diff options
author | daniel <danieruru@gmail.com> | 2013-01-31 02:43:48 +0900 |
---|---|---|
committer | daniel <danieruru@gmail.com> | 2013-01-31 02:43:48 +0900 |
commit | d4ced2f9e43fde33fe94355256b1c4c7525d670d (patch) | |
tree | 20c2725794655146859fa5e0468bf2da4a15f883 /libvxi11client | |
parent | 6c03af96c428151cd21b9f9e4101d2bedef8b5ce (diff) |
Add perl documentation. Probably not "perlish".
Diffstat (limited to 'libvxi11client')
-rw-r--r-- | libvxi11client/perlbits/Client.pm | 118 |
1 files changed, 114 insertions, 4 deletions
diff --git a/libvxi11client/perlbits/Client.pm b/libvxi11client/perlbits/Client.pm index 39020a2..0b63212 100644 --- a/libvxi11client/perlbits/Client.pm +++ b/libvxi11client/perlbits/Client.pm @@ -33,9 +33,6 @@ our $VERSION = '0.01'; require XSLoader; XSLoader::load('VXI11::Client', $VERSION); -# Preloaded methods go here. - - sub vxi_enable_srq { return vxi_enable_srq_long($_[0], 1, $_[1]); } @@ -183,7 +180,6 @@ sub vxi_docmd { 1; __END__ -# Below is stub documentation for your module. You'd better edit it! =head1 NAME @@ -340,6 +336,120 @@ instruments. VXI-11 has mixed client and server roles (with interrupts the clien becomes the server). Starting the interrupt server creates an RPC server on the client that the instruments can connect to. +=head2 USAGE + +INT vxi_startinterruptserver(); + Start the local RPC service for the instrument to connect to and deliver + interrupt/service requests to. + Make sure you have portmapper or rpcbind running and you aren't blocking + the ports it allocates. + +INT vxi_stopinterruptserver(); + Shutdown the local RPC server. + +INT INST = vxi_open( address => STRING, [device => STRING] ); + Open a link to an instrument. Use the returned instance to call + the object methods below. + +INT INST->vxi_close(); + Destroy the link to the insturment and destroy the local RPC client. + You must not use an instance created with vxi_open(); after calling this. + +INT INST->vxi_lock([waitforlock => 'false']) + Lock the instrument. You can tell the instrument to try to wait for + the lock to become free and lock it via waitforlock, + +INT INST->vxi_unlock(); + Unlock the instrument. Only makes sense if you are holding the lock. + +INT INST->vxi_write(STRING data, [ len => -1, + waitforlock => 0, + end => 1 ]); + Write data to the instrument. If the data is a terminated string you can + pass -1 as the length to have it calculated for you. If the data is not + terminated or for some reason you only want to write part of it you need + to provide a length. You can wait for the lock to be freed by via waitforlock. + +(INT bytes, STRING string, INT reason) INST->vxi_read([ bufferlen => 1024, + waitforlock => 0, + termchrset => 0, + termchr => 0, + autochomp => 1]); + + Read some data from the instrument. The default parameters should be fine + for most cases. If you need to read more than 1024 bytes you should pass + in the required buffer size via bufferlen. This function will not read more + than the buffer size. The number of bytes returned is what the instrument sent + not what was copied into the buffer. So if the number of bytes returned is + larger than bufferlen the data is truncated. If autochomp is set the newline + from the returned data will be automatically removed. + +(INT ret, STRING dataout, INT dataoutlen) = vxi_docmd (INT cmd, [ datain => "", + datainlen => -1, + dataoutbufferlen => 256, + waitforlock => 0, + autochomp => 1]); + + Send a command to the instrument possibly with some data. The rules for write apply + to datain and the rules for read apply for dataout. + +INT INST->vxi_abort(); + Abort an in-progress operation. + +INT vxi_readstatusbyte([ waitforlock => 0 ]); + + Read the instruments status byte. + +INT INST->vxi_create_intr_chan(); + + Creates an interrupt channel from the instrument to this client. + This must be called after vxi_startinterruptserver. + +INT INST->vxi_enable_srq(STRING handle); + + Tell the instrument to fire interrupts/service requests to the + interrupt channel. Must be called after vxi_create_intr_chan(). + You should give a unique channel handle for each instrument as + you will need this to work out which device set an interrupt/service + request. + +INT INST->vxi_disable_srq(); + + Tell the instrument that you don't want it to send interrupts/ + service requests anymore. This does not destroy the interrupt + channel. + +INT INST->vxi_destroy_intr_chan(); + + Tell the instrument to disconnect from the interrupt service that + is running locally. This does not shut down the interrupt service. + +STRING vxi_wait_for_interrupt([INT timeout -1 : 0 : n]) + + Waits for an interrupt/service request to be received from a connected + instrument. When an interrupt is caught the handle of the interrupt will + be returned. If no interrupt is caught undef will be returned. + You can pass a timeout in ms (the default is 250ms), or 0 to never block + and only return interrupts that have already happened or -1 to block until + an interrupt is caught (could block forever!). + +INT INST->vxi_remote([waitforlock => 0]); + + Lock out the instrument's display. + +INT INST->vxi_local([waitforlock => 0]); + + Unlock the instrument's display. + +INT INST->vxi_clear([waitforlock => 0]); + + Clear the instruments's display. + +INT INST->vxi_trigger([waitforlock => 0]); + + Trigger the instrument. + + Return codes work like this; 1 - is a success 0 - means the request failed locally, the state inside the client is |