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Diffstat (limited to 'Tools/pybench/pybench-2.0')
24 files changed, 10328 insertions, 0 deletions
diff --git a/Tools/pybench/pybench-2.0/Arithmetic.py b/Tools/pybench/pybench-2.0/Arithmetic.py new file mode 100644 index 0000000..6923b4b --- /dev/null +++ b/Tools/pybench/pybench-2.0/Arithmetic.py @@ -0,0 +1,777 @@ +from pybench import Test + +class SimpleIntegerArithmetic(Test): + + version = 2.0 + operations = 5 * (3 + 5 + 5 + 3 + 3 + 3) + rounds = 120000 + + def test(self): + + for i in xrange(self.rounds): + + a = 2 + b = 3 + c = 3 + + c = a + b + c = b + c + c = c + a + c = a + b + c = b + c + + c = c - a + c = a - b + c = b - c + c = c - a + c = b - c + + c = a / b + c = b / a + c = c / b + + c = a * b + c = b * a + c = c * b + + c = a / b + c = b / a + c = c / b + + a = 2 + b = 3 + c = 3 + + c = a + b + c = b + c + c = c + a + c = a + b + c = b + c + + c = c - a + c = a - b + c = b - c + c = c - a + c = b - c + + c = a / b + c = b / a + c = c / b + + c = a * b + c = b * a + c = c * b + + c = a / b + c = b / a + c = c / b + + a = 2 + b = 3 + c = 3 + + c = a + b + c = b + c + c = c + a + c = a + b + c = b + c + + c = c - a + c = a - b + c = b - c + c = c - a + c = b - c + + c = a / b + c = b / a + c = c / b + + c = a * b + c = b * a + c = c * b + + c = a / b + c = b / a + c = c / b + + a = 2 + b = 3 + c = 3 + + c = a + b + c = b + c + c = c + a + c = a + b + c = b + c + + c = c - a + c = a - b + c = b - c + c = c - a + c = b - c + + c = a / b + c = b / a + c = c / b + + c = a * b + c = b * a + c = c * b + + c = a / b + c = b / a + c = c / b + + a = 2 + b = 3 + c = 3 + + c = a + b + c = b + c + c = c + a + c = a + b + c = b + c + + c = c - a + c = a - b + c = b - c + c = c - a + c = b - c + + c = a / b + c = b / a + c = c / b + + c = a * b + c = b * a + c = c * b + + c = a / b + c = b / a + c = c / b + + def calibrate(self): + + for i in xrange(self.rounds): + pass + +class SimpleFloatArithmetic(Test): + + version = 2.0 + operations = 5 * (3 + 5 + 5 + 3 + 3 + 3) + rounds = 120000 + + def test(self): + + for i in xrange(self.rounds): + + a = 2.1 + b = 3.3332 + c = 3.14159 + + c = a + b + c = b + c + c = c + a + c = a + b + c = b + c + + c = c - a + c = a - b + c = b - c + c = c - a + c = b - c + + c = a / b + c = b / a + c = c / b + + c = a * b + c = b * a + c = c * b + + c = a / b + c = b / a + c = c / b + + a = 2.1 + b = 3.3332 + c = 3.14159 + + c = a + b + c = b + c + c = c + a + c = a + b + c = b + c + + c = c - a + c = a - b + c = b - c + c = c - a + c = b - c + + c = a / b + c = b / a + c = c / b + + c = a * b + c = b * a + c = c * b + + c = a / b + c = b / a + c = c / b + + a = 2.1 + b = 3.3332 + c = 3.14159 + + c = a + b + c = b + c + c = c + a + c = a + b + c = b + c + + c = c - a + c = a - b + c = b - c + c = c - a + c = b - c + + c = a / b + c = b / a + c = c / b + + c = a * b + c = b * a + c = c * b + + c = a / b + c = b / a + c = c / b + + a = 2.1 + b = 3.3332 + c = 3.14159 + + c = a + b + c = b + c + c = c + a + c = a + b + c = b + c + + c = c - a + c = a - b + c = b - c + c = c - a + c = b - c + + c = a / b + c = b / a + c = c / b + + c = a * b + c = b * a + c = c * b + + c = a / b + c = b / a + c = c / b + + a = 2.1 + b = 3.3332 + c = 3.14159 + + c = a + b + c = b + c + c = c + a + c = a + b + c = b + c + + c = c - a + c = a - b + c = b - c + c = c - a + c = b - c + + c = a / b + c = b / a + c = c / b + + c = a * b + c = b * a + c = c * b + + c = a / b + c = b / a + c = c / b + + def calibrate(self): + + for i in xrange(self.rounds): + pass + +class SimpleIntFloatArithmetic(Test): + + version = 2.0 + operations = 5 * (3 + 5 + 5 + 3 + 3 + 3) + rounds = 120000 + + def test(self): + + for i in xrange(self.rounds): + + a = 2 + b = 3 + c = 3.14159 + + c = a + b + c = b + c + c = c + a + c = a + b + c = b + c + + c = c - a + c = a - b + c = b - c + c = c - a + c = b - c + + c = a / b + c = b / a + c = c / b + + c = a * b + c = b * a + c = c * b + + c = a / b + c = b / a + c = c / b + + a = 2 + b = 3 + c = 3.14159 + + c = a + b + c = b + c + c = c + a + c = a + b + c = b + c + + c = c - a + c = a - b + c = b - c + c = c - a + c = b - c + + c = a / b + c = b / a + c = c / b + + c = a * b + c = b * a + c = c * b + + c = a / b + c = b / a + c = c / b + + a = 2 + b = 3 + c = 3.14159 + + c = a + b + c = b + c + c = c + a + c = a + b + c = b + c + + c = c - a + c = a - b + c = b - c + c = c - a + c = b - c + + c = a / b + c = b / a + c = c / b + + c = a * b + c = b * a + c = c * b + + c = a / b + c = b / a + c = c / b + + a = 2 + b = 3 + c = 3.14159 + + c = a + b + c = b + c + c = c + a + c = a + b + c = b + c + + c = c - a + c = a - b + c = b - c + c = c - a + c = b - c + + c = a / b + c = b / a + c = c / b + + c = a * b + c = b * a + c = c * b + + c = a / b + c = b / a + c = c / b + + a = 2 + b = 3 + c = 3.14159 + + c = a + b + c = b + c + c = c + a + c = a + b + c = b + c + + c = c - a + c = a - b + c = b - c + c = c - a + c = b - c + + c = a / b + c = b / a + c = c / b + + c = a * b + c = b * a + c = c * b + + c = a / b + c = b / a + c = c / b + + def calibrate(self): + + for i in xrange(self.rounds): + pass + + +class SimpleLongArithmetic(Test): + + version = 2.0 + operations = 5 * (3 + 5 + 5 + 3 + 3 + 3) + rounds = 60000 + + def test(self): + + for i in xrange(self.rounds): + + a = 2220001L + b = 100001L + c = 30005L + + c = a + b + c = b + c + c = c + a + c = a + b + c = b + c + + c = c - a + c = a - b + c = b - c + c = c - a + c = b - c + + c = a / b + c = b / a + c = c / b + + c = a * b + c = b * a + c = c * b + + c = a / b + c = b / a + c = c / b + + a = 2220001L + b = 100001L + c = 30005L + + c = a + b + c = b + c + c = c + a + c = a + b + c = b + c + + c = c - a + c = a - b + c = b - c + c = c - a + c = b - c + + c = a / b + c = b / a + c = c / b + + c = a * b + c = b * a + c = c * b + + c = a / b + c = b / a + c = c / b + + a = 2220001L + b = 100001L + c = 30005L + + c = a + b + c = b + c + c = c + a + c = a + b + c = b + c + + c = c - a + c = a - b + c = b - c + c = c - a + c = b - c + + c = a / b + c = b / a + c = c / b + + c = a * b + c = b * a + c = c * b + + c = a / b + c = b / a + c = c / b + + a = 2220001L + b = 100001L + c = 30005L + + c = a + b + c = b + c + c = c + a + c = a + b + c = b + c + + c = c - a + c = a - b + c = b - c + c = c - a + c = b - c + + c = a / b + c = b / a + c = c / b + + c = a * b + c = b * a + c = c * b + + c = a / b + c = b / a + c = c / b + + a = 2220001L + b = 100001L + c = 30005L + + c = a + b + c = b + c + c = c + a + c = a + b + c = b + c + + c = c - a + c = a - b + c = b - c + c = c - a + c = b - c + + c = a / b + c = b / a + c = c / b + + c = a * b + c = b * a + c = c * b + + c = a / b + c = b / a + c = c / b + + def calibrate(self): + + for i in xrange(self.rounds): + pass + +class SimpleComplexArithmetic(Test): + + version = 2.0 + operations = 5 * (3 + 5 + 5 + 3 + 3 + 3) + rounds = 80000 + + def test(self): + + for i in xrange(self.rounds): + + a = 2 + 3j + b = 2.5 + 4.5j + c = 1.2 + 6.2j + + c = a + b + c = b + c + c = c + a + c = a + b + c = b + c + + c = c - a + c = a - b + c = b - c + c = c - a + c = b - c + + c = a / b + c = b / a + c = c / b + + c = a * b + c = b * a + c = c * b + + c = a / b + c = b / a + c = c / b + + a = 2 + 3j + b = 2.5 + 4.5j + c = 1.2 + 6.2j + + c = a + b + c = b + c + c = c + a + c = a + b + c = b + c + + c = c - a + c = a - b + c = b - c + c = c - a + c = b - c + + c = a / b + c = b / a + c = c / b + + c = a * b + c = b * a + c = c * b + + c = a / b + c = b / a + c = c / b + + a = 2 + 3j + b = 2.5 + 4.5j + c = 1.2 + 6.2j + + c = a + b + c = b + c + c = c + a + c = a + b + c = b + c + + c = c - a + c = a - b + c = b - c + c = c - a + c = b - c + + c = a / b + c = b / a + c = c / b + + c = a * b + c = b * a + c = c * b + + c = a / b + c = b / a + c = c / b + + a = 2 + 3j + b = 2.5 + 4.5j + c = 1.2 + 6.2j + + c = a + b + c = b + c + c = c + a + c = a + b + c = b + c + + c = c - a + c = a - b + c = b - c + c = c - a + c = b - c + + c = a / b + c = b / a + c = c / b + + c = a * b + c = b * a + c = c * b + + c = a / b + c = b / a + c = c / b + + a = 2 + 3j + b = 2.5 + 4.5j + c = 1.2 + 6.2j + + c = a + b + c = b + c + c = c + a + c = a + b + c = b + c + + c = c - a + c = a - b + c = b - c + c = c - a + c = b - c + + c = a / b + c = b / a + c = c / b + + c = a * b + c = b * a + c = c * b + + c = a / b + c = b / a + c = c / b + + def calibrate(self): + + for i in xrange(self.rounds): + pass diff --git a/Tools/pybench/pybench-2.0/Calls.py b/Tools/pybench/pybench-2.0/Calls.py new file mode 100644 index 0000000..fa18314 --- /dev/null +++ b/Tools/pybench/pybench-2.0/Calls.py @@ -0,0 +1,504 @@ +from pybench import Test + +class PythonFunctionCalls(Test): + + version = 2.0 + operations = 5*(1+4+4+2) + rounds = 60000 + + def test(self): + + global f,f1,g,h + + # define functions + def f(): + pass + + def f1(x): + pass + + def g(a,b,c): + return a,b,c + + def h(a,b,c,d=1,e=2,f=3): + return d,e,f + + # do calls + for i in xrange(self.rounds): + + f() + f1(i) + f1(i) + f1(i) + f1(i) + g(i,i,i) + g(i,i,i) + g(i,i,i) + g(i,i,i) + h(i,i,3,i,i) + h(i,i,i,2,i,3) + + f() + f1(i) + f1(i) + f1(i) + f1(i) + g(i,i,i) + g(i,i,i) + g(i,i,i) + g(i,i,i) + h(i,i,3,i,i) + h(i,i,i,2,i,3) + + f() + f1(i) + f1(i) + f1(i) + f1(i) + g(i,i,i) + g(i,i,i) + g(i,i,i) + g(i,i,i) + h(i,i,3,i,i) + h(i,i,i,2,i,3) + + f() + f1(i) + f1(i) + f1(i) + f1(i) + g(i,i,i) + g(i,i,i) + g(i,i,i) + g(i,i,i) + h(i,i,3,i,i) + h(i,i,i,2,i,3) + + f() + f1(i) + f1(i) + f1(i) + f1(i) + g(i,i,i) + g(i,i,i) + g(i,i,i) + g(i,i,i) + h(i,i,3,i,i) + h(i,i,i,2,i,3) + + def calibrate(self): + + global f,f1,g,h + + # define functions + def f(): + pass + + def f1(x): + pass + + def g(a,b,c): + return a,b,c + + def h(a,b,c,d=1,e=2,f=3): + return d,e,f + + # do calls + for i in xrange(self.rounds): + pass + +### + +class BuiltinFunctionCalls(Test): + + version = 2.0 + operations = 5*(2+5+5+5) + rounds = 60000 + + def test(self): + + # localize functions + f0 = globals + f1 = hash + f2 = cmp + f3 = range + + # do calls + for i in xrange(self.rounds): + + f0() + f0() + f1(i) + f1(i) + f1(i) + f1(i) + f1(i) + f2(1,2) + f2(1,2) + f2(1,2) + f2(1,2) + f2(1,2) + f3(1,3,2) + f3(1,3,2) + f3(1,3,2) + f3(1,3,2) + f3(1,3,2) + + f0() + f0() + f1(i) + f1(i) + f1(i) + f1(i) + f1(i) + f2(1,2) + f2(1,2) + f2(1,2) + f2(1,2) + f2(1,2) + f3(1,3,2) + f3(1,3,2) + f3(1,3,2) + f3(1,3,2) + f3(1,3,2) + + f0() + f0() + f1(i) + f1(i) + f1(i) + f1(i) + f1(i) + f2(1,2) + f2(1,2) + f2(1,2) + f2(1,2) + f2(1,2) + f3(1,3,2) + f3(1,3,2) + f3(1,3,2) + f3(1,3,2) + f3(1,3,2) + + f0() + f0() + f1(i) + f1(i) + f1(i) + f1(i) + f1(i) + f2(1,2) + f2(1,2) + f2(1,2) + f2(1,2) + f2(1,2) + f3(1,3,2) + f3(1,3,2) + f3(1,3,2) + f3(1,3,2) + f3(1,3,2) + + f0() + f0() + f1(i) + f1(i) + f1(i) + f1(i) + f1(i) + f2(1,2) + f2(1,2) + f2(1,2) + f2(1,2) + f2(1,2) + f3(1,3,2) + f3(1,3,2) + f3(1,3,2) + f3(1,3,2) + f3(1,3,2) + + def calibrate(self): + + # localize functions + f0 = dir + f1 = hash + f2 = range + f3 = range + + # do calls + for i in xrange(self.rounds): + pass + +### + +class PythonMethodCalls(Test): + + version = 2.0 + operations = 5*(6 + 5 + 4) + rounds = 30000 + + def test(self): + + class c: + + x = 2 + s = 'string' + + def f(self): + + return self.x + + def j(self,a,b): + + self.y = a + self.t = b + return self.y + + def k(self,a,b,c=3): + + self.y = a + self.s = b + self.t = c + + o = c() + + for i in xrange(self.rounds): + + o.f() + o.f() + o.f() + o.f() + o.f() + o.f() + o.j(i,i) + o.j(i,i) + o.j(i,2) + o.j(i,2) + o.j(2,2) + o.k(i,i) + o.k(i,2) + o.k(i,2,3) + o.k(i,i,c=4) + + o.f() + o.f() + o.f() + o.f() + o.f() + o.f() + o.j(i,i) + o.j(i,i) + o.j(i,2) + o.j(i,2) + o.j(2,2) + o.k(i,i) + o.k(i,2) + o.k(i,2,3) + o.k(i,i,c=4) + + o.f() + o.f() + o.f() + o.f() + o.f() + o.f() + o.j(i,i) + o.j(i,i) + o.j(i,2) + o.j(i,2) + o.j(2,2) + o.k(i,i) + o.k(i,2) + o.k(i,2,3) + o.k(i,i,c=4) + + o.f() + o.f() + o.f() + o.f() + o.f() + o.f() + o.j(i,i) + o.j(i,i) + o.j(i,2) + o.j(i,2) + o.j(2,2) + o.k(i,i) + o.k(i,2) + o.k(i,2,3) + o.k(i,i,c=4) + + o.f() + o.f() + o.f() + o.f() + o.f() + o.f() + o.j(i,i) + o.j(i,i) + o.j(i,2) + o.j(i,2) + o.j(2,2) + o.k(i,i) + o.k(i,2) + o.k(i,2,3) + o.k(i,i,c=4) + + def calibrate(self): + + class c: + + x = 2 + s = 'string' + + def f(self): + + return self.x + + def j(self,a,b): + + self.y = a + self.t = b + + def k(self,a,b,c=3): + + self.y = a + self.s = b + self.t = c + + o = c + + for i in xrange(self.rounds): + pass + +### + +class Recursion(Test): + + version = 2.0 + operations = 5 + rounds = 100000 + + def test(self): + + global f + + def f(x): + + if x > 1: + return f(x-1) + return 1 + + for i in xrange(self.rounds): + f(10) + f(10) + f(10) + f(10) + f(10) + + def calibrate(self): + + global f + + def f(x): + + if x > 0: + return f(x-1) + return 1 + + for i in xrange(self.rounds): + pass + + +### Test to make Fredrik happy... + +if __name__ == '__main__': + import timeit + if 0: + timeit.TestClass = PythonFunctionCalls + timeit.main(['-s', 'test = TestClass(); test.rounds = 1000', + 'test.test()']) + else: + setup = """\ +global f,f1,g,h + +# define functions +def f(): + pass + +def f1(x): + pass + +def g(a,b,c): + return a,b,c + +def h(a,b,c,d=1,e=2,f=3): + return d,e,f + +i = 1 +""" + test = """\ +f() +f1(i) +f1(i) +f1(i) +f1(i) +g(i,i,i) +g(i,i,i) +g(i,i,i) +g(i,i,i) +h(i,i,3,i,i) +h(i,i,i,2,i,3) + +f() +f1(i) +f1(i) +f1(i) +f1(i) +g(i,i,i) +g(i,i,i) +g(i,i,i) +g(i,i,i) +h(i,i,3,i,i) +h(i,i,i,2,i,3) + +f() +f1(i) +f1(i) +f1(i) +f1(i) +g(i,i,i) +g(i,i,i) +g(i,i,i) +g(i,i,i) +h(i,i,3,i,i) +h(i,i,i,2,i,3) + +f() +f1(i) +f1(i) +f1(i) +f1(i) +g(i,i,i) +g(i,i,i) +g(i,i,i) +g(i,i,i) +h(i,i,3,i,i) +h(i,i,i,2,i,3) + +f() +f1(i) +f1(i) +f1(i) +f1(i) +g(i,i,i) +g(i,i,i) +g(i,i,i) +g(i,i,i) +h(i,i,3,i,i) +h(i,i,i,2,i,3) +""" + + timeit.main(['-s', setup, + test]) + + diff --git a/Tools/pybench/pybench-2.0/CommandLine.py b/Tools/pybench/pybench-2.0/CommandLine.py new file mode 100644 index 0000000..6601be5 --- /dev/null +++ b/Tools/pybench/pybench-2.0/CommandLine.py @@ -0,0 +1,634 @@ +""" CommandLine - Get and parse command line options + + NOTE: This still is very much work in progress !!! + + Different version are likely to be incompatible. + + TODO: + + * Incorporate the changes made by (see Inbox) + * Add number range option using srange() + +""" + +__copyright__ = """\ +Copyright (c), 1997-2006, Marc-Andre Lemburg (mal@lemburg.com) +Copyright (c), 2000-2006, eGenix.com Software GmbH (info@egenix.com) +See the documentation for further information on copyrights, +or contact the author. All Rights Reserved. +""" + +__version__ = '1.2' + +import sys, getopt, string, glob, os, re, exceptions, traceback + +### Helpers + +def _getopt_flags(options): + + """ Convert the option list to a getopt flag string and long opt + list + + """ + s = [] + l = [] + for o in options: + if o.prefix == '-': + # short option + s.append(o.name) + if o.takes_argument: + s.append(':') + else: + # long option + if o.takes_argument: + l.append(o.name+'=') + else: + l.append(o.name) + return string.join(s,''),l + +def invisible_input(prompt='>>> '): + + """ Get raw input from a terminal without echoing the characters to + the terminal, e.g. for password queries. + + """ + import getpass + entry = getpass.getpass(prompt) + if entry is None: + raise KeyboardInterrupt + return entry + +def fileopen(name, mode='wb', encoding=None): + + """ Open a file using mode. + + Default mode is 'wb' meaning to open the file for writing in + binary mode. If encoding is given, I/O to and from the file is + transparently encoded using the given encoding. + + Files opened for writing are chmod()ed to 0600. + + """ + if name == 'stdout': + return sys.stdout + elif name == 'stderr': + return sys.stderr + elif name == 'stdin': + return sys.stdin + else: + if encoding is not None: + import codecs + f = codecs.open(name, mode, encoding) + else: + f = open(name, mode) + if 'w' in mode: + os.chmod(name, 0600) + return f + +def option_dict(options): + + """ Return a dictionary mapping option names to Option instances. + """ + d = {} + for option in options: + d[option.name] = option + return d + +# Alias +getpasswd = invisible_input + +_integerRE = re.compile('\s*(-?\d+)\s*$') +_integerRangeRE = re.compile('\s*(-?\d+)\s*-\s*(-?\d+)\s*$') + +def srange(s, + + split=string.split,integer=_integerRE, + integerRange=_integerRangeRE): + + """ Converts a textual representation of integer numbers and ranges + to a Python list. + + Supported formats: 2,3,4,2-10,-1 - -3, 5 - -2 + + Values are appended to the created list in the order specified + in the string. + + """ + l = [] + append = l.append + for entry in split(s,','): + m = integer.match(entry) + if m: + append(int(m.groups()[0])) + continue + m = integerRange.match(entry) + if m: + start,end = map(int,m.groups()) + l[len(l):] = range(start,end+1) + return l + +def abspath(path, + + expandvars=os.path.expandvars,expanduser=os.path.expanduser, + join=os.path.join,getcwd=os.getcwd): + + """ Return the corresponding absolute path for path. + + path is expanded in the usual shell ways before + joining it with the current working directory. + + """ + try: + path = expandvars(path) + except AttributeError: + pass + try: + path = expanduser(path) + except AttributeError: + pass + return join(getcwd(), path) + +### Option classes + +class Option: + + """ Option base class. Takes no argument. + + """ + default = None + helptext = '' + prefix = '-' + takes_argument = 0 + has_default = 0 + tab = 15 + + def __init__(self,name,help=None): + + if not name[:1] == '-': + raise TypeError,'option names must start with "-"' + if name[1:2] == '-': + self.prefix = '--' + self.name = name[2:] + else: + self.name = name[1:] + if help: + self.help = help + + def __str__(self): + + o = self + name = o.prefix + o.name + if o.takes_argument: + name = name + ' arg' + if len(name) > self.tab: + name = name + '\n' + ' ' * (self.tab + 1 + len(o.prefix)) + else: + name = '%-*s ' % (self.tab, name) + description = o.help + if o.has_default: + description = description + ' (%s)' % o.default + return '%s %s' % (name, description) + +class ArgumentOption(Option): + + """ Option that takes an argument. + + An optional default argument can be given. + + """ + def __init__(self,name,help=None,default=None): + + # Basemethod + Option.__init__(self,name,help) + + if default is not None: + self.default = default + self.has_default = 1 + self.takes_argument = 1 + +class SwitchOption(Option): + + """ Options that can be on or off. Has an optional default value. + + """ + def __init__(self,name,help=None,default=None): + + # Basemethod + Option.__init__(self,name,help) + + if default is not None: + self.default = default + self.has_default = 1 + +### Application baseclass + +class Application: + + """ Command line application interface with builtin argument + parsing. + + """ + # Options the program accepts (Option instances) + options = [] + + # Standard settings; these are appended to options in __init__ + preset_options = [SwitchOption('-v', + 'generate verbose output'), + SwitchOption('-h', + 'show this help text'), + SwitchOption('--help', + 'show this help text'), + SwitchOption('--debug', + 'enable debugging'), + SwitchOption('--copyright', + 'show copyright'), + SwitchOption('--examples', + 'show examples of usage')] + + # The help layout looks like this: + # [header] - defaults to '' + # + # [synopsis] - formatted as '<self.name> %s' % self.synopsis + # + # options: + # [options] - formatted from self.options + # + # [version] - formatted as 'Version:\n %s' % self.version, if given + # + # [about] - defaults to '' + # + # Note: all fields that do not behave as template are formatted + # using the instances dictionary as substitution namespace, + # e.g. %(name)s will be replaced by the applications name. + # + + # Header (default to program name) + header = '' + + # Name (defaults to program name) + name = '' + + # Synopsis (%(name)s is replaced by the program name) + synopsis = '%(name)s [option] files...' + + # Version (optional) + version = '' + + # General information printed after the possible options (optional) + about = '' + + # Examples of usage to show when the --examples option is given (optional) + examples = '' + + # Copyright to show + copyright = __copyright__ + + # Apply file globbing ? + globbing = 1 + + # Generate debug output ? + debug = 0 + + # Generate verbose output ? + verbose = 0 + + # Internal errors to catch + InternalError = exceptions.Exception + + # Instance variables: + values = None # Dictionary of passed options (or default values) + # indexed by the options name, e.g. '-h' + files = None # List of passed filenames + optionlist = None # List of passed options + + def __init__(self,argv=None): + + # Setup application specs + if argv is None: + argv = sys.argv + self.filename = os.path.split(argv[0])[1] + if not self.name: + self.name = os.path.split(self.filename)[1] + else: + self.name = self.name + if not self.header: + self.header = self.name + else: + self.header = self.header + + # Init .arguments list + self.arguments = argv[1:] + + # Setup Option mapping + self.option_map = option_dict(self.options) + + # Append preset options + for option in self.preset_options: + if not self.option_map.has_key(option.name): + self.add_option(option) + + # Init .files list + self.files = [] + + # Start Application + try: + # Process startup + rc = self.startup() + if rc is not None: + raise SystemExit,rc + + # Parse command line + rc = self.parse() + if rc is not None: + raise SystemExit,rc + + # Start application + rc = self.main() + if rc is None: + rc = 0 + + except SystemExit,rc: + pass + + except KeyboardInterrupt: + print + print '* User Break' + print + rc = 1 + + except self.InternalError: + print + print '* Internal Error (use --debug to display the traceback)' + if self.debug: + print + traceback.print_exc(20, sys.stdout) + elif self.verbose: + print ' %s: %s' % sys.exc_info()[:2] + print + rc = 1 + + raise SystemExit,rc + + def add_option(self, option): + + """ Add a new Option instance to the Application dynamically. + + Note that this has to be done *before* .parse() is being + executed. + + """ + self.options.append(option) + self.option_map[option.name] = option + + def startup(self): + + """ Set user defined instance variables. + + If this method returns anything other than None, the + process is terminated with the return value as exit code. + + """ + return None + + def exit(self, rc=0): + + """ Exit the program. + + rc is used as exit code and passed back to the calling + program. It defaults to 0 which usually means: OK. + + """ + raise SystemExit, rc + + def parse(self): + + """ Parse the command line and fill in self.values and self.files. + + After having parsed the options, the remaining command line + arguments are interpreted as files and passed to .handle_files() + for processing. + + As final step the option handlers are called in the order + of the options given on the command line. + + """ + # Parse arguments + self.values = values = {} + for o in self.options: + if o.has_default: + values[o.prefix+o.name] = o.default + else: + values[o.prefix+o.name] = 0 + flags,lflags = _getopt_flags(self.options) + try: + optlist,files = getopt.getopt(self.arguments,flags,lflags) + if self.globbing: + l = [] + for f in files: + gf = glob.glob(f) + if not gf: + l.append(f) + else: + l[len(l):] = gf + files = l + self.optionlist = optlist + self.files = files + self.files + except getopt.error,why: + self.help(why) + sys.exit(1) + + # Call file handler + rc = self.handle_files(self.files) + if rc is not None: + sys.exit(rc) + + # Call option handlers + for optionname, value in optlist: + + # Try to convert value to integer + try: + value = string.atoi(value) + except ValueError: + pass + + # Find handler and call it (or count the number of option + # instances on the command line) + handlername = 'handle' + string.replace(optionname, '-', '_') + try: + handler = getattr(self, handlername) + except AttributeError: + if value == '': + # count the number of occurances + if values.has_key(optionname): + values[optionname] = values[optionname] + 1 + else: + values[optionname] = 1 + else: + values[optionname] = value + else: + rc = handler(value) + if rc is not None: + raise SystemExit, rc + + # Apply final file check (for backward compatibility) + rc = self.check_files(self.files) + if rc is not None: + sys.exit(rc) + + def check_files(self,filelist): + + """ Apply some user defined checks on the files given in filelist. + + This may modify filelist in place. A typical application + is checking that at least n files are given. + + If this method returns anything other than None, the + process is terminated with the return value as exit code. + + """ + return None + + def help(self,note=''): + + self.print_header() + if self.synopsis: + print 'Synopsis:' + # To remain backward compatible: + try: + synopsis = self.synopsis % self.name + except (NameError, KeyError, TypeError): + synopsis = self.synopsis % self.__dict__ + print ' ' + synopsis + print + self.print_options() + if self.version: + print 'Version:' + print ' %s' % self.version + print + if self.about: + print string.strip(self.about % self.__dict__) + print + if note: + print '-'*72 + print 'Note:',note + print + + def notice(self,note): + + print '-'*72 + print 'Note:',note + print '-'*72 + print + + def print_header(self): + + print '-'*72 + print self.header % self.__dict__ + print '-'*72 + print + + def print_options(self): + + options = self.options + print 'Options and default settings:' + if not options: + print ' None' + return + long = filter(lambda x: x.prefix == '--', options) + short = filter(lambda x: x.prefix == '-', options) + items = short + long + for o in options: + print ' ',o + print + + # + # Example handlers: + # + # If a handler returns anything other than None, processing stops + # and the return value is passed to sys.exit() as argument. + # + + # File handler + def handle_files(self,files): + + """ This may process the files list in place. + """ + return None + + # Short option handler + def handle_h(self,arg): + + self.help() + return 0 + + def handle_v(self, value): + + """ Turn on verbose output. + """ + self.verbose = 1 + + # Handlers for long options have two underscores in their name + def handle__help(self,arg): + + self.help() + return 0 + + def handle__debug(self,arg): + + self.debug = 1 + # We don't want to catch internal errors: + self.InternalError = None + + def handle__copyright(self,arg): + + self.print_header() + print string.strip(self.copyright % self.__dict__) + print + return 0 + + def handle__examples(self,arg): + + self.print_header() + if self.examples: + print 'Examples:' + print + print string.strip(self.examples % self.__dict__) + print + else: + print 'No examples available.' + print + return 0 + + def main(self): + + """ Override this method as program entry point. + + The return value is passed to sys.exit() as argument. If + it is None, 0 is assumed (meaning OK). Unhandled + exceptions are reported with exit status code 1 (see + __init__ for further details). + + """ + return None + +# Alias +CommandLine = Application + +def _test(): + + class MyApplication(Application): + header = 'Test Application' + version = __version__ + options = [Option('-v','verbose')] + + def handle_v(self,arg): + print 'VERBOSE, Yeah !' + + cmd = MyApplication() + if not cmd.values['-h']: + cmd.help() + print 'files:',cmd.files + print 'Bye...' + +if __name__ == '__main__': + _test() diff --git a/Tools/pybench/pybench-2.0/Constructs.py b/Tools/pybench/pybench-2.0/Constructs.py new file mode 100644 index 0000000..5105461 --- /dev/null +++ b/Tools/pybench/pybench-2.0/Constructs.py @@ -0,0 +1,564 @@ +from pybench import Test + +class IfThenElse(Test): + + version = 2.0 + operations = 30*3 # hard to say... + rounds = 150000 + + def test(self): + + a,b,c = 1,2,3 + for i in xrange(self.rounds): + + if a == 1: + if b == 2: + if c != 3: + c = 3 + b = 3 + else: + c = 2 + elif b == 3: + b = 2 + a = 2 + elif a == 2: + a = 3 + else: + a = 1 + + if a == 1: + if b == 2: + if c != 3: + c = 3 + b = 3 + else: + c = 2 + elif b == 3: + b = 2 + a = 2 + elif a == 2: + a = 3 + else: + a = 1 + + if a == 1: + if b == 2: + if c != 3: + c = 3 + b = 3 + else: + c = 2 + elif b == 3: + b = 2 + a = 2 + elif a == 2: + a = 3 + else: + a = 1 + + if a == 1: + if b == 2: + if c != 3: + c = 3 + b = 3 + else: + c = 2 + elif b == 3: + b = 2 + a = 2 + elif a == 2: + a = 3 + else: + a = 1 + + if a == 1: + if b == 2: + if c != 3: + c = 3 + b = 3 + else: + c = 2 + elif b == 3: + b = 2 + a = 2 + elif a == 2: + a = 3 + else: + a = 1 + + if a == 1: + if b == 2: + if c != 3: + c = 3 + b = 3 + else: + c = 2 + elif b == 3: + b = 2 + a = 2 + elif a == 2: + a = 3 + else: + a = 1 + + if a == 1: + if b == 2: + if c != 3: + c = 3 + b = 3 + else: + c = 2 + elif b == 3: + b = 2 + a = 2 + elif a == 2: + a = 3 + else: + a = 1 + + if a == 1: + if b == 2: + if c != 3: + c = 3 + b = 3 + else: + c = 2 + elif b == 3: + b = 2 + a = 2 + elif a == 2: + a = 3 + else: + a = 1 + + if a == 1: + if b == 2: + if c != 3: + c = 3 + b = 3 + else: + c = 2 + elif b == 3: + b = 2 + a = 2 + elif a == 2: + a = 3 + else: + a = 1 + + if a == 1: + if b == 2: + if c != 3: + c = 3 + b = 3 + else: + c = 2 + elif b == 3: + b = 2 + a = 2 + elif a == 2: + a = 3 + else: + a = 1 + + if a == 1: + if b == 2: + if c != 3: + c = 3 + b = 3 + else: + c = 2 + elif b == 3: + b = 2 + a = 2 + elif a == 2: + a = 3 + else: + a = 1 + + if a == 1: + if b == 2: + if c != 3: + c = 3 + b = 3 + else: + c = 2 + elif b == 3: + b = 2 + a = 2 + elif a == 2: + a = 3 + else: + a = 1 + + if a == 1: + if b == 2: + if c != 3: + c = 3 + b = 3 + else: + c = 2 + elif b == 3: + b = 2 + a = 2 + elif a == 2: + a = 3 + else: + a = 1 + + if a == 1: + if b == 2: + if c != 3: + c = 3 + b = 3 + else: + c = 2 + elif b == 3: + b = 2 + a = 2 + elif a == 2: + a = 3 + else: + a = 1 + + if a == 1: + if b == 2: + if c != 3: + c = 3 + b = 3 + else: + c = 2 + elif b == 3: + b = 2 + a = 2 + elif a == 2: + a = 3 + else: + a = 1 + + if a == 1: + if b == 2: + if c != 3: + c = 3 + b = 3 + else: + c = 2 + elif b == 3: + b = 2 + a = 2 + elif a == 2: + a = 3 + else: + a = 1 + + if a == 1: + if b == 2: + if c != 3: + c = 3 + b = 3 + else: + c = 2 + elif b == 3: + b = 2 + a = 2 + elif a == 2: + a = 3 + else: + a = 1 + + if a == 1: + if b == 2: + if c != 3: + c = 3 + b = 3 + else: + c = 2 + elif b == 3: + b = 2 + a = 2 + elif a == 2: + a = 3 + else: + a = 1 + + if a == 1: + if b == 2: + if c != 3: + c = 3 + b = 3 + else: + c = 2 + elif b == 3: + b = 2 + a = 2 + elif a == 2: + a = 3 + else: + a = 1 + + if a == 1: + if b == 2: + if c != 3: + c = 3 + b = 3 + else: + c = 2 + elif b == 3: + b = 2 + a = 2 + elif a == 2: + a = 3 + else: + a = 1 + + if a == 1: + if b == 2: + if c != 3: + c = 3 + b = 3 + else: + c = 2 + elif b == 3: + b = 2 + a = 2 + elif a == 2: + a = 3 + else: + a = 1 + + if a == 1: + if b == 2: + if c != 3: + c = 3 + b = 3 + else: + c = 2 + elif b == 3: + b = 2 + a = 2 + elif a == 2: + a = 3 + else: + a = 1 + + if a == 1: + if b == 2: + if c != 3: + c = 3 + b = 3 + else: + c = 2 + elif b == 3: + b = 2 + a = 2 + elif a == 2: + a = 3 + else: + a = 1 + + if a == 1: + if b == 2: + if c != 3: + c = 3 + b = 3 + else: + c = 2 + elif b == 3: + b = 2 + a = 2 + elif a == 2: + a = 3 + else: + a = 1 + + if a == 1: + if b == 2: + if c != 3: + c = 3 + b = 3 + else: + c = 2 + elif b == 3: + b = 2 + a = 2 + elif a == 2: + a = 3 + else: + a = 1 + + if a == 1: + if b == 2: + if c != 3: + c = 3 + b = 3 + else: + c = 2 + elif b == 3: + b = 2 + a = 2 + elif a == 2: + a = 3 + else: + a = 1 + + if a == 1: + if b == 2: + if c != 3: + c = 3 + b = 3 + else: + c = 2 + elif b == 3: + b = 2 + a = 2 + elif a == 2: + a = 3 + else: + a = 1 + + if a == 1: + if b == 2: + if c != 3: + c = 3 + b = 3 + else: + c = 2 + elif b == 3: + b = 2 + a = 2 + elif a == 2: + a = 3 + else: + a = 1 + + if a == 1: + if b == 2: + if c != 3: + c = 3 + b = 3 + else: + c = 2 + elif b == 3: + b = 2 + a = 2 + elif a == 2: + a = 3 + else: + a = 1 + + if a == 1: + if b == 2: + if c != 3: + c = 3 + b = 3 + else: + c = 2 + elif b == 3: + b = 2 + a = 2 + elif a == 2: + a = 3 + else: + a = 1 + + def calibrate(self): + + a,b,c = 1,2,3 + for i in xrange(self.rounds): + pass + +class NestedForLoops(Test): + + version = 2.0 + operations = 1000*10*5 + rounds = 300 + + def test(self): + + l1 = range(1000) + l2 = range(10) + l3 = range(5) + for i in xrange(self.rounds): + for i in l1: + for j in l2: + for k in l3: + pass + + def calibrate(self): + + l1 = range(1000) + l2 = range(10) + l3 = range(5) + for i in xrange(self.rounds): + pass + +class ForLoops(Test): + + version = 2.0 + operations = 5 * 5 + rounds = 10000 + + def test(self): + + l1 = range(100) + for i in xrange(self.rounds): + for i in l1: + pass + for i in l1: + pass + for i in l1: + pass + for i in l1: + pass + for i in l1: + pass + + for i in l1: + pass + for i in l1: + pass + for i in l1: + pass + for i in l1: + pass + for i in l1: + pass + + for i in l1: + pass + for i in l1: + pass + for i in l1: + pass + for i in l1: + pass + for i in l1: + pass + + for i in l1: + pass + for i in l1: + pass + for i in l1: + pass + for i in l1: + pass + for i in l1: + pass + + for i in l1: + pass + for i in l1: + pass + for i in l1: + pass + for i in l1: + pass + for i in l1: + pass + + def calibrate(self): + + l1 = range(1000) + for i in xrange(self.rounds): + pass diff --git a/Tools/pybench/pybench-2.0/Dict.py b/Tools/pybench/pybench-2.0/Dict.py new file mode 100644 index 0000000..9cdd682 --- /dev/null +++ b/Tools/pybench/pybench-2.0/Dict.py @@ -0,0 +1,504 @@ +from pybench import Test + +class DictCreation(Test): + + version = 2.0 + operations = 5*(5 + 5) + rounds = 80000 + + def test(self): + + for i in xrange(self.rounds): + + d1 = {} + d2 = {} + d3 = {} + d4 = {} + d5 = {} + + d1 = {1:2,3:4,5:6} + d2 = {2:3,4:5,6:7} + d3 = {3:4,5:6,7:8} + d4 = {4:5,6:7,8:9} + d5 = {6:7,8:9,10:11} + + d1 = {} + d2 = {} + d3 = {} + d4 = {} + d5 = {} + + d1 = {1:2,3:4,5:6} + d2 = {2:3,4:5,6:7} + d3 = {3:4,5:6,7:8} + d4 = {4:5,6:7,8:9} + d5 = {6:7,8:9,10:11} + + d1 = {} + d2 = {} + d3 = {} + d4 = {} + d5 = {} + + d1 = {1:2,3:4,5:6} + d2 = {2:3,4:5,6:7} + d3 = {3:4,5:6,7:8} + d4 = {4:5,6:7,8:9} + d5 = {6:7,8:9,10:11} + + d1 = {} + d2 = {} + d3 = {} + d4 = {} + d5 = {} + + d1 = {1:2,3:4,5:6} + d2 = {2:3,4:5,6:7} + d3 = {3:4,5:6,7:8} + d4 = {4:5,6:7,8:9} + d5 = {6:7,8:9,10:11} + + d1 = {} + d2 = {} + d3 = {} + d4 = {} + d5 = {} + + d1 = {1:2,3:4,5:6} + d2 = {2:3,4:5,6:7} + d3 = {3:4,5:6,7:8} + d4 = {4:5,6:7,8:9} + d5 = {6:7,8:9,10:11} + + def calibrate(self): + + for i in xrange(self.rounds): + pass + +class DictWithStringKeys(Test): + + version = 2.0 + operations = 5*(6 + 6) + rounds = 200000 + + def test(self): + + d = {} + + for i in xrange(self.rounds): + + d['abc'] = 1 + d['def'] = 2 + d['ghi'] = 3 + d['jkl'] = 4 + d['mno'] = 5 + d['pqr'] = 6 + + d['abc'] + d['def'] + d['ghi'] + d['jkl'] + d['mno'] + d['pqr'] + + d['abc'] = 1 + d['def'] = 2 + d['ghi'] = 3 + d['jkl'] = 4 + d['mno'] = 5 + d['pqr'] = 6 + + d['abc'] + d['def'] + d['ghi'] + d['jkl'] + d['mno'] + d['pqr'] + + d['abc'] = 1 + d['def'] = 2 + d['ghi'] = 3 + d['jkl'] = 4 + d['mno'] = 5 + d['pqr'] = 6 + + d['abc'] + d['def'] + d['ghi'] + d['jkl'] + d['mno'] + d['pqr'] + + d['abc'] = 1 + d['def'] = 2 + d['ghi'] = 3 + d['jkl'] = 4 + d['mno'] = 5 + d['pqr'] = 6 + + d['abc'] + d['def'] + d['ghi'] + d['jkl'] + d['mno'] + d['pqr'] + + d['abc'] = 1 + d['def'] = 2 + d['ghi'] = 3 + d['jkl'] = 4 + d['mno'] = 5 + d['pqr'] = 6 + + d['abc'] + d['def'] + d['ghi'] + d['jkl'] + d['mno'] + d['pqr'] + + def calibrate(self): + + d = {} + + for i in xrange(self.rounds): + pass + +class DictWithFloatKeys(Test): + + version = 2.0 + operations = 5*(6 + 6) + rounds = 150000 + + def test(self): + + d = {} + + for i in xrange(self.rounds): + + d[1.234] = 1 + d[2.345] = 2 + d[3.456] = 3 + d[4.567] = 4 + d[5.678] = 5 + d[6.789] = 6 + + d[1.234] + d[2.345] + d[3.456] + d[4.567] + d[5.678] + d[6.789] + + d[1.234] = 1 + d[2.345] = 2 + d[3.456] = 3 + d[4.567] = 4 + d[5.678] = 5 + d[6.789] = 6 + + d[1.234] + d[2.345] + d[3.456] + d[4.567] + d[5.678] + d[6.789] + + d[1.234] = 1 + d[2.345] = 2 + d[3.456] = 3 + d[4.567] = 4 + d[5.678] = 5 + d[6.789] = 6 + + d[1.234] + d[2.345] + d[3.456] + d[4.567] + d[5.678] + d[6.789] + + d[1.234] = 1 + d[2.345] = 2 + d[3.456] = 3 + d[4.567] = 4 + d[5.678] = 5 + d[6.789] = 6 + + d[1.234] + d[2.345] + d[3.456] + d[4.567] + d[5.678] + d[6.789] + + d[1.234] = 1 + d[2.345] = 2 + d[3.456] = 3 + d[4.567] = 4 + d[5.678] = 5 + d[6.789] = 6 + + d[1.234] + d[2.345] + d[3.456] + d[4.567] + d[5.678] + d[6.789] + + def calibrate(self): + + d = {} + + for i in xrange(self.rounds): + pass + +class DictWithIntegerKeys(Test): + + version = 2.0 + operations = 5*(6 + 6) + rounds = 200000 + + def test(self): + + d = {} + + for i in xrange(self.rounds): + + d[1] = 1 + d[2] = 2 + d[3] = 3 + d[4] = 4 + d[5] = 5 + d[6] = 6 + + d[1] + d[2] + d[3] + d[4] + d[5] + d[6] + + d[1] = 1 + d[2] = 2 + d[3] = 3 + d[4] = 4 + d[5] = 5 + d[6] = 6 + + d[1] + d[2] + d[3] + d[4] + d[5] + d[6] + + d[1] = 1 + d[2] = 2 + d[3] = 3 + d[4] = 4 + d[5] = 5 + d[6] = 6 + + d[1] + d[2] + d[3] + d[4] + d[5] + d[6] + + d[1] = 1 + d[2] = 2 + d[3] = 3 + d[4] = 4 + d[5] = 5 + d[6] = 6 + + d[1] + d[2] + d[3] + d[4] + d[5] + d[6] + + d[1] = 1 + d[2] = 2 + d[3] = 3 + d[4] = 4 + d[5] = 5 + d[6] = 6 + + d[1] + d[2] + d[3] + d[4] + d[5] + d[6] + + def calibrate(self): + + d = {} + + for i in xrange(self.rounds): + pass + +class SimpleDictManipulation(Test): + + version = 2.0 + operations = 5*(6 + 6 + 6 + 6) + rounds = 100000 + + def test(self): + + d = {} + has_key = d.has_key + + for i in xrange(self.rounds): + + d[0] = 3 + d[1] = 4 + d[2] = 5 + d[3] = 3 + d[4] = 4 + d[5] = 5 + + x = d[0] + x = d[1] + x = d[2] + x = d[3] + x = d[4] + x = d[5] + + has_key(0) + has_key(2) + has_key(4) + has_key(6) + has_key(8) + has_key(10) + + del d[0] + del d[1] + del d[2] + del d[3] + del d[4] + del d[5] + + d[0] = 3 + d[1] = 4 + d[2] = 5 + d[3] = 3 + d[4] = 4 + d[5] = 5 + + x = d[0] + x = d[1] + x = d[2] + x = d[3] + x = d[4] + x = d[5] + + has_key(0) + has_key(2) + has_key(4) + has_key(6) + has_key(8) + has_key(10) + + del d[0] + del d[1] + del d[2] + del d[3] + del d[4] + del d[5] + + d[0] = 3 + d[1] = 4 + d[2] = 5 + d[3] = 3 + d[4] = 4 + d[5] = 5 + + x = d[0] + x = d[1] + x = d[2] + x = d[3] + x = d[4] + x = d[5] + + has_key(0) + has_key(2) + has_key(4) + has_key(6) + has_key(8) + has_key(10) + + del d[0] + del d[1] + del d[2] + del d[3] + del d[4] + del d[5] + + d[0] = 3 + d[1] = 4 + d[2] = 5 + d[3] = 3 + d[4] = 4 + d[5] = 5 + + x = d[0] + x = d[1] + x = d[2] + x = d[3] + x = d[4] + x = d[5] + + has_key(0) + has_key(2) + has_key(4) + has_key(6) + has_key(8) + has_key(10) + + del d[0] + del d[1] + del d[2] + del d[3] + del d[4] + del d[5] + + d[0] = 3 + d[1] = 4 + d[2] = 5 + d[3] = 3 + d[4] = 4 + d[5] = 5 + + x = d[0] + x = d[1] + x = d[2] + x = d[3] + x = d[4] + x = d[5] + + has_key(0) + has_key(2) + has_key(4) + has_key(6) + has_key(8) + has_key(10) + + del d[0] + del d[1] + del d[2] + del d[3] + del d[4] + del d[5] + + def calibrate(self): + + d = {} + has_key = d.has_key + + for i in xrange(self.rounds): + pass diff --git a/Tools/pybench/pybench-2.0/Exceptions.py b/Tools/pybench/pybench-2.0/Exceptions.py new file mode 100644 index 0000000..eff69c7 --- /dev/null +++ b/Tools/pybench/pybench-2.0/Exceptions.py @@ -0,0 +1,699 @@ +from pybench import Test + +class TryRaiseExcept(Test): + + version = 2.0 + operations = 2 + 3 + 3 + rounds = 80000 + + def test(self): + + error = ValueError + + for i in xrange(self.rounds): + try: + raise error + except: + pass + try: + raise error + except: + pass + try: + raise error,"something" + except: + pass + try: + raise error,"something" + except: + pass + try: + raise error,"something" + except: + pass + try: + raise error("something") + except: + pass + try: + raise error("something") + except: + pass + try: + raise error("something") + except: + pass + + def calibrate(self): + + error = ValueError + + for i in xrange(self.rounds): + pass + + +class TryExcept(Test): + + version = 2.0 + operations = 15 * 10 + rounds = 150000 + + def test(self): + + for i in xrange(self.rounds): + try: + pass + except: + pass + try: + pass + except: + pass + try: + pass + except: + pass + try: + pass + except: + pass + try: + pass + except: + pass + try: + pass + except: + pass + try: + pass + except: + pass + try: + pass + except: + pass + try: + pass + except: + pass + try: + pass + except: + pass + + try: + pass + except: + pass + try: + pass + except: + pass + try: + pass + except: + pass + try: + pass + except: + pass + try: + pass + except: + pass + try: + pass + except: + pass + try: + pass + except: + pass + try: + pass + except: + pass + try: + pass + except: + pass + try: + pass + except: + pass + + + try: + pass + except: + pass + try: + pass + except: + pass + try: + pass + except: + pass + try: + pass + except: + pass + try: + pass + except: + pass + try: + pass + except: + pass + try: + pass + except: + pass + try: + pass + except: + pass + try: + pass + except: + pass + try: + pass + except: + pass + + + try: + pass + except: + pass + try: + pass + except: + pass + try: + pass + except: + pass + try: + pass + except: + pass + try: + pass + except: + pass + try: + pass + except: + pass + try: + pass + except: + pass + try: + pass + except: + pass + try: + pass + except: + pass + try: + pass + except: + pass + + + try: + pass + except: + pass + try: + pass + except: + pass + try: + pass + except: + pass + try: + pass + except: + pass + try: + pass + except: + pass + try: + pass + except: + pass + try: + pass + except: + pass + try: + pass + except: + pass + try: + pass + except: + pass + try: + pass + except: + pass + + try: + pass + except: + pass + try: + pass + except: + pass + try: + pass + except: + pass + try: + pass + except: + pass + try: + pass + except: + pass + try: + pass + except: + pass + try: + pass + except: + pass + try: + pass + except: + pass + try: + pass + except: + pass + try: + pass + except: + pass + + try: + pass + except: + pass + try: + pass + except: + pass + try: + pass + except: + pass + try: + pass + except: + pass + try: + pass + except: + pass + try: + pass + except: + pass + try: + pass + except: + pass + try: + pass + except: + pass + try: + pass + except: + pass + try: + pass + except: + pass + + + try: + pass + except: + pass + try: + pass + except: + pass + try: + pass + except: + pass + try: + pass + except: + pass + try: + pass + except: + pass + try: + pass + except: + pass + try: + pass + except: + pass + try: + pass + except: + pass + try: + pass + except: + pass + try: + pass + except: + pass + + + try: + pass + except: + pass + try: + pass + except: + pass + try: + pass + except: + pass + try: + pass + except: + pass + try: + pass + except: + pass + try: + pass + except: + pass + try: + pass + except: + pass + try: + pass + except: + pass + try: + pass + except: + pass + try: + pass + except: + pass + + + try: + pass + except: + pass + try: + pass + except: + pass + try: + pass + except: + pass + try: + pass + except: + pass + try: + pass + except: + pass + try: + pass + except: + pass + try: + pass + except: + pass + try: + pass + except: + pass + try: + pass + except: + pass + try: + pass + except: + pass + + try: + pass + except: + pass + try: + pass + except: + pass + try: + pass + except: + pass + try: + pass + except: + pass + try: + pass + except: + pass + try: + pass + except: + pass + try: + pass + except: + pass + try: + pass + except: + pass + try: + pass + except: + pass + try: + pass + except: + pass + + try: + pass + except: + pass + try: + pass + except: + pass + try: + pass + except: + pass + try: + pass + except: + pass + try: + pass + except: + pass + try: + pass + except: + pass + try: + pass + except: + pass + try: + pass + except: + pass + try: + pass + except: + pass + try: + pass + except: + pass + + + try: + pass + except: + pass + try: + pass + except: + pass + try: + pass + except: + pass + try: + pass + except: + pass + try: + pass + except: + pass + try: + pass + except: + pass + try: + pass + except: + pass + try: + pass + except: + pass + try: + pass + except: + pass + try: + pass + except: + pass + + + try: + pass + except: + pass + try: + pass + except: + pass + try: + pass + except: + pass + try: + pass + except: + pass + try: + pass + except: + pass + try: + pass + except: + pass + try: + pass + except: + pass + try: + pass + except: + pass + try: + pass + except: + pass + try: + pass + except: + pass + + + try: + pass + except: + pass + try: + pass + except: + pass + try: + pass + except: + pass + try: + pass + except: + pass + try: + pass + except: + pass + try: + pass + except: + pass + try: + pass + except: + pass + try: + pass + except: + pass + try: + pass + except: + pass + try: + pass + except: + pass + + def calibrate(self): + + for i in xrange(self.rounds): + pass + +### Test to make Fredrik happy... + +if __name__ == '__main__': + import timeit + timeit.TestClass = TryRaiseExcept + timeit.main(['-s', 'test = TestClass(); test.rounds = 1000', + 'test.test()']) diff --git a/Tools/pybench/pybench-2.0/Imports.py b/Tools/pybench/pybench-2.0/Imports.py new file mode 100644 index 0000000..afc728b --- /dev/null +++ b/Tools/pybench/pybench-2.0/Imports.py @@ -0,0 +1,138 @@ +from pybench import Test + +# First imports: +import os +import package.submodule + +class SecondImport(Test): + + version = 2.0 + operations = 5 * 5 + rounds = 40000 + + def test(self): + + for i in xrange(self.rounds): + import os + import os + import os + import os + import os + + import os + import os + import os + import os + import os + + import os + import os + import os + import os + import os + + import os + import os + import os + import os + import os + + import os + import os + import os + import os + import os + + def calibrate(self): + + for i in xrange(self.rounds): + pass + + +class SecondPackageImport(Test): + + version = 2.0 + operations = 5 * 5 + rounds = 40000 + + def test(self): + + for i in xrange(self.rounds): + import package + import package + import package + import package + import package + + import package + import package + import package + import package + import package + + import package + import package + import package + import package + import package + + import package + import package + import package + import package + import package + + import package + import package + import package + import package + import package + + def calibrate(self): + + for i in xrange(self.rounds): + pass + +class SecondSubmoduleImport(Test): + + version = 2.0 + operations = 5 * 5 + rounds = 40000 + + def test(self): + + for i in xrange(self.rounds): + import package.submodule + import package.submodule + import package.submodule + import package.submodule + import package.submodule + + import package.submodule + import package.submodule + import package.submodule + import package.submodule + import package.submodule + + import package.submodule + import package.submodule + import package.submodule + import package.submodule + import package.submodule + + import package.submodule + import package.submodule + import package.submodule + import package.submodule + import package.submodule + + import package.submodule + import package.submodule + import package.submodule + import package.submodule + import package.submodule + + def calibrate(self): + + for i in xrange(self.rounds): + pass diff --git a/Tools/pybench/pybench-2.0/Instances.py b/Tools/pybench/pybench-2.0/Instances.py new file mode 100644 index 0000000..1dfc82f --- /dev/null +++ b/Tools/pybench/pybench-2.0/Instances.py @@ -0,0 +1,66 @@ +from pybench import Test + +class CreateInstances(Test): + + version = 2.0 + operations = 3 + 7 + 4 + rounds = 80000 + + def test(self): + + class c: + pass + + class d: + def __init__(self,a,b,c): + self.a = a + self.b = b + self.c = c + + class e: + def __init__(self,a,b,c=4): + self.a = a + self.b = b + self.c = c + self.d = a + self.e = b + self.f = c + + for i in xrange(self.rounds): + o = c() + o1 = c() + o2 = c() + p = d(i,i,3) + p1 = d(i,i,3) + p2 = d(i,3,3) + p3 = d(3,i,3) + p4 = d(i,i,i) + p5 = d(3,i,3) + p6 = d(i,i,i) + q = e(i,i,3) + q1 = e(i,i,3) + q2 = e(i,i,3) + q3 = e(i,i) + + def calibrate(self): + + class c: + pass + + class d: + def __init__(self,a,b,c): + self.a = a + self.b = b + self.c = c + + class e: + def __init__(self,a,b,c=4): + self.a = a + self.b = b + self.c = c + self.d = a + self.e = b + self.f = c + + for i in xrange(self.rounds): + pass diff --git a/Tools/pybench/pybench-2.0/LICENSE b/Tools/pybench/pybench-2.0/LICENSE new file mode 100644 index 0000000..17c6a6b --- /dev/null +++ b/Tools/pybench/pybench-2.0/LICENSE @@ -0,0 +1,25 @@ +pybench License +--------------- + +This copyright notice and license applies to all files in the pybench +directory of the pybench distribution. + +Copyright (c), 1997-2006, Marc-Andre Lemburg (mal@lemburg.com) +Copyright (c), 2000-2006, eGenix.com Software GmbH (info@egenix.com) + + All Rights Reserved. + +Permission to use, copy, modify, and distribute this software and its +documentation for any purpose and without fee or royalty is hereby +granted, provided that the above copyright notice appear in all copies +and that both that copyright notice and this permission notice appear +in supporting documentation or portions thereof, including +modifications, that you make. + +THE AUTHOR MARC-ANDRE LEMBURG DISCLAIMS ALL WARRANTIES WITH REGARD TO +THIS SOFTWARE, INCLUDING ALL IMPLIED WARRANTIES OF MERCHANTABILITY AND +FITNESS, IN NO EVENT SHALL THE AUTHOR BE LIABLE FOR ANY SPECIAL, +INDIRECT OR CONSEQUENTIAL DAMAGES OR ANY DAMAGES WHATSOEVER RESULTING +FROM LOSS OF USE, DATA OR PROFITS, WHETHER IN AN ACTION OF CONTRACT, +NEGLIGENCE OR OTHER TORTIOUS ACTION, ARISING OUT OF OR IN CONNECTION +WITH THE USE OR PERFORMANCE OF THIS SOFTWARE ! diff --git a/Tools/pybench/pybench-2.0/Lists.py b/Tools/pybench/pybench-2.0/Lists.py new file mode 100644 index 0000000..67760db --- /dev/null +++ b/Tools/pybench/pybench-2.0/Lists.py @@ -0,0 +1,295 @@ +from pybench import Test + +class SimpleListManipulation(Test): + + version = 2.0 + operations = 5* (6 + 6 + 6) + rounds = 130000 + + def test(self): + + l = [] + append = l.append + + for i in xrange(self.rounds): + + append(2) + append(3) + append(4) + append(2) + append(3) + append(4) + + l[0] = 3 + l[1] = 4 + l[2] = 5 + l[3] = 3 + l[4] = 4 + l[5] = 5 + + x = l[0] + x = l[1] + x = l[2] + x = l[3] + x = l[4] + x = l[5] + + append(2) + append(3) + append(4) + append(2) + append(3) + append(4) + + l[0] = 3 + l[1] = 4 + l[2] = 5 + l[3] = 3 + l[4] = 4 + l[5] = 5 + + x = l[0] + x = l[1] + x = l[2] + x = l[3] + x = l[4] + x = l[5] + + append(2) + append(3) + append(4) + append(2) + append(3) + append(4) + + l[0] = 3 + l[1] = 4 + l[2] = 5 + l[3] = 3 + l[4] = 4 + l[5] = 5 + + x = l[0] + x = l[1] + x = l[2] + x = l[3] + x = l[4] + x = l[5] + + append(2) + append(3) + append(4) + append(2) + append(3) + append(4) + + l[0] = 3 + l[1] = 4 + l[2] = 5 + l[3] = 3 + l[4] = 4 + l[5] = 5 + + x = l[0] + x = l[1] + x = l[2] + x = l[3] + x = l[4] + x = l[5] + + append(2) + append(3) + append(4) + append(2) + append(3) + append(4) + + l[0] = 3 + l[1] = 4 + l[2] = 5 + l[3] = 3 + l[4] = 4 + l[5] = 5 + + x = l[0] + x = l[1] + x = l[2] + x = l[3] + x = l[4] + x = l[5] + + if len(l) > 10000: + # cut down the size + del l[:] + + def calibrate(self): + + l = [] + append = l.append + + for i in xrange(self.rounds): + pass + +class ListSlicing(Test): + + version = 2.0 + operations = 25*(3+1+2+1) + rounds = 800 + + def test(self): + + n = range(100) + r = range(25) + + for i in xrange(self.rounds): + + l = n[:] + + for j in r: + + m = l[50:] + m = l[:25] + m = l[50:55] + l[:3] = n + m = l[:-1] + m = l[1:] + l[-1:] = n + + def calibrate(self): + + n = range(100) + r = range(25) + + for i in xrange(self.rounds): + for j in r: + pass + +class SmallLists(Test): + + version = 2.0 + operations = 5*(1+ 6 + 6 + 3 + 1) + rounds = 80000 + + def test(self): + + for i in xrange(self.rounds): + + l = [] + + append = l.append + append(2) + append(3) + append(4) + append(2) + append(3) + append(4) + + l[0] = 3 + l[1] = 4 + l[2] = 5 + l[3] = 3 + l[4] = 4 + l[5] = 5 + + l[:3] = [1,2,3] + m = l[:-1] + m = l[1:] + + l[-1:] = [4,5,6] + + l = [] + + append = l.append + append(2) + append(3) + append(4) + append(2) + append(3) + append(4) + + l[0] = 3 + l[1] = 4 + l[2] = 5 + l[3] = 3 + l[4] = 4 + l[5] = 5 + + l[:3] = [1,2,3] + m = l[:-1] + m = l[1:] + + l[-1:] = [4,5,6] + + l = [] + + append = l.append + append(2) + append(3) + append(4) + append(2) + append(3) + append(4) + + l[0] = 3 + l[1] = 4 + l[2] = 5 + l[3] = 3 + l[4] = 4 + l[5] = 5 + + l[:3] = [1,2,3] + m = l[:-1] + m = l[1:] + + l[-1:] = [4,5,6] + + l = [] + + append = l.append + append(2) + append(3) + append(4) + append(2) + append(3) + append(4) + + l[0] = 3 + l[1] = 4 + l[2] = 5 + l[3] = 3 + l[4] = 4 + l[5] = 5 + + l[:3] = [1,2,3] + m = l[:-1] + m = l[1:] + + l[-1:] = [4,5,6] + + l = [] + + append = l.append + append(2) + append(3) + append(4) + append(2) + append(3) + append(4) + + l[0] = 3 + l[1] = 4 + l[2] = 5 + l[3] = 3 + l[4] = 4 + l[5] = 5 + + l[:3] = [1,2,3] + m = l[:-1] + m = l[1:] + + l[-1:] = [4,5,6] + + def calibrate(self): + + for i in xrange(self.rounds): + pass diff --git a/Tools/pybench/pybench-2.0/Lookups.py b/Tools/pybench/pybench-2.0/Lookups.py new file mode 100644 index 0000000..f20e7da --- /dev/null +++ b/Tools/pybench/pybench-2.0/Lookups.py @@ -0,0 +1,945 @@ +from pybench import Test + +class SpecialClassAttribute(Test): + + version = 2.0 + operations = 5*(12 + 12) + rounds = 100000 + + def test(self): + + class c: + pass + + for i in xrange(self.rounds): + + c.__a = 2 + c.__b = 3 + c.__c = 4 + + c.__a = 2 + c.__b = 3 + c.__c = 4 + + c.__a = 2 + c.__b = 3 + c.__c = 4 + + c.__a = 2 + c.__b = 3 + c.__c = 4 + + x = c.__a + x = c.__b + x = c.__c + + x = c.__a + x = c.__b + x = c.__c + + x = c.__a + x = c.__b + x = c.__c + + x = c.__a + x = c.__b + x = c.__c + + c.__a = 2 + c.__b = 3 + c.__c = 4 + + c.__a = 2 + c.__b = 3 + c.__c = 4 + + c.__a = 2 + c.__b = 3 + c.__c = 4 + + c.__a = 2 + c.__b = 3 + c.__c = 4 + + x = c.__a + x = c.__b + x = c.__c + + x = c.__a + x = c.__b + x = c.__c + + x = c.__a + x = c.__b + x = c.__c + + x = c.__a + x = c.__b + x = c.__c + + c.__a = 2 + c.__b = 3 + c.__c = 4 + + c.__a = 2 + c.__b = 3 + c.__c = 4 + + c.__a = 2 + c.__b = 3 + c.__c = 4 + + c.__a = 2 + c.__b = 3 + c.__c = 4 + + x = c.__a + x = c.__b + x = c.__c + + x = c.__a + x = c.__b + x = c.__c + + x = c.__a + x = c.__b + x = c.__c + + x = c.__a + x = c.__b + x = c.__c + + c.__a = 2 + c.__b = 3 + c.__c = 4 + + c.__a = 2 + c.__b = 3 + c.__c = 4 + + c.__a = 2 + c.__b = 3 + c.__c = 4 + + c.__a = 2 + c.__b = 3 + c.__c = 4 + + x = c.__a + x = c.__b + x = c.__c + + x = c.__a + x = c.__b + x = c.__c + + x = c.__a + x = c.__b + x = c.__c + + x = c.__a + x = c.__b + x = c.__c + + c.__a = 2 + c.__b = 3 + c.__c = 4 + + c.__a = 2 + c.__b = 3 + c.__c = 4 + + c.__a = 2 + c.__b = 3 + c.__c = 4 + + c.__a = 2 + c.__b = 3 + c.__c = 4 + + x = c.__a + x = c.__b + x = c.__c + + x = c.__a + x = c.__b + x = c.__c + + x = c.__a + x = c.__b + x = c.__c + + x = c.__a + x = c.__b + x = c.__c + + def calibrate(self): + + class c: + pass + + for i in xrange(self.rounds): + pass + +class NormalClassAttribute(Test): + + version = 2.0 + operations = 5*(12 + 12) + rounds = 100000 + + def test(self): + + class c: + pass + + for i in xrange(self.rounds): + + c.a = 2 + c.b = 3 + c.c = 4 + + c.a = 2 + c.b = 3 + c.c = 4 + + c.a = 2 + c.b = 3 + c.c = 4 + + c.a = 2 + c.b = 3 + c.c = 4 + + + x = c.a + x = c.b + x = c.c + + x = c.a + x = c.b + x = c.c + + x = c.a + x = c.b + x = c.c + + x = c.a + x = c.b + x = c.c + + c.a = 2 + c.b = 3 + c.c = 4 + + c.a = 2 + c.b = 3 + c.c = 4 + + c.a = 2 + c.b = 3 + c.c = 4 + + c.a = 2 + c.b = 3 + c.c = 4 + + + x = c.a + x = c.b + x = c.c + + x = c.a + x = c.b + x = c.c + + x = c.a + x = c.b + x = c.c + + x = c.a + x = c.b + x = c.c + + c.a = 2 + c.b = 3 + c.c = 4 + + c.a = 2 + c.b = 3 + c.c = 4 + + c.a = 2 + c.b = 3 + c.c = 4 + + c.a = 2 + c.b = 3 + c.c = 4 + + + x = c.a + x = c.b + x = c.c + + x = c.a + x = c.b + x = c.c + + x = c.a + x = c.b + x = c.c + + x = c.a + x = c.b + x = c.c + + c.a = 2 + c.b = 3 + c.c = 4 + + c.a = 2 + c.b = 3 + c.c = 4 + + c.a = 2 + c.b = 3 + c.c = 4 + + c.a = 2 + c.b = 3 + c.c = 4 + + + x = c.a + x = c.b + x = c.c + + x = c.a + x = c.b + x = c.c + + x = c.a + x = c.b + x = c.c + + x = c.a + x = c.b + x = c.c + + c.a = 2 + c.b = 3 + c.c = 4 + + c.a = 2 + c.b = 3 + c.c = 4 + + c.a = 2 + c.b = 3 + c.c = 4 + + c.a = 2 + c.b = 3 + c.c = 4 + + + x = c.a + x = c.b + x = c.c + + x = c.a + x = c.b + x = c.c + + x = c.a + x = c.b + x = c.c + + x = c.a + x = c.b + x = c.c + + def calibrate(self): + + class c: + pass + + for i in xrange(self.rounds): + pass + +class SpecialInstanceAttribute(Test): + + version = 2.0 + operations = 5*(12 + 12) + rounds = 100000 + + def test(self): + + class c: + pass + o = c() + + for i in xrange(self.rounds): + + o.__a__ = 2 + o.__b__ = 3 + o.__c__ = 4 + + o.__a__ = 2 + o.__b__ = 3 + o.__c__ = 4 + + o.__a__ = 2 + o.__b__ = 3 + o.__c__ = 4 + + o.__a__ = 2 + o.__b__ = 3 + o.__c__ = 4 + + + x = o.__a__ + x = o.__b__ + x = o.__c__ + + x = o.__a__ + x = o.__b__ + x = o.__c__ + + x = o.__a__ + x = o.__b__ + x = o.__c__ + + x = o.__a__ + x = o.__b__ + x = o.__c__ + + o.__a__ = 2 + o.__b__ = 3 + o.__c__ = 4 + + o.__a__ = 2 + o.__b__ = 3 + o.__c__ = 4 + + o.__a__ = 2 + o.__b__ = 3 + o.__c__ = 4 + + o.__a__ = 2 + o.__b__ = 3 + o.__c__ = 4 + + + x = o.__a__ + x = o.__b__ + x = o.__c__ + + x = o.__a__ + x = o.__b__ + x = o.__c__ + + x = o.__a__ + x = o.__b__ + x = o.__c__ + + x = o.__a__ + x = o.__b__ + x = o.__c__ + + o.__a__ = 2 + o.__b__ = 3 + o.__c__ = 4 + + o.__a__ = 2 + o.__b__ = 3 + o.__c__ = 4 + + o.__a__ = 2 + o.__b__ = 3 + o.__c__ = 4 + + o.__a__ = 2 + o.__b__ = 3 + o.__c__ = 4 + + + x = o.__a__ + x = o.__b__ + x = o.__c__ + + x = o.__a__ + x = o.__b__ + x = o.__c__ + + x = o.__a__ + x = o.__b__ + x = o.__c__ + + x = o.__a__ + x = o.__b__ + x = o.__c__ + + o.__a__ = 2 + o.__b__ = 3 + o.__c__ = 4 + + o.__a__ = 2 + o.__b__ = 3 + o.__c__ = 4 + + o.__a__ = 2 + o.__b__ = 3 + o.__c__ = 4 + + o.__a__ = 2 + o.__b__ = 3 + o.__c__ = 4 + + + x = o.__a__ + x = o.__b__ + x = o.__c__ + + x = o.__a__ + x = o.__b__ + x = o.__c__ + + x = o.__a__ + x = o.__b__ + x = o.__c__ + + x = o.__a__ + x = o.__b__ + x = o.__c__ + + o.__a__ = 2 + o.__b__ = 3 + o.__c__ = 4 + + o.__a__ = 2 + o.__b__ = 3 + o.__c__ = 4 + + o.__a__ = 2 + o.__b__ = 3 + o.__c__ = 4 + + o.__a__ = 2 + o.__b__ = 3 + o.__c__ = 4 + + + x = o.__a__ + x = o.__b__ + x = o.__c__ + + x = o.__a__ + x = o.__b__ + x = o.__c__ + + x = o.__a__ + x = o.__b__ + x = o.__c__ + + x = o.__a__ + x = o.__b__ + x = o.__c__ + + def calibrate(self): + + class c: + pass + o = c() + + for i in xrange(self.rounds): + pass + +class NormalInstanceAttribute(Test): + + version = 2.0 + operations = 5*(12 + 12) + rounds = 100000 + + def test(self): + + class c: + pass + o = c() + + for i in xrange(self.rounds): + + o.a = 2 + o.b = 3 + o.c = 4 + + o.a = 2 + o.b = 3 + o.c = 4 + + o.a = 2 + o.b = 3 + o.c = 4 + + o.a = 2 + o.b = 3 + o.c = 4 + + + x = o.a + x = o.b + x = o.c + + x = o.a + x = o.b + x = o.c + + x = o.a + x = o.b + x = o.c + + x = o.a + x = o.b + x = o.c + + o.a = 2 + o.b = 3 + o.c = 4 + + o.a = 2 + o.b = 3 + o.c = 4 + + o.a = 2 + o.b = 3 + o.c = 4 + + o.a = 2 + o.b = 3 + o.c = 4 + + + x = o.a + x = o.b + x = o.c + + x = o.a + x = o.b + x = o.c + + x = o.a + x = o.b + x = o.c + + x = o.a + x = o.b + x = o.c + + o.a = 2 + o.b = 3 + o.c = 4 + + o.a = 2 + o.b = 3 + o.c = 4 + + o.a = 2 + o.b = 3 + o.c = 4 + + o.a = 2 + o.b = 3 + o.c = 4 + + + x = o.a + x = o.b + x = o.c + + x = o.a + x = o.b + x = o.c + + x = o.a + x = o.b + x = o.c + + x = o.a + x = o.b + x = o.c + + o.a = 2 + o.b = 3 + o.c = 4 + + o.a = 2 + o.b = 3 + o.c = 4 + + o.a = 2 + o.b = 3 + o.c = 4 + + o.a = 2 + o.b = 3 + o.c = 4 + + + x = o.a + x = o.b + x = o.c + + x = o.a + x = o.b + x = o.c + + x = o.a + x = o.b + x = o.c + + x = o.a + x = o.b + x = o.c + + o.a = 2 + o.b = 3 + o.c = 4 + + o.a = 2 + o.b = 3 + o.c = 4 + + o.a = 2 + o.b = 3 + o.c = 4 + + o.a = 2 + o.b = 3 + o.c = 4 + + + x = o.a + x = o.b + x = o.c + + x = o.a + x = o.b + x = o.c + + x = o.a + x = o.b + x = o.c + + x = o.a + x = o.b + x = o.c + + def calibrate(self): + + class c: + pass + o = c() + + for i in xrange(self.rounds): + pass + +class BuiltinMethodLookup(Test): + + version = 2.0 + operations = 5*(3*5 + 3*5) + rounds = 70000 + + def test(self): + + l = [] + d = {} + + for i in xrange(self.rounds): + + l.append + l.append + l.append + l.append + l.append + + l.insert + l.insert + l.insert + l.insert + l.insert + + l.sort + l.sort + l.sort + l.sort + l.sort + + d.has_key + d.has_key + d.has_key + d.has_key + d.has_key + + d.items + d.items + d.items + d.items + d.items + + d.get + d.get + d.get + d.get + d.get + + l.append + l.append + l.append + l.append + l.append + + l.insert + l.insert + l.insert + l.insert + l.insert + + l.sort + l.sort + l.sort + l.sort + l.sort + + d.has_key + d.has_key + d.has_key + d.has_key + d.has_key + + d.items + d.items + d.items + d.items + d.items + + d.get + d.get + d.get + d.get + d.get + + l.append + l.append + l.append + l.append + l.append + + l.insert + l.insert + l.insert + l.insert + l.insert + + l.sort + l.sort + l.sort + l.sort + l.sort + + d.has_key + d.has_key + d.has_key + d.has_key + d.has_key + + d.items + d.items + d.items + d.items + d.items + + d.get + d.get + d.get + d.get + d.get + + l.append + l.append + l.append + l.append + l.append + + l.insert + l.insert + l.insert + l.insert + l.insert + + l.sort + l.sort + l.sort + l.sort + l.sort + + d.has_key + d.has_key + d.has_key + d.has_key + d.has_key + + d.items + d.items + d.items + d.items + d.items + + d.get + d.get + d.get + d.get + d.get + + l.append + l.append + l.append + l.append + l.append + + l.insert + l.insert + l.insert + l.insert + l.insert + + l.sort + l.sort + l.sort + l.sort + l.sort + + d.has_key + d.has_key + d.has_key + d.has_key + d.has_key + + d.items + d.items + d.items + d.items + d.items + + d.get + d.get + d.get + d.get + d.get + + def calibrate(self): + + l = [] + d = {} + + for i in xrange(self.rounds): + pass diff --git a/Tools/pybench/pybench-2.0/NewInstances.py b/Tools/pybench/pybench-2.0/NewInstances.py new file mode 100644 index 0000000..258beba --- /dev/null +++ b/Tools/pybench/pybench-2.0/NewInstances.py @@ -0,0 +1,75 @@ +from pybench import Test + +# Check for new-style class support: +try: + class c(object): + pass +except NameError: + raise ImportError + +### + +class CreateNewInstances(Test): + + version = 2.0 + operations = 3 + 7 + 4 + rounds = 60000 + + def test(self): + + class c(object): + pass + + class d(object): + def __init__(self,a,b,c): + self.a = a + self.b = b + self.c = c + + class e(object): + def __init__(self,a,b,c=4): + self.a = a + self.b = b + self.c = c + self.d = a + self.e = b + self.f = c + + for i in xrange(self.rounds): + o = c() + o1 = c() + o2 = c() + p = d(i,i,3) + p1 = d(i,i,3) + p2 = d(i,3,3) + p3 = d(3,i,3) + p4 = d(i,i,i) + p5 = d(3,i,3) + p6 = d(i,i,i) + q = e(i,i,3) + q1 = e(i,i,3) + q2 = e(i,i,3) + q3 = e(i,i) + + def calibrate(self): + + class c(object): + pass + + class d(object): + def __init__(self,a,b,c): + self.a = a + self.b = b + self.c = c + + class e(object): + def __init__(self,a,b,c=4): + self.a = a + self.b = b + self.c = c + self.d = a + self.e = b + self.f = c + + for i in xrange(self.rounds): + pass diff --git a/Tools/pybench/pybench-2.0/Numbers.py b/Tools/pybench/pybench-2.0/Numbers.py new file mode 100644 index 0000000..10c8940 --- /dev/null +++ b/Tools/pybench/pybench-2.0/Numbers.py @@ -0,0 +1,784 @@ +from pybench import Test + +class CompareIntegers(Test): + + version = 2.0 + operations = 30 * 5 + rounds = 120000 + + def test(self): + + for i in xrange(self.rounds): + + 2 < 3 + 2 > 3 + 2 == 3 + 2 > 3 + 2 < 3 + + 2 < 3 + 2 > 3 + 2 == 3 + 2 > 3 + 2 < 3 + + 2 < 3 + 2 > 3 + 2 == 3 + 2 > 3 + 2 < 3 + + 2 < 3 + 2 > 3 + 2 == 3 + 2 > 3 + 2 < 3 + + 2 < 3 + 2 > 3 + 2 == 3 + 2 > 3 + 2 < 3 + + 2 < 3 + 2 > 3 + 2 == 3 + 2 > 3 + 2 < 3 + + 2 < 3 + 2 > 3 + 2 == 3 + 2 > 3 + 2 < 3 + + 2 < 3 + 2 > 3 + 2 == 3 + 2 > 3 + 2 < 3 + + 2 < 3 + 2 > 3 + 2 == 3 + 2 > 3 + 2 < 3 + + 2 < 3 + 2 > 3 + 2 == 3 + 2 > 3 + 2 < 3 + + 2 < 3 + 2 > 3 + 2 == 3 + 2 > 3 + 2 < 3 + + 2 < 3 + 2 > 3 + 2 == 3 + 2 > 3 + 2 < 3 + + 2 < 3 + 2 > 3 + 2 == 3 + 2 > 3 + 2 < 3 + + 2 < 3 + 2 > 3 + 2 == 3 + 2 > 3 + 2 < 3 + + 2 < 3 + 2 > 3 + 2 == 3 + 2 > 3 + 2 < 3 + + 2 < 3 + 2 > 3 + 2 == 3 + 2 > 3 + 2 < 3 + + 2 < 3 + 2 > 3 + 2 == 3 + 2 > 3 + 2 < 3 + + 2 < 3 + 2 > 3 + 2 == 3 + 2 > 3 + 2 < 3 + + 2 < 3 + 2 > 3 + 2 == 3 + 2 > 3 + 2 < 3 + + 2 < 3 + 2 > 3 + 2 == 3 + 2 > 3 + 2 < 3 + + 2 < 3 + 2 > 3 + 2 == 3 + 2 > 3 + 2 < 3 + + 2 < 3 + 2 > 3 + 2 == 3 + 2 > 3 + 2 < 3 + + 2 < 3 + 2 > 3 + 2 == 3 + 2 > 3 + 2 < 3 + + 2 < 3 + 2 > 3 + 2 == 3 + 2 > 3 + 2 < 3 + + 2 < 3 + 2 > 3 + 2 == 3 + 2 > 3 + 2 < 3 + + 2 < 3 + 2 > 3 + 2 == 3 + 2 > 3 + 2 < 3 + + 2 < 3 + 2 > 3 + 2 == 3 + 2 > 3 + 2 < 3 + + 2 < 3 + 2 > 3 + 2 == 3 + 2 > 3 + 2 < 3 + + 2 < 3 + 2 > 3 + 2 == 3 + 2 > 3 + 2 < 3 + + 2 < 3 + 2 > 3 + 2 == 3 + 2 > 3 + 2 < 3 + + def calibrate(self): + + for i in xrange(self.rounds): + pass + + +class CompareFloats(Test): + + version = 2.0 + operations = 30 * 5 + rounds = 80000 + + def test(self): + + for i in xrange(self.rounds): + + 2.1 < 3.31 + 2.1 > 3.31 + 2.1 == 3.31 + 2.1 > 3.31 + 2.1 < 3.31 + + 2.1 < 3.31 + 2.1 > 3.31 + 2.1 == 3.31 + 2.1 > 3.31 + 2.1 < 3.31 + + 2.1 < 3.31 + 2.1 > 3.31 + 2.1 == 3.31 + 2.1 > 3.31 + 2.1 < 3.31 + + 2.1 < 3.31 + 2.1 > 3.31 + 2.1 == 3.31 + 2.1 > 3.31 + 2.1 < 3.31 + + 2.1 < 3.31 + 2.1 > 3.31 + 2.1 == 3.31 + 2.1 > 3.31 + 2.1 < 3.31 + + 2.1 < 3.31 + 2.1 > 3.31 + 2.1 == 3.31 + 2.1 > 3.31 + 2.1 < 3.31 + + 2.1 < 3.31 + 2.1 > 3.31 + 2.1 == 3.31 + 2.1 > 3.31 + 2.1 < 3.31 + + 2.1 < 3.31 + 2.1 > 3.31 + 2.1 == 3.31 + 2.1 > 3.31 + 2.1 < 3.31 + + 2.1 < 3.31 + 2.1 > 3.31 + 2.1 == 3.31 + 2.1 > 3.31 + 2.1 < 3.31 + + 2.1 < 3.31 + 2.1 > 3.31 + 2.1 == 3.31 + 2.1 > 3.31 + 2.1 < 3.31 + + 2.1 < 3.31 + 2.1 > 3.31 + 2.1 == 3.31 + 2.1 > 3.31 + 2.1 < 3.31 + + 2.1 < 3.31 + 2.1 > 3.31 + 2.1 == 3.31 + 2.1 > 3.31 + 2.1 < 3.31 + + 2.1 < 3.31 + 2.1 > 3.31 + 2.1 == 3.31 + 2.1 > 3.31 + 2.1 < 3.31 + + 2.1 < 3.31 + 2.1 > 3.31 + 2.1 == 3.31 + 2.1 > 3.31 + 2.1 < 3.31 + + 2.1 < 3.31 + 2.1 > 3.31 + 2.1 == 3.31 + 2.1 > 3.31 + 2.1 < 3.31 + + 2.1 < 3.31 + 2.1 > 3.31 + 2.1 == 3.31 + 2.1 > 3.31 + 2.1 < 3.31 + + 2.1 < 3.31 + 2.1 > 3.31 + 2.1 == 3.31 + 2.1 > 3.31 + 2.1 < 3.31 + + 2.1 < 3.31 + 2.1 > 3.31 + 2.1 == 3.31 + 2.1 > 3.31 + 2.1 < 3.31 + + 2.1 < 3.31 + 2.1 > 3.31 + 2.1 == 3.31 + 2.1 > 3.31 + 2.1 < 3.31 + + 2.1 < 3.31 + 2.1 > 3.31 + 2.1 == 3.31 + 2.1 > 3.31 + 2.1 < 3.31 + + 2.1 < 3.31 + 2.1 > 3.31 + 2.1 == 3.31 + 2.1 > 3.31 + 2.1 < 3.31 + + 2.1 < 3.31 + 2.1 > 3.31 + 2.1 == 3.31 + 2.1 > 3.31 + 2.1 < 3.31 + + 2.1 < 3.31 + 2.1 > 3.31 + 2.1 == 3.31 + 2.1 > 3.31 + 2.1 < 3.31 + + 2.1 < 3.31 + 2.1 > 3.31 + 2.1 == 3.31 + 2.1 > 3.31 + 2.1 < 3.31 + + 2.1 < 3.31 + 2.1 > 3.31 + 2.1 == 3.31 + 2.1 > 3.31 + 2.1 < 3.31 + + 2.1 < 3.31 + 2.1 > 3.31 + 2.1 == 3.31 + 2.1 > 3.31 + 2.1 < 3.31 + + 2.1 < 3.31 + 2.1 > 3.31 + 2.1 == 3.31 + 2.1 > 3.31 + 2.1 < 3.31 + + 2.1 < 3.31 + 2.1 > 3.31 + 2.1 == 3.31 + 2.1 > 3.31 + 2.1 < 3.31 + + 2.1 < 3.31 + 2.1 > 3.31 + 2.1 == 3.31 + 2.1 > 3.31 + 2.1 < 3.31 + + 2.1 < 3.31 + 2.1 > 3.31 + 2.1 == 3.31 + 2.1 > 3.31 + 2.1 < 3.31 + + def calibrate(self): + + for i in xrange(self.rounds): + pass + + +class CompareFloatsIntegers(Test): + + version = 2.0 + operations = 30 * 5 + rounds = 60000 + + def test(self): + + for i in xrange(self.rounds): + + 2.1 < 4 + 2.1 > 4 + 2.1 == 4 + 2.1 > 4 + 2.1 < 4 + + 2.1 < 4 + 2.1 > 4 + 2.1 == 4 + 2.1 > 4 + 2.1 < 4 + + 2.1 < 4 + 2.1 > 4 + 2.1 == 4 + 2.1 > 4 + 2.1 < 4 + + 2.1 < 4 + 2.1 > 4 + 2.1 == 4 + 2.1 > 4 + 2.1 < 4 + + 2.1 < 4 + 2.1 > 4 + 2.1 == 4 + 2.1 > 4 + 2.1 < 4 + + 2.1 < 4 + 2.1 > 4 + 2.1 == 4 + 2.1 > 4 + 2.1 < 4 + + 2.1 < 4 + 2.1 > 4 + 2.1 == 4 + 2.1 > 4 + 2.1 < 4 + + 2.1 < 4 + 2.1 > 4 + 2.1 == 4 + 2.1 > 4 + 2.1 < 4 + + 2.1 < 4 + 2.1 > 4 + 2.1 == 4 + 2.1 > 4 + 2.1 < 4 + + 2.1 < 4 + 2.1 > 4 + 2.1 == 4 + 2.1 > 4 + 2.1 < 4 + + 2.1 < 4 + 2.1 > 4 + 2.1 == 4 + 2.1 > 4 + 2.1 < 4 + + 2.1 < 4 + 2.1 > 4 + 2.1 == 4 + 2.1 > 4 + 2.1 < 4 + + 2.1 < 4 + 2.1 > 4 + 2.1 == 4 + 2.1 > 4 + 2.1 < 4 + + 2.1 < 4 + 2.1 > 4 + 2.1 == 4 + 2.1 > 4 + 2.1 < 4 + + 2.1 < 4 + 2.1 > 4 + 2.1 == 4 + 2.1 > 4 + 2.1 < 4 + + 2.1 < 4 + 2.1 > 4 + 2.1 == 4 + 2.1 > 4 + 2.1 < 4 + + 2.1 < 4 + 2.1 > 4 + 2.1 == 4 + 2.1 > 4 + 2.1 < 4 + + 2.1 < 4 + 2.1 > 4 + 2.1 == 4 + 2.1 > 4 + 2.1 < 4 + + 2.1 < 4 + 2.1 > 4 + 2.1 == 4 + 2.1 > 4 + 2.1 < 4 + + 2.1 < 4 + 2.1 > 4 + 2.1 == 4 + 2.1 > 4 + 2.1 < 4 + + 2.1 < 4 + 2.1 > 4 + 2.1 == 4 + 2.1 > 4 + 2.1 < 4 + + 2.1 < 4 + 2.1 > 4 + 2.1 == 4 + 2.1 > 4 + 2.1 < 4 + + 2.1 < 4 + 2.1 > 4 + 2.1 == 4 + 2.1 > 4 + 2.1 < 4 + + 2.1 < 4 + 2.1 > 4 + 2.1 == 4 + 2.1 > 4 + 2.1 < 4 + + 2.1 < 4 + 2.1 > 4 + 2.1 == 4 + 2.1 > 4 + 2.1 < 4 + + 2.1 < 4 + 2.1 > 4 + 2.1 == 4 + 2.1 > 4 + 2.1 < 4 + + 2.1 < 4 + 2.1 > 4 + 2.1 == 4 + 2.1 > 4 + 2.1 < 4 + + 2.1 < 4 + 2.1 > 4 + 2.1 == 4 + 2.1 > 4 + 2.1 < 4 + + 2.1 < 4 + 2.1 > 4 + 2.1 == 4 + 2.1 > 4 + 2.1 < 4 + + 2.1 < 4 + 2.1 > 4 + 2.1 == 4 + 2.1 > 4 + 2.1 < 4 + + def calibrate(self): + + for i in xrange(self.rounds): + pass + + +class CompareLongs(Test): + + version = 2.0 + operations = 30 * 5 + rounds = 70000 + + def test(self): + + for i in xrange(self.rounds): + + 1234567890L < 3456789012345L + 1234567890L > 3456789012345L + 1234567890L == 3456789012345L + 1234567890L > 3456789012345L + 1234567890L < 3456789012345L + + 1234567890L < 3456789012345L + 1234567890L > 3456789012345L + 1234567890L == 3456789012345L + 1234567890L > 3456789012345L + 1234567890L < 3456789012345L + + 1234567890L < 3456789012345L + 1234567890L > 3456789012345L + 1234567890L == 3456789012345L + 1234567890L > 3456789012345L + 1234567890L < 3456789012345L + + 1234567890L < 3456789012345L + 1234567890L > 3456789012345L + 1234567890L == 3456789012345L + 1234567890L > 3456789012345L + 1234567890L < 3456789012345L + + 1234567890L < 3456789012345L + 1234567890L > 3456789012345L + 1234567890L == 3456789012345L + 1234567890L > 3456789012345L + 1234567890L < 3456789012345L + + 1234567890L < 3456789012345L + 1234567890L > 3456789012345L + 1234567890L == 3456789012345L + 1234567890L > 3456789012345L + 1234567890L < 3456789012345L + + 1234567890L < 3456789012345L + 1234567890L > 3456789012345L + 1234567890L == 3456789012345L + 1234567890L > 3456789012345L + 1234567890L < 3456789012345L + + 1234567890L < 3456789012345L + 1234567890L > 3456789012345L + 1234567890L == 3456789012345L + 1234567890L > 3456789012345L + 1234567890L < 3456789012345L + + 1234567890L < 3456789012345L + 1234567890L > 3456789012345L + 1234567890L == 3456789012345L + 1234567890L > 3456789012345L + 1234567890L < 3456789012345L + + 1234567890L < 3456789012345L + 1234567890L > 3456789012345L + 1234567890L == 3456789012345L + 1234567890L > 3456789012345L + 1234567890L < 3456789012345L + + 1234567890L < 3456789012345L + 1234567890L > 3456789012345L + 1234567890L == 3456789012345L + 1234567890L > 3456789012345L + 1234567890L < 3456789012345L + + 1234567890L < 3456789012345L + 1234567890L > 3456789012345L + 1234567890L == 3456789012345L + 1234567890L > 3456789012345L + 1234567890L < 3456789012345L + + 1234567890L < 3456789012345L + 1234567890L > 3456789012345L + 1234567890L == 3456789012345L + 1234567890L > 3456789012345L + 1234567890L < 3456789012345L + + 1234567890L < 3456789012345L + 1234567890L > 3456789012345L + 1234567890L == 3456789012345L + 1234567890L > 3456789012345L + 1234567890L < 3456789012345L + + 1234567890L < 3456789012345L + 1234567890L > 3456789012345L + 1234567890L == 3456789012345L + 1234567890L > 3456789012345L + 1234567890L < 3456789012345L + + 1234567890L < 3456789012345L + 1234567890L > 3456789012345L + 1234567890L == 3456789012345L + 1234567890L > 3456789012345L + 1234567890L < 3456789012345L + + 1234567890L < 3456789012345L + 1234567890L > 3456789012345L + 1234567890L == 3456789012345L + 1234567890L > 3456789012345L + 1234567890L < 3456789012345L + + 1234567890L < 3456789012345L + 1234567890L > 3456789012345L + 1234567890L == 3456789012345L + 1234567890L > 3456789012345L + 1234567890L < 3456789012345L + + 1234567890L < 3456789012345L + 1234567890L > 3456789012345L + 1234567890L == 3456789012345L + 1234567890L > 3456789012345L + 1234567890L < 3456789012345L + + 1234567890L < 3456789012345L + 1234567890L > 3456789012345L + 1234567890L == 3456789012345L + 1234567890L > 3456789012345L + 1234567890L < 3456789012345L + + 1234567890L < 3456789012345L + 1234567890L > 3456789012345L + 1234567890L == 3456789012345L + 1234567890L > 3456789012345L + 1234567890L < 3456789012345L + + 1234567890L < 3456789012345L + 1234567890L > 3456789012345L + 1234567890L == 3456789012345L + 1234567890L > 3456789012345L + 1234567890L < 3456789012345L + + 1234567890L < 3456789012345L + 1234567890L > 3456789012345L + 1234567890L == 3456789012345L + 1234567890L > 3456789012345L + 1234567890L < 3456789012345L + + 1234567890L < 3456789012345L + 1234567890L > 3456789012345L + 1234567890L == 3456789012345L + 1234567890L > 3456789012345L + 1234567890L < 3456789012345L + + 1234567890L < 3456789012345L + 1234567890L > 3456789012345L + 1234567890L == 3456789012345L + 1234567890L > 3456789012345L + 1234567890L < 3456789012345L + + 1234567890L < 3456789012345L + 1234567890L > 3456789012345L + 1234567890L == 3456789012345L + 1234567890L > 3456789012345L + 1234567890L < 3456789012345L + + 1234567890L < 3456789012345L + 1234567890L > 3456789012345L + 1234567890L == 3456789012345L + 1234567890L > 3456789012345L + 1234567890L < 3456789012345L + + 1234567890L < 3456789012345L + 1234567890L > 3456789012345L + 1234567890L == 3456789012345L + 1234567890L > 3456789012345L + 1234567890L < 3456789012345L + + 1234567890L < 3456789012345L + 1234567890L > 3456789012345L + 1234567890L == 3456789012345L + 1234567890L > 3456789012345L + 1234567890L < 3456789012345L + + 1234567890L < 3456789012345L + 1234567890L > 3456789012345L + 1234567890L == 3456789012345L + 1234567890L > 3456789012345L + 1234567890L < 3456789012345L + + def calibrate(self): + + for i in xrange(self.rounds): + pass diff --git a/Tools/pybench/pybench-2.0/README b/Tools/pybench/pybench-2.0/README new file mode 100644 index 0000000..022c8de --- /dev/null +++ b/Tools/pybench/pybench-2.0/README @@ -0,0 +1,368 @@ +________________________________________________________________________ + +PYBENCH - A Python Benchmark Suite +________________________________________________________________________ + + Extendable suite of of low-level benchmarks for measuring + the performance of the Python implementation + (interpreter, compiler or VM). + +pybench is a collection of tests that provides a standardized way to +measure the performance of Python implementations. It takes a very +close look at different aspects of Python programs and let's you +decide which factors are more important to you than others, rather +than wrapping everything up in one number, like the other performance +tests do (e.g. pystone which is included in the Python Standard +Library). + +pybench has been used in the past by several Python developers to +track down performance bottlenecks or to demonstrate the impact of +optimizations and new features in Python. + +The command line interface for pybench is the file pybench.py. Run +this script with option '--help' to get a listing of the possible +options. Without options, pybench will simply execute the benchmark +and then print out a report to stdout. + + +Micro-Manual +------------ + +Run 'pybench.py -h' to see the help screen. Run 'pybench.py' to run +the benchmark suite using default settings and 'pybench.py -f <file>' +to have it store the results in a file too. + +It is usually a good idea to run pybench.py multiple times to see +whether the environment, timers and benchmark run-times are suitable +for doing benchmark tests. + +You can use the comparison feature of pybench.py ('pybench.py -c +<file>') to check how well the system behaves in comparison to a +reference run. + +If the differences are well below 10% for each test, then you have a +system that is good for doing benchmark testings. Of you get random +differences of more than 10% or significant differences between the +values for minimum and average time, then you likely have some +background processes running which cause the readings to become +inconsistent. Examples include: web-browsers, email clients, RSS +readers, music players, backup programs, etc. + +If you are only interested in a few tests of the whole suite, you can +use the filtering option, e.g. 'pybench.py -t string' will only +run/show the tests that have 'string' in their name. + +This is the current output of pybench.py --help: + +""" +------------------------------------------------------------------------ +PYBENCH - a benchmark test suite for Python interpreters/compilers. +------------------------------------------------------------------------ + +Synopsis: + pybench.py [option] files... + +Options and default settings: + -n arg number of rounds (10) + -f arg save benchmark to file arg () + -c arg compare benchmark with the one in file arg () + -s arg show benchmark in file arg, then exit () + -w arg set warp factor to arg (10) + -t arg run only tests with names matching arg () + -C arg set the number of calibration runs to arg (20) + -d hide noise in comparisons (0) + -v verbose output (not recommended) (0) + --with-gc enable garbage collection (0) + --with-syscheck use default sys check interval (0) + --timer arg use given timer (time.time) + -h show this help text + --help show this help text + --debug enable debugging + --copyright show copyright + --examples show examples of usage + +Version: + 2.0 + +The normal operation is to run the suite and display the +results. Use -f to save them for later reuse or comparisons. + +Available timers: + + time.time + time.clock + systimes.processtime + +Examples: + +python2.1 pybench.py -f p21.pybench +python2.5 pybench.py -f p25.pybench +python pybench.py -s p25.pybench -c p21.pybench +""" + +License +------- + +See LICENSE file. + + +Sample output +------------- + +""" +------------------------------------------------------------------------------- +PYBENCH 2.0 +------------------------------------------------------------------------------- +* using Python 2.4.2 +* disabled garbage collection +* system check interval set to maximum: 2147483647 +* using timer: time.time + +Calibrating tests. Please wait... + +Running 10 round(s) of the suite at warp factor 10: + +* Round 1 done in 6.388 seconds. +* Round 2 done in 6.485 seconds. +* Round 3 done in 6.786 seconds. +... +* Round 10 done in 6.546 seconds. + +------------------------------------------------------------------------------- +Benchmark: 2006-06-12 12:09:25 +------------------------------------------------------------------------------- + + Rounds: 10 + Warp: 10 + Timer: time.time + + Machine Details: + Platform ID: Linux-2.6.8-24.19-default-x86_64-with-SuSE-9.2-x86-64 + Processor: x86_64 + + Python: + Executable: /usr/local/bin/python + Version: 2.4.2 + Compiler: GCC 3.3.4 (pre 3.3.5 20040809) + Bits: 64bit + Build: Oct 1 2005 15:24:35 (#1) + Unicode: UCS2 + + +Test minimum average operation overhead +------------------------------------------------------------------------------- + BuiltinFunctionCalls: 126ms 145ms 0.28us 0.274ms + BuiltinMethodLookup: 124ms 130ms 0.12us 0.316ms + CompareFloats: 109ms 110ms 0.09us 0.361ms + CompareFloatsIntegers: 100ms 104ms 0.12us 0.271ms + CompareIntegers: 137ms 138ms 0.08us 0.542ms + CompareInternedStrings: 124ms 127ms 0.08us 1.367ms + CompareLongs: 100ms 104ms 0.10us 0.316ms + CompareStrings: 111ms 115ms 0.12us 0.929ms + CompareUnicode: 108ms 128ms 0.17us 0.693ms + ConcatStrings: 142ms 155ms 0.31us 0.562ms + ConcatUnicode: 119ms 127ms 0.42us 0.384ms + CreateInstances: 123ms 128ms 1.14us 0.367ms + CreateNewInstances: 121ms 126ms 1.49us 0.335ms + CreateStringsWithConcat: 130ms 135ms 0.14us 0.916ms + CreateUnicodeWithConcat: 130ms 135ms 0.34us 0.361ms + DictCreation: 108ms 109ms 0.27us 0.361ms + DictWithFloatKeys: 149ms 153ms 0.17us 0.678ms + DictWithIntegerKeys: 124ms 126ms 0.11us 0.915ms + DictWithStringKeys: 114ms 117ms 0.10us 0.905ms + ForLoops: 110ms 111ms 4.46us 0.063ms + IfThenElse: 118ms 119ms 0.09us 0.685ms + ListSlicing: 116ms 120ms 8.59us 0.103ms + NestedForLoops: 125ms 137ms 0.09us 0.019ms + NormalClassAttribute: 124ms 136ms 0.11us 0.457ms + NormalInstanceAttribute: 110ms 117ms 0.10us 0.454ms + PythonFunctionCalls: 107ms 113ms 0.34us 0.271ms + PythonMethodCalls: 140ms 149ms 0.66us 0.141ms + Recursion: 156ms 166ms 3.32us 0.452ms + SecondImport: 112ms 118ms 1.18us 0.180ms + SecondPackageImport: 118ms 127ms 1.27us 0.180ms + SecondSubmoduleImport: 140ms 151ms 1.51us 0.180ms + SimpleComplexArithmetic: 128ms 139ms 0.16us 0.361ms + SimpleDictManipulation: 134ms 136ms 0.11us 0.452ms + SimpleFloatArithmetic: 110ms 113ms 0.09us 0.571ms + SimpleIntFloatArithmetic: 106ms 111ms 0.08us 0.548ms + SimpleIntegerArithmetic: 106ms 109ms 0.08us 0.544ms + SimpleListManipulation: 103ms 113ms 0.10us 0.587ms + SimpleLongArithmetic: 112ms 118ms 0.18us 0.271ms + SmallLists: 105ms 116ms 0.17us 0.366ms + SmallTuples: 108ms 128ms 0.24us 0.406ms + SpecialClassAttribute: 119ms 136ms 0.11us 0.453ms + SpecialInstanceAttribute: 143ms 155ms 0.13us 0.454ms + StringMappings: 115ms 121ms 0.48us 0.405ms + StringPredicates: 120ms 129ms 0.18us 2.064ms + StringSlicing: 111ms 127ms 0.23us 0.781ms + TryExcept: 125ms 126ms 0.06us 0.681ms + TryRaiseExcept: 133ms 137ms 2.14us 0.361ms + TupleSlicing: 117ms 120ms 0.46us 0.066ms + UnicodeMappings: 156ms 160ms 4.44us 0.429ms + UnicodePredicates: 117ms 121ms 0.22us 2.487ms + UnicodeProperties: 115ms 153ms 0.38us 2.070ms + UnicodeSlicing: 126ms 129ms 0.26us 0.689ms +------------------------------------------------------------------------------- +Totals: 6283ms 6673ms +""" +________________________________________________________________________ + +Writing New Tests +________________________________________________________________________ + +pybench tests are simple modules defining one or more pybench.Test +subclasses. + +Writing a test essentially boils down to providing two methods: +.test() which runs .rounds number of .operations test operations each +and .calibrate() which does the same except that it doesn't actually +execute the operations. + + +Here's an example: +------------------ + +from pybench import Test + +class IntegerCounting(Test): + + # Version number of the test as float (x.yy); this is important + # for comparisons of benchmark runs - tests with unequal version + # number will not get compared. + version = 1.0 + + # The number of abstract operations done in each round of the + # test. An operation is the basic unit of what you want to + # measure. The benchmark will output the amount of run-time per + # operation. Note that in order to raise the measured timings + # significantly above noise level, it is often required to repeat + # sets of operations more than once per test round. The measured + # overhead per test round should be less than 1 second. + operations = 20 + + # Number of rounds to execute per test run. This should be + # adjusted to a figure that results in a test run-time of between + # 1-2 seconds (at warp 1). + rounds = 100000 + + def test(self): + + """ Run the test. + + The test needs to run self.rounds executing + self.operations number of operations each. + + """ + # Init the test + a = 1 + + # Run test rounds + # + # NOTE: Use xrange() for all test loops unless you want to face + # a 20MB process ! + # + for i in xrange(self.rounds): + + # Repeat the operations per round to raise the run-time + # per operation significantly above the noise level of the + # for-loop overhead. + + # Execute 20 operations (a += 1): + a += 1 + a += 1 + a += 1 + a += 1 + a += 1 + a += 1 + a += 1 + a += 1 + a += 1 + a += 1 + a += 1 + a += 1 + a += 1 + a += 1 + a += 1 + a += 1 + a += 1 + a += 1 + a += 1 + a += 1 + + def calibrate(self): + + """ Calibrate the test. + + This method should execute everything that is needed to + setup and run the test - except for the actual operations + that you intend to measure. pybench uses this method to + measure the test implementation overhead. + + """ + # Init the test + a = 1 + + # Run test rounds (without actually doing any operation) + for i in xrange(self.rounds): + + # Skip the actual execution of the operations, since we + # only want to measure the test's administration overhead. + pass + +Registering a new test module +----------------------------- + +To register a test module with pybench, the classes need to be +imported into the pybench.Setup module. pybench will then scan all the +symbols defined in that module for subclasses of pybench.Test and +automatically add them to the benchmark suite. + + +Breaking Comparability +---------------------- + +If a change is made to any individual test that means it is no +longer strictly comparable with previous runs, the '.version' class +variable should be updated. Therefafter, comparisons with previous +versions of the test will list as "n/a" to reflect the change. + + +Version History +--------------- + + 2.0: rewrote parts of pybench which resulted in more repeatable + timings: + - made timer a parameter + - changed the platform default timer to use high-resolution + timers rather than process timers (which have a much lower + resolution) + - added option to select timer + - added process time timer (using systimes.py) + - changed to use min() as timing estimator (average + is still taken as well to provide an idea of the difference) + - garbage collection is turned off per default + - sys check interval is set to the highest possible value + - calibration is now a separate step and done using + a different strategy that allows measuring the test + overhead more accurately + - modified the tests to each give a run-time of between + 100-200ms using warp 10 + - changed default warp factor to 10 (from 20) + - compared results with timeit.py and confirmed measurements + - bumped all test versions to 2.0 + - updated platform.py to the latest version + - changed the output format a bit to make it look + nicer + - refactored the APIs somewhat + 1.3+: Steve Holden added the NewInstances test and the filtering + option during the NeedForSpeed sprint; this also triggered a long + discussion on how to improve benchmark timing and finally + resulted in the release of 2.0 + 1.3: initial checkin into the Python SVN repository + + +Have fun, +-- +Marc-Andre Lemburg +mal@lemburg.com diff --git a/Tools/pybench/pybench-2.0/Setup.py b/Tools/pybench/pybench-2.0/Setup.py new file mode 100644 index 0000000..f1417e6 --- /dev/null +++ b/Tools/pybench/pybench-2.0/Setup.py @@ -0,0 +1,39 @@ +#!python + +# Setup file for pybench +# +# This file has to import all tests to be run; it is executed as +# Python source file, so you can do all kinds of manipulations here +# rather than having to edit the tests themselves. +# +# Note: Please keep this module compatible to Python 1.5.2. +# +# Tests may include features in later Python versions, but these +# should then be embedded in try-except clauses in this configuration +# module. + +# Defaults +Number_of_rounds = 10 +Warp_factor = 10 + +# Import tests +from Arithmetic import * +from Calls import * +from Constructs import * +from Lookups import * +from Instances import * +try: + from NewInstances import * +except ImportError: + pass +from Lists import * +from Tuples import * +from Dict import * +from Exceptions import * +from Imports import * +from Strings import * +from Numbers import * +try: + from Unicode import * +except (ImportError, SyntaxError): + pass diff --git a/Tools/pybench/pybench-2.0/Strings.py b/Tools/pybench/pybench-2.0/Strings.py new file mode 100644 index 0000000..3be8b35 --- /dev/null +++ b/Tools/pybench/pybench-2.0/Strings.py @@ -0,0 +1,562 @@ +from pybench import Test +from string import join + +class ConcatStrings(Test): + + version = 2.0 + operations = 10 * 5 + rounds = 100000 + + def test(self): + + # Make sure the strings are *not* interned + s = join(map(str,range(100))) + t = join(map(str,range(1,101))) + + for i in xrange(self.rounds): + t + s + t + s + t + s + t + s + t + s + + t + s + t + s + t + s + t + s + t + s + + t + s + t + s + t + s + t + s + t + s + + t + s + t + s + t + s + t + s + t + s + + t + s + t + s + t + s + t + s + t + s + + t + s + t + s + t + s + t + s + t + s + + t + s + t + s + t + s + t + s + t + s + + t + s + t + s + t + s + t + s + t + s + + t + s + t + s + t + s + t + s + t + s + + t + s + t + s + t + s + t + s + t + s + + def calibrate(self): + + s = join(map(str,range(100))) + t = join(map(str,range(1,101))) + + for i in xrange(self.rounds): + pass + + +class CompareStrings(Test): + + version = 2.0 + operations = 10 * 5 + rounds = 200000 + + def test(self): + + # Make sure the strings are *not* interned + s = join(map(str,range(10))) + t = join(map(str,range(10))) + "abc" + + for i in xrange(self.rounds): + t < s + t > s + t == s + t > s + t < s + + t < s + t > s + t == s + t > s + t < s + + t < s + t > s + t == s + t > s + t < s + + t < s + t > s + t == s + t > s + t < s + + t < s + t > s + t == s + t > s + t < s + + t < s + t > s + t == s + t > s + t < s + + t < s + t > s + t == s + t > s + t < s + + t < s + t > s + t == s + t > s + t < s + + t < s + t > s + t == s + t > s + t < s + + t < s + t > s + t == s + t > s + t < s + + def calibrate(self): + + s = join(map(str,range(10))) + t = join(map(str,range(10))) + "abc" + + for i in xrange(self.rounds): + pass + + +class CompareInternedStrings(Test): + + version = 2.0 + operations = 10 * 5 + rounds = 300000 + + def test(self): + + # Make sure the strings *are* interned + s = intern(join(map(str,range(10)))) + t = s + + for i in xrange(self.rounds): + t == s + t == s + t >= s + t > s + t < s + + t == s + t == s + t >= s + t > s + t < s + + t == s + t == s + t >= s + t > s + t < s + + t == s + t == s + t >= s + t > s + t < s + + t == s + t == s + t >= s + t > s + t < s + + t == s + t == s + t >= s + t > s + t < s + + t == s + t == s + t >= s + t > s + t < s + + t == s + t == s + t >= s + t > s + t < s + + t == s + t == s + t >= s + t > s + t < s + + t == s + t == s + t >= s + t > s + t < s + + def calibrate(self): + + s = intern(join(map(str,range(10)))) + t = s + + for i in xrange(self.rounds): + pass + + +class CreateStringsWithConcat(Test): + + version = 2.0 + operations = 10 * 5 + rounds = 200000 + + def test(self): + + for i in xrange(self.rounds): + s = 'om' + s = s + 'xbx' + s = s + 'xcx' + s = s + 'xdx' + s = s + 'xex' + + s = s + 'xax' + s = s + 'xbx' + s = s + 'xcx' + s = s + 'xdx' + s = s + 'xex' + + s = s + 'xax' + s = s + 'xbx' + s = s + 'xcx' + s = s + 'xdx' + s = s + 'xex' + + s = s + 'xax' + s = s + 'xbx' + s = s + 'xcx' + s = s + 'xdx' + s = s + 'xex' + + s = s + 'xax' + s = s + 'xbx' + s = s + 'xcx' + s = s + 'xdx' + s = s + 'xex' + + s = s + 'xax' + s = s + 'xbx' + s = s + 'xcx' + s = s + 'xdx' + s = s + 'xex' + + s = s + 'xax' + s = s + 'xbx' + s = s + 'xcx' + s = s + 'xdx' + s = s + 'xex' + + s = s + 'xax' + s = s + 'xbx' + s = s + 'xcx' + s = s + 'xdx' + s = s + 'xex' + + s = s + 'xax' + s = s + 'xbx' + s = s + 'xcx' + s = s + 'xdx' + s = s + 'xex' + + s = s + 'xax' + s = s + 'xbx' + s = s + 'xcx' + s = s + 'xdx' + s = s + 'xex' + + def calibrate(self): + + for i in xrange(self.rounds): + pass + + +class StringSlicing(Test): + + version = 2.0 + operations = 5 * 7 + rounds = 160000 + + def test(self): + + s = join(map(str,range(100))) + + for i in xrange(self.rounds): + + s[50:] + s[:25] + s[50:55] + s[-1:] + s[:1] + s[2:] + s[11:-11] + + s[50:] + s[:25] + s[50:55] + s[-1:] + s[:1] + s[2:] + s[11:-11] + + s[50:] + s[:25] + s[50:55] + s[-1:] + s[:1] + s[2:] + s[11:-11] + + s[50:] + s[:25] + s[50:55] + s[-1:] + s[:1] + s[2:] + s[11:-11] + + s[50:] + s[:25] + s[50:55] + s[-1:] + s[:1] + s[2:] + s[11:-11] + + def calibrate(self): + + s = join(map(str,range(100))) + + for i in xrange(self.rounds): + pass + +### String methods + +if hasattr('', 'lower'): + + class StringMappings(Test): + + version = 2.0 + operations = 3 * (5 + 4 + 2 + 1) + rounds = 70000 + + def test(self): + + s = join(map(chr,range(20)),'') + t = join(map(chr,range(50)),'') + u = join(map(chr,range(100)),'') + v = join(map(chr,range(256)),'') + + for i in xrange(self.rounds): + + s.lower() + s.lower() + s.lower() + s.lower() + s.lower() + + s.upper() + s.upper() + s.upper() + s.upper() + s.upper() + + s.title() + s.title() + s.title() + s.title() + s.title() + + t.lower() + t.lower() + t.lower() + t.lower() + + t.upper() + t.upper() + t.upper() + t.upper() + + t.title() + t.title() + t.title() + t.title() + + u.lower() + u.lower() + + u.upper() + u.upper() + + u.title() + u.title() + + v.lower() + + v.upper() + + v.title() + + def calibrate(self): + + s = join(map(chr,range(20)),'') + t = join(map(chr,range(50)),'') + u = join(map(chr,range(100)),'') + v = join(map(chr,range(256)),'') + + for i in xrange(self.rounds): + pass + + class StringPredicates(Test): + + version = 2.0 + operations = 10 * 7 + rounds = 100000 + + def test(self): + + data = ('abc', '123', ' ', '\xe4\xf6\xfc', '\xdf'*10) + len_data = len(data) + + for i in xrange(self.rounds): + s = data[i % len_data] + + s.isalnum() + s.isalpha() + s.isdigit() + s.islower() + s.isspace() + s.istitle() + s.isupper() + + s.isalnum() + s.isalpha() + s.isdigit() + s.islower() + s.isspace() + s.istitle() + s.isupper() + + s.isalnum() + s.isalpha() + s.isdigit() + s.islower() + s.isspace() + s.istitle() + s.isupper() + + s.isalnum() + s.isalpha() + s.isdigit() + s.islower() + s.isspace() + s.istitle() + s.isupper() + + s.isalnum() + s.isalpha() + s.isdigit() + s.islower() + s.isspace() + s.istitle() + s.isupper() + + s.isalnum() + s.isalpha() + s.isdigit() + s.islower() + s.isspace() + s.istitle() + s.isupper() + + s.isalnum() + s.isalpha() + s.isdigit() + s.islower() + s.isspace() + s.istitle() + s.isupper() + + s.isalnum() + s.isalpha() + s.isdigit() + s.islower() + s.isspace() + s.istitle() + s.isupper() + + s.isalnum() + s.isalpha() + s.isdigit() + s.islower() + s.isspace() + s.istitle() + s.isupper() + + s.isalnum() + s.isalpha() + s.isdigit() + s.islower() + s.isspace() + s.istitle() + s.isupper() + + def calibrate(self): + + data = ('abc', '123', ' ', '\u1234\u2345\u3456', '\uFFFF'*10) + data = ('abc', '123', ' ', '\xe4\xf6\xfc', '\xdf'*10) + len_data = len(data) + + for i in xrange(self.rounds): + s = data[i % len_data] diff --git a/Tools/pybench/pybench-2.0/Tuples.py b/Tools/pybench/pybench-2.0/Tuples.py new file mode 100644 index 0000000..8e46989 --- /dev/null +++ b/Tools/pybench/pybench-2.0/Tuples.py @@ -0,0 +1,360 @@ +from pybench import Test + +class TupleSlicing(Test): + + version = 2.0 + operations = 3 * 25 * 10 * 7 + rounds = 500 + + def test(self): + + r = range(25) + t = tuple(range(100)) + + for i in xrange(self.rounds): + + for j in r: + + m = t[50:] + m = t[:25] + m = t[50:55] + m = t[:-1] + m = t[1:] + m = t[-10:] + m = t[:10] + + m = t[50:] + m = t[:25] + m = t[50:55] + m = t[:-1] + m = t[1:] + m = t[-10:] + m = t[:10] + + m = t[50:] + m = t[:25] + m = t[50:55] + m = t[:-1] + m = t[1:] + m = t[-10:] + m = t[:10] + + m = t[50:] + m = t[:25] + m = t[50:55] + m = t[:-1] + m = t[1:] + m = t[-10:] + m = t[:10] + + m = t[50:] + m = t[:25] + m = t[50:55] + m = t[:-1] + m = t[1:] + m = t[-10:] + m = t[:10] + + m = t[50:] + m = t[:25] + m = t[50:55] + m = t[:-1] + m = t[1:] + m = t[-10:] + m = t[:10] + + m = t[50:] + m = t[:25] + m = t[50:55] + m = t[:-1] + m = t[1:] + m = t[-10:] + m = t[:10] + + m = t[50:] + m = t[:25] + m = t[50:55] + m = t[:-1] + m = t[1:] + m = t[-10:] + m = t[:10] + + m = t[50:] + m = t[:25] + m = t[50:55] + m = t[:-1] + m = t[1:] + m = t[-10:] + m = t[:10] + + m = t[50:] + m = t[:25] + m = t[50:55] + m = t[:-1] + m = t[1:] + m = t[-10:] + m = t[:10] + + m = t[50:] + m = t[:25] + m = t[50:55] + m = t[:-1] + m = t[1:] + m = t[-10:] + m = t[:10] + + m = t[50:] + m = t[:25] + m = t[50:55] + m = t[:-1] + m = t[1:] + m = t[-10:] + m = t[:10] + + m = t[50:] + m = t[:25] + m = t[50:55] + m = t[:-1] + m = t[1:] + m = t[-10:] + m = t[:10] + + m = t[50:] + m = t[:25] + m = t[50:55] + m = t[:-1] + m = t[1:] + m = t[-10:] + m = t[:10] + + m = t[50:] + m = t[:25] + m = t[50:55] + m = t[:-1] + m = t[1:] + m = t[-10:] + m = t[:10] + + m = t[50:] + m = t[:25] + m = t[50:55] + m = t[:-1] + m = t[1:] + m = t[-10:] + m = t[:10] + + m = t[50:] + m = t[:25] + m = t[50:55] + m = t[:-1] + m = t[1:] + m = t[-10:] + m = t[:10] + + m = t[50:] + m = t[:25] + m = t[50:55] + m = t[:-1] + m = t[1:] + m = t[-10:] + m = t[:10] + + m = t[50:] + m = t[:25] + m = t[50:55] + m = t[:-1] + m = t[1:] + m = t[-10:] + m = t[:10] + + m = t[50:] + m = t[:25] + m = t[50:55] + m = t[:-1] + m = t[1:] + m = t[-10:] + m = t[:10] + + m = t[50:] + m = t[:25] + m = t[50:55] + m = t[:-1] + m = t[1:] + m = t[-10:] + m = t[:10] + + m = t[50:] + m = t[:25] + m = t[50:55] + m = t[:-1] + m = t[1:] + m = t[-10:] + m = t[:10] + + m = t[50:] + m = t[:25] + m = t[50:55] + m = t[:-1] + m = t[1:] + m = t[-10:] + m = t[:10] + + m = t[50:] + m = t[:25] + m = t[50:55] + m = t[:-1] + m = t[1:] + m = t[-10:] + m = t[:10] + + m = t[50:] + m = t[:25] + m = t[50:55] + m = t[:-1] + m = t[1:] + m = t[-10:] + m = t[:10] + + m = t[50:] + m = t[:25] + m = t[50:55] + m = t[:-1] + m = t[1:] + m = t[-10:] + m = t[:10] + + m = t[50:] + m = t[:25] + m = t[50:55] + m = t[:-1] + m = t[1:] + m = t[-10:] + m = t[:10] + + m = t[50:] + m = t[:25] + m = t[50:55] + m = t[:-1] + m = t[1:] + m = t[-10:] + m = t[:10] + + m = t[50:] + m = t[:25] + m = t[50:55] + m = t[:-1] + m = t[1:] + m = t[-10:] + m = t[:10] + + m = t[50:] + m = t[:25] + m = t[50:55] + m = t[:-1] + m = t[1:] + m = t[-10:] + m = t[:10] + + def calibrate(self): + + r = range(25) + t = tuple(range(100)) + + for i in xrange(self.rounds): + for j in r: + pass + +class SmallTuples(Test): + + version = 2.0 + operations = 5*(1 + 3 + 6 + 2) + rounds = 90000 + + def test(self): + + for i in xrange(self.rounds): + + t = (1,2,3,4,5,6) + + a,b,c,d,e,f = t + a,b,c,d,e,f = t + a,b,c,d,e,f = t + + a,b,c = t[:3] + a,b,c = t[:3] + a,b,c = t[:3] + a,b,c = t[:3] + a,b,c = t[:3] + a,b,c = t[:3] + + l = list(t) + t = tuple(l) + + t = (1,2,3,4,5,6) + + a,b,c,d,e,f = t + a,b,c,d,e,f = t + a,b,c,d,e,f = t + + a,b,c = t[:3] + a,b,c = t[:3] + a,b,c = t[:3] + a,b,c = t[:3] + a,b,c = t[:3] + a,b,c = t[:3] + + l = list(t) + t = tuple(l) + + t = (1,2,3,4,5,6) + + a,b,c,d,e,f = t + a,b,c,d,e,f = t + a,b,c,d,e,f = t + + a,b,c = t[:3] + a,b,c = t[:3] + a,b,c = t[:3] + a,b,c = t[:3] + a,b,c = t[:3] + a,b,c = t[:3] + + l = list(t) + t = tuple(l) + + t = (1,2,3,4,5,6) + + a,b,c,d,e,f = t + a,b,c,d,e,f = t + a,b,c,d,e,f = t + + a,b,c = t[:3] + a,b,c = t[:3] + a,b,c = t[:3] + a,b,c = t[:3] + a,b,c = t[:3] + a,b,c = t[:3] + + l = list(t) + t = tuple(l) + + t = (1,2,3,4,5,6) + + a,b,c,d,e,f = t + a,b,c,d,e,f = t + a,b,c,d,e,f = t + + a,b,c = t[:3] + a,b,c = t[:3] + a,b,c = t[:3] + a,b,c = t[:3] + a,b,c = t[:3] + a,b,c = t[:3] + + l = list(t) + t = tuple(l) + + def calibrate(self): + + for i in xrange(self.rounds): + pass diff --git a/Tools/pybench/pybench-2.0/Unicode.py b/Tools/pybench/pybench-2.0/Unicode.py new file mode 100644 index 0000000..153a91e --- /dev/null +++ b/Tools/pybench/pybench-2.0/Unicode.py @@ -0,0 +1,542 @@ +try: + unicode +except NameError: + raise ImportError + +from pybench import Test +from string import join + +class ConcatUnicode(Test): + + version = 2.0 + operations = 10 * 5 + rounds = 60000 + + def test(self): + + # Make sure the strings are *not* interned + s = unicode(join(map(str,range(100)))) + t = unicode(join(map(str,range(1,101)))) + + for i in xrange(self.rounds): + t + s + t + s + t + s + t + s + t + s + + t + s + t + s + t + s + t + s + t + s + + t + s + t + s + t + s + t + s + t + s + + t + s + t + s + t + s + t + s + t + s + + t + s + t + s + t + s + t + s + t + s + + t + s + t + s + t + s + t + s + t + s + + t + s + t + s + t + s + t + s + t + s + + t + s + t + s + t + s + t + s + t + s + + t + s + t + s + t + s + t + s + t + s + + t + s + t + s + t + s + t + s + t + s + + def calibrate(self): + + s = unicode(join(map(str,range(100)))) + t = unicode(join(map(str,range(1,101)))) + + for i in xrange(self.rounds): + pass + + +class CompareUnicode(Test): + + version = 2.0 + operations = 10 * 5 + rounds = 150000 + + def test(self): + + # Make sure the strings are *not* interned + s = unicode(join(map(str,range(10)))) + t = unicode(join(map(str,range(10))) + "abc") + + for i in xrange(self.rounds): + t < s + t > s + t == s + t > s + t < s + + t < s + t > s + t == s + t > s + t < s + + t < s + t > s + t == s + t > s + t < s + + t < s + t > s + t == s + t > s + t < s + + t < s + t > s + t == s + t > s + t < s + + t < s + t > s + t == s + t > s + t < s + + t < s + t > s + t == s + t > s + t < s + + t < s + t > s + t == s + t > s + t < s + + t < s + t > s + t == s + t > s + t < s + + t < s + t > s + t == s + t > s + t < s + + def calibrate(self): + + s = unicode(join(map(str,range(10)))) + t = unicode(join(map(str,range(10))) + "abc") + + for i in xrange(self.rounds): + pass + + +class CreateUnicodeWithConcat(Test): + + version = 2.0 + operations = 10 * 5 + rounds = 80000 + + def test(self): + + for i in xrange(self.rounds): + s = u'om' + s = s + u'xbx' + s = s + u'xcx' + s = s + u'xdx' + s = s + u'xex' + + s = s + u'xax' + s = s + u'xbx' + s = s + u'xcx' + s = s + u'xdx' + s = s + u'xex' + + s = s + u'xax' + s = s + u'xbx' + s = s + u'xcx' + s = s + u'xdx' + s = s + u'xex' + + s = s + u'xax' + s = s + u'xbx' + s = s + u'xcx' + s = s + u'xdx' + s = s + u'xex' + + s = s + u'xax' + s = s + u'xbx' + s = s + u'xcx' + s = s + u'xdx' + s = s + u'xex' + + s = s + u'xax' + s = s + u'xbx' + s = s + u'xcx' + s = s + u'xdx' + s = s + u'xex' + + s = s + u'xax' + s = s + u'xbx' + s = s + u'xcx' + s = s + u'xdx' + s = s + u'xex' + + s = s + u'xax' + s = s + u'xbx' + s = s + u'xcx' + s = s + u'xdx' + s = s + u'xex' + + s = s + u'xax' + s = s + u'xbx' + s = s + u'xcx' + s = s + u'xdx' + s = s + u'xex' + + s = s + u'xax' + s = s + u'xbx' + s = s + u'xcx' + s = s + u'xdx' + s = s + u'xex' + + def calibrate(self): + + for i in xrange(self.rounds): + pass + + +class UnicodeSlicing(Test): + + version = 2.0 + operations = 5 * 7 + rounds = 140000 + + def test(self): + + s = unicode(join(map(str,range(100)))) + + for i in xrange(self.rounds): + + s[50:] + s[:25] + s[50:55] + s[-1:] + s[:1] + s[2:] + s[11:-11] + + s[50:] + s[:25] + s[50:55] + s[-1:] + s[:1] + s[2:] + s[11:-11] + + s[50:] + s[:25] + s[50:55] + s[-1:] + s[:1] + s[2:] + s[11:-11] + + s[50:] + s[:25] + s[50:55] + s[-1:] + s[:1] + s[2:] + s[11:-11] + + s[50:] + s[:25] + s[50:55] + s[-1:] + s[:1] + s[2:] + s[11:-11] + + def calibrate(self): + + s = unicode(join(map(str,range(100)))) + + for i in xrange(self.rounds): + pass + +### String methods + +class UnicodeMappings(Test): + + version = 2.0 + operations = 3 * (5 + 4 + 2 + 1) + rounds = 10000 + + def test(self): + + s = join(map(unichr,range(20)),'') + t = join(map(unichr,range(100)),'') + u = join(map(unichr,range(500)),'') + v = join(map(unichr,range(1000)),'') + + for i in xrange(self.rounds): + + s.lower() + s.lower() + s.lower() + s.lower() + s.lower() + + s.upper() + s.upper() + s.upper() + s.upper() + s.upper() + + s.title() + s.title() + s.title() + s.title() + s.title() + + t.lower() + t.lower() + t.lower() + t.lower() + + t.upper() + t.upper() + t.upper() + t.upper() + + t.title() + t.title() + t.title() + t.title() + + u.lower() + u.lower() + + u.upper() + u.upper() + + u.title() + u.title() + + v.lower() + + v.upper() + + v.title() + + def calibrate(self): + + s = join(map(unichr,range(20)),'') + t = join(map(unichr,range(100)),'') + u = join(map(unichr,range(500)),'') + v = join(map(unichr,range(1000)),'') + + for i in xrange(self.rounds): + pass + +class UnicodePredicates(Test): + + version = 2.0 + operations = 5 * 9 + rounds = 120000 + + def test(self): + + data = (u'abc', u'123', u' ', u'\u1234\u2345\u3456', u'\uFFFF'*10) + len_data = len(data) + + for i in xrange(self.rounds): + s = data[i % len_data] + + s.isalnum() + s.isalpha() + s.isdecimal() + s.isdigit() + s.islower() + s.isnumeric() + s.isspace() + s.istitle() + s.isupper() + + s.isalnum() + s.isalpha() + s.isdecimal() + s.isdigit() + s.islower() + s.isnumeric() + s.isspace() + s.istitle() + s.isupper() + + s.isalnum() + s.isalpha() + s.isdecimal() + s.isdigit() + s.islower() + s.isnumeric() + s.isspace() + s.istitle() + s.isupper() + + s.isalnum() + s.isalpha() + s.isdecimal() + s.isdigit() + s.islower() + s.isnumeric() + s.isspace() + s.istitle() + s.isupper() + + s.isalnum() + s.isalpha() + s.isdecimal() + s.isdigit() + s.islower() + s.isnumeric() + s.isspace() + s.istitle() + s.isupper() + + def calibrate(self): + + data = (u'abc', u'123', u' ', u'\u1234\u2345\u3456', u'\uFFFF'*10) + len_data = len(data) + + for i in xrange(self.rounds): + s = data[i % len_data] + +try: + import unicodedata +except ImportError: + pass +else: + class UnicodeProperties(Test): + + version = 2.0 + operations = 5 * 8 + rounds = 100000 + + def test(self): + + data = (u'a', u'1', u' ', u'\u1234', u'\uFFFF') + len_data = len(data) + digit = unicodedata.digit + numeric = unicodedata.numeric + decimal = unicodedata.decimal + category = unicodedata.category + bidirectional = unicodedata.bidirectional + decomposition = unicodedata.decomposition + mirrored = unicodedata.mirrored + combining = unicodedata.combining + + for i in xrange(self.rounds): + + c = data[i % len_data] + + digit(c, None) + numeric(c, None) + decimal(c, None) + category(c) + bidirectional(c) + decomposition(c) + mirrored(c) + combining(c) + + digit(c, None) + numeric(c, None) + decimal(c, None) + category(c) + bidirectional(c) + decomposition(c) + mirrored(c) + combining(c) + + digit(c, None) + numeric(c, None) + decimal(c, None) + category(c) + bidirectional(c) + decomposition(c) + mirrored(c) + combining(c) + + digit(c, None) + numeric(c, None) + decimal(c, None) + category(c) + bidirectional(c) + decomposition(c) + mirrored(c) + combining(c) + + digit(c, None) + numeric(c, None) + decimal(c, None) + category(c) + bidirectional(c) + decomposition(c) + mirrored(c) + combining(c) + + def calibrate(self): + + data = (u'a', u'1', u' ', u'\u1234', u'\uFFFF') + len_data = len(data) + digit = unicodedata.digit + numeric = unicodedata.numeric + decimal = unicodedata.decimal + category = unicodedata.category + bidirectional = unicodedata.bidirectional + decomposition = unicodedata.decomposition + mirrored = unicodedata.mirrored + combining = unicodedata.combining + + for i in xrange(self.rounds): + + c = data[i % len_data] diff --git a/Tools/pybench/pybench-2.0/clockres.py b/Tools/pybench/pybench-2.0/clockres.py new file mode 100644 index 0000000..a7855f2 --- /dev/null +++ b/Tools/pybench/pybench-2.0/clockres.py @@ -0,0 +1,44 @@ +#!/usr/bin/env python + +""" clockres - calculates the resolution in seconds of a given timer. + + Copyright (c) 2006, Marc-Andre Lemburg (mal@egenix.com). See the + documentation for further information on copyrights, or contact + the author. All Rights Reserved. + +""" +import time + +TEST_TIME = 1.0 + +def clockres(timer): + d = {} + wallclock = time.time + start = wallclock() + stop = wallclock() + TEST_TIME + spin_loops = range(1000) + while 1: + now = wallclock() + if now >= stop: + break + for i in spin_loops: + d[timer()] = 1 + values = d.keys() + values.sort() + min_diff = TEST_TIME + for i in range(len(values) - 1): + diff = values[i+1] - values[i] + if diff < min_diff: + min_diff = diff + return min_diff + +if __name__ == '__main__': + print 'Clock resolution of various timer implementations:' + print 'time.clock: %10.3fus' % (clockres(time.clock) * 1e6) + print 'time.time: %10.3fus' % (clockres(time.time) * 1e6) + try: + import systimes + print 'systimes.processtime: %10.3fus' % (clockres(systimes.processtime) * 1e6) + except ImportError: + pass + diff --git a/Tools/pybench/pybench-2.0/package/__init__.py b/Tools/pybench/pybench-2.0/package/__init__.py new file mode 100644 index 0000000..e69de29 --- /dev/null +++ b/Tools/pybench/pybench-2.0/package/__init__.py diff --git a/Tools/pybench/pybench-2.0/package/submodule.py b/Tools/pybench/pybench-2.0/package/submodule.py new file mode 100644 index 0000000..e69de29 --- /dev/null +++ b/Tools/pybench/pybench-2.0/package/submodule.py diff --git a/Tools/pybench/pybench-2.0/platform.py b/Tools/pybench/pybench-2.0/platform.py new file mode 100755 index 0000000..288bc95 --- /dev/null +++ b/Tools/pybench/pybench-2.0/platform.py @@ -0,0 +1,1254 @@ +#!/usr/bin/env python + +""" This module tries to retrieve as much platform-identifying data as + possible. It makes this information available via function APIs. + + If called from the command line, it prints the platform + information concatenated as single string to stdout. The output + format is useable as part of a filename. + +""" +# This module is maintained by Marc-Andre Lemburg <mal@egenix.com>. +# If you find problems, please submit bug reports/patches via the +# Python SourceForge Project Page and assign them to "lemburg". +# +# Note: Please keep this module compatible to Python 1.5.2. +# +# Still needed: +# * more support for WinCE +# * support for MS-DOS (PythonDX ?) +# * support for Amiga and other still unsupported platforms running Python +# * support for additional Linux distributions +# +# Many thanks to all those who helped adding platform-specific +# checks (in no particular order): +# +# Charles G Waldman, David Arnold, Gordon McMillan, Ben Darnell, +# Jeff Bauer, Cliff Crawford, Ivan Van Laningham, Josef +# Betancourt, Randall Hopper, Karl Putland, John Farrell, Greg +# Andruk, Just van Rossum, Thomas Heller, Mark R. Levinson, Mark +# Hammond, Bill Tutt, Hans Nowak, Uwe Zessin (OpenVMS support), +# Colin Kong, Trent Mick, Guido van Rossum +# +# History: +# +# <see CVS and SVN checkin messages for history> +# +# 1.0.3 - added normalization of Windows system name +# 1.0.2 - added more Windows support +# 1.0.1 - reformatted to make doc.py happy +# 1.0.0 - reformatted a bit and checked into Python CVS +# 0.8.0 - added sys.version parser and various new access +# APIs (python_version(), python_compiler(), etc.) +# 0.7.2 - fixed architecture() to use sizeof(pointer) where available +# 0.7.1 - added support for Caldera OpenLinux +# 0.7.0 - some fixes for WinCE; untabified the source file +# 0.6.2 - support for OpenVMS - requires version 1.5.2-V006 or higher and +# vms_lib.getsyi() configured +# 0.6.1 - added code to prevent 'uname -p' on platforms which are +# known not to support it +# 0.6.0 - fixed win32_ver() to hopefully work on Win95,98,NT and Win2k; +# did some cleanup of the interfaces - some APIs have changed +# 0.5.5 - fixed another type in the MacOS code... should have +# used more coffee today ;-) +# 0.5.4 - fixed a few typos in the MacOS code +# 0.5.3 - added experimental MacOS support; added better popen() +# workarounds in _syscmd_ver() -- still not 100% elegant +# though +# 0.5.2 - fixed uname() to return '' instead of 'unknown' in all +# return values (the system uname command tends to return +# 'unknown' instead of just leaving the field emtpy) +# 0.5.1 - included code for slackware dist; added exception handlers +# to cover up situations where platforms don't have os.popen +# (e.g. Mac) or fail on socket.gethostname(); fixed libc +# detection RE +# 0.5.0 - changed the API names referring to system commands to *syscmd*; +# added java_ver(); made syscmd_ver() a private +# API (was system_ver() in previous versions) -- use uname() +# instead; extended the win32_ver() to also return processor +# type information +# 0.4.0 - added win32_ver() and modified the platform() output for WinXX +# 0.3.4 - fixed a bug in _follow_symlinks() +# 0.3.3 - fixed popen() and "file" command invokation bugs +# 0.3.2 - added architecture() API and support for it in platform() +# 0.3.1 - fixed syscmd_ver() RE to support Windows NT +# 0.3.0 - added system alias support +# 0.2.3 - removed 'wince' again... oh well. +# 0.2.2 - added 'wince' to syscmd_ver() supported platforms +# 0.2.1 - added cache logic and changed the platform string format +# 0.2.0 - changed the API to use functions instead of module globals +# since some action take too long to be run on module import +# 0.1.0 - first release +# +# You can always get the latest version of this module at: +# +# http://www.egenix.com/files/python/platform.py +# +# If that URL should fail, try contacting the author. + +__copyright__ = """ + Copyright (c) 1999-2000, Marc-Andre Lemburg; mailto:mal@lemburg.com + Copyright (c) 2000-2003, eGenix.com Software GmbH; mailto:info@egenix.com + + Permission to use, copy, modify, and distribute this software and its + documentation for any purpose and without fee or royalty is hereby granted, + provided that the above copyright notice appear in all copies and that + both that copyright notice and this permission notice appear in + supporting documentation or portions thereof, including modifications, + that you make. + + EGENIX.COM SOFTWARE GMBH DISCLAIMS ALL WARRANTIES WITH REGARD TO + THIS SOFTWARE, INCLUDING ALL IMPLIED WARRANTIES OF MERCHANTABILITY AND + FITNESS, IN NO EVENT SHALL THE AUTHOR BE LIABLE FOR ANY SPECIAL, + INDIRECT OR CONSEQUENTIAL DAMAGES OR ANY DAMAGES WHATSOEVER RESULTING + FROM LOSS OF USE, DATA OR PROFITS, WHETHER IN AN ACTION OF CONTRACT, + NEGLIGENCE OR OTHER TORTIOUS ACTION, ARISING OUT OF OR IN CONNECTION + WITH THE USE OR PERFORMANCE OF THIS SOFTWARE ! + +""" + +__version__ = '1.0.4' + +import sys,string,os,re + +### Platform specific APIs + +_libc_search = re.compile(r'(__libc_init)' + '|' + '(GLIBC_([0-9.]+))' + '|' + '(libc(_\w+)?\.so(?:\.(\d[0-9.]*))?)') + +def libc_ver(executable=sys.executable,lib='',version='', + + chunksize=2048): + + """ Tries to determine the libc version that the file executable + (which defaults to the Python interpreter) is linked against. + + Returns a tuple of strings (lib,version) which default to the + given parameters in case the lookup fails. + + Note that the function has intimate knowledge of how different + libc versions add symbols to the executable and thus is probably + only useable for executables compiled using gcc. + + The file is read and scanned in chunks of chunksize bytes. + + """ + f = open(executable,'rb') + binary = f.read(chunksize) + pos = 0 + while 1: + m = _libc_search.search(binary,pos) + if not m: + binary = f.read(chunksize) + if not binary: + break + pos = 0 + continue + libcinit,glibc,glibcversion,so,threads,soversion = m.groups() + if libcinit and not lib: + lib = 'libc' + elif glibc: + if lib != 'glibc': + lib = 'glibc' + version = glibcversion + elif glibcversion > version: + version = glibcversion + elif so: + if lib != 'glibc': + lib = 'libc' + if soversion > version: + version = soversion + if threads and version[-len(threads):] != threads: + version = version + threads + pos = m.end() + f.close() + return lib,version + +def _dist_try_harder(distname,version,id): + + """ Tries some special tricks to get the distribution + information in case the default method fails. + + Currently supports older SuSE Linux, Caldera OpenLinux and + Slackware Linux distributions. + + """ + if os.path.exists('/var/adm/inst-log/info'): + # SuSE Linux stores distribution information in that file + info = open('/var/adm/inst-log/info').readlines() + distname = 'SuSE' + for line in info: + tv = string.split(line) + if len(tv) == 2: + tag,value = tv + else: + continue + if tag == 'MIN_DIST_VERSION': + version = string.strip(value) + elif tag == 'DIST_IDENT': + values = string.split(value,'-') + id = values[2] + return distname,version,id + + if os.path.exists('/etc/.installed'): + # Caldera OpenLinux has some infos in that file (thanks to Colin Kong) + info = open('/etc/.installed').readlines() + for line in info: + pkg = string.split(line,'-') + if len(pkg) >= 2 and pkg[0] == 'OpenLinux': + # XXX does Caldera support non Intel platforms ? If yes, + # where can we find the needed id ? + return 'OpenLinux',pkg[1],id + + if os.path.isdir('/usr/lib/setup'): + # Check for slackware verson tag file (thanks to Greg Andruk) + verfiles = os.listdir('/usr/lib/setup') + for n in range(len(verfiles)-1, -1, -1): + if verfiles[n][:14] != 'slack-version-': + del verfiles[n] + if verfiles: + verfiles.sort() + distname = 'slackware' + version = verfiles[-1][14:] + return distname,version,id + + return distname,version,id + +_release_filename = re.compile(r'(\w+)[-_](release|version)') +_release_version = re.compile(r'([\d.]+)[^(]*(?:\((.+)\))?') + +# Note:In supported_dists below we need 'fedora' before 'redhat' as in +# Fedora redhat-release is a link to fedora-release. + +def dist(distname='',version='',id='', + + supported_dists=('SuSE', 'debian', 'fedora', 'redhat', 'mandrake')): + + """ Tries to determine the name of the Linux OS distribution name. + + The function first looks for a distribution release file in + /etc and then reverts to _dist_try_harder() in case no + suitable files are found. + + Returns a tuple (distname,version,id) which default to the + args given as parameters. + + """ + try: + etc = os.listdir('/etc') + except os.error: + # Probably not a Unix system + return distname,version,id + for file in etc: + m = _release_filename.match(file) + if m: + _distname,dummy = m.groups() + if _distname in supported_dists: + distname = _distname + break + else: + return _dist_try_harder(distname,version,id) + f = open('/etc/'+file,'r') + firstline = f.readline() + f.close() + m = _release_version.search(firstline) + if m: + _version,_id = m.groups() + if _version: + version = _version + if _id: + id = _id + else: + # Unkown format... take the first two words + l = string.split(string.strip(firstline)) + if l: + version = l[0] + if len(l) > 1: + id = l[1] + return distname,version,id + +class _popen: + + """ Fairly portable (alternative) popen implementation. + + This is mostly needed in case os.popen() is not available, or + doesn't work as advertised, e.g. in Win9X GUI programs like + PythonWin or IDLE. + + Writing to the pipe is currently not supported. + + """ + tmpfile = '' + pipe = None + bufsize = None + mode = 'r' + + def __init__(self,cmd,mode='r',bufsize=None): + + if mode != 'r': + raise ValueError,'popen()-emulation only supports read mode' + import tempfile + self.tmpfile = tmpfile = tempfile.mktemp() + os.system(cmd + ' > %s' % tmpfile) + self.pipe = open(tmpfile,'rb') + self.bufsize = bufsize + self.mode = mode + + def read(self): + + return self.pipe.read() + + def readlines(self): + + if self.bufsize is not None: + return self.pipe.readlines() + + def close(self, + + remove=os.unlink,error=os.error): + + if self.pipe: + rc = self.pipe.close() + else: + rc = 255 + if self.tmpfile: + try: + remove(self.tmpfile) + except error: + pass + return rc + + # Alias + __del__ = close + +def popen(cmd, mode='r', bufsize=None): + + """ Portable popen() interface. + """ + # Find a working popen implementation preferring win32pipe.popen + # over os.popen over _popen + popen = None + if os.environ.get('OS','') == 'Windows_NT': + # On NT win32pipe should work; on Win9x it hangs due to bugs + # in the MS C lib (see MS KnowledgeBase article Q150956) + try: + import win32pipe + except ImportError: + pass + else: + popen = win32pipe.popen + if popen is None: + if hasattr(os,'popen'): + popen = os.popen + # Check whether it works... it doesn't in GUI programs + # on Windows platforms + if sys.platform == 'win32': # XXX Others too ? + try: + popen('') + except os.error: + popen = _popen + else: + popen = _popen + if bufsize is None: + return popen(cmd,mode) + else: + return popen(cmd,mode,bufsize) + +def _norm_version(version,build=''): + + """ Normalize the version and build strings and return a single + version string using the format major.minor.build (or patchlevel). + """ + l = string.split(version,'.') + if build: + l.append(build) + try: + ints = map(int,l) + except ValueError: + strings = l + else: + strings = map(str,ints) + version = string.join(strings[:3],'.') + return version + +_ver_output = re.compile(r'(?:([\w ]+) ([\w.]+) ' + '.*' + 'Version ([\d.]+))') + +def _syscmd_ver(system='',release='',version='', + + supported_platforms=('win32','win16','dos','os2')): + + """ Tries to figure out the OS version used and returns + a tuple (system,release,version). + + It uses the "ver" shell command for this which is known + to exists on Windows, DOS and OS/2. XXX Others too ? + + In case this fails, the given parameters are used as + defaults. + + """ + if sys.platform not in supported_platforms: + return system,release,version + + # Try some common cmd strings + for cmd in ('ver','command /c ver','cmd /c ver'): + try: + pipe = popen(cmd) + info = pipe.read() + if pipe.close(): + raise os.error,'command failed' + # XXX How can I supress shell errors from being written + # to stderr ? + except os.error,why: + #print 'Command %s failed: %s' % (cmd,why) + continue + except IOError,why: + #print 'Command %s failed: %s' % (cmd,why) + continue + else: + break + else: + return system,release,version + + # Parse the output + info = string.strip(info) + m = _ver_output.match(info) + if m: + system,release,version = m.groups() + # Strip trailing dots from version and release + if release[-1] == '.': + release = release[:-1] + if version[-1] == '.': + version = version[:-1] + # Normalize the version and build strings (eliminating additional + # zeros) + version = _norm_version(version) + return system,release,version + +def _win32_getvalue(key,name,default=''): + + """ Read a value for name from the registry key. + + In case this fails, default is returned. + + """ + from win32api import RegQueryValueEx + try: + return RegQueryValueEx(key,name) + except: + return default + +def win32_ver(release='',version='',csd='',ptype=''): + + """ Get additional version information from the Windows Registry + and return a tuple (version,csd,ptype) referring to version + number, CSD level and OS type (multi/single + processor). + + As a hint: ptype returns 'Uniprocessor Free' on single + processor NT machines and 'Multiprocessor Free' on multi + processor machines. The 'Free' refers to the OS version being + free of debugging code. It could also state 'Checked' which + means the OS version uses debugging code, i.e. code that + checks arguments, ranges, etc. (Thomas Heller). + + Note: this function only works if Mark Hammond's win32 + package is installed and obviously only runs on Win32 + compatible platforms. + + """ + # XXX Is there any way to find out the processor type on WinXX ? + # XXX Is win32 available on Windows CE ? + # + # Adapted from code posted by Karl Putland to comp.lang.python. + # + # The mappings between reg. values and release names can be found + # here: http://msdn.microsoft.com/library/en-us/sysinfo/base/osversioninfo_str.asp + + # Import the needed APIs + try: + import win32api + except ImportError: + return release,version,csd,ptype + from win32api import RegQueryValueEx,RegOpenKeyEx,RegCloseKey,GetVersionEx + from win32con import HKEY_LOCAL_MACHINE,VER_PLATFORM_WIN32_NT,\ + VER_PLATFORM_WIN32_WINDOWS + + # Find out the registry key and some general version infos + maj,min,buildno,plat,csd = GetVersionEx() + version = '%i.%i.%i' % (maj,min,buildno & 0xFFFF) + if csd[:13] == 'Service Pack ': + csd = 'SP' + csd[13:] + if plat == VER_PLATFORM_WIN32_WINDOWS: + regkey = 'SOFTWARE\\Microsoft\\Windows\\CurrentVersion' + # Try to guess the release name + if maj == 4: + if min == 0: + release = '95' + elif min == 10: + release = '98' + elif min == 90: + release = 'Me' + else: + release = 'postMe' + elif maj == 5: + release = '2000' + elif plat == VER_PLATFORM_WIN32_NT: + regkey = 'SOFTWARE\\Microsoft\\Windows NT\\CurrentVersion' + if maj <= 4: + release = 'NT' + elif maj == 5: + if min == 0: + release = '2000' + elif min == 1: + release = 'XP' + elif min == 2: + release = '2003Server' + else: + release = 'post2003' + else: + if not release: + # E.g. Win3.1 with win32s + release = '%i.%i' % (maj,min) + return release,version,csd,ptype + + # Open the registry key + try: + keyCurVer = RegOpenKeyEx(HKEY_LOCAL_MACHINE,regkey) + # Get a value to make sure the key exists... + RegQueryValueEx(keyCurVer,'SystemRoot') + except: + return release,version,csd,ptype + + # Parse values + #subversion = _win32_getvalue(keyCurVer, + # 'SubVersionNumber', + # ('',1))[0] + #if subversion: + # release = release + subversion # 95a, 95b, etc. + build = _win32_getvalue(keyCurVer, + 'CurrentBuildNumber', + ('',1))[0] + ptype = _win32_getvalue(keyCurVer, + 'CurrentType', + (ptype,1))[0] + + # Normalize version + version = _norm_version(version,build) + + # Close key + RegCloseKey(keyCurVer) + return release,version,csd,ptype + +def _mac_ver_lookup(selectors,default=None): + + from gestalt import gestalt + import MacOS + l = [] + append = l.append + for selector in selectors: + try: + append(gestalt(selector)) + except (RuntimeError, MacOS.Error): + append(default) + return l + +def _bcd2str(bcd): + + return hex(bcd)[2:] + +def mac_ver(release='',versioninfo=('','',''),machine=''): + + """ Get MacOS version information and return it as tuple (release, + versioninfo, machine) with versioninfo being a tuple (version, + dev_stage, non_release_version). + + Entries which cannot be determined are set to the paramter values + which default to ''. All tuple entries are strings. + + Thanks to Mark R. Levinson for mailing documentation links and + code examples for this function. Documentation for the + gestalt() API is available online at: + + http://www.rgaros.nl/gestalt/ + + """ + # Check whether the version info module is available + try: + import gestalt + import MacOS + except ImportError: + return release,versioninfo,machine + # Get the infos + sysv,sysu,sysa = _mac_ver_lookup(('sysv','sysu','sysa')) + # Decode the infos + if sysv: + major = (sysv & 0xFF00) >> 8 + minor = (sysv & 0x00F0) >> 4 + patch = (sysv & 0x000F) + release = '%s.%i.%i' % (_bcd2str(major),minor,patch) + if sysu: + major = int((sysu & 0xFF000000L) >> 24) + minor = (sysu & 0x00F00000) >> 20 + bugfix = (sysu & 0x000F0000) >> 16 + stage = (sysu & 0x0000FF00) >> 8 + nonrel = (sysu & 0x000000FF) + version = '%s.%i.%i' % (_bcd2str(major),minor,bugfix) + nonrel = _bcd2str(nonrel) + stage = {0x20:'development', + 0x40:'alpha', + 0x60:'beta', + 0x80:'final'}.get(stage,'') + versioninfo = (version,stage,nonrel) + if sysa: + machine = {0x1: '68k', + 0x2: 'PowerPC', + 0xa: 'i386'}.get(sysa,'') + return release,versioninfo,machine + +def _java_getprop(name,default): + + from java.lang import System + try: + return System.getProperty(name) + except: + return default + +def java_ver(release='',vendor='',vminfo=('','',''),osinfo=('','','')): + + """ Version interface for Jython. + + Returns a tuple (release,vendor,vminfo,osinfo) with vminfo being + a tuple (vm_name,vm_release,vm_vendor) and osinfo being a + tuple (os_name,os_version,os_arch). + + Values which cannot be determined are set to the defaults + given as parameters (which all default to ''). + + """ + # Import the needed APIs + try: + import java.lang + except ImportError: + return release,vendor,vminfo,osinfo + + vendor = _java_getprop('java.vendor',vendor) + release = _java_getprop('java.version',release) + vm_name,vm_release,vm_vendor = vminfo + vm_name = _java_getprop('java.vm.name',vm_name) + vm_vendor = _java_getprop('java.vm.vendor',vm_vendor) + vm_release = _java_getprop('java.vm.version',vm_release) + vminfo = vm_name,vm_release,vm_vendor + os_name,os_version,os_arch = osinfo + os_arch = _java_getprop('java.os.arch',os_arch) + os_name = _java_getprop('java.os.name',os_name) + os_version = _java_getprop('java.os.version',os_version) + osinfo = os_name,os_version,os_arch + + return release,vendor,vminfo,osinfo + +### System name aliasing + +def system_alias(system,release,version): + + """ Returns (system,release,version) aliased to common + marketing names used for some systems. + + It also does some reordering of the information in some cases + where it would otherwise cause confusion. + + """ + if system == 'Rhapsody': + # Apple's BSD derivative + # XXX How can we determine the marketing release number ? + return 'MacOS X Server',system+release,version + + elif system == 'SunOS': + # Sun's OS + if release < '5': + # These releases use the old name SunOS + return system,release,version + # Modify release (marketing release = SunOS release - 3) + l = string.split(release,'.') + if l: + try: + major = int(l[0]) + except ValueError: + pass + else: + major = major - 3 + l[0] = str(major) + release = string.join(l,'.') + if release < '6': + system = 'Solaris' + else: + # XXX Whatever the new SunOS marketing name is... + system = 'Solaris' + + elif system == 'IRIX64': + # IRIX reports IRIX64 on platforms with 64-bit support; yet it + # is really a version and not a different platform, since 32-bit + # apps are also supported.. + system = 'IRIX' + if version: + version = version + ' (64bit)' + else: + version = '64bit' + + elif system in ('win32','win16'): + # In case one of the other tricks + system = 'Windows' + + return system,release,version + +### Various internal helpers + +def _platform(*args): + + """ Helper to format the platform string in a filename + compatible format e.g. "system-version-machine". + """ + # Format the platform string + platform = string.join( + map(string.strip, + filter(len,args)), + '-') + + # Cleanup some possible filename obstacles... + replace = string.replace + platform = replace(platform,' ','_') + platform = replace(platform,'/','-') + platform = replace(platform,'\\','-') + platform = replace(platform,':','-') + platform = replace(platform,';','-') + platform = replace(platform,'"','-') + platform = replace(platform,'(','-') + platform = replace(platform,')','-') + + # No need to report 'unknown' information... + platform = replace(platform,'unknown','') + + # Fold '--'s and remove trailing '-' + while 1: + cleaned = replace(platform,'--','-') + if cleaned == platform: + break + platform = cleaned + while platform[-1] == '-': + platform = platform[:-1] + + return platform + +def _node(default=''): + + """ Helper to determine the node name of this machine. + """ + try: + import socket + except ImportError: + # No sockets... + return default + try: + return socket.gethostname() + except socket.error: + # Still not working... + return default + +# os.path.abspath is new in Python 1.5.2: +if not hasattr(os.path,'abspath'): + + def _abspath(path, + + isabs=os.path.isabs,join=os.path.join,getcwd=os.getcwd, + normpath=os.path.normpath): + + if not isabs(path): + path = join(getcwd(), path) + return normpath(path) + +else: + + _abspath = os.path.abspath + +def _follow_symlinks(filepath): + + """ In case filepath is a symlink, follow it until a + real file is reached. + """ + filepath = _abspath(filepath) + while os.path.islink(filepath): + filepath = os.path.normpath( + os.path.join(filepath,os.readlink(filepath))) + return filepath + +def _syscmd_uname(option,default=''): + + """ Interface to the system's uname command. + """ + if sys.platform in ('dos','win32','win16','os2'): + # XXX Others too ? + return default + try: + f = os.popen('uname %s 2> /dev/null' % option) + except (AttributeError,os.error): + return default + output = string.strip(f.read()) + rc = f.close() + if not output or rc: + return default + else: + return output + +def _syscmd_file(target,default=''): + + """ Interface to the system's file command. + + The function uses the -b option of the file command to have it + ommit the filename in its output and if possible the -L option + to have the command follow symlinks. It returns default in + case the command should fail. + + """ + target = _follow_symlinks(target) + try: + f = os.popen('file %s 2> /dev/null' % target) + except (AttributeError,os.error): + return default + output = string.strip(f.read()) + rc = f.close() + if not output or rc: + return default + else: + return output + +### Information about the used architecture + +# Default values for architecture; non-empty strings override the +# defaults given as parameters +_default_architecture = { + 'win32': ('','WindowsPE'), + 'win16': ('','Windows'), + 'dos': ('','MSDOS'), +} + +_architecture_split = re.compile(r'[\s,]').split + +def architecture(executable=sys.executable,bits='',linkage=''): + + """ Queries the given executable (defaults to the Python interpreter + binary) for various architecture information. + + Returns a tuple (bits,linkage) which contains information about + the bit architecture and the linkage format used for the + executable. Both values are returned as strings. + + Values that cannot be determined are returned as given by the + parameter presets. If bits is given as '', the sizeof(pointer) + (or sizeof(long) on Python version < 1.5.2) is used as + indicator for the supported pointer size. + + The function relies on the system's "file" command to do the + actual work. This is available on most if not all Unix + platforms. On some non-Unix platforms where the "file" command + does not exist and the executable is set to the Python interpreter + binary defaults from _default_architecture are used. + + """ + # Use the sizeof(pointer) as default number of bits if nothing + # else is given as default. + if not bits: + import struct + try: + size = struct.calcsize('P') + except struct.error: + # Older installations can only query longs + size = struct.calcsize('l') + bits = str(size*8) + 'bit' + + # Get data from the 'file' system command + output = _syscmd_file(executable,'') + + if not output and \ + executable == sys.executable: + # "file" command did not return anything; we'll try to provide + # some sensible defaults then... + if _default_architecture.has_key(sys.platform): + b,l = _default_architecture[sys.platform] + if b: + bits = b + if l: + linkage = l + return bits,linkage + + # Split the output into a list of strings omitting the filename + fileout = _architecture_split(output)[1:] + + if 'executable' not in fileout: + # Format not supported + return bits,linkage + + # Bits + if '32-bit' in fileout: + bits = '32bit' + elif 'N32' in fileout: + # On Irix only + bits = 'n32bit' + elif '64-bit' in fileout: + bits = '64bit' + + # Linkage + if 'ELF' in fileout: + linkage = 'ELF' + elif 'PE' in fileout: + # E.g. Windows uses this format + if 'Windows' in fileout: + linkage = 'WindowsPE' + else: + linkage = 'PE' + elif 'COFF' in fileout: + linkage = 'COFF' + elif 'MS-DOS' in fileout: + linkage = 'MSDOS' + else: + # XXX the A.OUT format also falls under this class... + pass + + return bits,linkage + +### Portable uname() interface + +_uname_cache = None + +def uname(): + + """ Fairly portable uname interface. Returns a tuple + of strings (system,node,release,version,machine,processor) + identifying the underlying platform. + + Note that unlike the os.uname function this also returns + possible processor information as an additional tuple entry. + + Entries which cannot be determined are set to ''. + + """ + global _uname_cache + + if _uname_cache is not None: + return _uname_cache + + # Get some infos from the builtin os.uname API... + try: + system,node,release,version,machine = os.uname() + + except AttributeError: + # Hmm, no uname... we'll have to poke around the system then. + system = sys.platform + release = '' + version = '' + node = _node() + machine = '' + processor = '' + use_syscmd_ver = 1 + + # Try win32_ver() on win32 platforms + if system == 'win32': + release,version,csd,ptype = win32_ver() + if release and version: + use_syscmd_ver = 0 + + # Try the 'ver' system command available on some + # platforms + if use_syscmd_ver: + system,release,version = _syscmd_ver(system) + # Normalize system to what win32_ver() normally returns + # (_syscmd_ver() tends to return the vendor name as well) + if system == 'Microsoft Windows': + system = 'Windows' + + # In case we still don't know anything useful, we'll try to + # help ourselves + if system in ('win32','win16'): + if not version: + if system == 'win32': + version = '32bit' + else: + version = '16bit' + system = 'Windows' + + elif system[:4] == 'java': + release,vendor,vminfo,osinfo = java_ver() + system = 'Java' + version = string.join(vminfo,', ') + if not version: + version = vendor + + elif os.name == 'mac': + release,(version,stage,nonrel),machine = mac_ver() + system = 'MacOS' + + else: + # System specific extensions + if system == 'OpenVMS': + # OpenVMS seems to have release and version mixed up + if not release or release == '0': + release = version + version = '' + # Get processor information + try: + import vms_lib + except ImportError: + pass + else: + csid, cpu_number = vms_lib.getsyi('SYI$_CPU',0) + if (cpu_number >= 128): + processor = 'Alpha' + else: + processor = 'VAX' + else: + # Get processor information from the uname system command + processor = _syscmd_uname('-p','') + + # 'unknown' is not really any useful as information; we'll convert + # it to '' which is more portable + if system == 'unknown': + system = '' + if node == 'unknown': + node = '' + if release == 'unknown': + release = '' + if version == 'unknown': + version = '' + if machine == 'unknown': + machine = '' + if processor == 'unknown': + processor = '' + _uname_cache = system,node,release,version,machine,processor + return _uname_cache + +### Direct interfaces to some of the uname() return values + +def system(): + + """ Returns the system/OS name, e.g. 'Linux', 'Windows' or 'Java'. + + An empty string is returned if the value cannot be determined. + + """ + return uname()[0] + +def node(): + + """ Returns the computer's network name (which may not be fully + qualified) + + An empty string is returned if the value cannot be determined. + + """ + return uname()[1] + +def release(): + + """ Returns the system's release, e.g. '2.2.0' or 'NT' + + An empty string is returned if the value cannot be determined. + + """ + return uname()[2] + +def version(): + + """ Returns the system's release version, e.g. '#3 on degas' + + An empty string is returned if the value cannot be determined. + + """ + return uname()[3] + +def machine(): + + """ Returns the machine type, e.g. 'i386' + + An empty string is returned if the value cannot be determined. + + """ + return uname()[4] + +def processor(): + + """ Returns the (true) processor name, e.g. 'amdk6' + + An empty string is returned if the value cannot be + determined. Note that many platforms do not provide this + information or simply return the same value as for machine(), + e.g. NetBSD does this. + + """ + return uname()[5] + +### Various APIs for extracting information from sys.version + +_sys_version_parser = re.compile(r'([\w.+]+)\s*' + '\(#?([^,]+),\s*([\w ]+),\s*([\w :]+)\)\s*' + '\[([^\]]+)\]?') +_sys_version_cache = None + +def _sys_version(): + + """ Returns a parsed version of Python's sys.version as tuple + (version, buildno, builddate, compiler) referring to the Python + version, build number, build date/time as string and the compiler + identification string. + + Note that unlike the Python sys.version, the returned value + for the Python version will always include the patchlevel (it + defaults to '.0'). + + """ + global _sys_version_cache + + if _sys_version_cache is not None: + return _sys_version_cache + version, buildno, builddate, buildtime, compiler = \ + _sys_version_parser.match(sys.version).groups() + builddate = builddate + ' ' + buildtime + l = string.split(version, '.') + if len(l) == 2: + l.append('0') + version = string.join(l, '.') + _sys_version_cache = (version, buildno, builddate, compiler) + return _sys_version_cache + +def python_version(): + + """ Returns the Python version as string 'major.minor.patchlevel' + + Note that unlike the Python sys.version, the returned value + will always include the patchlevel (it defaults to 0). + + """ + return _sys_version()[0] + +def python_version_tuple(): + + """ Returns the Python version as tuple (major, minor, patchlevel) + of strings. + + Note that unlike the Python sys.version, the returned value + will always include the patchlevel (it defaults to 0). + + """ + return string.split(_sys_version()[0], '.') + +def python_build(): + + """ Returns a tuple (buildno, builddate) stating the Python + build number and date as strings. + + """ + return _sys_version()[1:3] + +def python_compiler(): + + """ Returns a string identifying the compiler used for compiling + Python. + + """ + return _sys_version()[3] + +### The Opus Magnum of platform strings :-) + +_platform_cache = {} + +def platform(aliased=0, terse=0): + + """ Returns a single string identifying the underlying platform + with as much useful information as possible (but no more :). + + The output is intended to be human readable rather than + machine parseable. It may look different on different + platforms and this is intended. + + If "aliased" is true, the function will use aliases for + various platforms that report system names which differ from + their common names, e.g. SunOS will be reported as + Solaris. The system_alias() function is used to implement + this. + + Setting terse to true causes the function to return only the + absolute minimum information needed to identify the platform. + + """ + result = _platform_cache.get((aliased, terse), None) + if result is not None: + return result + + # Get uname information and then apply platform specific cosmetics + # to it... + system,node,release,version,machine,processor = uname() + if machine == processor: + processor = '' + if aliased: + system,release,version = system_alias(system,release,version) + + if system == 'Windows': + # MS platforms + rel,vers,csd,ptype = win32_ver(version) + if terse: + platform = _platform(system,release) + else: + platform = _platform(system,release,version,csd) + + elif system in ('Linux',): + # Linux based systems + distname,distversion,distid = dist('') + if distname and not terse: + platform = _platform(system,release,machine,processor, + 'with', + distname,distversion,distid) + else: + # If the distribution name is unknown check for libc vs. glibc + libcname,libcversion = libc_ver(sys.executable) + platform = _platform(system,release,machine,processor, + 'with', + libcname+libcversion) + elif system == 'Java': + # Java platforms + r,v,vminfo,(os_name,os_version,os_arch) = java_ver() + if terse: + platform = _platform(system,release,version) + else: + platform = _platform(system,release,version, + 'on', + os_name,os_version,os_arch) + + elif system == 'MacOS': + # MacOS platforms + if terse: + platform = _platform(system,release) + else: + platform = _platform(system,release,machine) + + else: + # Generic handler + if terse: + platform = _platform(system,release) + else: + bits,linkage = architecture(sys.executable) + platform = _platform(system,release,machine,processor,bits,linkage) + + _platform_cache[(aliased, terse)] = platform + return platform + +### Command line interface + +if __name__ == '__main__': + # Default is to print the aliased verbose platform string + terse = ('terse' in sys.argv or '--terse' in sys.argv) + aliased = (not 'nonaliased' in sys.argv and not '--nonaliased' in sys.argv) + print platform(aliased,terse) + sys.exit(0) diff --git a/Tools/pybench/pybench-2.0/pybench.py b/Tools/pybench/pybench-2.0/pybench.py new file mode 100755 index 0000000..8ff16c5 --- /dev/null +++ b/Tools/pybench/pybench-2.0/pybench.py @@ -0,0 +1,938 @@ +#!/usr/local/bin/python -O + +""" A Python Benchmark Suite + +""" +# +# Note: Please keep this module compatible to Python 1.5.2. +# +# Tests may include features in later Python versions, but these +# should then be embedded in try-except clauses in the configuration +# module Setup.py. +# + +# pybench Copyright +__copyright__ = """\ +Copyright (c), 1997-2006, Marc-Andre Lemburg (mal@lemburg.com) +Copyright (c), 2000-2006, eGenix.com Software GmbH (info@egenix.com) + + All Rights Reserved. + +Permission to use, copy, modify, and distribute this software and its +documentation for any purpose and without fee or royalty is hereby +granted, provided that the above copyright notice appear in all copies +and that both that copyright notice and this permission notice appear +in supporting documentation or portions thereof, including +modifications, that you make. + +THE AUTHOR MARC-ANDRE LEMBURG DISCLAIMS ALL WARRANTIES WITH REGARD TO +THIS SOFTWARE, INCLUDING ALL IMPLIED WARRANTIES OF MERCHANTABILITY AND +FITNESS, IN NO EVENT SHALL THE AUTHOR BE LIABLE FOR ANY SPECIAL, +INDIRECT OR CONSEQUENTIAL DAMAGES OR ANY DAMAGES WHATSOEVER RESULTING +FROM LOSS OF USE, DATA OR PROFITS, WHETHER IN AN ACTION OF CONTRACT, +NEGLIGENCE OR OTHER TORTIOUS ACTION, ARISING OUT OF OR IN CONNECTION +WITH THE USE OR PERFORMANCE OF THIS SOFTWARE ! +""" + +import sys, time, operator, string +from CommandLine import * + +try: + import cPickle + pickle = cPickle +except ImportError: + import pickle + +# Version number; version history: see README file ! +__version__ = '2.0' + +### Constants + +# Second fractions +MILLI_SECONDS = 1e3 +MICRO_SECONDS = 1e6 + +# Percent unit +PERCENT = 100 + +# Horizontal line length +LINE = 79 + +# Minimum test run-time +MIN_TEST_RUNTIME = 1e-3 + +# Number of calibration runs to use for calibrating the tests +CALIBRATION_RUNS = 20 + +# Number of calibration loops to run for each calibration run +CALIBRATION_LOOPS = 20 + +# Allow skipping calibration ? +ALLOW_SKIPPING_CALIBRATION = 1 + +# Timer types +TIMER_TIME_TIME = 'time.time' +TIMER_TIME_CLOCK = 'time.clock' +TIMER_SYSTIMES_PROCESSTIME = 'systimes.processtime' + +# Choose platform default timer +if sys.platform[:3] == 'win': + # On WinXP this has 2.5ms resolution + TIMER_PLATFORM_DEFAULT = TIMER_TIME_CLOCK +else: + # On Linux this has 1ms resolution + TIMER_PLATFORM_DEFAULT = TIMER_TIME_TIME + +# Print debug information ? +_debug = 0 + +### Helpers + +def get_timer(timertype): + + if timertype == TIMER_TIME_TIME: + return time.time + elif timertype == TIMER_TIME_CLOCK: + return time.clock + elif timertype == TIMER_SYSTIMES_PROCESSTIME: + import systimes + return systimes.processtime + else: + raise TypeError('unknown timer type: %s' % timertype) + +def get_machine_details(): + + import platform + if _debug: + print 'Getting machine details...' + buildno, builddate = platform.python_build() + python = platform.python_version() + if python > '2.0': + try: + unichr(100000) + except ValueError: + # UCS2 build (standard) + unicode = 'UCS2' + else: + # UCS4 build (most recent Linux distros) + unicode = 'UCS4' + else: + unicode = None + bits, linkage = platform.architecture() + return { + 'platform': platform.platform(), + 'processor': platform.processor(), + 'executable': sys.executable, + 'python': platform.python_version(), + 'compiler': platform.python_compiler(), + 'buildno': buildno, + 'builddate': builddate, + 'unicode': unicode, + 'bits': bits, + } + +def print_machine_details(d, indent=''): + + l = ['Machine Details:', + ' Platform ID: %s' % d.get('platform', 'n/a'), + ' Processor: %s' % d.get('processor', 'n/a'), + '', + 'Python:', + ' Executable: %s' % d.get('executable', 'n/a'), + ' Version: %s' % d.get('python', 'n/a'), + ' Compiler: %s' % d.get('compiler', 'n/a'), + ' Bits: %s' % d.get('bits', 'n/a'), + ' Build: %s (#%s)' % (d.get('builddate', 'n/a'), + d.get('buildno', 'n/a')), + ' Unicode: %s' % d.get('unicode', 'n/a'), + ] + print indent + string.join(l, '\n' + indent) + '\n' + +### Test baseclass + +class Test: + + """ All test must have this class as baseclass. It provides + the necessary interface to the benchmark machinery. + + The tests must set .rounds to a value high enough to let the + test run between 20-50 seconds. This is needed because + clock()-timing only gives rather inaccurate values (on Linux, + for example, it is accurate to a few hundreths of a + second). If you don't want to wait that long, use a warp + factor larger than 1. + + It is also important to set the .operations variable to a + value representing the number of "virtual operations" done per + call of .run(). + + If you change a test in some way, don't forget to increase + it's version number. + + """ + + ### Instance variables that each test should override + + # Version number of the test as float (x.yy); this is important + # for comparisons of benchmark runs - tests with unequal version + # number will not get compared. + version = 2.0 + + # The number of abstract operations done in each round of the + # test. An operation is the basic unit of what you want to + # measure. The benchmark will output the amount of run-time per + # operation. Note that in order to raise the measured timings + # significantly above noise level, it is often required to repeat + # sets of operations more than once per test round. The measured + # overhead per test round should be less than 1 second. + operations = 1 + + # Number of rounds to execute per test run. This should be + # adjusted to a figure that results in a test run-time of between + # 1-2 seconds. + rounds = 100000 + + ### Internal variables + + # Mark this class as implementing a test + is_a_test = 1 + + # Last timing: (real, run, overhead) + last_timing = (0.0, 0.0, 0.0) + + # Warp factor to use for this test + warp = 1 + + # Number of calibration runs to use + calibration_runs = CALIBRATION_RUNS + + # List of calibration timings + overhead_times = None + + # List of test run timings + times = [] + + # Timer used for the benchmark + timer = TIMER_PLATFORM_DEFAULT + + def __init__(self, warp=None, calibration_runs=None, timer=None): + + # Set parameters + if warp is not None: + self.rounds = int(self.rounds / warp) + if self.rounds == 0: + raise ValueError('warp factor set too high') + self.warp = warp + if calibration_runs is not None: + if (not ALLOW_SKIPPING_CALIBRATION and + calibration_runs < 1): + raise ValueError('at least one calibration run is required') + self.calibration_runs = calibration_runs + if timer is not None: + timer = timer + + # Init variables + self.times = [] + self.overhead_times = [] + + # We want these to be in the instance dict, so that pickle + # saves them + self.version = self.version + self.operations = self.operations + self.rounds = self.rounds + + def get_timer(self): + + """ Return the timer function to use for the test. + + """ + return get_timer(self.timer) + + def compatible(self, other): + + """ Return 1/0 depending on whether the test is compatible + with the other Test instance or not. + + """ + if self.version != other.version: + return 0 + if self.rounds != other.rounds: + return 0 + return 1 + + def calibrate_test(self): + + if self.calibration_runs == 0: + self.overhead_times = [0.0] + return + + calibrate = self.calibrate + timer = self.get_timer() + calibration_loops = range(CALIBRATION_LOOPS) + + # Time the calibration loop overhead + prep_times = [] + for i in range(self.calibration_runs): + t = timer() + for i in calibration_loops: + pass + t = timer() - t + prep_times.append(t) + min_prep_time = min(prep_times) + if _debug: + print + print 'Calib. prep time = %.6fms' % ( + min_prep_time * MILLI_SECONDS) + + # Time the calibration runs (doing CALIBRATION_LOOPS loops of + # .calibrate() method calls each) + for i in range(self.calibration_runs): + t = timer() + for i in calibration_loops: + calibrate() + t = timer() - t + self.overhead_times.append(t / CALIBRATION_LOOPS + - min_prep_time) + + # Check the measured times + min_overhead = min(self.overhead_times) + max_overhead = max(self.overhead_times) + if _debug: + print 'Calib. overhead time = %.6fms' % ( + min_overhead * MILLI_SECONDS) + if min_overhead < 0.0: + raise ValueError('calibration setup did not work') + if max_overhead - min_overhead > 0.1: + raise ValueError( + 'overhead calibration timing range too inaccurate: ' + '%r - %r' % (min_overhead, max_overhead)) + + def run(self): + + """ Run the test in two phases: first calibrate, then + do the actual test. Be careful to keep the calibration + timing low w/r to the test timing. + + """ + test = self.test + timer = self.get_timer() + + # Get calibration + min_overhead = min(self.overhead_times) + + # Test run + t = timer() + test() + t = timer() - t + if t < MIN_TEST_RUNTIME: + raise ValueError('warp factor too high: ' + 'test times are < 10ms') + eff_time = t - min_overhead + if eff_time < 0: + raise ValueError('wrong calibration') + self.last_timing = (eff_time, t, min_overhead) + self.times.append(eff_time) + + def calibrate(self): + + """ Calibrate the test. + + This method should execute everything that is needed to + setup and run the test - except for the actual operations + that you intend to measure. pybench uses this method to + measure the test implementation overhead. + + """ + return + + def test(self): + + """ Run the test. + + The test needs to run self.rounds executing + self.operations number of operations each. + + """ + return + + def stat(self): + + """ Return test run statistics as tuple: + + (minimum run time, + average run time, + total run time, + average time per operation, + minimum overhead time) + + """ + runs = len(self.times) + if runs == 0: + return 0.0, 0.0, 0.0, 0.0 + min_time = min(self.times) + total_time = reduce(operator.add, self.times, 0.0) + avg_time = total_time / float(runs) + operation_avg = total_time / float(runs + * self.rounds + * self.operations) + if self.overhead_times: + min_overhead = min(self.overhead_times) + else: + min_overhead = self.last_timing[2] + return min_time, avg_time, total_time, operation_avg, min_overhead + +### Load Setup + +# This has to be done after the definition of the Test class, since +# the Setup module will import subclasses using this class. + +import Setup + +### Benchmark base class + +class Benchmark: + + # Name of the benchmark + name = '' + + # Number of benchmark rounds to run + rounds = 1 + + # Warp factor use to run the tests + warp = 1 # Warp factor + + # Average benchmark round time + roundtime = 0 + + # Benchmark version number as float x.yy + version = 2.0 + + # Produce verbose output ? + verbose = 0 + + # Dictionary with the machine details + machine_details = None + + # Timer used for the benchmark + timer = TIMER_PLATFORM_DEFAULT + + def __init__(self, name, verbose=None, timer=None, warp=None, + calibration_runs=None): + + if name: + self.name = name + else: + self.name = '%04i-%02i-%02i %02i:%02i:%02i' % \ + (time.localtime(time.time())[:6]) + if verbose is not None: + self.verbose = verbose + if timer is not None: + self.timer = timer + if warp is not None: + self.warp = warp + if calibration_runs is not None: + self.calibration_runs = calibration_runs + + # Init vars + self.tests = {} + if _debug: + print 'Getting machine details...' + self.machine_details = get_machine_details() + + # Make .version an instance attribute to have it saved in the + # Benchmark pickle + self.version = self.version + + def get_timer(self): + + """ Return the timer function to use for the test. + + """ + return get_timer(self.timer) + + def compatible(self, other): + + """ Return 1/0 depending on whether the benchmark is + compatible with the other Benchmark instance or not. + + """ + if self.version != other.version: + return 0 + if (self.machine_details == other.machine_details and + self.timer != other.timer): + return 0 + if (self.calibration_runs == 0 and + other.calibration_runs != 0): + return 0 + if (self.calibration_runs != 0 and + other.calibration_runs == 0): + return 0 + return 1 + + def load_tests(self, setupmod, limitnames=None): + + # Add tests + if self.verbose: + print 'Searching for tests ...' + print '--------------------------------------' + for testclass in setupmod.__dict__.values(): + if not hasattr(testclass, 'is_a_test'): + continue + name = testclass.__name__ + if name == 'Test': + continue + if (limitnames is not None and + limitnames.search(name) is None): + continue + self.tests[name] = testclass( + warp=self.warp, + calibration_runs=self.calibration_runs, + timer=self.timer) + l = self.tests.keys() + l.sort() + if self.verbose: + for name in l: + print ' %s' % name + print '--------------------------------------' + print ' %i tests found' % len(l) + print + + def calibrate(self): + + print 'Calibrating tests. Please wait...' + if self.verbose: + print + print 'Test min max' + print '-' * LINE + tests = self.tests.items() + tests.sort() + for i in range(len(tests)): + name, test = tests[i] + test.calibrate_test() + if self.verbose: + print '%30s: %6.3fms %6.3fms' % \ + (name, + min(test.overhead_times) * MILLI_SECONDS, + max(test.overhead_times) * MILLI_SECONDS) + print + + def run(self): + + tests = self.tests.items() + tests.sort() + timer = self.get_timer() + print 'Running %i round(s) of the suite at warp factor %i:' % \ + (self.rounds, self.warp) + print + self.roundtimes = [] + for i in range(self.rounds): + if self.verbose: + print ' Round %-25i effective absolute overhead' % (i+1) + total_eff_time = 0.0 + for j in range(len(tests)): + name, test = tests[j] + if self.verbose: + print '%30s:' % name, + test.run() + (eff_time, abs_time, min_overhead) = test.last_timing + total_eff_time = total_eff_time + eff_time + if self.verbose: + print ' %5.0fms %5.0fms %7.3fms' % \ + (eff_time * MILLI_SECONDS, + abs_time * MILLI_SECONDS, + min_overhead * MILLI_SECONDS) + self.roundtimes.append(total_eff_time) + if self.verbose: + print (' ' + ' ------------------------------') + print (' ' + ' Totals: %6.0fms' % + (total_eff_time * MILLI_SECONDS)) + print + else: + print '* Round %i done in %.3f seconds.' % (i+1, + total_eff_time) + print + + def stat(self): + + """ Return benchmark run statistics as tuple: + + (minimum round time, + average round time, + maximum round time) + + XXX Currently not used, since the benchmark does test + statistics across all rounds. + + """ + runs = len(self.roundtimes) + if runs == 0: + return 0.0, 0.0 + min_time = min(self.roundtimes) + total_time = reduce(operator.add, self.roundtimes, 0.0) + avg_time = total_time / float(runs) + max_time = max(self.roundtimes) + return (min_time, avg_time, max_time) + + def print_header(self, title='Benchmark'): + + print '-' * LINE + print '%s: %s' % (title, self.name) + print '-' * LINE + print + print ' Rounds: %s' % self.rounds + print ' Warp: %s' % self.warp + print ' Timer: %s' % self.timer + print + if self.machine_details: + print_machine_details(self.machine_details, indent=' ') + print + + def print_benchmark(self, hidenoise=0, limitnames=None): + + print ('Test ' + ' minimum average operation overhead') + print '-' * LINE + tests = self.tests.items() + tests.sort() + total_min_time = 0.0 + total_avg_time = 0.0 + for name, test in tests: + if (limitnames is not None and + limitnames.search(name) is None): + continue + (min_time, + avg_time, + total_time, + op_avg, + min_overhead) = test.stat() + total_min_time = total_min_time + min_time + total_avg_time = total_avg_time + avg_time + print '%30s: %5.0fms %5.0fms %6.2fus %7.3fms' % \ + (name, + min_time * MILLI_SECONDS, + avg_time * MILLI_SECONDS, + op_avg * MICRO_SECONDS, + min_overhead *MILLI_SECONDS) + print '-' * LINE + print ('Totals: ' + ' %6.0fms %6.0fms' % + (total_min_time * MILLI_SECONDS, + total_avg_time * MILLI_SECONDS, + )) + print + + def print_comparison(self, compare_to, hidenoise=0, limitnames=None): + + # Check benchmark versions + if compare_to.version != self.version: + print ('* Benchmark versions differ: ' + 'cannot compare this benchmark to "%s" !' % + compare_to.name) + print + self.print_benchmark(hidenoise=hidenoise, + limitnames=limitnames) + return + + # Print header + compare_to.print_header('Comparing with') + print ('Test ' + ' minimum run-time average run-time') + print (' ' + ' this other diff this other diff') + print '-' * LINE + + # Print test comparisons + tests = self.tests.items() + tests.sort() + total_min_time = other_total_min_time = 0.0 + total_avg_time = other_total_avg_time = 0.0 + benchmarks_compatible = self.compatible(compare_to) + tests_compatible = 1 + for name, test in tests: + if (limitnames is not None and + limitnames.search(name) is None): + continue + (min_time, + avg_time, + total_time, + op_avg, + min_overhead) = test.stat() + total_min_time = total_min_time + min_time + total_avg_time = total_avg_time + avg_time + try: + other = compare_to.tests[name] + except KeyError: + other = None + if other is None: + # Other benchmark doesn't include the given test + min_diff, avg_diff = 'n/a', 'n/a' + other_min_time = 0.0 + other_avg_time = 0.0 + tests_compatible = 0 + else: + (other_min_time, + other_avg_time, + other_total_time, + other_op_avg, + other_min_overhead) = other.stat() + other_total_min_time = other_total_min_time + other_min_time + other_total_avg_time = other_total_avg_time + other_avg_time + if (benchmarks_compatible and + test.compatible(other)): + # Both benchmark and tests are comparible + min_diff = ((min_time * self.warp) / + (other_min_time * other.warp) - 1.0) + avg_diff = ((avg_time * self.warp) / + (other_avg_time * other.warp) - 1.0) + if hidenoise and abs(min_diff) < 10.0: + min_diff = '' + else: + min_diff = '%+5.1f%%' % (min_diff * PERCENT) + if hidenoise and abs(avg_diff) < 10.0: + avg_diff = '' + else: + avg_diff = '%+5.1f%%' % (avg_diff * PERCENT) + else: + # Benchmark or tests are not comparible + min_diff, avg_diff = 'n/a', 'n/a' + tests_compatible = 0 + print '%30s: %5.0fms %5.0fms %7s %5.0fms %5.0fms %7s' % \ + (name, + min_time * MILLI_SECONDS, + other_min_time * MILLI_SECONDS * compare_to.warp / self.warp, + min_diff, + avg_time * MILLI_SECONDS, + other_avg_time * MILLI_SECONDS * compare_to.warp / self.warp, + avg_diff) + print '-' * LINE + + # Summarise test results + if not benchmarks_compatible or not tests_compatible: + min_diff, avg_diff = 'n/a', 'n/a' + else: + if other_total_min_time != 0.0: + min_diff = '%+5.1f%%' % ( + ((total_min_time * self.warp) / + (other_total_min_time * compare_to.warp) - 1.0) * PERCENT) + else: + min_diff = 'n/a' + if other_total_avg_time != 0.0: + avg_diff = '%+5.1f%%' % ( + ((total_avg_time * self.warp) / + (other_total_avg_time * compare_to.warp) - 1.0) * PERCENT) + else: + avg_diff = 'n/a' + print ('Totals: ' + ' %5.0fms %5.0fms %7s %5.0fms %5.0fms %7s' % + (total_min_time * MILLI_SECONDS, + (other_total_min_time * compare_to.warp/self.warp + * MILLI_SECONDS), + min_diff, + total_avg_time * MILLI_SECONDS, + (other_total_avg_time * compare_to.warp/self.warp + * MILLI_SECONDS), + avg_diff + )) + print + print '(this=%s, other=%s)' % (self.name, + compare_to.name) + print + +class PyBenchCmdline(Application): + + header = ("PYBENCH - a benchmark test suite for Python " + "interpreters/compilers.") + + version = __version__ + + debug = _debug + + options = [ArgumentOption('-n', + 'number of rounds', + Setup.Number_of_rounds), + ArgumentOption('-f', + 'save benchmark to file arg', + ''), + ArgumentOption('-c', + 'compare benchmark with the one in file arg', + ''), + ArgumentOption('-s', + 'show benchmark in file arg, then exit', + ''), + ArgumentOption('-w', + 'set warp factor to arg', + Setup.Warp_factor), + ArgumentOption('-t', + 'run only tests with names matching arg', + ''), + ArgumentOption('-C', + 'set the number of calibration runs to arg', + CALIBRATION_RUNS), + SwitchOption('-d', + 'hide noise in comparisons', + 0), + SwitchOption('-v', + 'verbose output (not recommended)', + 0), + SwitchOption('--with-gc', + 'enable garbage collection', + 0), + SwitchOption('--with-syscheck', + 'use default sys check interval', + 0), + ArgumentOption('--timer', + 'use given timer', + TIMER_PLATFORM_DEFAULT), + ] + + about = """\ +The normal operation is to run the suite and display the +results. Use -f to save them for later reuse or comparisons. + +Available timers: + + time.time + time.clock + systimes.processtime + +Examples: + +python2.1 pybench.py -f p21.pybench +python2.5 pybench.py -f p25.pybench +python pybench.py -s p25.pybench -c p21.pybench +""" + copyright = __copyright__ + + def main(self): + + rounds = self.values['-n'] + reportfile = self.values['-f'] + show_bench = self.values['-s'] + compare_to = self.values['-c'] + hidenoise = self.values['-d'] + warp = int(self.values['-w']) + withgc = self.values['--with-gc'] + limitnames = self.values['-t'] + if limitnames: + if _debug: + print '* limiting test names to one with substring "%s"' % \ + limitnames + limitnames = re.compile(limitnames, re.I) + else: + limitnames = None + verbose = self.verbose + withsyscheck = self.values['--with-syscheck'] + calibration_runs = self.values['-C'] + timer = self.values['--timer'] + + print '-' * LINE + print 'PYBENCH %s' % __version__ + print '-' * LINE + print '* using Python %s' % (string.split(sys.version)[0]) + + # Switch off garbage collection + if not withgc: + try: + import gc + except ImportError: + print '* Python version doesn\'t support garbage collection' + else: + gc.disable() + print '* disabled garbage collection' + + # "Disable" sys check interval + if not withsyscheck: + # Too bad the check interval uses an int instead of a long... + value = 2147483647 + sys.setcheckinterval(value) + print '* system check interval set to maximum: %s' % value + + if timer == TIMER_SYSTIMES_PROCESSTIME: + import systimes + print '* using timer: systimes.processtime (%s)' % \ + systimes.SYSTIMES_IMPLEMENTATION + else: + print '* using timer: %s' % timer + + print + + if compare_to: + try: + f = open(compare_to,'rb') + bench = pickle.load(f) + bench.name = compare_to + f.close() + compare_to = bench + except IOError, reason: + print '* Error opening/reading file %s: %s' % ( + repr(compare_to), + reason) + compare_to = None + + if show_bench: + try: + f = open(show_bench,'rb') + bench = pickle.load(f) + bench.name = show_bench + f.close() + bench.print_header() + if compare_to: + bench.print_comparison(compare_to, + hidenoise=hidenoise, + limitnames=limitnames) + else: + bench.print_benchmark(hidenoise=hidenoise, + limitnames=limitnames) + except IOError: + print '* Error opening/reading file %s: %s' % ( + repr(show_bench), + reason) + print + return + + if reportfile: + print 'Creating benchmark: %s (rounds=%i, warp=%i)' % \ + (reportfile, rounds, warp) + print + + # Create benchmark object + bench = Benchmark(reportfile, + verbose=verbose, + timer=timer, + warp=warp, + calibration_runs=calibration_runs) + bench.rounds = rounds + bench.load_tests(Setup, limitnames=limitnames) + try: + bench.calibrate() + bench.run() + except KeyboardInterrupt: + print + print '*** KeyboardInterrupt -- Aborting' + print + return + bench.print_header() + if compare_to: + bench.print_comparison(compare_to, + hidenoise=hidenoise, + limitnames=limitnames) + else: + bench.print_benchmark(hidenoise=hidenoise, + limitnames=limitnames) + + # Ring bell + sys.stderr.write('\007') + + if reportfile: + try: + f = open(reportfile,'wb') + bench.name = reportfile + pickle.dump(bench,f) + f.close() + except IOError: + print '* Error opening/writing reportfile' + +if __name__ == '__main__': + PyBenchCmdline() diff --git a/Tools/pybench/pybench-2.0/systimes.py b/Tools/pybench/pybench-2.0/systimes.py new file mode 100644 index 0000000..bf07e36 --- /dev/null +++ b/Tools/pybench/pybench-2.0/systimes.py @@ -0,0 +1,211 @@ +#!/usr/bin/env python + +""" systimes() user and system timer implementations for use by + pybench. + + This module implements various different strategies for measuring + performance timings. It tries to choose the best available method + based on the platforma and available tools. + + On Windows, it is recommended to have the Mark Hammond win32 + package installed. Alternatively, the Thomas Heller ctypes + packages can also be used. + + On Unix systems, the standard resource module provides the highest + resolution timings. Unfortunately, it is not available on all Unix + platforms. + + If no supported timing methods based on process time can be found, + the module reverts to the highest resolution wall-clock timer + instead. The system time part will then always be 0.0. + + The module exports one public API: + + def systimes(): + + Return the current timer values for measuring user and system + time as tuple of seconds (user_time, system_time). + + Copyright (c) 2006, Marc-Andre Lemburg (mal@egenix.com). See the + documentation for further information on copyrights, or contact + the author. All Rights Reserved. + +""" +import time, sys, struct + +# +# Note: Please keep this module compatible to Python 1.5.2. +# +# TODOs: +# +# * Add ctypes wrapper for new clock_gettime() real-time POSIX APIs; +# these will then provide nano-second resolution where available. +# +# * Add a function that returns the resolution of systimes() +# values, ie. systimesres(). +# + +### Choose an implementation + +SYSTIMES_IMPLEMENTATION = None +USE_CTYPES_GETPROCESSTIMES = 'cytpes GetProcessTimes() wrapper' +USE_WIN32PROCESS_GETPROCESSTIMES = 'win32process.GetProcessTimes()' +USE_RESOURCE_GETRUSAGE = 'resource.getrusage()' +USE_PROCESS_TIME_CLOCK = 'time.clock() (process time)' +USE_WALL_TIME_CLOCK = 'time.clock() (wall-clock)' +USE_WALL_TIME_TIME = 'time.time() (wall-clock)' + +if sys.platform[:3] == 'win': + # Windows platform + try: + import win32process + except ImportError: + try: + import ctypes + except ImportError: + # Use the wall-clock implementation time.clock(), since this + # is the highest resolution clock available on Windows + SYSTIMES_IMPLEMENTATION = USE_WALL_TIME_CLOCK + else: + SYSTIMES_IMPLEMENTATION = USE_CTYPES_GETPROCESSTIMES + else: + SYSTIMES_IMPLEMENTATION = USE_WIN32PROCESS_GETPROCESSTIMES +else: + # All other platforms + try: + import resource + except ImportError: + pass + else: + SYSTIMES_IMPLEMENTATION = USE_RESOURCE_GETRUSAGE + +# Fall-back solution +if SYSTIMES_IMPLEMENTATION is None: + # Check whether we can use time.clock() as approximation + # for systimes() + start = time.clock() + time.sleep(0.1) + stop = time.clock() + if stop - start < 0.001: + # Looks like time.clock() is usable (and measures process + # time) + SYSTIMES_IMPLEMENTATION = USE_PROCESS_TIME_CLOCK + else: + # Use wall-clock implementation time.time() since this provides + # the highest resolution clock on most systems + SYSTIMES_IMPLEMENTATION = USE_WALL_TIME_TIME + +### Implementations + +def getrusage_systimes(): + return resource.getrusage(resource.RUSAGE_SELF)[:2] + +def process_time_clock_systimes(): + return (time.clock(), 0.0) + +def wall_clock_clock_systimes(): + return (time.clock(), 0.0) + +def wall_clock_time_systimes(): + return (time.time(), 0.0) + +# Number of clock ticks per second for the values returned +# by GetProcessTimes() on Windows. +# +# Note: Ticks returned by GetProcessTimes() are 100ns intervals on +# Windows XP. However, the process times are only updated with every +# clock tick and the frequency of these is somewhat lower: depending +# on the OS version between 10ms and 15ms. Even worse, the process +# time seems to be allocated to process currently running when the +# clock interrupt arrives, ie. it is possible that the current time +# slice gets accounted to a different process. + +WIN32_PROCESS_TIMES_TICKS_PER_SECOND = 1e7 + +def win32process_getprocesstimes_systimes(): + d = win32process.GetProcessTimes(win32process.GetCurrentProcess()) + return (d['UserTime'] / WIN32_PROCESS_TIMES_TICKS_PER_SECOND, + d['KernelTime'] / WIN32_PROCESS_TIMES_TICKS_PER_SECOND) + +def ctypes_getprocesstimes_systimes(): + creationtime = ctypes.c_ulonglong() + exittime = ctypes.c_ulonglong() + kerneltime = ctypes.c_ulonglong() + usertime = ctypes.c_ulonglong() + rc = ctypes.windll.kernel32.GetProcessTimes( + ctypes.windll.kernel32.GetCurrentProcess(), + ctypes.byref(creationtime), + ctypes.byref(exittime), + ctypes.byref(kerneltime), + ctypes.byref(usertime)) + if not rc: + raise TypeError('GetProcessTimes() returned an error') + return (usertime.value / WIN32_PROCESS_TIMES_TICKS_PER_SECOND, + kerneltime.value / WIN32_PROCESS_TIMES_TICKS_PER_SECOND) + +# Select the default for the systimes() function + +if SYSTIMES_IMPLEMENTATION is USE_RESOURCE_GETRUSAGE: + systimes = getrusage_systimes + +elif SYSTIMES_IMPLEMENTATION is USE_PROCESS_TIME_CLOCK: + systimes = process_time_clock_systimes + +elif SYSTIMES_IMPLEMENTATION is USE_WALL_TIME_CLOCK: + systimes = wall_clock_clock_systimes + +elif SYSTIMES_IMPLEMENTATION is USE_WALL_TIME_TIME: + systimes = wall_clock_time_systimes + +elif SYSTIMES_IMPLEMENTATION is USE_WIN32PROCESS_GETPROCESSTIMES: + systimes = win32process_getprocesstimes_systimes + +elif SYSTIMES_IMPLEMENTATION is USE_CTYPES_GETPROCESSTIMES: + systimes = ctypes_getprocesstimes_systimes + +else: + raise TypeError('no suitable systimes() implementation found') + +def processtime(): + + """ Return the total time spent on the process. + + This is the sum of user and system time as returned by + systimes(). + + """ + user, system = systimes() + return user + system + +### Testing + +def some_workload(): + x = 0L + for i in xrange(10000000L): + x = x + 1L + +def test_workload(): + print 'Testing systimes() under load conditions' + t0 = systimes() + some_workload() + t1 = systimes() + print 'before:', t0 + print 'after:', t1 + print 'differences:', (t1[0] - t0[0], t1[1] - t0[1]) + print + +def test_idle(): + print 'Testing systimes() under idle conditions' + t0 = systimes() + time.sleep(1) + t1 = systimes() + print 'before:', t0 + print 'after:', t1 + print 'differences:', (t1[0] - t0[0], t1[1] - t0[1]) + print + +if __name__ == '__main__': + print 'Using %s as timer' % SYSTIMES_IMPLEMENTATION + print + test_workload() + test_idle() |