Sanity tests

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Here we will quickly go over some commands to test basic functionality of miriad: getting the data into miriad and displaying this data using pgplot routines. We also suggest to install [http://hea-www.harvard.edu/RD/ds9/ ds9] and
 
Here we will quickly go over some commands to test basic functionality of miriad: getting the data into miriad and displaying this data using pgplot routines. We also suggest to install [http://hea-www.harvard.edu/RD/ds9/ ds9] and
 
the associated XPA tools. Although mostly for images and cubes, it can also be used to browse your visbility data bricks. An additional, image cube visualization package we recommend for Miriad is [http://www.atnf.csiro.au/computing/software/karma/ karma]
 
the associated XPA tools. Although mostly for images and cubes, it can also be used to browse your visbility data bricks. An additional, image cube visualization package we recommend for Miriad is [http://www.atnf.csiro.au/computing/software/karma/ karma]
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=== X windows and your OS shell ===
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Linux uses the X11 windowing system, on the Mac this is an option and you need to have it installed via Xcode. Although in principle you can operate out of X windows, you probably should have it. Test it:
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  % '''xterm'''
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You should also check what your default login shell is. It should be ''sh'' (most likely '''bash''') or ''csh'' (most likely '''tcsh'''). The examples below, where they matter, are using ''csh''-style. Notably on MacOSX there are two ways you have to set your login-shell (Terminal->Preferences and xterm w/  chsh)  !! ''need to verify this statement'' !!
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Notably how you start MIRIAD depends on your login shell:
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  % source miriad_start.csh
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for the ''csh'' family, and
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  $ source miriad_start.sh
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for the ''sh'' family.
  
 
=== Image Data and Display ===
 
=== Image Data and Display ===

Revision as of 10:47, 25 June 2008

Contents

Sanity Checks

Here we will quickly go over some commands to test basic functionality of miriad: getting the data into miriad and displaying this data using pgplot routines. We also suggest to install ds9 and the associated XPA tools. Although mostly for images and cubes, it can also be used to browse your visbility data bricks. An additional, image cube visualization package we recommend for Miriad is karma

X windows and your OS shell

Linux uses the X11 windowing system, on the Mac this is an option and you need to have it installed via Xcode. Although in principle you can operate out of X windows, you probably should have it. Test it:

 % xterm

You should also check what your default login shell is. It should be sh (most likely bash) or csh (most likely tcsh). The examples below, where they matter, are using csh-style. Notably on MacOSX there are two ways you have to set your login-shell (Terminal->Preferences and xterm w/ chsh)  !! need to verify this statement !!

Notably how you start MIRIAD depends on your login shell:

 % source miriad_start.csh

for the csh family, and

 $ source miriad_start.sh

for the sh family.

Image Data and Display

Generating an image and displaying it in miriad:

 % imgen out=map0
 % hexdump -C map0/header | tail
 ...
 000001c0  6e 61 78 69 73 00 00 00  00 00 00 00 00 00 00 08  |naxis...........|
 000001d0  00 00 00 02 00 00 00 02                           |........|


The important thing to note is the last line, if endianism is wrong on your machine, the last 4 bytes might read as 2,0,0,0 instead of 0,0,0,2. As in FITS files, data in miriad are stored in a big-endian fashion, which means on intel chips (little-endian) data will need to be byte swapped.

Now display the data

 % implot in=map0 device=/xs
 % ds9 &
 % mirds9 map0

And to make sure your random number generator works:

 % imgen out=map1 object=noise spar=1
 % histo in=map1 | grep Rms
 Mean -3.29890E-04 Rms  9.99046E-01 Flux -2.16197E+01 Jy (65536 points)

Visibility Data and Display

Getting a Carma visibility dataset from the archive and displaying some basic properties of the data. The example below is a shortcut that may not work in the future. It is 0.5MB in size, and also available from our anonymous ftp:


 % wget -O - http://carma-server.ncsa.uiuc.edu:8181/data//fringe.3C273.2008jun18.4.miriad.tar.gz | tar zxf -
or
 % curl http://carma-server.ncsa.uiuc.edu:8181/data//fringe.3C273.2008jun18.4.miriad.tar.gz | tar zxf -
 % itemize in=fringe.3C273.2008jun18.4.miriad
 itemize: Version 1.4, 2008/02/19 20:06:29 UTC
   
   obstype  = mixed-auto-cross
   nwcorr   = 6552
   ncorr    = 98280
   vislen   = 545232
   wflags     (integer data, 212 elements)
   vartable   (text data, 650 elements)
   history    (unknown data, 0 elements)
   visdata    (binary data, 545228 elements)
   flags      (integer data, 3171 elements)


On MacOSX (not sure intel, ppc or both) the output of nwcorr/ncorr/vislen may look different, which is related to the compiler not able to print integer*8. This seems to work fine on linux (32 and 64 bit).

 % uvplt vis=fringe.3C273.2008jun18.4.miriad device=/xs
 % uvio fringe.3C273.2008jun18.4.miriad  > flux.log

WIP: a pgplot based plotting package

Give the following commands to see if you have your environment setup correctly:

 % wip -d /xs
 WIP> box
 WIP> end
 % wip -d /gif
 WIP> box
 WIP> end
 % wip -d /ps
 WIP> box
 WIP> hardcopy
 WIP> end
 % wip -d /xs
 WIP> image map0
 WIP> header rd rd
 WIP> halftone
 WIP> end

Be careful with that last example, the hardcopy command would spool your pgplot.ps file to your default printer,unless you have modified your .wipinit file with something like

 set "print" echo Printfile in %s

or simply

 set print ignore

A final byteswapping test in from a miriad image:

 % wip -d /xs
 WIP> image map0
 WIP> header rd rd
 WIP> halftone
 WIP> end

should show just a blob in the center.

Software Development (old build)

  • Assuming your Miriad is CVS enabled (i.e. you will see the $MIR/CVS directory), you should test if you can update Miriad using cvs:
  % cd $MIR
  % cvs -nq update

If this failed with a command not found, cvs should be installed. Another failure mode is not having a ~/.cvspass entry for the anonymous access to the UMD cvs server. For this do:

  % cvs login
  % cvs -nq update
  • Testing to see if you can compile a subroutine or program, try these:
  % mirboss
  % mir.subs fitsio
  % mir.prog itemize
  • To update Miriad, you can update the source tree from its root:
  % cd $MIR
  % cvs update

now carefully watch files passing by on your screen. Any preceded with ? are ok, they are not in CVS control. But anything with M (locally modified) could be suspect, the U or P are files that were updated/patched, and a C is a disaster: a CVS conflict occured. You will need to resolve this, e.g. by renaming/removing the offending file, and updating that file again.

Software Development (new build)

The new build system should be easier to use and is normally installed under $MIR/build. The commands just take a bit longer. After a CVS update:

 % cd $MIR
 % cvs update

you should be able to test if the new code works:

 % make

and if so, install it

 % make install
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