mirror of
https://git.planet-casio.com/Lephenixnoir/OpenLibm.git
synced 2024-12-29 13:03:42 +01:00
190 lines
5.6 KiB
Fortran
190 lines
5.6 KiB
Fortran
SUBROUTINE ZSERI(ZR, ZI, FNU, KODE, N, YR, YI, NZ, TOL, ELIM,
|
|
* ALIM)
|
|
C***BEGIN PROLOGUE ZSERI
|
|
C***REFER TO ZBESI,ZBESK
|
|
C
|
|
C ZSERI COMPUTES THE I BESSEL FUNCTION FOR REAL(Z).GE.0.0 BY
|
|
C MEANS OF THE POWER SERIES FOR LARGE CABS(Z) IN THE
|
|
C REGION CABS(Z).LE.2*SQRT(FNU+1). NZ=0 IS A NORMAL RETURN.
|
|
C NZ.GT.0 MEANS THAT THE LAST NZ COMPONENTS WERE SET TO ZERO
|
|
C DUE TO UNDERFLOW. NZ.LT.0 MEANS UNDERFLOW OCCURRED, BUT THE
|
|
C CONDITION CABS(Z).LE.2*SQRT(FNU+1) WAS VIOLATED AND THE
|
|
C COMPUTATION MUST BE COMPLETED IN ANOTHER ROUTINE WITH N=N-ABS(NZ).
|
|
C
|
|
C***ROUTINES CALLED DGAMLN,D1MACH,ZUCHK,ZABS,ZDIV,ZLOG,ZMLT
|
|
C***END PROLOGUE ZSERI
|
|
C COMPLEX AK1,CK,COEF,CONE,CRSC,CSCL,CZ,CZERO,HZ,RZ,S1,S2,Y,Z
|
|
DOUBLE PRECISION AA, ACZ, AK, AK1I, AK1R, ALIM, ARM, ASCLE, ATOL,
|
|
* AZ, CKI, CKR, COEFI, COEFR, CONEI, CONER, CRSCR, CZI, CZR, DFNU,
|
|
* ELIM, FNU, FNUP, HZI, HZR, RAZ, RS, RTR1, RZI, RZR, S, SS, STI,
|
|
* STR, S1I, S1R, S2I, S2R, TOL, YI, YR, WI, WR, ZEROI, ZEROR, ZI,
|
|
* ZR, DGAMLN, D1MACH, ZABS
|
|
INTEGER I, IB, IDUM, IFLAG, IL, K, KODE, L, M, N, NN, NZ, NW
|
|
DIMENSION YR(N), YI(N), WR(2), WI(2)
|
|
DATA ZEROR,ZEROI,CONER,CONEI / 0.0D0, 0.0D0, 1.0D0, 0.0D0 /
|
|
C
|
|
NZ = 0
|
|
AZ = ZABS(COMPLEX(ZR,ZI))
|
|
IF (AZ.EQ.0.0D0) GO TO 160
|
|
ARM = 1.0D+3*D1MACH(1)
|
|
RTR1 = DSQRT(ARM)
|
|
CRSCR = 1.0D0
|
|
IFLAG = 0
|
|
IF (AZ.LT.ARM) GO TO 150
|
|
HZR = 0.5D0*ZR
|
|
HZI = 0.5D0*ZI
|
|
CZR = ZEROR
|
|
CZI = ZEROI
|
|
IF (AZ.LE.RTR1) GO TO 10
|
|
CALL ZMLT(HZR, HZI, HZR, HZI, CZR, CZI)
|
|
10 CONTINUE
|
|
ACZ = ZABS(COMPLEX(CZR,CZI))
|
|
NN = N
|
|
CALL ZLOG(HZR, HZI, CKR, CKI, IDUM)
|
|
20 CONTINUE
|
|
DFNU = FNU + DBLE(FLOAT(NN-1))
|
|
FNUP = DFNU + 1.0D0
|
|
C-----------------------------------------------------------------------
|
|
C UNDERFLOW TEST
|
|
C-----------------------------------------------------------------------
|
|
AK1R = CKR*DFNU
|
|
AK1I = CKI*DFNU
|
|
AK = DGAMLN(FNUP,IDUM)
|
|
AK1R = AK1R - AK
|
|
IF (KODE.EQ.2) AK1R = AK1R - ZR
|
|
IF (AK1R.GT.(-ELIM)) GO TO 40
|
|
30 CONTINUE
|
|
NZ = NZ + 1
|
|
YR(NN) = ZEROR
|
|
YI(NN) = ZEROI
|
|
IF (ACZ.GT.DFNU) GO TO 190
|
|
NN = NN - 1
|
|
IF (NN.EQ.0) RETURN
|
|
GO TO 20
|
|
40 CONTINUE
|
|
IF (AK1R.GT.(-ALIM)) GO TO 50
|
|
IFLAG = 1
|
|
SS = 1.0D0/TOL
|
|
CRSCR = TOL
|
|
ASCLE = ARM*SS
|
|
50 CONTINUE
|
|
AA = DEXP(AK1R)
|
|
IF (IFLAG.EQ.1) AA = AA*SS
|
|
COEFR = AA*DCOS(AK1I)
|
|
COEFI = AA*DSIN(AK1I)
|
|
ATOL = TOL*ACZ/FNUP
|
|
IL = MIN0(2,NN)
|
|
DO 90 I=1,IL
|
|
DFNU = FNU + DBLE(FLOAT(NN-I))
|
|
FNUP = DFNU + 1.0D0
|
|
S1R = CONER
|
|
S1I = CONEI
|
|
IF (ACZ.LT.TOL*FNUP) GO TO 70
|
|
AK1R = CONER
|
|
AK1I = CONEI
|
|
AK = FNUP + 2.0D0
|
|
S = FNUP
|
|
AA = 2.0D0
|
|
60 CONTINUE
|
|
RS = 1.0D0/S
|
|
STR = AK1R*CZR - AK1I*CZI
|
|
STI = AK1R*CZI + AK1I*CZR
|
|
AK1R = STR*RS
|
|
AK1I = STI*RS
|
|
S1R = S1R + AK1R
|
|
S1I = S1I + AK1I
|
|
S = S + AK
|
|
AK = AK + 2.0D0
|
|
AA = AA*ACZ*RS
|
|
IF (AA.GT.ATOL) GO TO 60
|
|
70 CONTINUE
|
|
S2R = S1R*COEFR - S1I*COEFI
|
|
S2I = S1R*COEFI + S1I*COEFR
|
|
WR(I) = S2R
|
|
WI(I) = S2I
|
|
IF (IFLAG.EQ.0) GO TO 80
|
|
CALL ZUCHK(S2R, S2I, NW, ASCLE, TOL)
|
|
IF (NW.NE.0) GO TO 30
|
|
80 CONTINUE
|
|
M = NN - I + 1
|
|
YR(M) = S2R*CRSCR
|
|
YI(M) = S2I*CRSCR
|
|
IF (I.EQ.IL) GO TO 90
|
|
CALL ZDIV(COEFR, COEFI, HZR, HZI, STR, STI)
|
|
COEFR = STR*DFNU
|
|
COEFI = STI*DFNU
|
|
90 CONTINUE
|
|
IF (NN.LE.2) RETURN
|
|
K = NN - 2
|
|
AK = DBLE(FLOAT(K))
|
|
RAZ = 1.0D0/AZ
|
|
STR = ZR*RAZ
|
|
STI = -ZI*RAZ
|
|
RZR = (STR+STR)*RAZ
|
|
RZI = (STI+STI)*RAZ
|
|
IF (IFLAG.EQ.1) GO TO 120
|
|
IB = 3
|
|
100 CONTINUE
|
|
DO 110 I=IB,NN
|
|
YR(K) = (AK+FNU)*(RZR*YR(K+1)-RZI*YI(K+1)) + YR(K+2)
|
|
YI(K) = (AK+FNU)*(RZR*YI(K+1)+RZI*YR(K+1)) + YI(K+2)
|
|
AK = AK - 1.0D0
|
|
K = K - 1
|
|
110 CONTINUE
|
|
RETURN
|
|
C-----------------------------------------------------------------------
|
|
C RECUR BACKWARD WITH SCALED VALUES
|
|
C-----------------------------------------------------------------------
|
|
120 CONTINUE
|
|
C-----------------------------------------------------------------------
|
|
C EXP(-ALIM)=EXP(-ELIM)/TOL=APPROX. ONE PRECISION ABOVE THE
|
|
C UNDERFLOW LIMIT = ASCLE = D1MACH(1)*SS*1.0D+3
|
|
C-----------------------------------------------------------------------
|
|
S1R = WR(1)
|
|
S1I = WI(1)
|
|
S2R = WR(2)
|
|
S2I = WI(2)
|
|
DO 130 L=3,NN
|
|
CKR = S2R
|
|
CKI = S2I
|
|
S2R = S1R + (AK+FNU)*(RZR*CKR-RZI*CKI)
|
|
S2I = S1I + (AK+FNU)*(RZR*CKI+RZI*CKR)
|
|
S1R = CKR
|
|
S1I = CKI
|
|
CKR = S2R*CRSCR
|
|
CKI = S2I*CRSCR
|
|
YR(K) = CKR
|
|
YI(K) = CKI
|
|
AK = AK - 1.0D0
|
|
K = K - 1
|
|
IF (ZABS(COMPLEX(CKR,CKI)).GT.ASCLE) GO TO 140
|
|
130 CONTINUE
|
|
RETURN
|
|
140 CONTINUE
|
|
IB = L + 1
|
|
IF (IB.GT.NN) RETURN
|
|
GO TO 100
|
|
150 CONTINUE
|
|
NZ = N
|
|
IF (FNU.EQ.0.0D0) NZ = NZ - 1
|
|
160 CONTINUE
|
|
YR(1) = ZEROR
|
|
YI(1) = ZEROI
|
|
IF (FNU.NE.0.0D0) GO TO 170
|
|
YR(1) = CONER
|
|
YI(1) = CONEI
|
|
170 CONTINUE
|
|
IF (N.EQ.1) RETURN
|
|
DO 180 I=2,N
|
|
YR(I) = ZEROR
|
|
YI(I) = ZEROI
|
|
180 CONTINUE
|
|
RETURN
|
|
C-----------------------------------------------------------------------
|
|
C RETURN WITH NZ.LT.0 IF CABS(Z*Z/4).GT.FNU+N-NZ-1 COMPLETE
|
|
C THE CALCULATION IN CBINU WITH N=N-IABS(NZ)
|
|
C-----------------------------------------------------------------------
|
|
190 CONTINUE
|
|
NZ = -NZ
|
|
RETURN
|
|
END
|