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1c87bc60ee
The previous code did not count the number of virtual processors across physical processors on SunOS. Can handle the following situations: ``` $ uname -a SunOS solaris 5.11 11.4.0.15.0 i86pc i386 i86pc $ psrinfo -p -v The physical processor has 1 virtual processor (0) x86 (GenuineIntel 306D2 family 6 model 61 step 2 clock 3492 MHz) Intel Core Processor (Broadwell) The physical processor has 1 virtual processor (1) x86 (GenuineIntel 306D2 family 6 model 61 step 2 clock 3492 MHz) Intel Core Processor (Broadwell) The physical processor has 1 virtual processor (2) x86 (GenuineIntel 306D2 family 6 model 61 step 2 clock 3492 MHz) Intel Core Processor (Broadwell) The physical processor has 1 virtual processor (3) x86 (GenuineIntel 306D2 family 6 model 61 step 2 clock 3492 MHz) Intel Core Processor (Broadwell) ``` ``` $ uname -a SunOS sol11x86 5.11 11.0 i86pc i386 i86pc $ psrinfo -p -v The physical processor has 2 virtual processors (0 1) x86 (GenuineIntel 50650 family 6 model 85 step 0 clock 2000 MHz) Intel(r) Xeon(r) Gold 6138 CPU @ 2.00GHz ``` ``` $ uname -a SunOS sol11 5.11 11.0 sun4v sparc sun4v $ psrinfo -p -v The physical processor has 2 cores and 16 virtual processors (0-15) The core has 8 virtual processors (0-7) The core has 8 virtual processors (8-15) SPARC-T4 (chipid 0, clock 2848 MHz) ```
238 lines
8.4 KiB
CMake
238 lines
8.4 KiB
CMake
# Distributed under the OSI-approved BSD 3-Clause License. See accompanying
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# file Copyright.txt or https://cmake.org/licensing for details.
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#[=======================================================================[.rst:
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ProcessorCount
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--------------
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ProcessorCount(var)
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Determine the number of processors/cores and save value in ${var}
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Sets the variable named ${var} to the number of physical cores
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available on the machine if the information can be determined.
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Otherwise it is set to 0. Currently this functionality is implemented
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for AIX, cygwin, FreeBSD, HPUX, Linux, macOS, QNX, Sun and
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Windows.
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This function is guaranteed to return a positive integer (>=1) if it
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succeeds. It returns 0 if there's a problem determining the processor
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count.
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Example use, in a ctest -S dashboard script:
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::
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include(ProcessorCount)
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ProcessorCount(N)
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if(NOT N EQUAL 0)
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set(CTEST_BUILD_FLAGS -j${N})
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set(ctest_test_args ${ctest_test_args} PARALLEL_LEVEL ${N})
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endif()
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This function is intended to offer an approximation of the value of
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the number of compute cores available on the current machine, such
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that you may use that value for parallel building and parallel
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testing. It is meant to help utilize as much of the machine as seems
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reasonable. Of course, knowledge of what else might be running on the
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machine simultaneously should be used when deciding whether to request
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a machine's full capacity all for yourself.
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#]=======================================================================]
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# A more reliable way might be to compile a small C program that uses the CPUID
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# instruction, but that again requires compiler support or compiling assembler
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# code.
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function(ProcessorCount var)
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# Unknown:
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set(count 0)
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if(WIN32)
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# Windows:
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set(count "$ENV{NUMBER_OF_PROCESSORS}")
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#message("ProcessorCount: WIN32, trying environment variable")
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endif()
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if(NOT count)
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# Mac, FreeBSD, OpenBSD (systems with sysctl):
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find_program(ProcessorCount_cmd_sysctl sysctl
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PATHS /usr/sbin /sbin)
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mark_as_advanced(ProcessorCount_cmd_sysctl)
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if(ProcessorCount_cmd_sysctl)
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execute_process(COMMAND ${ProcessorCount_cmd_sysctl} -n hw.ncpu
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ERROR_QUIET
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OUTPUT_STRIP_TRAILING_WHITESPACE
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OUTPUT_VARIABLE count)
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#message("ProcessorCount: trying sysctl '${ProcessorCount_cmd_sysctl}'")
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endif()
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endif()
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if(NOT count)
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# Linux (systems with nproc):
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# Prefer nproc to getconf if available as getconf may return the host CPU count in Linux containers
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find_program(ProcessorCount_cmd_nproc nproc)
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mark_as_advanced(ProcessorCount_cmd_nproc)
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if(ProcessorCount_cmd_nproc)
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execute_process(COMMAND ${ProcessorCount_cmd_nproc}
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ERROR_QUIET
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OUTPUT_STRIP_TRAILING_WHITESPACE
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OUTPUT_VARIABLE count)
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#message("ProcessorCount: trying nproc '${ProcessorCount_cmd_nproc}'")
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endif()
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endif()
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if(NOT count)
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# Linux (systems with getconf):
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find_program(ProcessorCount_cmd_getconf getconf)
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mark_as_advanced(ProcessorCount_cmd_getconf)
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if(ProcessorCount_cmd_getconf)
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execute_process(COMMAND ${ProcessorCount_cmd_getconf} _NPROCESSORS_ONLN
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ERROR_QUIET
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OUTPUT_STRIP_TRAILING_WHITESPACE
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OUTPUT_VARIABLE count)
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#message("ProcessorCount: trying getconf '${ProcessorCount_cmd_getconf}'")
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endif()
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endif()
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if(NOT count)
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# HPUX (systems with machinfo):
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find_program(ProcessorCount_cmd_machinfo machinfo
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PATHS /usr/contrib/bin)
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mark_as_advanced(ProcessorCount_cmd_machinfo)
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if(ProcessorCount_cmd_machinfo)
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execute_process(COMMAND ${ProcessorCount_cmd_machinfo}
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ERROR_QUIET
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OUTPUT_STRIP_TRAILING_WHITESPACE
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OUTPUT_VARIABLE machinfo_output)
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string(REGEX MATCHALL "Number of CPUs = ([0-9]+)" procs "${machinfo_output}")
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set(count "${CMAKE_MATCH_1}")
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if(NOT count)
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string(REGEX MATCHALL "([0-9]+) logical processors" procs "${machinfo_output}")
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set(count "${CMAKE_MATCH_1}")
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endif()
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#message("ProcessorCount: trying machinfo '${ProcessorCount_cmd_machinfo}'")
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else()
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find_program(ProcessorCount_cmd_mpsched mpsched)
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mark_as_advanced(ProcessorCount_cmd_mpsched)
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if(ProcessorCount_cmd_mpsched)
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execute_process(COMMAND ${ProcessorCount_cmd_mpsched} -s
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OUTPUT_QUIET
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ERROR_STRIP_TRAILING_WHITESPACE
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ERROR_VARIABLE mpsched_output)
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string(REGEX MATCHALL "Processor Count *: *([0-9]+)" procs "${mpsched_output}")
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set(count "${CMAKE_MATCH_1}")
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#message("ProcessorCount: trying mpsched -s '${ProcessorCount_cmd_mpsched}'")
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endif()
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endif()
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endif()
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if(NOT count)
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# AIX (systems with lsconf):
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find_program(ProcessorCount_cmd_lsconf lsconf
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PATHS /usr/sbin)
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mark_as_advanced(ProcessorCount_cmd_lsconf)
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if(ProcessorCount_cmd_lsconf)
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execute_process(COMMAND ${ProcessorCount_cmd_lsconf}
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ERROR_QUIET
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OUTPUT_STRIP_TRAILING_WHITESPACE
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OUTPUT_VARIABLE lsconf_output)
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string(REGEX MATCHALL "Number Of Processors: ([0-9]+)" procs "${lsconf_output}")
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set(count "${CMAKE_MATCH_1}")
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#message("ProcessorCount: trying lsconf '${ProcessorCount_cmd_lsconf}'")
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endif()
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endif()
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if(NOT count)
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# QNX (systems with pidin):
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find_program(ProcessorCount_cmd_pidin pidin)
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mark_as_advanced(ProcessorCount_cmd_pidin)
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if(ProcessorCount_cmd_pidin)
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execute_process(COMMAND ${ProcessorCount_cmd_pidin} info
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ERROR_QUIET
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OUTPUT_STRIP_TRAILING_WHITESPACE
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OUTPUT_VARIABLE pidin_output)
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string(REGEX MATCHALL "Processor[0-9]+: " procs "${pidin_output}")
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list(LENGTH procs count)
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#message("ProcessorCount: trying pidin '${ProcessorCount_cmd_pidin}'")
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endif()
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endif()
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if(NOT count)
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# Sun (systems where psrinfo tool is available)
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find_program(ProcessorCount_cmd_psrinfo psrinfo PATHS /usr/sbin /sbin)
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mark_as_advanced(ProcessorCount_cmd_psrinfo)
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if (ProcessorCount_cmd_psrinfo)
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execute_process(COMMAND ${ProcessorCount_cmd_psrinfo} -p -v
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ERROR_QUIET
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OUTPUT_STRIP_TRAILING_WHITESPACE
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OUTPUT_VARIABLE psrinfo_output)
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string(REGEX MATCHALL "has [0-9]+ virtual processor" procs "${psrinfo_output}")
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set(count "")
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foreach(proc ${procs})
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string(REGEX MATCH "has ([0-9]+) virtual" res ${proc})
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math(EXPR count "${count} + ${CMAKE_MATCH_1}")
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endforeach()
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#message("ProcessorCount: trying '${ProcessorCount_cmd_psrinfo}' -p -v")
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else()
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# Sun (systems where uname -X emits "NumCPU" in its output):
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find_program(ProcessorCount_cmd_uname uname)
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mark_as_advanced(ProcessorCount_cmd_uname)
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if(ProcessorCount_cmd_uname)
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execute_process(COMMAND ${ProcessorCount_cmd_uname} -X
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ERROR_QUIET
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OUTPUT_STRIP_TRAILING_WHITESPACE
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OUTPUT_VARIABLE uname_X_output)
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string(REGEX MATCHALL "NumCPU = ([0-9]+)" procs "${uname_X_output}")
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set(count "${CMAKE_MATCH_1}")
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#message("ProcessorCount: trying uname -X '${ProcessorCount_cmd_uname}'")
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endif()
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endif()
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endif()
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# Execute this code when all previously attempted methods return empty
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# output:
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#
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if(NOT count)
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# Systems with /proc/cpuinfo:
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set(cpuinfo_file /proc/cpuinfo)
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if(EXISTS "${cpuinfo_file}")
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file(STRINGS "${cpuinfo_file}" procs REGEX "^processor.: [0-9]+$")
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list(LENGTH procs count)
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#message("ProcessorCount: trying cpuinfo '${cpuinfo_file}'")
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endif()
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endif()
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if(NOT count)
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# Haiku
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find_program(ProcessorCount_cmd_sysinfo sysinfo)
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if(ProcessorCount_cmd_sysinfo)
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execute_process(COMMAND ${ProcessorCount_cmd_sysinfo}
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ERROR_QUIET
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OUTPUT_STRIP_TRAILING_WHITESPACE
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OUTPUT_VARIABLE sysinfo_X_output)
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string(REGEX MATCHALL "\nCPU #[0-9]+:" procs "\n${sysinfo_X_output}")
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list(LENGTH procs count)
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#message("ProcessorCount: trying sysinfo '${ProcessorCount_cmd_sysinfo}'")
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endif()
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endif()
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# Since cygwin builds of CMake do not define WIN32 anymore, but they still
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# run on Windows, and will still have this env var defined:
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#
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if(NOT count)
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set(count "$ENV{NUMBER_OF_PROCESSORS}")
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#message("ProcessorCount: last fallback, trying environment variable")
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endif()
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# Ensure an integer return (avoid inadvertently returning an empty string
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# or an error string)... If it's not a decimal integer, return 0:
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#
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if(NOT count MATCHES "^[0-9]+$")
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set(count 0)
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endif()
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set(${var} ${count} PARENT_SCOPE)
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endfunction()
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