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criticinv.c
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Sun, Dec 29, 21:14
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7 KB
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text/x-c
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Tue, Dec 31, 21:14 (2 d)
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blob
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23212536
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R1448 Lenstool-HPC
criticinv.c
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#include<stdio.h>
#include<math.h>
#include<fonction.h>
#include<constant.h>
#include<dimension.h>
#include<structure.h>
/****************************************************************/
/* nom: critic */
/* auteur: Jean-Paul Kneib */
/* date: 10/02/92 */
/* place: Toulouse */
/****************************************************************/
/* Parameters
* xmin, ymin, xmax, ymax define the size of the working image
*
* Global variables used :
* - CL, radial, tangent, lens, nrline, ntline, flagr, flagt, G
* - in e_zeroamp() : G, lens
* - in next() : G, lens
* - in e_dpl() : G, lens, lens_table
* - in dratio() : C
* - in chsigne() : G, lens
* - in follow() : CL, radial, nrline, flagr, G, lens, lens_table
* - in followi() : CL, ntline, flagt, tangent, G, lens, lens_table
* */
#undef NPOINT
#define NPOINT 4
void
criticinv
(
double
xmin
,
double
ymin
,
double
xmax
,
double
ymax
)
{
const
extern
struct
g_cline
CL
;
extern
struct
biline
radial
[],
tangent
[];
const
extern
struct
pot
lens
[];
const
extern
struct
g_grille
G
;
extern
int
nrline
,
ntline
,
flagr
,
flagt
;
struct
point
A
,
B
,
DPL
,
N
,
O
,
OI
,
OS
,
P
,
Q
;
struct
point
LP
[
NLMAX
+
1
];
/*path from the bottom left hand corner to the
farthest lens*/
struct
point
LDPL
[
NLMAX
+
1
];
/*distance in units of ppas in x and y directions
between 2 consecutive lenses*/
int
lnpas
[
NLMAX
+
1
];
int
nu
[
NLMAX
+
1
];
/*contains the lens order on the LP path*/
int
fsel
[
NLMAX
+
1
];
/*keep in memory that nu[i] lens has been considered
in the LP path*/
double
ppas
;
/* sampling size.(Diag/NPOINT)*/
double
dc
;
double
Dmin
;
double
J
;
double
dl0s
,
dos
,
dlsds
;
// distances between lens[0] and CL.nz[i], and ratio
register
int
j
,
k
,
ii
;
register
int
i
;
int
signe_flag
;
/* initialisation de quelques constantes */
nrline
=
0
;
flagr
=
1
;
ntline
=
0
;
flagt
=
1
;
J
=
NPOINT
;
ppas
=
sqrt
((
xmax
-
xmin
)
*
(
xmax
-
xmin
)
+
(
ymax
-
ymin
)
*
(
ymax
-
ymin
))
/
NPOINT
;
/* liste des points a suivre */
/* if only 1 lens*/
if
(
G
.
nlens
==
1
)
{
LP
[
0
]
=
lens
[
0
].
C
;
LDPL
[
0
].
x
=
Max
(
xmax
-
lens
[
0
].
C
.
x
,
xmin
-
lens
[
0
].
C
.
x
)
/
J
;
LDPL
[
0
].
y
=
Max
(
ymax
-
lens
[
0
].
C
.
y
,
ymin
-
lens
[
0
].
C
.
y
)
/
J
;
if
((
lens
[
0
].
type
==
5
)
||
(
lens
[
0
].
type
==
7
)
||
(
lens
[
0
].
type
==
0
)
||
(
lens
[
0
].
type
==
1
))
{
LP
[
0
].
x
+=
LDPL
[
0
].
x
;
LP
[
0
].
y
+=
LDPL
[
0
].
y
;
};
lnpas
[
0
]
=
NPOINT
;
}
/*end of if only 1 lens*/
else
{
LP
[
0
].
x
=
xmin
;
/*LP is the path from the bottom left hand corner to the farthest lens*/
LP
[
0
].
y
=
ymin
;
Dmin
=
9999.
;
for
(
i
=
0
;
i
<
G
.
nlens
;
i
++
)
{
nu
[
i
]
=
99
;
fsel
[
i
]
=
0
;
};
/* look for the closest lens from the bottom left hand corner*/
for
(
i
=
0
;
i
<
G
.
nlens
;
i
++
)
{
dc
=
dist
(
LP
[
0
],
lens
[
i
].
C
);
if
(
dc
<
Dmin
)
{
Dmin
=
dc
;
/* Dmin contains the minimum distance from the corner*/
nu
[
0
]
=
i
;
/* nu[0] contains the index for the 1st closest lens*/
};
};
LP
[
1
]
=
lens
[
nu
[
0
]].
C
;
fsel
[
nu
[
0
]]
=
1
;
/*for each lens*/
for
(
i
=
1
;
i
<
G
.
nlens
;
i
++
)
{
Dmin
=
9999.
;
/*find the closest lens from the LP[i] point*/
for
(
j
=
0
;
j
<
G
.
nlens
;
j
++
)
{
if
(
fsel
[
j
]
!=
1
)
{
dc
=
dist
(
LP
[
i
],
lens
[
j
].
C
);
if
(
dc
<
Dmin
)
{
Dmin
=
dc
;
nu
[
i
]
=
j
;
/*keep the lens order on the LP path*/
};
};
};
LP
[
i
+
1
]
=
lens
[
nu
[
i
]].
C
;
fsel
[
nu
[
i
]]
=
1
;
/*keep in memory that nu[i] lens has been considered in the LP path*/
};
/*end of for each lens*/
/*for each lens*/
for
(
i
=
0
;
i
<
G
.
nlens
;
i
++
)
{
if
((
lens
[
nu
[
i
]].
type
==
5
)
||
(
lens
[
nu
[
i
]].
type
==
7
)
||
(
lens
[
nu
[
i
]].
type
==
0
)
||
(
lens
[
nu
[
i
]].
type
==
1
))
{
LP
[
i
+
1
].
x
+=
0.01
;
LP
[
i
+
1
].
y
+=
0.015
;
};
/*number of ppas in x and y between 2 consecutive lenses*/
lnpas
[
i
]
=
(
int
)
(
dist
(
LP
[
i
],
LP
[
i
+
1
])
/
2.
/
ppas
);
LDPL
[
i
].
x
=
(
LP
[
i
+
1
].
x
-
LP
[
i
].
x
)
/
lnpas
[
i
];
LDPL
[
i
].
y
=
(
LP
[
i
+
1
].
y
-
LP
[
i
].
y
)
/
lnpas
[
i
];
};
};
/*end of there are more than 1 lens*/
/*for each critical line to draw*/
for
(
k
=
0
;
k
<
CL
.
nplan
;
k
++
)
{
dl0s
=
distcosmo2
(
lens
[
0
].
z
,
CL
.
cz
[
k
]);
dos
=
distcosmo1
(
CL
.
cz
[
k
]);
dlsds
=
dl0s
/
dos
;
/*for each lens*/
for
(
ii
=
0
;
ii
<
G
.
nlens
;
ii
++
)
{
A
=
LP
[
ii
];
DPL
=
LDPL
[
ii
];
/*for each point along the path*/
for
(
i
=
1
;
i
<
lnpas
[
ii
];
A
=
B
,
i
++
)
{
B
.
x
=
A
.
x
+
DPL
.
x
;
B
.
y
=
A
.
y
+
DPL
.
y
;
signe_flag
=
chsigne
(
A
,
B
,
dl0s
,
dos
,
CL
.
cz
[
k
]);
if
(
signe_flag
==
1
)
/*search for the radial critical line*/
{
radial
[
nrline
].
i
=
flagr
;
OI
=
O
=
radial
[
nrline
].
I
=
e_zeroamp
(
A
,
B
,
dl0s
,
dos
,
CL
.
cz
[
k
]);
e_dpl
(
&
O
,
dlsds
,
&
OI
);
radial
[
nrline
++
].
S
=
OI
;
N
.
x
=
O
.
x
-
DPL
.
y
/
2.
;
N
.
y
=
O
.
y
+
DPL
.
x
/
2.
;
radial
[
nrline
].
i
=
flagr
;
P
=
radial
[
nrline
].
I
=
next
(
N
,
O
,
CL
.
cpas
/
2.
,
dl0s
,
dos
,
CL
.
cz
[
k
]);
e_dpl
(
&
P
,
dlsds
,
&
radial
[
nrline
++
].
S
);
radial
[
nrline
].
i
=
flagr
;
Q
=
radial
[
nrline
].
I
=
next
(
O
,
P
,
CL
.
cpas
/
2.
,
dl0s
,
dos
,
CL
.
cz
[
k
]);
e_dpl
(
&
Q
,
dlsds
,
&
radial
[
nrline
++
].
S
);
follow
(
P
,
Q
,
O
,
dl0s
,
dos
,
CL
.
cz
[
k
]);
radial
[
nrline
].
i
=
flagr
;
radial
[
nrline
].
I
=
OI
;
radial
[
nrline
++
].
S
=
OS
;
flagr
++
;
}
/*end of if (signe_flag==1)*/
else
if
(
signe_flag
==
2
)
{
tangent
[
ntline
].
i
=
flagt
;
OI
=
O
=
tangent
[
ntline
].
I
=
e_zeroamp
(
A
,
B
,
dl0s
,
dos
,
CL
.
cz
[
k
]);
e_dpl
(
&
O
,
dlsds
,
&
OS
);
tangent
[
ntline
++
].
S
=
OS
;
N
.
x
=
O
.
x
-
DPL
.
y
/
2.
;
N
.
y
=
O
.
y
+
DPL
.
x
/
2.
;
tangent
[
ntline
].
i
=
flagt
;
P
=
tangent
[
ntline
].
I
=
next
(
N
,
O
,
CL
.
cpas
,
dl0s
,
dos
,
CL
.
cz
[
k
]);
e_dpl
(
&
P
,
dlsds
,
&
tangent
[
ntline
++
].
S
);
tangent
[
ntline
].
i
=
flagt
;
Q
=
tangent
[
ntline
].
I
=
next
(
O
,
P
,
CL
.
cpas
,
dl0s
,
dos
,
CL
.
cz
[
k
]);
e_dpl
(
&
Q
,
dlsds
,
&
tangent
[
ntline
++
].
S
);
followi
(
P
,
Q
,
O
,
dl0s
,
dos
,
CL
.
cz
[
k
]);
tangent
[
ntline
].
i
=
flagt
;
tangent
[
ntline
].
I
=
OI
;
tangent
[
ntline
++
].
S
=
OS
;
flagt
++
;
};
/*end of if (signe_flag==2) */
};
/*end of for(i=1;i<lnpas[ii];A=B,i++)*/
};
/*end of for(ii=0;ii<G.nlens;ii++)*/
};
/*end of for(k=0;k<CL.nplan;k++)*/
}
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