# Copyright 2002 by Katharine Lindner. All rights reserved. # This code is part of the Biopython distribution and governed by its # license. Please see the LICENSE file that should have been included # as part of this package. """handles true random numbers supplied from the the web server of fourmilab. Based on atmospheric noise. The motivation is to support biosimulations that rely on random numbers. """ import urllib def byte_concat( text ): val = 0 numbytes = len( text ) for i in range( 0, numbytes ): val = val * 256 val = val + ord( text[ i ] ) return val class HotCache: def __init__( self ): # self.url = 'http://www.fourmilab.ch/cgi-bin/uncgi/Hotbits?num=5000&min=1&max=6&col=1' self.url = 'http://www.random.org/cgi-bin/randbyte?' self.query = { 'nbytes' : 128, 'fmt' : 'h' } self.fill_hot_cache() def fill_hot_cache( self ): url = self.url + urllib.urlencode( self.query ) fh = urllib.urlopen( url ) self.hot_cache = fh.read() fh.close() def next_num( self, num_digits = 4 ): cache = self.hot_cache numbytes = num_digits / 2 if( len( cache ) % numbytes != 0 ): print 'len_cache is %d' % len( cache ) raise ValueError if( cache == '' ): self.fill_hot_cache() cache = self.hot_cache hexdigits = cache[ :numbytes ] self.hot_cache = cache[ numbytes: ] return byte_concat( hexdigits ) class HotRandom: def __init__( self ): self.hot_cache = HotCache( ) def hot_rand( self, high, low = 0 ): span = high - low val = self.hot_cache.next_num() val = ( span * val ) >> 16 val = val + low return val if( __name__ == '__main__' ): hot_random = HotRandom() for j in range ( 0, 130 ): print hot_random.hot_rand( 25 ) nums = [ '0000', 'abcd', '1234', '5555', '4321', 'aaaa', 'ffff' ] for num in nums: print hex_convert( num )