Trailing-Edge
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PDP-10 Archives
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decus_20tap2_198111
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decus/20-0026/krank.ssp
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C KRAN 10
���C ..................................................................KRAN 20
���C KRAN 30
���C SUBROUTINE KRANK KRAN 40
���C KRAN 50
���C PURPOSE KRAN 60
���C TEST CORRELATION BETWEEN TWO VARIABLES BY MEANS OF KENDALL KRAN 70
���C RANK CORRELATION COEFFICIENT KRAN 80
���C KRAN 90
���C USAGE KRAN 100
���C CALL KRANK(A,B,R,N,TAU,SD,Z,NR) KRAN 110
���C KRAN 120
���C DESCRIPTION OF PARAMETERS KRAN 130
���C A - INPUT VECTOR OF N OBSERVATIONS FOR FIRST VARIABLE KRAN 140
���C B - INPUT VECTOR OF N OBSERVATIONS FOR SECOND VARIABLE KRAN 150
���C R - OUTPUT VECTOR OF RANKED DATA OF LENGTH 2*N. SMALLEST KRAN 160
���C OBSERVATION IS RANKED 1, LARGEST IS RANKED N. TIES KRAN 170
���C ARE ASSIGNED AVERAGE OF TIED RANKS. KRAN 180
���C N - NUMBER OF OBSERVATIONS KRAN 190
���C TAU - KENDALL RANK CORRELATION COEFFICIENT (OUTPUT) KRAN 200
���C SD - STANDARD DEVIATION (OUTPUT) KRAN 210
���C Z - TEST OF SIGNIFICANCE OF TAU IN TERMS OF NORMAL KRAN 220
���C DISTRIBUTION (OUTPUT) KRAN 230
���C NR - CODE, 0 FOR UNRANKED DATA IN A AND B, 1 FOR RANKED KRAN 240
���C DATA IN A AND B (INPUT) KRAN 250
���C KRAN 260
���C REMARKS KRAN 270
���C SD AND Z ARE SET TO ZERO IF N IS LESS THAN TEN KRAN 280
���C KRAN 290
���C SUBROUTINES AND FUNCTION SUBPROGRAMS REQUIRED KRAN 300
���C RANK KRAN 310
���C TIE KRAN 320
���C KRAN 330
���C METHOD KRAN 340
���C DESCRIBED IN S. SIEGEL, 'NONPARAMETRIC STATISTICS FOR THE KRAN 350
���C BEHAVIORAL SCIENCES', MCGRAW-HILL, NEW YORK, 1956, KRAN 360
���C CHAPTER 9 KRAN 370
���C KRAN 380
���C ..................................................................KRAN 390
���C KRAN 400
��� SUBROUTINE KRANK(A,B,R,N,TAU,SD,Z,NR) KRAN 410
��� DIMENSION A(1),B(1),R(1) KRAN 420
���C KRAN 430
��� SD=0.0 KRAN 440
��� Z=0.0 KRAN 450
��� FN=N KRAN 460
��� FN1=N*(N-1) KRAN 470
���C KRAN 480
���C DETERMINE WHETHER DATA IS RANKED KRAN 490
���C KRAN 500
��� IF(NR-1) 5, 10, 5 KRAN 510
���C KRAN 520
���C RANK DATA IN A AND B VECTORS AND ASSIGN TIED OBSERVATIONS KRAN 530
���C AVERAGE OF TIED RANKS KRAN 540
���C KRAN 550
��� 5 CALL RANK (A,R,N) KRAN 560
��� CALL RANK (B,R(N+1),N) KRAN 570
��� GO TO 40 KRAN 580
���C KRAN 590
���C MOVE RANKED DATA TO R VECTOR KRAN 600
���C KRAN 610
��� 10 DO 20 I=1,N KRAN 620
��� 20 R(I)=A(I) KRAN 630
��� DO 30 I=1,N KRAN 640
��� J=I+N KRAN 650
��� 30 R(J)=B(I) KRAN 660
���C KRAN 670
���C SORT RANK VECTOR R IN SEQUENCE OF VARIABLE A KRAN 680
���C KRAN 690
��� 40 ISORT=0 KRAN 700
��� DO 50 I=2,N KRAN 710
��� IF(R(I)-R(I-1)) 45,50,50 KRAN 720
��� 45 ISORT=ISORT+1 KRAN 730
��� RSAVE=R(I) KRAN 740
��� R(I)=R(I-1) KRAN 750
��� R(I-1)=RSAVE KRAN 760
��� I2=I+N KRAN 770
��� SAVER=R(I2) KRAN 780
��� R(I2)=R(I2-1) KRAN 790
��� R(I2-1)=SAVER KRAN 800
��� 50 CONTINUE KRAN 810
��� IF(ISORT) 40,55,40 KRAN 820
���C KRAN 830
���C COMPUTE S ON VARIABLE B. STARTING WITH THE FIRST RANK, ADD 1 KRAN 840
���C TO S FOR EACH LARGER RANK TO ITS RIGHT AND SUBTRACT 1 FOR EACH KRAN 850
���C SMALLER RANK. REPEAT FOR ALL RANKS. KRAN 860
���C KRAN 870
��� 55 S=0.0 KRAN 880
��� NM=N-1 KRAN 890
��� DO 60 I=1,NM KRAN 900
��� J=N+I KRAN 910
��� DO 60 L=I,N KRAN 920
��� K=N+L KRAN 930
��� IF(R(K)-R(J)) 56,60,57 KRAN 940
��� 56 S=S-1.0 KRAN 950
��� GO TO 60 KRAN 960
��� 57 S=S+1.0 KRAN 970
��� 60 CONTINUE KRAN 980
���C KRAN 990
���C COMPUTE TIED SCORE INDEX FOR BOTH VARIABLES KRAN1000
���C KRAN1010
��� KT=2 KRAN1020
��� CALL TIE(R,N,KT,TA) KRAN1030
��� CALL TIE(R(N+1),N,KT,TB) KRAN1040
���C KRAN1050
���C COMPUTE TAU KRAN1060
���C KRAN1070
��� IF(TA) 70,65,70 KRAN1080
��� 65 IF(TB) 70,67,70 KRAN1090
��� 67 TAU=S/(0.5*FN1) KRAN1100
��� GO TO 80 KRAN1110
��� 70 TAU=S/((SQRT(0.5*FN1-TA))*(SQRT(0.5*FN1-TB))) KRAN1120
���C KRAN1130
���C COMPUTE STANDARD DEVIATION AND Z IF N IS 10 OR LARGER KRAN1140
���C KRAN1150
��� 80 IF(N-10) 90,85,85 KRAN1160
��� 85 SD=(SQRT((2.0*(FN+FN+5.0))/(9.0*FN1))) KRAN1170
��� Z=TAU/SD KRAN1180
��� 90 RETURN KRAN1190
��� END KRAN1200
���