Modules/ProcessorCount.cmake - third_party/github.com/Kitware/CMake - Git at Google

 # Distributed under the OSI-approved BSD 3-Clause License.  See accompanying
 # file Copyright.txt or https://cmake.org/licensing for details.

 #[=======================================================================[.rst:
 ProcessorCount
 --------------

 ProcessorCount(var)

 Determine the number of processors/cores and save value in ${var}

 Sets the variable named ${var} to the number of physical cores
 available on the machine if the information can be determined.
 Otherwise it is set to 0.  Currently this functionality is implemented
 for AIX, cygwin, FreeBSD, HPUX, Linux, macOS, QNX, Sun and
 Windows.

 .. versionchanged:: 3.15
   On Linux, returns the container CPU count instead of the host CPU count.

 This function is guaranteed to return a positive integer (>=1) if it
 succeeds.  It returns 0 if there's a problem determining the processor
 count.

 More generally accurate physical CPU count can be obtained via
 :command:`cmake_host_system_information`:

 .. code-block:: cmake

   cmake_host_system_information(RESULT N
                                 QUERY NUMBER_OF_PHYSICAL_CORES)

 Example use, in a ctest -S dashboard script:

 .. code-block:: cmake

    include(ProcessorCount)
    ProcessorCount(N)
    if(NOT N EQUAL 0)
      set(CTEST_BUILD_FLAGS -j${N})
      set(ctest_test_args ${ctest_test_args} PARALLEL_LEVEL ${N})
    endif()

 This function is intended to offer an approximation of the value of
 the number of compute cores available on the current machine, such
 that you may use that value for parallel building and parallel
 testing.  It is meant to help utilize as much of the machine as seems
 reasonable.  Of course, knowledge of what else might be running on the
 machine simultaneously should be used when deciding whether to request
 a machine's full capacity all for yourself.
 #]=======================================================================]

 # A more reliable way might be to compile a small C program that uses the CPUID
 # instruction, but that again requires compiler support or compiling assembler
 # code.

 function(ProcessorCount var)
   # Unknown:
   set(count 0)

   if(WIN32)
     # Windows:
     set(count "$ENV{NUMBER_OF_PROCESSORS}")
     #message("ProcessorCount: WIN32, trying environment variable")
   endif()

   if(NOT count)
     # Mac, FreeBSD, OpenBSD (systems with sysctl):
     find_program(ProcessorCount_cmd_sysctl sysctl
       PATHS /usr/sbin /sbin)
     mark_as_advanced(ProcessorCount_cmd_sysctl)
     if(ProcessorCount_cmd_sysctl)
       execute_process(COMMAND ${ProcessorCount_cmd_sysctl} -n hw.ncpu
         ERROR_QUIET
         OUTPUT_STRIP_TRAILING_WHITESPACE
         OUTPUT_VARIABLE count)
       #message("ProcessorCount: trying sysctl '${ProcessorCount_cmd_sysctl}'")
     endif()
   endif()

   if(NOT count)
     # Linux (systems with nproc):
     # Prefer nproc to getconf if available as getconf may return the host CPU count in Linux containers
     find_program(ProcessorCount_cmd_nproc nproc)
     mark_as_advanced(ProcessorCount_cmd_nproc)
     if(ProcessorCount_cmd_nproc)
       execute_process(COMMAND ${ProcessorCount_cmd_nproc}
         ERROR_QUIET
         OUTPUT_STRIP_TRAILING_WHITESPACE
         OUTPUT_VARIABLE count)
       #message("ProcessorCount: trying nproc '${ProcessorCount_cmd_nproc}'")
     endif()
   endif()

   if(NOT count)
     # Linux (systems with getconf):
     find_program(ProcessorCount_cmd_getconf getconf)
     mark_as_advanced(ProcessorCount_cmd_getconf)
     if(ProcessorCount_cmd_getconf)
       execute_process(COMMAND ${ProcessorCount_cmd_getconf} _NPROCESSORS_ONLN
         ERROR_QUIET
         OUTPUT_STRIP_TRAILING_WHITESPACE
         OUTPUT_VARIABLE count)
       #message("ProcessorCount: trying getconf '${ProcessorCount_cmd_getconf}'")
     endif()
   endif()

   if(NOT count)
     # HPUX (systems with machinfo):
     find_program(ProcessorCount_cmd_machinfo machinfo
       PATHS /usr/contrib/bin)
     mark_as_advanced(ProcessorCount_cmd_machinfo)
     if(ProcessorCount_cmd_machinfo)
       execute_process(COMMAND ${ProcessorCount_cmd_machinfo}
         ERROR_QUIET
         OUTPUT_STRIP_TRAILING_WHITESPACE
         OUTPUT_VARIABLE machinfo_output)
       string(REGEX MATCHALL "Number of CPUs = ([0-9]+)" procs "${machinfo_output}")
       set(count "${CMAKE_MATCH_1}")
       if(NOT count)
         string(REGEX MATCHALL "([0-9]+) logical processors" procs "${machinfo_output}")
         set(count "${CMAKE_MATCH_1}")
       endif()
       #message("ProcessorCount: trying machinfo '${ProcessorCount_cmd_machinfo}'")
     else()
       find_program(ProcessorCount_cmd_mpsched mpsched)
       mark_as_advanced(ProcessorCount_cmd_mpsched)
       if(ProcessorCount_cmd_mpsched)
         execute_process(COMMAND ${ProcessorCount_cmd_mpsched} -s
           OUTPUT_QUIET
           ERROR_STRIP_TRAILING_WHITESPACE
           ERROR_VARIABLE mpsched_output)
         string(REGEX MATCHALL "Processor Count *: *([0-9]+)" procs "${mpsched_output}")
         set(count "${CMAKE_MATCH_1}")
         #message("ProcessorCount: trying mpsched -s '${ProcessorCount_cmd_mpsched}'")
       endif()
     endif()
   endif()

   if(NOT count)
     # AIX (systems with lsconf):
     find_program(ProcessorCount_cmd_lsconf lsconf
       PATHS /usr/sbin)
     mark_as_advanced(ProcessorCount_cmd_lsconf)
     if(ProcessorCount_cmd_lsconf)
       execute_process(COMMAND ${ProcessorCount_cmd_lsconf}
         ERROR_QUIET
         OUTPUT_STRIP_TRAILING_WHITESPACE
         OUTPUT_VARIABLE lsconf_output)
       string(REGEX MATCHALL "Number Of Processors: ([0-9]+)" procs "${lsconf_output}")
       set(count "${CMAKE_MATCH_1}")
       #message("ProcessorCount: trying lsconf '${ProcessorCount_cmd_lsconf}'")
     endif()
   endif()

   if(NOT count)
     # QNX (systems with pidin):
     find_program(ProcessorCount_cmd_pidin pidin)
     mark_as_advanced(ProcessorCount_cmd_pidin)
     if(ProcessorCount_cmd_pidin)
       execute_process(COMMAND ${ProcessorCount_cmd_pidin} info
         ERROR_QUIET
         OUTPUT_STRIP_TRAILING_WHITESPACE
         OUTPUT_VARIABLE pidin_output)
       string(REGEX MATCHALL "Processor[0-9]+: " procs "${pidin_output}")
       list(LENGTH procs count)
       #message("ProcessorCount: trying pidin '${ProcessorCount_cmd_pidin}'")
     endif()
   endif()

   if(NOT count)
     # Sun (systems where psrinfo tool is available)
     find_program(ProcessorCount_cmd_psrinfo psrinfo PATHS /usr/sbin /sbin)
     mark_as_advanced(ProcessorCount_cmd_psrinfo)
     if (ProcessorCount_cmd_psrinfo)
       execute_process(COMMAND ${ProcessorCount_cmd_psrinfo} -p -v
         ERROR_QUIET
         OUTPUT_STRIP_TRAILING_WHITESPACE
         OUTPUT_VARIABLE psrinfo_output)
       string(REGEX MATCHALL "has [0-9]+ virtual processor" procs "${psrinfo_output}")
       set(count "")
       foreach(proc ${procs})
         string(REGEX MATCH "has ([0-9]+) virtual" res ${proc})
         math(EXPR count "${count} + ${CMAKE_MATCH_1}")
       endforeach()
       #message("ProcessorCount: trying '${ProcessorCount_cmd_psrinfo}' -p -v")
     else()
       # Sun (systems where uname -X emits "NumCPU" in its output):
       find_program(ProcessorCount_cmd_uname uname)
       mark_as_advanced(ProcessorCount_cmd_uname)
       if(ProcessorCount_cmd_uname)
         execute_process(COMMAND ${ProcessorCount_cmd_uname} -X
           ERROR_QUIET
           OUTPUT_STRIP_TRAILING_WHITESPACE
           OUTPUT_VARIABLE uname_X_output)
         string(REGEX MATCHALL "NumCPU = ([0-9]+)" procs "${uname_X_output}")
         set(count "${CMAKE_MATCH_1}")
         #message("ProcessorCount: trying uname -X '${ProcessorCount_cmd_uname}'")
       endif()
     endif()
   endif()

   # Execute this code when all previously attempted methods return empty
   # output:
   #
   if(NOT count)
     # Systems with /proc/cpuinfo:
     set(cpuinfo_file /proc/cpuinfo)
     if(EXISTS "${cpuinfo_file}")
       cmake_policy(PUSH)
       cmake_policy(SET CMP0159 NEW) # file(STRINGS) with REGEX updates CMAKE_MATCH_<n>
       file(STRINGS "${cpuinfo_file}" procs REGEX "^processor.: [0-9]+$")
       cmake_policy(POP)
       list(LENGTH procs count)
       #message("ProcessorCount: trying cpuinfo '${cpuinfo_file}'")
     endif()
   endif()

   if(NOT count)
     # Haiku
     find_program(ProcessorCount_cmd_sysinfo sysinfo)
     if(ProcessorCount_cmd_sysinfo)
       execute_process(COMMAND ${ProcessorCount_cmd_sysinfo}
         ERROR_QUIET
         OUTPUT_STRIP_TRAILING_WHITESPACE
         OUTPUT_VARIABLE sysinfo_X_output)
       string(REGEX MATCHALL "\nCPU #[0-9]+:" procs "\n${sysinfo_X_output}")
       list(LENGTH procs count)
       #message("ProcessorCount: trying sysinfo '${ProcessorCount_cmd_sysinfo}'")
     endif()
   endif()

   # Since cygwin builds of CMake do not define WIN32 anymore, but they still
   # run on Windows, and will still have this env var defined:
   #
   if(NOT count)
     set(count "$ENV{NUMBER_OF_PROCESSORS}")
     #message("ProcessorCount: last fallback, trying environment variable")
   endif()

   # Ensure an integer return (avoid inadvertently returning an empty string
   # or an error string)... If it's not a decimal integer, return 0:
   #
   if(NOT count MATCHES "^[0-9]+$")
     set(count 0)
   endif()

   set(${var} ${count} PARENT_SCOPE)
 endfunction()
	# Distributed under the OSI-approved BSD 3-Clause License. See accompanying
	# file Copyright.txt or https://cmake.org/licensing for details.

	#[=======================================================================[.rst:
	ProcessorCount
	--------------

	ProcessorCount(var)

	Determine the number of processors/cores and save value in ${var}

	Sets the variable named ${var} to the number of physical cores
	available on the machine if the information can be determined.
	Otherwise it is set to 0. Currently this functionality is implemented
	for AIX, cygwin, FreeBSD, HPUX, Linux, macOS, QNX, Sun and
	Windows.

	.. versionchanged:: 3.15
	On Linux, returns the container CPU count instead of the host CPU count.

	This function is guaranteed to return a positive integer (>=1) if it
	succeeds. It returns 0 if there's a problem determining the processor
	count.

	More generally accurate physical CPU count can be obtained via
	:command:`cmake_host_system_information`:

	.. code-block:: cmake

	cmake_host_system_information(RESULT N
	QUERY NUMBER_OF_PHYSICAL_CORES)

	Example use, in a ctest -S dashboard script:

	.. code-block:: cmake

	include(ProcessorCount)
	ProcessorCount(N)
	if(NOT N EQUAL 0)
	set(CTEST_BUILD_FLAGS -j${N})
	set(ctest_test_args ${ctest_test_args} PARALLEL_LEVEL ${N})
	endif()

	This function is intended to offer an approximation of the value of
	the number of compute cores available on the current machine, such
	that you may use that value for parallel building and parallel
	testing. It is meant to help utilize as much of the machine as seems
	reasonable. Of course, knowledge of what else might be running on the
	machine simultaneously should be used when deciding whether to request
	a machine's full capacity all for yourself.
	#]=======================================================================]

	# A more reliable way might be to compile a small C program that uses the CPUID
	# instruction, but that again requires compiler support or compiling assembler
	# code.

	function(ProcessorCount var)
	# Unknown:
	set(count 0)

	if(WIN32)
	# Windows:
	set(count "$ENV{NUMBER_OF_PROCESSORS}")
	#message("ProcessorCount: WIN32, trying environment variable")
	endif()

	if(NOT count)
	# Mac, FreeBSD, OpenBSD (systems with sysctl):
	find_program(ProcessorCount_cmd_sysctl sysctl
	PATHS /usr/sbin /sbin)
	mark_as_advanced(ProcessorCount_cmd_sysctl)
	if(ProcessorCount_cmd_sysctl)
	execute_process(COMMAND ${ProcessorCount_cmd_sysctl} -n hw.ncpu
	ERROR_QUIET
	OUTPUT_STRIP_TRAILING_WHITESPACE
	OUTPUT_VARIABLE count)
	#message("ProcessorCount: trying sysctl '${ProcessorCount_cmd_sysctl}'")
	endif()
	endif()

	if(NOT count)
	# Linux (systems with nproc):
	# Prefer nproc to getconf if available as getconf may return the host CPU count in Linux containers
	find_program(ProcessorCount_cmd_nproc nproc)
	mark_as_advanced(ProcessorCount_cmd_nproc)
	if(ProcessorCount_cmd_nproc)
	execute_process(COMMAND ${ProcessorCount_cmd_nproc}
	ERROR_QUIET
	OUTPUT_STRIP_TRAILING_WHITESPACE
	OUTPUT_VARIABLE count)
	#message("ProcessorCount: trying nproc '${ProcessorCount_cmd_nproc}'")
	endif()
	endif()

	if(NOT count)
	# Linux (systems with getconf):
	find_program(ProcessorCount_cmd_getconf getconf)
	mark_as_advanced(ProcessorCount_cmd_getconf)
	if(ProcessorCount_cmd_getconf)
	execute_process(COMMAND ${ProcessorCount_cmd_getconf} _NPROCESSORS_ONLN
	ERROR_QUIET
	OUTPUT_STRIP_TRAILING_WHITESPACE
	OUTPUT_VARIABLE count)
	#message("ProcessorCount: trying getconf '${ProcessorCount_cmd_getconf}'")
	endif()
	endif()

	if(NOT count)
	# HPUX (systems with machinfo):
	find_program(ProcessorCount_cmd_machinfo machinfo
	PATHS /usr/contrib/bin)
	mark_as_advanced(ProcessorCount_cmd_machinfo)
	if(ProcessorCount_cmd_machinfo)
	execute_process(COMMAND ${ProcessorCount_cmd_machinfo}
	ERROR_QUIET
	OUTPUT_STRIP_TRAILING_WHITESPACE
	OUTPUT_VARIABLE machinfo_output)
	string(REGEX MATCHALL "Number of CPUs = ([0-9]+)" procs "${machinfo_output}")
	set(count "${CMAKE_MATCH_1}")
	if(NOT count)
	string(REGEX MATCHALL "([0-9]+) logical processors" procs "${machinfo_output}")
	set(count "${CMAKE_MATCH_1}")
	endif()
	#message("ProcessorCount: trying machinfo '${ProcessorCount_cmd_machinfo}'")
	else()
	find_program(ProcessorCount_cmd_mpsched mpsched)
	mark_as_advanced(ProcessorCount_cmd_mpsched)
	if(ProcessorCount_cmd_mpsched)
	execute_process(COMMAND ${ProcessorCount_cmd_mpsched} -s
	OUTPUT_QUIET
	ERROR_STRIP_TRAILING_WHITESPACE
	ERROR_VARIABLE mpsched_output)
	string(REGEX MATCHALL "Processor Count : ([0-9]+)" procs "${mpsched_output}")
	set(count "${CMAKE_MATCH_1}")
	#message("ProcessorCount: trying mpsched -s '${ProcessorCount_cmd_mpsched}'")
	endif()
	endif()
	endif()

	if(NOT count)
	# AIX (systems with lsconf):
	find_program(ProcessorCount_cmd_lsconf lsconf
	PATHS /usr/sbin)
	mark_as_advanced(ProcessorCount_cmd_lsconf)
	if(ProcessorCount_cmd_lsconf)
	execute_process(COMMAND ${ProcessorCount_cmd_lsconf}
	ERROR_QUIET
	OUTPUT_STRIP_TRAILING_WHITESPACE
	OUTPUT_VARIABLE lsconf_output)
	string(REGEX MATCHALL "Number Of Processors: ([0-9]+)" procs "${lsconf_output}")
	set(count "${CMAKE_MATCH_1}")
	#message("ProcessorCount: trying lsconf '${ProcessorCount_cmd_lsconf}'")
	endif()
	endif()

	if(NOT count)
	# QNX (systems with pidin):
	find_program(ProcessorCount_cmd_pidin pidin)
	mark_as_advanced(ProcessorCount_cmd_pidin)
	if(ProcessorCount_cmd_pidin)
	execute_process(COMMAND ${ProcessorCount_cmd_pidin} info
	ERROR_QUIET
	OUTPUT_STRIP_TRAILING_WHITESPACE
	OUTPUT_VARIABLE pidin_output)
	string(REGEX MATCHALL "Processor[0-9]+: " procs "${pidin_output}")
	list(LENGTH procs count)
	#message("ProcessorCount: trying pidin '${ProcessorCount_cmd_pidin}'")
	endif()
	endif()

	if(NOT count)
	# Sun (systems where psrinfo tool is available)
	find_program(ProcessorCount_cmd_psrinfo psrinfo PATHS /usr/sbin /sbin)
	mark_as_advanced(ProcessorCount_cmd_psrinfo)
	if (ProcessorCount_cmd_psrinfo)
	execute_process(COMMAND ${ProcessorCount_cmd_psrinfo} -p -v
	ERROR_QUIET
	OUTPUT_STRIP_TRAILING_WHITESPACE
	OUTPUT_VARIABLE psrinfo_output)
	string(REGEX MATCHALL "has [0-9]+ virtual processor" procs "${psrinfo_output}")
	set(count "")
	foreach(proc ${procs})
	string(REGEX MATCH "has ([0-9]+) virtual" res ${proc})
	math(EXPR count "${count} + ${CMAKE_MATCH_1}")
	endforeach()
	#message("ProcessorCount: trying '${ProcessorCount_cmd_psrinfo}' -p -v")
	else()
	# Sun (systems where uname -X emits "NumCPU" in its output):
	find_program(ProcessorCount_cmd_uname uname)
	mark_as_advanced(ProcessorCount_cmd_uname)
	if(ProcessorCount_cmd_uname)
	execute_process(COMMAND ${ProcessorCount_cmd_uname} -X
	ERROR_QUIET
	OUTPUT_STRIP_TRAILING_WHITESPACE
	OUTPUT_VARIABLE uname_X_output)
	string(REGEX MATCHALL "NumCPU = ([0-9]+)" procs "${uname_X_output}")
	set(count "${CMAKE_MATCH_1}")
	#message("ProcessorCount: trying uname -X '${ProcessorCount_cmd_uname}'")
	endif()
	endif()
	endif()

	# Execute this code when all previously attempted methods return empty
	# output:
	#
	if(NOT count)
	# Systems with /proc/cpuinfo:
	set(cpuinfo_file /proc/cpuinfo)
	if(EXISTS "${cpuinfo_file}")
	cmake_policy(PUSH)
	cmake_policy(SET CMP0159 NEW) # file(STRINGS) with REGEX updates CMAKE_MATCH_<n>
	file(STRINGS "${cpuinfo_file}" procs REGEX "^processor.: [0-9]+$")
	cmake_policy(POP)
	list(LENGTH procs count)
	#message("ProcessorCount: trying cpuinfo '${cpuinfo_file}'")
	endif()
	endif()

	if(NOT count)
	# Haiku
	find_program(ProcessorCount_cmd_sysinfo sysinfo)
	if(ProcessorCount_cmd_sysinfo)
	execute_process(COMMAND ${ProcessorCount_cmd_sysinfo}
	ERROR_QUIET
	OUTPUT_STRIP_TRAILING_WHITESPACE
	OUTPUT_VARIABLE sysinfo_X_output)
	string(REGEX MATCHALL "\nCPU #[0-9]+:" procs "\n${sysinfo_X_output}")
	list(LENGTH procs count)
	#message("ProcessorCount: trying sysinfo '${ProcessorCount_cmd_sysinfo}'")
	endif()
	endif()

	# Since cygwin builds of CMake do not define WIN32 anymore, but they still
	# run on Windows, and will still have this env var defined:
	#
	if(NOT count)
	set(count "$ENV{NUMBER_OF_PROCESSORS}")
	#message("ProcessorCount: last fallback, trying environment variable")
	endif()

	# Ensure an integer return (avoid inadvertently returning an empty string
	# or an error string)... If it's not a decimal integer, return 0:
	#
	if(NOT count MATCHES "^[0-9]+$")
	set(count 0)
	endif()

	set(${var} ${count} PARENT_SCOPE)
	endfunction()