## performance measurements

Each table row shows performance measurements for this PyPy 3 program with a particular command-line input value N.

N  CPU secs Elapsed secs Memory KB Code B ≈ CPU Load
104.311.5580,196894  68% 92% 62% 65%
104.361.6280,616894  66% 91% 61% 61%
104.331.6481,256894  93% 61% 62% 57%

Read the ↓ make, command line, and program output logs to see how this program was run.

Read fannkuch-redux benchmark to see what this program should do.

## fannkuch-redux PyPy 3 #3 program source code

```# The Computer Language Benchmarks Game
# http://benchmarksgame.alioth.debian.org/
#
# contributed by Joerg Baumann
# many thanks to Oleg Mazurov for his helpful description

from sys import argv
from math import factorial
from multiprocessing import cpu_count, Pool
from itertools import islice, starmap

def permutations(n, start, size):
p = bytearray(range(n))

remainder = start
for v in range(n - 1, 0, -1):
rotation_count, remainder = divmod(remainder, factorial(v))
for _ in range(rotation_count):
p[:v], p[v] = p[1:v + 1], p[0]

if size < 2:
yield p[:]
else:
rotations = [(v, factorial(v)) for v in range(3, n)]
for i in range(start + 2, start + size + 2, 2):
yield p[:]
p[0], p[1] = p[1], p[0]
yield p[:]
p[1], p[2] = p[2], p[1]
for v, modulo in rotations:
if i % modulo != 0:
break
p[:v], p[v] = p[1:v + 1], p[0]

def alternating_flips_generator(n, start, size):
maximum_flips = 0
alternating_factor = 1
for permutation in permutations(n, start, size):
first = permutation[0]
if first:
flips_count = 1
while True:
permutation[:first + 1] = permutation[first::-1]
first = permutation[0]
if not first: break
flips_count += 1
if maximum_flips < flips_count:
maximum_flips = flips_count
yield flips_count * alternating_factor
else:
yield 0
alternating_factor = -alternating_factor
yield maximum_flips

alternating_flips = alternating_flips_generator(n, start, size)
return sum(islice(alternating_flips, size)), next(alternating_flips)

def fannkuch(n):
assert(n > 0)

total = factorial(n)

with Pool() as pool:
else:

checksum, maximum = sum(checksums), max(maximums)
print("{0}\nPfannkuchen({1}) = {2}".format(checksum, n, maximum))

if __name__ == "__main__":
fannkuch(int(argv[1]))
```

### make, command-line, and program output logs

```Wed, 22 Jan 2020 18:10:38 GMT

COMMAND LINE:
/usr/bin/pypy3 fannkuchredux.pypy3-3.pypy3 10

PROGRAM OUTPUT:
73196
Pfannkuchen(10) = 38
```