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Trailing-Edge - PDP-10 Archives - decus_20tap5_198111 - decus/20-0137/bmd/bmd05m.for
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C    PROGRAM WAS CONVERTED FROM FORTRAN 2 TO 7090 FORTRAN 4
C        IT WAS THEN CONVERTED TO 360 FORTRAN IV (H-LEVEL)
C            DISCRIMINANT ANALYSIS - SEVERAL GROUPS   JUNE  9, 1966
C        THIS IS A SIFTED VERSION OF BMD05M ORIGINALLY WRITTEN IN
C        FORTRAN II. SOME MODIFICATIONS WERE MADE TO MAKE IT OPERABLE
C        AND SLIGHTLY MORE EFFICIENT THAN THE SIFTED VERSION.
      DIMENSION X(4,15,150),XMEAN(5,25),COV(20,20),SUMCOV(20,20),
     1 DENT(20,20),LB(25),M(25),N(5),C(20,20),NDENT(5,6)
      COMMON  K      , NN     , N      , LA     , KP     , X
      COMMON  ONN    , XMEAN  , NTO    , M      , K1     , K2
  946 FORMAT(60H1BMD05M - DISCRIMINANT ANALYSIS-SEVERAL GROUPS - VERSION
     1 OF ,18HJUNE  9, 1966     ,/
     241H HEALTH SCIENCES COMPUTING FACILITY, UCLA)
      DOUBLE PRECISION A1,A2,XZ
      DATA A2,XZ/6HPROBLM,6HFINISH/
C
      NTAPE=5
	CALL USAGEB('BMD05M')
 100  READ (5,900)A1,PROB,K,KP,NVG,NADD,MTAPE,(N(I),I=1,5), KVR
      IF(A1  .EQ.  A2)     GO TO 15
    5 IF(A1  .EQ.  XZ)   GO TO 80
 10   WRITE (6,948) A1
      GO TO 80
   15 CALL TPWD(MTAPE,NTAPE)
 21   JESSE=KP+NADD
      IF(KVR.GT.0.AND.KVR.LE.10)GO TO 210
      KVR=1
      WRITE (6,4000)
  210 WRITE (6,946)
      WRITE (6,929)PROB,JESSE
      IF((K-1)*(K-5))20,949,949
   20 IF((KP-K+1)*(KP-16))22,951,951
  22  DO 23 I=1,K
      IF(N(I)-150)23,23,953
  23  CONTINUE
      IF ((JESSE-K+1)*(JESSE-16))25,955,955
  25  CALL READ(KVR,NVG,NTAPE,NADD)
      KP=JESSE
      IF(-NVG)81,81,100
 81   DO 24 I=1,KP
      DO 24 J=1,KP
 24   SUMCOV(I,J)=0.0
      DO 30 I=1,K
      NN=N(I)
      DO 26 L=1,KP
      DO 26 LL=1,KP
      COV(L,LL)=0.0
      DO 26 J=1,NN
 26   COV(L,LL)=COV(L,LL)+((X(I,L,J)-XMEAN(I,L))*(X(I,LL,J)-XMEAN(I,LL))
     1)
      DO 28 L=1,KP
      DO 28 LL=1,KP
 28   SUMCOV(L,LL)=SUMCOV(L,LL)+COV(L,LL)
      WRITE (6,930)
      WRITE (6,905)I
      DO 30 J=1,KP
      WRITE (6,906)J
 30   WRITE (6,907)(COV(J,L),L=1,KP)
      DF=0.0
      DO 37 I=1,K
      DFF=N(I)
 37   DF=DF+DFF
      OK=K
      DF=DF-OK
      DO 38 I=1,KP
      DO 38 J=1,KP
      SUMCOV(I,J)=SUMCOV(I,J)/DF
 38   COV(I,J)=SUMCOV(I,J)
      WRITE (6,908)
      DO 39 I=1,KP
      WRITE (6,906)I
 39   WRITE (6,907)(SUMCOV(I,J),J=1,KP)
      CALL INVERT(COV,KP,D,LB,M)
      WRITE (6,930)
      WRITE (6,909)
      DO 40 I=1,KP
      WRITE (6,906)I
 40   WRITE (6,907)(COV(I,J),J=1,KP)
      DO 41 I=1,KP
      DO 41 J=1,KP
      C(I,J)=0.0
      DO 41 II=1,KP
 41   C(I,J)=C(I,J)+SUMCOV(I,II)*COV(II,J)
      WRITE (6,930)
      WRITE (6,910)
      DO 42 I=1,KP
      WRITE (6,906)I
 42   WRITE (6,907)(C(I,J),J=1,KP)
      CALL CHITES(N,COV,XMEAN,KP,K)
      DO 43 I=1,K
      DO 43 J=1,KP
      SUMCOV(I,J)=0.0
      DO 43 II=1,KP
 43   SUMCOV(I,J)=SUMCOV(I,J)+XMEAN(I,II)*COV(II,J)
      DO 44 I=1,K
      DO 44 J=1,KP
 44   DENT(J,I)=XMEAN(I,J)*(-0.5)
      DO 47 I=1,K
      DO 47 J=1,K
      C(I,J)=0.0
      DO 47 II=1,KP
 47   C(I,J)=C(I,J)+SUMCOV(I,II)*DENT(II,J)
      WRITE (6,930)
      DO 45 I=1,K
 45   M(I)=I
      WRITE (6,911)(M(I),I=1,K)
      WRITE (6,912)
      DO 50 I=1,KP
 50   WRITE (6,913)I,(SUMCOV(J,I),J=1,K)
      WRITE (6,930)
      DO 48 I=1,K
      J=I
   48 C(15,I)=C(I,J)
      WRITE (6,914) (C(15,I),I=1,K)
      DO 52 II=1,K
      NN=N(II)
      DO 52 I=1,NN
      DO 49 J=1,K
      DENT(1,J)=0.0
      DO 49 I1=1,KP
 49   DENT(1,J)=DENT(1,J)+X(II,I1,I)*SUMCOV(J,I1)
      DO 52 J=1,K
   52 X(II,J,I)=DENT(1,J)+C(15,J)
      SMALL=-(10.0**36.0)
      K1=K+1
      K2=K+2
      DO 55 I=1,K
      NN=N(I)
      DO 55 J=1,NN
      X(I,K1,J)=SMALL
      DO 55 JJ=1,K
      IF(X(I,K1,J)-X(I,JJ,J))54,55,55
 54   X(I,K1,J)=X(I,JJ,J)
      X(I,K2,J)=JJ
 55   CONTINUE
      DO 57 I=1,K
      NN=N(I)
      DO 57 J=1,NN
      SUM=0.0
      DO 56 JJ=1,K
      X(I,JJ,J)=EXP(X(I,JJ,J)-X(I,K1,J))
   56 SUM=SUM+X(I,JJ,J)
      X(I,K1,J)=1.0
      DO 57 JJ=1,K1
   57 X(I,JJ,J)=X(I,JJ,J)/SUM
      WRITE (6,930)
      CALL CLASSI
      DO 70 I=1,K
      NN=N(I)
      DO 70 II=1,K
      NDENT(I,II)=0
      DO 70 J=1,NN
      NSUM=0
      DO 68 JJ=1,K
      IF(X(I,II,J)-X(I,JJ,J))68,68,67
 67   NSUM=NSUM+1
 68   CONTINUE
      IF(NSUM-(K-1)) 70, 69, 70
 69   NDENT(I,II)=NDENT(I,II)+1
 70   CONTINUE
      WRITE (6,930)
      WRITE (6,924)
      GO TO (91,92,93,94,95),K
 91   WRITE (6,941)(M(I),I=1,K)
      GO TO 96
 92   WRITE (6,942)(M(I),I=1,K)
      GO TO 96
 93   WRITE (6,943)(M(I),I=1,K)
      GO TO 96
 94   WRITE (6,944)(M(I),I=1,K)
      GO TO 96
 95   WRITE (6,945)(M(I),I=1,K)
 96   WRITE (6,926)
      DO 75 I=1,K
      NDENT(I,K1)=0
      DO 72 J=1,K
 72   NDENT(I,K1)=NDENT(I,K1)+NDENT(I,J)
      WRITE (6,927)I,(NDENT(I,J), J=1,K1)
 75   WRITE (6,931)
      GO TO 100
  900 FORMAT (A6   ,A2,5I2,5I3,37X,I2)
 905  FORMAT(52H0MATRIX OF CROSS PRODUCTS OF DEV. FROM MEANS - GROUPI2)
 906  FORMAT(4H ROWI3)
 907  FORMAT(1H F14.5,7F15.5)
 908  FORMAT(18H0DISPERSION MATRIX)
 909  FORMAT(29H0INVERSE OF DISPERSION MATRIX)
 910  FORMAT(46H0TEST OF ACCURACY OF DISPERSION MATRIX INVERSE)
 911  FORMAT(9H0FUNCTIONI13,4I16)
 912  FORMAT(12H0COEFFICIENT)
 913  FORMAT(5X,I2,F20.5,4F16.5)
 914  FORMAT(9H0CONSTANTF18.5,4F16.5)
 924  FORMAT(22H0CLASSIFICATION MATRIX)
 926  FORMAT(6H0GROUP)
 927  FORMAT(1H I3,8X,6I11)
 929  FORMAT(14H0PROBLEM NO.  A2/20H NUMBER OF VARIABLESI4///)
 930  FORMAT(1H0)
 931  FORMAT(1H )
 941  FORMAT(9H0FUNCTIONI14,12H       TOTAL)
 942  FORMAT(9H0FUNCTIONI14, I11,12H       TOTAL)
 943  FORMAT(9H0FUNCTIONI14,2I11,12H       TOTAL)
 944  FORMAT(9H0FUNCTIONI14,3I11,12H       TOTAL)
 945  FORMAT(9H0FUNCTIONI14,4I11,12H       TOTAL)
  948 FORMAT (' PROBLM OR FINISH CARD EXPECTED. CARD READ WAS  ',A6)
  949 WRITE (6,950) K
  950 FORMAT (1X,I3,' NUMBER OF GROUPS IS ILLEGAL')
      GO TO 80
  951 WRITE (6,952) KP
  952 FORMAT (1X,I3,' NUMBER OF ORIGINAL VARIABLES IS ILLEGAL')
      GO TO 80
  953 WRITE (6,954) N(I),I
  954 FORMAT (' SAMPLE SIZE OF ',I4,' FOR GROUP ',I2,' IS ILLEGAL')
      GO TO 80
  955 WRITE (6,956) JESSE
  956 FORMAT (1X,I5,' NUMBER OF VARIABLES AFTER TRANSGENERATION IS ILLEG
     1AL')
      GO TO 80
 4000 FORMAT(1H023X71HNUMBER OF VARIABLE FORMAT CARDS INCORRECTLY SPECIF
     1IED, ASSUMED TO BE 1.)
 80   IF(NTAPE-5)83,83,82
   82 REWIND NTAPE
   83 STOP
      END
C             SUBROUTINE CHITES FOR BMD05M            JUNE  9, 1966
      SUBROUTINE CHITES(N,COV,XMEAN,KP,K)
      DIMENSION XBAR(25),XMEAN(5,25),COV(20,20),N(5)
      DFSUM=0.0
      CHI=0.0
      DO 2 I=1,KP
    2 XBAR(I)=0.0
      DO 3 I=1,K
      XN=N(I)
    3 DFSUM=DFSUM+XN
      DO 4 I=1,KP
      DO 5 J=1,K
      TEMP=N(J)
    5 XBAR(I)=XBAR(I)+TEMP*XMEAN(J,I)
    4 XBAR(I)=XBAR(I)/DFSUM
      DO 6 I=1,KP
      DO 6 J=1,KP
      TEMP=0.0
      DO 7 L=1,K
      DNN=N(L)
    7 TEMP=TEMP+DNN*(XMEAN(L,I)-XBAR(I))*(XMEAN(L,J)-XBAR(J))
    6 CHI=CHI+TEMP*COV(I,J)
      NDF=KP*(K-1)
      WRITE (6,9)CHI
      WRITE (6,8)CHI,NDF,K,KP
    8 FORMAT(11H0THE VALUE F10.5,31H CAN BE USED AS CHI-SQUARE WITHI3,/5
     16H DEGREES OF FREEDOM TO TEST THE HYPOTHESIS THAT THE MEAN/32H VAL
     2UES ARE THE SAME IN ALL THE I3,18H GROUPS FOR THESE I2,/11H VARIAB
     3LES.//)
    9 FORMAT(1H0/33H GENERALIZED MAHALANOBIS D-SQUAREF12.5)
      RETURN
      END
C             SUBROUTINE CLASSI FOR BMD05M            JUNE  9, 1966
      SUBROUTINE CLASSI
      DIMENSION N(5),X(4,15,150),XMEAN(5,25),M(25)
      COMMON  K      , NN     , N      , LA     , KP     , X
      COMMON  ONN    , XMEAN  , NTO    , M      , K1     , K2
      WRITE (6,915)
      GO TO (81,82,83,84,85),K
 81   WRITE (6,931)(M(II),II=1,K)
      GO TO 86
 82   WRITE (6,932)(M(II),II=1,K)
      GO TO 86
 83   WRITE (6,933)(M(II),II=1,K)
      GO TO 86
 84   WRITE (6,934)(M(II),II=1,K)
      GO TO 86
 85   WRITE (6,935)(M(II),II=1,K)
 86   DO 66 I=1,K
      WRITE (6,917)I
      WRITE (6,918)
      NN=N(I)
      DO 66 J=1,NN
      NX=X(I,K2,J)
      GO TO (61,62,63,64,65),K
 61   WRITE (6,919)J,(X(I,JJ,J),JJ=1,K1),NX
      GO TO 66
 62   WRITE (6,920)J,(X(I,JJ,J),JJ=1,K1),NX
      GO TO 66
 63   WRITE (6,921)J,(X(I,JJ,J),JJ=1,K1),NX
      GO TO 66
 64   WRITE (6,922)J,(X(I,JJ,J),JJ=1,K1),NX
      GO TO 66
 65   WRITE (6,923)J,(X(I,JJ,J),JJ=1,K1),NX
 66   CONTINUE
 915  FORMAT(53H0EVALUATION OF CLASSIFICATION FUNCTIONS FOR EACH CASE)
  917 FORMAT(6H GROUPI3)
 918  FORMAT(6H  CASE)
  919 FORMAT(I5,F21.5,F15.5,I12)
  920 FORMAT(I5,F21.5,2F15.5,I12)
  921 FORMAT(I5,F21.5,3F15.5,I12)
  922 FORMAT(I5,F21.5,4F15.5,I12)
  923 FORMAT(I5,F21.5,5F15.5,I12)
  931 FORMAT(9H0FUNCTIONI12, 41H            LARGEST     FN.NO.FOR LARGES
     1T/32X,27HPROBABILITY     PROBABILITY)
  932 FORMAT(9H0FUNCTIONI12, I15,41H            LARGEST     FN.NO.FOR LA
     1RGEST/47X,27HPROBABILITY     PROBABILITY)
  933 FORMAT(9H0FUNCTIONI12,2I15,41H            LARGEST     FN.NO.FOR LA
     1RGEST/62X,27HPROBABILITY     PROBABILITY)
  934 FORMAT(9H0FUNCTIONI12,3I15,41H            LARGEST     FN.NO.FOR LA
     1RGEST/77X,27HPROBABILITY     PROBABILITY)
  935 FORMAT(9H0FUNCTIONI12,4I15,39H            LARGEST   FN.NO.FOR LARG
     1EST/92X,27HPROBABILITY     PROBABILITY)
      RETURN
      END
C             SUBROUTINE INVERT FOR BMD05M            JUNE  9, 1966
      SUBROUTINE INVERT (A,N,D,L,M)
C     PROGRAM FOR FINDING THE INVERSE OF A NXN MATRIX
      DIMENSION A(20,20),L(25),M(25)
C     SEARCH FOR LARGEST ELEMENT
      D=1.0
      DO80 K=1,N
      L(K)=K
      M(K)=K
      BIGA=A(K,K)
      DO20 I=K,N
      DO20 J=K,N
      IF(ABS(BIGA)-ABS(A(I,J))) 10,20,20
   10 BIGA=A(I,J)
      L(K)=I
      M(K)=J
   20 CONTINUE
C     INTERCHANGE ROWS
      J=L(K)
      IF(L(K)-K) 35,35,25
   25 DO30 I=1,N
      HOLD=-A(K,I)
      A(K,I)=A(J,I)
   30 A(J,I)=HOLD
C     INTERCHANGE COLUMNS
   35 I=M(K)
      IF(M(K)-K) 45,45,37
   37 DO40 J=1,N
      HOLD=-A(J,K)
      A(J,K)=A(J,I)
   40 A(J,I)=HOLD
C     DIVIDE COLUMN BY MINUS PIVOT
   45 DO55 I=1,N
   46 IF(I-K)50,55,50
   50 A(I,K)=A(I,K)/(-A(K,K))
   55 CONTINUE
C     REDUCE MATRIX
      DO65 I=1,N
      DO65 J=1,N
   56 IF(I-K) 57,65,57
   57 IF(J-K) 60,65,60
   60 A(I,J)=A(I,K)*A(K,J)+A(I,J)
   65 CONTINUE
C     DIVIDE ROW BY PIVOT
      DO75 J=1,N
   68 IF(J-K)70,75,70
   70 A(K,J)=A(K,J)/A(K,K)
   75 CONTINUE
C     CONTINUED PRODUCT OF PIVOTS
      D=D*A(K,K)
C     REPLACE PIVOT BY RECIPROCAL
      A(K,K)=1.0/A(K,K)
   80 CONTINUE
C     FINAL ROW AND COLUMN INTERCHANGE
      K=N
  100 K=(K-1)
      IF(K) 150,150,103
  103 I=L(K)
      IF(I-K) 120,120,105
  105 DO110 J=1,N
      HOLD=A(J,K)
      A(J,K)=-A(J,I)
  110 A(J,I)=HOLD
  120 J=M(K)
      IF(J-K) 100,100,125
  125 DO130 I=1,N
      HOLD=A(K,I)
      A(K,I)=-A(J,I)
  130 A(J,I)=HOLD
      GO TO 100
  150 RETURN
      END
C             SUBROUTINE READ FOR BMD05M              JUNE  9, 1966
      SUBROUTINE READ (KVR,NVG,NTAPE,NADD)
      DIMENSION N(5),X(4,15,150),XMEAN(5,25),M(25),FMT(180)
      COMMON  K      , NN     , N      , LA     , KP     , X
      COMMON  ONN    , XMEAN  , NTO    , M      , K1     , K2
   11 KVR=KVR*18
      IERROR=0
      READ (5,937)(FMT(I), I=1,KVR)
      WRITE (6,938) (FMT(I),I=1,KVR)
  938 FORMAT (' VARIABLE FORMAT IS',/(5X,18A4))
      DO 10 I=1,K
      NN=N(I)
      DO 10 J=1,NN
   10 READ (NTAPE,FMT)(X(I,L,J), L=1,KP)
      IF(NVG)60,60,70
   70 CALL TRNGEN (X,KP,N,IERROR,K,NVG)
      IF(-IERROR)400,400,500
  400 KP=KP+NADD
   60 DO21I=1,K
      NN=N(I)
      ONN=NN
      DO 21 L=1,KP
      XMEAN(I,L)=0.0
      DO 19 J=1,NN
   19 XMEAN(I,L)=XMEAN(I,L)+X(I,L,J)
   21 XMEAN(I,L)=XMEAN(I,L)/ONN
      NTO=0
      DO 22 I=1,K
      NTO=NTO+N(I)
   22 M(I)=I
      GO TO (121,122,123,124,125), K
  121 WRITE (6,931)(M(I), I=1,K)
      GO TO 129
  122 WRITE (6,932)(M(I), I=1,K)
      GO TO 129
  123 WRITE (6,933)(M(I), I=1,K)
      GO TO 129
  124 WRITE (6,934)(M(I), I=1,K)
      GO TO 129
  125 WRITE (6,935)(M(I), I=1,K)
  129 WRITE (6,902)(N(I),I=1,K),NTO
      WRITE (6,903)
      DO 23 I=1,KP
   23 WRITE (6,904)I,(XMEAN(J,I),J=1,K)
  902 FORMAT(7H0SAMPLEI17,5I16)
  903 FORMAT(12H0MEAN SCORES)
  904 FORMAT(I7,5H     5F16.5)
  931 FORMAT(6H0GROUPI18,17H            TOTAL)
  932 FORMAT(6H0GROUPI18,I16,17H            TOTAL)
  933 FORMAT(6H0GROUPI18,2I16,17H            TOTAL)
  934 FORMAT(6H0GROUPI18,3I16,17H            TOTAL)
  935 FORMAT(6H0GROUPI18,4I16,17H            TOTAL)
  937 FORMAT(18A4)
  100 RETURN
  500 NVG=-175
      GO TO 100
      END
C             SUBROUTINE TPWD FOR BMD05M              JUNE  9, 1966
      SUBROUTINE TPWD(NT1,NT2)
      IF(NT1)40,10,12
 10   NT1=5
 12   IF(NT1-NT2)14,19,14
   14 IF(NT2.EQ.5)GO TO 18
   17 REWIND NT2
   19 IF(NT1-5)18,24,18
 18   IF(NT1-6)22,40,22
 22   REWIND NT1
 24   NT2=NT1
 28   RETURN
 40   WRITE (6,49)
 49   FORMAT(25H ERROR ON TAPE ASSIGNMENT)
      STOP
      END
C             SUBROUTINE TRNGEN FOR BMD05M            JUNE  9, 1966
      SUBROUTINE TRNGEN (DATA,NVAR,NSAM,IERROR,NGRP,NVG)
      DIMENSION DATA(4,15,150),NSAM(5)
      ASN(XX)=ATAN(XX/SQRT(1.0-XX**2))
      DATA A2/4HTRNG/
      MARY=0
      WRITE (6,1403)
      WRITE (6,1400)
      DO1000J=1,NVG
      READ (5,1100)A1,NEWA,LCODE,LVA,BNEW
      IF(A1 .EQ. A2)    GO TO 2
    1 WRITE (6,1408)J
      IERROR=-999
      GO TO 1000
    2 WRITE (6,1402)J,NEWA,LCODE,LVA,BNEW
      IF(LCODE*(LCODE-15))250,1,1
  250 IF(LCODE-10)4,5,5
    5 NEWB=BNEW
    4 DO3000JJ=1,NGRP
      NN=NSAM(JJ)
      DO 300 I=1,NN
      D=DATA(JJ,LVA,I)
      GOTO(10,20,30,40,50,60,70,80,90,100,110,120,130,140),LCODE
   10 IF(D)99,7,8
    7 D2=0.0
      GOTO3
    8 D2=SQRT(D)
      GOTO3
   20 IF(D)99,11,12
   11 D2=1.0
      GOTO3
   12 D2=SQRT(D)+SQRT(D+1.0)
      GOTO3
   30 IF(D)99,99,14
   14 D2=ALOG10(D)
      GOTO3
   40 D2=EXP(D)
      GOTO3
   50 IF(-D)17,7,99
   17 IF(D-1.0)18,19,99
   19 D2=3.14159265/2.0
      GOTO3
   18 D2=ASN(SQRT(D))
      GOTO3
   60 FN=NN
      A=D/(FN+1.0)
      B=A+1.0/(FN+1.0)
      IF(A)99,23,24
   23 IF(-B)27,7,99
   27 D2=ASN(SQRT(B))
      GOTO3
   24 IF(B)99,28,29
   28 D2=ASN(SQRT(A))
      GOTO3
   29 A=SQRT(A)
      B=SQRT(B)
      D2=ASN(A)+ASN(B)
      GOTO3
   70 IF(D)31,99,31
   31 D2=1.0/D
      GOTO3
   80 D2=D+BNEW
      GOTO3
   90 D2=D*BNEW
      GOTO3
  100 IF(-D)33,7,99
   33 D2=D**NEWB
      GOTO3
  110 D2=D+DATA(JJ,NEWB,I)
      GOTO3
  120 D2=D-DATA(JJ,NEWB,I)
      GOTO3
  130 D2=D*DATA(JJ,NEWB,I)
      GOTO3
  140 IF(DATA(JJ,NEWB,I))34,99,34
   34 D2=D/DATA(JJ,NEWB,I)
      GOTO3
   99 IF(MARY)43,44,44
   44 MARY=-999
      IERROR=-999
      WRITE (6,1404)J
   43 WRITE (6,1405)I
      GO TO 300
    3 DATA(JJ,NEWA,I)=D2
  300 CONTINUE
      IF(IERROR)45,3000,3000
   45 WRITE (6,1406)JJ
 3000 CONTINUE
      IF(IERROR)42,1000,1000
 1000 CONTINUE
      IF(IERROR) 42,1111,1111
   42 WRITE (6,1407)
 1100 FORMAT(A4,2X,I3,I2,I3,F6.0)
 1400 FORMAT(46H0CARD    NEW     TRANS    ORIG.   ORIG. VAR(B)/45H  NO.   
     1VARIABLE   CODE    VAR(A)   OR CONSTANT)
 1402 FORMAT(2H  I2,I8,2I9,F15.5)
 1403 FORMAT(1H06X,23HTRANS GENERATOR CARD(S))
 1404 FORMAT(30H0THE INSTRUCTIONS INDICATED ON/25H TRANS GENERATOR CARD  
     1NO.I2,4H RE-/29H SULTED IN THE VIOLATION OF A/31H RESTRICTION FOR   
     2THIS TRANSFOR-/31H MATION. THE VIOLATION OCCURRED/28H FOR THE ITEM
     3S LISTED BELOW./)
 1405 FORMAT(10H ITEM NO. I3)
 1406 FORMAT(32H0ITEMS ABOVE ARE FROM GROUP NO. I2//)
 1407 FORMAT(41H0PROGRAM CANNOT CONTINUE FOR THIS PROBLEM)
 1408 FORMAT(30H0ERROR ON TRANSGENERATION CARDI4)
 1111 RETURN
      END