SUBROUTINE RADFG (IDO,IP,L1,IDL1,CC,C1,C2,CH,CH2,WA) IMPLICIT DOUBLE PRECISION (A-H, O-Z) DIMENSION CH(IDO,L1,IP) ,CC(IDO,IP,L1) , 1 C1(IDO,L1,IP) ,C2(IDL1,IP), 2 CH2(IDL1,IP) ,WA(1) DATA TPI/6.28318530717958648d0/ ARG = TPI/DFLOAT(IP) DCP = DCOS(ARG) DSP = DSIN(ARG) IPPH = (IP+1)/2 IPP2 = IP+2 IDP2 = IDO+2 NBD = (IDO-1)/2 IF (IDO .EQ. 1) GO TO 119 DO 101 IK=1,IDL1 CH2(IK,1) = C2(IK,1) 101 CONTINUE DO 103 J=2,IP DO 102 K=1,L1 CH(1,K,J) = C1(1,K,J) 102 CONTINUE 103 CONTINUE IF (NBD .GT. L1) GO TO 107 IS = -IDO DO 106 J=2,IP IS = IS+IDO IDIJ = IS DO 105 I=3,IDO,2 IDIJ = IDIJ+2 DO 104 K=1,L1 CH(I-1,K,J) = WA(IDIJ-1)*C1(I-1,K,J)+WA(IDIJ)*C1(I,K,J) CH(I,K,J) = WA(IDIJ-1)*C1(I,K,J)-WA(IDIJ)*C1(I-1,K,J) 104 CONTINUE 105 CONTINUE 106 CONTINUE GO TO 111 107 IS = -IDO DO 110 J=2,IP IS = IS+IDO DO 109 K=1,L1 IDIJ = IS DO 108 I=3,IDO,2 IDIJ = IDIJ+2 CH(I-1,K,J) = WA(IDIJ-1)*C1(I-1,K,J)+WA(IDIJ)*C1(I,K,J) CH(I,K,J) = WA(IDIJ-1)*C1(I,K,J)-WA(IDIJ)*C1(I-1,K,J) 108 CONTINUE 109 CONTINUE 110 CONTINUE 111 IF (NBD .LT. L1) GO TO 115 DO 114 J=2,IPPH JC = IPP2-J DO 113 K=1,L1 DO 112 I=3,IDO,2 C1(I-1,K,J) = CH(I-1,K,J)+CH(I-1,K,JC) C1(I-1,K,JC) = CH(I,K,J)-CH(I,K,JC) C1(I,K,J) = CH(I,K,J)+CH(I,K,JC) C1(I,K,JC) = CH(I-1,K,JC)-CH(I-1,K,J) 112 CONTINUE 113 CONTINUE 114 CONTINUE GO TO 121 115 DO 118 J=2,IPPH JC = IPP2-J DO 117 I=3,IDO,2 DO 116 K=1,L1 C1(I-1,K,J) = CH(I-1,K,J)+CH(I-1,K,JC) C1(I-1,K,JC) = CH(I,K,J)-CH(I,K,JC) C1(I,K,J) = CH(I,K,J)+CH(I,K,JC) C1(I,K,JC) = CH(I-1,K,JC)-CH(I-1,K,J) 116 CONTINUE 117 CONTINUE 118 CONTINUE GO TO 121 119 DO 120 IK=1,IDL1 C2(IK,1) = CH2(IK,1) 120 CONTINUE 121 DO 123 J=2,IPPH JC = IPP2-J DO 122 K=1,L1 C1(1,K,J) = CH(1,K,J)+CH(1,K,JC) C1(1,K,JC) = CH(1,K,JC)-CH(1,K,J) 122 CONTINUE 123 CONTINUE C AR1 = 1.d0 AI1 = 0.d0 DO 127 L=2,IPPH LC = IPP2-L AR1H = DCP*AR1-DSP*AI1 AI1 = DCP*AI1+DSP*AR1 AR1 = AR1H DO 124 IK=1,IDL1 CH2(IK,L) = C2(IK,1)+AR1*C2(IK,2) CH2(IK,LC) = AI1*C2(IK,IP) 124 CONTINUE DC2 = AR1 DS2 = AI1 AR2 = AR1 AI2 = AI1 DO 126 J=3,IPPH JC = IPP2-J AR2H = DC2*AR2-DS2*AI2 AI2 = DC2*AI2+DS2*AR2 AR2 = AR2H DO 125 IK=1,IDL1 CH2(IK,L) = CH2(IK,L)+AR2*C2(IK,J) CH2(IK,LC) = CH2(IK,LC)+AI2*C2(IK,JC) 125 CONTINUE 126 CONTINUE 127 CONTINUE DO 129 J=2,IPPH DO 128 IK=1,IDL1 CH2(IK,1) = CH2(IK,1)+C2(IK,J) 128 CONTINUE 129 CONTINUE C IF (IDO .LT. L1) GO TO 132 DO 131 K=1,L1 DO 130 I=1,IDO CC(I,1,K) = CH(I,K,1) 130 CONTINUE 131 CONTINUE GO TO 135 132 DO 134 I=1,IDO DO 133 K=1,L1 CC(I,1,K) = CH(I,K,1) 133 CONTINUE 134 CONTINUE 135 DO 137 J=2,IPPH JC = IPP2-J J2 = J+J DO 136 K=1,L1 CC(IDO,J2-2,K) = CH(1,K,J) CC(1,J2-1,K) = CH(1,K,JC) 136 CONTINUE 137 CONTINUE IF (IDO .EQ. 1) RETURN IF (NBD .LT. L1) GO TO 141 DO 140 J=2,IPPH JC = IPP2-J J2 = J+J DO 139 K=1,L1 DO 138 I=3,IDO,2 IC = IDP2-I CC(I-1,J2-1,K) = CH(I-1,K,J)+CH(I-1,K,JC) CC(IC-1,J2-2,K) = CH(I-1,K,J)-CH(I-1,K,JC) CC(I,J2-1,K) = CH(I,K,J)+CH(I,K,JC) CC(IC,J2-2,K) = CH(I,K,JC)-CH(I,K,J) 138 CONTINUE 139 CONTINUE 140 CONTINUE RETURN 141 DO 144 J=2,IPPH JC = IPP2-J J2 = J+J DO 143 I=3,IDO,2 IC = IDP2-I DO 142 K=1,L1 CC(I-1,J2-1,K) = CH(I-1,K,J)+CH(I-1,K,JC) CC(IC-1,J2-2,K) = CH(I-1,K,J)-CH(I-1,K,JC) CC(I,J2-1,K) = CH(I,K,J)+CH(I,K,JC) CC(IC,J2-2,K) = CH(I,K,JC)-CH(I,K,J) 142 CONTINUE 143 CONTINUE 144 CONTINUE RETURN END