets remove them
list(REMOVE_DUPLICATES _f_SOURCES)
# retrieve the signatures target creator
get_source_file_property(_gen_signature_target "${_f_SIGNATURE}" SISL_GENERATE_TARGET)
if(NOT DEFINED _f_F2PY_EXECUTABLE)
set(_f_F2PY_EXECUTABLE "${F2PY_EXECUTABLE}")
endif()
# get current path relative to the project top-directory
cmake_path(RELATIVE_PATH CMAKE_CURRENT_SOURCE_DIR
BASE_DIRECTORY "${CMAKE_PROJECT_DIR}"
OUTPUT_VARIABLE _current_rel_path)
# Search for source files whether there are f or f90 files
# and also which wrappers are generated based on input
set(_has_f FALSE)
set(_has_f90 FALSE)
set(_has_unknown)
foreach(f IN LISTS _sig_SOURCES)
cmake_path(GET f EXTENSION LAST_ONLY ext)
if(${ext} STREQUAL ".f")
set(_has_f TRUE)
elseif(${ext} STREQUAL ".f90")
set(_has_f90 TRUE)
else()
list(APPEND _has_unknown ${ext})
endif()
endforeach()
if(_has_unknown)
message(WARNING "Unknown extensions (${_has_unknown}) found for library ${_f_LIBRARY} (module: ${_f_MODULE})")
endif()
set(_wrappers)
if(_f_WITH_F_WRAPPER)
list(APPEND _wrappers "${CMAKE_CURRENT_BINARY_DIR}/${_f_MODULE}-f2pywrappers.f")
endif()
if(_f_WITH_F90_WRAPPER)
list(APPEND _wrappers "${CMAKE_CURRENT_BINARY_DIR}/${_f_MODULE}-f2pywrappers2.f90")
endif()
#set(_wrappers)
#if(_has_f)
# if(_f_WITH_COMMON)
# list(APPEND _wrappers "${CMAKE_CURRENT_BINARY_DIR}/${_f_MODULE}-f2pywrappers.f")
# endif()
#endif()
#if(_has_f90)
# if(NOT _f_WITHOUT_MODULES)
# list(APPEND _wrappers "${CMAKE_CURRENT_BINARY_DIR}/${_f_MODULE}-f2pywrappers2.f90")
# endif()
# if(_f_WITH_FUNCTIONS)
# list(APPEND _wrappers "${CMAKE_CURRENT_BINARY_DIR}/${_f_MODULE}-f2pywrappers.f")
# endif()
#endif()
list(REMOVE_DUPLICATES _wrappers)
# default to a C output, I don't think f2py can do anything differently
set(extension "c")
set(_module_file "${CMAKE_CURRENT_BINARY_DIR}/${_f_MODULE}module.${extension}")
# add custom target to allow parallel builds
sisl_file_as_gentarget("${_module_file}" _gen_target)
add_custom_target(${_gen_target} DEPENDS "${_module_file}")
add_custom_command(
OUTPUT "${_module_file}"
BYPRODUCTS "${_wrappers}"
DEPENDS ${_f_SOURCES} ${_f_DEPENDS} "${_f_SIGNATURE}" ${_gen_signature_target}
COMMAND "${_f_F2PY_EXECUTABLE}" "${_f_F2PY_FLAGS}" "${_f_SIGNATURE}" "--lower"
WORKING_DIRECTORY "${CMAKE_CURRENT_BINARY_DIR}"
COMMAND_EXPAND_LISTS
VERBATIM
COMMENT "Generating module file from signature ${_f_SIGNATURE}"
)
python_add_library(${_f_LIBRARY} WITH_SOABI
MODULE "${_module_file}" ${_f_SOURCES} ${_wrappers}
)
target_link_libraries(${_f_LIBRARY} PRIVATE ${F2PY_LIBRARIES})
# ensure direct dependency on the source generator (for parallel builds)
add_dependencies(${_f_LIBRARY} ${_gen_target})
if(DEFINED _f_OUTPUTS)
set(${_f_OUTPUTS} "${_module_file}" ${_wrappers}
PARENT_SCOPE)
endif()
endfunction(add_f2py_library)
# Add the sisl directory (nested CMakeLists.txt files)
add_subdirectory("src")