INSTALLATION (Jan01)             aceold             INSTALLATION (Jan01)



  ACEOLD: ASTRONOMICAL CATALOGING ENVIRONMENT (OLD DIFFDETECT VERSION)
              Release Notes and Installation Instructions



SUMMARY
The ACEOLD external package is used to catalog  objects  in  images  and
manipulate  the  catalogs.  This version contains a prototype difference
detection masking task with display and review.  It is undocumented  and
very  preliminary.   However,  it  has been in use by the NOAO Deep-Wide
Field Survey for  some  time.   Usage  questions  may  be  addressed  to
bjannuzi@noao.edu  which he can pass on to the data reduction assistants
if he wishes.



RELEASE INFORMATION
The following summary only highlights the  major  changes.   There  will
also be minor changes and bug fixes.


Feb. 10, 2003
    Quick release of currently used NDWFS tasks.


INSTALLATION INSTRUCTIONS
Installation  of  this external package consists of obtaining the files,
creating a directory containing the package, compiling  the  executables
or  installing  precompiled executables, and defining the environment to
load and run the package.  The package may be installed for  a  site  or
as  a  personal  installation.  If you need help with these installation
instructions  contact  iraf@noao.edu  or  call  the  IRAF   HOTLINE   at 
520-318-8160.

[arch]
    In  the  following steps you will need to know the IRAF architecture
    identifier for your IRAF installation.  This identifier  is  similar
    to  the host operating system type.  The identifiers are things like
    "ssun" for Solaris, "alpha" for Dec Alpha, and "linux"  or  "redhat"
    for  most  Linux  systems.   The  IRAF  architecture  identifier  is 
    defined when you run IRAF.  Start the CL and then type
    
        cl> show arch
        .ssun
    
    This is the value you need to know without the leading '.'; i.e. the
    IRAF architecture is "ssun" in the above example.

[1-site]
    If  you  are  installing the package for site use, login as IRAF and
    edit the IRAF file defining the packages.
    
        % cd $hlib
    
    Define the environment variable aceold to be  the  pathname  to  the
    aceold  package  root  directory.  The '$' character must be escaped
    in the VMS pathname and UNIX pathnames must  be  terminated  with  a
    '/'.  Edit extern.pkg to include the following.
    
        reset aceold = /local/aceold/
        task  aceold.pkg = aceold$aceold.cl
    
    NOTE:   There  is  currently  no help documentation for this package
    and so the following  step is not needed.
    
    Near the end of the hlib$extern.pkg file, update the  definition  of
    helpdb  so  it includes the aceold help database, copying the syntax
    already  used  in  the  string.   Add  this  line  before  the  line 
    containing a closing quote:
    
        ,aceold$lib/helpdb.mip\


[1-personal]
    If  you  are  installing  the package for personal use define a host
    environment variable with the pathname of the  directory  where  the
    package  will  be located (needed in order to build the package from
    the source code).  Note that  pathnames  must  end  with  '/'.   For
    example:
    
        % setenv aceold /local/aceold/
    
    In your login.cl or loginuser.cl file make the following definitions
    somewhere before the "keep" statement.
    
        reset aceold = /local/aceold/
        task  aceold.pkg = aceold$aceold.cl
        #printf ("reset helpdb=%s,aceold$lib/helpdb.mip\nkeep\n",
        #    envget("helpdb")) | cl
        flpr
    
    If you will be compiling the package, as  opposed  to  installing  a
    binary  distribution,  then  you  need to define various environment
    variables.   The  following  is  for  Unix/csh  which  is  the  main 
    supported environment.
    
        # Example
        % setenv iraf /iraf/iraf/             # Path to IRAF root (example)
        % source $iraf/unix/hlib/irafuser.csh # Define rest of environment
        % setenv IRAFARCH ssun                # IRAF architecture
    
    where   you  need  to  supply  the  appropriate  path  to  the  IRAF 
    installation root in  the  first  step  and  the  IRAF  architecture
    identifier for your machine in the last step.

[2] Login  into  IRAF.   Create a directory to contain the package files
    and the  instrument  database  files.   These  directory  should  be
    outside the standard IRAF directory tree.
    
        cl> mkdir aceold$
        cl> cd aceold

[3] The  package is distributed as a tar archive for the sources and, as
    an optional convenience,  a  tar  archive  of  the  executables  for
    select  host  computers.  Note that IRAF includes a tar reader.  The
    tar file(s) are most commonly obtained via anonymous ftp.  Below  is
    an  example  from a Unix machine where the compressed files have the
    ".Z"  extension.   Files  with  ".gz"  or  ".tgz"  can  be   handled 
    similarly.
    
        cl> ftp iraf.noao.edu (140.252.1.1)
        login: anonymous
        password: [your email address]
        ftp> cd pub/valdes
        ftp> get aceold.readme
        ftp> binary
        ftp> get aceold.tar.Z
        ftp> get aceold-bin.<arch>.Z  (optional)
        ftp> quit
        cl> !uncompress aceold.tar
        cl> !uncompress aceold-bin.<arch> (optional)
    
    The  readme  file  contains  these  instructions.  The <arch> in the
    optional  executable  distribution   is   replaced   by   the   IRAF 
    architecture identification for your computer.
    
    Upon  request  the  tar file(s) may be otained on tape for a service
    charge.  In this case you would mount the tape use rtar  to  extract
    the tar files.

[4] Extract the source files from the tar archive using 'rtar".
    
        cl> softools
        so> rtar -xrf aceold.tar
        so> bye
    
    On  some  systems, an error message will appear ("Copy 'bin.generic'
    to './bin fails") which can be  ignored.   Sites  should  leave  the
    symbolic  link  'bin'  in  the  package  root  directory pointing to
    'bin.generic' but can delete any of the bin.<arch> directories  that
    won't  be  used.  If there is no binary directory for the system you
    are installing it will be  created  when  the  package  is  compiled
    later or when the binaries are installed.
    
    If the binary executables have been obtained these are now extracted
    into the appropriate bin.<arch> directory.
    
        # Example of sparc installation.
        cl> cd aceold
        cl> rtar -xrf aceold-bin.sparc      # Creates bin.sparc directory
    
    The  various  tar  file  can  be  deleted  once   they   have   been 
    successfully installed.
    
    [5] For  a  source  installation  you  now have to build the package
        executable(s).  The "tables" package must be installed first  if
        not  already available.  First you configure the package for the
        particular architecture.
        
            cl> cd aceold
            cl> mkpkg <arch>            # Substitute sparc, ssun, alpha, etc.
        
        This will change the bin link from  bin.generic  to  bin.<arch>.
        The  binary  directory  will  be  created if not present.  If an
        error occurs in setting the architecture then you  may  need  to
        add  an  entry to the file "mkpkg".  Just follow the examples in
        the file.
        
        To create the executables and move them to the binary directory
        
            cl> mkpkg -p aceold                 # build executables
            cl> mkpkg generic           # optionally restore generic setting
        
        Check for errors.  If the  executables  are  not  moved  to  the
        binary  directory  then  step  [1]  to  define  the path for the
        package was not done correctly.   The  last  step  restores  the
        package  to  a  generic configuration.  This is not necessary if
        you will only have one architecture for the package.
    
    This should complete the installation.  You can now load the package
    and begin testing and use.