Mercurial > hg > vamp-build-and-test
diff DEPENDENCIES/mingw32/Python27/Lib/site-packages/numpy/distutils/cpuinfo.py @ 87:2a2c65a20a8b
Add Python libs and headers
| author | Chris Cannam |
|---|---|
| date | Wed, 25 Feb 2015 14:05:22 +0000 |
| parents | |
| children |
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--- /dev/null Thu Jan 01 00:00:00 1970 +0000 +++ b/DEPENDENCIES/mingw32/Python27/Lib/site-packages/numpy/distutils/cpuinfo.py Wed Feb 25 14:05:22 2015 +0000 @@ -0,0 +1,693 @@ +#!/usr/bin/env python +""" +cpuinfo + +Copyright 2002 Pearu Peterson all rights reserved, +Pearu Peterson <pearu@cens.ioc.ee> +Permission to use, modify, and distribute this software is given under the +terms of the NumPy (BSD style) license. See LICENSE.txt that came with +this distribution for specifics. + +NO WARRANTY IS EXPRESSED OR IMPLIED. USE AT YOUR OWN RISK. +Pearu Peterson + +""" +from __future__ import division, absolute_import, print_function + +__all__ = ['cpu'] + +import sys, re, types +import os + +if sys.version_info[0] >= 3: + from subprocess import getstatusoutput +else: + from commands import getstatusoutput + +import warnings +import platform + +from numpy.distutils.compat import get_exception + +def getoutput(cmd, successful_status=(0,), stacklevel=1): + try: + status, output = getstatusoutput(cmd) + except EnvironmentError: + e = get_exception() + warnings.warn(str(e), UserWarning, stacklevel=stacklevel) + return False, output + if os.WIFEXITED(status) and os.WEXITSTATUS(status) in successful_status: + return True, output + return False, output + +def command_info(successful_status=(0,), stacklevel=1, **kw): + info = {} + for key in kw: + ok, output = getoutput(kw[key], successful_status=successful_status, + stacklevel=stacklevel+1) + if ok: + info[key] = output.strip() + return info + +def command_by_line(cmd, successful_status=(0,), stacklevel=1): + ok, output = getoutput(cmd, successful_status=successful_status, + stacklevel=stacklevel+1) + if not ok: + return + for line in output.splitlines(): + yield line.strip() + +def key_value_from_command(cmd, sep, successful_status=(0,), + stacklevel=1): + d = {} + for line in command_by_line(cmd, successful_status=successful_status, + stacklevel=stacklevel+1): + l = [s.strip() for s in line.split(sep, 1)] + if len(l) == 2: + d[l[0]] = l[1] + return d + +class CPUInfoBase(object): + """Holds CPU information and provides methods for requiring + the availability of various CPU features. + """ + + def _try_call(self, func): + try: + return func() + except: + pass + + def __getattr__(self, name): + if not name.startswith('_'): + if hasattr(self, '_'+name): + attr = getattr(self, '_'+name) + if isinstance(attr, types.MethodType): + return lambda func=self._try_call,attr=attr : func(attr) + else: + return lambda : None + raise AttributeError(name) + + def _getNCPUs(self): + return 1 + + def __get_nbits(self): + abits = platform.architecture()[0] + nbits = re.compile('(\d+)bit').search(abits).group(1) + return nbits + + def _is_32bit(self): + return self.__get_nbits() == '32' + + def _is_64bit(self): + return self.__get_nbits() == '64' + +class LinuxCPUInfo(CPUInfoBase): + + info = None + + def __init__(self): + if self.info is not None: + return + info = [ {} ] + ok, output = getoutput('uname -m') + if ok: + info[0]['uname_m'] = output.strip() + try: + fo = open('/proc/cpuinfo') + except EnvironmentError: + e = get_exception() + warnings.warn(str(e), UserWarning) + else: + for line in fo: + name_value = [s.strip() for s in line.split(':', 1)] + if len(name_value) != 2: + continue + name, value = name_value + if not info or name in info[-1]: # next processor + info.append({}) + info[-1][name] = value + fo.close() + self.__class__.info = info + + def _not_impl(self): pass + + # Athlon + + def _is_AMD(self): + return self.info[0]['vendor_id']=='AuthenticAMD' + + def _is_AthlonK6_2(self): + return self._is_AMD() and self.info[0]['model'] == '2' + + def _is_AthlonK6_3(self): + return self._is_AMD() and self.info[0]['model'] == '3' + + def _is_AthlonK6(self): + return re.match(r'.*?AMD-K6', self.info[0]['model name']) is not None + + def _is_AthlonK7(self): + return re.match(r'.*?AMD-K7', self.info[0]['model name']) is not None + + def _is_AthlonMP(self): + return re.match(r'.*?Athlon\(tm\) MP\b', + self.info[0]['model name']) is not None + + def _is_AMD64(self): + return self.is_AMD() and self.info[0]['family'] == '15' + + def _is_Athlon64(self): + return re.match(r'.*?Athlon\(tm\) 64\b', + self.info[0]['model name']) is not None + + def _is_AthlonHX(self): + return re.match(r'.*?Athlon HX\b', + self.info[0]['model name']) is not None + + def _is_Opteron(self): + return re.match(r'.*?Opteron\b', + self.info[0]['model name']) is not None + + def _is_Hammer(self): + return re.match(r'.*?Hammer\b', + self.info[0]['model name']) is not None + + # Alpha + + def _is_Alpha(self): + return self.info[0]['cpu']=='Alpha' + + def _is_EV4(self): + return self.is_Alpha() and self.info[0]['cpu model'] == 'EV4' + + def _is_EV5(self): + return self.is_Alpha() and self.info[0]['cpu model'] == 'EV5' + + def _is_EV56(self): + return self.is_Alpha() and self.info[0]['cpu model'] == 'EV56' + + def _is_PCA56(self): + return self.is_Alpha() and self.info[0]['cpu model'] == 'PCA56' + + # Intel + + #XXX + _is_i386 = _not_impl + + def _is_Intel(self): + return self.info[0]['vendor_id']=='GenuineIntel' + + def _is_i486(self): + return self.info[0]['cpu']=='i486' + + def _is_i586(self): + return self.is_Intel() and self.info[0]['cpu family'] == '5' + + def _is_i686(self): + return self.is_Intel() and self.info[0]['cpu family'] == '6' + + def _is_Celeron(self): + return re.match(r'.*?Celeron', + self.info[0]['model name']) is not None + + def _is_Pentium(self): + return re.match(r'.*?Pentium', + self.info[0]['model name']) is not None + + def _is_PentiumII(self): + return re.match(r'.*?Pentium.*?II\b', + self.info[0]['model name']) is not None + + def _is_PentiumPro(self): + return re.match(r'.*?PentiumPro\b', + self.info[0]['model name']) is not None + + def _is_PentiumMMX(self): + return re.match(r'.*?Pentium.*?MMX\b', + self.info[0]['model name']) is not None + + def _is_PentiumIII(self): + return re.match(r'.*?Pentium.*?III\b', + self.info[0]['model name']) is not None + + def _is_PentiumIV(self): + return re.match(r'.*?Pentium.*?(IV|4)\b', + self.info[0]['model name']) is not None + + def _is_PentiumM(self): + return re.match(r'.*?Pentium.*?M\b', + self.info[0]['model name']) is not None + + def _is_Prescott(self): + return self.is_PentiumIV() and self.has_sse3() + + def _is_Nocona(self): + return self.is_Intel() \ + and (self.info[0]['cpu family'] == '6' \ + or self.info[0]['cpu family'] == '15' ) \ + and (self.has_sse3() and not self.has_ssse3())\ + and re.match(r'.*?\blm\b', self.info[0]['flags']) is not None + + def _is_Core2(self): + return self.is_64bit() and self.is_Intel() and \ + re.match(r'.*?Core\(TM\)2\b', \ + self.info[0]['model name']) is not None + + def _is_Itanium(self): + return re.match(r'.*?Itanium\b', + self.info[0]['family']) is not None + + def _is_XEON(self): + return re.match(r'.*?XEON\b', + self.info[0]['model name'], re.IGNORECASE) is not None + + _is_Xeon = _is_XEON + + # Varia + + def _is_singleCPU(self): + return len(self.info) == 1 + + def _getNCPUs(self): + return len(self.info) + + def _has_fdiv_bug(self): + return self.info[0]['fdiv_bug']=='yes' + + def _has_f00f_bug(self): + return self.info[0]['f00f_bug']=='yes' + + def _has_mmx(self): + return re.match(r'.*?\bmmx\b', self.info[0]['flags']) is not None + + def _has_sse(self): + return re.match(r'.*?\bsse\b', self.info[0]['flags']) is not None + + def _has_sse2(self): + return re.match(r'.*?\bsse2\b', self.info[0]['flags']) is not None + + def _has_sse3(self): + return re.match(r'.*?\bpni\b', self.info[0]['flags']) is not None + + def _has_ssse3(self): + return re.match(r'.*?\bssse3\b', self.info[0]['flags']) is not None + + def _has_3dnow(self): + return re.match(r'.*?\b3dnow\b', self.info[0]['flags']) is not None + + def _has_3dnowext(self): + return re.match(r'.*?\b3dnowext\b', self.info[0]['flags']) is not None + +class IRIXCPUInfo(CPUInfoBase): + info = None + + def __init__(self): + if self.info is not None: + return + info = key_value_from_command('sysconf', sep=' ', + successful_status=(0, 1)) + self.__class__.info = info + + def _not_impl(self): pass + + def _is_singleCPU(self): + return self.info.get('NUM_PROCESSORS') == '1' + + def _getNCPUs(self): + return int(self.info.get('NUM_PROCESSORS', 1)) + + def __cputype(self, n): + return self.info.get('PROCESSORS').split()[0].lower() == 'r%s' % (n) + def _is_r2000(self): return self.__cputype(2000) + def _is_r3000(self): return self.__cputype(3000) + def _is_r3900(self): return self.__cputype(3900) + def _is_r4000(self): return self.__cputype(4000) + def _is_r4100(self): return self.__cputype(4100) + def _is_r4300(self): return self.__cputype(4300) + def _is_r4400(self): return self.__cputype(4400) + def _is_r4600(self): return self.__cputype(4600) + def _is_r4650(self): return self.__cputype(4650) + def _is_r5000(self): return self.__cputype(5000) + def _is_r6000(self): return self.__cputype(6000) + def _is_r8000(self): return self.__cputype(8000) + def _is_r10000(self): return self.__cputype(10000) + def _is_r12000(self): return self.__cputype(12000) + def _is_rorion(self): return self.__cputype('orion') + + def get_ip(self): + try: return self.info.get('MACHINE') + except: pass + def __machine(self, n): + return self.info.get('MACHINE').lower() == 'ip%s' % (n) + def _is_IP19(self): return self.__machine(19) + def _is_IP20(self): return self.__machine(20) + def _is_IP21(self): return self.__machine(21) + def _is_IP22(self): return self.__machine(22) + def _is_IP22_4k(self): return self.__machine(22) and self._is_r4000() + def _is_IP22_5k(self): return self.__machine(22) and self._is_r5000() + def _is_IP24(self): return self.__machine(24) + def _is_IP25(self): return self.__machine(25) + def _is_IP26(self): return self.__machine(26) + def _is_IP27(self): return self.__machine(27) + def _is_IP28(self): return self.__machine(28) + def _is_IP30(self): return self.__machine(30) + def _is_IP32(self): return self.__machine(32) + def _is_IP32_5k(self): return self.__machine(32) and self._is_r5000() + def _is_IP32_10k(self): return self.__machine(32) and self._is_r10000() + + +class DarwinCPUInfo(CPUInfoBase): + info = None + + def __init__(self): + if self.info is not None: + return + info = command_info(arch='arch', + machine='machine') + info['sysctl_hw'] = key_value_from_command('sysctl hw', sep='=') + self.__class__.info = info + + def _not_impl(self): pass + + def _getNCPUs(self): + return int(self.info['sysctl_hw'].get('hw.ncpu', 1)) + + def _is_Power_Macintosh(self): + return self.info['sysctl_hw']['hw.machine']=='Power Macintosh' + + def _is_i386(self): + return self.info['arch']=='i386' + def _is_ppc(self): + return self.info['arch']=='ppc' + + def __machine(self, n): + return self.info['machine'] == 'ppc%s'%n + def _is_ppc601(self): return self.__machine(601) + def _is_ppc602(self): return self.__machine(602) + def _is_ppc603(self): return self.__machine(603) + def _is_ppc603e(self): return self.__machine('603e') + def _is_ppc604(self): return self.__machine(604) + def _is_ppc604e(self): return self.__machine('604e') + def _is_ppc620(self): return self.__machine(620) + def _is_ppc630(self): return self.__machine(630) + def _is_ppc740(self): return self.__machine(740) + def _is_ppc7400(self): return self.__machine(7400) + def _is_ppc7450(self): return self.__machine(7450) + def _is_ppc750(self): return self.__machine(750) + def _is_ppc403(self): return self.__machine(403) + def _is_ppc505(self): return self.__machine(505) + def _is_ppc801(self): return self.__machine(801) + def _is_ppc821(self): return self.__machine(821) + def _is_ppc823(self): return self.__machine(823) + def _is_ppc860(self): return self.__machine(860) + + +class SunOSCPUInfo(CPUInfoBase): + + info = None + + def __init__(self): + if self.info is not None: + return + info = command_info(arch='arch', + mach='mach', + uname_i='uname_i', + isainfo_b='isainfo -b', + isainfo_n='isainfo -n', + ) + info['uname_X'] = key_value_from_command('uname -X', sep='=') + for line in command_by_line('psrinfo -v 0'): + m = re.match(r'\s*The (?P<p>[\w\d]+) processor operates at', line) + if m: + info['processor'] = m.group('p') + break + self.__class__.info = info + + def _not_impl(self): pass + + def _is_i386(self): + return self.info['isainfo_n']=='i386' + def _is_sparc(self): + return self.info['isainfo_n']=='sparc' + def _is_sparcv9(self): + return self.info['isainfo_n']=='sparcv9' + + def _getNCPUs(self): + return int(self.info['uname_X'].get('NumCPU', 1)) + + def _is_sun4(self): + return self.info['arch']=='sun4' + + def _is_SUNW(self): + return re.match(r'SUNW', self.info['uname_i']) is not None + def _is_sparcstation5(self): + return re.match(r'.*SPARCstation-5', self.info['uname_i']) is not None + def _is_ultra1(self): + return re.match(r'.*Ultra-1', self.info['uname_i']) is not None + def _is_ultra250(self): + return re.match(r'.*Ultra-250', self.info['uname_i']) is not None + def _is_ultra2(self): + return re.match(r'.*Ultra-2', self.info['uname_i']) is not None + def _is_ultra30(self): + return re.match(r'.*Ultra-30', self.info['uname_i']) is not None + def _is_ultra4(self): + return re.match(r'.*Ultra-4', self.info['uname_i']) is not None + def _is_ultra5_10(self): + return re.match(r'.*Ultra-5_10', self.info['uname_i']) is not None + def _is_ultra5(self): + return re.match(r'.*Ultra-5', self.info['uname_i']) is not None + def _is_ultra60(self): + return re.match(r'.*Ultra-60', self.info['uname_i']) is not None + def _is_ultra80(self): + return re.match(r'.*Ultra-80', self.info['uname_i']) is not None + def _is_ultraenterprice(self): + return re.match(r'.*Ultra-Enterprise', self.info['uname_i']) is not None + def _is_ultraenterprice10k(self): + return re.match(r'.*Ultra-Enterprise-10000', self.info['uname_i']) is not None + def _is_sunfire(self): + return re.match(r'.*Sun-Fire', self.info['uname_i']) is not None + def _is_ultra(self): + return re.match(r'.*Ultra', self.info['uname_i']) is not None + + def _is_cpusparcv7(self): + return self.info['processor']=='sparcv7' + def _is_cpusparcv8(self): + return self.info['processor']=='sparcv8' + def _is_cpusparcv9(self): + return self.info['processor']=='sparcv9' + +class Win32CPUInfo(CPUInfoBase): + + info = None + pkey = r"HARDWARE\DESCRIPTION\System\CentralProcessor" + # XXX: what does the value of + # HKEY_LOCAL_MACHINE\HARDWARE\DESCRIPTION\System\CentralProcessor\0 + # mean? + + def __init__(self): + if self.info is not None: + return + info = [] + try: + #XXX: Bad style to use so long `try:...except:...`. Fix it! + if sys.version_info[0] >= 3: + import winreg + else: + import _winreg as winreg + + prgx = re.compile(r"family\s+(?P<FML>\d+)\s+model\s+(?P<MDL>\d+)"\ + "\s+stepping\s+(?P<STP>\d+)", re.IGNORECASE) + chnd=winreg.OpenKey(winreg.HKEY_LOCAL_MACHINE, self.pkey) + pnum=0 + while True: + try: + proc=winreg.EnumKey(chnd, pnum) + except winreg.error: + break + else: + pnum+=1 + info.append({"Processor":proc}) + phnd=winreg.OpenKey(chnd, proc) + pidx=0 + while True: + try: + name, value, vtpe=winreg.EnumValue(phnd, pidx) + except winreg.error: + break + else: + pidx=pidx+1 + info[-1][name]=value + if name=="Identifier": + srch=prgx.search(value) + if srch: + info[-1]["Family"]=int(srch.group("FML")) + info[-1]["Model"]=int(srch.group("MDL")) + info[-1]["Stepping"]=int(srch.group("STP")) + except: + print(sys.exc_info()[1], '(ignoring)') + self.__class__.info = info + + def _not_impl(self): pass + + # Athlon + + def _is_AMD(self): + return self.info[0]['VendorIdentifier']=='AuthenticAMD' + + def _is_Am486(self): + return self.is_AMD() and self.info[0]['Family']==4 + + def _is_Am5x86(self): + return self.is_AMD() and self.info[0]['Family']==4 + + def _is_AMDK5(self): + return self.is_AMD() and self.info[0]['Family']==5 \ + and self.info[0]['Model'] in [0, 1, 2, 3] + + def _is_AMDK6(self): + return self.is_AMD() and self.info[0]['Family']==5 \ + and self.info[0]['Model'] in [6, 7] + + def _is_AMDK6_2(self): + return self.is_AMD() and self.info[0]['Family']==5 \ + and self.info[0]['Model']==8 + + def _is_AMDK6_3(self): + return self.is_AMD() and self.info[0]['Family']==5 \ + and self.info[0]['Model']==9 + + def _is_AMDK7(self): + return self.is_AMD() and self.info[0]['Family'] == 6 + + # To reliably distinguish between the different types of AMD64 chips + # (Athlon64, Operton, Athlon64 X2, Semperon, Turion 64, etc.) would + # require looking at the 'brand' from cpuid + + def _is_AMD64(self): + return self.is_AMD() and self.info[0]['Family'] == 15 + + # Intel + + def _is_Intel(self): + return self.info[0]['VendorIdentifier']=='GenuineIntel' + + def _is_i386(self): + return self.info[0]['Family']==3 + + def _is_i486(self): + return self.info[0]['Family']==4 + + def _is_i586(self): + return self.is_Intel() and self.info[0]['Family']==5 + + def _is_i686(self): + return self.is_Intel() and self.info[0]['Family']==6 + + def _is_Pentium(self): + return self.is_Intel() and self.info[0]['Family']==5 + + def _is_PentiumMMX(self): + return self.is_Intel() and self.info[0]['Family']==5 \ + and self.info[0]['Model']==4 + + def _is_PentiumPro(self): + return self.is_Intel() and self.info[0]['Family']==6 \ + and self.info[0]['Model']==1 + + def _is_PentiumII(self): + return self.is_Intel() and self.info[0]['Family']==6 \ + and self.info[0]['Model'] in [3, 5, 6] + + def _is_PentiumIII(self): + return self.is_Intel() and self.info[0]['Family']==6 \ + and self.info[0]['Model'] in [7, 8, 9, 10, 11] + + def _is_PentiumIV(self): + return self.is_Intel() and self.info[0]['Family']==15 + + def _is_PentiumM(self): + return self.is_Intel() and self.info[0]['Family'] == 6 \ + and self.info[0]['Model'] in [9, 13, 14] + + def _is_Core2(self): + return self.is_Intel() and self.info[0]['Family'] == 6 \ + and self.info[0]['Model'] in [15, 16, 17] + + # Varia + + def _is_singleCPU(self): + return len(self.info) == 1 + + def _getNCPUs(self): + return len(self.info) + + def _has_mmx(self): + if self.is_Intel(): + return (self.info[0]['Family']==5 and self.info[0]['Model']==4) \ + or (self.info[0]['Family'] in [6, 15]) + elif self.is_AMD(): + return self.info[0]['Family'] in [5, 6, 15] + else: + return False + + def _has_sse(self): + if self.is_Intel(): + return (self.info[0]['Family']==6 and \ + self.info[0]['Model'] in [7, 8, 9, 10, 11]) \ + or self.info[0]['Family']==15 + elif self.is_AMD(): + return (self.info[0]['Family']==6 and \ + self.info[0]['Model'] in [6, 7, 8, 10]) \ + or self.info[0]['Family']==15 + else: + return False + + def _has_sse2(self): + if self.is_Intel(): + return self.is_Pentium4() or self.is_PentiumM() \ + or self.is_Core2() + elif self.is_AMD(): + return self.is_AMD64() + else: + return False + + def _has_3dnow(self): + return self.is_AMD() and self.info[0]['Family'] in [5, 6, 15] + + def _has_3dnowext(self): + return self.is_AMD() and self.info[0]['Family'] in [6, 15] + +if sys.platform.startswith('linux'): # variations: linux2,linux-i386 (any others?) + cpuinfo = LinuxCPUInfo +elif sys.platform.startswith('irix'): + cpuinfo = IRIXCPUInfo +elif sys.platform == 'darwin': + cpuinfo = DarwinCPUInfo +elif sys.platform.startswith('sunos'): + cpuinfo = SunOSCPUInfo +elif sys.platform.startswith('win32'): + cpuinfo = Win32CPUInfo +elif sys.platform.startswith('cygwin'): + cpuinfo = LinuxCPUInfo +#XXX: other OS's. Eg. use _winreg on Win32. Or os.uname on unices. +else: + cpuinfo = CPUInfoBase + +cpu = cpuinfo() + +#if __name__ == "__main__": +# +# cpu.is_blaa() +# cpu.is_Intel() +# cpu.is_Alpha() +# +# print 'CPU information:', +# for name in dir(cpuinfo): +# if name[0]=='_' and name[1]!='_': +# r = getattr(cpu,name[1:])() +# if r: +# if r!=1: +# print '%s=%s' %(name[1:],r), +# else: +# print name[1:], +# print