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WSJT-X/PollingTransceiver.cpp
Bill Somerville 424ed88645 Take advantage of the forthcommng DX Lab Commander enhancement 
V12.2.6 of  teh DX Lab Suite  Commander finally has a  way to suppress
mode rationalization  when setting  the split  Tx frequency.  This now
means that we  can now honor the  radio setting to not  change the rig
modulation mode. This  should help with a number of  rigs that require
different modes  on teh Tx and  Rx VFOs for optimal  wide band digital
operation.  This   will  also  help   with  some  rig   and  interface
combinations that lock  up or otherwise misbehave when  setting the Tx
VFO mode at certain times with respect to other rig control commands.

This change also improves mode  setting in general hopefully closing a
few corner case issues when starting  up and when transmitting for the
first time in a session.

Included  is  the  latest  DX  Lab  Suite  Commander  TCP/IP  commands
documentation correct for v12.2.6.

git-svn-id: svn+ssh://svn.code.sf.net/p/wsjt/wsjt/branches/wsjtx@7030 ab8295b8-cf94-4d9e-aec4-7959e3be5d79
2016-08-13 23:33:54 +00:00

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#include "PollingTransceiver.hpp"
#include <exception>
#include <QObject>
#include <QString>
#include <QTimer>
#include "moc_PollingTransceiver.cpp"
namespace
{
unsigned const polls_to_stabilize {3};
}
PollingTransceiver::PollingTransceiver (int poll_interval, QObject * parent)
: TransceiverBase {parent}
, interval_ {poll_interval * 1000}
, poll_timer_ {nullptr}
, retries_ {0}
{
}
void PollingTransceiver::start_timer ()
{
if (interval_)
{
if (!poll_timer_)
{
poll_timer_ = new QTimer {this}; // pass ownership to
// QObject which handles
// destruction for us
connect (poll_timer_, &QTimer::timeout, this,
&PollingTransceiver::handle_timeout);
}
poll_timer_->start (interval_);
}
else
{
stop_timer ();
}
}
void PollingTransceiver::stop_timer ()
{
if (poll_timer_)
{
poll_timer_->stop ();
}
}
void PollingTransceiver::do_post_start ()
{
start_timer ();
if (!next_state_.online ())
{
// remember that we are expecting to go online
next_state_.online (true);
retries_ = polls_to_stabilize;
}
}
void PollingTransceiver::do_post_stop ()
{
// not much point waiting for rig to go offline since we are ceasing
// polls
stop_timer ();
}
void PollingTransceiver::do_post_frequency (Frequency f, MODE m)
{
// take care not to set the expected next mode to unknown since some
// callers use mode == unknown to signify that they do not know the
// mode and don't care
if (next_state_.frequency () != f || (m != UNK && next_state_.mode () != m))
{
// update expected state with new frequency and set poll count
next_state_.frequency (f);
if (m != UNK)
{
next_state_.mode (m);
}
retries_ = polls_to_stabilize;
}
}
void PollingTransceiver::do_post_tx_frequency (Frequency f, MODE)
{
if (next_state_.tx_frequency () != f)
{
// update expected state with new TX frequency and set poll
// count
next_state_.tx_frequency (f);
next_state_.split (f); // setting non-zero TX frequency means split
retries_ = polls_to_stabilize;
}
}
void PollingTransceiver::do_post_mode (MODE m)
{
// we don't ever expect mode to goto to unknown
if (m != UNK && next_state_.mode () != m)
{
// update expected state with new mode and set poll count
next_state_.mode (m);
retries_ = polls_to_stabilize;
}
}
void PollingTransceiver::do_post_ptt (bool p)
{
if (next_state_.ptt () != p)
{
// update expected state with new PTT and set poll count
next_state_.ptt (p);
retries_ = polls_to_stabilize;
//retries_ = 0; // fast feedback on PTT
}
}
bool PollingTransceiver::do_pre_update ()
{
// if we are holding off a change then withhold the signal
if (retries_ && state () != next_state_)
{
return false;
}
return true;
}
void PollingTransceiver::do_sync (bool force_signal, bool no_poll)
{
if (!no_poll) poll (); // tell sub-classes to update our state
// Signal new state if it is directly requested or, what we expected
// or, hasn't become what we expected after polls_to_stabilize
// polls. Unsolicited changes will be signalled immediately unless
// they intervene in a expected sequence where they will be delayed.
if (retries_)
{
--retries_;
if (force_signal || state () == next_state_ || !retries_)
{
// our client wants a signal regardless
// or the expected state has arrived
// or there are no more retries
force_signal = true;
}
}
else if (force_signal || state () != last_signalled_state_)
{
// here is the normal passive polling path either our client has
// requested a state update regardless of change or state has
// changed asynchronously
force_signal = true;
}
if (force_signal)
{
// reset everything, record and signal the current state
retries_ = 0;
next_state_ = state ();
last_signalled_state_ = state ();
update_complete (true);
}
}
void PollingTransceiver::handle_timeout ()
{
QString message;
// we must catch all exceptions here since we are called by Qt and
// inform our parent of the failure via the offline() message
try
{
do_sync ();
}
catch (std::exception const& e)
{
message = e.what ();
}
catch (...)
{
message = tr ("Unexpected rig error");
}
if (!message.isEmpty ())
{
offline (message);
}
}
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