#! /usr/bin/env python # def r8vec_uniform_01 ( n, seed ): #*****************************************************************************80 # ## R8VEC_UNIFORM_01 returns a unit pseudorandom R8VEC. # # Licensing: # # This code is distributed under the GNU LGPL license. # # Modified: # # 06 April 2013 # # Author: # # John Burkardt # # Reference: # # Paul Bratley, Bennett Fox, Linus Schrage, # A Guide to Simulation, # Second Edition, # Springer, 1987, # ISBN: 0387964673, # LC: QA76.9.C65.B73. # # Bennett Fox, # Algorithm 647: # Implementation and Relative Efficiency of Quasirandom # Sequence Generators, # ACM Transactions on Mathematical Software, # Volume 12, Number 4, December 1986, pages 362-376. # # Pierre L'Ecuyer, # Random Number Generation, # in Handbook of Simulation, # edited by Jerry Banks, # Wiley, 1998, # ISBN: 0471134031, # LC: T57.62.H37. # # Peter Lewis, Allen Goodman, James Miller, # A Pseudo-Random Number Generator for the System/360, # IBM Systems Journal, # Volume 8, Number 2, 1969, pages 136-143. # # Parameters: # # Input, integer N, the number of entries in the vector. # # Input, integer SEED, a seed for the random number generator. # # Output, real X(N), the vector of pseudorandom values. # # Output, integer SEED, an updated seed for the random number generator. # import numpy as np from sys import exit i4_huge = 2147483647 seed = int ( seed ) if ( seed < 0 ): seed = seed + i4_huge if ( seed == 0 ): print ( '' ) print ( 'R8VEC_UNIFORM_01 - Fatal error!' ) print ( ' Input SEED = 0!' ) exit ( 'R8VEC_UNIFORM_01 - Fatal error!' ) x = np.zeros ( n ); for i in range ( 0, n ): k = ( seed // 127773 ) seed = 16807 * ( seed - k * 127773 ) - k * 2836 if ( seed < 0 ): seed = seed + i4_huge x[i] = seed * 4.656612875E-10 return x, seed def r8vec_uniform_01_test ( ): #*****************************************************************************80 # ## R8VEC_UNIFORM_01_TEST tests R8VEC_UNIFORM_01. # # Licensing: # # This code is distributed under the GNU LGPL license. # # Modified: # # 29 October 2014 # # Author: # # John Burkardt # import numpy as np import platform from r8vec_print import r8vec_print n = 10 seed = 123456789 print ( '' ) print ( 'R8VEC_UNIFORM_01_TEST' ) print ( ' Python version: %s' % ( platform.python_version ( ) ) ) print ( ' R8VEC_UNIFORM_01 computes a random R8VEC.' ) print ( '' ) print ( ' Initial seed is %d' % ( seed ) ) v, seed = r8vec_uniform_01 ( n, seed ) r8vec_print ( n, v, ' Random R8VEC:' ) # # Terminate. # print ( '' ) print ( 'R8VEC_UNIFORM_01_TEST:' ) print ( ' Normal end of execution.' ) return if ( __name__ == '__main__' ): from timestamp import timestamp timestamp ( ) r8vec_uniform_01_test ( ) timestamp ( )