llvm-project/llvm/cmake/modules/LLVM-Config.cmake

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function(get_system_libs return_var)
message(AUTHOR_WARNING "get_system_libs no longer needed")
set(${return_var} "" PARENT_SCOPE)
endfunction()
function(link_system_libs target)
message(AUTHOR_WARNING "link_system_libs no longer needed")
endfunction()
# is_llvm_target_library(
# library
# Name of the LLVM library to check
# return_var
# Output variable name
# ALL_TARGETS;INCLUDED_TARGETS;OMITTED_TARGETS
# ALL_TARGETS - default looks at the full list of known targets
# INCLUDED_TARGETS - looks only at targets being configured
# OMITTED_TARGETS - looks only at targets that are not being configured
# )
function(is_llvm_target_library library return_var)
cmake_parse_arguments(ARG "ALL_TARGETS;INCLUDED_TARGETS;OMITTED_TARGETS" "" "" ${ARGN})
# Sets variable `return_var' to ON if `library' corresponds to a
# LLVM supported target. To OFF if it doesn't.
set(${return_var} OFF PARENT_SCOPE)
string(TOUPPER "${library}" capitalized_lib)
if(ARG_INCLUDED_TARGETS)
string(TOUPPER "${LLVM_TARGETS_TO_BUILD}" targets)
elseif(ARG_OMITTED_TARGETS)
set(omitted_targets ${LLVM_ALL_TARGETS})
list(REMOVE_ITEM omitted_targets ${LLVM_TARGETS_TO_BUILD})
string(TOUPPER "${omitted_targets}" targets)
else()
string(TOUPPER "${LLVM_ALL_TARGETS}" targets)
endif()
foreach(t ${targets})
if( capitalized_lib STREQUAL t OR
capitalized_lib STREQUAL "${t}" OR
capitalized_lib STREQUAL "${t}DESC" OR
capitalized_lib STREQUAL "${t}CODEGEN" OR
capitalized_lib STREQUAL "${t}ASMPARSER" OR
capitalized_lib STREQUAL "${t}ASMPRINTER" OR
capitalized_lib STREQUAL "${t}DISASSEMBLER" OR
capitalized_lib STREQUAL "${t}INFO" OR
capitalized_lib STREQUAL "${t}UTILS" )
set(${return_var} ON PARENT_SCOPE)
break()
endif()
endforeach()
endfunction(is_llvm_target_library)
function(is_llvm_target_specifier library return_var)
is_llvm_target_library(${library} ${return_var} ${ARGN})
string(TOUPPER "${library}" capitalized_lib)
if(NOT ${return_var})
if( capitalized_lib STREQUAL "ALLTARGETSASMPARSERS" OR
capitalized_lib STREQUAL "ALLTARGETSDESCS" OR
capitalized_lib STREQUAL "ALLTARGETSDISASSEMBLERS" OR
capitalized_lib STREQUAL "ALLTARGETSINFOS" OR
capitalized_lib STREQUAL "NATIVE" OR
capitalized_lib STREQUAL "NATIVECODEGEN" )
set(${return_var} ON PARENT_SCOPE)
endif()
endif()
endfunction()
macro(llvm_config executable)
cmake_parse_arguments(ARG "USE_SHARED" "" "" ${ARGN})
set(link_components ${ARG_UNPARSED_ARGUMENTS})
if(USE_SHARED)
# If USE_SHARED is specified, then we link against libLLVM,
# but also against the component libraries below. This is
# done in case libLLVM does not contain all of the components
# the target requires.
#
# Strip LLVM_DYLIB_COMPONENTS out of link_components.
# To do this, we need special handling for "all", since that
# may imply linking to libraries that are not included in
# libLLVM.
if (DEFINED link_components AND DEFINED LLVM_DYLIB_COMPONENTS)
if("${LLVM_DYLIB_COMPONENTS}" STREQUAL "all")
set(link_components "")
else()
list(REMOVE_ITEM link_components ${LLVM_DYLIB_COMPONENTS})
endif()
endif()
[CMake] Use PRIVATE in target_link_libraries for executables We currently use target_link_libraries without an explicit scope specifier (INTERFACE, PRIVATE or PUBLIC) when linking executables. Dependencies added in this way apply to both the target and its dependencies, i.e. they become part of the executable's link interface and are transitive. Transitive dependencies generally don't make sense for executables, since you wouldn't normally be linking against an executable. This also causes issues for generating install export files when using LLVM_DISTRIBUTION_COMPONENTS. For example, clang has a lot of LLVM library dependencies, which are currently added as interface dependencies. If clang is in the distribution components but the LLVM libraries it depends on aren't (which is a perfectly legitimate use case if the LLVM libraries are being built static and there are therefore no run-time dependencies on them), CMake will complain about the LLVM libraries not being in export set when attempting to generate the install export file for clang. This is reasonable behavior on CMake's part, and the right thing is for LLVM's build system to explicitly use PRIVATE dependencies for executables. Unfortunately, CMake doesn't allow you to mix and match the keyword and non-keyword target_link_libraries signatures for a single target; i.e., if a single call to target_link_libraries for a particular target uses one of the INTERFACE, PRIVATE, or PUBLIC keywords, all other calls must also be updated to use those keywords. This means we must do this change in a single shot. I also fully expect to have missed some instances; I tested by enabling all the projects in the monorepo (except dragonegg), and configuring both with and without shared libraries, on both Darwin and Linux, but I'm planning to rely on the buildbots for other configurations (since it should be pretty easy to fix those). Even after this change, we still have a lot of target_link_libraries calls that don't specify a scope keyword, mostly for shared libraries. I'm thinking about addressing those in a follow-up, but that's a separate change IMO. Differential Revision: https://reviews.llvm.org/D40823 llvm-svn: 319840
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target_link_libraries(${executable} PRIVATE LLVM)
endif()
explicit_llvm_config(${executable} ${link_components})
endmacro(llvm_config)
function(explicit_llvm_config executable)
set( link_components ${ARGN} )
llvm_map_components_to_libnames(LIBRARIES ${link_components})
get_target_property(t ${executable} TYPE)
if(t STREQUAL "STATIC_LIBRARY")
target_link_libraries(${executable} INTERFACE ${LIBRARIES})
[CMake] Use PRIVATE in target_link_libraries for executables We currently use target_link_libraries without an explicit scope specifier (INTERFACE, PRIVATE or PUBLIC) when linking executables. Dependencies added in this way apply to both the target and its dependencies, i.e. they become part of the executable's link interface and are transitive. Transitive dependencies generally don't make sense for executables, since you wouldn't normally be linking against an executable. This also causes issues for generating install export files when using LLVM_DISTRIBUTION_COMPONENTS. For example, clang has a lot of LLVM library dependencies, which are currently added as interface dependencies. If clang is in the distribution components but the LLVM libraries it depends on aren't (which is a perfectly legitimate use case if the LLVM libraries are being built static and there are therefore no run-time dependencies on them), CMake will complain about the LLVM libraries not being in export set when attempting to generate the install export file for clang. This is reasonable behavior on CMake's part, and the right thing is for LLVM's build system to explicitly use PRIVATE dependencies for executables. Unfortunately, CMake doesn't allow you to mix and match the keyword and non-keyword target_link_libraries signatures for a single target; i.e., if a single call to target_link_libraries for a particular target uses one of the INTERFACE, PRIVATE, or PUBLIC keywords, all other calls must also be updated to use those keywords. This means we must do this change in a single shot. I also fully expect to have missed some instances; I tested by enabling all the projects in the monorepo (except dragonegg), and configuring both with and without shared libraries, on both Darwin and Linux, but I'm planning to rely on the buildbots for other configurations (since it should be pretty easy to fix those). Even after this change, we still have a lot of target_link_libraries calls that don't specify a scope keyword, mostly for shared libraries. I'm thinking about addressing those in a follow-up, but that's a separate change IMO. Differential Revision: https://reviews.llvm.org/D40823 llvm-svn: 319840
2017-12-06 05:49:56 +08:00
elseif(t STREQUAL "EXECUTABLE" OR t STREQUAL "SHARED_LIBRARY" OR t STREQUAL "MODULE_LIBRARY")
target_link_libraries(${executable} PRIVATE ${LIBRARIES})
else()
# Use plain form for legacy user.
target_link_libraries(${executable} ${LIBRARIES})
endif()
endfunction(explicit_llvm_config)
# This is Deprecated
function(llvm_map_components_to_libraries OUT_VAR)
message(AUTHOR_WARNING "Using llvm_map_components_to_libraries() is deprecated. Use llvm_map_components_to_libnames() instead")
explicit_map_components_to_libraries(result ${ARGN})
set( ${OUT_VAR} ${result} ${sys_result} PARENT_SCOPE )
endfunction(llvm_map_components_to_libraries)
# This is a variant intended for the final user:
# Map LINK_COMPONENTS to actual libnames.
function(llvm_map_components_to_libnames out_libs)
set( link_components ${ARGN} )
if(NOT LLVM_AVAILABLE_LIBS)
# Inside LLVM itself available libs are in a global property.
get_property(LLVM_AVAILABLE_LIBS GLOBAL PROPERTY LLVM_LIBS)
endif()
string(TOUPPER "${LLVM_AVAILABLE_LIBS}" capitalized_libs)
get_property(LLVM_TARGETS_CONFIGURED GLOBAL PROPERTY LLVM_TARGETS_CONFIGURED)
# Generally in our build system we avoid order-dependence. Unfortunately since
# not all targets create the same set of libraries we actually need to ensure
# that all build targets associated with a target are added before we can
# process target dependencies.
if(NOT LLVM_TARGETS_CONFIGURED)
foreach(c ${link_components})
is_llvm_target_specifier(${c} iltl_result ALL_TARGETS)
if(iltl_result)
message(FATAL_ERROR "Specified target library before target registration is complete.")
endif()
endforeach()
endif()
# Expand some keywords:
list(FIND LLVM_TARGETS_TO_BUILD "${LLVM_NATIVE_ARCH}" have_native_backend)
list(FIND link_components "engine" engine_required)
if( NOT engine_required EQUAL -1 )
list(FIND LLVM_TARGETS_WITH_JIT "${LLVM_NATIVE_ARCH}" have_jit)
if( NOT have_native_backend EQUAL -1 AND NOT have_jit EQUAL -1 )
list(APPEND link_components "jit")
list(APPEND link_components "native")
else()
list(APPEND link_components "interpreter")
endif()
endif()
list(FIND link_components "native" native_required)
if( NOT native_required EQUAL -1 )
if( NOT have_native_backend EQUAL -1 )
list(APPEND link_components ${LLVM_NATIVE_ARCH})
endif()
endif()
# Translate symbolic component names to real libraries:
foreach(c ${link_components})
# add codegen, asmprinter, asmparser, disassembler
list(FIND LLVM_TARGETS_TO_BUILD ${c} idx)
if( NOT idx LESS 0 )
if( TARGET LLVM${c}CodeGen )
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list(APPEND expanded_components "LLVM${c}CodeGen")
else()
if( TARGET LLVM${c} )
2014-02-03 00:46:35 +08:00
list(APPEND expanded_components "LLVM${c}")
else()
message(FATAL_ERROR "Target ${c} is not in the set of libraries.")
endif()
endif()
if( TARGET LLVM${c}AsmParser )
list(APPEND expanded_components "LLVM${c}AsmParser")
endif()
if( TARGET LLVM${c}AsmPrinter )
list(APPEND expanded_components "LLVM${c}AsmPrinter")
endif()
if( TARGET LLVM${c}Desc )
list(APPEND expanded_components "LLVM${c}Desc")
endif()
if( TARGET LLVM${c}Disassembler )
list(APPEND expanded_components "LLVM${c}Disassembler")
endif()
if( TARGET LLVM${c}Info )
list(APPEND expanded_components "LLVM${c}Info")
endif()
if( TARGET LLVM${c}Utils )
list(APPEND expanded_components "LLVM${c}Utils")
endif()
elseif( c STREQUAL "native" )
# already processed
elseif( c STREQUAL "nativecodegen" )
list(APPEND expanded_components "LLVM${LLVM_NATIVE_ARCH}CodeGen")
if( TARGET LLVM${LLVM_NATIVE_ARCH}Desc )
list(APPEND expanded_components "LLVM${LLVM_NATIVE_ARCH}Desc")
endif()
if( TARGET LLVM${LLVM_NATIVE_ARCH}Info )
list(APPEND expanded_components "LLVM${LLVM_NATIVE_ARCH}Info")
endif()
elseif( c STREQUAL "backend" )
# same case as in `native'.
elseif( c STREQUAL "engine" )
# already processed
elseif( c STREQUAL "all" )
list(APPEND expanded_components ${LLVM_AVAILABLE_LIBS})
elseif( c STREQUAL "AllTargetsAsmPrinters" )
# Link all the asm printers from all the targets
foreach(t ${LLVM_TARGETS_TO_BUILD})
if( TARGET LLVM${t}AsmPrinter )
list(APPEND expanded_components "LLVM${t}AsmPrinter")
endif()
endforeach(t)
elseif( c STREQUAL "AllTargetsAsmParsers" )
# Link all the asm parsers from all the targets
foreach(t ${LLVM_TARGETS_TO_BUILD})
if( TARGET LLVM${t}AsmParser )
list(APPEND expanded_components "LLVM${t}AsmParser")
endif()
endforeach(t)
elseif( c STREQUAL "AllTargetsDescs" )
# Link all the descs from all the targets
foreach(t ${LLVM_TARGETS_TO_BUILD})
if( TARGET LLVM${t}Desc )
list(APPEND expanded_components "LLVM${t}Desc")
endif()
endforeach(t)
elseif( c STREQUAL "AllTargetsDisassemblers" )
# Link all the disassemblers from all the targets
foreach(t ${LLVM_TARGETS_TO_BUILD})
if( TARGET LLVM${t}Disassembler )
list(APPEND expanded_components "LLVM${t}Disassembler")
endif()
endforeach(t)
elseif( c STREQUAL "AllTargetsInfos" )
# Link all the infos from all the targets
foreach(t ${LLVM_TARGETS_TO_BUILD})
if( TARGET LLVM${t}Info )
list(APPEND expanded_components "LLVM${t}Info")
endif()
endforeach(t)
else( NOT idx LESS 0 )
# Canonize the component name:
string(TOUPPER "${c}" capitalized)
list(FIND capitalized_libs LLVM${capitalized} lib_idx)
if( lib_idx LESS 0 )
# The component is unknown. Maybe is an omitted target?
is_llvm_target_library(${c} iltl_result OMITTED_TARGETS)
if(iltl_result)
# A missing library to a directly referenced omitted target would be bad.
message(FATAL_ERROR "Library '${c}' is a direct reference to a target library for an omitted target.")
else()
# If it is not an omitted target we should assume it is a component
# that hasn't yet been processed by CMake. Missing components will
# cause errors later in the configuration, so we can safely assume
# that this is valid here.
list(APPEND expanded_components LLVM${c})
endif()
else( lib_idx LESS 0 )
list(GET LLVM_AVAILABLE_LIBS ${lib_idx} canonical_lib)
list(APPEND expanded_components ${canonical_lib})
endif( lib_idx LESS 0 )
endif( NOT idx LESS 0 )
endforeach(c)
set(${out_libs} ${expanded_components} PARENT_SCOPE)
endfunction()
# Perform a post-order traversal of the dependency graph.
# This duplicates the algorithm used by llvm-config, originally
# in tools/llvm-config/llvm-config.cpp, function ComputeLibsForComponents.
function(expand_topologically name required_libs visited_libs)
list(FIND visited_libs ${name} found)
if( found LESS 0 )
list(APPEND visited_libs ${name})
set(visited_libs ${visited_libs} PARENT_SCOPE)
get_property(lib_deps GLOBAL PROPERTY LLVMBUILD_LIB_DEPS_${name})
foreach( lib_dep ${lib_deps} )
expand_topologically(${lib_dep} "${required_libs}" "${visited_libs}")
set(required_libs ${required_libs} PARENT_SCOPE)
set(visited_libs ${visited_libs} PARENT_SCOPE)
endforeach()
list(APPEND required_libs ${name})
set(required_libs ${required_libs} PARENT_SCOPE)
endif()
endfunction()
# Expand dependencies while topologically sorting the list of libraries:
function(llvm_expand_dependencies out_libs)
set(expanded_components ${ARGN})
set(required_libs)
set(visited_libs)
foreach( lib ${expanded_components} )
expand_topologically(${lib} "${required_libs}" "${visited_libs}")
endforeach()
list(REVERSE required_libs)
set(${out_libs} ${required_libs} PARENT_SCOPE)
endfunction()
function(explicit_map_components_to_libraries out_libs)
llvm_map_components_to_libnames(link_libs ${ARGN})
llvm_expand_dependencies(expanded_components ${link_libs})
# Return just the libraries included in this build:
set(result)
foreach(c ${expanded_components})
if( TARGET ${c} )
set(result ${result} ${c})
endif()
endforeach(c)
set(${out_libs} ${result} PARENT_SCOPE)
endfunction(explicit_map_components_to_libraries)