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plotmap.pl
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Created
Fri, Nov 29, 04:10
Size
3 KB
Mime Type
text/x-perl
Expires
Sun, Dec 1, 04:10 (1 d, 23 h)
Engine
blob
Format
Raw Data
Handle
22643044
Attached To
R1448 Lenstool-HPC
plotmap.pl
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#!/usr/bin/perl
#
Plot
a
map
.
is
o
file
produced
by
lenstool
.
#
Input
/
Output
:
NONE
#
Requirement
:
PGPLOT
for
perl
use
PGPLOT
;
#
Load
PGPLOT
module
$
\
=
"\n"
;
open
(
in
,
"map.iso"
)
or
die
"ERROR : map.iso doesn't exists\n"
;
$
n1
=
$
n2
=
10
;
$
i
=
0
;
$
j
=
0
;
while
(
<
in>
)
{
if
(
$
_
=~
/
Nrcut
:
(
\d+
)
/
)
{
$
n1
=
$
1
;
}
if
(
$
_
=~
/
Nsig
:
(
\d+
)
/
)
{
$
n2
=
$
1
;
}
if
(
$
_
=~
/^
([
\d
|
\.
]
*
)
([
\d
|
\.
]
*
)
([
\d
|
\.
]
*
)
/
)
{
(
$$
rcut
[
$
i
][
$
j
],
$$
sig
[
$
i
][
$
j
],
$$
chi2
[
$
i
][
$
j
])
=
(
$
1
,
$
2
,
$
3
);
#
printf
"%d %d %f %f %f\n"
,
$
i
,
$
j
,
$$
rcut
[
$
i
][
$
j
],
$$
sig
[
$
i
][
$
j
],
$$
chi2
[
$
i
][
$
j
];
$
i++
;
if
(
$
i
==
$
n1
)
{
$
i
=
0
;
$
j++
;
}
}
}
printf
"%d x %d points read\n"
,
$
n1
,
$
n2
;
close
(
in
);
#
Compute
the
chi2
min
and
max
values
$
chi2min
=
1
e20
;
$
chi2max
=
-
1
e20
;
$
i
=
0
;
$
j
=
0
;
while
(
$
j
<
$
n2
)
{
if
(
$
chi2min
>
$$
chi2
[
$
i
][
$
j
]
)
{
$
chi2min
=
$$
chi2
[
$
i
][
$
j
];
$
imin
=
$
i
;
$
jmin
=
$
j
;
}
if
(
$
chi2max
<
$$
chi2
[
$
i
][
$
j
]
)
{
$
chi2max
=
$$
chi2
[
$
i
][
$
j
];
$
imax
=
$
i
;
$
jmax
=
$
j
;
}
$
i++
;
if
(
$
i
==
$
n1
)
{
$
i
=
0
;
$
j++
;
}
}
printf
"chi2min:%f chi2max:%f \n"
,
$
chi2min
,
$
chi2max
;
printf
"best_rcut:%.2f best_sig:%.2f chi2:%.3f\n"
,
$$
rcut
[
$
imin
][
$
jmin
],
$$
sig
[
$
imin
][
$
jmin
],
$
chi2min
;
#
Set
the
min
and
max
for
rcut
and
sigma
$
rcutmin
=
$$
rcut
[
0
][
0
];
$
rcutmax
=
$$
rcut
[
$
n1
-
1
][
$
n2
-
1
];
$
sigmin
=
$$
sig
[
0
][
0
];
$
sigmax
=
$$
sig
[
$
n1
-
1
][
$
n2
-
1
];
#
Define
the
transformation
matrix
array
coordinates
to
(
rcut
,
sigma
)
for
pgcont
#
rcutval
=
rcutmin
+
(
rcutmax
-
rcutmin
)
/
(
n1
-
1
)
*
(
I
-
1
)
#
sigval
=
sigmin
+
(
sigmax
-
sigmin
)
/
(
n2
-
1
)
*
(
J
-
1
)
$
tr
[
0
]
=
$
rcutmin
;
$
tr
[
2
]
=
0
.;
$
tr
[
1
]
=
(
$
rcutmax
-
$
rcutmin
)
/
(
$
n1
-
1
);
$
tr
[
0
]
-=
$
tr
[
1
];
$
tr
[
3
]
=
$
sigmin
;
$
tr
[
5
]
=
(
$
sigmax
-
$
sigmin
)
/
(
$
n2
-
1
);
$
tr
[
3
]
-=
$
tr
[
5
];
$
tr
[
4
]
=
0
.;
#
Set
the
3
chi2
contour
levels
(
3
,
2
,
1
)
sig
$
alev
[
0
]
=
$
chi2min
+
3
/
10
*
(
$
chi2max
-
$
chi2min
);
$
alev
[
1
]
=
$
chi2min
+
2
/
10
*
(
$
chi2max
-
$
chi2min
);
$
alev
[
2
]
=
$
chi2min
+
1
/
10
*
(
$
chi2max
-
$
chi2min
);
#
Begin
plot
section
pgbegin
(
0
,
"/xserve"
,
1
,
1
);
#
Open
plot
device
pgscf
(
2
);
#
Set
character
font
pgslw
(
4
);
#
Set
line
width
pgsch
(
1
.
6
);
#
Set
character
height
#
plot
the
viewport
pgenv
(
$
rcutmin
,
$
rcutmax
,
$
sigmin
,
$
sigmax
,
0
,
0
);
pglab
(
"rcut (kpc)"
,
"sigma (km/s)"
,
"(white, red, green) = (3sig, 2sig, 1sig)"
);
pggray
(
$
chi2
,
$
n1
,
$
n2
,
1
,
$
n1
,
1
,
$
n2
,
$
chi2min
,
$
chi2max
,
\@tr
);
pgsci
(
1
);
pgbox
(
'BCNTS'
,
0
.,
0
,
'BCNTS'
,
0
.,
0
);
#
plot
the
3
contours
with
3
different
colors
pgsci
(
1
);
pgcont
(
$
chi2
,
$
n1
,
$
n2
,
1
,
$
n1
,
1
,
$
n2
,
$
alev
[
0
],
1
,
\@tr
);
pgsci
(
2
);
pgcont
(
$
chi2
,
$
n1
,
$
n2
,
1
,
$
n1
,
1
,
$
n2
,
$
alev
[
1
],
1
,
\@tr
);
pgsci
(
3
);
pgcont
(
$
chi2
,
$
n1
,
$
n2
,
1
,
$
n1
,
1
,
$
n2
,
$
alev
[
2
],
1
,
\@tr
);
#
Plot
the
min
(
blue
)
and
max
(
red
)
chi2
position
pgsci
(
4
);
pgpt
(
1
,
$$
rcut
[
$
imin
][
$
jmin
],
$$
sig
[
$
imin
][
$
jmin
],
17
);
pgsci
(
2
);
pgpt
(
1
,
$$
rcut
[
$
imax
][
$
jmax
],
$$
sig
[
$
imax
][
$
jmax
],
17
);
#
interactive
:
plot
the
chi2
value
when
click
and
quit
when
'q'
$
ch
=
""
;
pgsci
(
1
);
pgmtext
(
'B'
,
2
,
-
0
.
15
,
0
.,
"chi2 :"
);
while
(
$
ch
ne
"q"
)
{
pgcurs
(
$
x
,
$
y
,
$
ch
);
pgsci
(
0
);
pgmtext
(
'B'
,
2
,
0
.,
0
.,
$$
chi2
[
$
j
][
$
i
]
);
$
i
=
$
x
+
$
tr
[
1
]
/
2
.;
$
j
=
$
y
+
$
tr
[
5
]
/
2
.;
$
i
=
(
$
i
-
$
rcutmin
)
*
(
$
n1
-
1
)
/
(
$
rcutmax
-
$
rcutmin
);
$
j
=
(
$
j
-
$
sigmin
)
*
(
$
n2
-
1
)
/
(
$
sigmax
-
$
sigmin
);
pgsci
(
1
);
pgmtext
(
'B'
,
2
,
0
.,
0
.,
$$
chi2
[
$
j
][
$
i
]
);
#
printf
"%f %f %d %d\n"
,
$
x
,
$
y
,
$
i
,
$
j
;
}
pgend
;
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