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decuslib10-02
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43,50145/dse35.ssp
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C DSE3 10
���C ..................................................................DSE3 20
���C DSE3 30
���C SUBROUTINE DSE35 DSE3 40
���C DSE3 50
���C PURPOSE DSE3 60
���C TO COMPUTE A VECTOR OF SMOOTHED FUNCTION VALUES GIVEN A DSE3 70
���C VECTOR OF FUNCTION VALUES WHOSE ENTRIES CORRESPOND TO DSE3 80
���C EQUIDISTANTLY SPACED ARGUMENT VALUES. DSE3 90
���C DSE3 100
���C USAGE DSE3 110
���C CALL DSE35(Y,Z,NDIM,IER) DSE3 120
���C DSE3 130
���C DESCRIPTION OF PARAMETERS DSE3 140
���C Y - GIVEN VECTOR OF DOUBLE PRECISION FUNCTION VALUES DSE3 150
���C (DIMENSION NDIM) DSE3 160
���C Z - RESULTING VECTOR OF DOUBLE PRECISION SMOOTHED DSE3 170
���C FUNCTION VALUES (DIMENSION NDIM) DSE3 180
���C NDIM - DIMENSION OF VECTORS Y AND Z DSE3 190
���C IER - RESULTING ERROR PARAMETER DSE3 200
���C IER = -1 - NDIM IS LESS THAN 5 DSE3 210
���C IER = 0 - NO ERROR DSE3 220
���C DSE3 230
���C REMARKS DSE3 240
���C (1) IF IER=-1 THERE HAS BEEN NO COMPUTATION. DSE3 250
���C (2) Z CAN HAVE THE SAME STORAGE ALLOCATION AS Y. IF Y IS DSE3 260
���C DISTINCT FROM Z, THEN IT IS NOT DESTROYED. DSE3 270
���C DSE3 280
���C SUBROUTINE AND FUNCTION SUBPROGRAMS REQUIRED DSE3 290
���C NONE DSE3 300
���C DSE3 310
���C METHOD DSE3 320
���C IF X IS THE (SUPPRESSED) VECTOR OF ARGUMENT VALUES, THEN DSE3 330
���C EXCEPT AT THE POINTS X(1),X(2),X(NDIM-1) AND X(NDIM), EACH DSE3 340
���C SMOOTHED VALUE Z(I) IS OBTAINED BY EVALUATING AT X(I) THE DSE3 350
���C LEAST-SQUARES POLYNOMIAL OF DEGREE 3 RELEVANT TO THE 5 DSE3 360
���C SUCCESSIVE POINTS (X(I+K),Y(I+K)) K = -2,-1,...,2. (SEE DSE3 370
���C HILDEBRAND, F.B., INTRODUCTION TO NUMERICAL ANALYSIS, DSE3 380
���C MC GRAW-HILL, NEW YORK/TORONTO/LONDON, 1956, PP. 295-302.) DSE3 390
���C DSE3 400
���C ..................................................................DSE3 410
���C DSE3 420
��� SUBROUTINE DSE35(Y,Z,NDIM,IER) DSE3 430
���C DSE3 440
���C DSE3 450
��� DIMENSION Y(1),Z(1) DSE3 460
��� DOUBLE PRECISION Y,Z,A,B,C,D DSE3 470
���C DSE3 480
���C TEST OF DIMENSION DSE3 490
��� IF(NDIM-5)4,1,1 DSE3 500
���C DSE3 510
���C PREPARE LOOP DSE3 520
��� 1 B=Y(1) DSE3 530
��� C=Y(2) DSE3 540
���C DSE3 550
���C START LOOP DSE3 560
��� DO 3 I=5,NDIM DSE3 570
��� A=B DSE3 580
��� B=C DSE3 590
��� C=Y(I-2) DSE3 600
���C DSE3 610
���C GENERATE FOURTH CENTRAL DIFFERENCE DSE3 620
��� D=C-B-Y(I-1) DSE3 630
��� D=D+D+C DSE3 640
��� D=D+D+A+Y(I) DSE3 650
���C DSE3 660
���C CHECK FIRST TWO COMPONENTS DSE3 670
��� IF(I-5)2,2,3 DSE3 680
��� 2 Z(1)=A-.014285714285714286D0*D DSE3 690
��� Z(2)=B+.057142857142857143D0*D DSE3 700
��� 3 Z(I-2)=C-.08571428571428571D0*D DSE3 710
���C END OF LOOP DSE3 720
���C DSE3 730
���C UPDATE LAST TWO COMPONENTS DSE3 740
��� Z(NDIM-1)=Y(NDIM-1)+.057142857142857143D0*D DSE3 750
��� Z(NDIM)=Y(NDIM)-.014285714285714286D0*D DSE3 760
��� IER=0 DSE3 770
��� RETURN DSE3 780
���C DSE3 790
���C ERROR EXIT IN CASE NDIM IS LESS THAN 5 DSE3 800
��� 4 IER=-1 DSE3 810
��� RETURN DSE3 820
��� END DSE3 830