diff options
Diffstat (limited to 'Tools/pybench')
-rw-r--r-- | Tools/pybench/Arithmetic.py | 777 | ||||
-rw-r--r-- | Tools/pybench/Calls.py | 560 | ||||
-rw-r--r-- | Tools/pybench/CommandLine.py | 642 | ||||
-rw-r--r-- | Tools/pybench/Constructs.py | 564 | ||||
-rw-r--r-- | Tools/pybench/Dict.py | 504 | ||||
-rw-r--r-- | Tools/pybench/Exceptions.py | 699 | ||||
-rw-r--r-- | Tools/pybench/Imports.py | 138 | ||||
-rw-r--r-- | Tools/pybench/Instances.py | 66 | ||||
-rw-r--r-- | Tools/pybench/LICENSE | 25 | ||||
-rw-r--r-- | Tools/pybench/Lists.py | 350 | ||||
-rw-r--r-- | Tools/pybench/Lookups.py | 945 | ||||
-rw-r--r-- | Tools/pybench/NewInstances.py | 75 | ||||
-rw-r--r-- | Tools/pybench/Numbers.py | 784 | ||||
-rw-r--r-- | Tools/pybench/README | 371 | ||||
-rw-r--r-- | Tools/pybench/Setup.py | 43 | ||||
-rw-r--r-- | Tools/pybench/Strings.py | 568 | ||||
-rw-r--r-- | Tools/pybench/Tuples.py | 360 | ||||
-rw-r--r-- | Tools/pybench/Unicode.py | 541 | ||||
-rw-r--r-- | Tools/pybench/With.py | 189 | ||||
-rw-r--r-- | Tools/pybench/clockres.py | 42 | ||||
-rw-r--r-- | Tools/pybench/package/__init__.py | 0 | ||||
-rw-r--r-- | Tools/pybench/package/submodule.py | 0 | ||||
-rwxr-xr-x | Tools/pybench/pybench.py | 974 | ||||
-rwxr-xr-x | Tools/pybench/systimes.py | 214 |
24 files changed, 0 insertions, 9431 deletions
diff --git a/Tools/pybench/Arithmetic.py b/Tools/pybench/Arithmetic.py deleted file mode 100644 index d4766a7016..0000000000 --- a/Tools/pybench/Arithmetic.py +++ /dev/null @@ -1,777 +0,0 @@ -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 range(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 range(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 range(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 range(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 range(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 range(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 range(self.rounds): - - a = 2220001 - b = 100001 - c = 30005 - - 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 = 2220001 - b = 100001 - c = 30005 - - 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 = 2220001 - b = 100001 - c = 30005 - - 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 = 2220001 - b = 100001 - c = 30005 - - 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 = 2220001 - b = 100001 - c = 30005 - - 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 range(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 range(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 range(self.rounds): - pass diff --git a/Tools/pybench/Calls.py b/Tools/pybench/Calls.py deleted file mode 100644 index 2e6da1840f..0000000000 --- a/Tools/pybench/Calls.py +++ /dev/null @@ -1,560 +0,0 @@ -from pybench import Test - -class PythonFunctionCalls(Test): - - version = 2.1 - 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 range(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 range(self.rounds): - pass - -### - -class ComplexPythonFunctionCalls(Test): - - version = 2.0 - operations = 4*5 - rounds = 100000 - - def test(self): - - # define functions - def f(a,b,c,d=1,e=2,f=3): - return f - - args = 1,2 - kwargs = dict(c=3,d=4,e=5) - - # do calls - for i in range(self.rounds): - f(a=i,b=i,c=i) - f(f=i,e=i,d=i,c=2,b=i,a=3) - f(1,b=i,**kwargs) - f(*args,**kwargs) - - f(a=i,b=i,c=i) - f(f=i,e=i,d=i,c=2,b=i,a=3) - f(1,b=i,**kwargs) - f(*args,**kwargs) - - f(a=i,b=i,c=i) - f(f=i,e=i,d=i,c=2,b=i,a=3) - f(1,b=i,**kwargs) - f(*args,**kwargs) - - f(a=i,b=i,c=i) - f(f=i,e=i,d=i,c=2,b=i,a=3) - f(1,b=i,**kwargs) - f(*args,**kwargs) - - f(a=i,b=i,c=i) - f(f=i,e=i,d=i,c=2,b=i,a=3) - f(1,b=i,**kwargs) - f(*args,**kwargs) - - - def calibrate(self): - - # define functions - def f(a,b,c,d=1,e=2,f=3): - return f - - args = 1,2 - kwargs = dict(c=3,d=4,e=5) - - # do calls - for i in range(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 = divmod - f3 = max - - # do calls - for i in range(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 = divmod - f3 = max - - # do calls - for i in range(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 range(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 range(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 range(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 range(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/CommandLine.py b/Tools/pybench/CommandLine.py deleted file mode 100644 index 54a8ba7326..0000000000 --- a/Tools/pybench/CommandLine.py +++ /dev/null @@ -1,642 +0,0 @@ -""" 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() - -""" - -from __future__ import print_function - -__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, glob, os, re, 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 ''.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, 0o600) - 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(r'\s*(-?\d+)\s*$') -_integerRangeRE = re.compile(r'\s*(-?\d+)\s*-\s*(-?\d+)\s*$') - -def srange(s, - - 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 s.split(','): - 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 = BaseException - - # 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 option.name in self.option_map: - self.add_option(option) - - # Init .files list - self.files = [] - - # Start Application - rc = 0 - 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 as rcException: - rc = rcException - 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 as 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 = int(value) - except ValueError: - pass - - # Find handler and call it (or count the number of option - # instances on the command line) - handlername = 'handle' + optionname.replace('-', '_') - try: - handler = getattr(self, handlername) - except AttributeError: - if value == '': - # count the number of occurrences - if optionname in values: - 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: - about = self.about % self.__dict__ - print(about.strip()) - 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 - int = [x for x in options if x.prefix == '--'] - short = [x for x in options if x.prefix == '-'] - items = short + int - 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: - class NoErrorToCatch(Exception): pass - self.InternalError = NoErrorToCatch - - def handle__copyright(self,arg): - - self.print_header() - copyright = self.copyright % self.__dict__ - print(copyright.strip()) - print() - return 0 - - def handle__examples(self,arg): - - self.print_header() - if self.examples: - print('Examples:') - print() - examples = self.examples % self.__dict__ - print(examples.strip()) - 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/Constructs.py b/Tools/pybench/Constructs.py deleted file mode 100644 index 7273b87192..0000000000 --- a/Tools/pybench/Constructs.py +++ /dev/null @@ -1,564 +0,0 @@ -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 range(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 range(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 range(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 range(self.rounds): - pass - -class ForLoops(Test): - - version = 2.0 - operations = 5 * 5 - rounds = 10000 - - def test(self): - - l1 = range(100) - for i in range(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 range(self.rounds): - pass diff --git a/Tools/pybench/Dict.py b/Tools/pybench/Dict.py deleted file mode 100644 index 575758bfc2..0000000000 --- a/Tools/pybench/Dict.py +++ /dev/null @@ -1,504 +0,0 @@ -from pybench import Test - -class DictCreation(Test): - - version = 2.0 - operations = 5*(5 + 5) - rounds = 80000 - - def test(self): - - for i in range(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 range(self.rounds): - pass - -class DictWithStringKeys(Test): - - version = 2.0 - operations = 5*(6 + 6) - rounds = 200000 - - def test(self): - - d = {} - - for i in range(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 range(self.rounds): - pass - -class DictWithFloatKeys(Test): - - version = 2.0 - operations = 5*(6 + 6) - rounds = 150000 - - def test(self): - - d = {} - - for i in range(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 range(self.rounds): - pass - -class DictWithIntegerKeys(Test): - - version = 2.0 - operations = 5*(6 + 6) - rounds = 200000 - - def test(self): - - d = {} - - for i in range(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 range(self.rounds): - pass - -class SimpleDictManipulation(Test): - - version = 2.0 - operations = 5*(6 + 6 + 6 + 6) - rounds = 100000 - - def test(self): - - d = {} - has_key = lambda key: key in d - - for i in range(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 = lambda key: key in d - - for i in range(self.rounds): - pass diff --git a/Tools/pybench/Exceptions.py b/Tools/pybench/Exceptions.py deleted file mode 100644 index c321b2ef47..0000000000 --- a/Tools/pybench/Exceptions.py +++ /dev/null @@ -1,699 +0,0 @@ -from pybench import Test - -class TryRaiseExcept(Test): - - version = 2.0 - operations = 2 + 3 + 3 - rounds = 80000 - - def test(self): - - error = ValueError - - for i in range(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 range(self.rounds): - pass - - -class TryExcept(Test): - - version = 2.0 - operations = 15 * 10 - rounds = 150000 - - def test(self): - - for i in range(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 range(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/Imports.py b/Tools/pybench/Imports.py deleted file mode 100644 index 399ba17f2a..0000000000 --- a/Tools/pybench/Imports.py +++ /dev/null @@ -1,138 +0,0 @@ -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 range(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 range(self.rounds): - pass - - -class SecondPackageImport(Test): - - version = 2.0 - operations = 5 * 5 - rounds = 40000 - - def test(self): - - for i in range(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 range(self.rounds): - pass - -class SecondSubmoduleImport(Test): - - version = 2.0 - operations = 5 * 5 - rounds = 40000 - - def test(self): - - for i in range(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 range(self.rounds): - pass diff --git a/Tools/pybench/Instances.py b/Tools/pybench/Instances.py deleted file mode 100644 index 0a09b7bd76..0000000000 --- a/Tools/pybench/Instances.py +++ /dev/null @@ -1,66 +0,0 @@ -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 range(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 range(self.rounds): - pass diff --git a/Tools/pybench/LICENSE b/Tools/pybench/LICENSE deleted file mode 100644 index 17c6a6bdfc..0000000000 --- a/Tools/pybench/LICENSE +++ /dev/null @@ -1,25 +0,0 @@ -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/Lists.py b/Tools/pybench/Lists.py deleted file mode 100644 index 29dabeff5b..0000000000 --- a/Tools/pybench/Lists.py +++ /dev/null @@ -1,350 +0,0 @@ -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 range(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 range(self.rounds): - pass - -class ListSlicing(Test): - - version = 2.0 - operations = 25*(3+1+2+1) - rounds = 800 - - def test(self): - - n = list(range(100)) - r = list(range(25)) - - for i in range(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 = list(range(100)) - r = list(range(25)) - - for i in range(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 range(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 range(self.rounds): - pass - -class SimpleListComprehensions(Test): - - version = 2.0 - operations = 6 - rounds = 20000 - - def test(self): - - n = list(range(10)) * 10 - - for i in range(self.rounds): - l = [x for x in n] - l = [x for x in n if x] - l = [x for x in n if not x] - - l = [x for x in n] - l = [x for x in n if x] - l = [x for x in n if not x] - - def calibrate(self): - - n = list(range(10)) * 10 - - for i in range(self.rounds): - pass - -class NestedListComprehensions(Test): - - version = 2.0 - operations = 6 - rounds = 20000 - - def test(self): - - m = list(range(10)) - n = list(range(10)) - - for i in range(self.rounds): - l = [x for x in n for y in m] - l = [y for x in n for y in m] - - l = [x for x in n for y in m if y] - l = [y for x in n for y in m if x] - - l = [x for x in n for y in m if not y] - l = [y for x in n for y in m if not x] - - def calibrate(self): - - m = list(range(10)) - n = list(range(10)) - - for i in range(self.rounds): - pass diff --git a/Tools/pybench/Lookups.py b/Tools/pybench/Lookups.py deleted file mode 100644 index 5bf9e7622d..0000000000 --- a/Tools/pybench/Lookups.py +++ /dev/null @@ -1,945 +0,0 @@ -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 range(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 range(self.rounds): - pass - -class NormalClassAttribute(Test): - - version = 2.0 - operations = 5*(12 + 12) - rounds = 100000 - - def test(self): - - class c: - pass - - for i in range(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 range(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 range(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 range(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 range(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 range(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 range(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 range(self.rounds): - pass diff --git a/Tools/pybench/NewInstances.py b/Tools/pybench/NewInstances.py deleted file mode 100644 index 9506da484c..0000000000 --- a/Tools/pybench/NewInstances.py +++ /dev/null @@ -1,75 +0,0 @@ -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 range(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 range(self.rounds): - pass diff --git a/Tools/pybench/Numbers.py b/Tools/pybench/Numbers.py deleted file mode 100644 index 1b216734a8..0000000000 --- a/Tools/pybench/Numbers.py +++ /dev/null @@ -1,784 +0,0 @@ -from pybench import Test - -class CompareIntegers(Test): - - version = 2.0 - operations = 30 * 5 - rounds = 120000 - - def test(self): - - for i in range(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 range(self.rounds): - pass - - -class CompareFloats(Test): - - version = 2.0 - operations = 30 * 5 - rounds = 80000 - - def test(self): - - for i in range(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 range(self.rounds): - pass - - -class CompareFloatsIntegers(Test): - - version = 2.0 - operations = 30 * 5 - rounds = 60000 - - def test(self): - - for i in range(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 range(self.rounds): - pass - - -class CompareLongs(Test): - - version = 2.0 - operations = 30 * 5 - rounds = 70000 - - def test(self): - - for i in range(self.rounds): - - 1234567890 < 3456789012345 - 1234567890 > 3456789012345 - 1234567890 == 3456789012345 - 1234567890 > 3456789012345 - 1234567890 < 3456789012345 - - 1234567890 < 3456789012345 - 1234567890 > 3456789012345 - 1234567890 == 3456789012345 - 1234567890 > 3456789012345 - 1234567890 < 3456789012345 - - 1234567890 < 3456789012345 - 1234567890 > 3456789012345 - 1234567890 == 3456789012345 - 1234567890 > 3456789012345 - 1234567890 < 3456789012345 - - 1234567890 < 3456789012345 - 1234567890 > 3456789012345 - 1234567890 == 3456789012345 - 1234567890 > 3456789012345 - 1234567890 < 3456789012345 - - 1234567890 < 3456789012345 - 1234567890 > 3456789012345 - 1234567890 == 3456789012345 - 1234567890 > 3456789012345 - 1234567890 < 3456789012345 - - 1234567890 < 3456789012345 - 1234567890 > 3456789012345 - 1234567890 == 3456789012345 - 1234567890 > 3456789012345 - 1234567890 < 3456789012345 - - 1234567890 < 3456789012345 - 1234567890 > 3456789012345 - 1234567890 == 3456789012345 - 1234567890 > 3456789012345 - 1234567890 < 3456789012345 - - 1234567890 < 3456789012345 - 1234567890 > 3456789012345 - 1234567890 == 3456789012345 - 1234567890 > 3456789012345 - 1234567890 < 3456789012345 - - 1234567890 < 3456789012345 - 1234567890 > 3456789012345 - 1234567890 == 3456789012345 - 1234567890 > 3456789012345 - 1234567890 < 3456789012345 - - 1234567890 < 3456789012345 - 1234567890 > 3456789012345 - 1234567890 == 3456789012345 - 1234567890 > 3456789012345 - 1234567890 < 3456789012345 - - 1234567890 < 3456789012345 - 1234567890 > 3456789012345 - 1234567890 == 3456789012345 - 1234567890 > 3456789012345 - 1234567890 < 3456789012345 - - 1234567890 < 3456789012345 - 1234567890 > 3456789012345 - 1234567890 == 3456789012345 - 1234567890 > 3456789012345 - 1234567890 < 3456789012345 - - 1234567890 < 3456789012345 - 1234567890 > 3456789012345 - 1234567890 == 3456789012345 - 1234567890 > 3456789012345 - 1234567890 < 3456789012345 - - 1234567890 < 3456789012345 - 1234567890 > 3456789012345 - 1234567890 == 3456789012345 - 1234567890 > 3456789012345 - 1234567890 < 3456789012345 - - 1234567890 < 3456789012345 - 1234567890 > 3456789012345 - 1234567890 == 3456789012345 - 1234567890 > 3456789012345 - 1234567890 < 3456789012345 - - 1234567890 < 3456789012345 - 1234567890 > 3456789012345 - 1234567890 == 3456789012345 - 1234567890 > 3456789012345 - 1234567890 < 3456789012345 - - 1234567890 < 3456789012345 - 1234567890 > 3456789012345 - 1234567890 == 3456789012345 - 1234567890 > 3456789012345 - 1234567890 < 3456789012345 - - 1234567890 < 3456789012345 - 1234567890 > 3456789012345 - 1234567890 == 3456789012345 - 1234567890 > 3456789012345 - 1234567890 < 3456789012345 - - 1234567890 < 3456789012345 - 1234567890 > 3456789012345 - 1234567890 == 3456789012345 - 1234567890 > 3456789012345 - 1234567890 < 3456789012345 - - 1234567890 < 3456789012345 - 1234567890 > 3456789012345 - 1234567890 == 3456789012345 - 1234567890 > 3456789012345 - 1234567890 < 3456789012345 - - 1234567890 < 3456789012345 - 1234567890 > 3456789012345 - 1234567890 == 3456789012345 - 1234567890 > 3456789012345 - 1234567890 < 3456789012345 - - 1234567890 < 3456789012345 - 1234567890 > 3456789012345 - 1234567890 == 3456789012345 - 1234567890 > 3456789012345 - 1234567890 < 3456789012345 - - 1234567890 < 3456789012345 - 1234567890 > 3456789012345 - 1234567890 == 3456789012345 - 1234567890 > 3456789012345 - 1234567890 < 3456789012345 - - 1234567890 < 3456789012345 - 1234567890 > 3456789012345 - 1234567890 == 3456789012345 - 1234567890 > 3456789012345 - 1234567890 < 3456789012345 - - 1234567890 < 3456789012345 - 1234567890 > 3456789012345 - 1234567890 == 3456789012345 - 1234567890 > 3456789012345 - 1234567890 < 3456789012345 - - 1234567890 < 3456789012345 - 1234567890 > 3456789012345 - 1234567890 == 3456789012345 - 1234567890 > 3456789012345 - 1234567890 < 3456789012345 - - 1234567890 < 3456789012345 - 1234567890 > 3456789012345 - 1234567890 == 3456789012345 - 1234567890 > 3456789012345 - 1234567890 < 3456789012345 - - 1234567890 < 3456789012345 - 1234567890 > 3456789012345 - 1234567890 == 3456789012345 - 1234567890 > 3456789012345 - 1234567890 < 3456789012345 - - 1234567890 < 3456789012345 - 1234567890 > 3456789012345 - 1234567890 == 3456789012345 - 1234567890 > 3456789012345 - 1234567890 < 3456789012345 - - 1234567890 < 3456789012345 - 1234567890 > 3456789012345 - 1234567890 == 3456789012345 - 1234567890 > 3456789012345 - 1234567890 < 3456789012345 - - def calibrate(self): - - for i in range(self.rounds): - pass diff --git a/Tools/pybench/README b/Tools/pybench/README deleted file mode 100644 index 40f7eec797..0000000000 --- a/Tools/pybench/README +++ /dev/null @@ -1,371 +0,0 @@ -________________________________________________________________________ - -PYBENCH - A Python Benchmark Suite -________________________________________________________________________ - - Extendable suite 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: - 2.1 - -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: - -python3.0 pybench.py -f p30.pybench -python3.1 pybench.py -f p31.pybench -python pybench.py -s p31.pybench -c p30.pybench -""" - -License -------- - -See LICENSE file. - - -Sample output -------------- - -""" -------------------------------------------------------------------------------- -PYBENCH 2.1 -------------------------------------------------------------------------------- -* using CPython 3.0 -* 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: - Implementation: CPython - Executable: /usr/local/bin/python - Version: 3.0 - 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 - # - for i in range(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 range(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 ---------------- - - 2.1: made some minor changes for compatibility with Python 3.0: - - replaced cmp with divmod and range with max in Calls.py - (cmp no longer exists in 3.0, and range is a list in - Python 2.x and an iterator in Python 3.x) - - 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/Setup.py b/Tools/pybench/Setup.py deleted file mode 100644 index 21e654afba..0000000000 --- a/Tools/pybench/Setup.py +++ /dev/null @@ -1,43 +0,0 @@ -#!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 * -try: - from With import * -except SyntaxError: - pass -from Imports import * -from Strings import * -from Numbers import * -try: - from Unicode import * -except (ImportError, SyntaxError): - pass diff --git a/Tools/pybench/Strings.py b/Tools/pybench/Strings.py deleted file mode 100644 index 8e3d702a91..0000000000 --- a/Tools/pybench/Strings.py +++ /dev/null @@ -1,568 +0,0 @@ -from pybench import Test -import sys - -try: - intern -except NameError: - intern = sys.intern - - -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 range(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 range(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 range(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 range(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 range(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 range(self.rounds): - pass - - -class CreateStringsWithConcat(Test): - - version = 2.0 - operations = 10 * 5 - rounds = 200000 - - def test(self): - - for i in range(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 range(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 range(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 range(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 range(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 range(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 range(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 range(self.rounds): - s = data[i % len_data] diff --git a/Tools/pybench/Tuples.py b/Tools/pybench/Tuples.py deleted file mode 100644 index d93802c187..0000000000 --- a/Tools/pybench/Tuples.py +++ /dev/null @@ -1,360 +0,0 @@ -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 range(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 range(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 range(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 range(self.rounds): - pass diff --git a/Tools/pybench/Unicode.py b/Tools/pybench/Unicode.py deleted file mode 100644 index b17a7c3dd5..0000000000 --- a/Tools/pybench/Unicode.py +++ /dev/null @@ -1,541 +0,0 @@ -try: - unicode -except NameError: - raise ImportError - -from pybench import Test - -class ConcatUnicode(Test): - - version = 2.0 - operations = 10 * 5 - rounds = 60000 - - def test(self): - - # Make sure the strings are *not* interned - s = unicode(u''.join(map(str,range(100)))) - t = unicode(u''.join(map(str,range(1,101)))) - - for i in range(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(u''.join(map(str,range(100)))) - t = unicode(u''.join(map(str,range(1,101)))) - - for i in range(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(u''.join(map(str,range(10)))) - t = unicode(u''.join(map(str,range(10))) + "abc") - - for i in range(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(u''.join(map(str,range(10)))) - t = unicode(u''.join(map(str,range(10))) + "abc") - - for i in range(self.rounds): - pass - - -class CreateUnicodeWithConcat(Test): - - version = 2.0 - operations = 10 * 5 - rounds = 80000 - - def test(self): - - for i in range(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 range(self.rounds): - pass - - -class UnicodeSlicing(Test): - - version = 2.0 - operations = 5 * 7 - rounds = 140000 - - def test(self): - - s = unicode(u''.join(map(str,range(100)))) - - for i in range(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(u''.join(map(str,range(100)))) - - for i in range(self.rounds): - pass - -### String methods - -class UnicodeMappings(Test): - - version = 2.0 - operations = 3 * (5 + 4 + 2 + 1) - rounds = 10000 - - def test(self): - - s = u''.join(map(unichr,range(20))) - t = u''.join(map(unichr,range(100))) - u = u''.join(map(unichr,range(500))) - v = u''.join(map(unichr,range(1000))) - - for i in range(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 = u''.join(map(unichr,range(20))) - t = u''.join(map(unichr,range(100))) - u = u''.join(map(unichr,range(500))) - v = u''.join(map(unichr,range(1000))) - - for i in range(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 range(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 range(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 range(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 range(self.rounds): - - c = data[i % len_data] diff --git a/Tools/pybench/With.py b/Tools/pybench/With.py deleted file mode 100644 index 30cd3c2c8a..0000000000 --- a/Tools/pybench/With.py +++ /dev/null @@ -1,189 +0,0 @@ -from pybench import Test - -class WithFinally(Test): - - version = 2.0 - operations = 20 - rounds = 80000 - - class ContextManager(object): - def __enter__(self): - pass - def __exit__(self, exc, val, tb): - pass - - def test(self): - - cm = self.ContextManager() - - for i in range(self.rounds): - with cm: pass - with cm: pass - with cm: pass - with cm: pass - with cm: pass - with cm: pass - with cm: pass - with cm: pass - with cm: pass - with cm: pass - with cm: pass - with cm: pass - with cm: pass - with cm: pass - with cm: pass - with cm: pass - with cm: pass - with cm: pass - with cm: pass - with cm: pass - - def calibrate(self): - - cm = self.ContextManager() - - for i in range(self.rounds): - pass - - -class TryFinally(Test): - - version = 2.0 - operations = 20 - rounds = 80000 - - class ContextManager(object): - def __enter__(self): - pass - def __exit__(self): - # "Context manager" objects used just for their cleanup - # actions in finally blocks usually don't have parameters. - pass - - def test(self): - - cm = self.ContextManager() - - for i in range(self.rounds): - cm.__enter__() - try: pass - finally: cm.__exit__() - - cm.__enter__() - try: pass - finally: cm.__exit__() - - cm.__enter__() - try: pass - finally: cm.__exit__() - - cm.__enter__() - try: pass - finally: cm.__exit__() - - cm.__enter__() - try: pass - finally: cm.__exit__() - - cm.__enter__() - try: pass - finally: cm.__exit__() - - cm.__enter__() - try: pass - finally: cm.__exit__() - - cm.__enter__() - try: pass - finally: cm.__exit__() - - cm.__enter__() - try: pass - finally: cm.__exit__() - - cm.__enter__() - try: pass - finally: cm.__exit__() - - cm.__enter__() - try: pass - finally: cm.__exit__() - - cm.__enter__() - try: pass - finally: cm.__exit__() - - cm.__enter__() - try: pass - finally: cm.__exit__() - - cm.__enter__() - try: pass - finally: cm.__exit__() - - cm.__enter__() - try: pass - finally: cm.__exit__() - - cm.__enter__() - try: pass - finally: cm.__exit__() - - cm.__enter__() - try: pass - finally: cm.__exit__() - - cm.__enter__() - try: pass - finally: cm.__exit__() - - cm.__enter__() - try: pass - finally: cm.__exit__() - - cm.__enter__() - try: pass - finally: cm.__exit__() - - def calibrate(self): - - cm = self.ContextManager() - - for i in range(self.rounds): - pass - - -class WithRaiseExcept(Test): - - version = 2.0 - operations = 2 + 3 + 3 - rounds = 100000 - - class BlockExceptions(object): - def __enter__(self): - pass - def __exit__(self, exc, val, tb): - return True - - def test(self): - - error = ValueError - be = self.BlockExceptions() - - for i in range(self.rounds): - with be: raise error - with be: raise error - with be: raise error("something") - with be: raise error("something") - with be: raise error("something") - with be: raise error("something") - with be: raise error("something") - with be: raise error("something") - - def calibrate(self): - - error = ValueError - be = self.BlockExceptions() - - for i in range(self.rounds): - pass diff --git a/Tools/pybench/clockres.py b/Tools/pybench/clockres.py deleted file mode 100644 index d7f1ac8c93..0000000000 --- a/Tools/pybench/clockres.py +++ /dev/null @@ -1,42 +0,0 @@ -#!/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 = sorted(d.keys()) - 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/package/__init__.py b/Tools/pybench/package/__init__.py deleted file mode 100644 index e69de29bb2..0000000000 --- a/Tools/pybench/package/__init__.py +++ /dev/null diff --git a/Tools/pybench/package/submodule.py b/Tools/pybench/package/submodule.py deleted file mode 100644 index e69de29bb2..0000000000 --- a/Tools/pybench/package/submodule.py +++ /dev/null diff --git a/Tools/pybench/pybench.py b/Tools/pybench/pybench.py deleted file mode 100755 index 942f56d292..0000000000 --- a/Tools/pybench/pybench.py +++ /dev/null @@ -1,974 +0,0 @@ -#!/usr/local/bin/python -O - -""" A Python Benchmark Suite - -""" -# Note: Please keep this module compatible to Python 2.6. -# -# Tests may include features in later Python versions, but these -# should then be embedded in try-except clauses in the configuration -# module Setup.py. -# - -from __future__ import print_function - -# 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 -import time -import platform -from CommandLine import * - -try: - import cPickle - pickle = cPickle -except ImportError: - import pickle - -# Version number; version history: see README file ! -__version__ = '2.1' - -### 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_PROCESS_TIME = 'time.process_time' -TIMER_TIME_PERF_COUNTER = 'time.perf_counter' -TIMER_TIME_CLOCK = 'time.clock' -TIMER_SYSTIMES_PROCESSTIME = 'systimes.processtime' - -# Choose platform default timer -if hasattr(time, 'perf_counter'): - TIMER_PLATFORM_DEFAULT = TIMER_TIME_PERF_COUNTER -elif 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_PROCESS_TIME: - return time.process_time - elif timertype == TIMER_TIME_PERF_COUNTER: - return time.perf_counter - 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(): - - if _debug: - print('Getting machine details...') - buildno, builddate = platform.python_build() - python = platform.python_version() - # XXX this is now always UCS4, maybe replace it with 'PEP393' in 3.3+? - if sys.maxunicode == 65535: - # UCS2 build (standard) - unitype = 'UCS2' - else: - # UCS4 build (most recent Linux distros) - unitype = 'UCS4' - bits, linkage = platform.architecture() - return { - 'platform': platform.platform(), - 'processor': platform.processor(), - 'executable': sys.executable, - 'implementation': getattr(platform, 'python_implementation', - lambda:'n/a')(), - 'python': platform.python_version(), - 'compiler': platform.python_compiler(), - 'buildno': buildno, - 'builddate': builddate, - 'unicode': unitype, - '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:', - ' Implementation: %s' % d.get('implementation', 'n/a'), - ' 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'), - ] - joiner = '\n' + indent - print(indent + joiner.join(l) + '\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 - its 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 = 2.1 - - # 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: - self.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 / CALIBRATION_LOOPS) - 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 = sum(self.times) - 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 = 2.1 - - # 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 = sorted(self.tests) - 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...', end=' ') - sys.stdout.flush() - if self.verbose: - print() - print() - print('Test min max') - print('-' * LINE) - tests = sorted(self.tests.items()) - 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)) - if self.verbose: - print() - print('Done with the calibration.') - else: - print('done.') - print() - - def run(self): - - tests = sorted(self.tests.items()) - 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, end=' ') - 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 = sum(self.roundtimes) - 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 = sorted(self.tests.items()) - 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 = sorted(self.tests.items()) - 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 comparable - 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 comparable - 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 %s %s' % ( - getattr(platform, 'python_implementation', lambda:'Python')(), - ' '.join(sys.version.split()))) - - # Switch off garbage collection - if not withgc: - try: - import gc - except ImportError: - print('* Python version doesn\'t support garbage collection') - else: - try: - gc.disable() - except NotImplementedError: - print('* Python version doesn\'t support gc.disable') - else: - 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 - try: - sys.setcheckinterval(value) - except (AttributeError, NotImplementedError): - print('* Python version doesn\'t support sys.setcheckinterval') - else: - 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: - # Check that the clock function does exist - try: - get_timer(timer) - except TypeError: - print("* Error: Unknown timer: %s" % timer) - return - - print('* using timer: %s' % timer) - if hasattr(time, 'get_clock_info'): - info = time.get_clock_info(timer[5:]) - print('* timer: resolution=%s, implementation=%s' - % (info.resolution, info.implementation)) - - 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 as 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 as reason: - 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 as reason: - print('* Error opening/writing reportfile %s: %s' % ( - reportfile, - reason)) - print() - -if __name__ == '__main__': - PyBenchCmdline() diff --git a/Tools/pybench/systimes.py b/Tools/pybench/systimes.py deleted file mode 100755 index 5e00891fee..0000000000 --- a/Tools/pybench/systimes.py +++ /dev/null @@ -1,214 +0,0 @@ -#!/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 platform 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. - -""" - -from __future__ import print_function - -import time, sys - -# -# 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 = 'ctypes 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 = 0 - for i in range(10000000): - x = x + 1 - -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() |