WSJT-X/TransceiverBase.hpp
Bill Somerville 6a6e56b712 Set split mode before and after setting Tx frequency
Also cleaned up duplicate trace output.

Using the  DX Lab  Suite Commander  CAT interface  with rigs  like the
TS-2000  requires  that  split  mode  be set  after  changing  the  Tx
frequency. This  is because  setting teh  Tx frequency  disables split
mode.

With some Icom rigs  the rig must be in split  mode before setting the
Tx frequency otherwise the Tx frequency change will not be honoured.

To fix  this the sequence set-split,  set-tx-frequency, set-split must
always be used to change the Tx frequency.

Support for new DX Lab Suite Commander TCP/IP commands

Dave AA6YQ has added two new commands to the Commander server to allow
more reliable control.

Requires DX Lab Suite Commander 11.1.4 or later.

Ensure split Tx frequency agrees with UI before transmitting

Ensure split works on Yaesu via Hamlib without breaking others

Also improved class HamlibTransceiver debug trace messages.

Merged r4776-r4779 from wsjtx-1.4 branch.



git-svn-id: svn+ssh://svn.code.sf.net/p/wsjt/wsjt/branches/wsjtx@4780 ab8295b8-cf94-4d9e-aec4-7959e3be5d79
2014-12-06 20:23:29 +00:00

138 lines
4.6 KiB
C++

#ifndef TRANSCEIVER_BASE_HPP__
#define TRANSCEIVER_BASE_HPP__
#include <stdexcept>
#include <QString>
#include "Transceiver.hpp"
#include "pimpl_h.hpp"
//
// Base Transceiver Implementation
//
// Behaviour common to all Transceiver implementations.
//
// Collaborations
//
// Implements the Transceiver abstract interface as template methods
// and provides a new abstract interface with similar functionality
// (do_XXXXX operations). Provides and calls abstract interface that
// gets called post the above operations (do_post_XXXXX) to allow
// caching implementation etc.
//
// A key factor is to catch all exceptions thrown by sub-class
// implementations where the template method is a Qt slot which is
// therefore likely to be called by Qt which doesn't handle
// exceptions. Any exceptions are converted to Transceiver::failure()
// signals.
//
// Sub-classes update the stored state via a protected interface.
//
// Responsibilities:
//
// Wrap incoming Transceiver messages catching all exceptions in Qt
// slot driven messages and converting them to Qt signals. This is
// done because exceptions make concrete Transceiver implementations
// simpler to write, but exceptions cannot cross signal/slot
// boundaries (especially across threads). This also removes any
// requirement for the client code to handle exceptions.
//
// Maintain the state of the concrete Transceiver instance that is
// passed back via the Transceiver::update(TransceiverState) signal,
// it is still the responsibility of concrete Transceiver
// implementations to emit the state_change signal when they have a
// status update.
//
// Maintain a go/no-go status for concrete Transceiver
// implementations ensuring only a valid sequence of messages are
// passed. A concrete Transceiver instance must be started before it
// can receive messages, any exception thrown takes the Transceiver
// offline.
//
// Implements methods that concrete Transceiver implementations use
// to update the Transceiver state. These do not signal state change
// to clients as this is the responsibility of the concrete
// Transceiver implementation, thus allowing multiple state component
// updates to be signalled together if required.
//
class TransceiverBase
: public Transceiver
{
protected:
TransceiverBase ();
public:
~TransceiverBase ();
//
// Implement the Transceiver abstract interface.
//
void start () noexcept override final;
void stop () noexcept override final;
void frequency (Frequency rx, MODE = UNK) noexcept override final;
void tx_frequency (Frequency tx, bool rationalise_mode) noexcept override final;
void mode (MODE, bool rationalise) noexcept override final;
void ptt (bool) noexcept override final;
void sync (bool force_signal) noexcept override final;
protected:
//
// Error exception which is thrown to signal unexpected errors.
//
struct error
: public std::runtime_error
{
error (char const * const msg) : std::runtime_error (msg) {}
error (QString const& msg) : std::runtime_error (msg.toStdString ()) {}
};
// Template methods that sub classes implement to do what they need to do.
//
// These methods may throw exceptions to signal errors.
virtual void do_start () = 0;
virtual void do_post_start () {}
virtual void do_stop () = 0;
virtual void do_post_stop () {}
virtual void do_frequency (Frequency rx, MODE = UNK) = 0;
virtual void do_post_frequency (Frequency, MODE = UNK) {}
virtual void do_tx_frequency (Frequency tx = 0, bool rationalise_mode = true) = 0;
virtual void do_post_tx_frequency (Frequency, bool /* rationalise_mode */ = true) {}
virtual void do_mode (MODE, bool rationalise = true) = 0;
virtual void do_post_mode (MODE, bool /* rationalise */ = true) {}
virtual void do_ptt (bool = true) = 0;
virtual void do_post_ptt (bool = true) {}
virtual void do_sync (bool force_signal = false) = 0;
virtual bool do_pre_update () {return true;}
// sub classes report rig state changes with these methods
void update_rx_frequency (Frequency);
void update_other_frequency (Frequency = 0);
void update_split (bool);
void update_mode (MODE);
void update_PTT (bool = true);
// Calling this triggers the Transceiver::update(State) signal.
void update_complete ();
// sub class may asynchronously take the rig offline by calling this
void offline (QString const& reason);
// and query state with this one
TransceiverState const& state () const;
private:
class impl;
pimpl<impl> m_;
};
#endif