subroutine mradbg ( m, ido, ip, l1, idl1, cc, c1, c2, im1, in1, & ch, ch2, im2, in2, wa ) !*****************************************************************************80 ! !! MRADBG is an FFTPACK5 auxiliary routine. ! ! ! 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 ) idl1 integer ( kind = 4 ) ido integer ( kind = 4 ) in1 integer ( kind = 4 ) in2 integer ( kind = 4 ) ip integer ( kind = 4 ) l1 real ( kind = 4 ) ai1 real ( kind = 4 ) ai2 real ( kind = 4 ) ar1 real ( kind = 4 ) ar1h real ( kind = 4 ) ar2 real ( kind = 4 ) ar2h real ( kind = 4 ) arg real ( kind = 4 ) c1(in1,ido,l1,ip) real ( kind = 4 ) c2(in1,idl1,ip) real ( kind = 4 ) cc(in1,ido,ip,l1) real ( kind = 4 ) ch(in2,ido,l1,ip) real ( kind = 4 ) ch2(in2,idl1,ip) real ( kind = 4 ) dc2 real ( kind = 4 ) dcp real ( kind = 4 ) ds2 real ( kind = 4 ) dsp integer ( kind = 4 ) i integer ( kind = 4 ) ic integer ( kind = 4 ) idij integer ( kind = 4 ) idp2 integer ( kind = 4 ) ik integer ( kind = 4 ) im1 integer ( kind = 4 ) im2 integer ( kind = 4 ) ipp2 integer ( kind = 4 ) ipph integer ( kind = 4 ) is integer ( kind = 4 ) j integer ( kind = 4 ) j2 integer ( kind = 4 ) jc integer ( kind = 4 ) k integer ( kind = 4 ) l integer ( kind = 4 ) lc integer ( kind = 4 ) m integer ( kind = 4 ) m1 integer ( kind = 4 ) m1d integer ( kind = 4 ) m2 integer ( kind = 4 ) m2s integer ( kind = 4 ) nbd real ( kind = 4 ) tpi real ( kind = 4 ) wa(ido) m1d = ( m - 1 ) * im1 + 1 m2s = 1 - im2 tpi = 2.0E+00 * 4.0E+00 * atan ( 1.0E+00 ) arg = tpi / real ( ip, kind = 4 ) dcp = cos ( arg ) dsp = sin ( arg ) idp2 = ido + 2 nbd = ( ido - 1 ) / 2 ipp2 = ip + 2 ipph = ( ip + 1 ) / 2 if ( ido < l1 ) then do i = 1, ido do k = 1, l1 m2 = m2s do m1 = 1, m1d, im1 m2 = m2 + im2 ch(m2,i,k,1) = cc(m1,i,1,k) end do end do end do else do k = 1, l1 do i = 1, ido m2 = m2s do m1 = 1, m1d, im1 m2 = m2 + im2 ch(m2,i,k,1) = cc(m1,i,1,k) end do end do end do end if do j = 2, ipph jc = ipp2 - j j2 = j + j do k = 1, l1 m2 = m2s do m1 = 1, m1d, im1 m2 = m2 + im2 ch(m2,1,k,j) = cc(m1,ido,j2-2,k) + cc(m1,ido,j2-2,k) ch(m2,1,k,jc) = cc(m1,1,j2-1,k) + cc(m1,1,j2-1,k) end do end do end do if ( ido == 1 ) then else if ( nbd < l1 ) then do j = 2, ipph jc = ipp2 - j do i = 3, ido, 2 ic = idp2 - i do k = 1, l1 m2 = m2s do m1 = 1, m1d, im1 m2 = m2 + im2 ch(m2,i-1,k,j) = cc(m1,i-1,2*j-1,k) + cc(m1,ic-1,2*j-2,k) ch(m2,i-1,k,jc) = cc(m1,i-1,2*j-1,k) - cc(m1,ic-1,2*j-2,k) ch(m2,i,k,j) = cc(m1,i,2*j-1,k) - cc(m1,ic,2*j-2,k) ch(m2,i,k,jc) = cc(m1,i,2*j-1,k) + cc(m1,ic,2*j-2,k) end do end do end do end do else do j = 2, ipph jc = ipp2 - j 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,k,j) = cc(m1,i-1,2*j-1,k) + cc(m1,ic-1,2*j-2,k) ch(m2,i-1,k,jc) = cc(m1,i-1,2*j-1,k) - cc(m1,ic-1,2*j-2,k) ch(m2,i,k,j) = cc(m1,i,2*j-1,k) - cc(m1,ic,2*j-2,k) ch(m2,i,k,jc) = cc(m1,i,2*j-1,k) + cc(m1,ic,2*j-2,k) end do end do end do end do end if ar1 = 1.0E+00 ai1 = 0.0E+00 do l = 2, ipph lc = ipp2 - l ar1h = dcp * ar1 - dsp * ai1 ai1 = dcp * ai1 + dsp * ar1 ar1 = ar1h do ik = 1, idl1 m2 = m2s do m1 = 1, m1d, im1 m2 = m2 + im2 c2(m1,ik,l) = ch2(m2,ik,1) + ar1 * ch2(m2,ik,2) c2(m1,ik,lc) = ai1 * ch2(m2,ik,ip) end do end do dc2 = ar1 ds2 = ai1 ar2 = ar1 ai2 = ai1 do j = 3, ipph jc = ipp2 - j ar2h = dc2 * ar2 - ds2 * ai2 ai2 = dc2 * ai2 + ds2 * ar2 ar2 = ar2h do ik = 1, idl1 m2 = m2s do m1 = 1, m1d, im1 m2 = m2 + im2 c2(m1,ik,l) = c2(m1,ik,l) + ar2 * ch2(m2,ik,j) c2(m1,ik,lc) = c2(m1,ik,lc) + ai2 * ch2(m2,ik,jc) end do end do end do end do do j = 2, ipph do ik = 1, idl1 m2 = m2s do m1 = 1, m1d, im1 m2 = m2 + im2 ch2(m2,ik,1) = ch2(m2,ik,1) + ch2(m2,ik,j) end do end do end do do j = 2, ipph jc = ipp2 - j do k = 1, l1 m2 = m2s do m1 = 1, m1d, im1 m2 = m2 + im2 ch(m2,1,k,j) = c1(m1,1,k,j) - c1(m1,1,k,jc) ch(m2,1,k,jc) = c1(m1,1,k,j) + c1(m1,1,k,jc) end do end do end do if ( ido == 1 ) then else if ( nbd < l1 ) then do j = 2, ipph jc = ipp2 - j do i = 3, ido, 2 do k = 1, l1 m2 = m2s do m1 = 1, m1d, im1 m2 = m2 + im2 ch(m2,i-1,k,j) = c1(m1,i-1,k,j) - c1(m1,i,k,jc) ch(m2,i-1,k,jc) = c1(m1,i-1,k,j) + c1(m1,i,k,jc) ch(m2,i,k,j) = c1(m1,i,k,j) + c1(m1,i-1,k,jc) ch(m2,i,k,jc) = c1(m1,i,k,j) - c1(m1,i-1,k,jc) end do end do end do end do else do j = 2, ipph jc = ipp2 - j do k = 1, l1 do i = 3, ido, 2 m2 = m2s do m1 = 1, m1d, im1 m2 = m2 + im2 ch(m2,i-1,k,j) = c1(m1,i-1,k,j) - c1(m1,i,k,jc) ch(m2,i-1,k,jc) = c1(m1,i-1,k,j) + c1(m1,i,k,jc) ch(m2,i,k,j) = c1(m1,i,k,j) + c1(m1,i-1,k,jc) ch(m2,i,k,jc) = c1(m1,i,k,j) - c1(m1,i-1,k,jc) end do end do end do end do end if if ( ido == 1 ) then return end if do ik = 1, idl1 m2 = m2s do m1 = 1, m1d, im1 m2 = m2 + im2 c2(m1,ik,1) = ch2(m2,ik,1) end do end do do j = 2, ip do k = 1, l1 m2 = m2s do m1 = 1, m1d, im1 m2 = m2 + im2 c1(m1,1,k,j) = ch(m2,1,k,j) end do end do end do if ( l1 < nbd ) then is = -ido do j = 2, ip is = is + ido do k = 1, l1 idij = is do i = 3, ido, 2 idij = idij + 2 m2 = m2s do m1 = 1, m1d, im1 m2 = m2 + im2 c1(m1,i-1,k,j) = wa(idij-1) * ch(m2,i-1,k,j) & - wa(idij) * ch(m2,i,k,j) c1(m1,i,k,j) = wa(idij-1) * ch(m2,i,k,j) & + wa(idij) * ch(m2,i-1,k,j) end do end do end do end do else is = -ido do j = 2, ip is = is + ido idij = is do i = 3, ido, 2 idij = idij + 2 do k = 1, l1 m2 = m2s do m1 = 1, m1d, im1 m2 = m2 + im2 c1(m1,i-1,k,j) = wa(idij-1) * ch(m2,i-1,k,j) & - wa(idij) * ch(m2,i,k,j) c1(m1,i,k,j) = wa(idij-1) * ch(m2,i,k,j) & + wa(idij) * ch(m2,i-1,k,j) end do end do end do end do end if return end