1 | !CCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCC |
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2 | ! |
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3 | ! FFTPACK 5.0 |
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4 | ! |
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5 | ! Authors: Paul N. Swarztrauber and Richard A. Valent |
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6 | ! |
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7 | ! $Id: msntf1.f,v 1.2 2004/06/15 21:29:20 rodney Exp $ |
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8 | ! |
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9 | !CCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCC |
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10 | |
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11 | SUBROUTINE MSNTF1(LOT,JUMP,N,INC,X,WSAVE,DSUM,XH,WORK,IER) |
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12 | REAL X(INC,*) ,WSAVE(*) ,XH(LOT,*) |
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13 | DOUBLE PRECISION DSUM(*) |
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14 | IER = 0 |
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15 | LJ = (LOT-1)*JUMP+1 |
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16 | IF (N-2) 101,102,103 |
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17 | 102 SSQRT3 = 1./SQRT(3.) |
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18 | DO 112 M=1,LJ,JUMP |
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19 | XHOLD = SSQRT3*(X(M,1)+X(M,2)) |
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20 | X(M,2) = SSQRT3*(X(M,1)-X(M,2)) |
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21 | X(M,1) = XHOLD |
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22 | 112 END DO |
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23 | 101 GO TO 200 |
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24 | 103 NP1 = N+1 |
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25 | NS2 = N/2 |
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26 | DO 104 K=1,NS2 |
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27 | KC = NP1-K |
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28 | M1 = 0 |
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29 | DO 114 M=1,LJ,JUMP |
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30 | M1 = M1 + 1 |
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31 | T1 = X(M,K)-X(M,KC) |
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32 | T2 = WSAVE(K)*(X(M,K)+X(M,KC)) |
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33 | XH(M1,K+1) = T1+T2 |
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34 | XH(M1,KC+1) = T2-T1 |
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35 | 114 CONTINUE |
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36 | 104 END DO |
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37 | MODN = MOD(N,2) |
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38 | IF (MODN .EQ. 0) GO TO 124 |
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39 | M1 = 0 |
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40 | DO 123 M=1,LJ,JUMP |
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41 | M1 = M1 + 1 |
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42 | XH(M1,NS2+2) = 4.*X(M,NS2+1) |
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43 | 123 END DO |
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44 | 124 DO 127 M=1,LOT |
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45 | XH(M,1) = 0. |
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46 | 127 END DO |
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47 | LNXH = LOT-1 + LOT*(NP1-1) + 1 |
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48 | LNSV = NP1 + INT(LOG(REAL(NP1))) + 4 |
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49 | LNWK = LOT*NP1 |
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50 | ! |
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51 | CALL RFFTMF(LOT,1,NP1,LOT,XH,LNXH,WSAVE(NS2+1),LNSV,WORK, & |
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52 | & LNWK,IER1) |
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53 | IF (IER1 .NE. 0) THEN |
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54 | IER = 20 |
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55 | CALL XERFFT ('MSNTF1',-5) |
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56 | GO TO 200 |
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57 | ENDIF |
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58 | ! |
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59 | IF(MOD(NP1,2) .NE. 0) GO TO 30 |
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60 | DO 20 M=1,LOT |
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61 | XH(M,NP1) = XH(M,NP1)+XH(M,NP1) |
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62 | 20 END DO |
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63 | 30 SFNP1 = 1./FLOAT(NP1) |
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64 | M1 = 0 |
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65 | DO 125 M=1,LJ,JUMP |
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66 | M1 = M1+1 |
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67 | X(M,1) = .5*XH(M1,1) |
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68 | DSUM(M1) = X(M,1) |
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69 | 125 END DO |
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70 | DO 105 I=3,N,2 |
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71 | M1 = 0 |
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72 | DO 115 M=1,LJ,JUMP |
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73 | M1 = M1+1 |
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74 | X(M,I-1) = .5*XH(M1,I) |
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75 | DSUM(M1) = DSUM(M1)+.5*XH(M1,I-1) |
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76 | X(M,I) = DSUM(M1) |
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77 | 115 CONTINUE |
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78 | 105 END DO |
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79 | IF (MODN .NE. 0) GO TO 200 |
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80 | M1 = 0 |
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81 | DO 116 M=1,LJ,JUMP |
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82 | M1 = M1+1 |
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83 | X(M,N) = .5*XH(M1,N+1) |
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84 | 116 END DO |
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85 | 200 CONTINUE |
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86 | RETURN |
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87 | END |
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