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CMakeLists.txt
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CMakeLists.txt
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# ########################################################################
# Copyright 2016 Advanced Micro Devices, Inc.
# ########################################################################
# The ROCm platform requires Ubuntu 16.04 or Fedora 24, which has cmake 3.5
cmake_minimum_required( VERSION 3.5 )
# Consider removing this in the future
# This should appear before the project command, because it does not use FORCE
if( WIN32 )
set( CMAKE_INSTALL_PREFIX "${PROJECT_BINARY_DIR}/package" CACHE PATH "Install path prefix, prepended onto install directories" )
else( )
set( CMAKE_INSTALL_PREFIX "/opt/rocm" CACHE PATH "Install path prefix, prepended onto install directories" )
endif( )
# This has to be initialized before the project() command appears
# Set the default of CMAKE_BUILD_TYPE to be release, unless user specifies with -D. MSVC_IDE does not use CMAKE_BUILD_TYPE
if( NOT DEFINED CMAKE_CONFIGURATION_TYPES AND NOT DEFINED CMAKE_BUILD_TYPE )
set( CMAKE_BUILD_TYPE Release CACHE STRING "Choose the type of build, options are: None Debug Release RelWithDebInfo MinSizeRel." )
endif()
# Honor per-config flags in try_compile() source-file signature. cmake v3.7 and up
if( POLICY CMP0066 )
cmake_policy( SET CMP0066 NEW )
endif( )
if ( NOT DEFINED CMAKE_Fortran_COMPILER AND NOT DEFINED ENV{FC} )
set( CMAKE_Fortran_COMPILER "gfortran" )
endif()
project( rocblas LANGUAGES CXX )
# ########################################################################
# NOTE: CUDA compiling path
# ########################################################################
# I have tried compiling rocBLAS library source with multiple methods,
# and ended up using the approach where we set the CXX compiler to hipcc.
# I didn't like using the HIP_ADD_LIBRARY or CUDA_ADD_LIBRARY approaches,
# for the reasons I list here.
# 1. Adding header include directories is through HIP_INCLUDE_DIRECTORIES(), which
# is global to a directory and affects all targets
# 2. You must add HIP_SOURCE_PROPERTY_FORMAT OBJ properties to .cpp files
# to get HIP_ADD_LIBRARY to recognize the file
# 3. HIP_ADD_LIBRARY invokes a call to add_custom_command() to compile files,
# and rocBLAS does the same. The order in which custom commands execute is
# undefined, and sometimes a file is attempted to be compiled before it has
# been generated. The fix for this is to create 'PHONY' targets, which I
# don't desire.
# Using hipcc allows us to avoid the above problems, with two primary costs:
# 1. The cmake logic to detect compiler features fails with nvcc backend
# 2. Upfront cost to figure out all the strange compiler/linker flags I define
# below.
# Hopefully, cost #2 is already paid. All in all, I want to get rid of the
# need for hipcc, and hope that at some point of time in the future we
# can use the export config files from hip & hcc for both ROCm & nvcc backends.
# ########################################################################
# ########################################################################
# Main
# ########################################################################
if( CMAKE_CXX_COMPILER MATCHES ".*/hipcc$" OR CMAKE_CXX_COMPILER MATCHES ".*/hcc$")
# Determine if CXX Compiler is hcc, hip-clang or nvcc
execute_process(COMMAND ${CMAKE_CXX_COMPILER} "--version" OUTPUT_VARIABLE CXX_OUTPUT
OUTPUT_STRIP_TRAILING_WHITESPACE
ERROR_STRIP_TRAILING_WHITESPACE)
string(REGEX MATCH "[A-Za-z]* ?clang version" TMP_CXX_VERSION ${CXX_OUTPUT})
string(REGEX MATCH "[A-Za-z]+" CXX_VERSION_STRING ${TMP_CXX_VERSION})
endif()
if( CXX_VERSION_STRING MATCHES "clang" )
message( STATUS "Use hip-clang to build for amdgpu backend" )
elseif( CXX_VERSION_STRING MATCHES "nvcc" )
message( STATUS "HIPCC nvcc compiler detected; CUDA backend selected" )
set( CMAKE_C_COMPILE_OPTIONS_PIC "-Xcompiler ${CMAKE_C_COMPILE_OPTIONS_PIC}" )
set( CMAKE_CXX_COMPILE_OPTIONS_PIC "-Xcompiler ${CMAKE_CXX_COMPILE_OPTIONS_PIC}" )
set( CMAKE_SHARED_LIBRARY_C_FLAGS "-Xlinker ${CMAKE_SHARED_LIBRARY_C_FLAGS}" )
set( CMAKE_SHARED_LIBRARY_CXX_FLAGS "-Xlinker ${CMAKE_SHARED_LIBRARY_CXX_FLAGS}" )
set( CMAKE_SHARED_LIBRARY_SONAME_C_FLAG "-Xlinker -soname," )
set( CMAKE_SHARED_LIBRARY_SONAME_CXX_FLAG "-Xlinker -soname," )
set( CMAKE_SHARED_LIBRARY_RUNTIME_C_FLAG "-Xlinker -rpath," )
set( CMAKE_SHARED_LIBRARY_RUNTIME_CXX_FLAG "-Xlinker -rpath," )
set( CMAKE_EXECUTABLE_RUNTIME_C_FLAG "-Xlinker -rpath," )
set( CMAKE_EXECUTABLE_RUNTIME_CXX_FLAG "-Xlinker -rpath," )
set( CMAKE_C_COMPILE_OPTIONS_VISIBILITY "-Xcompiler ${CMAKE_C_COMPILE_OPTIONS_VISIBILITY}" )
set( CMAKE_CXX_COMPILE_OPTIONS_VISIBILITY "-Xcompiler ${CMAKE_CXX_COMPILE_OPTIONS_VISIBILITY}" )
set( CMAKE_C_COMPILE_OPTIONS_VISIBILITY_INLINES_HIDDEN "-Xcompiler ${CMAKE_C_COMPILE_OPTIONS_VISIBILITY_INLINES_HIDDEN}" )
set( CMAKE_CXX_COMPILE_OPTIONS_VISIBILITY_INLINES_HIDDEN "-Xcompiler ${CMAKE_CXX_COMPILE_OPTIONS_VISIBILITY_INLINES_HIDDEN}" )
elseif( CXX_VERSION_STRING MATCHES "HCC" )
message( STATUS "HCC compiler set; ROCm backend selected [ CXX=/opt/rocm/bin/hcc cmake ... ]" )
endif( )
# This finds the rocm-cmake project, and installs it if not found
# rocm-cmake contains common cmake code for rocm projects to help setup and install
set( PROJECT_EXTERN_DIR ${CMAKE_CURRENT_BINARY_DIR}/extern )
find_package( ROCM CONFIG QUIET PATHS /opt/rocm )
if( NOT ROCM_FOUND )
set( rocm_cmake_tag "master" CACHE STRING "rocm-cmake tag to download" )
file( DOWNLOAD https://github.com/RadeonOpenCompute/rocm-cmake/archive/${rocm_cmake_tag}.zip
${PROJECT_EXTERN_DIR}/rocm-cmake-${rocm_cmake_tag}.zip STATUS status LOG log)
list(GET status 0 status_code)
list(GET status 1 status_string)
if(NOT status_code EQUAL 0)
message(FATAL_ERROR "error: downloading
'https://github.com/RadeonOpenCompute/rocm-cmake/archive/${rocm_cmake_tag}.zip' failed
status_code: ${status_code}
status_string: ${status_string}
log: ${log}
")
endif()
message(STATUS "downloading... done")
execute_process( COMMAND ${CMAKE_COMMAND} -E tar xzvf ${PROJECT_EXTERN_DIR}/rocm-cmake-${rocm_cmake_tag}.zip
WORKING_DIRECTORY ${PROJECT_EXTERN_DIR} )
find_package( ROCM REQUIRED CONFIG PATHS ${PROJECT_EXTERN_DIR}/rocm-cmake-${rocm_cmake_tag} )
endif( )
include( ROCMSetupVersion )
include( ROCMCreatePackage )
include( ROCMInstallTargets )
include( ROCMPackageConfigHelpers )
include( ROCMInstallSymlinks )
set ( VERSION_STRING "2.3.5." )
# Check if BUILD_NUMBER is defined in a Jenkins envirnment
if ($ENV{BUILD_NUMBER} )
string(CONCAT BUILD_VERSION ${VERSION_STRING} $ENV{BUILD_NUMBER})
else ()
string(CONCAT BUILD_VERSION ${VERSION_STRING} "0")
endif ()
rocm_setup_version( VERSION ${BUILD_VERSION} NO_GIT_TAG_VERSION )
# Get the git tag version
include ( cmake/version.cmake )
rocm_get_git_commit_id ( rocblas_VERSION_COMMIT_ID )
# Append our library helper cmake path and the cmake path for hip (for convenience)
# Users may override HIP path by specifying their own in CMAKE_MODULE_PATH
list( APPEND CMAKE_MODULE_PATH ${CMAKE_CURRENT_SOURCE_DIR}/cmake )
# NOTE: workaround until hcc & hip cmake modules fixes symlink logic in their config files; remove when fixed
list( APPEND CMAKE_PREFIX_PATH /opt/rocm/hcc /opt/rocm/hip )
option( BUILD_VERBOSE "Output additional build information" OFF )
# BUILD_SHARED_LIBS is a cmake built-in; we make it an explicit option such that it shows in cmake-gui
option( BUILD_SHARED_LIBS "Build rocBLAS as a shared library" ON )
include( clients/cmake/build-options.cmake )
# force library install path to lib (CentOS 7 defaults to lib64)
set(CMAKE_INSTALL_LIBDIR "lib" CACHE INTERNAL "Installation directory for libraries" FORCE)
if( BUILD_WITH_TENSILE )
set( Tensile_LOGIC "asm_full" CACHE STRING "Tensile to use which logic?")
option( Tensile_MERGE_FILES "Tensile to merge kernels and solutions files?" ON )
option( Tensile_SHORT_FILENAMES "Tensile to use short file names? Use if compiler complains they're too long." OFF )
option( Tensile_PRINT_DEBUG "Tensile to print runtime debug info?" OFF )
set( Tensile_TEST_LOCAL_PATH "" CACHE PATH "Use local Tensile directory instead of fetching a GitHub branch" )
set( CMAKE_INSTALL_PREFIX "/opt/rocm" CACHE PATH "Install path prefix, prepended onto install directories" )
set_property( CACHE Tensile_LOGIC PROPERTY STRINGS asm_full asm_lite hip_lite other )
include(virtualenv)
if (Tensile_TEST_LOCAL_PATH)
virtualenv_install(${Tensile_TEST_LOCAL_PATH})
message (STATUS "using local Tensile from ${Tensile_TEST_LOCAL_PATH}, copied to ${Tensile_ROOT}")
else()
# Use the virtual-env setup and download package from specified repot:
set( tensile_fork "ROCmSoftwarePlatform" CACHE STRING "Tensile fork to use" )
set( tensile_tag "develop" CACHE STRING "Tensile tag to download" )
virtualenv_install("git+https://github.com/${tensile_fork}/Tensile.git@${tensile_tag}")
message (STATUS "using GIT Tensile fork=${tensile_fork} from branch=${tensile_tag}")
endif()
list(APPEND CMAKE_PREFIX_PATH ${VIRTUALENV_HOME_DIR})
set( Tensile_ROOT "${VIRTUALENV_HOME_DIR}/lib/python2.7/site-packages/" CACHE STRING "Local path of Tensile" )
set( Tensile_TensileConfig ${VIRTUALENV_HOME_DIR}/cmake/TensileConfig.cmake)
endif()
# Find HCC/HIP dependencies
if( CMAKE_CXX_COMPILER MATCHES ".*/hcc$" )
find_package( hcc REQUIRED CONFIG PATHS /opt/rocm )
find_package( hip REQUIRED CONFIG PATHS /opt/rocm )
endif( )
# CMake list of machine targets
set( AMDGPU_TARGETS gfx803;gfx900;gfx906 CACHE STRING "List of specific machine types for library to target" )
add_subdirectory( library )
# Build clients of the library
if( BUILD_CLIENTS_SAMPLES OR BUILD_CLIENTS_TESTS OR BUILD_CLIENTS_BENCHMARKS )
add_subdirectory( clients )
endif( )