subroutine mradb5 ( m, ido, l1, cc, im1, in1, ch, im2, in2, & wa1, wa2, wa3, wa4 ) !*****************************************************************************80 ! !! MRADB5 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 ) ido integer ( kind = 4 ) in1 integer ( kind = 4 ) in2 integer ( kind = 4 ) l1 real ( kind = 4 ) arg real ( kind = 4 ) cc(in1,ido,5,l1) real ( kind = 4 ) ch(in2,ido,l1,5) 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 ) ti11 real ( kind = 4 ) ti12 real ( kind = 4 ) tr11 real ( kind = 4 ) tr12 real ( kind = 4 ) wa1(ido) real ( kind = 4 ) wa2(ido) real ( kind = 4 ) wa3(ido) real ( kind = 4 ) wa4(ido) m1d = ( m - 1 ) * im1 + 1 m2s = 1 - im2 arg = 2.0E+00 * 4.0E+00 * atan ( 1.0E+00 ) / 5.E+00 tr11 = cos ( arg ) ti11 = sin ( arg ) tr12 = cos ( 2.0E+00 * arg ) ti12 = sin ( 2.0E+00 * arg ) do k = 1, l1 m2 = m2s do m1 = 1, m1d, im1 m2 = m2 + im2 ch(m2,1,k,1) = cc(m1,1,1,k) + 2.0E+00 * cc(m1,ido,2,k) & + 2.0E+00 * cc(m1,ido,4,k) ch(m2,1,k,2) = ( cc(m1,1,1,k) + tr11 * 2.0E+00 * cc(m1,ido,2,k) & + tr12 * 2.0E+00 * cc(m1,ido,4,k) ) - ( ti11 * 2.0E+00 * cc(m1,1,3,k) & + ti12 * 2.0E+00 * cc(m1,1,5,k) ) ch(m2,1,k,3) = ( cc(m1,1,1,k) + tr12 * 2.0E+00 * cc(m1,ido,2,k) & + tr11 * 2.0E+00 * cc(m1,ido,4,k) ) - ( ti12 * 2.0E+00 * cc(m1,1,3,k) & - ti11 * 2.0E+00 * cc(m1,1,5,k) ) ch(m2,1,k,4) = ( cc(m1,1,1,k) + tr12 * 2.0E+00 * cc(m1,ido,2,k) & + tr11 * 2.0E+00 * cc(m1,ido,4,k) ) + ( ti12 * 2.0E+00 * cc(m1,1,3,k) & - ti11 * 2.0E+00 * cc(m1,1,5,k) ) ch(m2,1,k,5) = ( cc(m1,1,1,k) + tr11 * 2.0E+00 * cc(m1,ido,2,k) & + tr12 * 2.0E+00 * cc(m1,ido,4,k) ) + ( ti11 * 2.0E+00 * cc(m1,1,3,k) & + ti12 * 2.0E+00 * cc(m1,1,5,k) ) end do end do if ( ido == 1 ) then return end if 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,k,1) = cc(m1,i-1,1,k)+(cc(m1,i-1,3,k)+cc(m1,ic-1,2,k)) & +(cc(m1,i-1,5,k)+cc(m1,ic-1,4,k)) ch(m2,i,k,1) = cc(m1,i,1,k)+(cc(m1,i,3,k)-cc(m1,ic,2,k)) & +(cc(m1,i,5,k)-cc(m1,ic,4,k)) ch(m2,i-1,k,2) = wa1(i-2)*((cc(m1,i-1,1,k)+tr11* & (cc(m1,i-1,3,k)+cc(m1,ic-1,2,k))+tr12 & *(cc(m1,i-1,5,k)+cc(m1,ic-1,4,k)))-(ti11*(cc(m1,i,3,k) & +cc(m1,ic,2,k))+ti12*(cc(m1,i,5,k)+cc(m1,ic,4,k)))) & -wa1(i-1)*((cc(m1,i,1,k)+tr11*(cc(m1,i,3,k)-cc(m1,ic,2,k)) & +tr12*(cc(m1,i,5,k)-cc(m1,ic,4,k)))+(ti11*(cc(m1,i-1,3,k) & -cc(m1,ic-1,2,k))+ti12*(cc(m1,i-1,5,k)-cc(m1,ic-1,4,k)))) ch(m2,i,k,2) = wa1(i-2)*((cc(m1,i,1,k)+tr11*(cc(m1,i,3,k) & -cc(m1,ic,2,k))+tr12*(cc(m1,i,5,k)-cc(m1,ic,4,k))) & +(ti11*(cc(m1,i-1,3,k)-cc(m1,ic-1,2,k))+ti12 & *(cc(m1,i-1,5,k)-cc(m1,ic-1,4,k)))) + wa1(i-1) & *((cc(m1,i-1,1,k)+tr11*(cc(m1,i-1,3,k) & +cc(m1,ic-1,2,k))+tr12*(cc(m1,i-1,5,k)+cc(m1,ic-1,4,k))) & -(ti11*(cc(m1,i,3,k)+cc(m1,ic,2,k))+ti12 & *(cc(m1,i,5,k)+cc(m1,ic,4,k)))) ch(m2,i-1,k,3) = wa2(i-2) & *((cc(m1,i-1,1,k)+tr12*(cc(m1,i-1,3,k)+cc(m1,ic-1,2,k)) & +tr11*(cc(m1,i-1,5,k)+cc(m1,ic-1,4,k)))-(ti12*(cc(m1,i,3,k) & +cc(m1,ic,2,k))-ti11*(cc(m1,i,5,k)+cc(m1,ic,4,k)))) & -wa2(i-1) & *((cc(m1,i,1,k)+tr12*(cc(m1,i,3,k)- & cc(m1,ic,2,k))+tr11*(cc(m1,i,5,k)-cc(m1,ic,4,k))) & +(ti12*(cc(m1,i-1,3,k)-cc(m1,ic-1,2,k))-ti11 & *(cc(m1,i-1,5,k)-cc(m1,ic-1,4,k)))) ch(m2,i,k,3) = wa2(i-2) & *((cc(m1,i,1,k)+tr12*(cc(m1,i,3,k)- & cc(m1,ic,2,k))+tr11*(cc(m1,i,5,k)-cc(m1,ic,4,k))) & +(ti12*(cc(m1,i-1,3,k)-cc(m1,ic-1,2,k))-ti11 & *(cc(m1,i-1,5,k)-cc(m1,ic-1,4,k)))) & + wa2(i-1) & *((cc(m1,i-1,1,k)+tr12*(cc(m1,i-1,3,k)+cc(m1,ic-1,2,k)) & +tr11*(cc(m1,i-1,5,k)+cc(m1,ic-1,4,k)))-(ti12*(cc(m1,i,3,k) & +cc(m1,ic,2,k))-ti11*(cc(m1,i,5,k)+cc(m1,ic,4,k)))) ch(m2,i-1,k,4) = wa3(i-2) & *((cc(m1,i-1,1,k)+tr12*(cc(m1,i-1,3,k)+cc(m1,ic-1,2,k)) & +tr11*(cc(m1,i-1,5,k)+cc(m1,ic-1,4,k)))+(ti12*(cc(m1,i,3,k) & +cc(m1,ic,2,k))-ti11*(cc(m1,i,5,k)+cc(m1,ic,4,k)))) & -wa3(i-1) & *((cc(m1,i,1,k)+tr12*(cc(m1,i,3,k)- & cc(m1,ic,2,k))+tr11*(cc(m1,i,5,k)-cc(m1,ic,4,k))) & -(ti12*(cc(m1,i-1,3,k)-cc(m1,ic-1,2,k))-ti11 & *(cc(m1,i-1,5,k)-cc(m1,ic-1,4,k)))) ch(m2,i,k,4) = wa3(i-2) & *((cc(m1,i,1,k)+tr12*(cc(m1,i,3,k)- & cc(m1,ic,2,k))+tr11*(cc(m1,i,5,k)-cc(m1,ic,4,k))) & -(ti12*(cc(m1,i-1,3,k)-cc(m1,ic-1,2,k))-ti11 & *(cc(m1,i-1,5,k)-cc(m1,ic-1,4,k)))) & + wa3(i-1) & *((cc(m1,i-1,1,k)+tr12*(cc(m1,i-1,3,k)+cc(m1,ic-1,2,k)) & +tr11*(cc(m1,i-1,5,k)+cc(m1,ic-1,4,k)))+(ti12*(cc(m1,i,3,k) & +cc(m1,ic,2,k))-ti11*(cc(m1,i,5,k)+cc(m1,ic,4,k)))) ch(m2,i-1,k,5) = wa4(i-2) & *((cc(m1,i-1,1,k)+tr11*(cc(m1,i-1,3,k)+cc(m1,ic-1,2,k)) & +tr12*(cc(m1,i-1,5,k)+cc(m1,ic-1,4,k)))+(ti11*(cc(m1,i,3,k) & +cc(m1,ic,2,k))+ti12*(cc(m1,i,5,k)+cc(m1,ic,4,k)))) & -wa4(i-1) & *((cc(m1,i,1,k)+tr11*(cc(m1,i,3,k)-cc(m1,ic,2,k)) & +tr12*(cc(m1,i,5,k)-cc(m1,ic,4,k)))-(ti11*(cc(m1,i-1,3,k) & -cc(m1,ic-1,2,k))+ti12*(cc(m1,i-1,5,k)-cc(m1,ic-1,4,k)))) ch(m2,i,k,5) = wa4(i-2) & *((cc(m1,i,1,k)+tr11*(cc(m1,i,3,k)-cc(m1,ic,2,k)) & +tr12*(cc(m1,i,5,k)-cc(m1,ic,4,k)))-(ti11*(cc(m1,i-1,3,k) & -cc(m1,ic-1,2,k))+ti12*(cc(m1,i-1,5,k)-cc(m1,ic-1,4,k)))) & + wa4(i-1) & *((cc(m1,i-1,1,k)+tr11*(cc(m1,i-1,3,k)+cc(m1,ic-1,2,k)) & +tr12*(cc(m1,i-1,5,k)+cc(m1,ic-1,4,k)))+(ti11*(cc(m1,i,3,k) & +cc(m1,ic,2,k))+ti12*(cc(m1,i,5,k)+cc(m1,ic,4,k)))) end do end do end do return end