WSJT-X/Transceiver/Transceiver.hpp

181 lines
5.8 KiB
C++

#ifndef TRANSCEIVER_HPP__
#define TRANSCEIVER_HPP__
#include <iosfwd>
#include <boost/log/trivial.hpp>
#include <boost/log/sources/severity_channel_logger.hpp>
#include <QObject>
#include "qt_helpers.hpp"
#include "Radio.hpp"
class QString;
//
// Abstract Transceiver Interface
//
// This is the minimal generic interface to a rig as required by
// wsjtx.
//
// Responsibilities
//
// Provides a Qt slot to set the frequency, mode and PTT of some
// transceiver. This is a Qt slot so that it may be invoked across a
// thread boundary.
//
// Provides a synchronisation Qt slot which should be implemented in
// sub-classes in such a way that normal operation of the rig is not
// disturbed. This is intended to be use to poll rig state
// periodically and changing VFO to read the other VFO frequency or
// mode for example should not be done since the operator may be
// tuning the VFO at the time and would be surprised by an unprompted
// VFO change.
//
// Provides a control interface using Qt slots to start and stop the
// rig control and PTT connections.
//
// These are Qt slots rather than the constructor and destructor
// because it is expected that the concrete Transceiver
// implementations will run in a separate thread from where they are
// constructed.
//
// Qt signals are defined to notify clients of asynchronous rig state
// changes and failures. These can and are expected to cross thread
// boundaries.
//
// A signal finished() is defined that concrete Transceiver
// implementations must emit when they are ripe for destruction. This
// is intended to be used by clients that move the Transceiver
// instance to a thread and need to use QObject::deleteLater() to
// safely dispose of the Transceiver instance. Implementations should
// expect Qt slot calls after emitting finished, it is up to the
// implementation whether these slot invocations are ignored.
//
class Transceiver
: public QObject
{
Q_OBJECT
public:
using Frequency = Radio::Frequency;
using logger_type = boost::log::sources::wseverity_channel_logger_mt<boost::log::trivial::severity_level>;
protected:
Transceiver (logger_type *, QObject * parent);
logger_type& logger () const {return *logger_;}
public:
virtual ~Transceiver () {}
enum MODE {UNK, CW, CW_R, USB, LSB, FSK, FSK_R, DIG_U, DIG_L, AM, FM, DIG_FM};
Q_ENUM (MODE)
//
// Aggregation of all of the rig and PTT state accessible via this
// interface.
//
class TransceiverState
{
public:
TransceiverState ()
: online_ {false}
, rx_frequency_ {0}
, tx_frequency_ {0}
, mode_ {UNK}
, split_ {Split::unknown}
, ptt_ {false}
{
}
bool online () const {return online_;}
Frequency frequency () const {return rx_frequency_;}
Frequency tx_frequency () const {return tx_frequency_;}
bool split () const {return Split::on == split_;}
MODE mode () const {return mode_;}
bool ptt () const {return ptt_;}
void online (bool state) {online_ = state;}
void frequency (Frequency f) {rx_frequency_ = f;}
void tx_frequency (Frequency f) {tx_frequency_ = f;}
void split (bool state) {split_ = state ? Split::on : Split::off;}
void mode (MODE m) {mode_ = m;}
void ptt (bool state) {ptt_ = state;}
private:
bool online_;
Frequency rx_frequency_;
Frequency tx_frequency_; // 0 means use Rx
MODE mode_;
enum class Split {unknown, off, on} split_;
bool ptt_;
// Don't forget to update the debug print and != operator if you
// add more members here
friend QDebug operator << (QDebug, TransceiverState const&);
friend bool operator != (TransceiverState const&, TransceiverState const&);
friend std::wostream& operator << (std::wostream&, Transceiver::TransceiverState const&);
};
//
// The following slots and signals are expected to all run in the
// same thread which is not necessarily the main GUI thread. It is
// up to the client of the Transceiver class to organise the
// allocation to a thread and the lifetime of the object instances.
//
// Apply state changes to the rig. The sequence_number parameter
// will be included in any status updates generated after this
// transaction is processed. The sequence number may be used to
// ignore any status updates until the results of this transaction
// have been processed thus avoiding any unwanted "ping-pong" due to
// signals crossing in transit.
Q_SLOT virtual void set (Transceiver::TransceiverState const&,
unsigned sequence_number) noexcept = 0;
// Connect and disconnect.
Q_SLOT virtual void start (unsigned sequence_number) noexcept = 0;
Q_SLOT virtual void stop () noexcept = 0;
//
// asynchronous status updates
//
// 0 - 1Hz
// 1 - 10Hz rounded
// -1 - 10Hz truncated
// 2 - 100Hz rounded
// -2 - 100Hz truncated
Q_SIGNAL void resolution (int);
// rig state changed
Q_SIGNAL void update (Transceiver::TransceiverState const&,
unsigned sequence_number) const;
// something went wrong - not recoverable, start new instance
Q_SIGNAL void failure (QString const& reason) const;
// Ready to be destroyed.
Q_SIGNAL void finished () const;
private:
logger_type mutable * logger_;
};
Q_DECLARE_METATYPE (Transceiver::TransceiverState);
#if !defined (QT_NO_DEBUG_STREAM)
QDebug operator << (QDebug, Transceiver::TransceiverState const&);
#endif
std::wostream& operator << (std::wostream&, Transceiver::TransceiverState const&);
ENUM_QDATASTREAM_OPS_DECL (Transceiver, MODE);
ENUM_CONVERSION_OPS_DECL (Transceiver, MODE);
bool operator != (Transceiver::TransceiverState const&, Transceiver::TransceiverState const&);
bool operator == (Transceiver::TransceiverState const&, Transceiver::TransceiverState const&);
#endif