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43,50145/dapch.ssp
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C DAPC 10
���C ..................................................................DAPC 20
���C DAPC 30
���C SUBROUTINE DAPCH DAPC 40
���C DAPC 50
���C PURPOSE DAPC 60
���C SET UP NORMAL EQUATIONS OF LEAST SQUARES FIT IN TERMS OF DAPC 70
���C CHEBYSHEV POLYNOMIALS FOR A GIVEN DISCRETE FUNCTION DAPC 80
���C DAPC 90
���C USAGE DAPC 100
���C CALL DAPCH(DATI,N,IP,XD,X0,WORK,IER) DAPC 110
���C DAPC 120
���C DESCRIPTION OF PARAMETERS DAPC 130
���C DATI - VECTOR OF DIMENSION 3*N (OR DIMENSION 2*N+1) DAPC 140
���C CONTAINING THE GIVEN ARGUMENTS, FOLLOWED BY THE DAPC 150
���C FUNCTION VALUES AND N (RESPECTIVELY 1) WEIGHT DAPC 160
���C VALUES. THE CONTENT OF VECTOR DATI REMAINS DAPC 170
���C UNCHANGED. DAPC 180
���C DATI MUST BE OF DOUBLE PRECISION DAPC 190
���C N - NUMBER OF GIVEN POINTS DAPC 200
���C IP - DIMENSION OF LEAST SQUARES FIT, I.E. NUMBER OF DAPC 210
���C CHEBYSHEV POLYNOMIALS USED AS FUNDAMENTAL FUNCTIONS DAPC 220
���C IP SHOULD NOT EXCEED N DAPC 230
���C XD - RESULTANT MULTIPLICATIVE CONSTANT FOR LINEAR DAPC 240
���C TRANSFORMATION OF ARGUMENT RANGE DAPC 250
���C XD MUST BE DOUBLE PRECISION DAPC 260
���C X0 - RESULTANT ADDITIVE CONSTANT FOR LINEAR DAPC 270
���C TRANSFORMATION OF ARGUMENT RANGE DAPC 280
���C X0 MUST BE DOUBLE PRECISION DAPC 290
���C WORK - WORKING STORAGE OF DIMENSION (IP+1)*(IP+2)/2 DAPC 300
���C ON RETURN WORK CONTAINS THE SYMMETRIC COEFFICIENT DAPC 310
���C MATRIX OF THE NORMAL EQUATIONS IN COMPRESSED FORM DAPC 320
���C FOLLOWED IMMEDIATELY BY RIGHT HAND SIDE DAPC 330
���C AND SQUARE SUM OF FUNCTION VALUES DAPC 340
���C WORK MUST BE OF DOUBLE PRECISION DAPC 350
���C IER - RESULTING ERROR PARAMETER DAPC 360
���C IER =-1 MEANS FORMAL ERRORS IN DIMENSION DAPC 370
���C IER = 0 MEANS NO ERRORS DAPC 380
���C IER = 1 MEANS COINCIDING ARGUMENTS DAPC 390
���C DAPC 400
���C REMARKS DAPC 410
���C NO WEIGHTS ARE USED IF THE VALUE OF DATI(2*N+1) IS DAPC 420
���C NOT POSITIVE. DAPC 430
���C EXECUTION OF SUBROUTINE DAPCH IS A PREPARATORY STEP FOR DAPC 440
���C CALCULATION OF LEAST SQUARES FITS IN CHEBYSHEV POLYNOMIALS DAPC 450
���C IT SHOULD BE FOLLOWED BY EXECUTION OF SUBROUTINE DAPFS DAPC 460
���C DAPC 470
���C SUBROUTINES AND FUNCTION SUBPROGRAMS REQUIRED DAPC 480
���C NONE DAPC 490
���C DAPC 500
���C METHOD DAPC 510
���C THE LEAST SQUARE FIT IS DETERMINED USING CHEBYSHEV DAPC 520
���C POLYNOMIALS AS FUNDAMENTAL FUNCTION SYSTEM. DAPC 530
���C THE METHOD IS DISCUSSED IN THE ARTICLE DAPC 540
���C A.T.BERZTISS, LEAST SQUARES FITTING TO IRREGULARLY SPACED DAPC 550
���C DATA, SIAM REVIEW, VOL.6, ISS.3, 1964, PP. 203-227. DAPC 560
���C DAPC 570
���C ..................................................................DAPC 580
���C DAPC 590
��� SUBROUTINE DAPCH(DATI,N,IP,XD,X0,WORK,IER) DAPC 600
���C DAPC 610
���C DAPC 620
���C DIMENSIONED DUMMY VARIABLES DAPC 630
��� DIMENSION DATI(1),WORK(1) DAPC 640
��� DOUBLE PRECISION DATI,WORK,XD,X0,XA,XE,XM,DF,T,SUM DAPC 650
���C DAPC 660
���C CHECK FOR FORMAL ERRORS IN SPECIFIED DIMENSIONS DAPC 670
��� IF(N-1)19,20,1 DAPC 680
��� 1 IF(IP)19,19,2 DAPC 690
���C DAPC 700
���C SEARCH SMALLEST AND LARGEST ARGUMENT DAPC 710
��� 2 IF(IP-N)3,3,19 DAPC 720
��� 3 XA=DATI(1) DAPC 730
��� X0=XA DAPC 740
��� XE=0.D0 DAPC 750
��� DO 7 I=1,N DAPC 760
��� XM=DATI(I) DAPC 770
��� IF(XA-XM)5,5,4 DAPC 780
��� 4 XA=XM DAPC 790
��� 5 IF(X0-XM)6,7,7 DAPC 800
��� 6 X0=XM DAPC 810
��� 7 CONTINUE DAPC 820
���C DAPC 830
���C INITIALIZE CALCULATION OF NORMAL EQUATIONS DAPC 840
��� XD=X0-XA DAPC 850
��� M=(IP*(IP+1))/2 DAPC 860
��� IEND=M+IP+1 DAPC 870
��� MT2=IP+IP DAPC 880
��� MT2M=MT2-1 DAPC 890
���C DAPC 900
���C SET WORKING STORAGE AND RIGHT HAND SIDE TO ZERO DAPC 910
��� DO 8 I=1,IP DAPC 920
��� J=MT2-I DAPC 930
��� WORK(J)=0.D0 DAPC 940
��� WORK(I)=0.D0 DAPC 950
��� K=M+I DAPC 960
��� 8 WORK(K)=0.D0 DAPC 970
���C DAPC 980
���C CHECK FOR DEGENERATE ARGUMENT RANGE DAPC 990
��� IF(XD)20,20,9 DAPC1000
���C DAPC1010
���C CALCULATE CONSTANTS FOR REDUCTION OF ARGUMENTS DAPC1020
��� 9 X0=-(X0+XA)/XD DAPC1030
��� XD=2.D0/XD DAPC1040
��� SUM=0.D0 DAPC1050
���C DAPC1060
���C START GREAT LOOP OVER ALL GIVEN POINTS DAPC1070
��� DO 15 I=1,N DAPC1080
��� T=DATI(I)*XD+X0 DAPC1090
��� J=I+N DAPC1100
��� DF=DATI(J) DAPC1110
���C DAPC1120
���C CALCULATE AND STORE VALUES OF CHEBYSHEV POLYNOMIALS DAPC1130
���C FOR ARGUMENT T DAPC1140
��� XA=1.D0 DAPC1150
��� XM=T DAPC1160
��� IF(DATI(2*N+1))11,11,10 DAPC1170
��� 10 J=J+N DAPC1180
��� XA=DATI(J) DAPC1190
��� XM=T*XA DAPC1200
��� 11 T=T+T DAPC1210
��� SUM=SUM+DF*DF*XA DAPC1220
��� DF=DF+DF DAPC1230
��� J=1 DAPC1240
��� 12 K=M+J DAPC1250
��� WORK(K)=WORK(K)+DF*XA DAPC1260
��� 13 WORK(J)=WORK(J)+XA DAPC1270
��� IF(J-MT2M)14,15,15 DAPC1280
��� 14 J=J+1 DAPC1290
��� XE=T*XM-XA DAPC1300
��� XA=XM DAPC1310
��� XM=XE DAPC1320
��� IF(J-IP)12,12,13 DAPC1330
��� 15 CONTINUE DAPC1340
��� WORK(IEND)=SUM+SUM DAPC1350
���C DAPC1360
���C CALCULATE MATRIX OF NORMAL EQUATIONS DAPC1370
��� LL=M DAPC1380
��� KK=MT2M DAPC1390
��� JJ=1 DAPC1400
��� K=KK DAPC1410
��� DO 18 J=1,M DAPC1420
��� WORK(LL)=WORK(K)+WORK(JJ) DAPC1430
��� LL=LL-1 DAPC1440
��� IF(K-JJ)16,16,17 DAPC1450
��� 16 KK=KK-2 DAPC1460
��� K=KK DAPC1470
��� JJ=1 DAPC1480
��� GOTO 18 DAPC1490
��� 17 JJ=JJ+1 DAPC1500
��� K=K-1 DAPC1510
��� 18 CONTINUE DAPC1520
��� IER=0 DAPC1530
��� RETURN DAPC1540
���C DAPC1550
���C ERROR RETURN IN CASE OF FORMAL ERRORS DAPC1560
��� 19 IER=-1 DAPC1570
��� RETURN DAPC1580
���C DAPC1590
���C ERROR RETURN IN CASE OF COINCIDING ARGUMENTS DAPC1600
��� 20 IER=1 DAPC1610
��� RETURN DAPC1620
��� END DAPC1630