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PDP-10 Archives
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decuslib10-02
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43,50145/jelf.ssp
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C JELF 10
���C ..................................................................JELF 20
���C JELF 30
���C SUBROUTINE JELF JELF 40
���C JELF 50
���C PURPOSE JELF 60
���C COMPUTES THE THREE JACOBIAN ELLIPTIC FUNCTIONS SN, CN, DN. JELF 70
���C JELF 80
���C USAGE JELF 90
���C CALL JELF(SN,CN,DN,X,SCK) JELF 100
���C JELF 110
���C DESCRIPTION OF PARAMETERS JELF 120
���C SN - RESULT VALUE SN(X) JELF 130
���C CN - RESULT VALUE CN(X) JELF 140
���C DN - RESULT VALUE DN(X) JELF 150
���C X - ARGUMENT OF JACOBIAN ELLIPTIC FUNCTIONS JELF 160
���C SCK - SQUARE OF COMPLEMENTARY MODULUS JELF 170
���C JELF 180
���C REMARKS JELF 190
���C NONE JELF 200
���C JELF 210
���C SUBROUTINES AND FUNCTION SUBPROGRAMS REQUIRED JELF 220
���C NONE JELF 230
���C JELF 240
���C METHOD JELF 250
���C DEFINITION JELF 260
���C X=INTEGRAL(1/SQRT((1-T*T)*(1-(K*T)**2)), SUMMED OVER JELF 270
���C T FROM 0 TO SN), WHERE K=SQRT(1-SCK). JELF 280
���C SN*SN + CN*CN = 1 JELF 290
���C (K*SN)**2 + DN**2 = 1. JELF 300
���C EVALUATION JELF 310
���C CALCULATION IS DONE USING THE PROCESS OF THE ARITHMETIC JELF 320
���C GEOMETRIC MEAN TOGETHER WITH GAUSS DESCENDING TRANSFORMATIONJELF 330
���C BEFORE INVERSION OF THE INTEGRAL TAKES PLACE. JELF 340
���C REFERENCE JELF 350
���C R. BULIRSCH, NUMERICAL CALCULATION OF ELLIPTIC INTEGRALS ANDJELF 360
���C ELLIPTIC FUNCTIOMS. JELF 370
���C HANDBOOK SERIES OF SPECIAL FUNCTIONS JELF 380
���C NUMERISCHE MATHEMATIK VOL. 7, 1965, PP. 78-90. JELF 390
���C JELF 400
���C ..................................................................JELF 410
���C JELF 420
��� SUBROUTINE JELF(SN,CN,DN,X,SCK) JELF 430
���C JELF 440
���C JELF 450
��� DIMENSION ARI(12),GEO(12) JELF 460
���C TEST MODULUS JELF 470
��� CM=SCK JELF 480
��� Y=X JELF 490
��� IF(SCK)3,1,4 JELF 500
��� 1 D=EXP(X) JELF 510
��� A=1./D JELF 520
��� B=A+D JELF 530
��� CN=2./B JELF 540
��� DN=CN JELF 550
��� SN=TANH(X) JELF 560
���C DEGENERATE CASE SCK=0 GIVES RESULTS JELF 570
���C CN X = DN X = 1/COSH X JELF 580
���C SN X = TANH X JELF 590
��� 2 RETURN JELF 600
���C JACOBIS MODULUS TRANSFORMATION JELF 610
��� 3 D=1.-SCK JELF 620
��� CM=-SCK/D JELF 630
��� D=SQRT(D) JELF 640
��� Y=D*X JELF 650
��� 4 A=1. JELF 660
��� DN=1. JELF 670
��� DO 6 I=1,12 JELF 680
��� L=I JELF 690
��� ARI(I)=A JELF 700
��� CM=SQRT(CM) JELF 710
��� GEO(I)=CM JELF 720
��� C=(A+CM)*.5 JELF 730
��� IF(ABS(A-CM)-1.E-4*A)7,7,5 JELF 740
��� 5 CM=A*CM JELF 750
��� 6 A=C JELF 760
���C JELF 770
���C START BACKWARD RECURSION JELF 780
��� 7 Y=C*Y JELF 790
��� SN=SIN(Y) JELF 800
��� CN=COS(Y) JELF 810
��� IF(SN)8,13,8 JELF 820
��� 8 A=CN/SN JELF 830
��� C=A*C JELF 840
��� DO 9 I=1,L JELF 850
��� K=L-I+1 JELF 860
��� B=ARI(K) JELF 870
��� A=C*A JELF 880
��� C=DN*C JELF 890
��� DN=(GEO(K)+A)/(B+A) JELF 900
��� 9 A=C/B JELF 910
��� A=1./SQRT(C*C+1.) JELF 920
��� IF(SN)10,11,11 JELF 930
��� 10 SN=-A JELF 940
��� GOTO 12 JELF 950
��� 11 SN=A JELF 960
��� 12 CN=C*SN JELF 970
��� 13 IF(SCK)14,2,2 JELF 980
��� 14 A=DN JELF 990
��� DN=CN JELF1000
��� CN=A JELF1010
��� SN=SN/D JELF1020
��� RETURN JELF1030
��� END JELF1040