path: root/xpa/doc/pod/xpatcl.pod

=pod

=head1 NAME



B<XPATcl: the XPA Interface to the Tcl/Tk Environment>



=head1 SYNOPSIS






Tcl/Tk programs can act as XPA clients and/or servers using the Tcl
interface to XPA that is contained in the libtclxpa.so shared object.

B<Server Routines>


  set xpa [xpanew class name help sproc sdata smode rproc rdata rmode]
  xpafree xpa
  set xpa [xpanew class name help iproc idata imode]
  set xpa [xpacmdnew class name]
  xpacmdadd xpa name help sproc sdata smode rproc rdata rmode
  xpacmddel xpa cmd
  set val [xparec xpa option]
    options: name, class, method, cmdfd, datafd, cmdchan, datachan
  xpasetbuf xpa buf len
  xpaerror xpa message
  xpamessage xpa message


B<Client Routines>
	

  set xpa [xpaopen mode]
  xpaclose xpa
  set got [xpaget xpa template paramlist mode bufs lens names errs n]
  set got [xpaget xpa template paramlist mode chans names errs n]
  set got [xpaset xpa template paramlist mode buf len names errs n]
  set got [xpasetfd xpa template paramlist mode chan names errs n]
  set got [xpainfo xpa template paramlist mode names errs n]
  # NB: 2.1 calling sequence change
  # set got [xpaaccess template type] (2.0.5)
  set got [xpaaccess xpa template paramlist mode names errs n]
  set got [xpanslookup template type classes names methods]




=head1 DESCRIPTION





You can call XPANew(), XPACmdNew(), or XPAInfoNew() within a C
routine to add C-based XPA server callbacks to a TCL/Tk program that
uses a Tcl/Tk event loop (either vwait() or the Tk event loop);
Such a program does not need or want to use the XPA event loop.
Therefore, in order to add XPA access points to the Tcl/Tk loop, the
following routine should be called beforehand:

  int XPATclAddInput(XPA xpa);


Normally, the xpa argument is NULL, meaning that all current XPA
access points are registered with the event loop.  However, if a
single XPA access point is to be added (i.e., after the event loop is
started) then the handle of that XPA access point can be passed to
this routine.


The significance of the XPA/TCL interface goes beyond the support for
using XPA inside C code. The interface allows you to write XPA
servers and to make calls to the XPA client interface within the Tcl
environment using the Tcl language directly. The XPA/Tcl
interface can be loaded using the following package command:

  package require tclxpa 2.0

Alternatively, you can load the shared object (called libtclxpa.so ) directly:

  load .../libtclxpa.so tclxpa


Once the tclxpa package is loaded, you can use Tcl versions of XPA
routines to define XPA servers or make client XPA calls.  The
interface for these routines is designed to match the Unix XPA
interface as nearly as possible.  Please refer to
XPA Servers
and
XPA Clients
for general information about these routines.  


The file test.tcl in the XPA source directory gives examples for using the 
XPA/Tcl interface.


The following notes describe the minor differences between the interfaces.

B<XPANew>


  set xpa [xpanew class name help sproc sdata smode rproc rdata rmode]



rproc and sproc routines are routines.  The calling sequence of the
rproc routine is identical to its C counterpart:

  proc rec_cb { xpa client_data paramlist buf len } { ... }


The sproc routine, however is slightly different from its C counterpart
because of the difficulty of passing data back from the callback to C:

  proc sendcb { xpa client_data paramlist } { ... }


Note that the C-based server's char **buf and int *len arguments are
missing from the Tcl callback. This is because we did not know how to
fill buf with data and pass it back to the C routines for communication
with the client.  Instead, the Tcl server callback uses the following
routine to set buf and len:

  xpasetbuf xpa buf len

where:

  arg   	explanation
  ------	-----------
  xpa		the first argument of the server callback
  buf		the data to be returned to the client
  len		data length in bytes, (if absent, use length of the buf object)


When this routine is called, a copy of buf is saved for transmission to
the client.


The fact that buf is duplicated means that TCL server writers might wish to
perform the I/O directly within the callback, rather than have XPA do it
automatically at the end of the routine.  To do this, set:

  fillbuf=false


in the xpanew smode and then perform I/O through the Tcl channel
obtained from:

  set dchan [xparec $xpa datachan]


where:

  arg   	explanation
  ------	-----------
  xpa		the first argument of the server callback
  datachan	literal string "datachan" that returns the data channel
  len		data length in bytes, (if absent, use length of the buf object)



NB: datachan and cmdchan are not available under Windows. It is
necessary to use the "raw" equivalents: datafd and cmdfd.



The same considerations apply to the rproc for receive servers: a copy
of the incoming data is generated to pass to the receive callback. This
copy again can be avoided by using "fillbuf=false" in the rmode and then
reading the incoming data from datachan.


The send and receive callback routines can use the xpaerror and xpamessage
routines to send errors and messages back to the client.  If you also
want tcl itself to field an error condition, use the standard return call:

  return ?-code c? ?-errorinfo i? ?-errorcode ec? string


See the Tcl man page for more info.

B<XPARec>

The Tcl xparec procedure supplies server routines with access to information 
that is available via macros in the C interface:

  set val [xparec xpa <option>]


where option is: name, class, method, cmdfd, datafd, cmdchan,
datachan.  Note that two additional identifiers, cmdchan and datachan,
have been added to to provide Tcl channels corresponding to datafd and
cmdfd.  (These latter might still be retrieved in Tcl and passed back
to a C routines.)  An additional option called "version" can be used to
determine the XPA version used to build the Tcl interface. Note that
the standard options require a valid XPA handle, but "version" does
not (since it simply reports the value of the XPA_VERSION definition
in the XPA source include file).



NB: datachan and cmdchan are not available under Windows. It is
necessary to use the "raw" equivalents: datafd and cmdfd.


  macro 	explanation
  ------	-----------
  class		class of this xpa
  name		name of this xpa
  method	method string (inet or local connect info)
  cmdchan	Tcl channel of command socket
  datachan	Tcl channel of data socket
  cmdfd		fd of command socket
  datafd	fd of data socket
  sendian	endian-ness of server ("little" or "big")
  cendian	endian-ness of client ("little" or "big"
  version	XPA version used to build this code



Under Windows, the Tcl event handler cannot automatically sense when an
XPA socket is ready for IO (i.e. Tcl_CreateFileHandler() is not available
under Windows). The Windows Tcl event handler therefore must be awakened
occasionally for check for XPA events. This is done using the standard
Tcl_SetMaxBlockTime() call. The time parameter is defined in tclloop.c
and is currently set to 1000 microseconds (1/1000 of a second). 


The version option can be used to differentiate between source code versions.
It was created to support legacy Tcl code that needs to maintain the 2.0.5
calling sequence for xpaaccess. You can use a version test such as:

  if [catch { xparec "" version } version] {
    puts "pre-2.1.0e"
  } else {
    puts [split $version .]
  }




=head1 SEE ALSO



See xpa(n) for a list of XPA help pages



=cut