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PGPLOT - allow subroutines in the PGPLOT graphics library to be called from Perl. (Displayed)
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PGPLOT - allow subroutines in the PGPLOT graphics library to be called from Perl.
PGPLOT - allow subroutines in the PGPLOT graphics library to be called from Perl.
use PGPLOT;
pgbegin(0,"/xserve",1,1);
pgenv(1,10,1,10,0,0);
pglabel('X','Y','My plot');
pgpoint(7,[2..8],[2..8],17);
# etc...
pgend;
Originally developed in the olden days of Perl4 (when it was known
as 'pgperl' due to the necessity of making a special perl executable)
PGPLOT is now a dynamically loadable perl module which interfaces
to the FORTRAN graphics library of the same name.
PGPLOT, originally developed as a FORTRAN library, is now available with
C bindings (which the Perl module uses), though a FORTRAN compiler is
still required to build it.
For every PGPLOT C/FORTRAN function the module provides an equivalent
Perl function with the same arguments. Thus the user of the module should
refer to the PGPLOT manual to learn all about how to use PGPLOT and for
the complete list of available functions. This manual comes with the
PGPLOT distribution and is also available at the WWW address:
http://astro.caltech.edu/~tjp/pgplot/
Also refer to the extensive set of test scripts (test*.p) included
in the module distribution for examples of usage of all kinds of
PGPLOT routines.
How the FORTRAN/C function calls map on to Perl calls is detailed below.
This is more or less as you might expect - use Perl scalars
and Perl arrays in place of FORTRAN/C variables and arrays.
Any FORTRAN REAL/INTEGER/CHARACTER* scalar variable maps to a
Perl scalar (Perl doesn't care about the differences between
strings and numbers and ints and floats).
Thus you can say:
To draw a line to point (42,$x):
pgdraw(42,$x);
To plot 10 points with data in Perl arrays @x and @y with plot symbol
no. 17. Note the Perl arrays are passed by reference:
pgpoint(10, \@x, \@y, 17);
You can also use the old Perl4 style:
pgpoint(10, *x, *y, 17);
but this is deprecated in Perl5.
Label the axes:
pglabel("X axis", "Data units", $label);
Draw ONE point, see how when N=1 pgpoint() can take a scalar as well as
a array argument:
pgpoint(1, $x, $y, 17);
Many of the PGPLOT commands (e.g. pggray) take 2D arrays as
arguments. Several schemes are provided to allow efficient use
from Perl:
Simply pass a reference to a 2D array, e.g:
# Create 2D array
$x=[];
for($i=0; $i<128; $i++) {
for($j=0; $j<128; $j++) {
$$x[$i][$j] = sqrt($i*$j);
}
}
pggray( $x, 128, 128, ...);
Pass a reference to a 1D array:
@x=();
for($i=0; $i<128; $i++) {
for($j=0; $j<128; $j++) {
$x[$i][$j] = sqrt($i*$j);
}
}
pggray( \@x, 128, 128, ...);
Here @x is a 1D array of 1D arrays. (Confused? - see perldata(1)).
Alternatively @x could be a flat 1D array with 128x128 elements, 2D
routines such as pggray() etc. are programmed to do the right thing
as long as the number of elements match.
If your image data is packed in raw binary form into a character string
you can simply pass the raw string. e.g.:
read(IMG, $img, 32768);
pggray($img, $xsize, $ysize, ...);
Here the read() function reads the binary data from a file and the
pggray() function displays it as a grey-scale image.
This saves unpacking the image data in to a potentially very large 2D
perl array. However the types must match. The string must be packed as a
"f*" for example to use pggray. This is intended as a short-cut for
sophisticated users. Even more sophisticated users will want to download
the PDL module which provides a wealth of functions for manipulating
binary data.
PLEASE NOTE: As PGPLOT is a Fortran library it expects it's images to be
be stored in row order. Thus a 1D list is interpreted as a sequence of
rows end to end. Perl is similar to C in that 2D arrays are arrays of
pointers thus images end up stored in column order.
Thus using perl multidimensional arrays the coordinate ($i,$j) should be
stored in $img[$j][$i] for things to work as expected, e.g:
$img = [];
for $j (0..$nx-1) for $i (0..$ny-1) {
$$img[$j][$i] = whatever();
}}
pggray($$img, $nx, $ny, ...);
Also PGPLOT displays coordinate (0,0) at the bottom left (this is
natural as the subroutine library was written by an astronomer!).
Some PGPLOT functions (e.g. pgfunx) take functions as callback
arguments. In Perl simply pass a subroutine reference or a name,
e.g.:
# Anonymous code reference:
pgfunx(sub{ sqrt($_[0]) }, 500, 0, 10, 0);
# Pass by ref:
sub foo {
my $x=shift;
return sin(4*$x);
}
pgfuny(\&foo, 360, 0, 2*$pi, 0);
# Pass by name:
pgfuny("foo", 360, 0, 2*$pi, 0);
In addition to the implicit rules mentioned above PGPLOT now provides
a scheme for explictly handling binary data in all routines.
If your scalar variable (e.g. $x) holds binary data (i.e. 'packed')
then simply pass PGPLOT a reference to it (e.g. \$x). Thus one can
say:
read(MYDATA, $wavelens, $n*4);
read(MYDATA, $spectrum, $n*4);
pgline($n, \$wavelens, \$spectrum);
This is very efficient as we can be sure the data never gets copied
and will always be interpreted as binary.
Again see the PDL module for sophisticated manipulation of
binary data. PDL takes great advantage of these facilities.
Be VERY careful binary data is of the right size or your segments
might get violated.
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