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43,50145/dmatx.ssp
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C DMAT 10
C ..................................................................DMAT 20
C DMAT 30
C SUBROUTINE DMATX DMAT 40
C DMAT 50
C PURPOSE DMAT 60
C COMPUTE MEANS OF VARIABLES IN EACH GROUP AND A POOLED DMAT 70
C DISPERSION MATRIX FOR ALL THE GROUPS. NORMALLY THIS SUB- DMAT 80
C ROUTINE IS USED IN THE PERFORMANCE OF DISCRIMINANT ANALYSIS.DMAT 90
C DMAT 100
C USAGE DMAT 110
C CALL DMATX (K,M,N,X,XBAR,D,CMEAN) DMAT 120
C DMAT 130
C DESCRIPTION OF PARAMETERS DMAT 140
C K - NUMBER OF GROUPS DMAT 150
C M - NUMBER OF VARIABLES (MUST BE THE SAME FOR ALL DMAT 160
C GROUPS). DMAT 170
C N - INPUT VECTOR OF LENGTH K CONTAINING SAMPLE SIZES OF DMAT 180
C GROUPS. DMAT 190
C X - INPUT VECTOR CONTAINING DATA IN THE MANNER EQUIVA- DMAT 200
C LENT TO A 3-DIMENSIONAL FORTRAN ARRAY, X(1,1,1), DMAT 210
C X(2,1,1), X(3,1,1), ETC. THE FIRST SUBSCRIPT IS DMAT 220
C CASE NUMBER, THE SECOND SUBSCRIPT IS VARIABLE NUMBERDMAT 230
C AND THE THIRD SUBSCRIPT IS GROUP NUMBER. THE DMAT 240
C LENGTH OF VECTOR X IS EQUAL TO THE TOTAL NUMBER OF DMAT 250
C DATA POINTS, T*M, WHERE T = N(1)+N(2)+...+N(K). DMAT 260
C XBAR - OUTPUT MATRIX (M X K) CONTAINING MEANS OF VARIABLES DMAT 270
C IN K GROUPS. DMAT 280
C D - OUTPUT MATRIX (M X M) CONTAINING POOLED DISPERSION. DMAT 290
C CMEAN - WORKING VECTOR OF LENGTH M. DMAT 300
C DMAT 310
C REMARKS DMAT 320
C THE NUMBER OF VARIABLES MUST BE GREATER THAN OR EQUAL TO DMAT 330
C THE NUMBER OF GROUPS. DMAT 340
C DMAT 350
C SUBROUTINES AND FUNCTION SUBPROGRAMS REQUIRED DMAT 360
C NONE DMAT 370
C DMAT 380
C METHOD DMAT 390
C REFER TO 'BMD COMPUTER PROGRAMS MANUAL', EDITED BY W. J. DMAT 400
C DIXON, UCLA, 1964, AND T. W. ANDERSON, 'INTRODUCTION TO DMAT 410
C MULTIVARIATE STATISTICAL ANALYSIS', JOHN WILEY AND SONS, DMAT 420
C 1958, SECTION 6.6-6.8. DMAT 430
C DMAT 440
C ..................................................................DMAT 450
C DMAT 460
SUBROUTINE DMATX (K,M,N,X,XBAR,D,CMEAN) DMAT 470
DIMENSION N(1),X(1),XBAR(1),D(1),CMEAN(1) DMAT 480
C DMAT 490
C ...............................................................DMAT 500
C DMAT 510
C IF A DOUBLE PRECISION VERSION OF THIS ROUTINE IS DESIRED, THE DMAT 520
C C IN COLUMN 1 SHOULD BE REMOVED FROM THE DOUBLE PRECISION DMAT 530
C STATEMENT WHICH FOLLOWS. DMAT 540
C DMAT 550
C DOUBLE PRECISION XBAR,D,CMEAN DMAT 560
C DMAT 570
C THE C MUST ALSO BE REMOVED FROM DOUBLE PRECISION STATEMENTS DMAT 580
C APPEARING IN OTHER ROUTINES USED IN CONJUNCTION WITH THIS DMAT 590
C ROUTINE. DMAT 600
C DMAT 610
C ...............................................................DMAT 620
C DMAT 630
C INITIALIZATION DMAT 640
C DMAT 650
MM=M*M DMAT 660
DO 100 I=1,MM DMAT 670
100 D(I)=0.0 DMAT 680
C DMAT 690
C CALCULATE MEANS DMAT 700
C DMAT 710
N4=0 DMAT 720
L=0 DMAT 730
LM=0 DMAT 740
DO 160 NG=1,K DMAT 750
N1=N(NG) DMAT 760
FN=N1 DMAT 770
DO 130 J=1,M DMAT 780
LM=LM+1 DMAT 790
XBAR(LM)=0.0 DMAT 800
DO 120 I=1,N1 DMAT 810
L=L+1 DMAT 820
120 XBAR(LM)=XBAR(LM)+X(L) DMAT 830
130 XBAR(LM)=XBAR(LM)/FN DMAT 840
C DMAT 850
C CALCULATE SUMS OF CROSS-PRODUCTS OF DEVIATIONS DMAT 860
C DMAT 870
LMEAN=LM-M DMAT 880
DO 150 I=1,N1 DMAT 890
LL=N4+I-N1 DMAT 900
DO 140 J=1,M DMAT 910
LL=LL+N1 DMAT 920
N2=LMEAN+J DMAT 930
140 CMEAN(J)=X(LL)-XBAR(N2) DMAT 940
LL=0 DMAT 950
DO 150 J=1,M DMAT 960
DO 150 JJ=1,M DMAT 970
LL=LL+1 DMAT 980
150 D(LL)=D(LL)+CMEAN(J)*CMEAN(JJ) DMAT 990
160 N4=N4+N1*M DMAT1000
C DMAT1010
C CALCULATE THE POOLED DISPERSION MATRIX DMAT1020
C DMAT1030
LL=-K DMAT1040
DO 170 I=1,K DMAT1050
170 LL=LL+N(I) DMAT1060
FN=LL DMAT1070
DO 180 I=1,MM DMAT1080
180 D(I)=D(I)/FN DMAT1090
C DMAT1100
RETURN DMAT1110
END DMAT1120