SUBROUTINE dcrft(init,x,ldx,y,ldy,n,m,isign,scale, & table,n1,wrk,n2,z,nz) implicit none integer init,ldx,ldy,n,m,isign,n1,n2,nz,i,j real x(2*ldx,*),y(ldy,*),scale,table(44002),wrk,z IF (init.ne.0) THEN CALL rffti(n,table) ELSE !OCL NOVREC DO j=1,m y(1,j)=x(1,j) DO i=2,n y(i,j)=x(i+1,j) ENDDO CALL rfftb(n,y(1,j),table) DO i=1,n y(i,j)=scale*y(i,j) ENDDO ENDDO ENDIF RETURN END SUBROUTINE scrft(init,x,ldx,y,ldy,n,m,isign,scale, & table,n1,wrk,n2,z,nz) implicit none integer init,ldx,ldy,n,m,isign,n1,n2,nz,i,j real x(2*ldx,*),y(ldy,*),scale,table(44002),wrk,z IF (init.ne.0) THEN CALL rffti(n,table) ELSE !OCL NOVREC DO j=1,m y(1,j)=x(1,j) DO i=2,n y(i,j)=x(i+1,j) ENDDO CALL rfftb(n,y(1,j),table) DO i=1,n y(i,j)=scale*y(i,j) ENDDO ENDDO ENDIF RETURN END c c*********************************************************************** c SUBROUTINE csfft(isign,n,scale,x,y,table,work,isys) implicit none integer isign,n,isys,i real scale,x(*),y(*),table(*),work(*) IF (isign.eq.0) THEN CALL rffti(n,table) ENDIF IF (isign.eq.1) THEN y(1)=x(1) DO i=2,n y(i)=x(i+1) ENDDO CALL rfftb(n,y,table) DO i=1,n y(i)=scale*y(i) ENDDO ENDIF RETURN END c c*********************************************************************** c SUBROUTINE drcft(init,x,ldx,y,ldy,n,m,isign,scale, & table,n1,wrk,n2,z,nz) implicit none integer init,ldx,ldy,n,m,isign,n1,n2,nz,i,j real x(ldx,*),y(2*ldy,*),scale,table(44002),wrk,z IF (init.ne.0) THEN CALL rffti(n,table) ELSE DO j=1,m DO i=1,n y(i,j)=x(i,j) ENDDO CALL rfftf(n,y(1,j),table) DO i=1,n y(i,j)=scale*y(i,j) ENDDO DO i=n,2,-1 y(i+1,j)=y(i,j) ENDDO y(2,j) = 0. y(n+2,j) = 0. ENDDO ENDIF RETURN END c c*********************************************************************** c SUBROUTINE srcft(init,x,ldx,y,ldy,n,m,isign,scale, & table,n1,wrk,n2,z,nz) implicit none integer init,ldx,ldy,n,m,isign,n1,n2,nz,i,j real x(ldx,*),y(2*ldy,*),scale,table(44002),wrk,z IF (init.ne.0) THEN CALL rffti(n,table) ELSE DO j=1,m DO i=1,n y(i,j)=x(i,j) ENDDO CALL rfftf(n,y(1,j),table) DO i=1,n y(i,j)=scale*y(i,j) ENDDO DO i=n,2,-1 y(i+1,j)=y(i,j) ENDDO y(2,j) = 0. y(n+2,j) = 0. ENDDO ENDIF RETURN END c c*********************************************************************** c SUBROUTINE scfft(isign,n,scale,x,y,table,work,isys) implicit none integer isign,n,isys,i real scale,x(*),y(*),table(*),work(*) IF (isign.eq.0) THEN CALL rffti(n,table) ENDIF IF (isign.eq.-1) THEN DO i=1,n y(i)=x(i) ENDDO CALL rfftf(n,y,table) DO i=1,n y(i)=scale*y(i) ENDDO DO i=n,2,-1 y(i+1)=y(i) ENDDO y(2)=0. ENDIF RETURN END c c ****************************************************************** c ****************************************************************** c ****** ****** c ****** FFTPACK ****** c ****** ****** c ****************************************************************** c ****************************************************************** c SUBROUTINE RFFTF (N,R,WSAVE) C DIMENSION R(1) ,WSAVE(1) c intro of implicit none > > implicit none real r real wsave integer ld integer n integer nf integer nfm1 integer nl integer nq integer nr integer ntry integer ntryh real tpi real wa c ^^^^^^^^^^^^^^^ DIMENSION R(1) ,WSAVE(1) IF (N .EQ. 1) RETURN CALL RFFTF1 (N,R,WSAVE,WSAVE(N+1),WSAVE(2*N+1)) RETURN END SUBROUTINE RFFTB (N,R,WSAVE) c intro of implicit none > > implicit none integer n real r real wsave c ^^^^^^^^^^^^^^ DIMENSION R(1) ,WSAVE(1) IF (N .EQ. 1) RETURN CALL RFFTB1 (N,R,WSAVE,WSAVE(N+1),WSAVE(2*N+1)) RETURN END SUBROUTINE RFFTI (N,WSAVE) c intro of implicit none > > implicit none integer n real wsave c ^^^^^^^^^^^^^ DIMENSION WSAVE(1) IF (N .EQ. 1) RETURN CALL RFFTI1 (N,WSAVE(N+1),WSAVE(2*N+1)) RETURN END SUBROUTINE RFFTB1 (N,C,CH,WA,IFAC) c intro of implicit none > > implicit none real c real ch integer i integer idl1 integer ido integer ifac integer ip integer iw integer ix2 integer ix3 integer ix4 integer k1 integer l1 integer l2 integer n integer na integer nf real wa c ^^^^^^^^^^^^^^ DIMENSION CH(1) ,C(1) ,WA(1) ,IFAC(*) NF = IFAC(2) NA = 0 L1 = 1 IW = 1 DO 116 K1=1,NF IP = IFAC(K1+2) L2 = IP*L1 IDO = N/L2 IDL1 = IDO*L1 IF (IP .NE. 4) GO TO 103 IX2 = IW+IDO IX3 = IX2+IDO IF (NA .NE. 0) GO TO 101 CALL RADB4 (IDO,L1,C,CH,WA(IW),WA(IX2),WA(IX3)) GO TO 102 101 CALL RADB4 (IDO,L1,CH,C,WA(IW),WA(IX2),WA(IX3)) 102 NA = 1-NA GO TO 115 103 IF (IP .NE. 2) GO TO 106 IF (NA .NE. 0) GO TO 104 CALL RADB2 (IDO,L1,C,CH,WA(IW)) GO TO 105 104 CALL RADB2 (IDO,L1,CH,C,WA(IW)) 105 NA = 1-NA GO TO 115 106 IF (IP .NE. 3) GO TO 109 IX2 = IW+IDO IF (NA .NE. 0) GO TO 107 CALL RADB3 (IDO,L1,C,CH,WA(IW),WA(IX2)) GO TO 108 107 CALL RADB3 (IDO,L1,CH,C,WA(IW),WA(IX2)) 108 NA = 1-NA GO TO 115 109 IF (IP .NE. 5) GO TO 112 IX2 = IW+IDO IX3 = IX2+IDO IX4 = IX3+IDO IF (NA .NE. 0) GO TO 110 CALL RADB5 (IDO,L1,C,CH,WA(IW),WA(IX2),WA(IX3),WA(IX4)) GO TO 111 110 CALL RADB5 (IDO,L1,CH,C,WA(IW),WA(IX2),WA(IX3),WA(IX4)) 111 NA = 1-NA GO TO 115 112 IF (NA .NE. 0) GO TO 113 CALL RADBG (IDO,IP,L1,IDL1,C,C,C,CH,CH,WA(IW)) GO TO 114 113 CALL RADBG (IDO,IP,L1,IDL1,CH,CH,CH,C,C,WA(IW)) 114 IF (IDO .EQ. 1) NA = 1-NA 115 L1 = L2 IW = IW+(IP-1)*IDO 116 CONTINUE IF (NA .EQ. 0) RETURN DO 117 I=1,N C(I) = CH(I) 117 CONTINUE RETURN END SUBROUTINE RFFTF1 (N,C,CH,WA,IFAC) c intro of implicit none > > implicit none real c real ch integer i integer idl1 integer ido integer ifac integer ip integer iw integer ix2 integer ix3 integer ix4 integer k1 integer :: kh integer l1 integer l2 integer n integer na integer nf real wa c ^^^^^^^^^^^^^^ DIMENSION CH(1) ,C(1) ,WA(1) ,IFAC(*) NF = IFAC(2) NA = 1 L2 = N IW = N DO 111 K1=1,NF KH = NF-K1 IP = IFAC(KH+3) L1 = L2/IP IDO = N/L2 IDL1 = IDO*L1 IW = IW-(IP-1)*IDO NA = 1-NA IF (IP .NE. 4) GO TO 102 IX2 = IW+IDO IX3 = IX2+IDO IF (NA .NE. 0) GO TO 101 CALL RADF4 (IDO,L1,C,CH,WA(IW),WA(IX2),WA(IX3)) GO TO 110 101 CALL RADF4 (IDO,L1,CH,C,WA(IW),WA(IX2),WA(IX3)) GO TO 110 102 IF (IP .NE. 2) GO TO 104 IF (NA .NE. 0) GO TO 103 CALL RADF2 (IDO,L1,C,CH,WA(IW)) GO TO 110 103 CALL RADF2 (IDO,L1,CH,C,WA(IW)) GO TO 110 104 IF (IP .NE. 3) GO TO 106 IX2 = IW+IDO IF (NA .NE. 0) GO TO 105 CALL RADF3 (IDO,L1,C,CH,WA(IW),WA(IX2)) GO TO 110 105 CALL RADF3 (IDO,L1,CH,C,WA(IW),WA(IX2)) GO TO 110 106 IF (IP .NE. 5) GO TO 108 IX2 = IW+IDO IX3 = IX2+IDO IX4 = IX3+IDO IF (NA .NE. 0) GO TO 107 CALL RADF5 (IDO,L1,C,CH,WA(IW),WA(IX2),WA(IX3),WA(IX4)) GO TO 110 107 CALL RADF5 (IDO,L1,CH,C,WA(IW),WA(IX2),WA(IX3),WA(IX4)) GO TO 110 108 IF (IDO .EQ. 1) NA = 1-NA IF (NA .NE. 0) GO TO 109 CALL RADFG (IDO,IP,L1,IDL1,C,C,C,CH,CH,WA(IW)) NA = 1 GO TO 110 109 CALL RADFG (IDO,IP,L1,IDL1,CH,CH,CH,C,C,WA(IW)) NA = 0 110 L2 = L1 111 CONTINUE IF (NA .EQ. 1) RETURN DO 112 I=1,N C(I) = CH(I) 112 CONTINUE RETURN END SUBROUTINE RFFTI1 (N,WA,IFAC) c intro of implicit none > > implicit none real :: arg real :: argh real :: argld real :: fi integer :: i integer :: ib integer :: ido integer :: ifac integer :: ii integer :: ip integer :: ipm integer :: is integer :: j integer :: k1 integer :: l1 integer :: l2 integer :: ld integer :: n integer :: nf integer :: nfm1 integer :: nl integer :: nq integer :: nr integer :: ntry integer :: ntryh real :: tpi real :: wa c intro of implicit none > > DIMENSION WA(1) ,IFAC(*) ,NTRYH(4) DATA NTRYH(1),NTRYH(2),NTRYH(3),NTRYH(4)/4,2,3,5/ NL = N NF = 0 J = 0 101 J = J+1 IF (J-4) 102,102,103 102 NTRY = NTRYH(J) GO TO 104 103 NTRY = NTRY+2 104 NQ = NL/NTRY NR = NL-NTRY*NQ IF (NR) 101,105,101 105 NF = NF+1 IFAC(NF+2) = NTRY NL = NQ IF (NTRY .NE. 2) GO TO 107 IF (NF .EQ. 1) GO TO 107 DO 106 I=2,NF IB = NF-I+2 IFAC(IB+2) = IFAC(IB+1) 106 CONTINUE IFAC(3) = 2 107 IF (NL .NE. 1) GO TO 104 IFAC(1) = N IFAC(2) = NF TPI = 6.28318530717959 ARGH = TPI/FLOAT(N) IS = 0 NFM1 = NF-1 L1 = 1 IF (NFM1 .EQ. 0) RETURN !OCL NOVREC DO 110 K1=1,NFM1 IP = IFAC(K1+2) LD = 0 L2 = L1*IP IDO = N/L2 IPM = IP-1 DO 109 J=1,IPM LD = LD+L1 I = IS ARGLD = FLOAT(LD)*ARGH FI = 0 !OCL SCALAR DO 108 II=3,IDO,2 I = I+2 FI = FI+1 ARG = FI*ARGLD WA(I-1) = COS(ARG) WA(I) = SIN(ARG) 108 CONTINUE IS = IS+IDO 109 CONTINUE L1 = L2 110 CONTINUE RETURN END SUBROUTINE RADB2 (IDO,L1,CC,CH,WA1) c intro of implicit none > > implicit none real cc real ch integer i integer ic integer ido integer idp2 integer k integer l1 real ti2 real tr2 real wa1 c ^^^^^^^^^^^^^ DIMENSION CC(IDO,2,L1) ,CH(IDO,L1,2) , 1 WA1(1) DO 101 K=1,L1 CH(1,K,1) = CC(1,1,K)+CC(IDO,2,K) CH(1,K,2) = CC(1,1,K)-CC(IDO,2,K) 101 CONTINUE IF (IDO-2) 107,105,102 102 IDP2 = IDO+2 !OCL NOVREC DO 104 K=1,L1 DO 103 I=3,IDO,2 IC = IDP2-I CH(I-1,K,1) = CC(I-1,1,K)+CC(IC-1,2,K) TR2 = CC(I-1,1,K)-CC(IC-1,2,K) CH(I,K,1) = CC(I,1,K)-CC(IC,2,K) TI2 = CC(I,1,K)+CC(IC,2,K) CH(I-1,K,2) = WA1(I-2)*TR2-WA1(I-1)*TI2 CH(I,K,2) = WA1(I-2)*TI2+WA1(I-1)*TR2 103 CONTINUE 104 CONTINUE IF (MOD(IDO,2) .EQ. 1) RETURN 105 DO 106 K=1,L1 CH(IDO,K,1) = CC(IDO,1,K)+CC(IDO,1,K) CH(IDO,K,2) = -(CC(1,2,K)+CC(1,2,K)) 106 CONTINUE 107 RETURN END SUBROUTINE RADB3 (IDO,L1,CC,CH,WA1,WA2) c intro of implicit none > > implicit none real cc real ch real ci2 real ci3 real cr2 real cr3 real di2 real di3 real dr2 real dr3 integer i integer ic integer ido integer idp2 integer k integer l1 real taui real taur real ti2 real tr2 real wa1 real wa2 c intro of implicit none > > DIMENSION CC(IDO,3,L1) ,CH(IDO,L1,3) , 1 WA1(1) ,WA2(1) DATA TAUR,TAUI /-.5,.866025403784439/ DO 101 K=1,L1 TR2 = CC(IDO,2,K)+CC(IDO,2,K) CR2 = CC(1,1,K)+TAUR*TR2 CH(1,K,1) = CC(1,1,K)+TR2 CI3 = TAUI*(CC(1,3,K)+CC(1,3,K)) CH(1,K,2) = CR2-CI3 CH(1,K,3) = CR2+CI3 101 CONTINUE IF (IDO .EQ. 1) RETURN IDP2 = IDO+2 !OCL NOVREC DO 103 K=1,L1 DO 102 I=3,IDO,2 IC = IDP2-I TR2 = CC(I-1,3,K)+CC(IC-1,2,K) CR2 = CC(I-1,1,K)+TAUR*TR2 CH(I-1,K,1) = CC(I-1,1,K)+TR2 TI2 = CC(I,3,K)-CC(IC,2,K) CI2 = CC(I,1,K)+TAUR*TI2 CH(I,K,1) = CC(I,1,K)+TI2 CR3 = TAUI*(CC(I-1,3,K)-CC(IC-1,2,K)) CI3 = TAUI*(CC(I,3,K)+CC(IC,2,K)) DR2 = CR2-CI3 DR3 = CR2+CI3 DI2 = CI2+CR3 DI3 = CI2-CR3 CH(I-1,K,2) = WA1(I-2)*DR2-WA1(I-1)*DI2 CH(I,K,2) = WA1(I-2)*DI2+WA1(I-1)*DR2 CH(I-1,K,3) = WA2(I-2)*DR3-WA2(I-1)*DI3 CH(I,K,3) = WA2(I-2)*DI3+WA2(I-1)*DR3 102 CONTINUE 103 CONTINUE RETURN END SUBROUTINE RADB4 (IDO,L1,CC,CH,WA1,WA2,WA3) c intro of implicit none > > implicit none real cc real ch real ci2 real ci3 real ci4 real cr2 real cr3 real cr4 integer i integer ic integer ido integer idp2 integer k integer l1 real sqrt2 real ti1 real ti2 real ti3 real ti4 real tr1 real tr2 real tr3 real tr4 real wa1 real wa2 real wa3 c intro of implicit none > > DIMENSION CC(IDO,4,L1) ,CH(IDO,L1,4), 1 WA1(1) ,WA2(1) ,WA3(1) DATA SQRT2 /1.414213562373095/ DO 101 K=1,L1 TR1 = CC(1,1,K)-CC(IDO,4,K) TR2 = CC(1,1,K)+CC(IDO,4,K) TR3 = CC(IDO,2,K)+CC(IDO,2,K) TR4 = CC(1,3,K)+CC(1,3,K) CH(1,K,1) = TR2+TR3 CH(1,K,2) = TR1-TR4 CH(1,K,3) = TR2-TR3 CH(1,K,4) = TR1+TR4 101 CONTINUE IF (IDO-2) 107,105,102 102 IDP2 = IDO+2 !OCL NOVREC DO 104 K=1,L1 DO 103 I=3,IDO,2 IC = IDP2-I TI1 = CC(I,1,K)+CC(IC,4,K) TI2 = CC(I,1,K)-CC(IC,4,K) TI3 = CC(I,3,K)-CC(IC,2,K) TR4 = CC(I,3,K)+CC(IC,2,K) TR1 = CC(I-1,1,K)-CC(IC-1,4,K) TR2 = CC(I-1,1,K)+CC(IC-1,4,K) TI4 = CC(I-1,3,K)-CC(IC-1,2,K) TR3 = CC(I-1,3,K)+CC(IC-1,2,K) CH(I-1,K,1) = TR2+TR3 CR3 = TR2-TR3 CH(I,K,1) = TI2+TI3 CI3 = TI2-TI3 CR2 = TR1-TR4 CR4 = TR1+TR4 CI2 = TI1+TI4 CI4 = TI1-TI4 CH(I-1,K,2) = WA1(I-2)*CR2-WA1(I-1)*CI2 CH(I,K,2) = WA1(I-2)*CI2+WA1(I-1)*CR2 CH(I-1,K,3) = WA2(I-2)*CR3-WA2(I-1)*CI3 CH(I,K,3) = WA2(I-2)*CI3+WA2(I-1)*CR3 CH(I-1,K,4) = WA3(I-2)*CR4-WA3(I-1)*CI4 CH(I,K,4) = WA3(I-2)*CI4+WA3(I-1)*CR4 103 CONTINUE 104 CONTINUE IF (MOD(IDO,2) .EQ. 1) RETURN 105 CONTINUE DO 106 K=1,L1 TI1 = CC(1,2,K)+CC(1,4,K) TI2 = CC(1,4,K)-CC(1,2,K) TR1 = CC(IDO,1,K)-CC(IDO,3,K) TR2 = CC(IDO,1,K)+CC(IDO,3,K) CH(IDO,K,1) = TR2+TR2 CH(IDO,K,2) = SQRT2*(TR1-TI1) CH(IDO,K,3) = TI2+TI2 CH(IDO,K,4) = -SQRT2*(TR1+TI1) 106 CONTINUE 107 RETURN END SUBROUTINE RADB5 (IDO,L1,CC,CH,WA1,WA2,WA3,WA4) c intro of implicit none > > implicit none real cc real ch real ci2 real ci3 real ci4 real ci5 real cr2 real cr3 real cr4 real cr5 real di2 real di3 real di4 real di5 real dr2 real dr3 real dr4 real dr5 integer i integer ic integer ido integer idp2 integer k integer l1 real ti11 real ti12 real ti2 real ti3 real ti4 real ti5 real tr11 real tr12 real tr2 real tr3 real tr4 real tr5 real wa1 real wa2 real wa3 real wa4 c intro of implicit none > > DIMENSION CC(IDO,5,L1) ,CH(IDO,L1,5) , 1 WA1(1) ,WA2(1) ,WA3(1) ,WA4(1) DATA TR11,TI11,TR12,TI12 /.309016994374947,.951056516295154, 1-.809016994374947,.587785252292473/ DO 101 K=1,L1 TI5 = CC(1,3,K)+CC(1,3,K) TI4 = CC(1,5,K)+CC(1,5,K) TR2 = CC(IDO,2,K)+CC(IDO,2,K) TR3 = CC(IDO,4,K)+CC(IDO,4,K) CH(1,K,1) = CC(1,1,K)+TR2+TR3 CR2 = CC(1,1,K)+TR11*TR2+TR12*TR3 CR3 = CC(1,1,K)+TR12*TR2+TR11*TR3 CI5 = TI11*TI5+TI12*TI4 CI4 = TI12*TI5-TI11*TI4 CH(1,K,2) = CR2-CI5 CH(1,K,3) = CR3-CI4 CH(1,K,4) = CR3+CI4 CH(1,K,5) = CR2+CI5 101 CONTINUE IF (IDO .EQ. 1) RETURN IDP2 = IDO+2 DO 103 K=1,L1 DO 102 I=3,IDO,2 IC = IDP2-I TI5 = CC(I,3,K)+CC(IC,2,K) TI2 = CC(I,3,K)-CC(IC,2,K) TI4 = CC(I,5,K)+CC(IC,4,K) TI3 = CC(I,5,K)-CC(IC,4,K) TR5 = CC(I-1,3,K)-CC(IC-1,2,K) TR2 = CC(I-1,3,K)+CC(IC-1,2,K) TR4 = CC(I-1,5,K)-CC(IC-1,4,K) TR3 = CC(I-1,5,K)+CC(IC-1,4,K) CH(I-1,K,1) = CC(I-1,1,K)+TR2+TR3 CH(I,K,1) = CC(I,1,K)+TI2+TI3 CR2 = CC(I-1,1,K)+TR11*TR2+TR12*TR3 CI2 = CC(I,1,K)+TR11*TI2+TR12*TI3 CR3 = CC(I-1,1,K)+TR12*TR2+TR11*TR3 CI3 = CC(I,1,K)+TR12*TI2+TR11*TI3 CR5 = TI11*TR5+TI12*TR4 CI5 = TI11*TI5+TI12*TI4 CR4 = TI12*TR5-TI11*TR4 CI4 = TI12*TI5-TI11*TI4 DR3 = CR3-CI4 DR4 = CR3+CI4 DI3 = CI3+CR4 DI4 = CI3-CR4 DR5 = CR2+CI5 DR2 = CR2-CI5 DI5 = CI2-CR5 DI2 = CI2+CR5 CH(I-1,K,2) = WA1(I-2)*DR2-WA1(I-1)*DI2 CH(I,K,2) = WA1(I-2)*DI2+WA1(I-1)*DR2 CH(I-1,K,3) = WA2(I-2)*DR3-WA2(I-1)*DI3 CH(I,K,3) = WA2(I-2)*DI3+WA2(I-1)*DR3 CH(I-1,K,4) = WA3(I-2)*DR4-WA3(I-1)*DI4 CH(I,K,4) = WA3(I-2)*DI4+WA3(I-1)*DR4 CH(I-1,K,5) = WA4(I-2)*DR5-WA4(I-1)*DI5 CH(I,K,5) = WA4(I-2)*DI5+WA4(I-1)*DR5 102 CONTINUE 103 CONTINUE RETURN END SUBROUTINE RADBG (IDO,IP,L1,IDL1,CC,C1,C2,CH,CH2,WA) c intro of implicit none > > implicit none real ai1 real ai2 real ar1 real ar1h real ar2 real ar2h real arg real c1 real c2 real cc real ch real ch2 real dc2 real dcp real ds2 real dsp integer i integer ic integer idij integer idl1 integer ido integer idp2 integer ik integer ip integer ipp2 integer ipph integer is integer j integer j2 integer jc integer k integer l integer l1 integer lc integer nbd real tpi real wa c intro of implicit none > > 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/6.28318530717959/ ARG = TPI/FLOAT(IP) DCP = COS(ARG) DSP = SIN(ARG) IDP2 = IDO+2 NBD = (IDO-1)/2 IPP2 = IP+2 IPPH = (IP+1)/2 IF (IDO .LT. L1) GO TO 103 DO 102 K=1,L1 DO 101 I=1,IDO CH(I,K,1) = CC(I,1,K) 101 CONTINUE 102 CONTINUE GO TO 106 103 DO 105 I=1,IDO DO 104 K=1,L1 CH(I,K,1) = CC(I,1,K) 104 CONTINUE 105 CONTINUE !OCL NOVREC 106 DO 108 J=2,IPPH JC = IPP2-J J2 = J+J DO 107 K=1,L1 CH(1,K,J) = CC(IDO,J2-2,K)+CC(IDO,J2-2,K) CH(1,K,JC) = CC(1,J2-1,K)+CC(1,J2-1,K) 107 CONTINUE 108 CONTINUE IF (IDO .EQ. 1) GO TO 116 IF (NBD .LT. L1) GO TO 112 !OCL NOVREC DO 111 J=2,IPPH JC = IPP2-J DO 110 K=1,L1 DO 109 I=3,IDO,2 IC = IDP2-I CH(I-1,K,J) = CC(I-1,2*J-1,K)+CC(IC-1,2*J-2,K) CH(I-1,K,JC) = CC(I-1,2*J-1,K)-CC(IC-1,2*J-2,K) CH(I,K,J) = CC(I,2*J-1,K)-CC(IC,2*J-2,K) CH(I,K,JC) = CC(I,2*J-1,K)+CC(IC,2*J-2,K) 109 CONTINUE 110 CONTINUE 111 CONTINUE GO TO 116 112 DO 115 J=2,IPPH JC = IPP2-J DO 114 I=3,IDO,2 IC = IDP2-I DO 113 K=1,L1 CH(I-1,K,J) = CC(I-1,2*J-1,K)+CC(IC-1,2*J-2,K) CH(I-1,K,JC) = CC(I-1,2*J-1,K)-CC(IC-1,2*J-2,K) CH(I,K,J) = CC(I,2*J-1,K)-CC(IC,2*J-2,K) CH(I,K,JC) = CC(I,2*J-1,K)+CC(IC,2*J-2,K) 113 CONTINUE 114 CONTINUE 115 CONTINUE 116 AR1 = 1. AI1 = 0. !OCL NOVREC DO 120 L=2,IPPH LC = IPP2-L AR1H = DCP*AR1-DSP*AI1 AI1 = DCP*AI1+DSP*AR1 AR1 = AR1H DO 117 IK=1,IDL1 C2(IK,L) = CH2(IK,1)+AR1*CH2(IK,2) C2(IK,LC) = AI1*CH2(IK,IP) 117 CONTINUE DC2 = AR1 DS2 = AI1 AR2 = AR1 AI2 = AI1 !OCL NOVREC DO 119 J=3,IPPH JC = IPP2-J AR2H = DC2*AR2-DS2*AI2 AI2 = DC2*AI2+DS2*AR2 AR2 = AR2H DO 118 IK=1,IDL1 C2(IK,L) = C2(IK,L)+AR2*CH2(IK,J) C2(IK,LC) = C2(IK,LC)+AI2*CH2(IK,JC) 118 CONTINUE 119 CONTINUE 120 CONTINUE !OCL NOVREC DO 122 J=2,IPPH DO 121 IK=1,IDL1 CH2(IK,1) = CH2(IK,1)+CH2(IK,J) 121 CONTINUE 122 CONTINUE !OCL NOVREC DO 124 J=2,IPPH JC = IPP2-J DO 123 K=1,L1 CH(1,K,J) = C1(1,K,J)-C1(1,K,JC) CH(1,K,JC) = C1(1,K,J)+C1(1,K,JC) 123 CONTINUE 124 CONTINUE IF (IDO .EQ. 1) GO TO 132 IF (NBD .LT. L1) GO TO 128 !OCL NOVREC DO 127 J=2,IPPH JC = IPP2-J DO 126 K=1,L1 DO 125 I=3,IDO,2 CH(I-1,K,J) = C1(I-1,K,J)-C1(I,K,JC) CH(I-1,K,JC) = C1(I-1,K,J)+C1(I,K,JC) CH(I,K,J) = C1(I,K,J)+C1(I-1,K,JC) CH(I,K,JC) = C1(I,K,J)-C1(I-1,K,JC) 125 CONTINUE 126 CONTINUE 127 CONTINUE GO TO 132 128 DO 131 J=2,IPPH JC = IPP2-J DO 130 I=3,IDO,2 DO 129 K=1,L1 CH(I-1,K,J) = C1(I-1,K,J)-C1(I,K,JC) CH(I-1,K,JC) = C1(I-1,K,J)+C1(I,K,JC) CH(I,K,J) = C1(I,K,J)+C1(I-1,K,JC) CH(I,K,JC) = C1(I,K,J)-C1(I-1,K,JC) 129 CONTINUE 130 CONTINUE 131 CONTINUE 132 CONTINUE IF (IDO .EQ. 1) RETURN DO 133 IK=1,IDL1 C2(IK,1) = CH2(IK,1) 133 CONTINUE DO 135 J=2,IP DO 134 K=1,L1 C1(1,K,J) = CH(1,K,J) 134 CONTINUE 135 CONTINUE IF (NBD .GT. L1) GO TO 139 IS = -IDO DO 138 J=2,IP IS = IS+IDO IDIJ = IS DO 137 I=3,IDO,2 IDIJ = IDIJ+2 DO 136 K=1,L1 C1(I-1,K,J) = WA(IDIJ-1)*CH(I-1,K,J)-WA(IDIJ)*CH(I,K,J) C1(I,K,J) = WA(IDIJ-1)*CH(I,K,J)+WA(IDIJ)*CH(I-1,K,J) 136 CONTINUE 137 CONTINUE 138 CONTINUE GO TO 143 139 IS = -IDO !OCL NOVREC DO 142 J=2,IP IS = IS+IDO DO 141 K=1,L1 IDIJ = IS DO 140 I=3,IDO,2 IDIJ = IDIJ+2 C1(I-1,K,J) = WA(IDIJ-1)*CH(I-1,K,J)-WA(IDIJ)*CH(I,K,J) C1(I,K,J) = WA(IDIJ-1)*CH(I,K,J)+WA(IDIJ)*CH(I-1,K,J) 140 CONTINUE 141 CONTINUE 142 CONTINUE 143 RETURN END SUBROUTINE RADF2 (IDO,L1,CC,CH,WA1) c intro of implicit none > > implicit none real cc real ch integer i integer ic integer ido integer idp2 integer k integer l1 real ti2 real tr2 real wa1 c intro of implicit none > > DIMENSION CH(IDO,2,L1) ,CC(IDO,L1,2) , 1 WA1(1) DO 101 K=1,L1 CH(1,1,K) = CC(1,K,1)+CC(1,K,2) CH(IDO,2,K) = CC(1,K,1)-CC(1,K,2) 101 CONTINUE IF (IDO-2) 107,105,102 102 IDP2 = IDO+2 DO 104 K=1,L1 DO 103 I=3,IDO,2 IC = IDP2-I TR2 = WA1(I-2)*CC(I-1,K,2)+WA1(I-1)*CC(I,K,2) TI2 = WA1(I-2)*CC(I,K,2)-WA1(I-1)*CC(I-1,K,2) CH(I,1,K) = CC(I,K,1)+TI2 CH(IC,2,K) = TI2-CC(I,K,1) CH(I-1,1,K) = CC(I-1,K,1)+TR2 CH(IC-1,2,K) = CC(I-1,K,1)-TR2 103 CONTINUE 104 CONTINUE IF (MOD(IDO,2) .EQ. 1) RETURN 105 DO 106 K=1,L1 CH(1,2,K) = -CC(IDO,K,2) CH(IDO,1,K) = CC(IDO,K,1) 106 CONTINUE 107 RETURN END SUBROUTINE RADF3 (IDO,L1,CC,CH,WA1,WA2) c intro of implicit none > > implicit none real :: cc real :: ch real :: ci2 real :: cr2 real :: di2 real :: di3 real :: dr2 real :: dr3 integer :: i integer :: ic integer :: ido integer :: idp2 integer :: k integer :: l1 real :: taui real :: taur real :: ti2 real :: ti3 real :: tr2 real :: tr3 real :: wa1 real :: wa2 c intro of implicit none > > DIMENSION CH(IDO,3,L1) ,CC(IDO,L1,3) , 1 WA1(1) ,WA2(1) DATA TAUR,TAUI /-.5,.866025403784439/ DO 101 K=1,L1 CR2 = CC(1,K,2)+CC(1,K,3) CH(1,1,K) = CC(1,K,1)+CR2 CH(1,3,K) = TAUI*(CC(1,K,3)-CC(1,K,2)) CH(IDO,2,K) = CC(1,K,1)+TAUR*CR2 101 CONTINUE IF (IDO .EQ. 1) RETURN IDP2 = IDO+2 DO 103 K=1,L1 DO 102 I=3,IDO,2 IC = IDP2-I DR2 = WA1(I-2)*CC(I-1,K,2)+WA1(I-1)*CC(I,K,2) DI2 = WA1(I-2)*CC(I,K,2)-WA1(I-1)*CC(I-1,K,2) DR3 = WA2(I-2)*CC(I-1,K,3)+WA2(I-1)*CC(I,K,3) DI3 = WA2(I-2)*CC(I,K,3)-WA2(I-1)*CC(I-1,K,3) CR2 = DR2+DR3 CI2 = DI2+DI3 CH(I-1,1,K) = CC(I-1,K,1)+CR2 CH(I,1,K) = CC(I,K,1)+CI2 TR2 = CC(I-1,K,1)+TAUR*CR2 TI2 = CC(I,K,1)+TAUR*CI2 TR3 = TAUI*(DI2-DI3) TI3 = TAUI*(DR3-DR2) CH(I-1,3,K) = TR2+TR3 CH(IC-1,2,K) = TR2-TR3 CH(I,3,K) = TI2+TI3 CH(IC,2,K) = TI3-TI2 102 CONTINUE 103 CONTINUE RETURN END SUBROUTINE RADF4 (IDO,L1,CC,CH,WA1,WA2,WA3) c intro of implicit none > > implicit none real cc real ch real ci2 real ci3 real ci4 real cr2 real cr3 real cr4 real hsqt2 integer i integer ic integer ido integer idp2 integer k integer l1 real ti1 real ti2 real ti3 real ti4 real tr1 real tr2 real tr3 real tr4 real wa1 real wa2 real wa3 c intro of implicit none > > DIMENSION CC(IDO,L1,4) ,CH(IDO,4,L1) , 1 WA1(1) ,WA2(1) ,WA3(1) DATA HSQT2 /.7071067811865475/ DO 101 K=1,L1 TR1 = CC(1,K,2)+CC(1,K,4) TR2 = CC(1,K,1)+CC(1,K,3) CH(1,1,K) = TR1+TR2 CH(IDO,4,K) = TR2-TR1 CH(IDO,2,K) = CC(1,K,1)-CC(1,K,3) CH(1,3,K) = CC(1,K,4)-CC(1,K,2) 101 CONTINUE IF (IDO-2) 107,105,102 102 IDP2 = IDO+2 !OCL NOVREC DO 104 K=1,L1 DO 103 I=3,IDO,2 IC = IDP2-I CR2 = WA1(I-2)*CC(I-1,K,2)+WA1(I-1)*CC(I,K,2) CI2 = WA1(I-2)*CC(I,K,2)-WA1(I-1)*CC(I-1,K,2) CR3 = WA2(I-2)*CC(I-1,K,3)+WA2(I-1)*CC(I,K,3) CI3 = WA2(I-2)*CC(I,K,3)-WA2(I-1)*CC(I-1,K,3) CR4 = WA3(I-2)*CC(I-1,K,4)+WA3(I-1)*CC(I,K,4) CI4 = WA3(I-2)*CC(I,K,4)-WA3(I-1)*CC(I-1,K,4) TR1 = CR2+CR4 TR4 = CR4-CR2 TI1 = CI2+CI4 TI4 = CI2-CI4 TI2 = CC(I,K,1)+CI3 TI3 = CC(I,K,1)-CI3 TR2 = CC(I-1,K,1)+CR3 TR3 = CC(I-1,K,1)-CR3 CH(I-1,1,K) = TR1+TR2 CH(IC-1,4,K) = TR2-TR1 CH(I,1,K) = TI1+TI2 CH(IC,4,K) = TI1-TI2 CH(I-1,3,K) = TI4+TR3 CH(IC-1,2,K) = TR3-TI4 CH(I,3,K) = TR4+TI3 CH(IC,2,K) = TR4-TI3 103 CONTINUE 104 CONTINUE IF (MOD(IDO,2) .EQ. 1) RETURN 105 CONTINUE DO 106 K=1,L1 TI1 = -HSQT2*(CC(IDO,K,2)+CC(IDO,K,4)) TR1 = HSQT2*(CC(IDO,K,2)-CC(IDO,K,4)) CH(IDO,1,K) = TR1+CC(IDO,K,1) CH(IDO,3,K) = CC(IDO,K,1)-TR1 CH(1,2,K) = TI1-CC(IDO,K,3) CH(1,4,K) = TI1+CC(IDO,K,3) 106 CONTINUE 107 RETURN END SUBROUTINE RADF5 (IDO,L1,CC,CH,WA1,WA2,WA3,WA4) c intro of implicit none > > implicit none real cc real ch real ci2 real ci3 real ci4 real ci5 real cr2 real cr3 real cr4 real cr5 real di2 real di3 real di4 real di5 real dr2 real dr3 real dr4 real dr5 integer i integer ic integer ido integer idp2 integer k integer l1 real ti11 real ti12 real ti2 real ti3 real ti4 real ti5 real tr11 real tr12 real tr2 real tr3 real tr4 real tr5 real wa1 real wa2 real wa3 real wa4 c intro of implicit none > > DIMENSION CC(IDO,L1,5) ,CH(IDO,5,L1) , 1 WA1(1) ,WA2(1) ,WA3(1) ,WA4(1) DATA TR11,TI11,TR12,TI12 /.309016994374947,.951056516295154, 1-.809016994374947,.587785252292473/ DO 101 K=1,L1 CR2 = CC(1,K,5)+CC(1,K,2) CI5 = CC(1,K,5)-CC(1,K,2) CR3 = CC(1,K,4)+CC(1,K,3) CI4 = CC(1,K,4)-CC(1,K,3) CH(1,1,K) = CC(1,K,1)+CR2+CR3 CH(IDO,2,K) = CC(1,K,1)+TR11*CR2+TR12*CR3 CH(1,3,K) = TI11*CI5+TI12*CI4 CH(IDO,4,K) = CC(1,K,1)+TR12*CR2+TR11*CR3 CH(1,5,K) = TI12*CI5-TI11*CI4 101 CONTINUE IF (IDO .EQ. 1) RETURN IDP2 = IDO+2 DO 103 K=1,L1 DO 102 I=3,IDO,2 IC = IDP2-I DR2 = WA1(I-2)*CC(I-1,K,2)+WA1(I-1)*CC(I,K,2) DI2 = WA1(I-2)*CC(I,K,2)-WA1(I-1)*CC(I-1,K,2) DR3 = WA2(I-2)*CC(I-1,K,3)+WA2(I-1)*CC(I,K,3) DI3 = WA2(I-2)*CC(I,K,3)-WA2(I-1)*CC(I-1,K,3) DR4 = WA3(I-2)*CC(I-1,K,4)+WA3(I-1)*CC(I,K,4) DI4 = WA3(I-2)*CC(I,K,4)-WA3(I-1)*CC(I-1,K,4) DR5 = WA4(I-2)*CC(I-1,K,5)+WA4(I-1)*CC(I,K,5) DI5 = WA4(I-2)*CC(I,K,5)-WA4(I-1)*CC(I-1,K,5) CR2 = DR2+DR5 CI5 = DR5-DR2 CR5 = DI2-DI5 CI2 = DI2+DI5 CR3 = DR3+DR4 CI4 = DR4-DR3 CR4 = DI3-DI4 CI3 = DI3+DI4 CH(I-1,1,K) = CC(I-1,K,1)+CR2+CR3 CH(I,1,K) = CC(I,K,1)+CI2+CI3 TR2 = CC(I-1,K,1)+TR11*CR2+TR12*CR3 TI2 = CC(I,K,1)+TR11*CI2+TR12*CI3 TR3 = CC(I-1,K,1)+TR12*CR2+TR11*CR3 TI3 = CC(I,K,1)+TR12*CI2+TR11*CI3 TR5 = TI11*CR5+TI12*CR4 TI5 = TI11*CI5+TI12*CI4 TR4 = TI12*CR5-TI11*CR4 TI4 = TI12*CI5-TI11*CI4 CH(I-1,3,K) = TR2+TR5 CH(IC-1,2,K) = TR2-TR5 CH(I,3,K) = TI2+TI5 CH(IC,2,K) = TI5-TI2 CH(I-1,5,K) = TR3+TR4 CH(IC-1,4,K) = TR3-TR4 CH(I,5,K) = TI3+TI4 CH(IC,4,K) = TI4-TI3 102 CONTINUE 103 CONTINUE RETURN END SUBROUTINE RADFG (IDO,IP,L1,IDL1,CC,C1,C2,CH,CH2,WA) c intro of implicit none > > implicit none real ai1 real ai2 real ar1 real ar1h real ar2 real ar2h real arg real c1 real c2 real cc real ch real ch2 real dc2 real dcp real ds2 real dsp integer i integer ic integer idij integer idl1 integer ido integer idp2 integer ik integer ip integer ipp2 integer ipph integer is integer j integer j2 integer jc integer k integer l integer l1 integer lc integer nbd real tpi real wa c intro of implicit none > > 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/6.28318530717959/ ARG = TPI/FLOAT(IP) DCP = COS(ARG) DSP = SIN(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. AI1 = 0. 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