New elf4rom that solves the ROMBULD.log header problem.
from pybench import Test
class SimpleIntegerArithmetic(Test):
version = 2.0
operations = 5 * (3 + 5 + 5 + 3 + 3 + 3)
rounds = 120000
def test(self):
for i in xrange(self.rounds):
a = 2
b = 3
c = 3
c = a + b
c = b + c
c = c + a
c = a + b
c = b + c
c = c - a
c = a - b
c = b - c
c = c - a
c = b - c
c = a / b
c = b / a
c = c / b
c = a * b
c = b * a
c = c * b
c = a / b
c = b / a
c = c / b
a = 2
b = 3
c = 3
c = a + b
c = b + c
c = c + a
c = a + b
c = b + c
c = c - a
c = a - b
c = b - c
c = c - a
c = b - c
c = a / b
c = b / a
c = c / b
c = a * b
c = b * a
c = c * b
c = a / b
c = b / a
c = c / b
a = 2
b = 3
c = 3
c = a + b
c = b + c
c = c + a
c = a + b
c = b + c
c = c - a
c = a - b
c = b - c
c = c - a
c = b - c
c = a / b
c = b / a
c = c / b
c = a * b
c = b * a
c = c * b
c = a / b
c = b / a
c = c / b
a = 2
b = 3
c = 3
c = a + b
c = b + c
c = c + a
c = a + b
c = b + c
c = c - a
c = a - b
c = b - c
c = c - a
c = b - c
c = a / b
c = b / a
c = c / b
c = a * b
c = b * a
c = c * b
c = a / b
c = b / a
c = c / b
a = 2
b = 3
c = 3
c = a + b
c = b + c
c = c + a
c = a + b
c = b + c
c = c - a
c = a - b
c = b - c
c = c - a
c = b - c
c = a / b
c = b / a
c = c / b
c = a * b
c = b * a
c = c * b
c = a / b
c = b / a
c = c / b
def calibrate(self):
for i in xrange(self.rounds):
pass
class SimpleFloatArithmetic(Test):
version = 2.0
operations = 5 * (3 + 5 + 5 + 3 + 3 + 3)
rounds = 120000
def test(self):
for i in xrange(self.rounds):
a = 2.1
b = 3.3332
c = 3.14159
c = a + b
c = b + c
c = c + a
c = a + b
c = b + c
c = c - a
c = a - b
c = b - c
c = c - a
c = b - c
c = a / b
c = b / a
c = c / b
c = a * b
c = b * a
c = c * b
c = a / b
c = b / a
c = c / b
a = 2.1
b = 3.3332
c = 3.14159
c = a + b
c = b + c
c = c + a
c = a + b
c = b + c
c = c - a
c = a - b
c = b - c
c = c - a
c = b - c
c = a / b
c = b / a
c = c / b
c = a * b
c = b * a
c = c * b
c = a / b
c = b / a
c = c / b
a = 2.1
b = 3.3332
c = 3.14159
c = a + b
c = b + c
c = c + a
c = a + b
c = b + c
c = c - a
c = a - b
c = b - c
c = c - a
c = b - c
c = a / b
c = b / a
c = c / b
c = a * b
c = b * a
c = c * b
c = a / b
c = b / a
c = c / b
a = 2.1
b = 3.3332
c = 3.14159
c = a + b
c = b + c
c = c + a
c = a + b
c = b + c
c = c - a
c = a - b
c = b - c
c = c - a
c = b - c
c = a / b
c = b / a
c = c / b
c = a * b
c = b * a
c = c * b
c = a / b
c = b / a
c = c / b
a = 2.1
b = 3.3332
c = 3.14159
c = a + b
c = b + c
c = c + a
c = a + b
c = b + c
c = c - a
c = a - b
c = b - c
c = c - a
c = b - c
c = a / b
c = b / a
c = c / b
c = a * b
c = b * a
c = c * b
c = a / b
c = b / a
c = c / b
def calibrate(self):
for i in xrange(self.rounds):
pass
class SimpleIntFloatArithmetic(Test):
version = 2.0
operations = 5 * (3 + 5 + 5 + 3 + 3 + 3)
rounds = 120000
def test(self):
for i in xrange(self.rounds):
a = 2
b = 3
c = 3.14159
c = a + b
c = b + c
c = c + a
c = a + b
c = b + c
c = c - a
c = a - b
c = b - c
c = c - a
c = b - c
c = a / b
c = b / a
c = c / b
c = a * b
c = b * a
c = c * b
c = a / b
c = b / a
c = c / b
a = 2
b = 3
c = 3.14159
c = a + b
c = b + c
c = c + a
c = a + b
c = b + c
c = c - a
c = a - b
c = b - c
c = c - a
c = b - c
c = a / b
c = b / a
c = c / b
c = a * b
c = b * a
c = c * b
c = a / b
c = b / a
c = c / b
a = 2
b = 3
c = 3.14159
c = a + b
c = b + c
c = c + a
c = a + b
c = b + c
c = c - a
c = a - b
c = b - c
c = c - a
c = b - c
c = a / b
c = b / a
c = c / b
c = a * b
c = b * a
c = c * b
c = a / b
c = b / a
c = c / b
a = 2
b = 3
c = 3.14159
c = a + b
c = b + c
c = c + a
c = a + b
c = b + c
c = c - a
c = a - b
c = b - c
c = c - a
c = b - c
c = a / b
c = b / a
c = c / b
c = a * b
c = b * a
c = c * b
c = a / b
c = b / a
c = c / b
a = 2
b = 3
c = 3.14159
c = a + b
c = b + c
c = c + a
c = a + b
c = b + c
c = c - a
c = a - b
c = b - c
c = c - a
c = b - c
c = a / b
c = b / a
c = c / b
c = a * b
c = b * a
c = c * b
c = a / b
c = b / a
c = c / b
def calibrate(self):
for i in xrange(self.rounds):
pass
class SimpleLongArithmetic(Test):
version = 2.0
operations = 5 * (3 + 5 + 5 + 3 + 3 + 3)
rounds = 60000
def test(self):
for i in xrange(self.rounds):
a = 2220001L
b = 100001L
c = 30005L
c = a + b
c = b + c
c = c + a
c = a + b
c = b + c
c = c - a
c = a - b
c = b - c
c = c - a
c = b - c
c = a / b
c = b / a
c = c / b
c = a * b
c = b * a
c = c * b
c = a / b
c = b / a
c = c / b
a = 2220001L
b = 100001L
c = 30005L
c = a + b
c = b + c
c = c + a
c = a + b
c = b + c
c = c - a
c = a - b
c = b - c
c = c - a
c = b - c
c = a / b
c = b / a
c = c / b
c = a * b
c = b * a
c = c * b
c = a / b
c = b / a
c = c / b
a = 2220001L
b = 100001L
c = 30005L
c = a + b
c = b + c
c = c + a
c = a + b
c = b + c
c = c - a
c = a - b
c = b - c
c = c - a
c = b - c
c = a / b
c = b / a
c = c / b
c = a * b
c = b * a
c = c * b
c = a / b
c = b / a
c = c / b
a = 2220001L
b = 100001L
c = 30005L
c = a + b
c = b + c
c = c + a
c = a + b
c = b + c
c = c - a
c = a - b
c = b - c
c = c - a
c = b - c
c = a / b
c = b / a
c = c / b
c = a * b
c = b * a
c = c * b
c = a / b
c = b / a
c = c / b
a = 2220001L
b = 100001L
c = 30005L
c = a + b
c = b + c
c = c + a
c = a + b
c = b + c
c = c - a
c = a - b
c = b - c
c = c - a
c = b - c
c = a / b
c = b / a
c = c / b
c = a * b
c = b * a
c = c * b
c = a / b
c = b / a
c = c / b
def calibrate(self):
for i in xrange(self.rounds):
pass
class SimpleComplexArithmetic(Test):
version = 2.0
operations = 5 * (3 + 5 + 5 + 3 + 3 + 3)
rounds = 80000
def test(self):
for i in xrange(self.rounds):
a = 2 + 3j
b = 2.5 + 4.5j
c = 1.2 + 6.2j
c = a + b
c = b + c
c = c + a
c = a + b
c = b + c
c = c - a
c = a - b
c = b - c
c = c - a
c = b - c
c = a / b
c = b / a
c = c / b
c = a * b
c = b * a
c = c * b
c = a / b
c = b / a
c = c / b
a = 2 + 3j
b = 2.5 + 4.5j
c = 1.2 + 6.2j
c = a + b
c = b + c
c = c + a
c = a + b
c = b + c
c = c - a
c = a - b
c = b - c
c = c - a
c = b - c
c = a / b
c = b / a
c = c / b
c = a * b
c = b * a
c = c * b
c = a / b
c = b / a
c = c / b
a = 2 + 3j
b = 2.5 + 4.5j
c = 1.2 + 6.2j
c = a + b
c = b + c
c = c + a
c = a + b
c = b + c
c = c - a
c = a - b
c = b - c
c = c - a
c = b - c
c = a / b
c = b / a
c = c / b
c = a * b
c = b * a
c = c * b
c = a / b
c = b / a
c = c / b
a = 2 + 3j
b = 2.5 + 4.5j
c = 1.2 + 6.2j
c = a + b
c = b + c
c = c + a
c = a + b
c = b + c
c = c - a
c = a - b
c = b - c
c = c - a
c = b - c
c = a / b
c = b / a
c = c / b
c = a * b
c = b * a
c = c * b
c = a / b
c = b / a
c = c / b
a = 2 + 3j
b = 2.5 + 4.5j
c = 1.2 + 6.2j
c = a + b
c = b + c
c = c + a
c = a + b
c = b + c
c = c - a
c = a - b
c = b - c
c = c - a
c = b - c
c = a / b
c = b / a
c = c / b
c = a * b
c = b * a
c = c * b
c = a / b
c = b / a
c = c / b
def calibrate(self):
for i in xrange(self.rounds):
pass