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43,50520/stp2.stp
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C *** STAT PACK ***
C ROUTINE TO CALCULATE POINT BISERIAL CORRELATIONS
C CALLING SEQUENCE: CALL PTBIS(NV,NC,MV,MC,DATA,STD,IO,NAMES)
C WHERE NV - NUMBER OF VARIABLES USED
C NC - NUMBER OF OBSERVATIONS USED
C MV - NUMBER OF VARIABLES DIMENSIONED FOR
C MC - NUMBER OF OBSERVATIONS DIMENSIONED FOR
C DATA - MATRIX CONTAINING DATA
C STD - VECTOR CONTAINING VARIABLE STANDARD DEVIATIONS
C IO - VECTOR DIMENSIONED AT LEAST NO
C NAMES- VECTOR CONTAINING VARIABLE NAMES
C
C PROGRAM MAKES USE OF SINGLETON SORT TECHNIQUE FOR DICHOTOMY
C ORIGINAL ROUTINE WRITTEN BY SAM ANEMA. SUGESTED FOR
C INCLUSION IN STP BY SAM ANEMA (FACULTY COORDINATOR - WMU)
C
SUBROUTINE PTBIS(NV,NC,MV,MC,DATA,STD,IO,NAMES)
DIMENSION IV(51),IU(16),IL(16),NAMES(1),STD(1),INPUT(15)
DIMENSION NUMBER(3),IO(1),DATA(MC,MV)
COMMON /DEV/ ICC,IDATA,IOUT,IDLG,IDSK
COMMON /PRNT/ LINPP,ICOPS,RUNPRG
COMMON /EXTRA/HEDR(70),NSZ
EQUIVALENCE (IDV,IV(51))
ALL=0
IB=0
1 IF(ICC.NE.2) WRITE(IDLG,2)
2 FORMAT(' WHICH VARIABLES? ',$)
CALL ALPHA(IV,50,NN,IRET,IHELP,IERR,NAMES,NV)
IF(IRET.EQ.1) RETURN
IF(IERR.EQ.1) GO TO 1
IF(IHELP.NE.1) GO TO 200
WRITE(IDLG,3)
3 FORMAT('0ENTER THE VARIABLES TO BE USED IN THE POINT-BISERIAL'/
1' CORRELATION. EITHER VARIABLE NAMES(IF THEY HAVE BEEN'/
2' SUPPLIED) OR VARIABLE NUMBERS MAY BE USED. UP TO 50'/
3' VARIABLES MAY BE ENTERED. THE DICHOTOMOUS VARIABLE'/
4' MAY BE ENTERED WITH THE OTHERS, HOWEVER IT IS NOT NECESSARY')
WRITE(IDLG,6)
GO TO 1
200 DO 201 I=1,NN
IF(IV(I).GE.1) GO TO 201
ALL=1
201 CONTINUE
C
C DICHOTOMOUS VARIABLE
C
4 IF(ICC.NE.2) WRITE(IDLG,5)
5 FORMAT(' WHICH IS THE DICHOTOMOUS VARIABLE? ',$)
CALL ALPHA(IV(51),1,N,IRET,IHELP,IERR,NAMES,NV)
IF(IRET.EQ.1) RETURN
IF(IERR.EQ.1) GO TO 4
IF(IHELP.NE.1) GO TO 7
WRITE(IDLG,6)
6 FORMAT('0THE DICHOTOMOUS VARIABLE WILL BE CORRELATED WITH ALL'/
1' THE OTHER VARIABLES SPECIFIED USING A POINT-BISERIAL'/
2' CORRELATION. FIRST THE VARIABLE WILL BE CHECKED TO SEE'/
3' IF ALL THE OBSERVATIONS ARE EQUAL TO 1 OF 2 VALUES, IN'/
4' WHICH CASE THE ANALYSIS WILL BE PERFORMED. IF A THIRD OR'/
5' MORE VALUE EXISTS FOR THE DICHOTOMOUS VARIABLE, IT WILL BE'/
1' NECESSARY TO ENTER A BREAK POINT WHEN INSTRUCTED.'/)
GO TO 4
C
C CHECK DICHOTOMOUS VARIABLE
C
7 IF(IV(51).GT.0) GO TO 9
WRITE(IDLG,8)
8 FORMAT(' IT IS ILLEGAL TO SPECIFY ALL VARIABLES AS DICHOTOMOUS')
GO TO 4
C
C SORT ON DICHOTOMOUS VARIABLE SINGLETON NETHOD BUT BY INDEX
C
9 DO 15 I=1,NC
15 IO(I)=I
M=1
II=1
J=NC
21 IF(II.GE.J) GO TO 28
22 K=II
IJ=(J+II)/2
T=DATA(IO(IJ),IDV)
IF(DATA(IO(II),IDV).LE.T) GO TO 23
ISAV=IO(IJ)
IO(IJ)=IO(II)
IO(II)=ISAV
T=DATA(IO(IJ),IDV)
23 LL=J
IF(DATA(IO(J),IDV).GE.T) GO TO 25
ISAV=IO(IJ)
IO(IJ)=IO(J)
IO(J)=ISAV
T=DATA(IO(IJ),IDV)
IF(DATA(IO(II),IDV).LE.T) GO TO 25
ISAV=IO(IJ)
IO(IJ)=IO(II)
IO(II)=ISAV
T=DATA(IO(IJ),IDV)
GO TO 25
24 ISAV=IO(LL)
IO(LL)=IO(K)
IO(K)=ISAV
25 LL=LL-1
IF(DATA(IO(LL),IDV).GT.T) GO TO 25
TT=DATA(IO(LL),IDV)
26 K=K+1
IF(DATA(IO(K),IDV).LT.T) GO TO 26
IF(K.LE.LL) GO TO 24
IF((LL-II).LE.(J-K)) GO TO 27
IL(M)=II
IU(M)=LL
II=K
M=M+1
GO TO 29
27 IL(M)=K
IU(M)=J
J=LL
M=M+1
GO TO 29
28 M=M-1
IF(M.EQ.0) GO TO 40
II=IL(M)
J=IU(M)
29 IF((J-II).GE.11) GO TO 22
IF(II.EQ.1) GO TO 21
II=II-1
30 II=II+1
IF(II.EQ.J) GO TO 28
ISAV=IO(II+1)
T=DATA(IO(II+1),IDV)
IF(DATA(IO(II),IDV).LE.T) GO TO 30
K=II
31 IO(K+1)=IO(K)
K=K-1
IF(T.LT.DATA(IO(K),IDV)) GO TO 31
IO(K+1)=ISAV
GO TO 30
C
C SORT DONE CHECK FOR DICHOTOMY
C
40 SAV=DATA(IO(1),IDV)
K=1
DO 41 I=2,NC
IF(SAV.EQ.DATA(IO(I),IDV)) GO TO 41
K=K+1
IF(K.GT.2) GO TO 45
NL=I
SAV=DATA(IO(I),IDV)
41 CONTINUE
IF(K.GT.1) GO TO 60
WRITE(IDLG,42) NAMES(IDV)
42 FORMAT(' ALL OBSERVATIONS OF THE VARIABLE: ',A5,' ARE EQUAL')
RETURN
C
C NOT A 2 VALUE VARIABLE ASK FOR BREAK POINT
C
45 IF(ICC.NE.2) WRITE(IDLG,46) NAMES(IDV)
46 FORMAT(' WHAT IS THE BREAKPOINT FOR VARIABLE: ',A5,'? ',$)
IB=1
READ(ICC,47,END=45) INPUT
47 FORMAT(15A1)
IF(INPUT(1).EQ.'!') RETURN
IF((INPUT(1).NE.'H').OR.(INPUT(2).NE.'E').OR.
1(INPUT(3).NE.'L').OR.(INPUT(4).NE.'P')) GO TO 49
WRITE(IDLG,48)
48 FORMAT(' TO ENTER THE BREAKPOINT FOR THE DICHOTOMOUS VARIABLE'/
1' CHOSE A VALUE SOMEWHERE IN THE RANGE OF THE VARIABLE AND'/
2' ENTER IT. THE VARIABLE WILL THEN BE BROKEN INTO 2 GROUPS'/
3' BASED ON THIS VALUE; 1 GROUP WILL CONTAIN ALL OBSERVATIONS'/
4' WHERE THE VALUE IS LESS THAN OR EQUAL TO THE BREAKPOINT VALUE'/
5' AND THE OTHER GROUP WILL CONTAIN ALL OBSERVATIONS WHERE'/
6' THE VALUE IS GREATER THAN THE BREAKPOINT. THE MEDIAN MAY'/
7' ALSO BE SPECIFIED AS THE BREAKPOINT BY TYPING "MEDIAN"'/)
GO TO 45
49 IF((INPUT(1).NE.'M').OR.(INPUT(2).NE.'E').OR.(INPUT(3).NE.'D')
1.OR.(INPUT(4).NE.'I').OR.(INPUT(5).NE.'A').OR.(INPUT(6).NE.'N'))
3 GO TO 51
BREAK=DATA(IO((NC+1)/2),IDV)
IF((NC.AND.1).EQ.0) BREAK=(DATA(IO(NC/2),IDV)+DATA(IO(NC/2+1),
1IDV))/2.
C
C CHECK TO SEE THAT MEDIAN IS LESS THAN LAST VALUE
C
IF(BREAK.NE.DATA(IO(NC),IDV)) GO TO 54
DO 56 I=NC/2,1,-1
IF(BREAK.EQ.DATA(IO(I),IDV)) GO TO 56
BREAK=DATA(IO(I),IDV)
GO TO 54
56 CONTINUE
PAUSE 'PROBLEM PT BISERIAL'
51 ENCODE(15,47,NUMBER) INPUT
DECODE(15,52,NUMBER) BREAK
52 FORMAT(G)
IF((BREAK.GE.DATA(IO(1),IDV)).AND.(BREAK.LT.DATA(IO(NC),IDV)) )
1GO TO 54
WRITE(IDLG,53)
53 FORMAT(' BREAKPOINT WAS NOT IN RANGE')
GO TO 45
54 DO 55 I=1,NC
IF(DATA(IO(I),IDV).LE.BREAK) GO TO 55
NL=I
GO TO 60
55 CONTINUE
PAUSE 'BREAK POINT NOT FOUND'
C
C DONE WITH BREAK VARIABLE NOW DO ANALYSIS
C
60 IF(IOUT.NE.21) WRITE(IOUT,5566)(HEDR(J),J=1,NSZ)
5566 FORMAT('1',70A1)
IF(IOUT.EQ.21) CALL PRNTHD
LINES=10
WRITE(IOUT,62) NAMES(IDV)
62 FORMAT('0',10X,'**** POINT BISERIAL CORRELATION ****'/
110X,' VARIABLE:',A5,' IS THE DICHOTOMOUS VARIABLE')
IF(IB.EQ.1) WRITE(IOUT,63) BREAK
63 FORMAT(3X,' THE BREAKPOINT USED TO SPLIT THE VARIABLE IS',
1G15.7)
IF(IB.EQ.1) LINES=LINES+1
NH=NC-NL+1
NB=NL-1
WRITE(IOUT,64) NB,NH
64 FORMAT(1X,' THE LOWER GROUP SIZE IS ',I4,
1' AND THE UPPER GROUP SIZE IS ',I4)
WRITE(IOUT,65) NAMES(IDV)
65 FORMAT('0',56X,'POINT-BISERIAL'/13X,'MEAN OF',7X,'MEAN OF',
16X,'STANDARD',7X,'CORRELATION WITH'/' VARIABLE ',
2'LOW GROUP HIGH GROUP DEVIATION',8X,'VARIABLE:',A5)
IF(ALL.EQ.1) NN=NV
DO 61 I=1,NN
IF(ALL.EQ.1) IVAR=I
IF(ALL.NE.1) IVAR=IV(I)
IF(IVAR.EQ.IDV) GO TO 61
XBL=0
DO 66 J=1,NL-1
66 XBL=XBL+DATA(IO(J),IVAR)
XBH=0
DO 67 J=NL,NC
67 XBH=XBH+DATA(IO(J),IVAR)
R=0
XMP=XBH/NH
XMQ=XBL/NB
IF(IOUT.NE.21) GO TO 71
LINES=LINES+1
IF(LINES.LE.LINPP) GO TO 71
CALL PRNTHD
WRITE(IOUT,62) NAMES(IDV)
LINES=11
IF(IB.EQ.1) WRITE(IOUT,63) BREAK
IF(IB.EQ.1) LINES=LINES+1
WRITE(IOUT,64) NB,NH
WRITE(IOUT,65) NAMES(IDV)
71 IF(STD(IVAR).EQ.0) GO TO 69
R=(XMP-XMQ)*SQRT(FLOAT(NH*NB)/FLOAT(NC**2))/STD(IVAR)
WRITE(IOUT,68) NAMES(IVAR),XMQ,XMP,STD(IVAR),R
68 FORMAT(3X,A5,2X,G14.5,1X,G14.5,1X,G14.5,2X,F10.6)
GO TO 61
69 WRITE(IOUT,70) NAMES(IVAR),XMQ,XMP,STD(IVAR)
70 FORMAT(3X,A5,2X,G14.5,1X,G14.5,1X,G14.5,2X,'CANNOT CALCULATE')
61 CONTINUE
RETURN
END
C *** STAT PACK ***
C SUBROUTINE TO CREATE BAR GRAPHS (HORIZ HISTOGRAMS)
C CALLING SEQUENCE: CALL BARGR(NV,NC,MV,MC,DATA,AV,NAMES)
C WHERE NV - NUMBER OF VARIABLES USED
C NC - NUMBER OF OBSERVATIONS USED
C MV - MAXIMUM NUMBER OF VARIABLES
C MC - MAXIMUM NUMBER OF OBSERVATIONS
C DATA - MATRIX CONTAINING DATA
C AV - EXTRA VECTOR (AT LEAST NC LONG)
C NAMES - VECTOR CONTAINING VARIABLE NAMES
C
C THIS ROUTINE WAS WRITTEN IN RESPONSE TO A NEED EXPRESSED BY
C MIKE KEENAN AND TOM BRAYTON OF THE MANAGEMENT DEPARTMENT.
C THEY BELIEVED THAT THE HIST COMMAND WAS NOT VERSITALE ENOUGH
C AND NEEDED REVISION. TOO MANY PEOPLE ARE USE TO HIST SO THE
C DECISION WAS MADE TO CREATE THE BARGR COMMAND TO MEET THEIR
C NEEDS
C
SUBROUTINE BARGR(NV,NC,MV,MC,DATA,AV,NAMES)
DIMENSION DATA(MC,MV),HV(50),BV(50),PCNT(50),IFRQ(50)
DIMENSION AV(1),NAMES(1),IN(40),IV(40)
DIMENSION NET(2),IU(16),IL(16),ICHAR(80),CHAR(4)
COMMON /DEV/ ICC,IDATA,IOUT,IDLG,IDSK
COMMON /PRNT/ LINPP,ICOPS,RUNPRG
COMMON /EXTRA/ HEDR(70),NSZ
NGRP=50
AUTO=0
NOUT=20
IF(IOUT.EQ.21) NOUT=80
DASH='-'
PLUS='+'
ARROW='^'
BLANK=' '
1 IF(ICC.NE.2) WRITE(IDLG,2)
2 FORMAT(' WHICH VARIABLES? ',$)
CALL ALPHA(IV,40,NN,IRET,IHELP,IERR,NAMES,NV)
IF(IERR.EQ.1) GOTO 1
IF(IRET.EQ.1) RETURN
IF(IHELP.NE.1) GO TO 5
WRITE(IDLG,3)
3 FORMAT(' ENTER THE VARIABLE NUMBERS OR NAMES OF VARIABLES (IF '/
1' THEY HAVE BEEN DEFINED) TO BE GRAPHED. IF ALL VARIABLES ARE'/
2' TO BE EXAMINED TYPE "*". YOU WILL BE ASKED TO SPECIFY'/
3' RANGES')
WRITE(IDLG,4)
4 FORMAT('0RANGES ARE USED TO DETERMINE WHICH OBSERVATIONS FIT'/
1' INTO EACH BAR OF THE GRAPH. RANGES ARE ENTERED ONE PER LINE;'/
2' EACH RANGE CONSISTING OF A MINIMUM AND A MAXIMUM VALUE'/
3' SEPARATED BY A COMMA. WHEN THE LAST RANGE HAS BEEN ENTERED'/
4' TYPE A <CR>, OR A ^Z(CONTROL Z). IF YOU DESIRE THE RANGES'/
5' TO BE AUTOMATICALLY CALCULATED ANSWER "AUTO" TO THE INQUIRY'/
6' FOR RANGES. IF THERE ARE FEWER INDIVIDUAL VALUES THAN'/
7' RANGES, EACH INDIVIDUAL VALUE IS PLACED IN ITS OWN RANGE,'/
8' OTHERWISE RANGES OF EQUAL MAGNITUDE ARE ASSUMED.'/
9' IF FEWER RANGES ARE DESIRED THEY MAY BE SPECIFIED'/
1' BY FOLLOWING THE "AUTO" WITH A "/" AND THE NUMBER OF RANGES'/)
GO TO 1
5 IF(ICC.NE.2) WRITE(IDLG,6)
6 FORMAT(' ENTER RANGES 1 PER LINE'/)
J=1
7 IF(ICC.NE.2) WRITE(IDLG,8)
8 FORMAT('+? ',$)
READ(ICC,9,END=24) IN
9 FORMAT(40A1)
IF(IN(1).EQ.'!') RETURN
IF((IN(1).NE.'H').OR.(IN(2).NE.'E').OR.(IN(3).NE.'L').OR.
1(IN(4).NE.'P')) GO TO 10
WRITE(IDLG,4)
GO TO 7
10 IF((IN(1).NE.'A').OR.(IN(2).NE.'U').OR.(IN(3).NE.'T').OR.
1(IN(4).NE.'O')) GO TO 20
AUTO=1
IF(IN(5).NE.'/') GO TO 25
DO 11 I=1,2
11 NET(I)=' '
J=1
I=5
12 I=I+1
IF((IN(I).LT.'0').OR.(IN(I).GT.'9')) GO TO 15
IF(J.GT.2) GO TO 13
NET(J)=IN(I)
J=J+1
GO TO 12
13 WRITE(IDLG,14)
14 FORMAT(' MAXIMUM OF 50 GROUPS FOR BARGRAPHS')
GO TO 5
15 IF(NET(1).EQ.' ') GO TO 7
IF(NET(2).NE.' ') GO TO 16
NET(2)=NET(1)
NET(1)=' '
16 ENCODE(2,9,I) NET
DECODE(2,17,I) NGRP
17 FORMAT(I2)
IF(NGRP.GT.50) GO TO 13
IF(NGRP.LT.1) GO TO 7
GO TO 25
20 IF((IN(1).EQ.' ').AND.(IN(2).EQ.' ')) GO TO 24
IF(J.GT.50) GO TO 13
REREAD 21,BV(J),HV(J)
21 FORMAT(2F)
IF(BV(J).LT.HV(J)) GO TO 31
C=BV(J)
BV(J)=HV(J)
HV(J)=C
31 IF(J.LT.2) GO TO 22
DO 32 K=1,J-1
IF(HV(J).LT.BV(K)) GO TO 32
IF(BV(J).GT.HV(K)) GO TO 32
WRITE(IDLG,33) K
33 FORMAT(' THIS RANGE OVERLAPS RANGE #',I2,' - PLEASE REENTER'/)
GO TO 7
32 CONTINUE
22 J=J+1
GO TO 7
C
C OK USER HAS SUBMITTED ALL HIS INFO NOW RUN
C
24 NGRP=J-1
IF(NGRP.LT.1) GO TO 5
25 ALL=0
DO 26 I=1,NN
IF(IV(I).LT.0) ALL=1
26 CONTINUE
IF(ALL.EQ.1) NN=NV
DO 27 I=1,NN
IANLY=I
IF(ALL.NE.1) IANLY=IV(I)
IF(AUTO.EQ.1) GO TO 39
C
C IF NOT AUTO - RANGES WERE ENTERED BY HAND
C
DO 28 K=1,NGRP
28 IFRQ(K)=0
DO 29 J=1,NC
DO 30 K=1,NGRP
IF(DATA(J,IANLY).LT.BV(K)) GO TO 30
IF(DATA(J,IANLY).GT.HV(K)) GO TO 30
IFRQ(K)=IFRQ(K)+1
GO TO 29
30 CONTINUE
29 CONTINUE
NWORK=NGRP
GO TO 100
C
C AUTO WAS USED SORT AND FORM FREQ ON INDIVIDUAL VALUES
C OTHERWISE ON RANGES PARTITIONING SORT - ACM
C
39 DO 40 J=1,NC
40 AV(J)=DATA(J,IANLY)
M=1
II=1
J=NC
41 IF(II.GE.J) GO TO 48
42 K=II
IJ=(J+II)/2
T=AV(IJ)
IF(AV(II).LE.T) GO TO 43
AV(IJ)=AV(II)
AV(II)=T
T=AV(IJ)
43 LL=J
IF(AV(J).GE.T) GO TO 45
AV(IJ)=AV(J)
AV(J)=T
T=AV(IJ)
IF(AV(II).LE.T) GO TO 45
AV(IJ)=AV(II)
AV(II)=T
T=AV(IJ)
GO TO 45
44 AV(LL)=AV(K)
AV(K)=TT
45 LL=LL-1
IF(AV(LL).GT.T) GO TO 45
TT=AV(LL)
46 K=K+1
IF(AV(K).LT.T) GO TO 46
IF(K.LE.LL) GO TO 44
IF((LL-II).LE.(J-K)) GO TO 47
IL(M)=II
IU(M)=LL
II=K
M=M+1
GO TO 49
47 IL(M)=K
IU(M)=J
J=LL
M=M+1
GO TO 49
48 M=M-1
IF(M.EQ.0) GO TO 59
II=IL(M)
J=IU(M)
49 IF((J-II).GE.11) GO TO 42
IF(II.EQ.1) GO TO 41
II=II-1
50 II=II+1
IF(II.EQ.J) GO TO 48
T=AV(II+1)
IF(AV(II).LE.T) GO TO 50
K=II
51 AV(K+1)=AV(K)
K=K-1
IF(T.LT.AV(K)) GO TO 51
AV(K+1)=T
GO TO 50
C
C NOW TRY FOR FREQUENCIES ON INDIVIDUAL VALUES
C
59 NWORK=1
K=1
IFRQ(K)=1
HV(K)=AV(1)
BV(K)=AV(1)
IF(NC.LT.2) GO TO 100
DO 60 J=2,NC
IF(AV(J).EQ.HV(K)) GO TO 60
K=K+1
IF(K.GT.NGRP) GO TO 69
HV(K)=AV(J)
BV(K)=AV(J)
IFRQ(K)=0
60 IFRQ(K)=IFRQ(K)+1
NWORK=K
GO TO 100
C
C DIDN'T WORK WITH INDIVIDUAL VALUE BREAK INTO GROUPS OF EQUAL SIZE
C
69 AINC=(AV(NC)-AV(1))/NGRP
BV(1)=AV(1)
HV(1)=AV(1)+AINC-AINC/10000.
IF(NGRP.LT.2) GO TO 71
DO 70 J=2,NGRP
BV(J)=BV(J-1)+AINC
70 HV(J)=BV(J)+AINC-AINC/10000.
HV(NGRP)=AV(NC)
71 DO 72 K=1,NGRP
72 IFRQ(K)=0
DO 73 J=1,NC
DO 74 K=1,NGRP
IF(AV(J).LT.BV(K)) GO TO 74
IF(AV(J).GT.HV(K)) GO TO 74
IFRQ(K)=IFRQ(K)+1
GO TO 73
74 CONTINUE
73 CONTINUE
NWORK=NGRP
C
C FREQUENCIES ARE CALCULATED NOW FORM PERCENT AND CUM. PERCENT
C
100 TOTAL=0
IATOT=100
NATOT=100
DO 101 J=1,NWORK
PCNT(J)=0
101 TOTAL=TOTAL+IFRQ(J)
IF(TOTAL.EQ.0) GO TO 120
PCTMAX=0
DO 102 J=1,NWORK
PCNT(J)=(IFRQ(J)/TOTAL)*100.
IF(PCNT(J).GT.PCTMAX) PCTMAX=PCNT(J)
102 CONTINUE
109 IF(PCTMAX.GT.NATOT) GO TO 120
IATOT=NATOT
NATOT=NATOT-20
IF(NATOT.LE.0) NATOT=NATOT+18.
IF(NATOT.EQ.18) NATOT=10.
GO TO 109
120 IF(IOUT.NE.21) WRITE(IOUT,5566) (HEDR(J),J=1,NSZ)
5566 FORMAT('1',72A1)
IF(IOUT.EQ.21) CALL PRNTHD
WRITE(IOUT,103) NAMES(IANLY)
103 FORMAT('0',10X,'***** BAR GRAPH FOR VARIABLE: ',A5,' *****')
NDASH=4
IF(IOUT.EQ.21) NDASH=19
WRITE(IOUT,104)((DASH,K=1,NDASH),PLUS,L=1,4)
104 FORMAT('0',2X,'RANGE OF VALUES',7X,'FREQ',2X,'PCENT',
11X,'+',80A1)
ATOT=IATOT
AINC=ATOT/NOUT
DO 105 J=1,NWORK
L=PCNT(J)/AINC+.5
IF(L.LT.1) GO TO 108
DO 107 K=1,L
107 ICHAR(K)='X'
108 IF(L.LT.1) WRITE(IOUT,111) BV(J),HV(J),IFRQ(J),PCNT(J)
IF(L.GE.1) WRITE(IOUT,111) BV(J),HV(J),IFRQ(J),PCNT(J)
1,(ICHAR(K),K=1,L)
111 FORMAT(1X,G10.4,'- ',G10.4,2X,I4,2X,F5.1,1X,'I',80A1)
105 CONTINUE
ATOT=IATOT
CHAR(1)=ATOT/4.
CHAR(2)=2*(ATOT/4)
CHAR(3)=3*(ATOT/4)
CHAR(4)=IATOT
WRITE(IOUT,116)((DASH,K=1,NDASH),PLUS,L=1,4)
116 FORMAT(25X,'----',8X,'+',80A1)
ITOTAL=TOTAL
WRITE(IOUT,117)ITOTAL,((BLANK,K=1,NDASH),ARROW,L=1,4)
117 FORMAT(25X,I4,9X,80A1)
IF(IOUT.EQ.21) WRITE(IOUT,118)(CHAR(L),L=1,4)
118 FORMAT(38X,4(15X,F5.1))
IF(IOUT.NE.21) WRITE(IOUT,119)(CHAR(L),L=1,4)
119 FORMAT(38X,5F5.1)
WRITE(IOUT,121)
121 FORMAT(54X,'PRECENTAGE')
27 CONTINUE
RETURN
END
C **** STAT PACK ****
C
C ROUTINE TO OUTPUT SIZE OF OVERLAYS IN DECIMLE WORDS.
C CALLING SEQUENCE: CALL SIZZ
C
C TO OFTEN IN PAST THE SIZE OF INDIVIDUAL OVERLAYS WAS LEFT TO
C GUESS. NOW SIZES OF OVERLAYS ARE BECOMING MORE STANDARD. NORM
C GRANT (W. M. U.) IS RESPONSIBLE FOR THE SIZE MACRO ROUTINE.
C
SUBROUTINE SIZZ(MAXLNK)
DO 6 I=1,MAXLNK
L=I
CALL SIZE (L,LOC)
TYPE 7,I,LOC
7 FORMAT(1X,'OVERLAY',I3,3X,I9)
6 CONTINUE
RETURN
END
SUBROUTINE MABNK(NV,NC,MV,MC,DATA,NAMES)
DIMENSION XDAT(125),DATA(MC,MV),NAMES(1),INPUT(10)
DIMENSION DATED(2),NNS(18,6)
COMMON /DEV/ ICC,IDATA,IOUT,IDLG,IDSK
COMMON /PRNT/ LINPP,ICOPS,RUNPRG
DOUBLE PRECISION FILN
EQUIVALENCE (XDAT,NNS)
IDSK=1
1 IF(ICC.NE.2) WRITE(IDLG,2)
2 FORMAT(' BANK NAME? ',$)
READ(ICC,3,END=60) INPUT
IF(INPUT(1).EQ.'!') RETURN
3 FORMAT(10A1)
IF(INPUT(1).NE.' ') GO TO 24
WRITE(IDLG,23)
23 FORMAT(' FOR ADDITIONAL INFORMATION TYPE HELP')
GO TO 1
24 IF((INPUT(1).NE.'H').OR.(INPUT(2).NE.'E').OR.(INPUT(3).NE.'L').
1OR.(INPUT(4).NE.'P')) GO TO 22
WRITE(IDLG,21)
21 FORMAT(' THE "MABNK" COMMAND IS USED TO CREATE A DATA BANK.'/
1' DATA WILL BE STORED IN A BINARY FILE - DO NOT TRY TO PRINT'/
2' THE BANK FILE! NAMES WILL BE STORED ALONG WITH THE DATA.'/
3' IF NAMES HAVE NOT BEEN ASSIGNED TO VARIABLES, V1,V2,V2,ETC.'/
4' WILL BE USED. THE BANK NAME MAY BE UP TO 6 CHARACTERS WITHOUT'/
5' AN EXTENSION, ".BNK" WILL BE ADDED. TO ACCESS A STORED DATA'/
6' BANK USE THE "ACBNK" COMMAND'/)
GO TO 1
22 I=1
4 IF(INPUT(I).EQ.' ') GO TO 10
IF(INPUT(I).EQ.'.') GO TO 8
C CHECK FOR RIGHT BRACKET
IF(INPUT(I).NE."555004020100) GO TO 6
WRITE(IDLG,5)
5 FORMAT(' NO PROJECT-PROGRAMMER NUMBER NECESSARY '/
1' - YOUR NUMBER ASSUMED.'/)
GO TO 10
6 I=I+1
IF(I.LE.7) GO TO 4
WRITE(IDLG,7)
7 FORMAT(' MAXIMUM OF 6 CHARACTERS FOR BANK NAME')
GO TO 1
8 WRITE(IDLG,9)
9 FORMAT(' NO EXTENSION NECESSARY ".BNK" WILL BE ADDED'/)
10 INPUT(I)='.'
INPUT(I+1)='B'
INPUT(I+2)='N'
INPUT(I+3)='K'
I=I+4
IF(I.EQ.10) GO TO 12
DO 11 J=I,10
11 INPUT(J)=' '
12 ENCODE(10,3,FILN) INPUT
IPRO="155
13 IF(ICC.NE.2) WRITE(IDLG,14)
14 FORMAT(' WHAT PROTECTION? ',$)
READ(ICC,3,END=60) INPUT
IF(INPUT(1).EQ.'!') RETURN
IF((INPUT(1).NE.'H').OR.(INPUT(2).NE.'E').OR.(INPUT(3).NE.'L').
1OR.(INPUT(4).NE.'P')) GO TO 16
WRITE(IDLG,15)
15 FORMAT(' ENTER THE 3 DIGIT PROTECTION CODE YOU DESIRE'/
1' IF A RETURN IS GIVEN THE PROTECTION WILL BE ASSUMED 155')
GO TO 13
16 IF(INPUT(1).EQ.' ') GO TO 20
DO 17 J=1,3
IF((INPUT(J).GE.'0').AND.(INPUT(J).LE.'7')) GO TO 17
WRITE(IDLG,18)
18 FORMAT(' ALL DIGITS OF THE PROTECTION MUST BE BETWEEN 0 AND 7')
GO TO 13
17 CONTINUE
ENCODE(3,3,ISAV)(INPUT(I),I=1,3)
DECODE(3,19,ISAV) IPRO
19 FORMAT(O3)
20 OPEN(UNIT=IDSK,FILE=FILN,ACCESS='RANDOM',DEVICE='DSK',
1RECORD SIZE=126,MODE='BINARY',PROTECTION=IPRO)
CALL GETPPN(IPROJ,IPROG)
CALL DATE(DATED)
I=1
J=0
VER='V2 '
IREC=1
WRITE(IDSK#IREC)NV,NC,I,DATED,IPROJ,IPROG,VER,(J,K=1,117)
C
C PUT DATA OUT
C
DO 30 I=1,NV
DO 31 J=1,NC,125
JEND=J+124
IF(JEND.GT.NC) JEND=NC
DO 40 K=J,JEND
40 XDAT(K-J+1)=DATA(K,I)
IF(JEND.EQ.(J+124)) GO TO 32
LAST=JEND-J+2
DO 41 K=LAST,125
41 XDAT(K)=-9999E-20
32 IREC=IREC+1
31 WRITE(IDSK#IREC) XDAT
30 CONTINUE
DO 50 I=1,NV,6
IEND=I+5
IF(IEND.GT.NV) IEND=NV
DO 51 K=I,IEND
LNAM=NAMES(K)
DECODE(5,3,LNAM) (INPUT(J),J=1,5)
IF((INPUT(1).LE.'Z').AND.(INPUT(1).GE.'A')) GO TO 56
INPUT(1)='V'
ENCODE(4,52,LNAM) K
52 FORMAT(I4)
DECODE(4,3,LNAM)(INPUT(J),J=2,5)
54 IF(INPUT(2).NE.' ') GO TO 55
DO 53 J=3,5
53 INPUT(J-1)=INPUT(J)
INPUT(5)=' '
GO TO 54
55 ENCODE(5,3,LNAM) (INPUT(J),J=1,5)
56 NNS(1,K-I+1)=LNAM
NNS(10,K-I+1)=0
ENCODE(40,57,NNS(2,K-I+1)) K,FILN
57 FORMAT('CREATED IN STP - VAR ',I3,' BANK ',2A5)
51 CONTINUE
IREC=IREC+1
50 WRITE(IDSK#IREC) XDAT
END FILE (IDSK)
CALL RELEAS (IDSK)
60 RETURN
END
C *** STAT PACK ***
C SUBROUTINE FOR CALCULATING PROBABILITIES ASSOC. WITH T
C F, AND CHI SQUARES.
C CALLING SEQUENCE: CALL PROB
C
C PROGRAM MAKES USE OF FUNCTION FISHER. USER HAS OPTION
C OF ENTERING STRING COMMANDS OR TYPE OF PROBABILTIY
C DESIRED, ALLOWING THE MACHINE TO ASK FOR THE INDIVIDUAL
C VALUES IT NEEDS. FOR CHI SQUARE PROBABILITIES THE
C SUBROUTINES CHIPRB AND CUNO WERE ADDED.
C** CHIPRB(CHISQR.F4) AND CUNO WERE CHANGED TO CHIPRB(CHIPRB.F4)
C** AND NORMCV- MORE ACCURATE ROUTINES. - RRB/13OCT77.
C
SUBROUTINE PROB
COMMON /DEV/ICC,IDATA,IOUT,IDLG,IDSK
COMMON /PRNT/ LINPP,ICOPS,RUNPRG
COMMON/EXTRA/HEDR(70),NSZ
IF(IOUT.EQ.21) CALL PRNTHD
LINES=2
IF(ICC.NE.2) WRITE(IDLG,60)
60 FORMAT(' "?" INDICATES PROGRAM IS WAITING FOR INSTRUCT.')
IF(IOUT.NE.21) WRITE(IOUT,5566)(HEDR(I),I=1,NSZ)
5566 FORMAT('1',70A1)
1 IF(ICC.NE.2) WRITE(IDLG,2)
2 FORMAT('0? ',$)
READ(ICC,3,END=55) HELP
3 FORMAT(A4,20X)
IF(HELP.NE.'HELP') GO TO 5
WRITE(IDLG,4)
4 FORMAT('0PROBABILITIES ASSOCIATED WITH T TESTS, F TESTS',
1', AND CHI SQUARES'/' ARE GIVEN IN THIS SECTION. EACH MAY BE',
2' OBTAINED IN TWO DIFFERENT'/' WAYS: EITHER BY USE OF A ',
3'COMMAND STRING (WHERE ALL PERTINENT DATA IS'/' GIVEN)',
4', OR BY SPECIFYING THE TYPE OF PROBABILITY DESIRED, AND'/
5' ALLOWING THE PROGRAM TO ASK FOR THE NECESSARY INFORMATION',
6'. THE'/' THREE COMMAND STRINGS ARE:'/'0CHI SQR - CHI<CHI.',
7' SQ. VALUE>,<DEGREES OF FREEDOM>'/' T TESTS - T',
8'<T SCORE VALUE>,<DEGREES OF FREEDOM>'/' F TEST - F<F SCORE',
9' VALUE>,<NUM. DEG. OF FREED.>,<DEN. DEG. OF FREED.>'/
1' WHERE <> INDICATES THE NUMERIC VALUE SPECIFIED IS TO BE',
2' INSERTED.'/'0THE OTHER METHOD CONSISTS OF GIVING THE CODE',
3' (T,F, OR CHI) AND'/' ALLOWING THE PROGRAM TO ASK FOR',
4' THE NECESSARY VALUES. A "?"'/' INDICATES THE PROGRAM IS ',
5'WAITING FOR A COMMAND. TO EXIT FROM THE'/' PROBABILITY',
6' SECTION TYPE "EXIT".')
GO TO 1
5 IF(HELP.EQ.'EXIT') RETURN
IF(HELP.EQ.' ')RETURN
IF(HELP.EQ.'!') RETURN
REREAD 6,HELP,CHI,DOF
6 FORMAT(A3,2F)
IF(HELP.NE.'CHI') GO TO 20
C CHI SQR
NDG=DOF
IF(NDG.LE.0) GO TO 9
C**RRB/13OCT77
7 IERR=0
CALL CHIPRB(CHI,NDG,PROB)
IF(PROB.EQ.99)IERR=1
IF(IERR.EQ.1) WRITE(IDLG,107)
107 FORMAT(' NO PROBABILITY CALCULATED -'
1,' DF OR CHI SQ. OUTSIDE LIMITS')
IF(IERR.EQ.1) GO TO 1
IF(IOUT.NE.21) GO TO 15
LINES=LINES+1
IF(LINES.LE.LINPP) GO TO 15
CALL PRNTHD
LINES=3
15 WRITE(IOUT,8)CHI,NDG,PROB
8 FORMAT(' THE PROB. FOR A CHI SQ OF',F7.3,' WITH',I5,' DEGREES',
1' OF FREEDOM IS',F6.3)
GO TO 1
9 IF(CHI.GT.0) GO TO 10
IF(ICC.NE.2) WRITE(IDLG,11)
11 FORMAT('+WHAT IS THE VALUE OF THE CHI. SQ.? ',$)
READ (ICC,12) CHI
12 FORMAT(F)
10 IF(ICC.NE.2) WRITE(IDLG,13)
13 FORMAT('+HOW MANY DEGREES OF FREEDOM? ',$)
READ (ICC,12) DOF
NDG=DOF
DOF=NDG
IF(NDG.GT.0) GO TO 7
WRITE(IDLG,14)
14 FORMAT(' THE NUMBER OF DEGREES OF FREEDOM MUST BE GREATER THAN',
1' 0.'/)
GO TO 10
C T TEST
20 REREAD 21,HELP,T,DOF,DOF2
21 FORMAT(A1,3F)
IF(HELP.NE.'T') GO TO 30
NDG=DOF
IF(NDG.LE.0) GO TO 24
22 TSQ=T**2
PROB2=FISHER(1,NDG,TSQ)
PROB=.5*PROB2
IF(IOUT.NE.21) GO TO 28
LINES=LINES+2
IF(LINES.LE.LINPP) GO TO 28
CALL PRNTHD
LINES=4
28 WRITE(IOUT,23) T,NDG,PROB,PROB2
23 FORMAT(' THE PROB. FOR A T OF',F7.3,' WITH',I5,' DEGREE',
1'S OF FREEDOM IS:',/10X,'ONE TAILED',F7.4,'; TWO TAILED',F7.4)
GO TO 1
24 IF(T.GT.0) GO TO 26
IF(ICC.NE.2) WRITE(IDLG,25)
25 FORMAT('+WHAT IS THE VALUE OF THE T? ',$)
READ(ICC,12) T
26 IF(ICC.NE.2) WRITE(IDLG,13)
READ(ICC,12)DOF
NDG=DOF
DOF=NDG
IF(NDG.GT.0) GO TO 22
WRITE(IDLG,14)
GO TO 26
C F TEST
30 IF(HELP.NE.'F') GO TO 50
F=T
NDG=DOF
DOF=NDG
NDG2=DOF2
DOF2=NDG2
IF(NDG.LE.0) GO TO 33
IF(NDG2.LE.0) GO TO 37
31 PROB=FISHER(NDG,NDG2,F)
IF(IOUT.NE.21) GO TO 39
LINES=LINES+2
IF(LINES.LE.LINPP) GO TO 39
CALL PRNTHD
LINES=4
39 WRITE(IOUT,32) F,NDG,NDG2,PROB
32 FORMAT(' PROB FOR AN F OF',F7.3,' WITH',I5,' DEGREES OF',
1' FREEDOM IN THE NUMERATOR'/10X,'AND',I5,' DEGREES OF FREEDOM',
2' IN THE DENOMINATOR IS',F7.4)
GO TO 1
33 IF(F.GT.0) GO TO 35
IF(ICC.NE.2) WRITE(IDLG,34)
34 FORMAT('+WHAT IS THE VALUE OF THE F? ',$)
READ(ICC,12)F
35 IF(ICC.NE.2) WRITE(IDLG,36)
36 FORMAT('+HOW MANY DEGREES OF FREEDOM IN THE NUMERATOR? ',$)
READ (ICC,12) DOF
NDG=DOF
DOF=NDG
IF(NDG.GT.0) GO TO 37
WRITE(IDLG,14)
GO TO 35
37 IF(NDG2.GT.0) GO TO 31
IF(ICC.NE.2) WRITE(IDLG,38)
38 FORMAT('+HOW MANY DEGREES OF FREEDOM IN THE DENOMINATOR? ',$)
READ(ICC,12) DOF2
NDG2=DOF2
DOF2=NDG2
IF(NDG2.GT.0) GO TO 31
WRITE(IDLG,14)
GO TO 37
50 WRITE(IDLG,51)
51 FORMAT(' THE COMMAND JUST GIVEN DOES NOT EXIST')
GO TO 1
55 RETURN
END