# Pseudorandom number generator for hashing that can take in any size table

I am constructing a pseudo random number generator for hashing. The algorithm I need to use is as follows:

• Initialize an integer R to be equal to 1 every time the tabling routine is called
• On each successive call for a random number, set R = R*5
• Mask all but the lower order n+2 bits of the product and place the result in R
• Set P = R/4 and return

This is what I have so far which works for a table of size 2^n, but how can I change it so it can take in a table of any size?

    def rand(size,i)
n = math.log(size,2)
r = 1
random_list = []
mask = (1 << 2+int(n)) - 1
for n in range(1,size+1):
r = r*5
p = r/4
random_list = random_list + [p]
if i == 0: return random_list
else: return random_list[i-1]

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Why not use an existing hashing function? –  Nick ODell Jul 1 '11 at 14:52

I didn't really understand how your code related to your algorithm (what is random_list?) or how the code should be structured, but I assume it is something similar to this:

class Rand:
def __init__(self, n):
# Initialize an integer R to be equal to 1 every time the tabling routine is called
self.r = 1
self.n = n

def rand(self):
# On each successive call for a random number, set R = R*5
self.r *= 5
# Mask all but the lower order n+2 bits of the product and place the result in R
self.r = self.r & (pow(2, self.n)-1)
# Set P = R/4 and return
self.p = self.r/4
return self.p


In which case, to make it work with a table of any size, the class becomes this:

class Rand2:
def __init__(self, tableSize):
# Initialize an integer R to be equal to 1 every time the tabling routine is called
self.r = 1
self.tableSize = tableSize

def rand(self):
# On each successive call for a random number, set R = R*5
self.r *= 5
# A bit mask is essentially a modulus operation, which is what we do instead
self.r = self.r % self.tableSize
# Set P = R/4 and return
self.p = self.r/4
return self.p


A simple test proves the outcome to be the same when the table sizes are identical:

rnd = Rand(10)
for i in range(0, 10):
print rnd.rand()

rnd2 = Rand2(pow(2, 10))
for i in range(0, 10):
print rnd2.rand()


But, like I said, I didn't really understand how your code related to your algorithm. I guess the tl;dr here is use the modulus operator instead of a bit mask.

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