subroutine mradf4 ( m, ido, l1, cc, im1, in1, ch, im2, in2, wa1, wa2, wa3 )
!*****************************************************************************80
!
!! MRADF4 is an FFTPACK5 auxiliary routine.
!
! License:
!
! Licensed under the GNU General Public License (GPL).
! Copyright (C) 1995-2004, Scientific Computing Division,
! University Corporation for Atmospheric Research
!
! Modified:
!
! 27 March 2009
!
! Author:
!
! Paul Swarztrauber
! Richard Valent
!
! Reference:
!
! Paul Swarztrauber,
! Vectorizing the Fast Fourier Transforms,
! in Parallel Computations,
! edited by G. Rodrigue,
! Academic Press, 1982.
!
! Paul Swarztrauber,
! Fast Fourier Transform Algorithms for Vector Computers,
! Parallel Computing, pages 45-63, 1984.
!
! Parameters:
!
implicit none
integer ( kind = 4 ) ido
integer ( kind = 4 ) in1
integer ( kind = 4 ) in2
integer ( kind = 4 ) l1
real ( kind = 4 ) cc(in1,ido,l1,4)
real ( kind = 4 ) ch(in2,ido,4,l1)
real ( kind = 4 ) hsqt2
integer ( kind = 4 ) i
integer ( kind = 4 ) ic
integer ( kind = 4 ) idp2
integer ( kind = 4 ) im1
integer ( kind = 4 ) im2
integer ( kind = 4 ) k
integer ( kind = 4 ) m
integer ( kind = 4 ) m1
integer ( kind = 4 ) m1d
integer ( kind = 4 ) m2
integer ( kind = 4 ) m2s
real ( kind = 4 ) wa1(ido)
real ( kind = 4 ) wa2(ido)
real ( kind = 4 ) wa3(ido)
hsqt2 = sqrt ( 2.0E+00 ) / 2.0E+00
m1d = ( m - 1 ) * im1 + 1
m2s = 1 - im2
do k = 1, l1
m2 = m2s
do m1 = 1, m1d, im1
m2 = m2 + im2
ch(m2,1,1,k) = ( cc(m1,1,k,2) + cc(m1,1,k,4) ) &
+ ( cc(m1,1,k,1) + cc(m1,1,k,3) )
ch(m2,ido,4,k) = ( cc(m1,1,k,1) + cc(m1,1,k,3) ) &
-( cc(m1,1,k,2) + cc(m1,1,k,4) )
ch(m2,ido,2,k) = cc(m1,1,k,1) - cc(m1,1,k,3)
ch(m2,1,3,k) = cc(m1,1,k,4) - cc(m1,1,k,2)
end do
end do
if ( ido < 2 ) then
return
end if
if ( 2 < ido ) then
idp2 = ido + 2
do k = 1, l1
do i = 3, ido, 2
ic = idp2 - i
m2 = m2s
do m1 = 1, m1d, im1
m2 = m2 + im2
ch(m2,i-1,1,k) = ((wa1(i-2)*cc(m1,i-1,k,2) + wa1(i-1)* &
cc(m1,i,k,2))+(wa3(i-2)*cc(m1,i-1,k,4) + wa3(i-1)* &
cc(m1,i,k,4)))+(cc(m1,i-1,k,1)+(wa2(i-2)*cc(m1,i-1,k,3)+ &
wa2(i-1)*cc(m1,i,k,3)))
ch(m2,ic-1,4,k) = (cc(m1,i-1,k,1)+(wa2(i-2)*cc(m1,i-1,k,3)+ &
wa2(i-1)*cc(m1,i,k,3)))-((wa1(i-2)*cc(m1,i-1,k,2)+ &
wa1(i-1)*cc(m1,i,k,2))+(wa3(i-2)*cc(m1,i-1,k,4)+ &
wa3(i-1)*cc(m1,i,k,4)))
ch(m2,i,1,k) = ((wa1(i-2)*cc(m1,i,k,2)-wa1(i-1)* &
cc(m1,i-1,k,2))+(wa3(i-2)*cc(m1,i,k,4)-wa3(i-1)* &
cc(m1,i-1,k,4)))+(cc(m1,i,k,1)+(wa2(i-2)*cc(m1,i,k,3)- &
wa2(i-1)*cc(m1,i-1,k,3)))
ch(m2,ic,4,k) = ((wa1(i-2)*cc(m1,i,k,2)-wa1(i-1)* &
cc(m1,i-1,k,2))+(wa3(i-2)*cc(m1,i,k,4)-wa3(i-1)* &
cc(m1,i-1,k,4)))-(cc(m1,i,k,1)+(wa2(i-2)*cc(m1,i,k,3)- &
wa2(i-1)*cc(m1,i-1,k,3)))
ch(m2,i-1,3,k) = ((wa1(i-2)*cc(m1,i,k,2)-wa1(i-1)* &
cc(m1,i-1,k,2))-(wa3(i-2)*cc(m1,i,k,4)-wa3(i-1)* &
cc(m1,i-1,k,4)))+(cc(m1,i-1,k,1)-(wa2(i-2)*cc(m1,i-1,k,3)+ &
wa2(i-1)*cc(m1,i,k,3)))
ch(m2,ic-1,2,k) = (cc(m1,i-1,k,1)-(wa2(i-2)*cc(m1,i-1,k,3)+ &
wa2(i-1)*cc(m1,i,k,3)))-((wa1(i-2)*cc(m1,i,k,2)-wa1(i-1)* &
cc(m1,i-1,k,2))-(wa3(i-2)*cc(m1,i,k,4)-wa3(i-1)* &
cc(m1,i-1,k,4)))
ch(m2,i,3,k) = ((wa3(i-2)*cc(m1,i-1,k,4) + wa3(i-1)* &
cc(m1,i,k,4))-(wa1(i-2)*cc(m1,i-1,k,2) + wa1(i-1)* &
cc(m1,i,k,2)))+(cc(m1,i,k,1)-(wa2(i-2)*cc(m1,i,k,3)- &
wa2(i-1)*cc(m1,i-1,k,3)))
ch(m2,ic,2,k) = ((wa3(i-2)*cc(m1,i-1,k,4) + wa3(i-1)* &
cc(m1,i,k,4))-(wa1(i-2)*cc(m1,i-1,k,2) + wa1(i-1)* &
cc(m1,i,k,2)))-(cc(m1,i,k,1)-(wa2(i-2)*cc(m1,i,k,3)- &
wa2(i-1)*cc(m1,i-1,k,3)))
end do
end do
end do
if ( mod ( ido, 2 ) == 1 ) then
return
end if
end if
do k = 1, l1
m2 = m2s
do m1 = 1, m1d, im1
m2 = m2 + im2
ch(m2,ido,1,k) = cc(m1,ido,k,1) &
+ ( hsqt2 * ( cc(m1,ido,k,2) - cc(m1,ido,k,4) ) )
ch(m2,ido,3,k) = cc(m1,ido,k,1) &
- ( hsqt2 * ( cc(m1,ido,k,2) - cc(m1,ido,k,4) ) )
ch(m2,1,2,k) = -cc(m1,ido,k,3) &
+ ( -hsqt2 * ( cc(m1,ido,k,2) + cc(m1,ido,k,4) ) )
ch(m2,1,4,k) = cc(m1,ido,k,3) &
+ ( -hsqt2 * ( cc(m1,ido,k,2) + cc(m1,ido,k,4) ) )
end do
end do
return
end