Page Menu
Home
c4science
Search
Configure Global Search
Log In
Files
F93500256
fonction.h
No One
Temporary
Actions
Download File
Edit File
Delete File
View Transforms
Subscribe
Mute Notifications
Award Token
Subscribers
None
File Metadata
Details
File Info
Storage
Attached
Created
Fri, Nov 29, 06:15
Size
21 KB
Mime Type
text/x-c
Expires
Sun, Dec 1, 06:15 (1 d, 20 h)
Engine
blob
Format
Raw Data
Handle
22646733
Attached To
R1448 Lenstool-HPC
fonction.h
View Options
#ifndef FONCTION_H
#define FONCTION_H
#include <stdio.h>
#include "wcs.h"
#include "errors.h"
#include <gsl/gsl_randist.h>
#include <time.h>
#include <sys/time.h>
/*
* fonction.h
* kneib jean-paul
* June 97
* OMP Toulouse
*/
/*
* useful function definition
*/
#define Min(A,B) ((A)<(B)?(A):(B))
#define Max(A,B) ((A)>(B)?(A):(B))
#define cube(A) A*A*A
#define FPRINTF if (M.verbose > 1) fprintf
/* Full verbose*/
#define NPRINTF if (M.verbose == 1) fprintf
/* Normal verbose */
#define CHECK_THIRD(A) if(strlen(third) > A) { fprintf(stderr, "[ERROR] %s\n argument too long. Maximum argument size %d\n", third, A); exit(1); }
/*
* structures in lenstool
*/
#include "structure.h"
/*
* functions in lenstool
*/
//#ifdef __cplusplus
//"C" {
//#endif
double
myseconds
();
complex
acpx
(
complex
c1
,
complex
c2
);
complex
acpxflt
(
complex
c1
,
double
f2
);
void
add_pm
(
double
**
map
,
int
nx
,
int
ny
,
double
x0
,
double
y0
,
double
m
);
//void amplif();
void
amplif_mat
();
void
amplif_matinv
();
int
bayesHeader
();
void
bicubic_coef
(
double
*
y
,
double
*
y1
,
double
*
y2
,
double
*
y12
,
double
d1
,
double
d2
,
double
**
c
);
void
e_im_prec
(
const
struct
bitriplet
*
E
,
const
struct
point
*
P
,
double
dlsds
,
int
*
it
,
struct
bitriplet
*
A
);
void
e_inthere
(
const
struct
bitriplet
*
E
,
const
struct
bitriplet
*
I
,
const
struct
point
*
P
,
double
dlsds
,
struct
bitriplet
*
res
);
double
brent
(
double
ax
,
double
bx
,
double
cx
,
double
(
*
f
)(
double
),
double
tol
,
double
*
xmin
);
double
chi_invim
(
double
**
im
,
struct
pixlist
pl
[],
int
npl
,
double
dlsds
,
double
**
so
,
double
**
er
,
int
**
imu
);
int
chsigne
(
struct
point
A
,
struct
point
B
,
double
dl0s
,
double
dos
,
double
zs
);
complex
ci05
(
double
x
,
double
y
,
double
eps
,
double
rc
);
complex
ci10
(
double
x
,
double
y
,
double
eps
,
double
rc
,
double
b0
);
complex
ci15
(
double
x
,
double
y
,
double
eps
,
double
rc
,
double
b0
);
double
chiz
(
double
z
);
void
classer
(
struct
galaxie
image
[
NFMAX
][
NIMAX
],
struct
galaxie
*
cimage
,
long
int
*
ni
,
long
int
*
ncistart
);
void
cleanlens
(
double
zimage
);
int
comparer_pos
(
struct
galaxie
*
A
,
struct
galaxie
*
B
);
int
comparer_tau
(
struct
galaxie
*
A
,
struct
galaxie
*
B
);
int
comparer_z
(
struct
galaxie
*
A
,
struct
galaxie
*
B
);
int
comp_asc
(
double
A
,
double
B
);
double
comp_chi_osv
(
double
*
vect
);
double
comp_chi_osv
(
double
*
vect
);
void
comp_dchi_osv
(
double
*
vect
,
double
*
dvect
);
int
comp_desc
(
double
A
,
double
B
);
void
convertXY
(
double
*
x
,
double
*
y
,
int
iref
,
double
ra
,
double
dec
);
void
copyright
();
void
copyTriplet
(
struct
triplet
*
in
,
struct
triplet
*
out
);
void
cor_seeing
(
long
int
n
,
struct
galaxie
*
image
,
double
seeing
);
void
cor_shear
();
complex
coscpx
(
complex
c
);
complex
coshcpx
(
complex
c
);
void
cp_diffim
(
double
**
im1
,
double
**
im2
,
int
ni
,
int
nj
,
double
**
resim
);
double
cp_errdiff
(
double
**
im1
,
double
**
im2
,
int
ni
,
int
nj
,
double
sigim
);
void
cp_im
(
double
**
im
,
int
nx
,
int
ny
,
double
xmin
,
double
xmax
,
double
ymin
,
double
ymax
,
struct
galaxie
*
source
,
int
nbs
);
complex
cpx
(
double
re
,
double
im
);
void
crea_filtre
(
double
seeing
,
double
scale
,
double
**
filtre
,
int
n
);
void
critic_an
();
void
criticinv
(
double
xmin
,
double
ymin
,
double
xmax
,
double
ymax
);
void
criticnew
(
int
verbose
);
complex
csiemd
(
double
x
,
double
y
,
double
eps
,
double
b0
);
void
cv_cpsf
(
double
**
im
,
int
nx
,
int
ny
,
double
xmin
,
double
xmax
,
double
ymin
,
double
ymax
,
double
seeing
);
void
d_bruiter
(
double
**
z
,
int
nx
,
int
ny
);
complex
dcpx
(
complex
c1
,
complex
c2
);
complex
dcpxflt
(
complex
c
,
double
f
);
double
determinant
(
const
struct
point
*
A
,
const
struct
point
*
B
,
const
struct
point
*
C
);
double
d_gauss
(
double
sig
,
int
*
idum
);
struct
ellipse
diag
(
double
a
,
double
b
,
double
c
);
double
diff_mag
(
struct
galaxie
*
arclet
,
struct
point
*
guess
);
double
d_integrer
(
struct
galaxie
A
,
double
x
,
double
y
,
double
t
,
double
f
,
int
n
);
double
dist2
(
struct
point
A
,
struct
point
B
);
double
distcosmo1
(
double
z
);
double
distcosmo2
(
double
z1
,
double
z2
);
void
dist_min
();
void
distor
(
struct
galaxie
*
image
,
long
int
ni
);
double
distprime1
(
double
z
);
double
distprime2
(
double
z1
,
double
z2
);
double
dist
(
struct
point
A
,
struct
point
B
);
double
dlumcosmo1
(
double
z
);
void
do_itos
(
double
**
im
,
struct
pixlist
*
pl
,
int
npl
,
double
dlsds
,
double
**
source
,
double
**
erreur
,
int
**
imult
);
double
d_poisson
(
double
xm
,
int
*
idum
);
double
d_profil
(
double
x
,
double
y
,
const
struct
galaxie
*
gal
);
double
d_random
(
int
*
idum
);
double
dratio
(
double
zl
,
double
zs
);
void
dratio_gal
(
struct
galaxie
*
arclet
,
double
zl
);
double
dratioprime
(
double
zl
,
double
zs
);
double
d_rndschechter
(
int
*
idum
);
int
d_rndtype
(
int
*
idum
);
double
d_rndz
(
double
zmax
,
int
*
idum
);
gsl_ran_discrete_t
*
smailpreproc
();
double
d_rndzsmail
(
gsl_rng
*
r
,
gsl_ran_discrete_t
*
g
);
void
d_seeing
(
double
**
im
,
int
nx
,
int
ny
,
double
scale
);
double
e_amp
(
const
struct
point
*
position
,
double
dl0s
,
double
dos
,
double
zs
);
double
e_amp_gal
(
struct
galaxie
*
image
,
double
*
np_b0
);
complex
ecpx
(
complex
c
);
void
ecrire_r
(
long
int
nstart
,
long
int
nstop
,
struct
galaxie
*
liste
,
char
*
name
,
int
printShearFlag
);
void
e_dpl
(
const
struct
point
*
gi
,
double
dlsds
,
struct
point
*
gs
);
void
e_giant
(
int
*
ng
,
struct
galaxie
giants
,
struct
galaxie
*
image
);
struct
point
e_grad
(
const
struct
point
*
pi
);
struct
point
e_grad_gal
(
struct
galaxie
*
image
,
double
*
np_b0
);
struct
point
e_grad_pot
(
const
struct
point
*
pi
,
long
int
ilens
);
struct
matrix
e_grad2
(
const
struct
point
*
pi
,
double
dl0s
,
double
zs
);
struct
matrix
e_grad2_gal
(
struct
galaxie
*
image
,
double
*
np_b0
);
struct
matrix
e_grad2_pot
(
const
struct
point
*
pi
,
long
int
ilens
);
void
e_lensing
(
struct
galaxie
source
[
NFMAX
],
struct
galaxie
image
[
NFMAX
][
NIMAX
]);
int
e_lens_P
(
struct
point
ps
,
struct
point
pim
[
NIMAX
],
double
dlsds
);
int
e_lens
(
struct
galaxie
source
,
struct
galaxie
image
[
NIMAX
]);
struct
ellipse
e_mag
(
struct
point
*
position
,
double
dl0s
,
double
dos
,
double
zs
);
struct
ellipse
e_mag_gal
(
struct
galaxie
*
image
);
double
e_mass
(
long
int
icl
,
double
radius
);
struct
ellipse
e_unmag
(
const
struct
point
*
position
,
double
dl0s
,
double
dos
,
double
zs
);
struct
ellipse
e_unmag_gal
(
struct
galaxie
*
image
);
struct
point
e_zeroamp
(
struct
point
A
,
struct
point
B
,
double
dl0s
,
double
dos
,
double
zs
);
void
e_pixel
(
int
np
,
char
*
iname
,
char
*
sname
,
struct
galaxie
*
source
);
double
e_pot
(
struct
point
pi
,
double
dlsds
);
double
sersic_dpl
(
double
r
,
double
re
,
double
n
,
double
kappae
);
double
sersic_kappa_eps
(
double
r
,
double
re
,
double
n
,
double
theta
,
double
kappas
,
double
eps
);
struct
point
sersic_gamma_eps
(
double
r
,
double
re
,
double
n
,
double
theta
,
double
kappas
,
double
eps
);
double
err_invim
(
double
**
errim
,
int
**
imult
);
void
e_tau
(
long
int
n
,
struct
galaxie
gal
[
NAMAX
]);
void
e_testg
(
int
i
,
int
j
,
struct
bitriplet
*
Tsol
,
int
ni
,
struct
point
*
P
,
double
dlsds
);
int
e_test_P
(
struct
bitriplet
*
Tsol
,
int
ni
,
struct
point
*
ps
,
struct
point
image
[
NIMAX
],
double
dlsds
,
double
err
);
int
e_test
(
struct
bitriplet
*
Tsol
,
int
ni
,
struct
galaxie
source
,
struct
galaxie
image
[
NIMAX
]);
double
e_time
(
struct
point
pi
,
double
dlsds
);
void
e_unlens_fast
(
int
nima
,
struct
galaxie
*
strima
,
struct
galaxie
*
source
);
void
e_unlensgrid
(
struct
point
gsource
[][
NGGMAX
],
double
dlsds
);
void
e_unlens
(
long
int
na
,
struct
galaxie
*
arclet
,
long
int
*
ns
,
struct
galaxie
*
source
);
void
fftcc_im
(
double
**
r_im
,
double
**
i_im
,
double
**
tfr_im
,
double
**
tfi_im
,
int
n
,
int
flag
);
void
fftc_im
(
double
**
im
,
double
**
tfr_im
,
double
**
tfi_im
,
int
n
,
int
flag
);
void
fft
(
double
*
data
,
int
*
nn
,
int
ndim
,
int
isign
);
double
fmin_ell
(
double
dl0s
,
double
dos
,
double
zs
);
void
followi
(
struct
point
A
,
struct
point
B
,
struct
point
O
,
double
dl0s
,
double
dos
,
double
zs
);
void
follow
(
struct
point
A
,
struct
point
B
,
struct
point
O
,
double
dl0s
,
double
dos
,
double
zs
);
struct
ellipse
formeli
(
double
a
,
double
b
,
double
c
);
void
frprmn
(
double
*
p
,
int
n
,
double
ftol
,
int
*
iter
,
double
*
fret
,
double
(
*
func
)(
double
*
),
void
(
*
dfunc
)(
double
*
,
double
*
)
);
void
fr_sq_point
(
struct
point
**
square
,
int
nbr_lin
);
void
f_shape2
(
long
int
*
istart
,
struct
galaxie
*
liste
,
char
*
name
);
void
f_shape3
(
long
int
*
istart
,
struct
galaxie
*
liste
,
char
*
name
);
void
f_shape4
(
long
int
*
istart
,
struct
galaxie
*
liste
,
char
*
name
);
void
f_shape_abs
(
long
int
*
istart
,
struct
galaxie
*
liste
,
char
*
name
);
void
f_shape
(
long
int
*
istart
,
struct
galaxie
*
liste
,
char
*
name
,
int
flag
);
void
f_shmap
(
int
*
istart
,
struct
shear
*
liste
,
char
*
name
);
void
f_source
(
char
*
name
,
struct
galaxie
*
galaxy
,
int
*
n
);
double
fz_dlsds
(
double
z
);
struct
galaxie
unlens1
(
struct
galaxie
arclet
,
double
dlsds
);
void
g_amplif
(
int
iampf
,
double
z
,
char
*
file
);
void
g_ampli
(
int
iamp
,
int
np
,
double
z
,
char
*
file
);
void
g_curv
(
int
icurv
,
int
np
,
double
z
,
char
*
file1
,
char
*
file2
,
char
*
file3
);
void
g_dpl
(
int
idpl
,
int
np
,
double
z
,
char
*
filex
,
char
*
filey
);
void
g_grid
(
int
igrid
,
int
ngrid
,
double
zgrid
);
void
g_mass
(
int
imass
,
int
np
,
double
zl
,
double
zs
,
char
*
file
);
void
g_poten
(
int
ipoten
,
int
np
,
double
z
,
char
*
file
);
double
g_profil
(
double
x
,
double
y
,
struct
galaxie
gal
);
void
g_prop
(
int
nprop
,
double
z
);
void
g_radial
(
int
iradial
,
double
zradial
,
double
theta
);
void
grid
();
void
gridp
();
void
g_shearf
(
int
ishear
,
double
z
,
char
*
file
,
int
nshearf
);
void
g_shear
(
int
ishear
,
int
np
,
double
z
,
char
*
file
);
void
g_time
(
int
flag
,
int
np
,
double
z
,
char
*
file
);
int
getNzmlimit
();
char
*
getParName
(
int
ipx
,
char
*
name
,
int
type
);
int
getNConstraints
();
int
getNParameters
();
void
getRADEC
(
char
*
line
,
int
*
iref
,
double
*
ra
,
double
*
dec
);
double
hern_dpl
(
double
r
,
double
rs
,
double
kappas
);
double
hern_kappa_eps
(
double
r
,
double
rs
,
double
theta
,
double
kappas
,
double
eps
);
struct
point
hern_gamma_eps
(
double
r
,
double
rs
,
double
theta
,
double
kappas
,
double
eps
);
void
ic_product
(
double
**
r_im
,
double
**
i_im
,
double
**
r_im2
,
double
**
i_im2
,
double
**
r_prod
,
double
**
i_prod
,
int
nbr_lin
,
int
nbr_col
);
complex
icpx
(
complex
c
);
void
i_marker
(
char
markfile
[],
double
z
);
void
imtosou
(
double
zimage
,
char
*
sname
);
int
inconvexe
(
struct
point
P
,
int
np
,
struct
point
I
[
NPOINT
]);
int
init_grille
(
char
*
infile
,
int
noedit
);
int
insidebord
(
struct
point
*
P
,
struct
triplet
*
T
);
int
inside
(
struct
point
*
P
,
struct
triplet
*
T
);
void
d_binning
(
double
**
im
,
int
*
nx
,
int
*
ny
,
int
bin
);
double
interpol
(
double
xx
,
const
double
*
fxx
,
const
double
*
fyy
,
const
double
*
fy2
,
int
imax
);
int
inverse
(
const
struct
point
gsource
[][
NGGMAX
],
struct
point
*
P
,
struct
bitriplet
*
Tsol
);
void
isoima
(
struct
ellipse
*
es
,
struct
ellipse
*
ampli
,
struct
ellipse
*
ei
);
double
iter
(
double
phi0
,
double
coeur
,
double
ct
);
void
keep_cl
(
double
**
image
,
struct
pixlist
*
pl
,
int
*
npl
);
int
lire
(
struct
galaxie
*
liste
,
char
*
name
);
complex
lncpx
(
complex
c
);
void
local
(
int
type
,
char
localfile
[]);
void
mdci05
(
double
x
,
double
y
,
double
eps
,
double
rc
,
double
b0
,
struct
matrix
*
res
);
struct
matrix
mdci10
(
double
x
,
double
y
,
double
eps
,
double
rc
,
double
b0
);
struct
matrix
mdci15
(
double
x
,
double
y
,
double
eps
,
double
rc
,
double
b0
);
void
mdcsiemd
(
double
x
,
double
y
,
double
eps
,
double
b0
,
struct
matrix
*
res
);
struct
matrix
rotmatrix
(
struct
matrix
*
P
,
double
theta
);
struct
matrix
sp_grad2
(
struct
point
P
);
double
mass2d_NFW
(
double
velocity_disp
,
double
reference_rad
,
double
scale_rad
);
// TV
double
mass3d_NFW
(
double
velocity_disp
,
double
reference_rad
,
double
scale_rad
);
// TV
double
vel_Mampost
(
double
velocity_disp
,
double
reference_rad
,
double
scale_rad
,
double
redshift_0
,
double
betta_index
);
// TV
double
min_parabol
(
double
x0
,
double
y0
,
double
x1
,
double
y1
,
double
x2
,
double
y2
);
double
min_slope_par
(
double
x0
,
double
y0
,
double
x1
,
double
y1
,
double
x2
,
double
y2
);
double
mean
(
int
n
,
double
*
array
);
double
median
(
int
n
,
double
*
array
);
double
mode
(
int
n
,
double
*
array
);
void
multiscale_grid
(
long
int
*
pilens
);
double
ncpx
(
complex
c
);
double
nfw_dpl
(
double
r
,
double
rs
,
double
kappas
);
double
nfw_gamma
(
double
r
,
double
rs
,
double
kappas
);
struct
point
nfw_gamma_eps
(
double
r
,
double
rs
,
double
theta
,
double
kappas
,
double
eps
);
double
nfwg_dpl
(
double
r
,
double
rs
,
double
kappas
,
double
alpha
);
double
nfwg_gamma
(
double
r
,
double
rs
,
double
kappas
,
double
alpha
);
struct
point
nfwg_gamma_eps
(
double
r
,
double
rs
,
double
theta
,
double
kappas
,
double
eps
,
double
alpha
);
double
nfwg_kappa
(
double
r
,
double
rs
,
double
kappas
,
double
alpha
);
double
nfwg_kappa_eps
(
double
r
,
double
rs
,
double
theta
,
double
kappas
,
double
eps
,
double
alpha
);
double
nfw_kappa
(
double
r
,
double
rs
,
double
kappas
);
double
nfw_kappa_eps
(
double
r
,
double
rs
,
double
theta
,
double
kappas
,
double
eps
);
void
e_nfw_rs2c
(
double
sigma_s
,
double
r_s
,
double
*
rhos
,
double
*
c
,
double
*
M_vir
,
double
z
);
void
e_nfw_cm200_sigrs
(
double
c
,
double
mvir
,
double
*
sigma_s
,
double
*
r_s
,
double
z
);
void
e_nfw_cr200_sigrs
(
double
c
,
double
rvir
,
double
*
sigma_s
,
double
*
r_s
,
double
z
);
void
e_nfw_crs2sig
(
double
c
,
double
rs
,
double
*
sigma_s
,
double
z
);
void
e_nfw_rsm200_sigrs
(
double
rs
,
double
mvir
,
double
*
sigma_s
,
double
z
);
void
e_nfw_rsr200_sigrs
(
double
rs
,
double
rvir
,
double
*
sigma_s
,
double
z
);
double
elli_tri
(
const
struct
pot
*
ilens
);
void
e_nfw_c3D2c2D
(
double
c3D
,
double
*
c2D
);
int
o_big_slope
();
double
o_chi
();
void
o_chi_flux
(
struct
galaxie
*
arclet
,
double
fluxS
,
double
*
da
,
double
*
sig2flux
);
int
o_chi_lhood0
(
double
*
chi2
,
double
*
lhood0
,
double
*
np_b0
);
double
o_chi_pos
();
void
o_chires
(
char
*
filename
);
void
o_dmag
(
int
i
,
struct
galaxie
*
gali
,
double
*
da
);
void
o_dpl
(
int
n_im
,
struct
galaxie
*
gali
,
struct
point
*
ps
,
double
*
np_b0
);
void
o_flux
(
int
n
,
double
*
fluxS
,
int
n_famille
,
double
*
np_b0
);
double
o_get_err
(
int
i
,
int
ipx
);
double
o_get_lens
(
int
i
,
int
ipx
);
double
o_get_lmax
(
int
i
,
int
ipx
);
double
o_get_lmin
(
int
i
,
int
ipx
);
double
o_get_source
(
struct
galaxie
*
source
,
int
ipx
);
void
o_global
();
void
o_global_free
();
double
**
o_invim
(
double
zim
,
double
*
drim
,
struct
pixlist
*
plo
,
int
*
nplo
);
void
o_keep_min
(
double
x1
,
double
x2
,
double
y1
,
double
y2
,
int
ils
,
int
ipx
);
void
o_keepz_min
(
double
x1
,
double
x2
,
double
y1
,
double
y2
,
int
iz
);
double
o_lhood
(
int
*
error
);
void
o_mag
(
int
n
,
struct
galaxie
*
arclet
);
void
o_mag_m
(
int
n
,
struct
galaxie
*
arclet
);
double
o_min_loc
(
double
y0
);
double
o_min_slope
(
double
y0
);
double
o_prep
();
void
o_prep_mult
(
int
ntmult
,
struct
galaxie
*
mult
);
void
o_print
(
FILE
*
OUT
,
double
chi0
);
void
o_print_res
(
double
chi0
,
double
evidence
);
void
opt_source
();
void
o_run1
();
void
o_run2
();
double
o_run_bayes
();
void
o_run
();
void
o_run_mc
();
void
o_run_mc0
();
//double o_run_nest();
void
o_runpot1
(
int
flag
);
void
o_runpot2
();
void
o_runz_mc
();
void
o_runz_mc0
();
void
o_scale_pot
();
void
o_set_err
(
int
i
,
int
ipx
,
double
x
);
void
o_set_exc
(
int
i
,
double
excu
[
NLMAX
][
NPAMAX
],
double
excd
[
NLMAX
][
NPAMAX
],
int
block
[
NLMAX
][
NPAMAX
]);
void
o_set_ip
();
void
o_set_lens_bayes
(
int
method
,
int
prior
,
double
limit
);
void
o_set_lens
(
int
i
,
int
ipx
,
double
x
);
void
o_set_lmax
(
int
i
,
int
ipx
,
double
x
);
void
o_set_lmin
(
int
i
,
int
ipx
,
double
x
);
void
o_set_limit_bayes
(
int
nParam
,
long
int
nVal
,
double
**
array
,
int
gauss
,
double
limit
);
void
o_set_map
();
void
o_set_map_mc
();
void
o_set_map_z
();
void
o_set_start
(
int
i
,
int
block
[
NLMAX
][
NPAMAX
]);
void
o_set_source
(
struct
galaxie
*
source
,
int
ipx
,
double
val
);
void
o_shape
(
int
i
,
struct
galaxie
*
gali
,
double
*
dx
,
double
*
sigx2
,
double
*
dy
,
double
*
sigy2
,
double
*
da
);
int
o_slope_sp
(
double
*
y0
);
void
o_stat
(
int
na
,
struct
galaxie
arclet
[
NAMAX
]);
double
o_step
(
double
chi0
);
int
o_swi_big
(
int
i
,
int
ipx
);
void
packzmlimit
(
char
limages
[
ZMBOUND
][
IDSIZE
],
int
nimages
,
char
name
[
IDSIZE
]);
complex
pcpx
(
complex
c1
,
complex
c2
);
complex
pcpxflt
(
complex
c
,
double
f
);
double
pi05
(
double
x
,
double
y
,
double
eps
,
double
rc
,
double
b0
);
double
pi10
(
double
x
,
double
y
,
double
eps
,
double
rc
,
double
b0
);
double
pi15
(
double
x
,
double
y
,
double
eps
,
double
rc
,
double
b0
);
struct
point
**
al_sq_point
(
int
nbr_lin
,
int
nbr_col
);
struct
point
barycentre
(
struct
triplet
*
A
);
struct
point
bcentlist
(
struct
point
*
P
,
int
n
);
double
max
(
int
n
,
double
*
array
);
double
mean
(
int
n
,
double
*
array
);
double
median
(
int
n
,
double
*
array
);
struct
point
milieu
(
struct
point
*
A
,
struct
point
*
B
);
double
min
(
int
n
,
double
*
array
);
struct
point
next
(
struct
point
A
,
struct
point
B
,
double
dpl
,
double
dl0s
,
double
dos
,
double
zs
);
struct
point
rotation
(
struct
point
P
,
double
theta
);
struct
point
sp_grad
(
struct
point
P
);
struct
point
wcenter
(
struct
point
A
,
double
wa
,
struct
point
B
,
double
wb
);
struct
point
weight_baryc
(
struct
point
*
P
,
struct
galaxie
*
multi
,
int
n
,
int
n_famille
);
struct
polar
polxy
(
struct
point
xy
);
void
prep_non_param
();
void
pro_arclet
(
long
int
n
,
struct
galaxie
*
gal
);
void
pro_arclet_m
(
int
n
,
struct
galaxie
gal
[
NAMAX
]);
double
psiemd
(
double
x
,
double
y
,
double
eps
,
double
b0
);
double
ptau
(
double
x
,
double
y
);
void
r_cleanlens
(
FILE
*
IN
,
FILE
*
OUT
);
void
r_cline
(
FILE
*
IN
,
FILE
*
OUT
);
void
r_cosmolimit
(
FILE
*
IN
,
FILE
*
OUT
);
void
r_cosmologie
(
FILE
*
IN
,
FILE
*
OUT
);
void
r_frame
(
FILE
*
IN
,
FILE
*
OUT
);
void
r_vfield
(
FILE
*
IN
,
FILE
*
OUT
);
void
r_vfieldlimit
(
FILE
*
IN
,
FILE
*
OUT
);
void
r_grille
(
FILE
*
IN
,
FILE
*
OUT
);
void
r_image
(
FILE
*
IN
,
FILE
*
OUT
);
void
r_large
(
FILE
*
IN
,
FILE
*
OUT
);
void
r_limit
(
FILE
*
IN
,
FILE
*
OUT
,
int
i
);
void
r_msgrid
(
FILE
*
IN
,
FILE
*
OUT
);
void
r_observ
(
FILE
*
IN
,
FILE
*
OUT
);
void
r_potentiel
(
FILE
*
IN
,
FILE
*
OUT
,
int
ilens
);
void
r_potfile
(
FILE
*
IN
,
FILE
*
OUT
,
struct
g_pot
*
pot
);
void
r_dynfile
(
FILE
*
IN
,
FILE
*
OUT
);
//TV Oct2011
void
r_runmode
(
FILE
*
IN
,
FILE
*
OUT
);
void
r_shapelimit
(
FILE
*
IN
,
FILE
*
OUT
,
long
int
isrc
);
void
r_shapemodel
(
FILE
*
IN
,
FILE
*
OUT
,
long
int
isrc
);
void
r_source
(
FILE
*
IN
,
FILE
*
OUT
);
double
**
readBayesModels
(
int
*
nParam
,
long
int
*
nVal
);
void
readConstraints
();
double
**
readimage
(
struct
g_pixel
*
P
);
void
read_lenstable
();
int
rescaleCube_1Atom
(
double
*
cube
,
int
npar
);
double
rho_cri
(
double
z
);
void
s_compmag
(
struct
galaxie
*
gal
,
int
*
idum
);
void
scale_pot
(
struct
g_pot
*
pot
);
complex
scpx
(
complex
c1
,
complex
c2
);
complex
scpxflt
(
complex
c1
,
double
f2
);
void
rhos2b0
();
void
set_default
();
void
set_dynamics
(
long
int
i
);
// in set_lens.c
void
set_lens
();
void
set_lens_par
(
FILE
*
OUT
);
int
set_potfile
(
int
nplens
,
struct
g_pot
*
pot
);
void
set_res_par
();
void
setBayesModel
(
long
int
iVal
,
long
int
nVal
,
double
**
array
);
// in readBayesModels.c
void
setScalingRelations
(
struct
g_pot
*
pot
);
double
sgn_darg
(
complex
z1
,
complex
z2
);
double
sgn
(
double
x
);
double
sig2posS4j
(
double
sigmaArcsec
,
struct
galaxie
*
multi
,
struct
point
ps
,
int
j
);
double
sig2posS
(
double
sigmaArcsec
,
int
n
,
int
n_famille
,
double
*
np_b0
);
double
sig2posSj
(
double
sigmaArcsec
,
struct
galaxie
*
multi
,
int
n
,
int
j
,
int
n_famille
);
void
sig2posSe
(
struct
galaxie
*
multi
,
double
*
sigx2
,
double
*
sigy2
);
double
signe
(
const
struct
triplet
*
T
,
const
struct
point
*
P
);
complex
sincpx
(
complex
c
);
complex
sinhcpx
(
complex
c
);
double
slope
(
double
x0
,
double
y0
,
double
x1
,
double
y1
);
void
sortf
(
int
n
,
double
*
A
,
int
(
*
comp
)(
double
,
double
));
void
sort
(
long
int
n
,
struct
galaxie
*
A
,
int
(
*
comp
)(
struct
galaxie
*
,
struct
galaxie
*
));
void
s_pixlist
(
double
**
image
,
struct
pixlist
*
pl
,
int
*
npl
);
void
spline
(
const
double
*
x
,
const
double
*
y
,
int
n
,
double
yp1
,
double
ypn
,
double
*
y2
);
int
split_image
(
double
**
image
,
int
nbr_lin
,
int
nbr_col
);
double
sp_pot
(
struct
point
P
);
void
sp_set
(
double
**
map
,
int
nx
,
int
ny
,
double
**
map_xx
,
double
**
map_yy
);
complex
sqcpx
(
complex
c
);
complex
sqrtcpx
(
complex
c
);
void
s_sof
();
void
s_source
();
void
s_sourcebox
(
struct
g_pixel
*
ps
,
const
char
*
centerfile
,
double
dlsds
);
int
splitzmlimit
(
char
name
[
IDSIZE
],
char
limage
[
ZMBOUND
][
IDSIZE
]);
void
st_opt
(
int
mode
,
struct
galaxie
*
imas
,
int
nima
,
double
*
z
,
double
ts
[
NASMAX
][
200
],
double
pz
[
NASMAX
][
200
],
double
ipz
[
NASMAX
][
200
],
double
amp
[
NASMAX
][
200
],
double
*
kappa
,
double
*
gam
,
double
*
thetap
,
double
*
sumpz
,
double
*
tauix
,
double
*
tauiy
,
int
jmax
,
double
*
zpm
,
double
*
nmag
);
double
stddev
(
int
n
,
double
*
array
);
void
study_pg
(
int
type
,
double
seeing
,
char
studyfile
[],
int
fake
);
complex
tancpx
(
complex
c
);
void
tirer
(
struct
galaxie
*
source
);
double
tnfwg_dpl
(
double
xwant
,
double
alphawant
);
double
tnfwg_kappa
(
double
xwant
,
double
alphawant
);
void
tracepot
();
void
e_transform
(
struct
triplet
*
I
,
double
dlsds
,
struct
triplet
*
S
);
void
interieur
(
const
struct
triplet
*
E
,
struct
triplet
*
I
);
int
unlens_bc
(
const
struct
point
*
Ps
,
struct
point
Bs
,
struct
galaxie
*
multi
,
struct
point
*
multib
,
int
n
,
int
n_famille
,
int
*
det_stop
);
void
updatecut
(
int
i
);
void
update_emass
(
int
i
);
void
update_epot
(
int
i
,
double
*
epot
);
void
w_critic
();
void
w_gianti
(
int
ngs
,
char
name
[
20
]);
void
w_prop
(
int
nprop
,
char
propfile
[]);
void
wr_mass
(
char
*
name
,
double
**
map_xx
,
double
**
map_yy
);
void
wr_pot
(
char
*
name
,
double
**
map
);
void
w_sicat
(
struct
galaxie
ima
[
NFMAX
][
NIMAX
],
struct
galaxie
ss
[
NFMAX
]);
double
zero
(
double
c1
,
double
c2
,
double
(
*
f
)(
double
));
double
zero_t
(
double
c1
,
double
c2
,
double
(
*
f
)(
double
));
void
zonemult
();
//partie einasto
float
einasto_masse
(
double
r
,
double
rs
,
int
n
,
double
rhos
);
float
einasto_sigma
(
double
r
,
double
rs
,
int
n
,
double
rhos
);
float
einasto_kappa
(
double
r
,
double
rs
,
int
n
,
double
rhos
,
double
kappa_crit
);
float
einasto_kappa_av
(
double
r
,
double
rs
,
int
n
,
double
rhos
,
double
kappa_crit
);
double
einasto_gamma
(
double
r
,
double
rs
,
int
n
,
double
rhos
,
double
kappa_crit
);
struct
point
einasto_gamma_eps
(
double
r
,
double
rs
,
double
n
,
double
theta
,
double
kappa_crit
,
double
rhos
,
double
eps
);
float
einasto_phi
(
double
r
,
double
rs
,
int
n
,
double
rhos
,
double
kappa_crit
);
float
einasto_alpha
(
double
r
,
double
rs
,
int
n
,
double
rhos
,
double
kappa_crit
);
void
read_table_einasto
();
void
precompsource
();
void
testpixel
();
//#ifdef __cplusplus
//};
//#endif
#endif
// if FONCTION_H
Event Timeline
Log In to Comment