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r9lgmc.f
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1 *DECK R9LGMC
2  FUNCTION r9lgmc (X)
3 C***BEGIN PROLOGUE R9LGMC
4 C***SUBSIDIARY
5 C***PURPOSE Compute the log Gamma correction factor so that
6 C LOG(GAMMA(X)) = LOG(SQRT(2*PI)) + (X-.5)*LOG(X) - X
7 C + R9LGMC(X).
8 C***LIBRARY SLATEC (FNLIB)
9 C***CATEGORY C7E
10 C***TYPE SINGLE PRECISION (R9LGMC-S, D9LGMC-D, C9LGMC-C)
11 C***KEYWORDS COMPLETE GAMMA FUNCTION, CORRECTION TERM, FNLIB,
12 C LOG GAMMA, LOGARITHM, SPECIAL FUNCTIONS
13 C***AUTHOR Fullerton, W., (LANL)
14 C***DESCRIPTION
15 C
16 C Compute the log gamma correction factor for X .GE. 10.0 so that
17 C LOG (GAMMA(X)) = LOG(SQRT(2*PI)) + (X-.5)*LOG(X) - X + R9LGMC(X)
18 C
19 C Series for ALGM on the interval 0. to 1.00000D-02
20 C with weighted error 3.40E-16
21 C log weighted error 15.47
22 C significant figures required 14.39
23 C decimal places required 15.86
24 C
25 C***REFERENCES (NONE)
26 C***ROUTINES CALLED CSEVL, INITS, R1MACH, XERMSG
27 C***REVISION HISTORY (YYMMDD)
28 C 770801 DATE WRITTEN
29 C 890531 Changed all specific intrinsics to generic. (WRB)
30 C 890531 REVISION DATE from Version 3.2
31 C 891214 Prologue converted to Version 4.0 format. (BAB)
32 C 900315 CALLs to XERROR changed to CALLs to XERMSG. (THJ)
33 C 900720 Routine changed from user-callable to subsidiary. (WRB)
34 C***END PROLOGUE R9LGMC
35  dimension algmcs(6)
36  LOGICAL FIRST
37  SAVE algmcs, nalgm, xbig, xmax, first
38  DATA algmcs( 1) / .1666389480 45186e0 /
39  DATA algmcs( 2) / -.0000138494 817606e0 /
40  DATA algmcs( 3) / .0000000098 108256e0 /
41  DATA algmcs( 4) / -.0000000000 180912e0 /
42  DATA algmcs( 5) / .0000000000 000622e0 /
43  DATA algmcs( 6) / -.0000000000 000003e0 /
44  DATA first /.true./
45 C***FIRST EXECUTABLE STATEMENT R9LGMC
46  IF (first) THEN
47  nalgm = inits(algmcs, 6, r1mach(3))
48  xbig = 1.0/sqrt(r1mach(3))
49  xmax = exp(min(log(r1mach(2)/12.0), -log(12.0*r1mach(1))) )
50  ENDIF
51  first = .false.
52 C
53  IF (x .LT. 10.0) CALL xermsg('SLATEC', 'R9LGMC',
54  + 'X MUST BE GE 10', 1, 2)
55  IF (x.GE.xmax) go to 20
56 C
57  r9lgmc = 1.0/(12.0*x)
58  IF (x.LT.xbig) r9lgmc = csevl(2.0*(10./x)**2-1., algmcs, nalgm)/x
59  RETURN
60 C
61  20 r9lgmc = 0.0
62  CALL xermsg('SLATEC', 'R9LGMC', 'X SO BIG R9LGMC UNDERFLOWS', 2,
63  + 1)
64  RETURN
65 C
66  END
inits
function inits(OS, NOS, ETA)
Definition: inits.f:2
csevl
function csevl(X, CS, N)
Definition: csevl.f:2
log
OCTAVE_EXPORT octave_value_list or N dimensional array whose elements are all equal to the base of natural logarithms The constant ex $e satisfies the equation log(e)
base_det::exp
int exp(void) const
Definition: DET.h:66
false
is false
Definition: cellfun.cc:398
to
may be zero for pure relative error test tem the relative tolerance must be greater than or equal to
Definition: Quad-opts.cc:233
dimension
OCTAVE_EXPORT octave_value_list etc The functions then dimension(columns)
xermsg
subroutine xermsg(LIBRAR, SUBROU, MESSG, NERR, LEVEL)
Definition: xermsg.f:2
r9lgmc
function r9lgmc(X)
Definition: r9lgmc.f:2
octave_value::sqrt
octave_value sqrt(void) const
Definition: ov.h:1388
min
charNDArray min(char d, const charNDArray &m)
Definition: chNDArray.cc:205
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