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from numpy import *
from numpy.linalg import *
import sys
import time
import random
import numpy
if sys.version_info < (3,):
range = xrange
## fibonacci ##
def fib(n):
if n<2:
return n
return fib(n-1)+fib(n-2)
## quicksort ##
def qsort_kernel(a, lo, hi):
i = lo
j = hi
while i < hi:
pivot = a[(lo+hi) // 2]
while i <= j:
while a[i] < pivot:
i += 1
while a[j] > pivot:
j -= 1
if i <= j:
a[i], a[j] = a[j], a[i]
i += 1
j -= 1
if lo < j:
qsort_kernel(a, lo, j)
lo = i
j = hi
return a
## randmatstat ##
def randmatstat(t):
n = 5
v = zeros(t)
w = zeros(t)
for i in range(1,t):
a = numpy.random.randn(n, n)
b = numpy.random.randn(n, n)
c = numpy.random.randn(n, n)
d = numpy.random.randn(n, n)
P = matrix(hstack((a, b, c, d)))
Q = matrix(vstack((hstack((a, b)), hstack((c, d)))))
v[i] = trace(matrix_power(transpose(P)*P, 4))
w[i] = trace(matrix_power(transpose(Q)*Q, 4))
return (std(v)/mean(v), std(w)/mean(w))
## randmatmul ##
def randmatmul(n):
A = numpy.random.rand(n,n)
B = numpy.random.rand(n,n)
return numpy.dot(A,B)
## mandelbrot ##
def mandel(z):
maxiter = 80
c = z
for n in range(maxiter):
if abs(z) > 2:
return n
z = z*z + c
return maxiter
def mandelperf():
r1 = numpy.linspace(-2.0, 0.5, 26)
r2 = numpy.linspace(-1.0, 1.0, 21)
return [mandel(complex(r, i)) for r in r1 for i in r2]
def pisum():
sum = 0.0
for j in range(1, 501):
sum = 0.0
for k in range(1, 10001):
sum += 1.0/(k*k)
return sum
#### Is this single threaded?
# def pisumvec():
# return numpy.sum(1./(numpy.arange(1,10000)**2))
def print_perf(name, time):
print("python," + name + "," + str(time*1000))
## run tests ##
if __name__=="__main__":
assert fib(20) == 6765
tmin = float('inf')
for i in range(5):
t = time.time()
f = fib(20)
t = time.time()-t
if t < tmin: tmin = t
print_perf("fib", tmin)
tmin = float('inf')
for i in range(5):
t = time.time()
for i in range(1,1000):
n = random.randint(0,2**32-1)
s = hex(n)
if s[-1]=='L':
s = s[0:-1]
m = int(s,16)
assert m == n
t = time.time()-t
if t < tmin: tmin = t
print_perf ("parse_int", tmin)
assert sum(mandelperf()) == 14791
tmin = float('inf')
for i in range(5):
t = time.time()
mandelperf()
t = time.time()-t
if t < tmin: tmin = t
print_perf ("mandel", tmin)
tmin = float('inf')
for i in range(5):
lst = [ random.random() for i in range(1,5000) ]
t = time.time()
qsort_kernel(lst, 0, len(lst)-1)
t = time.time()-t
if t < tmin: tmin = t
print_perf ("quicksort", tmin)
assert abs(pisum()-1.644834071848065) < 1e-6
tmin = float('inf')
for i in range(5):
t = time.time()
pisum()
t = time.time()-t
if t < tmin: tmin = t
print_perf ("pi_sum", tmin)
# assert abs(pisumvec()-1.644834071848065) < 1e-6
# tmin = float('inf')
# for i in range(5):
# t = time.time()
# pisumvec()
# t = time.time()-t
# if t < tmin: tmin = t
# print_perf ("pi_sum_vec", tmin)
(s1, s2) = randmatstat(1000)
assert s1 > 0.5 and s1 < 1.0
tmin = float('inf')
for i in range(5):
t = time.time()
randmatstat(1000)
t = time.time()-t
if t < tmin: tmin = t
print_perf ("rand_mat_stat", tmin)
tmin = float('inf')
for i in range(5):
t = time.time()
C = randmatmul(1000)
assert C[0,0] >= 0
t = time.time()-t
if t < tmin: tmin = t
print_perf ("rand_mat_mul", tmin)
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