Trailing-Edge
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PDP-10 Archives
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decuslib20-02
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decus/20-0026/frat.ssp
There are 2 other files named frat.ssp in the archive. Click here to see a list.
C FRAT 10
���C ..................................................................FRAT 20
���C FRAT 30
���C SUBROUTINE FRAT FRAT 40
���C FRAT 50
���C PURPOSE FRAT 60
���C FRAT IS USED FOR HANDLING OF DATA AND FUNDAMENTAL FUNCTIONS FRAT 70
���C WITH RATIONAL APPROXIMATION. IT IS A SUBSTANTIAL PART OF FRAT 80
���C RATIONAL APPROXIMATION AND HAS NO MEANING INDEPENDENTLY FRAT 90
���C FRAT 100
���C USAGE FRAT 110
���C CALL FRAT(I,N,M,P,DATI,WGT,IER) FRAT 120
���C FRAT 130
���C DESCRIPTION OF PARAMETERS FRAT 140
���C I - SUBSCRIPT OF CURRENT DATA POINT FRAT 150
���C N - NUMBER OF ALL DATA POINTS FRAT 160
���C M - NUMBER OF FUNDAMENTAL FUNCTIONS USED FRAT 170
���C P - ARRAY OF DIMENSION M+1 AT LEAST, WHICH CONTAINS FRAT 180
���C ON RETURN THE VALUES OF THE M FUNDAMENTAL FRAT 190
���C FUNCTIONS, FOLLOWED BY CURRENT FUNCTION VALUE FRAT 200
���C DATI - ARRAY CONTAINING GIVEN N ARGUMENTS, FOLLOWED FRAT 210
���C BY N FUNCTION VALUES AND FINALLY BY 1 RESPECTIVELY FRAT 220
���C N WEIGHT VALUES FRAT 230
���C WGT - RESULTANT WEIGHT FACTOR USED FOR I-TH TERM FRAT 240
���C IER - RESULTANT ERROR PARAMETER, COMBINED WITH INPUT FRAT 250
���C VALUES FOR CONTROL FRAT 260
���C IER(2) MEANS DIMENSION OF NUMERATOR FRAT 270
���C IER(3) MEANS DIMENSION OF DENOMINATOR FRAT 280
���C IER(1) IS USED AS RESULTANT ERROR PARAMETER, FRAT 290
���C IER(1) = 0 IN CASE OF NO ERRORS FRAT 300
���C IER(1) = 1 OTHERWISE (ZERO DENOMINATOR) FRAT 310
���C FRAT 320
���C REMARKS FRAT 330
���C VECTOR IER IS USED FOR COMMUNICATION BETWEEN ARAT AND FRAT FRAT 340
���C FRAT 350
���C SUBROUTINES AND FUNCTION SUBPROGRAMS REQUIRED FRAT 360
���C CNP FRAT 370
���C FRAT 380
���C METHOD FRAT 390
���C CF. MATHEMATICAL DESCRIPTION OF SUBROUTINE ARAT FRAT 400
���C FRAT 410
���C ..................................................................FRAT 420
���C FRAT 430
��� SUBROUTINE FRAT(I,N,M,P,DATI,WGT,IER) FRAT 440
���C FRAT 450
���C FRAT 460
���C DIMENSIONED DUMMY VARIABLES FRAT 470
��� DIMENSION P(1),DATI(1),IER(1) FRAT 480
���C FRAT 490
���C INITIALIZATION FRAT 500
��� IP=IER(2) FRAT 510
��� IQ=IER(3) FRAT 520
��� IQM1=IQ-1 FRAT 530
��� IPQ=IP+IQ FRAT 540
���C FRAT 550
���C LOOK UP ARGUMENT, FUNCTION VALUE AND WEIGHT FRAT 560
���C LOOK UP NUMERATOR AND DENOMINATOR FRAT 570
��� T=DATI(I) FRAT 580
��� J=I+N FRAT 590
��� F=DATI(J) FRAT 600
��� FNUM=P(J) FRAT 610
��� J=J+N FRAT 620
��� WGT=1. FRAT 630
��� IF(DATI(2*N+1))2,2,1 FRAT 640
��� 1 WGT=DATI(J) FRAT 650
��� 2 FDEN=P(J) FRAT 660
���C FRAT 670
���C CALCULATE FUNCTION VALUE USED FRAT 680
��� F=F*FDEN-FNUM FRAT 690
���C FRAT 700
���C CHECK FOR ZERO DENOMINATOR FRAT 710
��� IF(FDEN)4,3,4 FRAT 720
���C FRAT 730
���C ERROR RETURN IN CASE OF ZERO DENOMINATOR FRAT 740
��� 3 IER(1)=1 FRAT 750
��� RETURN FRAT 760
���C FRAT 770
���C CALCULATE WEIGHT FACTORS USED FRAT 780
��� 4 WGT=WGT/(FDEN*FDEN) FRAT 790
��� FNUM=-FNUM/FDEN FRAT 800
���C FRAT 810
���C CALCULATE FUNDAMENTAL FUNCTIONS FRAT 820
��� J=IQM1 FRAT 830
��� IF(IP-IQ)6,6,5 FRAT 840
��� 5 J=IP-1 FRAT 850
��� 6 CALL CNP(P(IQ),T,J) FRAT 860
���C FRAT 870
���C STORE VALUES OF DENOMINATOR FUNDAMENTAL FUNCTIONS FRAT 880
��� 7 IF(IQM1)10,10,8 FRAT 890
��� 8 DO 9 II=1,IQM1 FRAT 900
��� J=II+IQ FRAT 910
��� 9 P(II)=P(J)*FNUM FRAT 920
���C FRAT 930
���C STORE FUNCTION VALUE FRAT 940
��� 10 P(IPQ)=F FRAT 950
���C FRAT 960
���C NORMAL RETURN FRAT 970
��� IER(1)=0 FRAT 980
��� RETURN FRAT 990
��� END FRAT1000
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