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e_unlens_fast.c
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Sun, Dec 29, 05:39
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2 KB
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text/x-c
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Tue, Dec 31, 05:39 (8 h, 26 m)
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blob
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23218920
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R1448 Lenstool-HPC
e_unlens_fast.c
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#include<stdio.h>
#include<string.h>
#include<math.h>
#include<fonction.h>
#include<constant.h>
#include<dimension.h>
#include<structure.h>
/****************************************************************/
/* nom: e_unlens */
/* auteur: Jean-Paul Kneib */
/* date: 10/02/92 */
/* place: Toulouse */
/****************************************************************/
void
e_unlens_fast
(
int
nima
,
struct
galaxie
*
ima
,
struct
galaxie
*
source
)
{
const
extern
struct
g_source
S
;
//const extern struct g_mode M;
const
extern
struct
pot
lens
[];
struct
matrix
MM
;
struct
ellipse
ampli
;
register
int
i
;
double
A
,
B
,
C
,
gg
,
qq
;
for
(
i
=
0
;
i
<
nima
;
i
++
)
{
if
(
ima
[
i
].
z
==
0.
)
ima
[
i
].
z
=
S
.
zs
;
ima
[
i
].
dr
=
dratio
(
lens
[
0
].
z
,
ima
[
i
].
z
);
source
[
i
].
c
=
ima
[
i
].
c
;
if
(
ima
[
i
].
dr
>
0
)
{
MM
=
e_grad2_gal
(
&
ima
[
i
],
NULL
);
MM
.
a
*=
ima
[
i
].
dr
;
MM
.
b
*=
ima
[
i
].
dr
;
MM
.
c
*=
ima
[
i
].
dr
;
MM
.
d
*=
ima
[
i
].
dr
;
A
=
1.
-
MM
.
a
;
B
=
-
MM
.
b
;
C
=
1.
-
MM
.
c
;
ampli
=
formeli
(
A
,
B
,
C
);
ima
[
i
].
kappa
=
(
MM
.
a
+
MM
.
c
)
/
2.
/
ima
[
i
].
dr
;
ima
[
i
].
gamma1
=
(
MM
.
a
-
MM
.
c
)
/
2.
/
ima
[
i
].
dr
;
ima
[
i
].
gamma2
=
MM
.
b
/
ima
[
i
].
dr
;
ima
[
i
].
thp
=
0.5
*
atan2
(
ima
[
i
].
gamma2
,
ima
[
i
].
gamma1
);
gg
=
ima
[
i
].
dr
*
sqrt
(
ima
[
i
].
gamma1
*
ima
[
i
].
gamma1
+
ima
[
i
].
gamma2
*
ima
[
i
].
gamma2
)
/
(
1
-
ima
[
i
].
dr
*
ima
[
i
].
kappa
);
ima
[
i
].
tp
=
2
*
gg
/
(
1
-
gg
*
gg
);
ima
[
i
].
dp
=
sqrt
(
1.
+
ima
[
i
].
tp
*
ima
[
i
].
tp
);
ima
[
i
].
ep
=
ima
[
i
].
tp
/
ima
[
i
].
dp
;
qq
=
ima
[
i
].
E
.
b
/
ima
[
i
].
E
.
a
;
ima
[
i
].
tau
=
(
1.
-
qq
*
qq
)
/
2.
/
qq
;
ima
[
i
].
taux
=
ima
[
i
].
tau
*
cos
(
2.
*
(
ima
[
i
].
E
.
theta
-
ima
[
i
].
thp
));
ima
[
i
].
tauy
=
ima
[
i
].
tau
*
sin
(
2.
*
(
ima
[
i
].
E
.
theta
-
ima
[
i
].
thp
));
ima
[
i
].
dis
=
sqrt
(
1.
+
ima
[
i
].
tau
*
ima
[
i
].
tau
);
ima
[
i
].
eps
=
ima
[
i
].
tau
/
ima
[
i
].
dis
;
if
(
ima
[
i
].
E
.
b
!=
0.
)
isoima
(
&
ima
[
i
].
E
,
&
ampli
,
&
source
[
i
].
E
);
else
{
source
[
i
].
E
.
a
=
source
[
i
].
E
.
b
=
ima
[
i
].
E
.
a
*
fabs
(
ampli
.
a
*
ampli
.
b
);
source
[
i
].
E
.
theta
=
0.
;
}
e_dpl
(
&
ima
[
i
].
C
,
ima
[
i
].
dr
,
&
source
[
i
].
C
);
strcpy
(
source
[
i
].
n
,
ima
[
i
].
n
);
source
[
i
].
z
=
ima
[
i
].
z
;
source
[
i
].
mag
=
ima
[
i
].
mag
-
2.5
*
log10
(
fabs
(
ampli
.
a
*
ampli
.
b
));
source
[
i
].
dr
=
ima
[
i
].
dr
;
}
else
source
[
i
]
=
ima
[
i
];
};
}
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