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Recursive karatsuba multiplication in python #83

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51 changes: 29 additions & 22 deletions sorting and basics/karatsuba.py
Original file line number Diff line number Diff line change
@@ -1,23 +1,30 @@
def karatsuba(x, y, b=10):
""" returns product of x, y. Uses base b
in karatsuba algorithm
Gives running time of O(n^1.585) as opposed to
O(n^2) of naive multiplication
>>> karatsuba(1234223123412323, 1234534213423333123)
1523690672850721578619752112274729L
"""

if x < 1000 or y < 1000:
return x * y
m = min(len(str(x)) / 2, len(str(y)) / 2)
bm = b**m
x1, x0 = x / bm, x % bm
y1, y0 = y / bm, y % bm
z1 = karatsuba(x1, y1, b)
z3 = karatsuba(x0, y0, b)
z2 = karatsuba(x1 + x0, y1 + y0, b) - z1 - z3
return (bm**2)*z1 + bm*z2 + z3

if __name__ == "__main__":
import doctest
doctest.testmod(verbose=True)
"""Multiply two integers using Karatsuba's algorithm."""
#convert to strings for easy access to digits
x = str(x)
y = str(y)
#base case for recursion
if len(x) == 1 and len(y) == 1:
return int(x) * int(y)
if len(x) < len(y):
x = zeroPad(x, len(y) - len(x))
elif len(y) < len(x):
y = zeroPad(y, len(x) - len(y))
n = len(x)
j = n//2
#for odd digit integers
if (n % 2) != 0:
j += 1
BZeroPadding = n - j
AZeroPadding = BZeroPadding * 2
a = int(x[:j])
b = int(x[j:])
c = int(y[:j])
d = int(y[j:])
#recursively calculate
ac = karatsubaMultiplication(a, c)
bd = karatsubaMultiplication(b, d)
k = karatsubaMultiplication(a + b, c + d)
A = int(zeroPad(str(ac), AZeroPadding, False))
B = int(zeroPad(str(k - ac - bd), BZeroPadding, False))
return A + B + bd