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pigweed / pigweed / pigweed / refs/heads/main / . / pw_build / pigweed.cmake
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# Copyright 2020 The Pigweed Authors
#
# Licensed under the Apache License, Version 2.0 (the "License"); you may not
# use this file except in compliance with the License. You may obtain a copy of
# the License at
#
# https://www.apache.org/licenses/LICENSE-2.0
#
# Unless required by applicable law or agreed to in writing, software
# distributed under the License is distributed on an "AS IS" BASIS, WITHOUT
# WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. See the
# License for the specific language governing permissions and limitations under
# the License.
include_guard(GLOBAL)
cmake_minimum_required(VERSION 3.19)
# The PW_ROOT environment variable should be set in bootstrap. If it is not set,
# set it to the root of the Pigweed repository.
if("$ENV{PW_ROOT}" STREQUAL "")
get_filename_component(pw_root "${CMAKE_CURRENT_LIST_DIR}/.." ABSOLUTE)
message("The PW_ROOT environment variable is not set; "
"using ${pw_root} within CMake")
set(ENV{PW_ROOT} "${pw_root}")
endif()
# TOOD(ewout, hepler): Remove this legacy include once all users pull in
# pw_unit_test/test.cmake for test functions and variables instead of relying
# on them to be provided by pw_build/pigweed.cmake.
include("$ENV{PW_ROOT}/pw_unit_test/test.cmake")
# Wrapper around cmake_parse_arguments that fails with an error if any arguments
# remained unparsed or a required argument was not provided.
#
# All parsed arguments are prefixed with "arg_". This helper can only be used
# by functions, not macros.
#
# Required Arguments:
#
# NUM_POSITIONAL_ARGS - PARSE_ARGV <N> arguments for
# cmake_parse_arguments
#
# Optional Args:
#
# OPTION_ARGS - <option> arguments for cmake_parse_arguments
# ONE_VALUE_ARGS - <one_value_keywords> arguments for cmake_parse_arguments
# MULTI_VALUE_ARGS - <multi_value_keywords> arguments for
# cmake_parse_arguments
# REQUIRED_ARGS - required arguments which must be set, these may any
# argument type (<option>, <one_value_keywords>, and/or
# <multi_value_keywords>)
#
macro(pw_parse_arguments)
# First parse the arguments to this macro.
cmake_parse_arguments(
pw_parse_arg "" "NUM_POSITIONAL_ARGS"
"OPTION_ARGS;ONE_VALUE_ARGS;MULTI_VALUE_ARGS;REQUIRED_ARGS"
${ARGN}
)
pw_require_args("pw_parse_arguments" "pw_parse_arg_" NUM_POSITIONAL_ARGS)
if(NOT "${pw_parse_arg_UNPARSED_ARGUMENTS}" STREQUAL "")
message(FATAL_ERROR "Unexpected arguments to pw_parse_arguments: "
"${pw_parse_arg_UNPARSED_ARGUMENTS}")
endif()
# Now that we have the macro's arguments, process the caller's arguments.
pw_parse_arguments_strict("${CMAKE_CURRENT_FUNCTION}"
"${pw_parse_arg_NUM_POSITIONAL_ARGS}"
"${pw_parse_arg_OPTION_ARGS}"
"${pw_parse_arg_ONE_VALUE_ARGS}"
"${pw_parse_arg_MULTI_VALUE_ARGS}"
)
pw_require_args("${CMAKE_CURRENT_FUNCTION}" "arg_"
${pw_parse_arg_REQUIRED_ARGS})
endmacro()
# TODO(ewout, hepler): Deprecate this function in favor of pw_parse_arguments.
# Wrapper around cmake_parse_arguments that fails with an error if any arguments
# remained unparsed.
macro(pw_parse_arguments_strict function start_arg options one multi)
cmake_parse_arguments(PARSE_ARGV
"${start_arg}" arg "${options}" "${one}" "${multi}"
)
if(NOT "${arg_UNPARSED_ARGUMENTS}" STREQUAL "")
set(_all_args ${options} ${one} ${multi})
message(FATAL_ERROR
"Unexpected arguments to ${function}: ${arg_UNPARSED_ARGUMENTS}\n"
"Valid arguments: ${_all_args}"
)
endif()
endmacro()
# Checks that one or more variables are set. This is used to check that
# arguments were provided to a function. Fails with FATAL_ERROR if
# ${ARG_PREFIX}${name} is empty. The FUNCTION_NAME is used in the error message.
# If FUNCTION_NAME is "", it is set to CMAKE_CURRENT_FUNCTION.
#
# Usage:
#
# pw_require_args(FUNCTION_NAME ARG_PREFIX ARG_NAME [ARG_NAME ...])
#
# Examples:
#
# # Checks that arg_FOO is non-empty, using the current function name.
# pw_require_args("" arg_ FOO)
#
# # Checks that FOO and BAR are non-empty, using function name "do_the_thing".
# pw_require_args(do_the_thing "" FOO BAR)
#
macro(pw_require_args FUNCTION_NAME ARG_PREFIX)
if("${FUNCTION_NAME}" STREQUAL "")
set(_pw_require_args_FUNCTION_NAME "${CMAKE_CURRENT_FUNCTION}")
else()
set(_pw_require_args_FUNCTION_NAME "${FUNCTION_NAME}")
endif()
foreach(name IN ITEMS ${ARGN})
if("${${ARG_PREFIX}${name}}" STREQUAL "")
message(FATAL_ERROR "A value must be provided for ${name} in "
"${_pw_require_args_FUNCTION_NAME}.")
endif()
endforeach()
endmacro()
# pw_target_link_targets: CMake target only form of target_link_libraries.
#
# Helper wrapper around target_link_libraries which only supports CMake targets
# and detects when the target does not exist.
#
# NOTE: Generator expressions are not supported.
#
# Due to the processing order of list files, the list of targets has to be
# checked at the end of the root CMake list file. Instead of requiring all
# list files to be modified, a DEFER CALL is used.
#
# Required Args:
#
# <name> - The library target to add the TARGET link dependencies to.
#
# Optional Args:
#
# INTERFACE - interface target_link_libraries arguments which are all TARGETs.
# PUBLIC - public target_link_libraries arguments which are all TARGETs.
# PRIVATE - private target_link_libraries arguments which are all TARGETs.
function(pw_target_link_targets NAME)
set(types INTERFACE PUBLIC PRIVATE )
pw_parse_arguments(
NUM_POSITIONAL_ARGS
1
MULTI_VALUE_ARGS
${types}
)
if(NOT TARGET "${NAME}")
message(FATAL_ERROR "\"${NAME}\" must be a TARGET library")
endif()
foreach(type IN LISTS types)
foreach(library IN LISTS arg_${type})
target_link_libraries(${NAME} ${type} ${library})
if(NOT TARGET ${library})
# It's possible the target has not yet been defined due to the ordering
# of add_subdirectory. Ergo defer the call until the end of the
# configuration phase.
# cmake_language(DEFER ...) evaluates arguments at the time the deferred
# call is executed, ergo wrap it in a cmake_language(EVAL CODE ...) to
# evaluate the arguments now. The arguments are wrapped in brackets to
# avoid re-evaluation at the deferred call.
cmake_language(EVAL CODE
"cmake_language(DEFER DIRECTORY ${CMAKE_SOURCE_DIR} CALL
_pw_target_link_targets_deferred_check
[[${NAME}]] [[${type}]] ${library})"
)
endif()
endforeach()
endforeach()
endfunction()
# Runs any deferred library checks for pw_target_link_targets.
#
# Required Args:
#
# <name> - The name of the library target to add the link dependencies to.
# <type> - The type of the library (INTERFACE, PUBLIC, PRIVATE).
# <library> - The library to check to assert it's a TARGET.
function(_pw_target_link_targets_deferred_check NAME TYPE LIBRARY)
if(NOT TARGET ${LIBRARY})
message(FATAL_ERROR
"${NAME}'s ${TYPE} dep \"${LIBRARY}\" is not a target.")
endif()
endfunction()
# Sets the provided variable to the multi_value_keywords from pw_add_library.
macro(_pw_add_library_multi_value_args variable)
set("${variable}" SOURCES HEADERS
PUBLIC_DEPS PRIVATE_DEPS
PUBLIC_INCLUDES PRIVATE_INCLUDES
PUBLIC_DEFINES PRIVATE_DEFINES
PUBLIC_COMPILE_OPTIONS PRIVATE_COMPILE_OPTIONS
PUBLIC_LINK_OPTIONS PRIVATE_LINK_OPTIONS "${ARGN}")
endmacro()
# pw_add_library_generic: Creates a CMake library target.
#
# Required Args:
#
# <name> - The name of the library target to be created.
# <type> - The library type which must be INTERFACE, OBJECT, STATIC, or
# SHARED.
#
# Optional Args:
#
# SOURCES - source files for this library
# HEADERS - header files for this library
# PUBLIC_DEPS - public pw_target_link_targets arguments
# PRIVATE_DEPS - private pw_target_link_targets arguments
# PUBLIC_INCLUDES - public target_include_directories argument
# PRIVATE_INCLUDES - public target_include_directories argument
# PUBLIC_DEFINES - public target_compile_definitions arguments
# PRIVATE_DEFINES - private target_compile_definitions arguments
# PUBLIC_COMPILE_OPTIONS - public target_compile_options arguments
# PRIVATE_COMPILE_OPTIONS - private target_compile_options arguments
# PRIVATE_COMPILE_OPTIONS_DEPS_BEFORE - private target_compile_options BEFORE
# arguments from the specified deps's INTERFACE_COMPILE_OPTIONS. Note that
# these deps are not pulled in as target_link_libraries. This should not be
# exposed by the non-generic API.
# PUBLIC_LINK_OPTIONS - public target_link_options arguments
# PRIVATE_LINK_OPTIONS - private target_link_options arguments
function(pw_add_library_generic NAME TYPE)
set(supported_library_types INTERFACE OBJECT STATIC SHARED)
if(NOT "${TYPE}" IN_LIST supported_library_types)
message(FATAL_ERROR "\"${TYPE}\" is not a valid library type for ${NAME}. "
"Must be INTERFACE, OBJECT, STATIC, or SHARED.")
endif()
_pw_add_library_multi_value_args(multi_value_args)
pw_parse_arguments(
NUM_POSITIONAL_ARGS
2
MULTI_VALUE_ARGS
${multi_value_args}
PRIVATE_COMPILE_OPTIONS_DEPS_BEFORE
)
# CMake 3.22 does not have a notion of target_headers yet, so in the mean
# time we ask for headers to be specified for consistency with GN & Bazel and
# to improve the IDE experience. However, we do want to ensure all the headers
# which are otherwise ignored by CMake are present.
#
# See https://gitlab.kitware.com/cmake/cmake/-/issues/22468 for adding support
# to CMake to associate headers with targets properly for CMake 3.23.
foreach(header IN ITEMS ${arg_HEADERS})
get_filename_component(header "${header}" ABSOLUTE)
if(NOT EXISTS ${header})
message(FATAL_ERROR "Header not found: \"${header}\"")
endif()
endforeach()
# In order to more easily create the various types of libraries, two hidden
# targets are created: NAME._config and NAME._public_config which loosely
# mirror the GN configs although we also carry target link dependencies
# through these.
# Add the NAME._config target_link_libraries dependency with the
# PRIVATE_INCLUDES, PRIVATE_DEFINES, PRIVATE_COMPILE_OPTIONS,
# PRIVATE_LINK_OPTIONS, and PRIVATE_DEPS.
add_library("${NAME}._config" INTERFACE EXCLUDE_FROM_ALL)
target_include_directories("${NAME}._config"
INTERFACE
${arg_PRIVATE_INCLUDES}
)
target_compile_definitions("${NAME}._config"
INTERFACE
${arg_PRIVATE_DEFINES}
)
target_compile_options("${NAME}._config"
INTERFACE
${arg_PRIVATE_COMPILE_OPTIONS}
)
target_link_options("${NAME}._config"
INTERFACE
${arg_PRIVATE_LINK_OPTIONS}
)
pw_target_link_targets("${NAME}._config"
INTERFACE
${arg_PRIVATE_DEPS}
)
# Add the NAME._public_config target_link_libraries dependency with the
# PUBLIC_INCLUDES, PUBLIC_DEFINES, PUBLIC_COMPILE_OPTIONS,
# PUBLIC_LINK_OPTIONS, and PUBLIC_DEPS.
add_library("${NAME}._public_config" INTERFACE EXCLUDE_FROM_ALL)
target_include_directories("${NAME}._public_config"
INTERFACE
${arg_PUBLIC_INCLUDES}
)
target_compile_definitions("${NAME}._public_config"
INTERFACE
${arg_PUBLIC_DEFINES}
)
target_compile_options("${NAME}._public_config"
INTERFACE
${arg_PUBLIC_COMPILE_OPTIONS}
)
target_link_options("${NAME}._public_config"
INTERFACE
${arg_PUBLIC_LINK_OPTIONS}
)
pw_target_link_targets("${NAME}._public_config"
INTERFACE
${arg_PUBLIC_DEPS}
)
# Instantiate the library depending on the type using the NAME._config and
# NAME._public_config libraries we just created.
if("${TYPE}" STREQUAL "INTERFACE")
if(NOT "${arg_SOURCES}" STREQUAL "")
message(
SEND_ERROR "${NAME} cannot have sources as it's an INTERFACE library")
endif(NOT "${arg_SOURCES}" STREQUAL "")
add_library("${NAME}" INTERFACE EXCLUDE_FROM_ALL)
target_sources("${NAME}" PRIVATE ${arg_HEADERS})
pw_target_link_targets("${NAME}"
INTERFACE
"${NAME}._public_config"
)
elseif(("${TYPE}" STREQUAL "STATIC") OR ("${TYPE}" STREQUAL "SHARED"))
if("${arg_SOURCES}" STREQUAL "")
message(
SEND_ERROR "${NAME} must have SOURCES as it's not an INTERFACE library")
endif("${arg_SOURCES}" STREQUAL "")
add_library("${NAME}" "${TYPE}" EXCLUDE_FROM_ALL)
target_sources("${NAME}" PRIVATE ${arg_HEADERS} ${arg_SOURCES})
pw_target_link_targets("${NAME}"
PUBLIC
"${NAME}._public_config"
PRIVATE
"${NAME}._config"
)
foreach(compile_option_dep IN LISTS arg_PRIVATE_COMPILE_OPTIONS_DEPS_BEFORE)
# This will fail at build time if the target does not exist.
target_compile_options("${NAME}" BEFORE PRIVATE
$<TARGET_PROPERTY:${compile_option_dep},INTERFACE_COMPILE_OPTIONS>
)
endforeach()
elseif("${TYPE}" STREQUAL "OBJECT")
if("${arg_SOURCES}" STREQUAL "")
message(
SEND_ERROR "${NAME} must have SOURCES as it's not an INTERFACE library")
endif("${arg_SOURCES}" STREQUAL "")
# In order to support OBJECT libraries while maintaining transitive
# linking dependencies, the library has to be split up into two where the
# outer interface library forwards not only the internal object library
# but also its TARGET_OBJECTS.
add_library("${NAME}._object" OBJECT EXCLUDE_FROM_ALL)
target_sources("${NAME}._object" PRIVATE ${arg_SOURCES})
pw_target_link_targets("${NAME}._object"
PRIVATE
"${NAME}._public_config"
"${NAME}._config"
)
foreach(compile_option_dep IN LISTS arg_PRIVATE_COMPILE_OPTIONS_DEPS_BEFORE)
# This will fail at build time if the target does not exist.
target_compile_options("${NAME}._object" BEFORE PRIVATE
$<TARGET_PROPERTY:${compile_option_dep},INTERFACE_COMPILE_OPTIONS>
)
endforeach()
add_library("${NAME}" INTERFACE EXCLUDE_FROM_ALL)
target_sources("${NAME}" PRIVATE ${arg_HEADERS})
pw_target_link_targets("${NAME}"
INTERFACE
"${NAME}._public_config"
"${NAME}._object"
)
target_link_libraries("${NAME}"
INTERFACE
$<TARGET_OBJECTS:${NAME}._object>
)
else()
message(FATAL_ERROR "Unsupported libary type: ${TYPE}")
endif()
endfunction(pw_add_library_generic)
# Checks that the library's name is prefixed by the relative path with dot
# separators instead of forward slashes. Ignores paths not under the root
# directory.
#
# Optional Args:
#
# REMAP_PREFIXES - support remapping a prefix for checks
#
function(_pw_check_name_is_relative_to_root NAME ROOT)
pw_parse_arguments(
NUM_POSITIONAL_ARGS
2
MULTI_VALUE_ARGS
REMAP_PREFIXES
)
file(RELATIVE_PATH rel_path "${ROOT}" "${CMAKE_CURRENT_SOURCE_DIR}")
if("${rel_path}" MATCHES "^\\.\\.")
return() # Ignore paths not under ROOT
endif()
list(LENGTH arg_REMAP_PREFIXES remap_arg_count)
if("${remap_arg_count}" EQUAL 2)
list(GET arg_REMAP_PREFIXES 0 from_prefix)
list(GET arg_REMAP_PREFIXES 1 to_prefix)
string(REGEX REPLACE "^${from_prefix}" "${to_prefix}" rel_path "${rel_path}")
elseif(NOT "${remap_arg_count}" EQUAL 0)
message(FATAL_ERROR
"If REMAP_PREFIXES is specified, exactly two arguments must be given.")
endif()
if(NOT "${rel_path}" MATCHES "^\\.\\..*")
string(REPLACE "/" "." dot_rel_path "${rel_path}")
if(NOT "${NAME}" MATCHES "^${dot_rel_path}(\\.[^\\.]+)?(\\.facade)?$")
message(FATAL_ERROR
"Module libraries under ${ROOT} must match the module name or be in "
"the form 'PATH_TO.THE_TARGET.NAME'. The library '${NAME}' does not "
"match. Expected ${dot_rel_path}.LIBRARY_NAME"
)
endif()
endif()
endfunction(_pw_check_name_is_relative_to_root)
# Creates a pw module library.
#
# Required Args:
#
# <name> - The name of the library target to be created.
# <type> - The library type which must be INTERFACE, OBJECT, STATIC or SHARED.
#
# Optional Args:
#
# SOURCES - source files for this library
# HEADERS - header files for this library
# PUBLIC_DEPS - public pw_target_link_targets arguments
# PRIVATE_DEPS - private pw_target_link_targets arguments
# PUBLIC_INCLUDES - public target_include_directories argument
# PRIVATE_INCLUDES - public target_include_directories argument
# PUBLIC_DEFINES - public target_compile_definitions arguments
# PRIVATE_DEFINES - private target_compile_definitions arguments
# PUBLIC_COMPILE_OPTIONS - public target_compile_options arguments
# PRIVATE_COMPILE_OPTIONS - private target_compile_options arguments
# PUBLIC_LINK_OPTIONS - public target_link_options arguments
# PRIVATE_LINK_OPTIONS - private target_link_options arguments
#
function(pw_add_library NAME TYPE)
_pw_add_library_multi_value_args(pw_add_library_generic_multi_value_args)
pw_parse_arguments(
NUM_POSITIONAL_ARGS
2
MULTI_VALUE_ARGS
${pw_add_library_generic_multi_value_args}
)
_pw_check_name_is_relative_to_root("${NAME}" "$ENV{PW_ROOT}"
REMAP_PREFIXES
third_party pw_third_party
)
pw_add_library_generic(${NAME} ${TYPE}
SOURCES
${arg_SOURCES}
HEADERS
${arg_HEADERS}
PUBLIC_DEPS
# TODO: b/232141950 - Apply compilation options that affect ABI
# globally in the CMake build instead of injecting them into libraries.
pw_build
${arg_PUBLIC_DEPS}
PRIVATE_DEPS
${arg_PRIVATE_DEPS}
PUBLIC_INCLUDES
${arg_PUBLIC_INCLUDES}
PRIVATE_INCLUDES
${arg_PRIVATE_INCLUDES}
PUBLIC_DEFINES
${arg_PUBLIC_DEFINES}
PRIVATE_DEFINES
${arg_PRIVATE_DEFINES}
PUBLIC_COMPILE_OPTIONS
${arg_PUBLIC_COMPILE_OPTIONS}
PRIVATE_COMPILE_OPTIONS_DEPS_BEFORE
pw_build.warnings
PRIVATE_COMPILE_OPTIONS
${arg_PRIVATE_COMPILE_OPTIONS}
PUBLIC_LINK_OPTIONS
${arg_PUBLIC_LINK_OPTIONS}
PRIVATE_LINK_OPTIONS
${arg_PRIVATE_LINK_OPTIONS}
)
endfunction(pw_add_library)
# Declares a module as a facade.
#
# Facades are declared as two libraries to avoid circular dependencies.
# Libraries that use the facade depend on a library named for the module. The
# module that implements the facade depends on a library named
# MODULE_NAME.facade.
#
# pw_add_facade accepts the same arguments as pw_add_library.
# It also accepts the following argument:
#
# BACKEND - The name of the facade's backend variable.
function(pw_add_facade NAME TYPE)
_pw_add_library_multi_value_args(multi_value_args)
pw_parse_arguments(
NUM_POSITIONAL_ARGS
2
ONE_VALUE_ARGS
BACKEND
MULTI_VALUE_ARGS
${multi_value_args}
)
_pw_check_name_is_relative_to_root("${NAME}" "$ENV{PW_ROOT}"
REMAP_PREFIXES
third_party pw_third_party
)
pw_add_facade_generic("${NAME}" "${TYPE}"
BACKEND
${arg_BACKEND}
SOURCES
${arg_SOURCES}
HEADERS
${arg_HEADERS}
PUBLIC_DEPS
# TODO: b/232141950 - Apply compilation options that affect ABI
# globally in the CMake build instead of injecting them into libraries.
pw_build
${arg_PUBLIC_DEPS}
PRIVATE_DEPS
${arg_PRIVATE_DEPS}
PUBLIC_INCLUDES
${arg_PUBLIC_INCLUDES}
PRIVATE_INCLUDES
${arg_PRIVATE_INCLUDES}
PUBLIC_DEFINES
${arg_PUBLIC_DEFINES}
PRIVATE_DEFINES
${arg_PRIVATE_DEFINES}
PUBLIC_COMPILE_OPTIONS
${arg_PUBLIC_COMPILE_OPTIONS}
PRIVATE_COMPILE_OPTIONS_DEPS_BEFORE
pw_build.warnings
PRIVATE_COMPILE_OPTIONS
${arg_PRIVATE_COMPILE_OPTIONS}
PUBLIC_LINK_OPTIONS
${arg_PUBLIC_LINK_OPTIONS}
PRIVATE_LINK_OPTIONS
${arg_PRIVATE_LINK_OPTIONS}
)
endfunction(pw_add_facade)
# pw_add_facade_generic: Creates a CMake facade library target.
#
# Facades are declared as two libraries to avoid circular dependencies.
# Libraries that use the facade depend on the <name> of this target. The
# libraries that implement this facade have to depend on an internal library
# named <name>.facade.
#
# Required Args:
#
# <name> - The name for the public facade target (<name>) for all users and
# the suffixed facade target for backend implementers (<name.facade).
# <type> - The library type which must be INTERFACE, OBJECT, STATIC, or
# SHARED.
# BACKEND - The name of the facade's backend variable.
#
# Optional Args:
#
# SOURCES - source files for this library
# HEADERS - header files for this library
# PUBLIC_DEPS - public pw_target_link_targets arguments
# PRIVATE_DEPS - private pw_target_link_targets arguments
# PUBLIC_INCLUDES - public target_include_directories argument
# PRIVATE_INCLUDES - public target_include_directories argument
# PUBLIC_DEFINES - public target_compile_definitions arguments
# PRIVATE_DEFINES - private target_compile_definitions arguments
# PUBLIC_COMPILE_OPTIONS - public target_compile_options arguments
# PRIVATE_COMPILE_OPTIONS_DEPS_BEFORE - private target_compile_options BEFORE
# arguments from the specified deps's INTERFACE_COMPILE_OPTIONS. Note that
# these deps are not pulled in as target_link_libraries. This should not be
# exposed by the non-generic API.
# PRIVATE_COMPILE_OPTIONS - private target_compile_options arguments
# PUBLIC_LINK_OPTIONS - public target_link_options arguments
# PRIVATE_LINK_OPTIONS - private target_link_options arguments
function(pw_add_facade_generic NAME TYPE)
set(supported_library_types INTERFACE OBJECT STATIC SHARED)
if(NOT "${TYPE}" IN_LIST supported_library_types)
message(FATAL_ERROR "\"${TYPE}\" is not a valid library type for ${NAME}. "
"Must be INTERFACE, OBJECT, STATIC, or SHARED.")
endif()
_pw_add_library_multi_value_args(multi_value_args)
pw_parse_arguments(
NUM_POSITIONAL_ARGS
2
ONE_VALUE_ARGS
BACKEND
MULTI_VALUE_ARGS
${multi_value_args}
PRIVATE_COMPILE_OPTIONS_DEPS_BEFORE
REQUIRED_ARGS
BACKEND
)
if(NOT DEFINED "${arg_BACKEND}")
message(FATAL_ERROR "${NAME}'s backend variable ${arg_BACKEND} has not "
"been defined, you may be missing a pw_add_backend_variable or "
"the *.cmake import to that file.")
endif()
string(REGEX MATCH ".+_BACKEND" backend_ends_in_backend "${arg_BACKEND}")
if(NOT backend_ends_in_backend)
message(FATAL_ERROR "The ${NAME} pw_add_generic_facade's BACKEND argument "
"(${arg_BACKEND}) must end in _BACKEND (${name_ends_in_backend})")
endif()
set(backend_target "${${arg_BACKEND}}")
if ("${backend_target}" STREQUAL "")
# If no backend is set, a script that displays an error message is used
# instead. If the facade is used in the build, it fails with this error.
pw_add_error_target("${NAME}.NO_BACKEND_SET"
MESSAGE
"Attempted to build the ${NAME} facade with no backend set. "
"Configure the ${NAME} backend using pw_set_backend or remove all "
"dependencies on it. See https://pigweed.dev/pw_build."
)
set(backend_target "${NAME}.NO_BACKEND_SET")
endif()
# Define the facade library, which is used by the backend to avoid circular
# dependencies.
pw_add_library_generic("${NAME}.facade" INTERFACE
HEADERS
${arg_HEADERS}
PUBLIC_INCLUDES
${arg_PUBLIC_INCLUDES}
PUBLIC_DEPS
${arg_PUBLIC_DEPS}
PUBLIC_DEFINES
${arg_PUBLIC_DEFINES}
PUBLIC_COMPILE_OPTIONS
${arg_PUBLIC_COMPILE_OPTIONS}
PUBLIC_LINK_OPTIONS
${arg_PUBLIC_LINK_OPTIONS}
)
# Define the public-facing library for this facade, which depends on the
# header files and public interface aspects from the .facade target and
# exposes the dependency on the backend along with the private library
# target components.
pw_add_library_generic("${NAME}" "${TYPE}"
PUBLIC_DEPS
"${NAME}.facade"
"${backend_target}"
SOURCES
${arg_SOURCES}
PRIVATE_INCLUDES
${arg_PRIVATE_INCLUDES}
PRIVATE_DEPS
${arg_PRIVATE_DEPS}
PRIVATE_DEFINES
${arg_PRIVATE_DEFINES}
PRIVATE_COMPILE_OPTIONS_DEPS_BEFORE
${arg_PRIVATE_COMPILE_OPTIONS_DEPS_BEFORE}
PRIVATE_COMPILE_OPTIONS
${arg_PRIVATE_COMPILE_OPTIONS}
PRIVATE_LINK_OPTIONS
${arg_PRIVATE_LINK_OPTIONS}
)
endfunction(pw_add_facade_generic)
# Declare a facade's backend variables which can be overriden later by using
# pw_set_backend.
#
# Required Arguments:
# NAME - Name of the facade's backend variable.
#
# Optional Arguments:
# DEFAULT_BACKEND - Optional default backend selection for the facade.
#
function(pw_add_backend_variable NAME)
pw_parse_arguments(
NUM_POSITIONAL_ARGS
1
ONE_VALUE_ARGS
DEFAULT_BACKEND
)
string(REGEX MATCH ".+_BACKEND" name_ends_in_backend "${NAME}")
if(NOT name_ends_in_backend)
message(FATAL_ERROR "The ${NAME} pw_add_backend_variable's NAME argument "
"must end in _BACKEND")
endif()
set("${NAME}" "${arg_DEFAULT_BACKEND}" CACHE STRING
"${NAME} backend variable for a facade")
endfunction()
# Sets which backend to use for the given facade's backend variable.
function(pw_set_backend NAME BACKEND)
# TODO(ewout, hepler): Deprecate this temporarily support which permits the
# direct facade name directly, instead of the facade's backend variable name.
# Also update this to later assert the variable is DEFINED to catch typos.
string(REGEX MATCH ".+_BACKEND" name_ends_in_backend "${NAME}")
if(NOT name_ends_in_backend)
set(NAME "${NAME}_BACKEND")
endif()
if(NOT DEFINED "${NAME}")
message(WARNING "${NAME} was not defined when pw_set_backend was invoked, "
"you may be missing a pw_add_backend_variable or the *.cmake "
"import to that file.")
endif()
set("${NAME}" "${BACKEND}" CACHE STRING "backend variable for a facade" FORCE)
endfunction(pw_set_backend)
# Zephyr specific wrapper for pw_set_backend.
function(pw_set_zephyr_backend_ifdef COND FACADE BACKEND BACKEND_DECL)
if(${${COND}})
if(NOT EXISTS "${CMAKE_CURRENT_LIST_DIR}/${BACKEND_DECL}")
message(FATAL_ERROR
"Can't find backend declaration file '${CMAKE_CURRENT_LIST_DIR}/${BACKEND_DECL}'")
endif()
include("${CMAKE_CURRENT_LIST_DIR}/${BACKEND_DECL}")
pw_set_backend("${FACADE}" "${BACKEND}")
endif()
endfunction()
# Zephyr specific wrapper to convert a pw library to a Zephyr library
function(pw_zephyrize_libraries_ifdef COND)
if(DEFINED Zephyr_FOUND)
if(${${COND}})
zephyr_link_libraries(${ARGN})
foreach(lib ${ARGN})
target_link_libraries(${lib} INTERFACE zephyr_interface)
endforeach()
endif()
endif()
endfunction()
# Zephyr function allowing conversion of Kconfig values to Pigweed configs
function(pw_set_config_from_zephyr ZEPHYR_CONFIG PW_CONFIG)
if(${ZEPHYR_CONFIG})
add_compile_definitions(${PW_CONFIG}=${${ZEPHYR_CONFIG}})
endif()
endfunction()
# Set up the default pw_build_DEFAULT_MODULE_CONFIG.
set("pw_build_DEFAULT_MODULE_CONFIG" pw_build.empty CACHE STRING
"Default implementation for all Pigweed module configurations.")
# Declares a module configuration variable for module libraries to depend on.
# Configs should be set to libraries which can be used to provide defines
# directly or though included header files.
#
# The configs can be selected either through the pw_set_module_config function
# to set the pw_build_DEFAULT_MODULE_CONFIG used by default for all Pigweed
# modules or by selecting a specific one for the given NAME'd configuration.
#
# Args:
#
# NAME: name to use for the target which can be depended on for the config.
function(pw_add_module_config NAME)
pw_parse_arguments(NUM_POSITIONAL_ARGS 1)
# Declare the module configuration variable for this module.
set("${NAME}" "${pw_build_DEFAULT_MODULE_CONFIG}"
CACHE STRING "Module configuration for ${NAME}")
endfunction(pw_add_module_config)
# Sets which config library to use for the given module.
#
# This can be used to set a specific module configuration or the default
# module configuration used for all Pigweed modules:
#
# pw_set_module_config(pw_build_DEFAULT_MODULE_CONFIG my_config)
# pw_set_module_config(pw_foo_CONFIG my_foo_config)
function(pw_set_module_config NAME LIBRARY)
pw_parse_arguments(NUM_POSITIONAL_ARGS 2)
# Update the module configuration variable.
set("${NAME}" "${LIBRARY}" CACHE STRING "Config for ${NAME}" FORCE)
endfunction(pw_set_module_config)
# Adds compiler options to all targets built by CMake. Flags may be added any
# time after this function is defined. The effect is global; all targets added
# before or after a pw_add_global_compile_options call will be built with the
# flags, regardless of where the files are located.
#
# pw_add_global_compile_options takes one optional named argument:
#
# LANGUAGES: Which languages (ASM, C, CXX) to apply the options to. Flags
# apply to all languages by default.
#
# All other arguments are interpreted as compiler options.
function(pw_add_global_compile_options)
cmake_parse_arguments(PARSE_ARGV 0 args "" "" "LANGUAGES")
set(supported_build_languages ASM C CXX)
if(NOT args_LANGUAGES)
set(args_LANGUAGES ${supported_build_languages})
endif()
# Check the selected language.
foreach(lang IN LISTS args_LANGUAGES)
if(NOT "${lang}" IN_LIST supported_build_languages)
message(FATAL_ERROR "'${lang}' is not a supported language. "
"Supported languages: ${supported_build_languages}")
endif()
endforeach()
# Enumerate which flags variables to set.
foreach(lang IN LISTS args_LANGUAGES)
list(APPEND cmake_flags_variables "CMAKE_${lang}_FLAGS")
endforeach()
# Set each flag for each specified flags variable.
foreach(variable IN LISTS cmake_flags_variables)
foreach(flag IN LISTS args_UNPARSED_ARGUMENTS)
set(${variable} "${${variable}} ${flag}" CACHE INTERNAL "" FORCE)
endforeach()
endforeach()
endfunction(pw_add_global_compile_options)
# pw_add_error_target: Creates a CMake target which fails to build and prints a
# message
#
# This function prints a message and causes a build failure only if you attempt
# to build the target. This is useful when FATAL_ERROR messages cannot be used
# to catch problems during the CMake configuration phase.
#
# Args:
#
# NAME: name to use for the target
# MESSAGE: The message to print, prefixed with "ERROR: ". The message may be
# composed of multiple pieces by passing multiple strings.
#
function(pw_add_error_target NAME)
pw_parse_arguments(
NUM_POSITIONAL_ARGS
1
MULTI_VALUE_ARGS
MESSAGE
)
# In case the message is comprised of multiple strings, stitch them together.
set(message "ERROR: ")
foreach(line IN LISTS arg_MESSAGE)
string(APPEND message "${line}")
endforeach()
add_custom_target("${NAME}._error_message"
COMMAND
"${CMAKE_COMMAND}" -E echo "${message}"
COMMAND
"${CMAKE_COMMAND}" -E false
)
# A static library is provided, in case this rule nominally provides a
# compiled output, e.g. to enable $<TARGET_FILE:"${NAME}">.
pw_add_library_generic("${NAME}" STATIC
SOURCES
$<TARGET_PROPERTY:pw_build.empty,SOURCES>
)
add_dependencies("${NAME}" "${NAME}._error_message")
endfunction(pw_add_error_target)
# Rebases a set of files to a new root path and optionally appends extensions
# to them. This is particularly useful for file generators.
#
# Required Arguments:
#
# <var> - Variable to store the rebased file list in.
# <new_root> - The new root to rebase file paths onto.
# <root> - The current root to rebase off of.
# <files> - The list of files to rebase.
# <extensions> - List of extensions to replace the existing file extensions
# with.
#
# Examples:
#
# list(APPEND files "public/proj/foo.def" "public/proj/bar.def")
#
# pw_rebase_paths(out_files "/tmp" "${CMAKE_CURRENT_SOURCE_DIR}/public"
# ${files} "")
# out_files => [ "/tmp/proj/foo.def", "/tmp/proj/bar.def" ]
#
# pw_rebase_paths(out_files "/tmp" "${CMAKE_CURRENT_SOURCE_DIR}/public"
# ${files} ".h")
# out_files => [ "/tmp/proj/foo.h", "/tmp/proj/bar.h" ]
#
# list (APPEND exts ".h" ".cc")
# pw_rebase_paths(out_files "/tmp" "${CMAKE_CURRENT_SOURCE_DIR}/public"
# ${files} ${exts})
# out_files => [ "/tmp/proj/foo.h", "/tmp/proj/bar.h",
# "/tmp/proj/foo.cc", "/tmp/proj/bar.cc" ]
function(pw_rebase_paths VAR NEW_ROOT ROOT FILES EXTENSIONS)
foreach(file IN LISTS FILES)
get_filename_component(file "${file}" ABSOLUTE)
file(RELATIVE_PATH file "${ROOT}" "${file}")
if("${EXTENSIONS}" STREQUAL "")
list(APPEND mirrored_files "${NEW_ROOT}/${file}")
else()
foreach(ext IN LISTS EXTENSIONS)
get_filename_component(dir "${file}" DIRECTORY)
get_filename_component(name "${file}" NAME_WE)
list(APPEND mirrored_files "${NEW_ROOT}/${dir}/${name}${ext}")
endforeach()
endif()
endforeach()
set("${VAR}"
"${mirrored_files}"
PARENT_SCOPE)
endfunction(pw_rebase_paths)