C PROGRAM CROSS1 C (DATA ANALYSIS PART OF PROGRAM CROSS) C C DESCRIPTION C THIS PROGRAM CORRELATES RESPONSES TO SELECTED QUESTIONS OF A C QUESTIONNAIRE TO PRODUCE A TABLE OF MARGINAL FREQUENCIES FOR C ANY VARIABLE OR CROSS-TABULATIONS OF PAIRS OF VARIABLES (WITH C OR WITHOUT A CONTROL VARIABLE) GIVING FREQUENCIES, PERCENTAGES, C OR OTHER STATISTICS DESIRED BY THE USER. AN EXCLUSION ANALYSIS C IS MADE IN EVERY CASE. AN ITEM ANALYSIS MAY BE CARRIED OUT ON A C SELECTED SET OF VARIABLES AND THE RESULTS TABULATED AS A MATRIX C OF ITEM INTERCORRELATIONS. THE USER HAS ACCESS AT ALL TIMES TO C EVERY VARIABLE IN THE SURVEY (AS MANY AS 128). C C SOURCE C NORMAN W. JOHNSON, DEPARTMENT OF MATHEMATICS, WHEATON COLLEGE, C NORTON, MASS. C C INSTRUCTIONS C THE CODED RESPONSES TO THE QUESTIONNAIRE SHOULD BE READ FROM C CARDS AND WRITTEN INTO AN ASCII DATA FILE BY THE PROGRAM SURVEY. C A PRELIMINARY TABULATION OF MARGINAL FREQUENCIES FOR ALL VARI- C ABLES THE USER INTENDS TO WORK WITH CAN BE OBTAINED BY RUNNING C THE PROGRAM SORTER. MAPPING OF VARIABLES AND OTHER MANIPULATION C OF THE DATA CAN BE CARRIED OUT USING THE PROGRAM CROSS2. C C THE PROGRAM WILL FIRST REQUEST THE USER TO ENTER THE NAME OF C THE DATA FILE. AFTER THIS IS DONE, A DESCRIPTION OF THE SURVEY C WILL BE TYPED. THE USER MAY THEN PROCEED TO ANALYZE THE DATA BY C GIVING ONE OF THE COMMANDS "XTAB" OR "ITEM" OR MAY TERMINATE THE C EXECUTION OF THE PROGRAM BY TYPING "STOP". C C COMMANDS THAT TAKE VARIABLES AS ARGUMENTS MAY HAVE THE LIST OF C VARIABLES ENTERED ON THE SAME LINE AS THE COMMAND. C C THE COMMAND "XTAB" ENABLES THE USER TO OBTAIN MARGINAL FREQUEN- C CIES FOR ANY ONE VARIABLE OR TO CROSS-TABULATE ANY PAIR OF VARI- C ABLES, USING A THIRD VARIABLE AS A CONTROL IF DESIRED. THE C CONTROL VARIABLE MAY BE RESTRICTED TO ONE CATEGORY BY FOLLOWING C THE THIRD VARIABLE NUMBER WITH AN EQUALS SIGN (=) AND A CATEGORY C NUMBER (0 TO 9). FOLLOWING THE THIRD VARIABLE NUMBER WITH AN C INEQUALITY SIGN (<>) AND A CATEGORY NUMBER HAS THE EFFECT OF C EXCLUDING RESPONDENTS IN THAT CATEGORY. IF TWO OR THREE VARI- C ABLES ARE SPECIFIED, ONE OR MORE OUTPUT OPTIONS MUST BE SELECTED C AND THE APPROPRIATE CODE NUMBERS ENTERED. THE FOLLOWING OPTIONS C ARE AVAILABLE: C 0--EXCLUSION ANALYSIS ONLY C 1--FREQUENCY OF RESPONSES C 2--PERCENTAGES ACROSS C 3--PERCENTAGES DOWN C 4--PERCENTAGES OF TOTAL C 5--CHI-SQUARE, DEGREES OF FREEDOM, AND PROBABILITY C 6--GOODMAN AND KRUSKAL'S TAU C 7--YULE'S Q OR GOODMAN AND KRUSKAL'S GAMMA C 8--PHI COEFFICIENT OR KENDALL'S TAU C 9--SOMER'S D C C THE COMMAND "ITEM" PRODUCES A MATRIX OF ITEM INTERCORRELATIONS C (GOODMAN AND KRUSKAL'S GAMMA) FOR AS MANY AS NINE VARIABLES. A C VARIABLE PRECEDED BY A MINUS SIGN HAS ITS CATEGORIES REVERSED. C WHEN THE COMMAND IS GIVEN AS "ITEM PART", A CONTROL VARIABLE MAY C BE SPECIFIED. CORRELATIONS MAY BE LIMITED TO A CERTAIN SET OF C RESPONDENTS BY FOLLOWING THE CONTROL VARIABLE WITH AN EQUALITY C OR INEQUALITY SIGN AND A CATEGORY NUMBER. C C AFTER ANY OF THE ABOVE COMMANDS IS CARRIED OUT, A NEW COMMAND C MAY BE GIVEN. THE USER MAY SUPPRESS THE PRINTING OF TABLES OR C ANY OTHER OUTPUT IN ORDER TO GIVE A NEW COMMAND IMMEDIATELY BY C TYPING O AND PRESSING . FURTHER EXECUTION OF A C COMMAND MAY BE HALTED AT ANY BREAK POINT BY TYPING "ABORT". C C WHENEVER THE USER IS EXPECTED TO GIVE A COMMAND OR TO PROVIDE C CERTAIN INFORMATION NEEDED FOR THE EXECUTION OF A COMMAND, AN C EXPLANATION OF WHAT IS REQUIRED MAY BE OBTAINED BY TYPING THE C WORD "EXPLAIN" OR SIMPLY A QUESTION MARK. C C THIS PROGRAM ASSUMES THAT OUTPUT IS TO THE USER TERMINAL. IF C OUTPUT TO A FILE ON THE DISK IS DESIRED INSTEAD, THE DISK SHOULD C BE ASSIGNED LOGICAL UNIT 5 PRIOR TO RUNTIME. C C REMARKS C THE COMPUTED VALUE OF CHI-SQUARE WITH ONE DEGREE OF FREEDOM C INCORPORATES A CORRECTION FOR CONTINUITY. THE CALCULATION OF C CHI-SQUARE IS ACCOMPANIED BY A WARNING IF THE EXPECTED FREQUENCY C IS LESS THAN 1 IN ANY CELL OR LESS THAN 5 IN MORE THAN 20 PER C CENT OF THE CELLS. KENDALL'S TAU HAS A CORRECTION FOR TIES. C C REFERENCES C JAMES A. DAVIS, 'ELEMENTARY SURVEY ANALYSIS', PRENTICE-HALL, C ENGLEWOOD CLIFFS, N.J., 1971. C JOHAN GALTUNG, 'THEORY AND METHODS OF SOCIAL RESEARCH', COLUMBIA C UNIVERSITY PRESS, NEW YORK, 1967. C E. TERRENCE JONES, 'CONDUCTING POLITICAL RESEARCH', HARPER & C ROW, NEW YORK, 1971. C C .................................................................. C INTEGER A(48),TODAY(2),BLANK,PRIME,DIFFER,EQUAL,ROW,COL INTEGER L(0/128),H(0/128),R(0/128) INTEGER MAP(3,0/13),X(128),IA(10) REAL POS,NEG LOGICAL OPT(0/9),GROUP,ERROR,ZERO,REJECT,BLURB DIMENSION NUM(0/13,0/13,0/13),PCT(0/9,0/9) DIMENSION NSUB(0/2,0/9,0/9),PSUB(2,0/9) DIMENSION NTOT(0/9),TOT(0/9) DIMENSION G(9,9,0/9),GMEAN(9),AMEAN(9) DIMENSION J1A(10),J2A(10) EQUIVALENCE (R,PCT),(G,NSUB),(Q,GAMMA) COMMON ENTRY(0/13),LIST OPT(0) = .TRUE. BLANK = 17315143744 PRIME = 21073240128 R(0) = 25905078336 DIFFER = 32472301568 EQUAL = 32749125632 CALL TIME(NOW) LIST = NOW-851968 CALL DATE(TODAY) TYPE 1, NOW,TODAY 1 FORMAT (' CROSS1',8X,A5,9X,2A5//) C C START: LOCATE DATA FILE. 20 TYPE 2 2 FORMAT (/' NAME OF SURVEY? ',$) C ENTER FILE NAME. 30 ACCEPT 3, ORIG 3 FORMAT (12A5) 31 FORMAT (/A5) 32 FORMAT (//A5) 33 FORMAT (8X,A5) 34 FORMAT ('+'/$) IF (ORIG.EQ.' ') GO TO 20 IF (ORIG.EQ.'STOP') GO TO 2000 DATA = ORIG GROUP = RENAME(DATA,'.MAP',DATA,'.MAP') IF (GROUP) CALL IFIL(21,DATA,'.MAP') IF (GROUP) READ (21,31) DATA IF (RENAME(DATA,'.DAT',DATA,'.DAT')) GO TO 40 TYPE 4, DATA 4 FORMAT (' CANNOT FIND DATA FILE ',A5/) GO TO 20 40 CALL IFILE(1,DATA) C INPUT DESCRIPTION OF SURVEY. 50 READ (1,5) (A(I),I=1,48) 5 FORMAT (/48A1) DO 60 I=48,1,-1 IF (A(I).NE.BLANK) GO TO 70 60 A(I) = 0 70 TYPE 7, (A(I),I=1,48) 7 FORMAT (9X,48A1////) LAST = 0 IF (.NOT.GROUP) GO TO 100 C GROUP RESPONSES TO EACH QUESTION. 80 READ (21,10) M READ (21,14) (L(I),I=1,M) READ (21,14) (H(I),I=1,M) READ (21,16) (X(I),I=1,M) READ (1,10) MAX M = MIN0(M,MAX) READ (1,32) ID IF (LAST) 180,180,200 C INPUT NUMBER OF QUESTIONS. 100 READ (1,10) M 10 FORMAT (9I) 101 FORMAT (9I1,9L1) 102 FORMAT (I2) 103 FORMAT (3I,2A1) 104 FORMAT (I,2A1) C INPUT LOWEST NUMBER USED AS CODED RESPONSE TO EACH QUESTION. 120 READ (1,14) (L(I),I=1,M) C INPUT HIGHEST NUMBER USED AS CODED RESPONSE TO EACH QUESTION. 140 READ (1,14) (H(I),I=1,M) 14 FORMAT (5X,128I1) C INPUT MAPPING INDICATOR FOR EACH QUESTION. 160 READ (1,16) (X(I),I=1,M) 16 FORMAT (5X,128A1) 180 DO 185 J=0,13 DO 185 I=1,3 185 MAP(I,J) = J IF (LAST.GT.0) GO TO 200 190 READ (1,3) ID IF (ID.NE.BLANK) GO TO 190 C INPUT NUMBER OF RESPONDENTS. READ (1,10) LAST TOTAL = LAST GO TO 202 C C ENTER COMMAND. 200 TYPE 201 201 FORMAT ('1') 202 TYPE 203 203 FORMAT (' ENTER COMMAND: ',$) ACCEPT 3, (ENTRY(N),N=1,12) CALL DECODE READ (20,3) ANS,SAVE IF (ANS.EQ.'START') GO TO 20 IF (ANS.EQ.' ') GO TO 200 IF (ANS.EQ.'DETAI') GO TO 210 IF (ANS.EQ.'EXPLA' .AND. SAVE.GT.'IN') GO TO 220 IF (ANS.EQ.'XTAB') GO TO 230 IF (ANS.EQ.'ITEM') GO TO 1400 IF (ANS.EQ.'STOP') GO TO 2000 IF (ANS.EQ.'MAP') TYPE 2032 IF (ANS.EQ.'UNMAP') TYPE 2032 IF (ANS.EQ.'JOIN') TYPE 2032 IF (ANS.EQ.'POOL') TYPE 2032 IF (ANS.EQ.'CUT') TYPE 2032 IF (ANS.EQ.'SAVE') TYPE 2032 IF (ANS.EQ.'RESET') TYPE 2032 2032 FORMAT (' COMMAND NOT AVAILABLE--RUN CROSS2'/) TYPE 204 204 FORMAT ( 1 ' ENTER ONE OF THE FOLLOWING:'/ 2 ' XTAB, ITEM, STOP, OR DETAIL'/) GO TO 200 210 TYPE 21 21 FORMAT ( 1 ' TO OBTAIN MARGINAL FREQUENCIES FOR A VARIABLE OR'/ 2 ' TO CROSS-TABULATE 2 OR 3 VARIABLES, TYPE "XTAB".'/ 3 ' TO INTERCORRELATE 2 TO 9 VARIABLES, TYPE "ITEM".'/ 4 ' TO TERMINATE THE PROGRAM, TYPE "STOP".'// 5 ' TO HALT EXECUTION OF A COMMAND, TYPE "ABORT".'/ 6 ' TO GET HELP AT ANY POINT, TYPE "EXPLAIN" OR "?".'// 7 ' FOR A MORE COMPLETE EXPLANATION OF ANY OF THE ABOVE'/ 8 ' COMMANDS, TYPE "EXPLAIN" AND THE NAME OF THE COMMAND.'/) GO TO 200 220 REREAD 33, ANS IF (ANS.EQ.'ABORT') TYPE 221 221 FORMAT ( 1 ' FURTHER EXECUTION OF A COMMAND MAY BE HALTED AT ANY'/ 2 ' BREAK POINT BY TYPING "ABORT". TO SUPPRESS THE PRINT-'/ 3 ' ING OF TABLES OR OTHER OUTPUT, TYPE O AND PRESS'/ 4 ' .'/) IF (ANS.EQ.'EXPLA' .OR. ANS.EQ.'?') TYPE 222 222 FORMAT ( 1 ' IF YOU NEED AN EXPLANATION OR FURTHER INSTRUCTIONS,'/ 2 ' YOU MAY RESPOND TO ANY REQUEST FOR INPUT BY TYPING'/ 3 ' "EXPLAIN" OR A QUESTION MARK.'/) IF (ANS.EQ.'XTAB') TYPE 231 IF (ANS.EQ.'ITEM') TYPE 1402 IF (ANS.EQ.'STOP') TYPE 2002 GO TO 200 C C XTAB: CROSS-TABULATE VARIABLES. 230 ZERO = ENTRY(0).NE.ANS .OR. ENTRY(1).EQ.' ' IF (ZERO) TYPE 23 23 FORMAT (' VARIABLES TO BE TABULATED? ',$) IF (ZERO) ACCEPT 3, (ENTRY(N),N=1,12) IF (ENTRY(1).EQ.'NONE' .OR. ENTRY(1).EQ.'ABORT') GO TO 200 IF (ENTRY(1).EQ.'STOP') GO TO 2000 IF (ENTRY(1).EQ.'EXPLA' .OR. ENTRY(1).EQ.'?') TYPE 231 231 FORMAT ( 1 ' ENTER ONE VARIABLE TO OBTAIN MARGINAL FREQUENCIES OR A'/ 2 ' PAIR OF VARIABLES TO BE CROSS-TABULATED. ENTER THREE'/ 3 ' VARIABLES IF A CONTROL IS DESIRED. THE THIRD VARI-'/ 4 ' ABLE MAY BE FOLLOWED BY AN EQUALS SIGN AND A CATEGORY'/ 5 ' NUMBER (0 TO 9). AN ENTRY IN THE FORM ''V1,V2,V3=C'''/ 6 ' ASKS FOR A CROSS-TABULATION OF VARIABLES V1 AND V2 FOR'/ 7 ' RESPONDENTS BELONGING TO CATEGORY C OF VARIABLE V3.'/ 8 ' AN ENTRY IN THE FORM ''V1,0,V3=C'' REQUESTS MARGINAL'/ 9 ' FREQUENCIES FOR VARIABLE V1 FOR THOSE RESPONDENTS IN'/ / ' CATEGORY C OF VARIABLE V3. IF THE THIRD VARIABLE IS'/ 1 ' FOLLOWED BY AN INEQUALITY SIGN (<>) AND A CATEGORY'/ 2 ' NUMBER, RESPONDENTS IN THAT CATEGORY WILL BE EXCLUDED.'/ 3 ' IF YOU DO NOT WANT TO HAVE ANY VARIABLES TABULATED,'/ 4 ' TYPE "NONE".'// 5 ' WHEN VARIABLES TO BE CROSS-TABULATED ARE LISTED ON THE'/ 6 ' SAME LINE AS THE COMMAND (E.G., "XTAB 1,2"), THE OUT-'/ 7 ' PUT OPTIONS WILL BE THE SAME AS IN THE LAST PREVIOUS'/ 8 ' CROSS-TABULATION, IF ANY.'/) CALL DECODE READ (20,103) I1,I2,I3,N3,N3X IF (I1.EQ.0) GO TO 230 ERROR = I1.LT.0 .OR. I1.GT.M .OR. I2.LT.0 .OR. I2.GT.M .OR. 1 I3.LT.0 .OR. I3.GT.M IF (ERROR) TYPE 232, M 232 FORMAT ('+INVALID ENTRY--VARIABLES RUN FROM 1 TO ',I3/) IF (ERROR) GO TO 230 ERROR = L(I1).GT.H(I1) .OR. L(I2).GT.H(I2) .OR. L(I3).GT.H(I3) IF (ERROR) TYPE 233 233 FORMAT ('+INVALID ENTRY--VARIABLE WITHOUT CATEGORIES'/) IF (ERROR) GO TO 230 J3X = JK(N3X) IF (J3X.GT.9) J3X = -1 REJECT = (N3.EQ.'<' .OR. N3.EQ.'>') .AND. J3X.GE.0 J3 = JK(N3) IF (J3.GT.9) J3 = -1 IF (J3.LT.0 .AND. .NOT.REJECT) J3 = J3X IF (I2.NE.0 .OR. J3.GE.0 .OR. J3X.GE.0) GO TO 235 I2 = I3 I3 = 0 235 I3L = L(I3) I3H = H(I3) IF (J3.LT.0 .AND. I2.NE.0) GO TO 290 IF (J3.LT.0 .AND. I2.EQ.0) GO TO 300 L(I3) = J3 H(I3) = J3 IF (I2) 290,300,290 C TABULATE MARGINAL FREQUENCIES. 240 J3 = L(I3) DO 245 J1=L(I1),H(I1) 245 PSUB(1,J1) = NSUB(1,J1,J3)/TOTAL+.0005 PTAB = NTAB/TOTAL+.0005 250 WRITE (5,25) I1 25 FORMAT (/// 1 ' DOWN: VARIABLE ',I3) R(3) = EQUAL IF (REJECT) R(3) = DIFFER IF (I3.NE.0) WRITE (5,252) I3,R(3),J3,X(I3) 252 FORMAT ( 2 ' CONTROL: VARIABLE ',I3,2X,A2,' CATEGORY ',I1,A1) WRITE (5,253) 253 FORMAT (///9X,'FREQ',4X,'PCT'/) DO 260 J1=L(I1),H(I1) 260 WRITE (5,26) J1,X(I1),NSUB(1,J1,J3),PSUB(1,J1) 26 FORMAT (' ',I1,A1,5X,I4,4X,2PF5.1) 270 WRITE (5,27) NTAB,PTAB 27 FORMAT (/' TOT ',3X,I4,4X,2PF5.1) GO TO 1350 C ENTER OUTPUT OPTIONS. 280 TYPE 28 28 FORMAT ( 1 ' ENTER (WITHOUT PUNCTUATION) ONE OR MORE OPTIONS FOR OUTPUT:') 281 FORMAT ( 2 ' 0--EXCLUSION ANALYSIS ONLY'/ 3 ' 1--FREQUENCY OF RESPONSES'/ 4 ' 2--PERCENTAGES ACROSS'/ 5 ' 3--PERCENTAGES DOWN'/ 6 ' 4--PERCENTAGES OF TOTAL'/ 7 ' 5--CHI-SQUARE'/ 8 ' 6--NOMINAL TAU'/ 9 ' 7--YULE''S Q / GAMMA'/ / ' 8--PHI / ORDINAL TAU'/ 1 ' 9--SOMER''S D'/) 290 IF (SAVE.GT.' ' .AND. .NOT.OPT(0)) GO TO 300 TYPE 29 29 FORMAT (' OUTPUT OPTIONS? ',$) ACCEPT 3, (ENTRY(N),N=1,4) IF (ENTRY(1).EQ.'NONE' .OR. ENTRY(1).EQ.'ABORT') GO TO 200 IF (ENTRY(1).EQ.'STOP') GO TO 2000 BLURB = ENTRY(1).EQ.'EXPLA' .OR. ENTRY(1).EQ.'?' IF (BLURB) TYPE 28 IF (BLURB) TYPE 281 IF (BLURB .OR. ENTRY(1).EQ.' ') GO TO 290 CALL DECODE READ (20,101,ERR=280) (R(I),I=1,9),(OPT(J),J=1,9) DO 295 I=1,9 295 OPT(R(I)) = .TRUE. OPT(0) = .NOT.(OPT(1) .OR. OPT(2) .OR. OPT(3) .OR. OPT(4) .OR. 1 OPT(5) .OR. OPT(6) .OR. OPT(7) .OR. OPT(8) .OR. OPT(9)) C COUNT RESPONSES IN EACH CATEGORY. 300 MAX = MAX0(I1,I2,I3) IF (.NOT.GROUP) GO TO 307 CALL IFIL(21,ORIG,'.MAP') READ (21,32) ID READ (21,32) ID DO 305 J=0,13 READ (21,16) (R(I),I=1,MAX) MAP(1,J) = JK(R(I1)) MAP(2,J) = JK(R(I2)) MAP(3,J) = JK(R(I3)) 305 CONTINUE 307 DO 310 J3=L(I3),H(I3) DO 310 J2=L(I2),H(I2) DO 310 J1=L(I1),H(I1) 310 NUM(J1,J2,J3) = 0 CALL IFILE(1,DATA) READ (1,32) ID READ (1,32) ID DO 315 K=1,LAST READ (1,16) (R(I),I=1,MAX) J1 = MAP(1,JK(R(I1))) J2 = MAP(2,JK(R(I2))) J3 = MAP(3,JK(R(I3))) 315 NUM(J1,J2,J3) = NUM(J1,J2,J3)+1 IF (ANS.EQ.'ITEM' .AND. .NOT.REJECT) GO TO 1450 320 IF (.NOT.REJECT) GO TO 335 DO 330 J1=L(I1),H(I1) DO 330 J2=L(I2),H(I2) NSUB(0,J1,J2) = 0 DO 325 J3=L(I3),H(I3) 325 NSUB(0,J1,J2) = NSUB(0,J1,J2)+NUM(J1,J2,J3) 330 NUM(J1,J2,J3X) = NSUB(0,J1,J2)-NUM(J1,J2,J3X) IF (ANS.EQ.'ITEM') GO TO 1450 L(I3) = J3X H(I3) = J3X 335 CONTINUE DO 360 J3=L(I3),H(I3) DO 340 J1=L(I1),H(I1) 340 NSUB(1,J1,J3) = 0 DO 350 J2=L(I2),H(I2) 350 NSUB(2,J2,J3) = 0 360 NTOT(J3) = 0 NTAB = 0 DO 390 J3=L(I3),H(I3) DO 380 J2=L(I2),H(I2) DO 370 J1=L(I1),H(I1) NSUB(1,J1,J3) = NSUB(1,J1,J3)+NUM(J1,J2,J3) 370 NSUB(2,J2,J3) = NSUB(2,J2,J3)+NUM(J1,J2,J3) 380 NTOT(J3) = NTOT(J3)+NSUB(2,J2,J3) TOT(J3) = NTOT(J3) TOT(J3) = AMAX1(TOT(J3),.0001) 390 NTAB = NTAB+NTOT(J3) NOUT = LAST-NTAB IF (I2.EQ.0) GO TO 240 IF (OPT(0)) GO TO 1350 C BEGIN OUTPUT LOOP. 400 DO 1300 J3=L(I3),H(I3) IF (J3.NE.L(I3)) WRITE (5,34) IF (.NOT.(OPT(5) .OR. OPT(6) .OR. OPT(7) .OR. OPT(8) .OR. OPT(9))) 1 GO TO 430 NROW = 0 NCOL = 0 DO 410 J1=L(I1),H(I1) IF (NSUB(1,J1,J3).EQ.0) GO TO 410 NROW = NROW+1 J1A(NROW) = J1 410 CONTINUE NROW = MAX0(NROW,1) DO 420 J2=L(I2),H(I2) IF (NSUB(2,J2,J3).EQ.0) GO TO 420 NCOL = NCOL+1 J2A(NCOL) = J2 420 CONTINUE NDF = (NROW-1)*(NCOL-1) NADF = (H(I1)-L(I1))*(H(I2)-L(I2)) 430 WRITE (5,43) I1,I2 43 FORMAT (/// 1 ' DOWN: VARIABLE ',I3/ 2 ' ACROSS: VARIABLE ',I3) R(3) = EQUAL IF (REJECT) R(3) = DIFFER IF (I3.NE.0) WRITE (5,431) I3,R(3),J3,X(I3) 431 FORMAT ( 3 ' CONTROL: VARIABLE ',I3,2X,A2,' CATEGORY ',I1,A1) IF (OPT(1)) GO TO 440 IF (OPT(2)) GO TO 500 IF (OPT(3)) GO TO 600 IF (OPT(4)) GO TO 700 IF (OPT(5)) GO TO 800 IF (OPT(6)) GO TO 900 IF (OPT(7)) GO TO 1000 IF (OPT(8)) GO TO 1100 IF (OPT(9)) GO TO 1200 C OPTION 1--FREQUENCY OF RESPONSES 440 WRITE (5,44) 44 FORMAT (///' FREQUENCY OF RESPONSES:') 450 WRITE (5,45) (J2,X(I2),J2=L(I2),H(I2)) 45 FORMAT (//5X,$/('+',1X,I4,A1,$)) 460 WRITE (5,46) 46 FORMAT ('+',4X,'TOT'/) DO 480 J1=L(I1),H(I1) 470 WRITE (5,47) J1,X(I1),(NUM(J1,J2,J3),J2=L(I2),H(I2)) 47 FORMAT (' ',I1,A1,2X,$/('+',1X,I4,1X,$)) 480 WRITE (5,48) NSUB(1,J1,J3) 48 FORMAT ('+',3X,I4) 490 WRITE (5,49) (NSUB(2,J2,J3),J2=L(I2),H(I2)) 49 FORMAT (/' TOT ',$/('+',1X,I4,1X,$)) WRITE (5,48) NTOT(J3) IF (OPT(2)) GO TO 500 IF (OPT(3)) GO TO 600 IF (OPT(4)) GO TO 700 IF (OPT(5)) GO TO 800 IF (OPT(6)) GO TO 900 IF (OPT(7)) GO TO 1000 IF (OPT(8)) GO TO 1100 IF (OPT(9)) GO TO 1200 GO TO 1300 C OPTION 2--PERCENTAGES ACROSS 500 DO 510 J1=L(I1),H(I1) SUB1 = NSUB(1,J1,J3) SUB1 = AMAX1(SUB1,.0001) DO 510 J2=L(I2),H(I2) 510 PCT(J1,J2) = NUM(J1,J2,J3)/SUB1+.0005 DO 530 J2=L(I2),H(I2) 530 PSUB(2,J2) = NSUB(2,J2,J3)/TOT(J3)+.0005 540 WRITE (5,54) 54 FORMAT (///' PERCENTAGES ACROSS:') 550 WRITE (5,45) (J2,X(I2),J2=L(I2),H(I2)) 560 WRITE (5,46) DO 580 J1=L(I1),H(I1) 570 WRITE (5,57) J1,X(I1),(PCT(J1,J2),J2=L(I2),H(I2)) 57 FORMAT (' ',I1,A1,2X,$/('+',1X,2PF5.1,$)) 580 WRITE (5,48) NSUB(1,J1,J3) 590 WRITE (5,59) (PSUB(2,J2),J2=L(I2),H(I2)) 59 FORMAT (/' TOT ',$/('+',1X,2PF5.1,$)) WRITE (5,48) NTOT(J3) IF (OPT(3)) GO TO 600 IF (OPT(4)) GO TO 700 IF (OPT(5)) GO TO 800 IF (OPT(6)) GO TO 900 IF (OPT(7)) GO TO 1000 IF (OPT(8)) GO TO 1100 IF (OPT(9)) GO TO 1200 GO TO 1300 C OPTION 3--PERCENTAGES DOWN 600 DO 610 J2=L(I2),H(I2) SUB2 = NSUB(2,J2,J3) SUB2 = AMAX1(SUB2,.0001) DO 610 J1=L(I1),H(I1) 610 PCT(J1,J2) = NUM(J1,J2,J3)/SUB2+.0005 DO 620 J1=L(I1),H(I1) 620 PSUB(1,J1) = NSUB(1,J1,J3)/TOT(J3)+.0005 640 WRITE (5,64) 64 FORMAT (///' PERCENTAGES DOWN:') 650 WRITE (5,45) (J2,X(I2),J2=L(I2),H(I2)) 660 WRITE (5,46) DO 680 J1=L(I1),H(I1) 670 WRITE (5,57) J1,X(I1),(PCT(J1,J2),J2=L(I2),H(I2)) 680 WRITE (5,68) PSUB(1,J1) 68 FORMAT ('+',3X,2PF5.1) 690 WRITE (5,49) (NSUB(2,J2,J3),J2=L(I2),H(I2)) WRITE (5,48) NTOT(J3) IF (OPT(4)) GO TO 700 IF (OPT(5)) GO TO 800 IF (OPT(6)) GO TO 900 IF (OPT(7)) GO TO 1000 IF (OPT(8)) GO TO 1100 IF (OPT(9)) GO TO 1200 GO TO 1300 C OPTION 4--PERCENTAGES OF TOTAL 700 DO 710 J1=L(I1),H(I1) DO 710 J2=L(I2),H(I2) 710 PCT(J1,J2) = NUM(J1,J2,J3)/TOT(J3)+.0005 DO 720 J1=L(I1),H(I1) 720 PSUB(1,J1) = NSUB(1,J1,J3)/TOT(J3)+.0005 DO 730 J2=L(I2),H(I2) 730 PSUB(2,J2) = NSUB(2,J2,J3)/TOT(J3)+.0005 740 WRITE (5,74) 74 FORMAT (///' PERCENTAGES OF TOTAL:') 750 WRITE (5,45) (J2,X(I2),J2=L(I2),H(I2)) 760 WRITE (5,46) DO 780 J1=L(I1),H(I1) 770 WRITE (5,57) J1,X(I1),(PCT(J1,J2),J2=L(I2),H(I2)) 780 WRITE (5,68) PSUB(1,J1) 790 WRITE (5,59) (PSUB(2,J2),J2=L(I2),H(I2)) WRITE (5,48) NTOT(J3) IF (OPT(5)) GO TO 800 IF (OPT(6)) GO TO 900 IF (OPT(7)) GO TO 1000 IF (OPT(8)) GO TO 1100 IF (OPT(9)) GO TO 1200 GO TO 1300 C OPTION 5--CHI-SQUARE 800 WRITE (5,32) IF (NDF-1) 810,820,830 810 WRITE (5,81) 81 FORMAT (/' CHI-SQUARE IS UNDEFINED.') IF (OPT(6)) GO TO 900 IF (OPT(7)) GO TO 1010 IF (OPT(8)) GO TO 1110 IF (OPT(9)) GO TO 1210 GO TO 1300 820 PROD1 = NSUB(1,J1A(1),J3)*NSUB(1,J1A(2),J3) PROD2 = NSUB(2,J2A(1),J3)*NSUB(2,J2A(2),J3) PROD = PROD1*PROD2 DET = IABS(NUM(J1A(1),J2A(1),J3)*NUM(J1A(2),J2A(2),J3) 1 -NUM(J1A(1),J2A(2),J3)*NUM(J1A(2),J2A(1),J3)) COR = AMIN1(TOT(J3),DET)/2 CS = TOT(J3)*(DET-COR)**2/PROD 830 IF (NDF.GT.1) CS = 0.0 IERR = 0 DO 840 ROW=1,NROW DO 840 COL=1,NCOL ENUM = NSUB(1,J1A(ROW),J3)*NSUB(2,J2A(COL),J3)/TOT(J3) IF (ENUM.LT.1.0) IERR = -100 IF (NDF.EQ.1) GO TO 840 CS = CS+(NUM(J1A(ROW),J2A(COL),J3)-ENUM)**2/ENUM 840 CONTINUE 860 IF (IERR.EQ.0) CALL CHISQ(CS,NDF,PR) 870 WRITE (5,87) CS,NDF 87 FORMAT (/' CHI-SQUARE =',F7.2,' WITH ',I2,' D.F.') IF (IERR.NE.0) GO TO 890 880 WRITE (5,88) 88 FORMAT (' PROBABILITY OF CHI-SQUARE THIS LARGE IS ',$) IF (PR.GE..9995) WRITE (5,881) 881 FORMAT ('+1.') IF (PR.GE..001 .AND. PR.LT..9995) WRITE (5,882) PR 882 FORMAT ('+',F4.3) IF (PR.LT..001) WRITE (5,883) 883 FORMAT ('+LESS THAN .001') GO TO 895 890 WRITE (5,89) 89 FORMAT (' NOTE: EXPECTED FREQUENCY IS LESS THAN ',$) IF (IERR.LT.0) WRITE (5,891) 891 FORMAT ('+1 IN ONE OR MORE CELLS.') IF (IERR.EQ.1) WRITE (5,892) 892 FORMAT ('+5 IN ONE CELL.') IF (IERR.GT.1 .AND. IERR.LT.10) WRITE (5,893) IERR 893 FORMAT ('+5 IN ',I1,' CELLS.') IF (IERR.GE.10) WRITE (5,894) IERR 894 FORMAT ('+5 IN ',I2,' CELLS.') 895 IF (OPT(6)) GO TO 900 IF (OPT(7)) GO TO 1000 IF (OPT(8)) GO TO 1100 IF (OPT(9)) GO TO 1200 GO TO 1300 C OPTION 6--NOMINAL TAU 900 IF (.NOT.OPT(5)) WRITE (5,32) IF (NCOL-2) 910,920,930 910 WRITE (5,91) 91 FORMAT (/' GOODMAN AND KRUSKAL''S TAU IS UNDEFINED.') IF (OPT(7)) GO TO 1010 IF (OPT(8)) GO TO 1110 IF (OPT(9)) GO TO 1210 GO TO 1300 920 POS = 2.*NSUB(2,J2A(1),J3)*NSUB(2,J2A(2),J3)/TOT(J3) NEG = 0.0 DO 925 ROW=1,NROW SUB1 = NSUB(1,J1A(ROW),J3) 925 NEG = NEG+2.*NUM(J1A(ROW),J2A(1),J3)*NUM(J1A(ROW),J2A(2),J3)/SUB1 TAU = (POS-NEG)/POS GO TO 960 930 SUM = 0.0 DO 935 COL=1,NCOL 935 SUM = SUM+NSUB(2,J2A(COL),J3)*(NTOT(J3)-NSUB(2,J2A(COL),J3)) POS = SUM/TOT(J3) 940 NEG = 0.0 DO 950 ROW=1,NROW SUM = 0.0 NSUB1 = NSUB(1,J1A(ROW),J3) DO 945 COL=1,NCOL 945 SUM = SUM+NUM(J1A(ROW),J2A(COL),J3)* 1 (NSUB1-NUM(J1A(ROW),J2A(COL),J3)) SUB1 = NSUB1 950 NEG = NEG+SUM/SUB1 TAU = (POS-NEG)/POS 960 PTAU = TAU+.0005 DO 965 I=1,3 965 R(I) = 0 IF (I1.GE.100) R(1) = BLANK IF (I2.GE.100) R(2) = BLANK IF (PTAU.GE..1) R(3) = BLANK 970 WRITE (5,97) TAU 97 FORMAT (/' GOODMAN AND KRUSKAL''S TAU = ',F6.3) 980 WRITE (5,98) R(1),I1 98 FORMAT (' (KNOWING VARIABLE',A1,I3,$) IF (TAU.LT..0005) WRITE (5,981) R(2),I2 981 FORMAT ('+ DOES NOT REDUCE ERROR', 1 ' IN PREDICTING VARIABLE',A1,I3,')') IF (TAU.GE..0005.AND.TAU.LT..9995) WRITE (5,982) R(2),I2,R(3),PTAU 982 FORMAT ('+ REDUCES ERROR', 1 ' IN PREDICTING VARIABLE',A1,I3,' BY',A1,2PF4.1,'%)') IF (TAU.GE..9995) WRITE (5,883) R(2),I2 983 FORMAT ('+ ELIMINATES ERROR', 1 ' IN PREDICTING VARIABLE',A1,I3,')') IF (OPT(7)) GO TO 1000 IF (OPT(8)) GO TO 1100 IF (OPT(9)) GO TO 1200 GO TO 1300 C OPTION 7--YULE'S Q / GAMMA 1000 IF (.NOT.(OPT(5) .OR. OPT(6))) WRITE (5,32) IF (NDF-1) 1010,1020,1030 1010 IF (NADF.EQ.1) WRITE (5,1011) IF (NADF.NE.1) WRITE (5,1012) 1011 FORMAT (/' YULE''S Q IS UNDEFINED.') 1012 FORMAT (/' GOODMAN AND KRUSKAL''S GAMMA IS UNDEFINED.') IF (OPT(8)) GO TO 1110 IF (OPT(9)) GO TO 1210 GO TO 1300 1020 POS = NUM(J1A(1),J2A(1),J3)*NUM(J1A(2),J2A(2),J3) NEG = NUM(J1A(1),J2A(2),J3)*NUM(J1A(2),J2A(1),J3) Q = (POS-NEG)/(POS+NEG) SUM = 0.0 DO 1025 ROW=1,2 DO 1025 COL=1,2 1025 SUM = SUM+1.0/AMAX0(NUM(J1A(ROW),J2A(COL),J3),1) SIGMA = (1.0-Q*Q)*SQRT(SUM)/2. QMAX = AMIN1(Q+1.960*SIGMA, 1.) QMIN = AMAX1(Q-1.960*SIGMA,-1.) R(5) = (1+(QMAX.GE.0.0))*BLANK R(6) = (1+(QMIN.GE.0.0))*BLANK GO TO 1060 1030 POS = 0.0 NEG = 0.0 DO 1040 MROW=1,NROW-1 DO 1040 MCOL=1,NCOL-1 DO 1040 ROW=MROW+1,NROW DO 1040 COL=MCOL+1,NCOL 1040 POS = POS+NUM(J1A(MROW),J2A(MCOL),J3)*NUM(J1A(ROW),J2A(COL),J3) DO 1050 MROW=1,NROW-1 DO 1050 MCOL=2,NCOL DO 1050 ROW=MROW+1,NROW DO 1050 COL=1,MCOL-1 1050 NEG = NEG+NUM(J1A(MROW),J2A(MCOL),J3)*NUM(J1A(ROW),J2A(COL),J3) IF (OPT(8) .AND. .NOT.OPT(7)) GO TO 1130 IF (OPT(9) .AND. .NOT.OPT(7)) GO TO 1230 GAMMA = (POS-NEG)/(POS+NEG) 1060 DO 1065 I=1,4 1065 R(I) = 0 IF (I1.GE.100) R(1) = BLANK IF (X(I1).EQ.PRIME) R(2) = PRIME IF (I2.GE.100) R(3) = BLANK IF (X(I2).EQ.PRIME) R(4) = PRIME J1 = J1A(1) IF (Q.GT.0.0) J2 = J2A(1) IF (Q.LT.0.0) J2 = J2A(NCOL) 1070 IF (NDF.EQ.1) WRITE (5,1071) Q IF (NDF.GT.1) WRITE (5,1072) GAMMA 1071 FORMAT (/' YULE''S Q = ',F6.3) 1072 FORMAT (/' GOODMAN AND KRUSKAL''S GAMMA = ',F6.3) 1080 IF (ABS(Q).GE..0005) WRITE (5,108) R(1),I1,J1,R(2),R(3),I2,J2,R(4) 108 FORMAT ( 1 ' (VARIABLE',A1,I3,' = CATEGORY ',I1,A1,') TENDS WITH ', 2 ' (VARIABLE',A1,I3,' = CATEGORY ',I1,A1,')') IF (ABS(Q).LT..0005) WRITE (5,1081) R(1),I1,R(3),I2 1081 FORMAT ( 1 ' VARIABLES',A1,I3,' AND',A1,I3,' ARE NOT ASSOCIATED') 1090 IF (NDF.EQ.1 .AND. ABS(Q).NE.1.) WRITE (5,109) R(5),QMAX,R(6),QMIN 109 FORMAT (' 95% CONFIDENCE LIMITS FOR Q ARE',A1,F6.3,' AND',A1,F6.3) IF (OPT(8)) GO TO 1100 IF (OPT(9)) GO TO 1200 GO TO 1300 C OPTION 8--PHI / ORDINAL TAU 1100 IF (.NOT.(OPT(5) .OR. OPT(6) .OR. OPT(7))) WRITE (5,32) IF (NDF.GT.1 .AND. .NOT.OPT(7)) GO TO 1030 IF (NDF-1) 1110,1120,1130 1110 IF (NADF.EQ.1) WRITE (5,1111) IF (NADF.NE.1) WRITE (5,1112) 1111 FORMAT (/' PHI IS UNDEFINED.') 1112 FORMAT (/' KENDALL''S TAU IS UNDEFINED.') IF (OPT(9)) GO TO 1210 GO TO 1300 1120 POS = NUM(J1A(1),J2A(1),J3)*NUM(J1A(2),J2A(2),J3) NEG = NUM(J1A(1),J2A(2),J3)*NUM(J1A(2),J2A(1),J3) PROD1 = NSUB(1,J1A(1),J3)*NSUB(1,J1A(2),J3) PROD2 = NSUB(2,J2A(1),J3)*NSUB(2,J2A(2),J3) ROOT = SQRT(PROD1*PROD2) PHI = (POS-NEG)/ROOT GO TO 1150 1130 PROD1 = 0.0 PROD2 = 0.0 DO 1135 MROW=1,NROW-1 DO 1135 ROW=MROW+1,NROW 1135 PROD1 = PROD1+NSUB(1,J1A(MROW),J3)*NSUB(1,J1A(ROW),J3) DO 1140 MCOL=1,NCOL-1 DO 1140 COL=MCOL+1,NCOL 1140 PROD2 = PROD2+NSUB(2,J2A(MCOL),J3)*NSUB(2,J2A(COL),J3) TAU = (POS-NEG)/SQRT(PROD1*PROD2) GO TO 1170 1150 MROW = (NSUB(1,J1A(1),J3).LT.NSUB(1,J1A(2),J3))+2 MCOL = (NSUB(2,J2A(1),J3).LT.NSUB(2,J2A(2),J3))+2 IF (NSUB(1,J1A(MROW),J3).GT.NSUB(2,J2A(MCOL),J3)) GO TO 1155 ALLPOS = NSUB(1,J1A(MROW),J3)*NSUB(2,J2A(3-MROW),J3) ALLNEG = NSUB(1,J1A(MROW),J3)*NSUB(2,J2A(MROW),J3) GO TO 1160 1155 ALLPOS = NSUB(2,J2A(MCOL),J3)*NSUB(1,J1A(3-MCOL),J3) ALLNEG = NSUB(2,J2A(MCOL),J3)*NSUB(1,J1A(MCOL),J3) 1160 PHIMAX = ALLPOS/ROOT PHIMIN = -ALLNEG/ROOT 1170 IF (NDF.EQ.1) WRITE (5,1171) PHI IF (NDF.GT.1) WRITE (5,1172) TAU 1171 FORMAT (/' PHI = ',F6.3) 1172 FORMAT (/' KENDALL''S TAU = ',F6.3) 1180 IF (NDF.EQ.1) WRITE (5,1181) PHIMAX,PHIMIN IF (NDF.GT.1) WRITE (5,1182) 1181 FORMAT (' UPPER AND LOWER BOUNDS FOR PHI ARE',F6.3,' AND ',F6.3) 1182 FORMAT (' (RANK CORRELATION CORRECTED FOR TIES)') IF (OPT(9)) GO TO 1200 GO TO 1300 C OPTION 9--SOMER'S D 1200 IF (.NOT.(OPT(5) .OR. OPT(6) .OR. OPT(7) .OR. OPT(8))) 1 WRITE (5,32) IF (NDF.GT.1 .AND. .NOT.(OPT(7) .OR. OPT(8))) GO TO 1030 IF (NDF-1) 1210,1220,1230 1210 WRITE (5,121) 121 FORMAT (/' SOMER''S D IS UNDEFINED.') GO TO 1300 1220 POS = NUM(J1A(1),J2A(1),J3)*NUM(J1A(2),J2A(2),J3) NEG = NUM(J1A(1),J2A(2),J3)*NUM(J1A(2),J2A(1),J3) PROD1 = NSUB(1,J1A(1),J3)*NSUB(1,J1A(2),J3) D = (POS-NEG)/PROD1 GO TO 1260 1230 IF (OPT(8)) GO TO 1240 PROD1 = 0.0 DO 1235 MROW=1,NROW-1 DO 1235 ROW=MROW+1,NROW 1235 PROD1 = PROD1+NSUB(1,J1A(MROW),J3)*NSUB(1,J1A(ROW),J3) 1240 D = (POS-NEG)/PROD1 1260 DO 1265 I=1,2 1265 R(I) = 0 IF (I1.GE.100) R(1) = BLANK IF (I2.GE.100) R(2) = BLANK 1270 WRITE (5,127) D 127 FORMAT (/' SOMER''S D = ',F6.3) 1280 IF (NDF.EQ.1) WRITE (5,1281) IF (NDF.GT.1) WRITE (5,1282) 1281 FORMAT (' (PERCENTAGE DIFFERENCE',$) 1282 FORMAT (' (PROPORTION DIFFERENTIAL',$) WRITE (5,1283) R(1),I1,R(2),I2 1283 FORMAT ('+ FOR VARIABLE',A1,I3,' RELATIVE TO VARIABLE',A1,I3,')') C REPEAT OR CONCLUDE. 1300 CONTINUE IF (L(I3).NE.H(I3)) WRITE (5,34) IF (.NOT.OPT(7)) GO TO 1350 IF (NADF.NE.1 .OR. L(I3).EQ.H(I3)) GO TO 1350 NLL = 0 NLH = 0 NHL = 0 NHH = 0 1310 DO 1315 J3=L(I3),H(I3) NLL = NLL+NUM(L(I1),L(I2),J3) NLH = NLH+NUM(L(I1),H(I2),J3) NHL = NHL+NUM(H(I1),L(I2),J3) NHH = NHH+NUM(H(I1),H(I2),J3) 1315 CONTINUE POS = NLL*NHH NEG = NLH*NHL IF (POS+NEG.EQ.0.0) GO TO 1350 QZERO = (POS-NEG)/(POS+NEG) POS = 0.0 NEG = 0.0 1320 DO 1325 J3=L(I3),H(I3) POS = POS+NUM(L(I1),L(I2),J3)*NUM(H(I1),H(I2),J3) NEG = NEG+NUM(L(I1),H(I2),J3)*NUM(H(I1),L(I2),J3) 1325 CONTINUE IF (POS+NEG.EQ.0.0) GO TO 1350 QPART = (POS-NEG)/(POS+NEG) POS = 0.0 NEG = 0.0 1330 DO 1335 J3=L(I3),H(I3) POS = POS+NUM(L(I1),L(I2),J3)*(NHH-NUM(H(I1),H(I2),J3)) NEG = NEG+NUM(L(I1),H(I2),J3)*(NHL-NUM(H(I1),L(I2),J3)) 1335 CONTINUE IF (POS+NEG.EQ.0.0) GO TO 1350 QDIFF = (POS-NEG)/(POS+NEG) 1340 WRITE (5,134) QZERO,QPART,QDIFF 134 FORMAT (/// 1 ' ZERO ORDER Q = ',F6.3/ 2 ' PARTIAL Q = ',F6.3/ 3 ' DIFFERENTIAL Q = ',F6.3) 1350 WRITE (5,135) NTAB,NOUT,LAST 135 FORMAT (/// 1 ' EXCLUSION ANALYSIS:'// 2 ' TABLE TOTAL ',I4/ 3 ' EXCLUDED ',I4/ 4 ' SAMPLE SIZE ',I4) TYPE 34 L(I3) = I3L H(I3) = I3H WRITE (5,201) GO TO 202 C C ITEM: INTERCORRELATE VARIABLES. 1400 ZERO = ENTRY(0).NE.ANS IF (ENTRY(1).EQ.'PART') CALL DECODE ZERO = ZERO .OR. ENTRY(1).EQ.' ' IF (ZERO) TYPE 1401 1401 FORMAT (' VARIABLES TO BE CORRELATED? ',$) IF (ZERO) ACCEPT 3, (ENTRY(N),N=1,12) IF (ENTRY(1).EQ.'NONE' .OR. ENTRY(1).EQ.'ABORT') GO TO 200 IF (ENTRY(1).EQ.'STOP') GO TO 2000 IF (ENTRY(1).EQ.'EXPLA' .OR. ENTRY(1).EQ.'?') TYPE 1402 1402 FORMAT ( 1 ' ENTER 2 TO 9 VARIABLES TO BE INTERCORRELATED. ANY'/ 2 ' VARIABLE TO BE CORRELATED THAT IS PRECEDED BY A MINUS'/ 3 ' SIGN WILL BE REFLECTED. IF YOU DO NOT WANT TO HAVE'/ 4 ' ANY VARIABLES CORRELATED, TYPE "NONE".'// 5 ' WHEN THE COMMAND "ITEM PART" IS GIVEN, ANOTHER VARI-'/ 6 ' ABLE MAY BE ENTERED SEPARATELY AS A CONTROL. IF THE'/ 7 ' CONTROL VARIABLE IS FOLLOWED BY AN EQUALS SIGN AND A'/ 8 ' CATEGORY NUMBER (0 TO 9), CORRELATIONS WILL BE LIMITED'/ 9 ' TO RESPONDENTS IN THAT CATEGORY ONLY. IF THE CONTROL'/ / ' VARIABLE IS FOLLOWED BY AN INEQUALITY SIGN (<>) AND A'/ 1 ' CATEGORY NUMBER, RESPONDENTS IN THAT CATEGORY WILL BE'/ 2 ' EXCLUDED.'/) CALL DECODE READ (20,10) (IA(N),N=1,9) IA(10) = 0 IF (IA(1).EQ.0) GO TO 1400 DO 1410 N=1,9 IF (IABS(IA(N)).LE.M) GO TO 1405 TYPE 232 GO TO 1400 1405 IF (L(IA(N)).LE.H(IA(N))) GO TO 1410 TYPE 233 GO TO 1400 1410 IF (IA(N+1).EQ.0) GO TO 1415 1415 IF (N.LT.2) GO TO 1400 NVAR = N I3 = 0 I3L = 0 I3H = 0 IF (SAVE.NE.'PART') GO TO 1430 1420 TYPE 142 142 FORMAT (' CONTROL? ',$) 1421 ACCEPT 3, (ENTRY(N),N=1,12) IF (ENTRY(1).EQ.'ABORT') GO TO 200 IF (ENTRY(1).EQ.'STOP') GO TO 2000 BLURB = ENTRY(1).EQ.'EXPLA' .OR. ENTRY(1).EQ.'?' IF (BLURB) TYPE 1422 1422 FORMAT (' ENTER CONTROL VARIABLE OR TYPE "NONE": ',$) IF (BLURB) GO TO 1421 CALL DECODE READ (20,104) I3,N3,N3X IF (I3.GE.0 .AND. I3.LE.M) GO TO 1425 TYPE 232, M GO TO 1420 1425 J3X = JK(N3X) IF (J3X.GT.9) J3X = -1 REJECT = (N3.EQ.'<' .OR. N3.EQ.'>') .AND. J3X.GE.0 J3 = JK(N3) IF (J3.LT.0 .OR. J3.GT.9) J3 = J3X I3L = L(I3) I3H = H(I3) IF (J3.LT.0) GO TO 1430 I3L = J3 I3H = J3 1430 DO 1490 MJ3=I3L,I3H IF (MJ3.NE.I3L) WRITE (5,34) WRITE (5,143) 143 FORMAT (///' ITEM INTERCORRELATIONS:') R(3) = EQUAL IF (REJECT) R(3) = DIFFER IF (I3.NE.0) WRITE (5,1431) I3,R(3),MJ3,X(I3) 1431 FORMAT (// 1 ' CONTROL: VARIABLE ',I3,2X,A2,' CATEGORY ',I1,A1) 1440 WRITE (5,144) (IA(COL),X(IABS(IA(COL))),COL=1,NVAR) 144 FORMAT (//10X,9(2X,I4,A1)) WRITE (5,34) DO 1470 ROW=1,NVAR G(ROW,ROW,MJ3) = 1.0 DO 1460 COL=ROW+1,NVAR IF (MJ3.NE.I3L .OR. ROW.EQ.NVAR) GO TO 1460 I1 = IABS(IA(ROW)) I2 = IABS(IA(COL)) SGN = ISIGN(1,IA(ROW)*IA(COL)) GO TO 300 1450 DO 1460 J3=I3L,I3H POS = 0.0 NEG = 0.0 DO 1454 MJ1=L(I1),H(I1)-1 DO 1454 MJ2=L(I2),H(I2)-1 DO 1454 J1=MJ1+1,H(I1) DO 1454 J2=MJ2+1,H(I2) 1454 POS = POS+NUM(MJ1,MJ2,J3)*NUM(J1,J2,J3) DO 1458 MJ1=L(I1),H(I1)-1 DO 1458 MJ2=L(I2)+1,H(I2) DO 1458 J1=MJ1+1,H(I1) DO 1458 J2=L(I2),MJ2-1 1458 NEG = NEG+NUM(MJ1,MJ2,J3)*NUM(J1,J2,J3) G(ROW,COL,J3) = 0.0 IF (POS.NE.NEG) G(ROW,COL,J3) = SGN*(POS-NEG)/(POS+NEG) G(COL,ROW,J3) = G(ROW,COL,J3) 1460 CONTINUE GSUM = 0.0 ASUM = 0.0 DO 1465 COL=1,NVAR GSUM = GSUM+G(ROW,COL,MJ3) ASUM = ASUM+ABS(G(ROW,COL,MJ3)) 1465 CONTINUE GMEAN(ROW) = (GSUM-1.)/(NVAR-1) AMEAN(ROW) = (ASUM-1.)/(NVAR-1) 1470 WRITE (5,147) IA(ROW),X(IABS(IA(ROW))),(G(ROW,COL,MJ3),COL=1,NVAR) 147 FORMAT (' ',I4,A1,4X,9F7.3) 1480 WRITE (5,148) (GMEAN(COL),COL=1,NVAR) 148 FORMAT (/' MEAN ',4X,9F7.3) 1490 WRITE (5,149) (AMEAN(COL),COL=1,NVAR) 149 FORMAT (' MEAN ABS ',9F7.3) TYPE 34 WRITE (5,201) GO TO 202 C C STOP: TERMINATE EXECUTION. 2000 END FILE 5 CALL TIME(NOW) NAME = NOW-851968 NAMEZ = NOW-1900544 IF (RENAME(NAME,'.OUT','FOR05','.DAT')) TYPE 2001, NAMEZ 2001 FORMAT (' OUTPUT SAVED AS FILE ',A5,'.OUT'/) TYPE 34 CALL OFIL(20,LIST,'.TMP') END FILE 20 2002 FORMAT ( 1 ' THE COMMAND "STOP" MAY BE GIVEN AS A RESPONSE TO ANY'/ 2 ' REQUEST FOR INFORMATION. EXECUTION OF THE PROGRAM IS'/ 3 ' TERMINATED, AND THE DATA FILE REVERTS TO ITS ORIGINAL'/ 4 ' FORM.'/) STOP END C FUNCTION JK(N) JK = N/536870912-48 IF (JK.GE.0) RETURN JK = 10-(JK-3)/6 RETURN END C FUNCTION NK(J) IF (J.GE.10) J = (13-J)*(J-7)-J-3*(J/12) NK = (J+48)*536870912 RETURN END C SUBROUTINE DECODE COMMON ENTRY(0/13),LIST CALL OFIL(20,LIST,'.TMP') WRITE (20,3) (ENTRY(N),N=1,12) 3 FORMAT (12A5) END FILE 20 CALL IFIL(20,LIST,'.TMP') IF (ENTRY(1).LT.'MAP 0' .OR. ENTRY(1).GT.'MAP Z') GO TO 50 READ (20,4) (ENTRY(N),N=0,12) 4 FORMAT (A4,12A5) CALL OFIL(20,LIST,'.TMP') WRITE (20,3) (ENTRY(N),N=0,11) END FILE 20 CALL IFIL(20,LIST,'.TMP') RETURN 50 DO 55 N=0,12 55 ENTRY(N) = ENTRY(N+1) RETURN END C SUBROUTINE CHISQ(CS,NDF,PR) PR = 1. IF (CS.EQ.0) RETURN DF = NDF IF (CS.LT.DF) GO TO 100 A = DF B = 10000. F = CS/DF GO TO 200 100 A = 10000. B = DF F = DF/CS 200 A1 = 2./(9.*A) B1 = 2./(9.*B) Y = ((1.-B1)*F**(1./3.)-1.+A1)/SQRT(B1*F**(2./3.)+A1) Z = ABS(Y) IF (B.LT.4.) Z = Z*(1+.08*Z**4/B**3) PR = .5/(1+Z*(.196854+Z*(.115194+Z*(.000344+Z*.019527))))**4 IF (CS.LT.DF .AND. Y.GE.0) PR = 1.-PR RETURN END C C LOGICAL FUNCTION RENAME(NEWNAM,NEWEXT,OLDNAM,OLDEXT) C RETURNS VALUE .FALSE. IF FILE OLDNAM.EXT DOES NOT EXIST. C OTHERWISE, RENAME IS .TRUE. AND FILE IS RENAMED NEWNAM.EXT C WITH PROTECTION <155>. THIS SUBPROGRAM IS WRITTEN IN THE C MACRO-10 ASSEMBLER LANGUAGE.