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decus_20tap2_198111
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decus/20-0026/sg13.ssp
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C SG13 10
C ..................................................................SG13 20
C SG13 30
C SUBROUTINE SG13 SG13 40
C SG13 50
C PURPOSE SG13 60
C TO COMPUTE A VECTOR OF SMOOTHED FUNCTION VALUES GIVEN SG13 70
C VECTORS OF ARGUMENT VALUES AND CORRESPONDING FUNCTION SG13 80
C VALUES. SG13 90
C SG13 100
C USAGE SG13 110
C CALL SG13(X,Y,Z,NDIM,IER) SG13 120
C SG13 130
C DESCRIPTION OF PARAMETERS SG13 140
C X - GIVEN VECTOR OF ARGUMENT VALUES (DIMENSION NDIM) SG13 150
C Y - GIVEN VECTOR OF FUNCTION VALUES CORRESPONDING TO X SG13 160
C (DIMENSION NDIM) SG13 170
C Z - RESULTING VECTOR OF SMOOTHED FUNCTION VALUES SG13 180
C (DIMENSION NDIM) SG13 190
C NDIM - DIMENSION OF VECTORS X,Y,AND Z SG13 200
C IER - RESULTING ERROR PARAMETER SG13 210
C IER = -1 - NDIM IS LESS THAN 3 SG13 220
C IER = 0 - NO ERROR SG13 230
C SG13 240
C REMARKS SG13 250
C (1) IF IER=-1 THERE HAS BEEN NO COMPUTATION. SG13 260
C (2) Z CAN HAVE THE SAME STORAGE ALLOCATION AS X OR Y. IF SG13 270
C X OR Y IS DISTINCT FROM Z, THEN IT IS NOT DESTROYED. SG13 280
C SG13 290
C SUBROUTINES AND SUBPROGRAMS REQUIRED SG13 300
C NONE SG13 310
C SG13 320
C METHOD SG13 330
C EXCEPT AT THE ENDPOINTS X(1) AND X(NDIM), EACH SMOOTHED SG13 340
C VALUE Z(I) IS OBTAINED BY EVALUATING AT X(I) THE LEAST- SG13 350
C SQUARES POLYNOMIAL OF DEGREE 1 RELEVANT TO THE 3 SUCCESSIVE SG13 360
C POINTS (X(I+K),Y(I+K)) K = -1,0,1.(SEE HILDEBRAND, F.B., SG13 370
C INTRODUCTION TO NUMERICAL ANALYSIS, MC GRAW-HILL, NEW YORK/SG13 380
C TORONTO/LONDON, 1956, PP.258-311.) SG13 390
C SG13 400
C ..................................................................SG13 410
C SG13 420
SUBROUTINE SG13(X,Y,Z,NDIM,IER) SG13 430
C SG13 440
C SG13 450
DIMENSION X(1),Y(1),Z(1) SG13 460
C SG13 470
C TEST OF DIMENSION SG13 480
IF(NDIM-3)7,1,1 SG13 490
C SG13 500
C START LOOP SG13 510
1 DO 6 I=3,NDIM SG13 520
XM=.3333333*(X(I-2)+X(I-1)+X(I)) SG13 530
YM=.3333333*(Y(I-2)+Y(I-1)+Y(I)) SG13 540
T1=X(I-2)-XM SG13 550
T2=X(I-1)-XM SG13 560
T3=X(I)-XM SG13 570
XM=T1*T1+T2*T2+T3*T3 SG13 580
IF(XM)3,3,2 SG13 590
2 XM=(T1*(Y(I-2)-YM)+T2*(Y(I-1)-YM)+T3*(Y(I)-YM))/XM SG13 600
C SG13 610
C CHECK FIRST POINT SG13 620
3 IF(I-3)4,4,5 SG13 630
4 H=XM*T1+YM SG13 640
5 Z(I-2)=H SG13 650
6 H=XM*T2+YM SG13 660
C END OF LOOP SG13 670
C SG13 680
C UPDATE LAST TWO COMPONENTS SG13 690
Z(NDIM-1)=H SG13 700
Z(NDIM)=XM*T3+YM SG13 710
IER=0 SG13 720
RETURN SG13 730
C SG13 740
C ERROR EXIT IN CASE NDIM IS LESS THAN 3 SG13 750
7 IER=-1 SG13 760
RETURN SG13 770
END SG13 780