# Copyright 2019 The IREE Authors # # Licensed under the Apache License v2.0 with LLVM Exceptions. # See https://llvm.org/LICENSE.txt for license information. # SPDX-License-Identifier: Apache-2.0 WITH LLVM-exception include(CMakeParseArguments) #------------------------------------------------------------------------------- # Missing CMake Variables #------------------------------------------------------------------------------- if(${CMAKE_HOST_SYSTEM_NAME} STREQUAL "Windows") set(IREE_HOST_SCRIPT_EXT "bat") # https://gitlab.kitware.com/cmake/cmake/-/issues/17553 set(IREE_HOST_EXECUTABLE_SUFFIX ".exe") else() set(IREE_HOST_SCRIPT_EXT "sh") set(IREE_HOST_EXECUTABLE_SUFFIX "") endif() #------------------------------------------------------------------------------- # IREE_ARCH: identifies the target CPU architecture. May be empty when this is # ill-defined, such as multi-architecture builds. # This should be kept consistent with the C preprocessor token IREE_ARCH defined # in target_platform.h. #------------------------------------------------------------------------------- # First, get the raw CMake architecture name, not yet normalized. Even that is # non-trivial: it usually is CMAKE_SYSTEM_PROCESSOR, but on some platforms, we # have to read other variables instead. if(CMAKE_OSX_ARCHITECTURES) # Borrowing from: # https://boringssl.googlesource.com/boringssl/+/c5f0e58e653d2d9afa8facc090ce09f8aaa3fa0d/CMakeLists.txt#43 # https://github.com/google/XNNPACK/blob/2eb43787bfad4a99bdb613111cea8bc5a82f390d/CMakeLists.txt#L40 list(LENGTH CMAKE_OSX_ARCHITECTURES NUM_ARCHES) if(${NUM_ARCHES} EQUAL 1) # Only one arch in CMAKE_OSX_ARCHITECTURES, use that. set(_IREE_UNNORMALIZED_ARCH "${CMAKE_OSX_ARCHITECTURES}") endif() # Leaving _IREE_UNNORMALIZED_ARCH empty disables arch code paths. We will # issue a performance warning about that below. elseif(CMAKE_GENERATOR MATCHES "^Visual Studio " AND CMAKE_GENERATOR_PLATFORM) # Borrowing from: # https://github.com/google/XNNPACK/blob/2eb43787bfad4a99bdb613111cea8bc5a82f390d/CMakeLists.txt#L50 set(_IREE_UNNORMALIZED_ARCH "${CMAKE_GENERATOR_PLATFORM}") else() set(_IREE_UNNORMALIZED_ARCH "${CMAKE_SYSTEM_PROCESSOR}") endif() string(TOLOWER "${_IREE_UNNORMALIZED_ARCH}" _IREE_UNNORMALIZED_ARCH_LOWERCASE) # Normalize _IREE_UNNORMALIZED_ARCH into IREE_ARCH. if(EMSCRIPTEN) # TODO: figure what to do about the wasm target, which masquerades as x86. # This is the one case where the IREE_ARCH CMake variable is currently # inconsistent with the IREE_ARCH C preprocessor token. set(IREE_ARCH "") elseif((_IREE_UNNORMALIZED_ARCH_LOWERCASE STREQUAL "aarch64") OR (_IREE_UNNORMALIZED_ARCH_LOWERCASE STREQUAL "arm64") OR (_IREE_UNNORMALIZED_ARCH_LOWERCASE STREQUAL "arm64e") OR (_IREE_UNNORMALIZED_ARCH_LOWERCASE STREQUAL "arm64ec")) set(IREE_ARCH "arm_64") elseif((_IREE_UNNORMALIZED_ARCH_LOWERCASE STREQUAL "arm") OR (_IREE_UNNORMALIZED_ARCH_LOWERCASE MATCHES "^armv[5-8]")) set(IREE_ARCH "arm_32") elseif((_IREE_UNNORMALIZED_ARCH_LOWERCASE STREQUAL "x86_64") OR (_IREE_UNNORMALIZED_ARCH_LOWERCASE STREQUAL "amd64") OR (_IREE_UNNORMALIZED_ARCH_LOWERCASE STREQUAL "x64")) set(IREE_ARCH "x86_64") elseif((_IREE_UNNORMALIZED_ARCH_LOWERCASE MATCHES "^i[3-7]86$") OR (_IREE_UNNORMALIZED_ARCH_LOWERCASE STREQUAL "x86") OR (_IREE_UNNORMALIZED_ARCH_LOWERCASE STREQUAL "win32")) set(IREE_ARCH "x86_32") elseif(_IREE_UNNORMALIZED_ARCH_LOWERCASE STREQUAL "riscv64") set(IREE_ARCH "riscv_64") elseif(_IREE_UNNORMALIZED_ARCH_LOWERCASE STREQUAL "riscv32") set(IREE_ARCH "riscv_32") elseif(_IREE_UNNORMALIZED_ARCH_LOWERCASE STREQUAL "") set(IREE_ARCH "") message(WARNING "Performance advisory: architecture-specific code paths " "disabled because no target architecture was specified or we didn't know " "which CMake variable to read. Some relevant CMake variables:\n" "CMAKE_SYSTEM_PROCESSOR=${CMAKE_SYSTEM_PROCESSOR}\n" "CMAKE_GENERATOR=${CMAKE_GENERATOR}\n" "CMAKE_GENERATOR_PLATFORM=${CMAKE_GENERATOR_PLATFORM}\n" "CMAKE_OSX_ARCHITECTURES=${CMAKE_OSX_ARCHITECTURES}\n" ) else() set(IREE_ARCH "") message(SEND_ERROR "Unrecognized target architecture ${_IREE_UNNORMALIZED_ARCH_LOWERCASE}") endif() # iree_arch_to_llvm_arch() # # Helper mapping an architecture in IREE's naming scheme (as in IREE_ARCH) # to an architecture in LLVM's naming scheme (as in LLVM target triples). function(iree_arch_to_llvm_arch DST_LLVM_ARCH_VARIABLE SRC_ARCH) if("${SRC_ARCH}" STREQUAL "arm_64") set(${DST_LLVM_ARCH_VARIABLE} "aarch64" PARENT_SCOPE) elseif("${SRC_ARCH}" STREQUAL "arm_32") set(${DST_LLVM_ARCH_VARIABLE} "arm" PARENT_SCOPE) elseif("${SRC_ARCH}" STREQUAL "x86_64") set(${DST_LLVM_ARCH_VARIABLE} "x86_64" PARENT_SCOPE) elseif("${SRC_ARCH}" STREQUAL "x86_32") set(${DST_LLVM_ARCH_VARIABLE} "i386" PARENT_SCOPE) elseif("${SRC_ARCH}" STREQUAL "riscv_64") set(${DST_LLVM_ARCH_VARIABLE} "riscv64" PARENT_SCOPE) elseif("${SRC_ARCH}" STREQUAL "riscv_32") set(${DST_LLVM_ARCH_VARIABLE} "riscv32" PARENT_SCOPE) elseif("${SRC_ARCH}" STREQUAL "wasm_64") set(${DST_LLVM_ARCH_VARIABLE} "wasm64" PARENT_SCOPE) elseif("${SRC_ARCH}" STREQUAL "wasm_32") set(${DST_LLVM_ARCH_VARIABLE} "wasm32" PARENT_SCOPE) else() message(SEND_ERROR "What is the LLVM name of the architecture that we call ${SRC_ARCH} ?") set(${DST_LLVM_ARCH_VARIABLE} "unknown" PARENT_SCOPE) endif() endfunction() # iree_arch_to_llvm_target() # # Helper mapping an architecture in IREE's naming scheme (as in IREE_ARCH) # to a LLVM CPU target (as in LLVM_TARGETS_TO_BUILD, the CMake variable). function(iree_arch_to_llvm_target DST_LLVM_TARGET_VARIABLE SRC_ARCH) if("${SRC_ARCH}" STREQUAL "arm_64") set(${DST_LLVM_TARGET_VARIABLE} "AArch64" PARENT_SCOPE) elseif("${SRC_ARCH}" STREQUAL "arm_32") set(${DST_LLVM_TARGET_VARIABLE} "ARM" PARENT_SCOPE) elseif("${SRC_ARCH}" MATCHES "^x86_") set(${DST_LLVM_TARGET_VARIABLE} "X86" PARENT_SCOPE) elseif("${SRC_ARCH}" MATCHES "^riscv_") set(${DST_LLVM_TARGET_VARIABLE} "RISCV" PARENT_SCOPE) elseif("${SRC_ARCH}" MATCHES "^wasm_") set(${DST_LLVM_TARGET_VARIABLE} "WebAssembly" PARENT_SCOPE) else() message(SEND_ERROR "What is the LLVM target handling of the architecture that we call ${SRC_ARCH} ?") set(${DST_LLVM_TARGET_VARIABLE} "" PARENT_SCOPE) endif() endfunction() # iree_compiler_targeting_iree_arch # # Helper returning true if we are building the IREE compiler with the llvm-cpu # backend enabled and with the LLVM target supporting the CPU architecture # give in IREE's naming scheme (as in IREE_ARCH). function(iree_compiler_targeting_iree_arch DST_VAR SRC_ARCH) if (NOT IREE_BUILD_COMPILER OR NOT IREE_TARGET_BACKEND_LLVM_CPU) set(${DST_VAR} OFF PARENT_SCOPE) return() endif() iree_arch_to_llvm_target(_LLVM_TARGET "${SRC_ARCH}") # WebAssembly is unconditionally enabled, and not enumerated in LLVM_TARGETS_TO_BUILD. if (_LLVM_TARGET IN_LIST LLVM_TARGETS_TO_BUILD OR _LLVM_TARGET STREQUAL "WebAssembly") set(${DST_VAR} ON PARENT_SCOPE) else() set(${DST_VAR} OFF PARENT_SCOPE) endif() endfunction() #------------------------------------------------------------------------------- # General utilities #------------------------------------------------------------------------------- # iree_to_bool # # Sets `variable` to `ON` if `value` is true and `OFF` otherwise. function(iree_to_bool VARIABLE VALUE) if(VALUE) set(${VARIABLE} "ON" PARENT_SCOPE) else() set(${VARIABLE} "OFF" PARENT_SCOPE) endif() endfunction() # iree_append_list_to_string # # Joins ${ARGN} together as a string separated by " " and appends it to # ${VARIABLE}. function(iree_append_list_to_string VARIABLE) if(NOT "${ARGN}" STREQUAL "") string(JOIN " " _ARGN_STR ${ARGN}) set(${VARIABLE} "${${VARIABLE}} ${_ARGN_STR}" PARENT_SCOPE) endif() endfunction() #------------------------------------------------------------------------------- # Packages and Paths #------------------------------------------------------------------------------- # Performs a variety of setup tasks for a directory that forms the root # of a C source tree. Many of our build macros use directory-scoped CMake # variables to drive default behavior, and this sets those up in a consolidated # way. # Arguments: # DEFAULT_EXPORT_SET: # The export set to use by default. If linking any static libraries # that are to be installed as dev libraries, then this is mandatory # (or each target must specify it). Typically this must be set in # runtime directories. # DEFAULT_INSTALL_COMPONENT: # The default install component for libraries. # IMPLICIT_DEFS_TARGET: # A new target to create and export/install which includes the current # source and binary directory as an include dir. It will be added to # every cc library created after this in this directory tree. # IMPLICIT_DEFS_INSTALL_COMPONENT: # Install component for *just* the implicit defs target. # IMPLICIT_DEFS_EXPORT_SET: # Export set for *just* the implicit defs target. # PACKAGE_ROOT_PREFIX: # Explicitly set the package root prefix (as something like "iree::foobar"). # Default is empty. # See runtime/src/CMakeLists.txt for typical usage in a directory tree # that installs static dev libraries. # # See compiler/src/CMakeLists.txt for typical usage that does not install # static dev libraries. function(iree_setup_c_src_root) cmake_parse_arguments( _RULE "" "PACKAGE_ROOT_PREFIX;DEFAULT_EXPORT_SET;DEFAULT_INSTALL_COMPONENT;IMPLICIT_DEFS_TARGET;IMPLICIT_DEFS_INSTALL_COMPONENT;IMPLICIT_DEFS_EXPORT_SET" "" ${ARGN} ) # Make C++ library package names start here unless if told not to. set(IREE_PACKAGE_ROOT_DIR "${CMAKE_CURRENT_SOURCE_DIR}" PARENT_SCOPE) set(IREE_PACKAGE_ROOT_PREFIX "${_RULE_PACKAGE_ROOT_PREFIX}" PARENT_SCOPE) # Instruct install support that headers are installable from this root # directory. set(IREE_HDRS_ROOT_PATH "${CMAKE_CURRENT_SOURCE_DIR}" PARENT_SCOPE) # Export and install by default. if(_RULE_DEFAULT_EXPORT_SET) set(IREE_INSTALL_LIBRARY_TARGETS_DEFAULT_EXPORT_SET "${_RULE_DEFAULT_EXPORT_SET}" PARENT_SCOPE) endif() if(_RULE_DEFAULT_INSTALL_COMPONENT) set(IREE_INSTALL_LIBRARY_TARGETS_DEFAULT_COMPONENT "${_RULE_DEFAULT_INSTALL_COMPONENT}" PARENT_SCOPE) endif() # Tell tablegen to include from here. set(IREE_COMPILER_TABLEGEN_INCLUDE_DIRS "${CMAKE_CURRENT_SOURCE_DIR}" PARENT_SCOPE) # Create an implicit defs target that adds this include directory. if(_RULE_IMPLICIT_DEFS_TARGET) add_library(${_RULE_IMPLICIT_DEFS_TARGET} INTERFACE) target_include_directories(${_RULE_IMPLICIT_DEFS_TARGET} INTERFACE $ $ ) if(NOT _RULE_IMPLICIT_DEFS_INSTALL_COMPONENT) set(_RULE_IMPLICIT_DEFS_INSTALL_COMPONENT ${_RULE_DEFAULT_INSTALL_COMPONENT}) endif() if(NOT _RULE_IMPLICIT_DEFS_EXPORT_SET) set(_RULE_IMPLICIT_DEFS_EXPORT_SET ${_RULE_DEFAULT_EXPORT_SET}) endif() iree_install_targets( TARGETS ${_RULE_IMPLICIT_DEFS_TARGET} COMPONENT "${_RULE_IMPLICIT_DEFS_INSTALL_COMPONENT}" EXPORT_SET "${_RULE_IMPLICIT_DEFS_EXPORT_SET}" ) # Include this target in all cc_libraries. set(IREE_IMPLICIT_DEFS_CC_DEPS ${_RULE_IMPLICIT_DEFS_TARGET} PARENT_SCOPE) endif() endfunction() # Sets ${PACKAGE_NS} to the IREE-root relative package name in C++ namespace # format (::). # # Examples: # compiler/src/iree/compiler/Utils/CMakeLists.txt -> iree::compiler::Utils # runtime/src/iree/base/CMakeLists.txt -> iree::base # tests/e2e/CMakeLists.txt -> iree::tests::e2e function(iree_package_ns PACKAGE_NS) if(DEFINED IREE_PACKAGE_ROOT_DIR) # If an enclosing package root dir is set, then the package is just the # relative part after that. cmake_path(RELATIVE_PATH CMAKE_CURRENT_LIST_DIR BASE_DIRECTORY "${IREE_PACKAGE_ROOT_DIR}" OUTPUT_VARIABLE _PACKAGE) if(_PACKAGE STREQUAL ".") set(_PACKAGE "") endif() if(IREE_PACKAGE_ROOT_PREFIX) if("${_PACKAGE}" STREQUAL "") set(_PACKAGE "${IREE_PACKAGE_ROOT_PREFIX}") else() set(_PACKAGE "${IREE_PACKAGE_ROOT_PREFIX}/${_PACKAGE}") endif() endif() else() # Get the relative path of the current dir (i.e. runtime/src/iree/vm). string(REPLACE ${IREE_ROOT_DIR} "" _IREE_RELATIVE_PATH ${CMAKE_CURRENT_LIST_DIR}) string(SUBSTRING ${_IREE_RELATIVE_PATH} 1 -1 _IREE_RELATIVE_PATH) if(NOT ${CMAKE_CURRENT_LIST_DIR} MATCHES "^${IREE_ROOT_DIR}/.*") # Function is being called from outside IREE. Use the source-relative path. # Please check the README.md to see the potential risk. string(REPLACE ${PROJECT_SOURCE_DIR} "" _SOURCE_RELATIVE_PATH ${CMAKE_CURRENT_LIST_DIR}) string(SUBSTRING ${_SOURCE_RELATIVE_PATH} 1 -1 _SOURCE_RELATIVE_PATH) set(_PACKAGE "${_SOURCE_RELATIVE_PATH}") # If changing the directory/package mapping rules, please also implement # the corresponding rule in: # build_tools/bazel_to_cmake/bazel_to_cmake_targets.py # Some sub-trees form their own roots for package purposes. Rewrite them. else() message(SEND_ERROR "iree_package_ns(): Could not determine package for ${CMAKE_CURRENT_LIST_DIR}") set(_PACKAGE "iree/unknown") endif() endif() string(REPLACE "/" "::" _PACKAGE_NS "${_PACKAGE}") if(_DEBUG_IREE_PACKAGE_NAME) message(STATUS "iree_package_ns(): map ${CMAKE_CURRENT_LIST_DIR} -> ${_PACKAGE_NS}") endif() set(${PACKAGE_NS} ${_PACKAGE_NS} PARENT_SCOPE) endfunction() # Sets ${PACKAGE_NAME} to the IREE-root relative package name. # # Example when called from iree/base/CMakeLists.txt: # iree_base function(iree_package_name PACKAGE_NAME) iree_package_ns(_PACKAGE_NS) string(REPLACE "::" "_" _PACKAGE_NAME "${_PACKAGE_NS}") set(${PACKAGE_NAME} ${_PACKAGE_NAME} PARENT_SCOPE) endfunction() # Sets ${PACKAGE_PATH} to the IREE-root relative package path. # # Example when called from iree/base/CMakeLists.txt: # iree/base function(iree_package_path PACKAGE_PATH) iree_package_ns(_PACKAGE_NS) string(REPLACE "::" "/" _PACKAGE_PATH ${_PACKAGE_NS}) set(${PACKAGE_PATH} ${_PACKAGE_PATH} PARENT_SCOPE) endfunction() # Sets ${PACKAGE_DIR} to the directory name of the current package. # # Example when called from iree/base/CMakeLists.txt: # base function(iree_package_dir PACKAGE_DIR) iree_package_ns(_PACKAGE_NS) string(FIND "${_PACKAGE_NS}" "::" _END_OFFSET REVERSE) math(EXPR _END_OFFSET "${_END_OFFSET} + 2") string(SUBSTRING ${_PACKAGE_NS} ${_END_OFFSET} -1 _PACKAGE_DIR) set(${PACKAGE_DIR} ${_PACKAGE_DIR} PARENT_SCOPE) endfunction() #------------------------------------------------------------------------------- # select()-like Evaluation #------------------------------------------------------------------------------- # Appends ${OPTS} with a list of values based on the current compiler. # # Example: # iree_select_compiler_opts(COPTS # CLANG # "-Wno-foo" # "-Wno-bar" # CLANG_CL # "/W3" # GCC # "-Wsome-old-flag" # MSVC # "/W3" # ) # # Note that variables are allowed, making it possible to share options between # different compiler targets. function(iree_select_compiler_opts OPTS) cmake_parse_arguments( PARSE_ARGV 1 _IREE_SELECTS "" "" "ALL;CLANG;CLANG_GTE_10;CLANG_GTE_12;CLANG_CL;MSVC;GCC;CLANG_OR_GCC;MSVC_OR_CLANG_CL" ) # OPTS is a variable containing the *name* of the variable being populated, so # we need to dereference it twice. set(_OPTS "${${OPTS}}") list(APPEND _OPTS "${_IREE_SELECTS_ALL}") if("${CMAKE_CXX_COMPILER_ID}" STREQUAL "GNU") list(APPEND _OPTS "${_IREE_SELECTS_GCC}") list(APPEND _OPTS "${_IREE_SELECTS_CLANG_OR_GCC}") elseif("${CMAKE_CXX_COMPILER_ID}" MATCHES "Clang") if(MSVC) list(APPEND _OPTS ${_IREE_SELECTS_CLANG_CL}) list(APPEND _OPTS ${_IREE_SELECTS_MSVC_OR_CLANG_CL}) else() list(APPEND _OPTS ${_IREE_SELECTS_CLANG}) if(CMAKE_CXX_COMPILER_VERSION VERSION_GREATER_EQUAL 10) list(APPEND _OPTS ${_IREE_SELECTS_CLANG_GTE_10}) endif() if(CMAKE_CXX_COMPILER_VERSION VERSION_GREATER_EQUAL 12) list(APPEND _OPTS ${_IREE_SELECTS_CLANG_GTE_12}) endif() list(APPEND _OPTS ${_IREE_SELECTS_CLANG_OR_GCC}) endif() elseif("${CMAKE_CXX_COMPILER_ID}" STREQUAL "MSVC") list(APPEND _OPTS ${_IREE_SELECTS_MSVC}) list(APPEND _OPTS ${_IREE_SELECTS_MSVC_OR_CLANG_CL}) else() message(ERROR "Unknown compiler: ${CMAKE_CXX_COMPILER}") list(APPEND _OPTS "") endif() set(${OPTS} ${_OPTS} PARENT_SCOPE) endfunction() #------------------------------------------------------------------------------- # Data dependencies #------------------------------------------------------------------------------- # Adds 'data' dependencies to a target. # # Parameters: # NAME: name of the target to add data dependencies to # DATA: List of targets and/or files in the source tree (relative to the # project root). function(iree_add_data_dependencies) cmake_parse_arguments( _RULE "" "NAME" "DATA" ${ARGN} ) if(NOT _RULE_DATA) return() endif() foreach(_DATA_LABEL ${_RULE_DATA}) if(TARGET ${_DATA_LABEL}) add_dependencies(${_RULE_NAME} ${_DATA_LABEL}) else() # Not a target, assume to be a file instead. set(_FILE_PATH ${_DATA_LABEL}) # Create a target which copies the data file into the build directory. # If this file is included in multiple rules, only create the target once. string(REPLACE "::" "_" _DATA_TARGET ${_DATA_LABEL}) string(REPLACE "/" "_" _DATA_TARGET ${_DATA_TARGET}) if(NOT TARGET ${_DATA_TARGET}) set(_INPUT_PATH "${PROJECT_SOURCE_DIR}/${_FILE_PATH}") set(_OUTPUT_PATH "${PROJECT_BINARY_DIR}/${_FILE_PATH}") add_custom_target(${_DATA_TARGET} COMMAND ${CMAKE_COMMAND} -E copy ${_INPUT_PATH} ${_OUTPUT_PATH} ) endif() add_dependencies(${_RULE_NAME} ${_DATA_TARGET}) endif() endforeach() endfunction() #------------------------------------------------------------------------------- # iree_make_empty_file #------------------------------------------------------------------------------- # Creates an empty file by copying an in-tree empty file. Unlike `file(WRITE)` # or `file(TOUCH)`, this does not update the timestamp every time CMake is run, # avoiding unnecessary rebuilds when the empty file is used as a rule input. function(iree_make_empty_file _FILENAME) configure_file("${PROJECT_SOURCE_DIR}/build_tools/cmake/empty_file" "${_FILENAME}" COPYONLY) endfunction() #------------------------------------------------------------------------------- # Emscripten #------------------------------------------------------------------------------- # A global counter to guarantee unique names for js library files. set(_LINK_JS_COUNTER 1) # Links a JavaScript library to a target using --js-library=file.js. # # This function is only supported when running under Emscripten (emcmake). # This implementation is forked from `em_add_tracked_link_flag()` in # https://github.com/emscripten-core/emscripten/blob/main/cmake/Modules/Platform/Emscripten.cmake # with changes to be compatible with IREE project style and CMake conventions. # # Parameters: # TARGET: Name of the target to link against # SRCS: List of JavaScript source files to link function(iree_link_js_library) cmake_parse_arguments( _RULE "" "TARGET" "SRCS" ${ARGN} ) # Convert from aliased, possibly package-relative, names to target names. iree_package_ns(_PACKAGE_NS) string(REGEX REPLACE "^::" "${_PACKAGE_NS}::" _RULE_TARGET ${_RULE_TARGET}) string(REPLACE "::" "_" _RULE_TARGET ${_RULE_TARGET}) foreach(_SRC_FILE ${_RULE_SRCS}) # If the JS file is changed, we want to relink dependent binaries, but # unfortunately it is not possible to make a link step depend directly on a # source file. Instead, we must make a dummy no-op build target on that # source file, and make the original target depend on that dummy target. # Sanitate the source .js filename to a good dummy filename. get_filename_component(_JS_NAME "${_SRC_FILE}" NAME) string(REGEX REPLACE "[/:\\\\.\ ]" "_" _DUMMY_JS_TARGET ${_JS_NAME}) set(_DUMMY_LIB_NAME ${_RULE_TARGET}_${_LINK_JS_COUNTER}_${_DUMMY_JS_TARGET}) set(_DUMMY_C_NAME "${CMAKE_BINARY_DIR}/${_DUMMY_JS_TARGET}_tracker.c") # Create a new static library target that with a single dummy .c file. add_library(${_DUMMY_LIB_NAME} STATIC ${_DUMMY_C_NAME}) # Make the dummy .c file depend on the .js file we are linking, so that if # the .js file is edited, the dummy .c file, and hence the static library # will be rebuild (no-op). This causes the main application to be # relinked, which is what we want. This approach was recommended by # http://www.cmake.org/pipermail/cmake/2010-May/037206.html add_custom_command( OUTPUT ${_DUMMY_C_NAME} COMMAND ${CMAKE_COMMAND} -E touch ${_DUMMY_C_NAME} DEPENDS ${_SRC_FILE} ) target_link_libraries(${_RULE_TARGET} PUBLIC ${_DUMMY_LIB_NAME} ) iree_install_targets( TARGETS ${_DUMMY_LIB_NAME} ) # Link the js-library to the target. # When a linked library starts with a "-" cmake will just add it to the # linker command line as it is. The advantage of doing it this way is # that the js-library will also be automatically linked to targets that # depend on this target. get_filename_component(_SRC_ABSOLUTE_PATH "${_SRC_FILE}" ABSOLUTE) target_link_libraries(${_RULE_TARGET} PUBLIC "--js-library \"${_SRC_ABSOLUTE_PATH}\"" ) math(EXPR _LINK_JS_COUNTER "${_LINK_JS_COUNTER} + 1") endforeach() endfunction() #------------------------------------------------------------------------------- # Tool symlinks #------------------------------------------------------------------------------- # iree_symlink_tool # # Adds a command to TARGET which symlinks a tool from elsewhere # (FROM_TOOL_TARGET_NAME) to a local file name (TO_EXE_NAME) in the current # binary directory. # # Parameters: # TARGET: Local target to which to add the symlink command (i.e. an # iree_py_library, etc). # FROM_TOOL_TARGET: Target of the tool executable that is the source of the # link. # TO_EXE_NAME: The executable name to output in the current binary dir. function(iree_symlink_tool) cmake_parse_arguments( _RULE "" "TARGET;FROM_TOOL_TARGET;TO_EXE_NAME" "" ${ARGN} ) # Transform TARGET iree_package_ns(_PACKAGE_NS) iree_package_name(_PACKAGE_NAME) set(_TARGET "${_PACKAGE_NAME}_${_RULE_TARGET}") set(_FROM_TOOL_TARGET ${_RULE_FROM_TOOL_TARGET}) set(_TO_TOOL_PATH "${CMAKE_CURRENT_BINARY_DIR}/${_RULE_TO_EXE_NAME}${CMAKE_EXECUTABLE_SUFFIX}") get_filename_component(_TO_TOOL_DIR "${_TO_TOOL_PATH}" DIRECTORY) add_custom_command( TARGET "${_TARGET}" BYPRODUCTS "${CMAKE_CURRENT_BINARY_DIR}/${_RULE_TO_EXE_NAME}${CMAKE_EXECUTABLE_SUFFIX}" COMMAND ${CMAKE_COMMAND} -E make_directory "${_TO_TOOL_DIR}" COMMAND ${CMAKE_COMMAND} -E create_symlink "$" "${_TO_TOOL_PATH}" ) endfunction() #------------------------------------------------------------------------------- # Tests #------------------------------------------------------------------------------- # iree_check_defined # # A lightweight way to check that all the given variables are defined. Useful # in cases like checking that a function has been passed all required arguments. # Doesn't give usage-specific error messages, but still significantly better # than no error checking. # Variable names should be passed directly without quoting or dereferencing. # Example: # iree_check_defined(_SOME_VAR _AND_ANOTHER_VAR) macro(iree_check_defined) foreach(_VAR ${ARGN}) if(NOT DEFINED "${_VAR}") message(SEND_ERROR "${_VAR} is not defined") endif() endforeach() endmacro() # iree_validate_required_arguments # # Validates that no arguments went unparsed or were given no values and that all # required arguments have values. Expects to be called after # cmake_parse_arguments and verifies that the variables it creates have been # populated as appropriate. function(iree_validate_required_arguments PREFIX REQUIRED_ONE_VALUE_KEYWORDS REQUIRED_MULTI_VALUE_KEYWORDS) if(DEFINED ${PREFIX}_UNPARSED_ARGUMENTS) message(SEND_ERROR "Unparsed argument(s): '${${PREFIX}_UNPARSED_ARGUMENTS}'") endif() if(DEFINED ${PREFIX}_KEYWORDS_MISSING_VALUES) message(SEND_ERROR "No values for field(s) '${${PREFIX}_KEYWORDS_MISSING_VALUES}'") endif() foreach(_KEYWORD IN LISTS REQUIRED_ONE_VALUE_KEYWORDS REQUIRED_MULTI_VALUE_KEYWORDS) if(NOT DEFINED ${PREFIX}_${_KEYWORD}) message(SEND_ERROR "Missing required argument ${_KEYWORD}") endif() endforeach() endfunction() # iree_compile_flags_for_patform # # Helper function to add necessary compile flags based on platform-specific # configurations. Note the flags are added for cpu backends only. function(iree_compile_flags_for_platform OUT_FLAGS IN_FLAGS) if(NOT (IN_FLAGS MATCHES "iree-hal-target-backends=llvm-cpu" OR IN_FLAGS MATCHES "iree-hal-target-backends=vmvx")) set(${OUT_FLAGS} "" PARENT_SCOPE) return() endif() if(ANDROID AND NOT IN_FLAGS MATCHES "iree-llvmcpu-target-triple") # Android's CMake toolchain defines some variables that we can use to infer # the appropriate target triple from the configured settings: # https://developer.android.com/ndk/guides/cmake#android_platform # # In typical CMake fashion, the various strings are pretty fuzzy and can # have multiple values like "latest", "android-25"/"25"/"android-N-MR1". # # From looking at the toolchain file, ANDROID_PLATFORM_LEVEL seems like it # should pretty consistently be just a number we can use for target triple. set(_TARGET_TRIPLE "aarch64-none-linux-android${ANDROID_PLATFORM_LEVEL}") list(APPEND _FLAGS "--iree-llvmcpu-target-triple=${_TARGET_TRIPLE}") endif() if(IREE_ARCH STREQUAL "riscv_64" AND CMAKE_SYSTEM_NAME STREQUAL "Linux" AND NOT IN_FLAGS MATCHES "iree-llvmcpu-target-triple") # RV64 Linux crosscompile toolchain can support iree-compile with # specific CPU flags. Add the llvm flags to support RV64 RVV codegen if # llvm-target-triple is not specified. list(APPEND _FLAGS ${RISCV64_TEST_DEFAULT_LLVM_FLAGS}) elseif(IREE_ARCH STREQUAL "riscv_32" AND CMAKE_SYSTEM_NAME STREQUAL "Linux" AND NOT IN_FLAGS MATCHES "iree-llvmcpu-target-triple") # RV32 Linux crosscompile toolchain can support iree-compile with # specific CPU flags. Add the llvm flags to support RV32 RVV codegen if # llvm-target-triple is not specified. list(APPEND _FLAGS ${RISCV32_TEST_DEFAULT_LLVM_FLAGS}) endif() if(EMSCRIPTEN AND NOT IN_FLAGS MATCHES "iree-llvmcpu-target-triple") set(_EMSCRIPTEN_TEST_DEFAULT_FLAGS "--iree-llvmcpu-target-triple=wasm32-unknown-emscripten" ) list(APPEND _FLAGS ${_EMSCRIPTEN_TEST_DEFAULT_FLAGS}) endif() set(${OUT_FLAGS} "${_FLAGS}" PARENT_SCOPE) endfunction()