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decuslib20-05
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decus/20-0137/manova/manov4.for
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00100 C WMU IMPLEMENTATION OF THE WAYNE STATE VERSION OF
��00200 C
�00300 C THE MIAMI MULTIVARIATE ANALYSIS OF VARIANCE(MANOVA)
����00400 C
�00500 C MODIFIED FOR WMU COMPUTER CENTER BY: SAM ANEMA
����00600 C
�00700 C FILES: MANOVA.F4,MANOV1.F4,MANOV2.F4,MANOV3.F4,MANOV4.F4
����00800 C
�00900 C ADDITIONAL SUBROUTINES: USAGE - RUSS BARR(IN NGLIB).MAC
01000 C
�01100 C LOADING PROCEDURE:
��01200 C
�01300 C R LOADER
��01400 C MANOV=MANOVA,USAGE/<MANOV1/>MANOV2/>MANOV3/>MANOV4/>/G
�01500 C SAV MANOVA
01600 C
�01700 C MANOV4.F4
�01800 SUBROUTINE ANALYS
����01900 DIMENSION VECHLD(100),INLET(75),SSRES(26,27)
��02000 COMMON ORTHES(100,20),DUMMY(26,27),SSHYP(25,26),SSEAD(40,41),
02100 1ESTIM(50,50), NUMERR(8),NERRS(100),NDFCUM(100),NDFTST(
�02200 2100),VARNAM(2,50),HEAD(3,100),LEVEL(8),LEVSUB(8,10),LEVCUM(8,10),
�02300 3NCELL(100), NTABLE(27),ITABLE(9,9),OBS(100)
���02400 4 ,NVAR,NCOVAR,NERWIT,NERRES,HNUM(100),ERROR,NTESTS,RVARC,
����02500 5 FIRST,IORD(50),IPOSV(50),IVPOS(50),NCELLS,NVART,NDFTOT,
02600 6SPECOR,VLIST,PRINTR,NFACT , READK, PRINTK,CONTR ,TESTR, MFIRST,
��02700 7TRUTH,BLANK,MAXFAC,MAXCEL,MAXPAR,MAXLEV,MAXVAR,ATITLE,AJOBCD,
02800 8AANALY,AFINIS,WITHIN,SPACE(10)
�02900 DATA INP,IOUT,IAUX1,IAUX2/5,30,22,23/
����03000 DATA IAUX4/24/
�03100 EQUIVALENCE (INLET,SSEAD), (VECHLD,SSHYP),(SSRES,DUMMY),
03200 1(TAG,SPACE(1) ), (EONLY,SPACE(2) ),(NSIG,SPACE(7)),(TAGP,SPACE(3))
03300 2,(PRTCLL,SPACE(4)),(PRTSSH,SPACE(5)),(NPCT,SPACE(6))
����03400 LOGICAL ERROR,TRUTH,VLIST,SPECOR,READK,CONTR,TESTR,MFIRST,WITHIN
��03500 2,EONLY,PRINTK,PRINTR,PRTCLL,PRTSSH,NLIST
�03600 INTEGER BLANK
���03700 DOUBLE PRECISION VARNAM,VECHLD
�03800 REWIND IAUX2
����03900 NVARTP = NVART + 1
���04000 IF (VLIST) GO TO 120
�04100 GO TO 130
��04200 100 IF (WITHIN) GO TO 110
04300 REWIND IAUX2
����04400 READ(IAUX2)((SSRES(J,K),J = 1,NVART),K = 1,NVARTP)
�04500 110 IF (.NOT. VLIST) GO TO 140
04600 120 CALL REORD
�04700 IF (ERROR) GO TO 210
�04800 130 IF (NVAR .EQ. 1) GO TO 140
04900 REWIND IAUX2
����05000 WRITE(IAUX2)((SSRES(J,K),J = 1,NVART),K = 1,NVARTP)
05100 140 REWIND IAUX2
����05200 WITHIN = .TRUE.
�05300 CALL SETTST
05400 IF (ERROR) GO TO 210
�05500 IF (J .EQ. 1) WRITE (IOUT,150)
�05600 150 FORMAT (52H0THERE HAS BEEN A DIVISION BY ZERO IN THIS ANALYSIS )
05700 NSIG = NSIG-1
���05800 IF (NSIG .GT. 0) GO TO 210
05900 WRITE (IOUT,157)
06000 157 FORMAT(1H1/' WESTERN MICHIGAN UNIVERSITY'//,
��06100 1 ' MULTI-VARIATE ANALYSIS OF VARIANCE'/)
�06200 155 READ(INP,160) TAG,TAGP,INLET
��06300 160 FORMAT (A4,76A1)
06400 IF (TAG .NE. ATITLE) GO TO 165
�06500 WRITE(IOUT,163) INLET
06600 163 FORMAT (1H 80A1)
06700 GO TO 155
��06800 165 TRUTH = TAG .EQ. AANALY
���06900 IF (.NOT. TRUTH) GO TO 210
07000 NLIST = INLET(1) .NE. BLANK
����07100 SPECOR = INLET(2) .NE. BLANK
���07200 CONTR = INLET(3) .NE. BLANK
����07300 DO 166 J = 2,8
��07400 IF (INLET(J) .NE. BLANK) GO TO 167
��07500 166 CONTINUE
���07600 GO TO 169
��07700 167 TESTR = INLET(4) .NE. BLANK
����07800 READK = INLET(5) .NE. BLANK
����07900 MFIRST = INLET(6) .EQ. BLANK
���08000 EONLY = INLET(7) .NE. BLANK
���08100 PRTCLL = INLET(8) .NE. BLANK
���08200 EONLY = EONLY .OR. PRTCLL
�08300 SPECOR = SPECOR .OR. EONLY
08400 MFIRST = MFIRST .AND. .NOT. PRTCLL
��08500 PRINTK = PRINTK .AND. .NOT. EONLY
���08600 PRINTR = PRINTR .AND. .NOT. EONLY
���08700 PRTSSH = PRTSSH .AND. .NOT. EONLY
���08800 169 NSIG = 1
���08900 DO 170 I = 1,9
��09000 170 IF (INLET(7) .EQ. NTABLE(I+9) .OR. INLET(8) .EQ. NTABLE(I+9))
09100 1NSIG = I
���09200 IF (NLIST)READ(INP,180) NVAR,NCOVAR,(IORD(J),J = 1,38)
��09300 VLIST = VLIST .OR. NLIST
��09400 180 FORMAT (40I2)
���09500 NVCVAR = NVAR+NCOVAR
�09600 IF(NLIST.AND.NVCVAR.GT. 38) READ(INP,180)(IORD(J), J = 39,NVCVAR)
�09700 IF (NCOVAR .EQ. 0) NCOVAR = 0
��09800 DO 190 J = 1,NVCVAR
��09900 J1 = IORD(J)
����10000 K = IPOSV(J1)
���10100 VECHLD (2*J-1) = VARNAM(1,K)
���10200 IF (NVCVAR .GT. NVART) GO TO 220
����10300 190 VECHLD(2*J) = VARNAM(2,K)
�10400 N2 = 2*NVCVAR
���10500 NPCT = NPCT+1
���10600 NP = NPCT/1000
��10700 NR = NPCT - NP*1000
��10800 WRITE(IOUT,200)NP,NR,NVAR,NCOVAR, (VECHLD(J),J = 1,N2)
��10900 200 FORMAT (8H0PROBLEM I4, 11H REANALYSIS I4, 19H WITH THE FOLLOWING
��11000 1I4,13H CRITERIA AND I4, 11H COVARIATES /1X10(3X A6,A4) )
11100 IF (.NOT.(SPECOR .OR. CONTR) ) GO TO 100
�11200 210 RETURN
11300 220 WRITE(IOUT,230)
�11400 230 FORMAT (35H TOO MANY VARIATES AND COVARIATES )
����11500 ERROR = .TRUE.
��11600 GO TO 210
��11700 END
���11800 SUBROUTINE REORD
11900 DIMENSION SSWITH(26,26),SSRES(26,27),Q(500),GM(40)
12000 COMMON ORTHES(100,20),DUMMY(26,27),SSHYP(25,26),SSEAD(40,41),
12100 1ESTIM(50,50), NUMERR(8),NERRS(100),NDFCUM(100),NDFTST(
�12200 2100),VARNAM(2,50),HEAD(3,100),LEVEL(8),LEVSUB(8,10),LEVCUM(8,10),
�12300 3NCELL(100), NTABLE(27),ITABLE(9,9),OBS(100)
���12400 4 ,NVAR,NCOVAR,NERWIT,NERRES,HNUM(100),ERROR,NTESTS,RVARC,
����12500 5 FIRST,IORD(50),IPOSV(50),IVPOS(50),NCELLS,NVART,NDFTOT,
12600 6SPECOR,VLIST,PRINTR,NFACT , READK, PRINTK,CONTR ,TESTR, MFIRST,
��12700 7TRUTH,BLANK,MAXFAC,MAXCEL,MAXPAR,MAXLEV,MAXVAR,ATITLE,AJOBCD,
12800 8AANALY,AFINIS,WITHIN,SPACE(10)
�12900 EQUIVALENCE (SSWITH,SSRES(1,2) ),(SSRES,DUMMY)
����13000 1,(Q,DUMMY(203)), (GM,Q(301))
���13100 DATA INP,IOUT,IAUX1,IAUX2/5,30,22,23/
����13200 DATA IAUX4/24/
��13300 DOUBLE PRECISION VARNAM,XHOLDD
�13400 LOGICAL ERROR
���13500 NVCVAR = NVAR + NCOVAR
����13600 DO 190 I = 1,NVCVAR
��13700 NV = IORD(I)
����13800 IF (NV .EQ. 0 .OR. NV .GT. NVART) GO TO 210
���13900 N1 = IPOSV(NV)
��14000 IF (N1 .EQ. I) GO TO 190
��14100 K = IVPOS(I)
����14200 IVPOS(I) = NV
���14300 IVPOS(N1) = K
���14400 IPOSV(NV) = I
���14500 IPOSV(K) = N1
���14600 N2 = I
14700 NMIN = MIN0(N1,N2)
���14800 N = NMIN-1
�14900 IF (N .EQ. 0) GO TO 110
���15000 DO 100 J = 1,N
��15100 XHOLD = SSWITH(J,N2)
�15200 SSWITH(J,N2) = SSWITH(J,N1)
����15300 SSWITH(J,N1) = XHOLD
�15400 XHOLD = SSRES(N2,J)
��15500 SSRES(N2,J) = SSRES(N1,J)
�15600 100 SSRES(N1,J) = XHOLD
��15700 110 NMAX = MAX0(N1,N2)
���15800 N = NMAX+1
�15900 IF (N .GT. NVART) GO TO 130
����16000 DO 120 J = N,NVART
���16100 XHOLD = SSWITH(N1,J)
�16200 SSWITH(N1,J) = SSWITH(N2,J)
����16300 SSWITH(N2,J) = XHOLD
�16400 XHOLD = SSRES(J,N1)
��16500 SSRES(J,N1) = SSRES(J,N2)
�16600 120 SSRES(J,N2) = XHOLD
��16700 130 IF (NMAX-NMIN .EQ. 1) GO TO 150
����16800 M1 = NMIN + 1
���16900 M2 = NMAX - 1
���17000 DO 140 J = M1,M2
17100 XHOLD = SSWITH(J ,NMAX)
���17200 SSWITH(J ,NMAX) = SSWITH(NMIN,J )
���17300 SSWITH(NMIN,J ) = XHOLD
���17400 XHOLD = SSRES(NMAX,J )
����17500 SSRES(NMAX,J ) = SSRES(J ,NMIN)
17600 140 SSRES(J ,NMIN) = XHOLD
����17700 150 XHOLD = SSWITH(NMAX,NMAX)
������17800 SSWITH(NMAX,NMAX) = SSWITH(NMIN,NMIN)
����17900 SSWITH(NMIN,NMIN) = XHOLD
�18000 XHOLD = SSRES (NMAX,NMAX)
�18100 SSRES (NMAX,NMAX) = SSRES (NMIN,NMIN)
����18200 SSRES (NMIN,NMIN) = XHOLD
�18300 DO 160 K = 1,2
��18400 XHOLDD = VARNAM(K,N2)
18500 VARNAM(K,N2) = VARNAM(K,N1)
����18600 160 VARNAM(K,N1) = XHOLDD
18700 DO 170 J = 1,NCELLS
��18800 XHOLD = ORTHES(J,N2)
�18900 ORTHES(J,N2) = ORTHES(J,N1)
����19000 170 ORTHES(J,N1) = XHOLD
�19100 DO 180 J = 1,NCELLS
��19200 XHOLD = ESTIM(J,N2)
��19300 ESTIM(J,N2) = ESTIM(J,N1)
������19400 180 ESTIM(J,N1) = XHOLD
��19500 XHOLD = GM(N2)
��19600 GM(N2) = GM(N1)
�19700 GM(N1) = XHOLD
��19800 190 CONTINUE
���19900 200 RETURN
20000 210 ERROR = .TRUE.
��20100 WRITE(IOUT,220) NV
�20200 220 FORMAT (9H0VARIABLE I4, 15H DOES NOT EXIST )
����20300 GO TO 200
��20400 END
���20500 SUBROUTINE SETTST
����20600 DIMENSION TAGR(3),ERRNAM(11,3),HOLD(18),SD(50),TAG(3),
�20700 1SSERR(25,25),ESTHLD(50),SSE(40,40) ,SSWITH(26,26),NERSAV(11),
20800 2SSRES(26,27),Q(500)
��20900 DATA INP,IOUT,IAUX1,IAUX2/5,30,22,23/
����21000 DATA IAUX4/24/
��21100 COMMON ORTHES(100,20),DUMMY(26,27),SSHYP(25,26),SSEAD(40,41),
21200 1ESTIM(50,50), NUMERR(8),NERRS(100),NDFCUM(100),NDFTST(
�21300 2100),VARNAM(2,50),HEAD(3,100),LEVEL(8),LEVSUB(8,10),LEVCUM(8,10),
�21400 3NCELL(100), NTABLE(27),ITABLE(9,9),OBS(100)
���21500 4 ,NVAR,NCOVAR,NERWIT,NERRES,HNUM(100),ERROR,NTESTS,RVARC,
����21600 5 FIRST,IORD(50),IPOSV(50),IVPOS(50),NCELLS,NVART,NDFTOT,
21700 6SPECOR,VLIST,PRINTR,NFACT , READK, PRINTK,CONTR ,TESTR, MFIRST,
��21800 7TRUTH,BLANK,MAXFAC,MAXCEL,MAXPAR,MAXLEV,MAXVAR,ATITLE,AJOBCD,
21900 8AANALY,AFINIS,WITHIN,SPACE(10)
�22000 EQUIVALENCE (SSERR,SSHYP(1,2)), (SSE,SSEAD(1,2) ) ,
����22100 1 (SSWITH,SSRES(1,2) ),(SSRES,DUMMY), (EONLY,SPACE(2) )
��22200 2,(Q,DUMMY(203)),(Q,SD), (Q(51),ESTHLD),(PRTSSH,SPACE(5))
22300 LOGICAL REGRES,ERROR,RVARC,WITHIN,EONLY,PRTSSH
22400 REAL MS,NTABLE
22500 DOUBLE PRECISION VARNAM
��22600 NVARTP = NVART + 1
���22700 NERTST = 0
�22800 NVCVAR = NVAR + NCOVAR
����22900 NVAR1 = NVAR+1
��23000 REGRES = .FALSE.
23100 KERR = 0
���23200 IF (NVAR .EQ. 1 .AND. .NOT. EONLY) WRITE(IOUT,100)
�23300 100 FORMAT (7H1SOURCE 27X 2HSS 7X 2HDF 10X 2HMS 14X 1HF10X 11HP LE
23400 1SS THAN )
�23500 NERRH = 0
��23600 NHYP= NCOVAR
����23700 NERR = NERWIT
���23800 CALL ALPHAN(3,TAG,12HWITHIN CELLS)
��23900 NESKIP = 1
�24000 GO TO 160
��24100 110 NERRH = 10
�24200 CALL ALPHAN(3,TAG,12HRESIDUAL )
24300 NHYP= NCOVAR
����24400 NERR = NERRES
���24500 NESKIP = 2
�24600 GO TO 160
��24700 120 NERRH = 9
��24800 CALL ALPHAN(3,TAG,12HWITHIN+RESID )
�24900 NHYP = NCOVAR
���25000 NERR = NERRES+NERWIT
�25100 NESKIP = 3
�25200 GO TO 160
��25300 130 IF (KERR .EQ. 8) GO TO 770
25400 140 KERR = KERR+1
���25500 IF (NUMERR(KERR) .EQ. 0) GO TO 130
��25600 NERRH = KERR
����25700 NCOD = NUMERR(KERR)
��25800 CALL ALPHAN(2,TAG,8HERROR )
��25900 TAG(3) = HNUM(KERR)
��26000 NHYP= NCOVAR
����26100 NERR = NDFTST(NCOD)
��26200 NESKIP = 4
�26300 150 NSTART = NDFCUM(NCOD)
26400 NFIN = NSTART-1+NDFTST(NCOD)
���26500 160 DO 170 J = 1,NTESTS
��26600 IF (NERRS(J) .EQ. NERRH) GO TO 180
��26700 170 CONTINUE
���26800 GO TO 760
��26900 180 IF (NVAR .GT. 1) GO TO 190
27000 NERTST = NERTST + 1
��27100 ERRNAM(NERTST,1) = TAG(1)
�27200 ERRNAM(NERTST,2) = TAG(2)
�27300 ERRNAM(NERTST,3)=TAG(3)
���27400 NERSAV(NERTST) = NERRH
����27500 IF (NERTST .NE. 1 .AND. NCOVAR .NE. 0) WRITE(IAUX2)(SSERR(1,J),
���27600 1J = 2,NVCVAR)
���27700 190 NERR = NERR - NCOVAR
�27800 IF (NERR .LT. NVAR) GO TO 820
27900 IF (WITHIN .OR. NESKIP .EQ. 4) GO TO 200
�28000 READ(IAUX2) ((SSRES(J,K),J=1,NVART),K=1,NVARTP)
����28100 WITHIN = .TRUE.
�28200 REWIND IAUX2
����28300 200 DO 270 I = 1,NVCVAR
��28400 DO 270 J = I,NVCVAR
��28500 GO TO (210,220,230,240), NESKIP
28600 210 SUM = SSWITH(I,J)
����28700 GO TO 260
��28800 220 SUM = SSRES(J,I)
28900 GO TO 260
��29000 230 SUM = SSWITH(I,J) + SSRES(J,I)
�29100 GO TO 260
��29200 240 SUM = 0.0
��29300 DO 250 K = NSTART,NFIN
����29400 250 SUM = SUM+ORTHES(K,I)*ORTHES(K,J)
���29500 260 SSERR(I,J) = SUM
29600 270 SSE(I,J) = SUM
��29700 DFERR = NERR
����29800 IF (NCOVAR .EQ. 0) GO TO 330
���29900 CALL UPRFCT(NCOVAR,SSERR(NVAR+1,NVAR+1) ,M)
���30000 IF (M .EQ. 0) GO TO 300
���30100 M = NVAR+M
�30200 280 WRITE(IOUT,290) TAG, VARNAM(1,M), VARNAM(2,M)
�30300 290 FORMAT(1H0/1H03A4, 53H HAS A POSSIBLE LINEAR DEPENDENCY INVOLVING
�30400 1 VARIABLE A6,A4,51H AND PRECEEDING COVARIATES FOR THE CURRENT ORDE
����30500 2RING )
��30600 300 CALL UTIRT(NCOVAR,NVAR,SSERR(NVAR+1,NVAR+1), SSERR(1,NVAR+1) )
���30700 DO 320 I = 1,NVAR
����30800 DO 320 J = I,NVAR
����30900 SUM = 0.0
��31000 DO 310 K = NVAR1,NVCVAR
���31100 310 SUM = SUM + SSERR(I,K)*SSERR(J,K)
���31200 SSHYP(J,I) = SUM
31300 320 SSERR(I,J) = SSERR(I,J) - SUM
��31400 CALL UIRT(NCOVAR,NVAR,SSERR(NVAR+1,NVAR+1), SSERR(1,NVAR+1) )
��31500 REGRES = .TRUE.
�31600 CALL ALPHAN(3,TAGR, 12HREGRESSION )
����31700 C
�31800 330 IF (.NOT. EONLY) GO TO 335
31900 IF(NVAR .NE. 1)CALL PRINTE(HOLD,ESTHLD,NERRH,0,1)
��32000 GO TO 760
��32100 335 FAC = 1.0/SQRT(DFERR)
32200 IF (NVAR .EQ. 1)GO TO 410
�32300 DO 340 I = 1,NVAR
����32400 SD(I) = SQRT(AMAX1(0.0,SSERR(I,I) ) )
����32500 340 SSEAD(I,I) = SD(I)*FAC
����32600 NVARM1 = NVAR-1
�32700 DO 350 I = 1,NVARM1
��32800 K = I+1
����32900 DO 350 J = K,NVAR
����33000 350 SSEAD(J,I) = SSERR(I,J)/(SD(I)*SD(J) )
���33100 WRITE(IOUT,360)TAG,NCOVAR
�33200 360 FORMAT (1H1 3A4,75H CORRELATIONS OF CRITERIA WITH STANDARD DEVIATI
33300 1ONS ON DIAGONAL ADJUSTED FOR I3,11H COVARIATES )
�33400 KEND = 0
���33500 370 KBEG = KEND + 1
�33600 KEND = KBEG + 9
�33700 KEND = MIN0(KEND,NVAR)
����33800 WRITE(IOUT,380) (VARNAM(1,J),VARNAM(2,J), J = KBEG,KEND)
�33900 380 FORMAT (1H0/10H0VARIABLE 11X,10(A6,A4,1X) )
��34000 DO 390 I = KBEG,NVAR
�34100 KENDR = MIN0(I,KEND)
�34200 390 WRITE(IOUT,400)VARNAM(1,I), VARNAM(2,I), (SSEAD(I,J), J = KBEG,
��34300 1KENDR)
34400 400 FORMAT (1H A6,A4,8X, 10F11.3)
34500 IF (KEND .LT. NVAR) GO TO 370
��34600 410 DO 420 I = 1,NVAR
����34700 DO 420 J = I,NVAR
����34800 420 SSEAD(J,I) = SSERR(I,J)
���34900 IF (NVAR .NE. 1) GO TO 440
35000 MS = SSERR(1,1)/DFERR
35100 WRITE(IOUT,430) TAG, SSERR(1,1), NERR, MS
����35200 430 FORMAT (1H03A4, 11X F15.3, I6, F15.3)
35300 GO TO 460
��35400 440 CALL UPRFCT(NVAR,SSERR,M)
�35500 IF (M .NE. 0) WRITE(IOUT,450) TAG, VARNAM(1,M) ,
���35600 1VARNAM(2,M)
35700 450 FORMAT(1H0/1H03A4, 53H HAS A POSSIBLE LINEAR DEPENDENCY INVOLVING
�35800 1 VARIABLE A6,A4,49H AND PRECEDING VARIATES FOR THE CURRENT ORDERI
����35900 2NG )
36000 CALL PRINTE(HOLD,ESTHLD,NERRH,0,1)
��36100 460 DO 750 LP = 1,NTESTS
�36200 M = 0
�36300 L = LP
36400 IF (NVAR .NE. 1) L = NTESTS - LP + 1
36500 470 IF (REGRES) GO TO 590
36600 NE = NERRS(L)
���36700 480 IF (NE .NE. NERRH) GO TO 730
���36800 NSTART = NDFCUM(L)
���36900 NFIN = NSTART-1+NDFTST(L)
�37000 490 CALL UNPAK(HEAD(1,L),HOLD,NTABLE)
���37100 IF (NSTART .NE. 0 .OR. WITHIN) GO TO 500
�37200 READ(IAUX2) ((SSRES(J,K),J=1,NVART),K=1,NVARTP)
����37300 WITHIN = .TRUE.
�37400 REWIND IAUX2
����37500 C COMPUTE HYPOTHESIS OR GET RESIDUAL IF REQUIRED.
����37600 500 DO 550 I = 1,NVCVAR
��37700 DO 550 J = I,NVCVAR
��37800 IF (NSTART .NE. 0) GO TO 510
���37900 SUM = SSRES(J,I)
38000 GO TO 530
��38100 510 SUM = 0.0
��38200 DO 520 K = NSTART,NFIN
����38300 520 SUM = SUM + ORTHES(K,I)*ORTHES(K,J)
�38400 530 IF (NCOVAR .NE. 0)GO TO 540
����38500 SSHYP(J,I) = SUM
38600 GO TO 550
��38700 540 SSHYP(J,I) = SUM + SSE(I,J)
����38800 550 CONTINUE
���38900 IF (NCOVAR .EQ. 0) GO TO 580
���39000 CALL LWRFCT(NCOVAR,SSHYP(NVAR+1,NVAR+1),M)
���39100 CALL LIXR(NCOVAR,NVAR,SSHYP(NVAR+1,NVAR+1), SSHYP(NVAR+1,1) )
��39200 DO 570 I = 1,NVAR
����39300 DO 570 J = I,NVAR
����39400 SUM = 0.0
��39500 DO 560 K = NVAR1,NVCVAR
���39600 560 SUM = SUM + SSHYP(K,I)*SSHYP(K,J)
���39700 570 SSHYP(J,I) = SSHYP(J,I) - SUM - SSEAD(J,I)
����39800 580 NHYP = NDFTST(L)
39900 590 IF (NVAR .EQ. 1) GO TO 680
40000 IF (REGRES) GO TO 610
����40100 WRITE(IOUT,600)HOLD
��40200 600 FORMAT (9H1TEST OF 50A1)
��40300 GO TO 630
��40400 610 WRITE(IOUT,620)TAG,TAGR
���40500 620 FORMAT (9H1TEST OF 3A4,1X,3A4)
����40600 NSTART = 0
�40700 630 IF (.NOT. PRTSSH) GO TO 639
����40800 WRITE(IOUT,631) NCOVAR
����40900 631 FORMAT (46H0SUMS OF PRODUCTS FOR HYPOTHESIS ADJUSTED FOR I3,1X,
���41000 111HCOVARIATES )
����41100 KEND = 0
���41200 362 KBEG = KEND + 1
�41300 KEND = KBEG + 9
�41400 KEND = MIN0(KEND,NVAR)
����41500 WRITE(IOUT,363) (VARNAM(1,J),VARNAM(2,J),J=KBEG,KEND)
��41600 363 FORMAT (1H0/10H0VARIABLE 11X,10(A6,A4,1X) )
��41700 DO 367 I = KBEG,NVAR
�41800 KENDR = MIN0(I,KEND)
�41900 367 WRITE(IOUT,364) VARNAM(2,I),VARNAM(1,I),(SSHYP(I,J), J= KBEG,
42000 1KENDR)
42100 364 FORMAT (1H A6,A4,8X, 10E11.3)
42200 IF (KEND .LT. NVAR) GO TO 362
��42300 IF (.NOT. REGRES) WRITE(IOUT,600)HOLD
����42400 IF (REGRES) WRITE(IOUT,620)TAG,TAGR
�42500 639 CALL SIGTST(NHYP,NERR,SD,NSTART)
����42600 WITHIN = .FALSE.
42700 IF (.NOT. REGRES) GO TO 730
����42800 KEND = 0
���42900 640 KBEG = KEND+1
���43000 KEND = KBEG + 7
�43100 KEND = MIN0(NVAR,KEND)
����43200 WRITE(IOUT,650) (VARNAM(1,J),VARNAM(2,J),J = KBEG,KEND)
�43300 650 FORMAT (1H0/29H0RAW REGRESSION COEFFICIENTS /30X 8HVARIATES /
��43400 111H COVARIATES 9X 8(4X A6,A4) )
���43500 DO 660 J = NVAR1,NVCVAR
���43600 660 WRITE(IOUT,670) VARNAM(1,J), VARNAM(2,J), (SSERR(K,J),K=KBEG,KEND)
43700 670 FORMAT (1H A6,A4,8X, 8F14.3)
�43800 IF (KEND .LT. NVAR) GO TO 640
��43900 GO TO 720
��44000 680 DFHYP = NHYP
����44100 MS = SSHYP(1,1)/DFHYP
44200 F = SSHYP(1,1)* DFERR/ (SSEAD(1,1)*DFHYP)
44300 FPRO=FPROB(DFHYP,DFERR,F)
�44400 PROB = AMAX1(.001,FPRO )
��44500 IF (REGRES) GO TO 700
����44600 WRITE(IOUT,690)HOLD, SSHYP(1,1), NHYP, MS, F,PROB
��44700 690 FORMAT(1H 18A1, 5X, F15.3, I6,3F15.3)
����44800 GO TO 730
��44900 700 WRITE(IOUT,710)TAGR,SSHYP(1,1),NHYP,MS,F,PROB
�45000 710 FORMAT (1H 3A4,11X, F15.3, I6,3F15.3)
����45100 720 REGRES = .FALSE.
����45200 GO TO 470
��45300 730 IF (M .EQ. 0) GO TO 750
���45400 M = NVAR + M
����45500 WRITE(IOUT,740)VARNAM(1,M), VARNAM(2,M)
��45600 740 FORMAT (1H0/43H0LOSS OF ACCURACY IN ABOVE DUE TO VARIABLE A6,A4,
�45700 151H AND PRECEDING COVARIATES FOR THE CURRENT ORDERING )
���45800 750 CONTINUE
���45900 760 GO TO (110,120,130,130), NESKIP
46000 770 IF (NVAR .NE. 1) GO TO 810
46100 CALL PRINTE(HOLD,ESTHLD,NERRH,NERSAV,NERTST)
��46200 IF (EONLY) GO TO 810
�46300 IF (NCOVAR .EQ. 0) GO TO 810
���46400 N2 = 0
46500 780 N1 = N2+1
��46600 N2 = MIN0(N1+7,NERTST)
����46700 WRITE(IOUT,790)(ERRNAM(J,1), ERRNAM(J,2),ERRNAM(J,3), J=N1,N2)
����46800 790 FORMAT (1H0/28H0RAW REGRESSION COEFFICIENTS/11H0COVARIATES 8X,
��46900 18(2X 3A4) )
47000 DO 800 J = 2,NVCVAR
�47100 800 WRITE(IOUT,670) VARNAM(1,J), VARNAM(2,J),( SSERR(K,J),K=N1,N2)
����47200 IF (N2 .LT. NERTST) GO TO 780
��47300 810 RETURN
47400 820 I=1
���47500 IF (NVAR .EQ. 1) I = 0
����47600 WRITE(IOUT,830)I,TAG
�47700 830 FORMAT (I1,15HTOO FEW DF IN 3A4)
47800 GO TO 760
�47900 END
���48000 SUBROUTINE UPRFCT(N,A,M)
��48100 DIMENSION A(25,25)
���48200 M=0
���48300 N1=N-1
48400 IF(N1) 160,100,100
���48500 100 DO 220 K=1,N
����48600 AKK=A(K,K)
�48700 IF(K .EQ. 1) GO TO 120
����48800 DO 110 J=2,K
����48900 110 AKK=AKK-A(J-1,K)**2
��49000 120 IF(A(K,K)) 140,140,130
����49100 130 IF(AKK/A(K,K) .GE. .001) GO TO 150
49200 140 M=K
���49300 AKK=0.
49400 150 AKK=SQRT(AKK)
���49500 A(K,K)=AKK
�49600 IF(K .NE. N) GO TO 170
����49700 160 RETURN
49800 170 DO 220 I=K,N1
���49900 AKI=A(K,I+1)
����50000 IF(K .EQ. 1) GO TO 190
����50100 DO 180 J=2,K
����50200 180 AKI=AKI-A(J-1,K)*A(J-1,I+1)
����50300 190 IF(AKK) 210,200,210
��50400 200 A(K,I+1)= 0.0
���50500 GO TO 220
��50600 210 A(K,I+1)=AKI/AKK
50700 220 CONTINUE
���50800 RETURN
50900 END
���51000 SUBROUTINE UTISUI (N,A,B)
�51100 DIMENSION A(25,25),B(25,25)
����51200 DO 200 I=1,N
����51300 I1 = I-1
���51400 DO 130 J=I,N
����51500 IF(I1) 120,120,100
���51600 100 DO 110 K=1,I1
���51700 110 A(J,I) = A(J,I) - B(K,I)*A(J,K)
51800 120 A(J,I) = A(J,I)/B(I,I)
����51900 130 IF (B(I,I) .EQ. 0.0) A(J,I) = 0.0
���52000 DO 200 J=1,I
����52100 J1 = J-1
���52200 IF(J1) 160,160,140
���52300 140 DO 150 K=1,J1
���52400 150 A(I,J) = A(I,J) - B(K,I)*A(J,K)
52500 160 IF(I1-J) 190,170,170
�52600 170 DO 180 K=J,I1
���52700 180 A(I,J) = A(I,J) - B(K,I)*A(K,J)
52800 190 A(I,J) = A(I,J)/B(I,I)
����52900 200 IF (B(I,I) .EQ. 0.0) A(I,J) = 0.0
���53000 RETURN
53100 END
���53200 SUBROUTINE UIRT (M,N,S,B)
�53300 DIMENSION S(25,25),B(25,25)
����53400 DO 150 J=1,N
����53500 100 I=M
���53600 110 SUM = B(J,I)
����53700 REC = 0.0
��53800 IF (S(I,I) .NE. 0.) REC = 1./S(I,I)
�53900 IF(M-I) 140,140,120
��54000 120 IP1 = I+1
��54100 DO 130 K=IP1,M
��54200 130 SUM = SUM - S(I,K)*B(J,K)
�54300 140 SUM = SUM*REC
���54400 B(J,I) = SUM
����54500 I=I-1
�54600 IF(I) 150,150,110
����54700 150 CONTINUE
���54800 RETURN
54900 END
���55000 SUBROUTINE PRINTE( HOLD,ESTHLD,NERRH,NERSAV,NERTST)
55100 DIMENSION HOLD(18), ESTHLD(50) , SSERR(25,25),NERSAV(11),
����55200 1SSRES(26,27),Q(500),GM(50)
55300 COMMON ORTHES(100,20),DUMMY(26,27),SSHYP(25,26),SSEAD(40,41),
55400 1ESTIM(50,50), NUMERR(8),NERRS(100),NDFCUM(100),NDFTST(
�55500 2100),VARNAM(2,50),HEAD(3,100),LEVEL(8),LEVSUB(8,10),LEVCUM(8,10),
�55600 3NCELL(100), NTABLE(27),ITABLE(9,9),OBS(100)
���55700 4 ,NVAR,NCOVAR,NERWIT,NERRES,HNUM(100),ERROR,NTESTS,RVARC,
����55800 5 FIRST,IORD(50),IPOSV(50),IVPOS(50),NCELLS,NVART,NDFTOT,
55900 6SPECOR,VLIST,PRINTR,NFACT , READK, PRINTK,CONTR ,TESTR, MFIRST,
��56000 7TRUTH,BLANK,MAXFAC,MAXCEL,MAXPAR,MAXLEV,MAXVAR,ATITLE,AJOBCD,
56100 8AANALY,AFINIS,WITHIN,SPACE(10)
�56200 DATA INP,IOUT,IAUX1,IAUX2/5,30,22,23/
����56300 DATA IAUX4/24/
��56400 EQUIVALENCE (SSERR,SSHYP(1,2) ),(SSRES,DUMMY)
�56500 1,(Q,DUMMY(203)), (GM,Q(0301)), (PRTCLL,SPACE(4))
���56600 DOUBLE PRECISION VARNAM
��56700 LOGICAL PRTCLL,SPWITH
56800 DATA W /4HW /
�56900 NVAR1 = NVAR + 1
57000 NVCVAR = NVAR + NCOVAR
����57100 IF (NERTST .EQ. 1 .OR. NCOVAR .EQ. 0) GO TO 110
����57200 REWIND IAUX2
����57300 DO 100 J = 2,NVCVAR
��57400 100 SSERR(NERTST,J) = SSERR(1,J)
���57500 110 KEND = 0
���57600 IF (NVAR .LE. 10) WRITE(IOUT,120)NCOVAR
��57700 120 FORMAT ( 23H0ESTIMATES ADJUSTED FOR I3,11H COVARIATES )
�57800 130 KBEG = KEND+1
��������57900 KEND = KBEG + 7
�58000 KEND = MIN0(NVAR,KEND)
����58100 IF ((NDFTOT .GT. 10 .AND. KBEG .GT. 1).OR.(KBEG .EQ. 1 .AND. NVAR
�58200 1.GT. 10))WRITE(IOUT,140)NCOVAR
�58300 140 FORMAT (23H1ESTIMATES ADJUSTED FOR I3,11H COVARIATES )
�58400 WRITE(IOUT,150) (VARNAM(1,J),VARNAM(2,J),J = KBEG,KEND)
�58500 150 FORMAT (1H0 45X 8HCRITERIA / 9H CONTRAST 11X 8(4XA6,A4))
�58600 DO 210 LT = 1,NERTST
�58700 IF (NVAR .NE. 1) GO TO 160
58800 NERRH = NERSAV(LT)
���58900 IF (LT .NE. NERTST .AND. NCOVAR .NE. 0) READ(IAUX2)(SSERR(LT,J),
��59000 1J = 2,NVCVAR)
��������59100 160 DO 210 L = 1,NTESTS
��59200 IF (NERRS(L) .GT. 10 .OR. NERRS(L) .NE. NERRH) GO TO 210
59300 NSTART = NDFCUM(L)
���59400 NFIN = NSTART - 1 + NDFTST(L)
��59500 IF (NSTART .EQ. 0) GO TO 210
���59600 CALL UNPAK(HEAD(1,L), HOLD, NTABLE)
�59700 SPWITH = HOLD(1) .EQ. W
���59800 WRITE(IOUT,170)HOLD
��59900 170 FORMAT (1H 50A1)
��60000 L1=0
��60100 DO 205 I = NSTART,NFIN
����60200 L1 = L1 + 1
60300 DO 190 J = 1,NVAR
����60400 ESTHLD(J) = ESTIM(I,J)
����60500 IF (NCOVAR .EQ. 0) GO TO 190
���60600 JT = J+LT-1
60700 CORR = 0.0
�60800 DO 180 K = NVAR1,NVCVAR
���60900 IF (SPWITH .AND. PRTCLL) CORR = GM(K)
����61000 180 ESTHLD(J) = ESTHLD(J) - (ESTIM(I,K) - CORR) * SSERR(JT,K)
����61100 190 CONTINUE
���61200 WRITE(IOUT,200) L1, (ESTHLD(K), K = KBEG,KEND)
��61300 200 FORMAT (1H I6,12X 8F14.3)
�61400 205 CONTINUE
���61500 210 CONTINUE
���61600 IF (KEND .LT. NVAR) GO TO 130
��61700 RETURN
61800 END
���61900 SUBROUTINE LWRFCT(N,A,M)
��62000 DIMENSION A(25,25)
���62100 M=0
���62200 N1=N-1
62300 IF(N1) 160,100,100
���62400 100 DO 220 K=1,N
����62500 AKK=A(K,K)
�62600 IF(K .EQ. 1) GO TO 120
����62700 DO 110 J=2,K
����62800 110 AKK=AKK-A(K,J-1)**2
��62900 120 IF(A(K,K)) 140,140,130
����63000 130 IF(AKK/A(K,K) .GE. .00001) GO TO 150
63100 140 M=K
���63200 AKK=0.
63300 150 AKK=SQRT(AKK)
���63400 A(K,K)=AKK
�63500 IF(K .NE. N) GO TO 170
����63600 160 RETURN
63700 170 DO 220 I=K,N1
���63800 AIK=A(I+1,K)
����63900 IF(K .EQ. 1) GO TO 190
����64000 DO 180 J=2,K
����64100 180 AIK=AIK-A(K,J-1)*A(I+1,J-1)
����64200 190 IF(AKK) 210,200,210
��64300 200 A(I+1,K)= 0.0
���64400 GO TO 220
��64500 210 A(I+1,K)=AIK/AKK
64600 220 CONTINUE
���64700 RETURN
64800 END
���64900 SUBROUTINE LIXR (M,N,S,B)
�65000 DIMENSION S(25,25),B(25,25)
����65100 DO 130 J=1,N
����65200 DO 130 I=1,M
����65300 SUM = B(I,J)
����65400 IM1 = I-1
��65500 IF(IM1) 120,120,100
��65600 100 DO 110 K=1,IM1
��65700 110 SUM = SUM-S(I,K)*B(K,J)
���65800 120 SUM = SUM/S(I,I)
65900 IF (S(I,I) .EQ. 0.0) SUM = 0.0
�66000 130 B(I,J) = SUM
����66100 RETURN
66200 END
���66300 SUBROUTINE SIGTST(NHYP,NERR,SD,NSTART)
���66400 DIMENSION FUVAR(50),SD(50), EIG(50), VEC(26,26), PI(50),VECHLD(50)
66500 1,ESTHLD(50), SSERR(50,50),SAVMS(50),Q(500)
����66600 COMMON ORTHES(100,20),DUMMY(26,27),SSHYP(25,26),SSEAD(40,41),
66700 1ESTIM(50,50), NUMERR(8),NERRS(100),NDFCUM(100),NDFTST(
�66800 2100),VARNAM(2,50),HEAD(3,100),LEVEL(8),LEVSUB(8,10),LEVCUM(8,10),
�66900 3NCELL(100), NTABLE(27),ITABLE(9,9),OBS(100)
���67000 4 ,NVAR,NCOVAR,NERWIT,NERRES,HNUM(100),ERROR,NTESTS,RVARC,
����67100 5 FIRST,IORD(50),IPOSV(50),IVPOS(50),NCELLS,NVART,NDFTOT,
67200 6SPECOR,VLIST,PRINTR,NFACT , READK, PRINTK,CONTR ,TESTR, MFIRST,
��67300 7TRUTH,BLANK,MAXFAC,MAXCEL,MAXPAR,MAXLEV,MAXVAR,ATITLE,AJOBCD,
67400 8AANALY,AFINIS,WITHIN,SPACE(10)
�67500 DATA INP,IOUT,IAUX1,IAUX2/5,30,22,23/
����67600 DATA IAUX4/24/
��67700 EQUIVALENCE (SSERR,SSHYP(1,2)),
67800 1(VEC,DUMMY), (PI,VECHLD), (FUVAR,ESTHLD), (Q,DUMMY(203)),
����67900 2(Q(101),EIG), (Q(151),VECHLD), (Q(201),ESTHLD), (Q(251),SAVMS)
����68000 DOUBLE PRECISION VARNAM
��68100 LOGICAL RVARC
���68200 TOL = .15
��68300 NVAR1 = NVAR + 1
68400 NVCVAR = NVAR + NCOVAR
����68500 NROOTS = MIN0(NVAR,NHYP)
��68600 XNVAR = NVAR
����68700 XNERR = NERR
����68800 FAC = SQRT(XNERR)
����68900 XNHYP = NHYP
����69000 YNHYP = XNHYP
���69100 DFHYP = XNVAR*XNHYP
��69200 CON = XNERR/XNHYP
����69300 DO 100 I = 1,NVAR
����69400 SAVMS(I) = SSHYP(I,I)/XNHYP
����69500 100 FUVAR(I) = CON*SSHYP(I,I)/SSEAD(I,I)
69600 CALL UTISUI(NVAR,SSHYP,SSERR)
��69700 CALL EIGN(NVAR,SSHYP,EIG,VEC,IND)
���69800 IF (IND .NE. 0) WRITE(IOUT,110)
69900 110 FORMAT (40H0LOSS OF ACCURACY IN EIGENVALUE PROBLEM )
�70000 CALL UIXR(NVAR,NVAR,SSERR,VEC)
�70100 PI(NROOTS) = 1.0 + EIG(NROOTS)
�70200 IF (NROOTS .EQ. 1) GO TO 130
���70300 NROOT1 = NROOTS - 1
��70400 DO 120 I = 1,NROOT1
��70500 J = NROOTS - I
��70600 IF (EIG(I+1) .LT. 0.0) EIG(I+1) = 0.0
����70700 120 PI(J) = PI(J+1)*(1.0+EIG(J) )
��70800 130 WRITE(IOUT,140)
�70900 140 FORMAT (81H0TESTS OF SIGNIFICANCE USING WILKS LAMBDA CRITERION
���71000 1 AND CANONICAL CORRELATIONS /15H TEST OF ROOTS 13X 1HF 9X 5HD
����71100 2FHYP 7X 5HDFERR 4X 11HP LESS THAN 5X 1HR)
���71200 NSIG = 0
���71300 DO 160 I = 1,NROOTS
��71400 XK = 1.0
���71500 DFH = XNHYP*XNVAR
����71600 IF (DFH .NE. 2.0) XK = SQRT( (DFH**2-4.0)/(XNVAR**2+XNHYP**2
�71700 1-5.0) )
����71800 DFERR = (XK*(2.0*XNERR+XNHYP-XNVAR-1.0) - DFHYP + 2.0)/2.0
���71900 CON = DFERR/DFHYP
����72000 XLAMB = PI(I)**(-1.0/XK)
��72100 F = CON* (1.0-XLAMB)/XLAMB
72200 FPRO=FPROB(DFHYP,DFERR,F)
�72300 PROB =AMAX1(.001,FPRO )
���72400 CANONR = SQRT(EIG(I)/(1.0+EIG(I) ))
���72500 WRITE(IOUT,150) I,NROOTS,F,DFHYP,DFERR,PROB, CANONR
72600 150 FORMAT (I3,8H THROUGH I3,5X,5F12.3)
�72700 IF (PROB .LE. TOL) NSIG = NSIG + 1
��72800 XNHYP = XNHYP - 1.0
��72900 DFSUB = NVAR + NHYP + 1 - 2*I
��73000 160 DFHYP = DFHYP - DFSUB
73100 N2 = NSIG
��73200 N1 = 1
73300 IF (NSIG .EQ. 0) N2 = 1
���73400 IF (NSIG .GT. 8) N2 = 8
��73500 170 WRITE(IOUT,180)NHYP,NERR, (I,I = 1,N2)
���73600 180 FORMAT (1H0/1H0 27X 19HUNIVARIATE F TESTS 14X 47HSTANDARDIZED DIS
73700 1CRIMINANT FUNCTION COEFFICIENTS /9H VARIABLE 11X 2HF( I2,1H, I5,
73800 21H) 4X 7HMEAN SQ 4X 11HP LESS THAN I7,7I8)
��73900 DO 200 I = 1,NVAR
����74000 FPRO=FPROB(YNHYP,XNERR,FUVAR(I))
����74100 PROBF =AMAX1(.001,FPRO )
��74200 DO 190 J = 1,N2
�74300 190 VECHLD(J) = SD(I)*VEC(I,J)
74400 200 WRITE(IOUT,210)VARNAM(1,I), VARNAM(2,I), FUVAR(I),SAVMS(I),PROBF,
�74500 1(VECHLD(J), J = 1,N2)
74600 210 FORMAT (1H A6,A4, 7X, 3F12.3, 5X, 8F8.3)
74700 IF (NSIG .EQ. 0) GO TO 410
74800 220 IF (NSTART .EQ. 0) GO TO 300
���74900 WRITE(IOUT,230) (I,I = N1,N2)
75000 230 FORMAT (1H0/21H0DISCRIMINANT SCORES /9H CONTRAST 47X 8I8)
�75100 NFIN = NSTART + NHYP - 1
��75200 M=0
���75300 DO 280 I = NSTART,NFIN
����75400 DO 250 J = 1,NVAR
����75500 SUM = ESTIM(I,J)
75600 IF (NCOVAR .EQ. 0) GO TO 250
���75700 DO 240 K = NVAR1,NVCVAR
���75800 240 SUM = SUM - ESTIM(I,K)*SSERR(J,K)
���75900 250 ESTHLD(J) = SUM
�76000 M = M+1
����76100 DO 270 J = N1,N2
����76200 SUM = 0.0
��76300 DO 260 K = 1,NVAR
����76400 260 SUM = SUM + ESTHLD(K)*VEC(K,J)
�76500 270 VECHLD(J) = SUM*FAC
��76600 280 WRITE(IOUT,290)M, (VECHLD(J), J =N1,N2)
��76700 290 FORMAT (I7, 52X 8F8.3)
���76800 300 IF (.NOT. RVARC) GO TO 370
76900 WRITE(IOUT,310)(I,I = N1,N2)
���77000 310 FORMAT(1H0/52H0CORRELATIONS BETWEEN VARIABLES AND COMPOSITE SCORES
77100 1/9H VARIABLE 47X 8I8)
����77200 DO 350 I = 1,NVAR
����77300 I1 = I + 1
�77400 DO 340 J = N1,N2
77500 SUM = 0.0
��77600 DO 320 K1 = 1,I
�77700 320 SUM = SUM + SSEAD(I,K1)*VEC(K1,J)
���77800 IF (I1 .GT. NVAR) GO TO 340
����77900 DO 330 K1= I1,NVAR
���78000 330 SUM = SUM + SSEAD(K1,I)*VEC(K1,J)
���78100 340 VECHLD(J) = SUM/SD(I)
78200 350 WRITE(IOUT,360)VARNAM(1,I), VARNAM(2,I), (VECHLD(J), J = N1,N2)
���78300 360 FORMAT (1H A6,A4, 48X, 8F8.3)
�78400 370 IF (N2 .EQ. NSIG) GO TO 410
����78500 N1 = N2 + 1
78600 N2 = MIN0(NSIG,N1+7)
�78700 WRITE(IOUT,380) (I,I = N1,N2)
��78800 380 FORMAT (1H0/1H0 60X 47HSTANDARDIZED DISCRIMINANT FUNCTION COEFFICI
78900 1ENTS / 9H VARIABLE 47X 8I8)
����79000 IF (N2 .GT. NSIG) N2 = NSIG
����79100 DO 400 I = 1,NVAR
����79200 DO 390 J = N1,N2
79300 390 VECHLD(J) = SD(I)*VEC(I,J)
79400 400 WRITE(IOUT,360)VARNAM(1,I), VARNAM(2,I), (VECHLD(J), J = N1,N2)
���79500 GO TO 220
��79600 410 RETURN
79700 END
���79800 SUBROUTINE EIGN(NN,A,EIG,VEC,IND)
���79900 DIMENSION A(25,25),GAMMA(50),BETA(50),BETASQ(50),EIG(50)
80000 DIMENSION W(49),VEC(26,26)
80100 DIMENSION P(49),Q(49)
80200 EQUIVALENCE (P(1),BETA(1)),(Q(1),BETA(1))
80300 DIMENSION IPOSV(50),IVPOS(50),IORD(50)
���80400 EQUIVALENCE (IPOSV(1),GAMMA(1)),(IVPOS(1),BETA(1)),
80500 1(IORD(1),BETASQ(1))
��80600 N=NN
��80700 IND=0
�80800 IF(N .EQ. 0) GO TO 560
����80900 N1=N-1
81000 N2=N-2
81100 ENORM=0.
���81200 TRACE=0.
���81300 DO 110 J=1,N
����81400 DO 100 I=J,N
����81500 100 ENORM=ENORM+A(I,J)**2
81600 TRACE=TRACE+A(J,J)
���81700 110 ENORM=ENORM-.5*A(J,J)**2
��81800 ENORM=ENORM+ENORM
����81900 GAMMA(1)=A(1,1)
�82000 IF(N2) 280,270,120
���82100 120 DO 260 NR=1,N2
��82200 B=A(NR+1,NR)
����82300 S=0.
��82400 DO 130 I=NR,N2
��82500 130 S=S+A(I+2,NR)**2
82600 A(NR+1,NR)=0.
���82700 IF(S) 250,250,140
����82800 140 S=S+B*B
����82900 SGN=+1.
����83000 IF(B) 150,160,160
����83100 150 SGN=-1.
����83200 160 SQRTS=SQRT(S)
���83300 D=SGN/(SQRTS+SQRTS)
��83400 TEMP=SQRT(.5+B*D)
����83500 W(NR)=TEMP
�83600 A(NR+1,NR)=TEMP
�83700 D=D/TEMP
���83800 B=-SGN*SQRTS
����83900 DO 170 I=NR,N2
��84000 TEMP=D*A(I+2,NR)
84100 W(I+1)=TEMP
84200 170 A(I+2,NR)=TEMP
��84300 WTAW=0.
����84400 DO 220 I=NR,N1
��84500 SUM=0.
84600 DO 180 J=NR,I
���84700 180 SUM=SUM+A(I+1,J+1)*W(J)
���84800 I1=I+1
84900 IF(N1-I1) 210,190,190
85000 190 DO 200 J=I1,N1
��85100 200 SUM=SUM+A(J+1,I+1)*W(J)
���85200 210 P(I)=SUM
���85300 220 WTAW=WTAW+SUM*W(I)
���85400 DO 230 I=NR,N1
��85500 230 Q(I)=P(I)-WTAW*W(I)
��85600 DO 240 J=NR,N1
��85700 QJ=Q(J)
����85800 WJ=W(J)
����85900 DO 240 I=J,N1
���86000 240 A(I+1,J+1)=A(I+1,J+1)-2.*(W(I)*QJ+WJ*Q(I))
����86100 250 BETA(NR)=B
�86200 BETASQ(NR)=B*B
��86300 260 GAMMA(NR+1)=A(NR+1,NR+1)
��86400 270 B=A(N,N-1)
�86500 BETA(N-1)=B
86600 BETASQ(N-1)=B*B
�86700 GAMMA(N)=A(N,N)
�86800 280 BETASQ(N)=0.
����86900 DO 300 I=1,N
����87000 DO 290 J=1,N
����87100 290 VEC(I,J)=0.
87200 300 VEC(I,I)=1.
87300 M=N
���87400 SUM=0.
87500 NPAS=1
87600 GO TO 400
��87700 310 SUM=SUM+SHIFT
���87800 COSA=1.
����87900 G=GAMMA(1)-SHIFT
88000 PP=G
��88100 PPBS=PP*PP+BETASQ(1)
�88200 PPBR=SQRT(PPBS)
�88300 DO 370 J=1,M
����88400 COSAP=COSA
�88500 IF(PPBS .NE. 0.) GO TO 320
88600 SINA=0.
����88700 SINA2=0.
��88800 COSA=1.
����88900 GO TO 350
��89000 320 SINA=BETA(J)/PPBR
����89100 SINA2=BETASQ(J)/PPBS
�89200 COSA=PP/PPBR
����89300 NT=J+NPAS
��89400 IF(NT .GE. N) NT=N
���89500 330 DO 340 I=1,NT
���89600 TEMP=COSA*VEC(I,J)+SINA*VEC(I,J+1)
��89700 VEC(I,J+1)=-SINA*VEC(I,J)+COSA*VEC(I,J+1)
89800 340 VEC(I,J)=TEMP
���89900 350 DIA=GAMMA(J+1)-SHIFT
�90000 U=SINA2*(G+DIA)
�90100 GAMMA(J)=G+U
����90200 G=DIA-U
����90300 PP=DIA*COSA-SINA*COSAP*BETA(J)
�90400 IF(J .NE. M) GO TO 360
����90500 BETA(J)=SINA*PP
�90600 BETASQ(J)=SINA2*PP*PP
90700 GO TO 380
��90800 360 PPBS=PP*PP+BETASQ(J+1)
����90900 PPBR=SQRT(PPBS)
�91000 BETA(J)=SINA*PPBR
����91100 370 BETASQ(J)=SINA2*PPBS
�91200 380 GAMMA(M+1)=G
����91300 NPAS=NPAS+1
91400 IF(BETASQ(M) .GT. 1.E-21) GO TO 410
�91500 390 EIG(M+1)=GAMMA(M+1)+SUM
���91600 400 BETA(M)=0.
�91700 BETASQ(M)=0.
����91800 M=M-1
�91900 IF(M .EQ. 0) GO TO 430
����92000 IF(BETASQ(M) .LE. 1.E-21) GO TO 390
�92100 410 A2=GAMMA(M+1)
���92200 R2=.5*A2
���92300 R1=.5*GAMMA(M)
��92400 R12=R1+R2
��92500 DIF=R1-R2
��92600 TEMP=SQRT(DIF*DIF+BETASQ(M))
���92700 R1=R12+TEMP
92800 R2=R12-TEMP
92900 DIF=ABS(A2-R1)-ABS(A2-R2)
�93000 IF(DIF .LT. 0.) GO TO 420
�93100 SHIFT=R2
���93200 GO TO 310
��93300 420 SHIFT=R1
���93400 GO TO 310
��93500 430 EIG(1)=GAMMA(1)+SUM
��93600 DO 440 J=1,N
����93700 IPOSV(J)=J
�93800 IVPOS(J)=J
�93900 440 IORD(J)=J
��94000 M=N
���94100 GO TO 470
��94200 450 DO 460 J=1,M
����94300 IF(EIG(J) .GE. EIG(J+1)) GO TO 460
��94400 TEMP=EIG(J)
94500 EIG(J)=EIG(J+1)
�94600 EIG(J+1)=TEMP
���94700 ITEMP=IORD(J)
���94800 IORD(J)=IORD(J+1)
����94900 IORD(J+1)=ITEMP
�95000 460 CONTINUE
���95100 470 M=M-1
�95200 IF(M .NE. 0) GO TO 450
����95300 IF(N1 .EQ. 0) GO TO 500
���95400 DO 490 L=1,N1
���95500 NV=IORD(L)
�95600 NP=IPOSV(NV)
����95700 IF(NP .EQ. L) GO TO 490
���95800 LV=IVPOS(L)
95900 IVPOS(NP)=LV
����96000 IPOSV(LV)=NP
����96100 DO 480 I=1,N
����96200 TEMP=VEC(I,L)
���96300 VEC(I,L)=VEC(I,NP)
���96400 480 VEC(I,NP)=TEMP
��96500 490 CONTINUE
���96600 500 ESUM=0.
����96700 ESSQ=0.
����96800 DO 550 NRR=1,N
��96900 K=N1
��97000 510 K=K-1
�97100 IF(K .LE. 0) GO TO 540
����97200 SUM=0.
97300 DO 520 I=K,N1
���97400 520 SUM=SUM+VEC(I+1,NRR)*A(I+1,K)
��97500 SUM=SUM+SUM
97600 DO 530 I=K,N1
���97700 530 VEC(I+1,NRR)=VEC(I+1,NRR)-SUM*A(I+1,K)
���97800 GO TO 510
��97900 540 ESUM=ESUM+EIG(NRR)
���98000 550 ESSQ=ESSQ+EIG(NRR)**2
98100 TEMP=ABS(512.*TRACE)
�98200 IF((ABS(TRACE-ESUM)+TEMP)-TEMP .NE. 0.) IND=IND+1
��98300 TEMP=1024.*ENORM
98400 IF((ABS(ENORM-ESSQ)+TEMP)-TEMP .NE. 0.) IND=IND+2
��
���00100 560 RETURN
00200 END
���00300 SUBROUTINE UIXR (M,N,S,B)
�00400 DIMENSION S(25,25),B(26,26)
����00500 DO 150 J=1,N
����00600 100 I=M
���00700 110 SUM = B(I,J)
����00800 REC = 0.0
��00900 IF (S(I,I) .NE. 0.) REC = 1./S(I,I)
�01000 IF(M-I) 140,140,120
��01100 120 IP1 = I+1
��01200 DO 130 K=IP1,M
��01300 130 SUM = SUM - S(I,K)*B(K,J)
�01400 140 SUM = SUM*REC
���01500 B(I,J) = SUM
����01600 I=I-1
�01700 IF(I) 150,150,110
����01800 150 CONTINUE
���01900 RETURN
02000 END
���02100 SUBROUTINE UTIRT(M,N,S,B)
�02200 DIMENSION S(25,25),B(25,25)
����02300 DO 130 J=1,N
����02400 DO 130 I=1,M
����02500 SUM = B(J,I)
����02600 IM1 = I-1
��02700 IF(IM1) 120,120,100
��02800 100 DO 110 K=1,IM1
��02900 110 SUM = SUM-S(K,I)*B(J,K)
���03000 120 SUM = SUM/S(I,I)
03100 IF (S(I,I) .EQ. 0.0) SUM = 0.0
�03200 130 B(J,I) = SUM
����03300 RETURN
03400 END
���04700 FUNCTION FPROB(UV,VV,FV)
��04800 U=UV
��04900 V=VV
��05000 F=FV
��05100 IND=0
�05200 IF(F.GT.1.)GO TO 10
��05300 IND=1
�05400 F=1./F
05500 TEMP=U
05600 U=V
���05700 V=TEMP
05800 10 Z1=2./(9.*U)
����05900 Z2=2./(9.*V)
����06000 Z=ABS((1.-Z2)*F**(.33333333)-1+Z1)
��06100 Z=Z/SQRT(Z2*F**(.66666667)+Z1)
�06200 IF(V.GT.4.)GO TO 30
��06300 Z=Z*(1.+.08*Z**4/V**3)
����06400 30 Z=(1.+Z*(.196854+Z*(.115194+Z*(.000344+Z*.019527))))**4
�06500 FPROB=.5/Z
�06600 IF(IND.EQ.1)FPROB=1.-FPROB
06700 RETURN
06800 END
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