#! /usr/bin/env python # def i4mat_is_binary ( m, n, x ): #*****************************************************************************80 # ## I4MAT_IS_BINARY is true if an I4MAT only contains 0 and 1 entries. # # Licensing: # # This code is distributed under the GNU LGPL license. # # Modified: # # 24 April 2018 # # Author: # # John Burkardt # # Parameters: # # Input, integer M, N, the dimension of the array. # # Input, integer X(M,N), the array to be checked. # # Output, logical I4MAT_IS_BINARY, is true (1) if X only contains # 0 or 1 entries. # value = True for i in range ( 0, m ): for j in range ( 0, n ): if ( x[i,j] != 0 and x[i,j] != 1 ): value = False break return value def i4mat_is_binary_test ( ): #*****************************************************************************80 # ## I4MAT_IS_BINARY_TEST tests I4MAT_IS_BINARY. # # Licensing: # # This code is distributed under the GNU LGPL license. # # Modified: # # 24 April 2018 # # Author: # # John Burkardt # import numpy as np import platform from i4mat_print import i4mat_print print ( '' ) print ( 'I4MAT_IS_BINARY_TEST' ) print ( ' Python version: %s' % ( platform.python_version ( ) ) ) print ( ' I4MAT_IS_BINARY is TRUE if an I4MAT only contains' ) print ( ' 0 or 1 entries.' ) m = 2 n = 3 x = np.array ( [ \ [ 0, 1, 0 ], \ [ 1, 0, 1 ] ] ) i4mat_print ( m, n, x, ' X:' ) if ( i4mat_is_binary ( m, n, x ) ): print ( ' X is binary' ) else: print ( ' X is NOT binary.' ) x = np.array ( [ \ [ 1, 1, 1 ], \ [ 1, 1, 1 ] ] ) i4mat_print ( m, n, x, ' X:' ) if ( i4mat_is_binary ( m, n, x ) ): print ( ' X is binary' ) else: print ( ' X is NOT binary.' ) x = np.array ( [ \ [ 0, 1, 0 ], \ [ 1, 2, 1 ] ] ) i4mat_print ( m, n, x, ' X:' ) if ( i4mat_is_binary ( m, n, x ) ): print ( ' X is binary' ) else: print ( ' X is NOT binary.' ) # # Terminate. # print ( '' ) print ( 'I4MAT_IS_BINARY_TEST' ) print ( ' Normal end of execution.' ) return if ( __name__ == '__main__' ): from timestamp import timestamp timestamp ( ) i4mat_is_binary_test ( ) timestamp ( )