qpms/amos/zuoik.f

      SUBROUTINE ZUOIK(ZR, ZI, FNU, KODE, IKFLG, N, YR, YI, NUF, TOL,
     * ELIM, ALIM)
C***BEGIN PROLOGUE  ZUOIK
C***REFER TO  ZBESI,ZBESK,ZBESH
C
C     ZUOIK COMPUTES THE LEADING TERMS OF THE UNIFORM ASYMPTOTIC
C     EXPANSIONS FOR THE I AND K FUNCTIONS AND COMPARES THEM
C     (IN LOGARITHMIC FORM) TO ALIM AND ELIM FOR OVER AND UNDERFLOW
C     WHERE ALIM.LT.ELIM. IF THE MAGNITUDE, BASED ON THE LEADING
C     EXPONENTIAL, IS LESS THAN ALIM OR GREATER THAN -ALIM, THEN
C     THE RESULT IS ON SCALE. IF NOT, THEN A REFINED TEST USING OTHER
C     MULTIPLIERS (IN LOGARITHMIC FORM) IS MADE BASED ON ELIM. HERE
C     EXP(-ELIM)=SMALLEST MACHINE NUMBER*1.0E+3 AND EXP(-ALIM)=
C     EXP(-ELIM)/TOL
C
C     IKFLG=1 MEANS THE I SEQUENCE IS TESTED
C          =2 MEANS THE K SEQUENCE IS TESTED
C     NUF = 0 MEANS THE LAST MEMBER OF THE SEQUENCE IS ON SCALE
C         =-1 MEANS AN OVERFLOW WOULD OCCUR
C     IKFLG=1 AND NUF.GT.0 MEANS THE LAST NUF Y VALUES WERE SET TO ZERO
C             THE FIRST N-NUF VALUES MUST BE SET BY ANOTHER ROUTINE
C     IKFLG=2 AND NUF.EQ.N MEANS ALL Y VALUES WERE SET TO ZERO
C     IKFLG=2 AND 0.LT.NUF.LT.N NOT CONSIDERED. Y MUST BE SET BY
C             ANOTHER ROUTINE
C
C***ROUTINES CALLED  ZUCHK,ZUNHJ,ZUNIK,D1MACH,AZABS,AZLOG
C***END PROLOGUE  ZUOIK
C     COMPLEX ARG,ASUM,BSUM,CWRK,CZ,CZERO,PHI,SUM,Y,Z,ZB,ZETA1,ZETA2,ZN,
C    *ZR
      DOUBLE PRECISION AARG, AIC, ALIM, APHI, ARGI, ARGR, ASUMI, ASUMR,
     * ASCLE, AX, AY, BSUMI, BSUMR, CWRKI, CWRKR, CZI, CZR, ELIM, FNN,
     * FNU, GNN, GNU, PHII, PHIR, RCZ, STR, STI, SUMI, SUMR, TOL, YI,
     * YR, ZBI, ZBR, ZEROI, ZEROR, ZETA1I, ZETA1R, ZETA2I, ZETA2R, ZI,
     * ZNI, ZNR, ZR, ZRI, ZRR, D1MACH, AZABS
      INTEGER I, IDUM, IFORM, IKFLG, INIT, KODE, N, NN, NUF, NW
      DIMENSION YR(N), YI(N), CWRKR(16), CWRKI(16)
      DATA ZEROR,ZEROI / 0.0D0, 0.0D0 /
      DATA AIC / 1.265512123484645396D+00 /
      NUF = 0
      NN = N
      ZRR = ZR
      ZRI = ZI
      IF (ZR.GE.0.0D0) GO TO 10
      ZRR = -ZR
      ZRI = -ZI
   10 CONTINUE
      ZBR = ZRR
      ZBI = ZRI
      AX = DABS(ZR)*1.7321D0
      AY = DABS(ZI)
      IFORM = 1
      IF (AY.GT.AX) IFORM = 2
      GNU = DMAX1(FNU,1.0D0)
      IF (IKFLG.EQ.1) GO TO 20
      FNN = DBLE(FLOAT(NN))
      GNN = FNU + FNN - 1.0D0
      GNU = DMAX1(GNN,FNN)
   20 CONTINUE
C-----------------------------------------------------------------------
C     ONLY THE MAGNITUDE OF ARG AND PHI ARE NEEDED ALONG WITH THE
C     REAL PARTS OF ZETA1, ZETA2 AND ZB. NO ATTEMPT IS MADE TO GET
C     THE SIGN OF THE IMAGINARY PART CORRECT.
C-----------------------------------------------------------------------
      IF (IFORM.EQ.2) GO TO 30
      INIT = 0
      CALL ZUNIK(ZRR, ZRI, GNU, IKFLG, 1, TOL, INIT, PHIR, PHII,
     * ZETA1R, ZETA1I, ZETA2R, ZETA2I, SUMR, SUMI, CWRKR, CWRKI)
      CZR = -ZETA1R + ZETA2R
      CZI = -ZETA1I + ZETA2I
      GO TO 50
   30 CONTINUE
      ZNR = ZRI
      ZNI = -ZRR
      IF (ZI.GT.0.0D0) GO TO 40
      ZNR = -ZNR
   40 CONTINUE
      CALL ZUNHJ(ZNR, ZNI, GNU, 1, TOL, PHIR, PHII, ARGR, ARGI, ZETA1R,
     * ZETA1I, ZETA2R, ZETA2I, ASUMR, ASUMI, BSUMR, BSUMI)
      CZR = -ZETA1R + ZETA2R
      CZI = -ZETA1I + ZETA2I
      AARG = AZABS(ARGR,ARGI)
   50 CONTINUE
      IF (KODE.EQ.1) GO TO 60
      CZR = CZR - ZBR
      CZI = CZI - ZBI
   60 CONTINUE
      IF (IKFLG.EQ.1) GO TO 70
      CZR = -CZR
      CZI = -CZI
   70 CONTINUE
      APHI = AZABS(PHIR,PHII)
      RCZ = CZR
C-----------------------------------------------------------------------
C     OVERFLOW TEST
C-----------------------------------------------------------------------
      IF (RCZ.GT.ELIM) GO TO 210
      IF (RCZ.LT.ALIM) GO TO 80
      RCZ = RCZ + DLOG(APHI)
      IF (IFORM.EQ.2) RCZ = RCZ - 0.25D0*DLOG(AARG) - AIC
      IF (RCZ.GT.ELIM) GO TO 210
      GO TO 130
   80 CONTINUE
C-----------------------------------------------------------------------
C     UNDERFLOW TEST
C-----------------------------------------------------------------------
      IF (RCZ.LT.(-ELIM)) GO TO 90
      IF (RCZ.GT.(-ALIM)) GO TO 130
      RCZ = RCZ + DLOG(APHI)
      IF (IFORM.EQ.2) RCZ = RCZ - 0.25D0*DLOG(AARG) - AIC
      IF (RCZ.GT.(-ELIM)) GO TO 110
   90 CONTINUE
      DO 100 I=1,NN
        YR(I) = ZEROR
        YI(I) = ZEROI
  100 CONTINUE
      NUF = NN
      RETURN
  110 CONTINUE
      ASCLE = 1.0D+3*D1MACH(1)/TOL
      CALL AZLOG(PHIR, PHII, STR, STI, IDUM)
      CZR = CZR + STR
      CZI = CZI + STI
      IF (IFORM.EQ.1) GO TO 120
      CALL AZLOG(ARGR, ARGI, STR, STI, IDUM)
      CZR = CZR - 0.25D0*STR - AIC
      CZI = CZI - 0.25D0*STI
  120 CONTINUE
      AX = DEXP(RCZ)/TOL
      AY = CZI
      CZR = AX*DCOS(AY)
      CZI = AX*DSIN(AY)
      CALL ZUCHK(CZR, CZI, NW, ASCLE, TOL)
      IF (NW.NE.0) GO TO 90
  130 CONTINUE
      IF (IKFLG.EQ.2) RETURN
      IF (N.EQ.1) RETURN
C-----------------------------------------------------------------------
C     SET UNDERFLOWS ON I SEQUENCE
C-----------------------------------------------------------------------
  140 CONTINUE
      GNU = FNU + DBLE(FLOAT(NN-1))
      IF (IFORM.EQ.2) GO TO 150
      INIT = 0
      CALL ZUNIK(ZRR, ZRI, GNU, IKFLG, 1, TOL, INIT, PHIR, PHII,
     * ZETA1R, ZETA1I, ZETA2R, ZETA2I, SUMR, SUMI, CWRKR, CWRKI)
      CZR = -ZETA1R + ZETA2R
      CZI = -ZETA1I + ZETA2I
      GO TO 160
  150 CONTINUE
      CALL ZUNHJ(ZNR, ZNI, GNU, 1, TOL, PHIR, PHII, ARGR, ARGI, ZETA1R,
     * ZETA1I, ZETA2R, ZETA2I, ASUMR, ASUMI, BSUMR, BSUMI)
      CZR = -ZETA1R + ZETA2R
      CZI = -ZETA1I + ZETA2I
      AARG = AZABS(ARGR,ARGI)
  160 CONTINUE
      IF (KODE.EQ.1) GO TO 170
      CZR = CZR - ZBR
      CZI = CZI - ZBI
  170 CONTINUE
      APHI = AZABS(PHIR,PHII)
      RCZ = CZR
      IF (RCZ.LT.(-ELIM)) GO TO 180
      IF (RCZ.GT.(-ALIM)) RETURN
      RCZ = RCZ + DLOG(APHI)
      IF (IFORM.EQ.2) RCZ = RCZ - 0.25D0*DLOG(AARG) - AIC
      IF (RCZ.GT.(-ELIM)) GO TO 190
  180 CONTINUE
      YR(NN) = ZEROR
      YI(NN) = ZEROI
      NN = NN - 1
      NUF = NUF + 1
      IF (NN.EQ.0) RETURN
      GO TO 140
  190 CONTINUE
      ASCLE = 1.0D+3*D1MACH(1)/TOL
      CALL AZLOG(PHIR, PHII, STR, STI, IDUM)
      CZR = CZR + STR
      CZI = CZI + STI
      IF (IFORM.EQ.1) GO TO 200
      CALL AZLOG(ARGR, ARGI, STR, STI, IDUM)
      CZR = CZR - 0.25D0*STR - AIC
      CZI = CZI - 0.25D0*STI
  200 CONTINUE
      AX = DEXP(RCZ)/TOL
      AY = CZI
      CZR = AX*DCOS(AY)
      CZI = AX*DSIN(AY)
      CALL ZUCHK(CZR, CZI, NW, ASCLE, TOL)
      IF (NW.NE.0) GO TO 180
      RETURN
  210 CONTINUE
      NUF = -1
      RETURN
      END
Add AMOS routines from netlib Former-commit-id: c6fe0e468937daa36fe5f6692af5d24d4df3f851 2019-03-19 16:42:47 +02:00			`SUBROUTINE ZUOIK(ZR, ZI, FNU, KODE, IKFLG, N, YR, YI, NUF, TOL,`
			`* ELIM, ALIM)`
			`C***BEGIN PROLOGUE ZUOIK`
			`C***REFER TO ZBESI,ZBESK,ZBESH`
			`C`
			`C ZUOIK COMPUTES THE LEADING TERMS OF THE UNIFORM ASYMPTOTIC`
			`C EXPANSIONS FOR THE I AND K FUNCTIONS AND COMPARES THEM`
			`C (IN LOGARITHMIC FORM) TO ALIM AND ELIM FOR OVER AND UNDERFLOW`
			`C WHERE ALIM.LT.ELIM. IF THE MAGNITUDE, BASED ON THE LEADING`
			`C EXPONENTIAL, IS LESS THAN ALIM OR GREATER THAN -ALIM, THEN`
			`C THE RESULT IS ON SCALE. IF NOT, THEN A REFINED TEST USING OTHER`
			`C MULTIPLIERS (IN LOGARITHMIC FORM) IS MADE BASED ON ELIM. HERE`
			`C EXP(-ELIM)=SMALLEST MACHINE NUMBER*1.0E+3 AND EXP(-ALIM)=`
			`C EXP(-ELIM)/TOL`
			`C`
			`C IKFLG=1 MEANS THE I SEQUENCE IS TESTED`
			`C =2 MEANS THE K SEQUENCE IS TESTED`
			`C NUF = 0 MEANS THE LAST MEMBER OF THE SEQUENCE IS ON SCALE`
			`C =-1 MEANS AN OVERFLOW WOULD OCCUR`
			`C IKFLG=1 AND NUF.GT.0 MEANS THE LAST NUF Y VALUES WERE SET TO ZERO`
			`C THE FIRST N-NUF VALUES MUST BE SET BY ANOTHER ROUTINE`
			`C IKFLG=2 AND NUF.EQ.N MEANS ALL Y VALUES WERE SET TO ZERO`
			`C IKFLG=2 AND 0.LT.NUF.LT.N NOT CONSIDERED. Y MUST BE SET BY`
			`C ANOTHER ROUTINE`
			`C`
Replace original netlib amos routines with those in scipy. Note: apparently, one could also use amos from openspecfun https://github.com/JuliaMath/openspecfun Former-commit-id: 77d61fe6486803684201480410021fd173172cc0 2019-03-20 12:25:42 +02:00			`C***ROUTINES CALLED ZUCHK,ZUNHJ,ZUNIK,D1MACH,AZABS,AZLOG`
Add AMOS routines from netlib Former-commit-id: c6fe0e468937daa36fe5f6692af5d24d4df3f851 2019-03-19 16:42:47 +02:00			`C***END PROLOGUE ZUOIK`
			`C COMPLEX ARG,ASUM,BSUM,CWRK,CZ,CZERO,PHI,SUM,Y,Z,ZB,ZETA1,ZETA2,ZN,`
			`C *ZR`
			`DOUBLE PRECISION AARG, AIC, ALIM, APHI, ARGI, ARGR, ASUMI, ASUMR,`
			`* ASCLE, AX, AY, BSUMI, BSUMR, CWRKI, CWRKR, CZI, CZR, ELIM, FNN,`
			`* FNU, GNN, GNU, PHII, PHIR, RCZ, STR, STI, SUMI, SUMR, TOL, YI,`
			`* YR, ZBI, ZBR, ZEROI, ZEROR, ZETA1I, ZETA1R, ZETA2I, ZETA2R, ZI,`
Replace original netlib amos routines with those in scipy. Note: apparently, one could also use amos from openspecfun https://github.com/JuliaMath/openspecfun Former-commit-id: 77d61fe6486803684201480410021fd173172cc0 2019-03-20 12:25:42 +02:00			`* ZNI, ZNR, ZR, ZRI, ZRR, D1MACH, AZABS`
Add AMOS routines from netlib Former-commit-id: c6fe0e468937daa36fe5f6692af5d24d4df3f851 2019-03-19 16:42:47 +02:00			`INTEGER I, IDUM, IFORM, IKFLG, INIT, KODE, N, NN, NUF, NW`
			`DIMENSION YR(N), YI(N), CWRKR(16), CWRKI(16)`
			`DATA ZEROR,ZEROI / 0.0D0, 0.0D0 /`
			`DATA AIC / 1.265512123484645396D+00 /`
			`NUF = 0`
			`NN = N`
			`ZRR = ZR`
			`ZRI = ZI`
			`IF (ZR.GE.0.0D0) GO TO 10`
			`ZRR = -ZR`
			`ZRI = -ZI`
			`10 CONTINUE`
			`ZBR = ZRR`
			`ZBI = ZRI`
			`AX = DABS(ZR)*1.7321D0`
			`AY = DABS(ZI)`
			`IFORM = 1`
			`IF (AY.GT.AX) IFORM = 2`
			`GNU = DMAX1(FNU,1.0D0)`
			`IF (IKFLG.EQ.1) GO TO 20`
			`FNN = DBLE(FLOAT(NN))`
			`GNN = FNU + FNN - 1.0D0`
			`GNU = DMAX1(GNN,FNN)`
			`20 CONTINUE`
			`C-----------------------------------------------------------------------`
			`C ONLY THE MAGNITUDE OF ARG AND PHI ARE NEEDED ALONG WITH THE`
			`C REAL PARTS OF ZETA1, ZETA2 AND ZB. NO ATTEMPT IS MADE TO GET`
			`C THE SIGN OF THE IMAGINARY PART CORRECT.`
			`C-----------------------------------------------------------------------`
			`IF (IFORM.EQ.2) GO TO 30`
			`INIT = 0`
			`CALL ZUNIK(ZRR, ZRI, GNU, IKFLG, 1, TOL, INIT, PHIR, PHII,`
			`* ZETA1R, ZETA1I, ZETA2R, ZETA2I, SUMR, SUMI, CWRKR, CWRKI)`
			`CZR = -ZETA1R + ZETA2R`
			`CZI = -ZETA1I + ZETA2I`
			`GO TO 50`
			`30 CONTINUE`
			`ZNR = ZRI`
			`ZNI = -ZRR`
			`IF (ZI.GT.0.0D0) GO TO 40`
			`ZNR = -ZNR`
			`40 CONTINUE`
			`CALL ZUNHJ(ZNR, ZNI, GNU, 1, TOL, PHIR, PHII, ARGR, ARGI, ZETA1R,`
			`* ZETA1I, ZETA2R, ZETA2I, ASUMR, ASUMI, BSUMR, BSUMI)`
			`CZR = -ZETA1R + ZETA2R`
			`CZI = -ZETA1I + ZETA2I`
Replace original netlib amos routines with those in scipy. Note: apparently, one could also use amos from openspecfun https://github.com/JuliaMath/openspecfun Former-commit-id: 77d61fe6486803684201480410021fd173172cc0 2019-03-20 12:25:42 +02:00			`AARG = AZABS(ARGR,ARGI)`
Add AMOS routines from netlib Former-commit-id: c6fe0e468937daa36fe5f6692af5d24d4df3f851 2019-03-19 16:42:47 +02:00			`50 CONTINUE`
			`IF (KODE.EQ.1) GO TO 60`
			`CZR = CZR - ZBR`
			`CZI = CZI - ZBI`
			`60 CONTINUE`
			`IF (IKFLG.EQ.1) GO TO 70`
			`CZR = -CZR`
			`CZI = -CZI`
			`70 CONTINUE`
Replace original netlib amos routines with those in scipy. Note: apparently, one could also use amos from openspecfun https://github.com/JuliaMath/openspecfun Former-commit-id: 77d61fe6486803684201480410021fd173172cc0 2019-03-20 12:25:42 +02:00			`APHI = AZABS(PHIR,PHII)`
Add AMOS routines from netlib Former-commit-id: c6fe0e468937daa36fe5f6692af5d24d4df3f851 2019-03-19 16:42:47 +02:00			`RCZ = CZR`
			`C-----------------------------------------------------------------------`
			`C OVERFLOW TEST`
			`C-----------------------------------------------------------------------`
			`IF (RCZ.GT.ELIM) GO TO 210`
			`IF (RCZ.LT.ALIM) GO TO 80`
			`RCZ = RCZ + DLOG(APHI)`
			`IF (IFORM.EQ.2) RCZ = RCZ - 0.25D0*DLOG(AARG) - AIC`
			`IF (RCZ.GT.ELIM) GO TO 210`
			`GO TO 130`
			`80 CONTINUE`
			`C-----------------------------------------------------------------------`
			`C UNDERFLOW TEST`
			`C-----------------------------------------------------------------------`
			`IF (RCZ.LT.(-ELIM)) GO TO 90`
			`IF (RCZ.GT.(-ALIM)) GO TO 130`
			`RCZ = RCZ + DLOG(APHI)`
			`IF (IFORM.EQ.2) RCZ = RCZ - 0.25D0*DLOG(AARG) - AIC`
			`IF (RCZ.GT.(-ELIM)) GO TO 110`
			`90 CONTINUE`
			`DO 100 I=1,NN`
			`YR(I) = ZEROR`
			`YI(I) = ZEROI`
			`100 CONTINUE`
			`NUF = NN`
			`RETURN`
			`110 CONTINUE`
			`ASCLE = 1.0D+3*D1MACH(1)/TOL`
Replace original netlib amos routines with those in scipy. Note: apparently, one could also use amos from openspecfun https://github.com/JuliaMath/openspecfun Former-commit-id: 77d61fe6486803684201480410021fd173172cc0 2019-03-20 12:25:42 +02:00			`CALL AZLOG(PHIR, PHII, STR, STI, IDUM)`
Add AMOS routines from netlib Former-commit-id: c6fe0e468937daa36fe5f6692af5d24d4df3f851 2019-03-19 16:42:47 +02:00			`CZR = CZR + STR`
			`CZI = CZI + STI`
			`IF (IFORM.EQ.1) GO TO 120`
Replace original netlib amos routines with those in scipy. Note: apparently, one could also use amos from openspecfun https://github.com/JuliaMath/openspecfun Former-commit-id: 77d61fe6486803684201480410021fd173172cc0 2019-03-20 12:25:42 +02:00			`CALL AZLOG(ARGR, ARGI, STR, STI, IDUM)`
Add AMOS routines from netlib Former-commit-id: c6fe0e468937daa36fe5f6692af5d24d4df3f851 2019-03-19 16:42:47 +02:00			`CZR = CZR - 0.25D0*STR - AIC`
			`CZI = CZI - 0.25D0*STI`
			`120 CONTINUE`
			`AX = DEXP(RCZ)/TOL`
			`AY = CZI`
			`CZR = AX*DCOS(AY)`
			`CZI = AX*DSIN(AY)`
			`CALL ZUCHK(CZR, CZI, NW, ASCLE, TOL)`
			`IF (NW.NE.0) GO TO 90`
			`130 CONTINUE`
			`IF (IKFLG.EQ.2) RETURN`
			`IF (N.EQ.1) RETURN`
			`C-----------------------------------------------------------------------`
			`C SET UNDERFLOWS ON I SEQUENCE`
			`C-----------------------------------------------------------------------`
			`140 CONTINUE`
			`GNU = FNU + DBLE(FLOAT(NN-1))`
			`IF (IFORM.EQ.2) GO TO 150`
			`INIT = 0`
			`CALL ZUNIK(ZRR, ZRI, GNU, IKFLG, 1, TOL, INIT, PHIR, PHII,`
			`* ZETA1R, ZETA1I, ZETA2R, ZETA2I, SUMR, SUMI, CWRKR, CWRKI)`
			`CZR = -ZETA1R + ZETA2R`
			`CZI = -ZETA1I + ZETA2I`
			`GO TO 160`
			`150 CONTINUE`
			`CALL ZUNHJ(ZNR, ZNI, GNU, 1, TOL, PHIR, PHII, ARGR, ARGI, ZETA1R,`
			`* ZETA1I, ZETA2R, ZETA2I, ASUMR, ASUMI, BSUMR, BSUMI)`
			`CZR = -ZETA1R + ZETA2R`
			`CZI = -ZETA1I + ZETA2I`
Replace original netlib amos routines with those in scipy. Note: apparently, one could also use amos from openspecfun https://github.com/JuliaMath/openspecfun Former-commit-id: 77d61fe6486803684201480410021fd173172cc0 2019-03-20 12:25:42 +02:00			`AARG = AZABS(ARGR,ARGI)`
Add AMOS routines from netlib Former-commit-id: c6fe0e468937daa36fe5f6692af5d24d4df3f851 2019-03-19 16:42:47 +02:00			`160 CONTINUE`
			`IF (KODE.EQ.1) GO TO 170`
			`CZR = CZR - ZBR`
			`CZI = CZI - ZBI`
			`170 CONTINUE`
Replace original netlib amos routines with those in scipy. Note: apparently, one could also use amos from openspecfun https://github.com/JuliaMath/openspecfun Former-commit-id: 77d61fe6486803684201480410021fd173172cc0 2019-03-20 12:25:42 +02:00			`APHI = AZABS(PHIR,PHII)`
Add AMOS routines from netlib Former-commit-id: c6fe0e468937daa36fe5f6692af5d24d4df3f851 2019-03-19 16:42:47 +02:00			`RCZ = CZR`
			`IF (RCZ.LT.(-ELIM)) GO TO 180`
			`IF (RCZ.GT.(-ALIM)) RETURN`
			`RCZ = RCZ + DLOG(APHI)`
			`IF (IFORM.EQ.2) RCZ = RCZ - 0.25D0*DLOG(AARG) - AIC`
			`IF (RCZ.GT.(-ELIM)) GO TO 190`
			`180 CONTINUE`
			`YR(NN) = ZEROR`
			`YI(NN) = ZEROI`
			`NN = NN - 1`
			`NUF = NUF + 1`
			`IF (NN.EQ.0) RETURN`
			`GO TO 140`
			`190 CONTINUE`
			`ASCLE = 1.0D+3*D1MACH(1)/TOL`
Replace original netlib amos routines with those in scipy. Note: apparently, one could also use amos from openspecfun https://github.com/JuliaMath/openspecfun Former-commit-id: 77d61fe6486803684201480410021fd173172cc0 2019-03-20 12:25:42 +02:00			`CALL AZLOG(PHIR, PHII, STR, STI, IDUM)`
Add AMOS routines from netlib Former-commit-id: c6fe0e468937daa36fe5f6692af5d24d4df3f851 2019-03-19 16:42:47 +02:00			`CZR = CZR + STR`
			`CZI = CZI + STI`
			`IF (IFORM.EQ.1) GO TO 200`
Replace original netlib amos routines with those in scipy. Note: apparently, one could also use amos from openspecfun https://github.com/JuliaMath/openspecfun Former-commit-id: 77d61fe6486803684201480410021fd173172cc0 2019-03-20 12:25:42 +02:00			`CALL AZLOG(ARGR, ARGI, STR, STI, IDUM)`
Add AMOS routines from netlib Former-commit-id: c6fe0e468937daa36fe5f6692af5d24d4df3f851 2019-03-19 16:42:47 +02:00			`CZR = CZR - 0.25D0*STR - AIC`
			`CZI = CZI - 0.25D0*STI`
			`200 CONTINUE`
			`AX = DEXP(RCZ)/TOL`
			`AY = CZI`
			`CZR = AX*DCOS(AY)`
			`CZI = AX*DSIN(AY)`
			`CALL ZUCHK(CZR, CZI, NW, ASCLE, TOL)`
			`IF (NW.NE.0) GO TO 180`
			`RETURN`
			`210 CONTINUE`
			`NUF = -1`
			`RETURN`
			`END`