#! /usr/bin/env python # def elliptic_inc_fk ( phi, k ): #*****************************************************************************80 # ## ELLIPTIC_INC_FK evaluates the incomplete elliptic integral F(PHI,K). # # Discussion: # # The value is computed using Carlson elliptic integrals: # # F(phi,k) = sin(phi) * RF ( cos^2 ( phi ), 1-k^2 sin^2 ( phi ), 1 ). # # Licensing: # # This code is distributed under the GNU LGPL license. # # Modified: # # 24 June 2018 # # Author: # # John Burkardt # # Parameters: # # Input, real PHI, K, the argument. # 0 <= PHI <= PI/2. # 0 <= K^2 * sin^2(PHI) <= 1. # # Output, real VALUE, the function value. # import numpy as np import sys from rd import rd from rf import rf cp = np.cos ( phi ) sp = np.sin ( phi ) x = cp * cp y = ( 1.0 - k * sp ) * ( 1.0 + k * sp ) z = 1.0 errtol = 1.0E-03 value, ierr = rf ( x, y, z, errtol ) if ( ierr != 0 ): print ( 'ELLIPTIC_INC_FK - Fatal error!' ) print ( ' RF returned IERR = %d' % ( ierr ) ) sys.exit ( 'ELLIPTIC_INC_FK - Fatal error!' ) value = sp * value return value def elliptic_inc_fk_test ( ): #*****************************************************************************80 # ## ELLIPTIC_INC_FK_TEST tests ELLIPTIC_INC_FK. # # Licensing: # # This code is distributed under the GNU LGPL license. # # Modified: # # 24 June 2018 # # Author: # # John Burkardt # import numpy as np from elliptic_inc_fk_values import elliptic_inc_fk_values print ( '' ) print ( 'ELLIPTIC_INC_FK_TEST:' ) print ( ' ELLIPTIC_INC_FK returns values of' ) print ( ' the incomplete elliptic integral of the' ) print ( ' first kind, with parameters PHI, K.' ) print ( ' Compare with tabulated value.' ) print ( '' ) print ( ' Phi K Tabulated elliptic_inc_fk(phi,k)' ) print ( '' ) n_data = 0 while ( True ): n_data, phi, k, fk1 = elliptic_inc_fk_values ( n_data ) if ( n_data == 0 ): break fk2 = elliptic_inc_fk ( phi, k ) print ( ' %12f %12f %24.16f %24.16f' % ( phi, k, fk1, fk2 ) ) return if ( __name__ == '__main__' ): from timestamp import timestamp timestamp ( ) elliptic_inc_fk_test ( ) timestamp ( )