COSMOS v7.655  COSMOSv7655
(AirShowerMC)
Functions/Subroutines
mneval.f File Reference

Go to the source code of this file.

Functions/Subroutines

subroutine mneval (FCN, ANEXT, FNEXT, IEREV, FUTIL)
 

Function/Subroutine Documentation

◆ mneval()

subroutine mneval ( external  FCN,
  ANEXT,
  FNEXT,
  IEREV,
external  FUTIL 
)

Definition at line 10 of file mneval.f.

References a, b, c, d, e, f, g, h, softenpik::half, i, j, m, maxp, mninex(), mnmigr(), n, o, p, parameter(), up(), x, xs, and z.

Referenced by mncros().

10 *
11 * $Id: d506dp.inc,v 1.1.1.1 1996/03/07 14:31:32 mclareni Exp $
12 *
13 * $Log: d506dp.inc,v $
14 * Revision 1.1.1.1 1996/03/07 14:31:32 mclareni
15 * Minuit
16 *
17 *
18 *
19 *
20 * d506dp.inc
21 *
22 C ************ DOUBLE PRECISION VERSION *************
23  IMPLICIT DOUBLE PRECISION (a-h,o-z)
24 CC Evaluates the function being analyzed by MNCROS, which is
25 CC generally the minimum of FCN with respect to all remaining
26 CC variable parameters. Common block /MN7XCR/ contains the
27 CC data necessary to know the values of U(KE1CR) and U(KE2CR)
28 CC to be used, namely U(KE1CR) = XMIDCR + ANEXT*XDIRCR
29 CC and (if KE2CR .NE. 0) U(KE2CR) = YMIDCR + ANEXT*YDIRCR
30 *
31 * $Id: d506cm.inc,v 1.1.1.1 1996/03/07 14:31:32 mclareni Exp $
32 *
33 * $Log: d506cm.inc,v $
34 * Revision 1.1.1.1 1996/03/07 14:31:32 mclareni
35 * Minuit
36 *
37 *
38 *
39 *
40 * d506cm.inc
41 *
42  parameter(mne=100 , mni=50)
43  parameter(mnihl=mni*(mni+1)/2)
44  CHARACTER*10 cpnam
45  COMMON
46  1/mn7nam/ cpnam(mne)
47  2/mn7ext/ u(mne) ,alim(mne) ,blim(mne)
48  3/mn7err/ erp(mni) ,ern(mni) ,werr(mni) ,globcc(mni)
49  4/mn7inx/ nvarl(mne) ,niofex(mne),nexofi(mni)
50  5/mn7int/ x(mni) ,xt(mni) ,dirin(mni)
51  6/mn7fx2/ xs(mni) ,xts(mni) ,dirins(mni)
52  7/mn7der/ grd(mni) ,g2(mni) ,gstep(mni) ,gin(mne) ,dgrd(mni)
53  8/mn7fx3/ grds(mni) ,g2s(mni) ,gsteps(mni)
54  9/mn7fx1/ ipfix(mni) ,npfix
55  a/mn7var/ vhmat(mnihl)
56  b/mn7vat/ vthmat(mnihl)
57  c/mn7sim/ p(mni,mni+1),pstar(mni),pstst(mni) ,pbar(mni),prho(mni)
58 C
59  parameter(maxdbg=10, maxstk=10, maxcwd=20, maxp=30, maxcpt=101)
60  parameter(zero=0.0, one=1.0, half=0.5)
61  COMMON
62  d/mn7npr/ maxint ,npar ,maxext ,nu
63  e/mn7iou/ isysrd ,isyswr ,isyssa ,npagwd ,npagln ,newpag
64  e/mn7io2/ istkrd(maxstk) ,nstkrd ,istkwr(maxstk) ,nstkwr
65  f/mn7tit/ cfrom ,cstatu ,ctitl ,cword ,cundef ,cvrsn ,covmes
66  g/mn7flg/ isw(7) ,idbg(0:maxdbg) ,nblock ,icomnd
67  h/mn7min/ amin ,up ,edm ,fval3 ,epsi ,apsi ,dcovar
68  i/mn7cnv/ nfcn ,nfcnmx ,nfcnlc ,nfcnfr ,itaur,istrat,nwrmes(2)
69  j/mn7arg/ word7(maxp)
70  k/mn7log/ lwarn ,lrepor ,limset ,lnolim ,lnewmn ,lphead
71  l/mn7cns/ epsmac ,epsma2 ,vlimlo ,vlimhi ,undefi ,bigedm,updflt
72  m/mn7rpt/ xpt(maxcpt) ,ypt(maxcpt)
73  n/mn7cpt/ chpt(maxcpt)
74  o/mn7xcr/ xmidcr ,ymidcr ,xdircr ,ydircr ,ke1cr ,ke2cr
75  CHARACTER ctitl*50, cword*(maxcwd), cundef*10, cfrom*8,
76  + cvrsn*6, covmes(0:3)*22, cstatu*10, chpt*1
77  LOGICAL lwarn, lrepor, limset, lnolim, lnewmn, lphead
78 CC
79  EXTERNAL fcn,futil
80  u(ke1cr) = xmidcr + anext*xdircr
81  IF ( ke2cr .NE. 0) u(ke2cr) = ymidcr + anext*ydircr
82  CALL mninex(x)
83  nparx = npar
84  CALL fcn(nparx,gin,fnext,u,4,futil)
85  nfcn = nfcn + 1
86  ierev = 0
87  IF (npar .GT. 0) THEN
88  itaur = 1
89  amin = fnext
90  isw(1) = 0
91  CALL mnmigr(fcn,futil)
92  itaur = 0
93  fnext = amin
94  IF (isw(1) .GE. 1) ierev = 1
95  IF (isw(4) .LT. 1) ierev = 2
96  ENDIF
97  RETURN
parameter
integer npitbl real *nx parameter(n=101, npitbl=46, nx=n-1) real *8 uconst
z
nodes z
Definition: cstdatmos0.fNew2.h:93
up
block data include Zlatfit h c fitting region data data data data data d0 data data d0 data data h g *is for param c g data up(2, 1)/7.0d0/
e
dE dx *! Nuc Int sampling table e
Definition: cblkMuInt.h:130
i
nodes i
Definition: cstdatmos0.fNew2.h:93
mnmigr
subroutine mnmigr(FCN, FUTIL)
Definition: mnmigr.f:25
nrl_atmos::h
real(4), dimension(:), allocatable, save h
Definition: cNRLAtmos.f:28
xs
! constants thru Cosmos real ! if multiplied to deg radian Torad ! light velocity m sec ! infinty ! kg m2 *Togpcm2 g cm2 ! g cm2 *Tokgpm2 kg m2 ! cm *Tom m ! m *Tocm cm ! g cm3 *Tokgpm3 kg m3 ! kg m3 *Togpcm3 g cm3 ! sec *Tonsec nsec ! Tesla m ! Avogadro *A2deninv ! mfp *n * xs
Definition: Zglobalc.h:18
p
********************block data cblkHeavy ********************integer j data *HeavyG2symbol p
Definition: cblkHeavy.h:7
j
********************block data cblkHeavy ********************integer j data *HeavyG2symbol *data *HeavyG2code kiron data j
Definition: cblkHeavy.h:36
o
struct ob o[NpMax]
Definition: Zprivate.h:34
mninex
subroutine mninex(PINT)
Definition: mninex.f:10
d
dE dx *! Nuc Int sampling table d
Definition: cblkMuInt.h:130
m
block data include Zlatfit h c fitting region data data data data data d0 data data d0 data data m
Definition: ZlatfitBD.h:35
nrl_atmos::a
real(4), save a
Definition: cNRLAtmos.f:20
g
dE dx *! Nuc Int sampling table g
Definition: cblkMuInt.h:130
nrl_atmos::b
real(4), save b
Definition: cNRLAtmos.f:21
maxp
!onst int maxp
Definition: Zprivate.h:3
n
integer n
Definition: Zcinippxc.h:1
softenpik::half
integer, parameter half
Definition: csoftenPiK.f:108
x
! structure defining a particle at production ! Basic idea of what is to be contained in ! the particle structue is that dynamical ones should be included those derivable from the particle code ! is not included ******************************************************type fmom momentum sequence union map real e endmap map real * x
Definition: Zptcl.h:21
f
dE dx *! Nuc Int sampling table f
Definition: cblkMuInt.h:130
c
dE dx *! Nuc Int sampling table c
Definition: cblkMuInt.h:130
Here is the call graph for this function:
Here is the caller graph for this function: