!CCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCC ! ! FFTPACK 5.0 ! Copyright (C) 1995-2004, Scientific Computing Division, ! University Corporation for Atmospheric Research ! Licensed under the GNU General Public License (GPL) ! ! Authors: Paul N. Swarztrauber and Richard A. Valent ! ! $Id: cmf2kf.f,v 1.2 2004/06/15 21:08:32 rodney Exp $ ! !CCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCC SUBROUTINE CMF2KF (LOT,IDO,L1,NA,CC,IM1,IN1,CH,IM2,IN2,WA) REAL CC(2,IN1,L1,IDO,2),CH(2,IN2,L1,2,IDO),WA(IDO,1,2) ! M1D = (LOT-1)*IM1+1 M2S = 1-IM2 IF (IDO .GT. 1) GO TO 102 SN = 1./REAL(2*L1) IF (NA .EQ. 1) GO TO 106 DO 101 K=1,L1 DO 101 M1=1,M1D,IM1 CHOLD1 = SN*(CC(1,M1,K,1,1)+CC(1,M1,K,1,2)) CC(1,M1,K,1,2) = SN*(CC(1,M1,K,1,1)-CC(1,M1,K,1,2)) CC(1,M1,K,1,1) = CHOLD1 CHOLD2 = SN*(CC(2,M1,K,1,1)+CC(2,M1,K,1,2)) CC(2,M1,K,1,2) = SN*(CC(2,M1,K,1,1)-CC(2,M1,K,1,2)) CC(2,M1,K,1,1) = CHOLD2 101 CONTINUE RETURN 106 DO 107 K=1,L1 M2 = M2S DO 107 M1=1,M1D,IM1 M2 = M2+IM2 CH(1,M2,K,1,1) = SN*(CC(1,M1,K,1,1)+CC(1,M1,K,1,2)) CH(1,M2,K,2,1) = SN*(CC(1,M1,K,1,1)-CC(1,M1,K,1,2)) CH(2,M2,K,1,1) = SN*(CC(2,M1,K,1,1)+CC(2,M1,K,1,2)) CH(2,M2,K,2,1) = SN*(CC(2,M1,K,1,1)-CC(2,M1,K,1,2)) 107 CONTINUE RETURN 102 DO 103 K=1,L1 M2 = M2S DO 103 M1=1,M1D,IM1 M2 = M2+IM2 CH(1,M2,K,1,1) = CC(1,M1,K,1,1)+CC(1,M1,K,1,2) CH(1,M2,K,2,1) = CC(1,M1,K,1,1)-CC(1,M1,K,1,2) CH(2,M2,K,1,1) = CC(2,M1,K,1,1)+CC(2,M1,K,1,2) CH(2,M2,K,2,1) = CC(2,M1,K,1,1)-CC(2,M1,K,1,2) 103 CONTINUE DO 105 I=2,IDO DO 104 K=1,L1 M2 = M2S DO 104 M1=1,M1D,IM1 M2 = M2+IM2 CH(1,M2,K,1,I) = CC(1,M1,K,I,1)+CC(1,M1,K,I,2) TR2 = CC(1,M1,K,I,1)-CC(1,M1,K,I,2) CH(2,M2,K,1,I) = CC(2,M1,K,I,1)+CC(2,M1,K,I,2) TI2 = CC(2,M1,K,I,1)-CC(2,M1,K,I,2) CH(2,M2,K,2,I) = WA(I,1,1)*TI2-WA(I,1,2)*TR2 CH(1,M2,K,2,I) = WA(I,1,1)*TR2+WA(I,1,2)*TI2 104 CONTINUE 105 END DO RETURN END