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559873ea2b
r5297 | bsomervi | 2015-04-26 17:26:54 +0100 (Sun, 26 Apr 2015) | 49 lines Various defect repairs and ambigous behaviour clarifications A regression introduced in v1.5.0-rc1 where PTT on an alternate serial port when using no CAT control is resolved. A regression introduced in v1.5.0-rc1 where the network server field was not being restored in the settings dialog has been resolved. In settings the "Test PTT" button is now styled by checked state. The "Test PTT" button is enabled without needing click "Test CAT" first when no CAT rig control is selected. Various parts of the settings dialog are now disabled when no CAT rig control is selected. These are the "Mode" group, the "Split Operation" group and the "Monitor returns to last used frequency" check box. None of these have any visible impact nor make sense without CAT rig control. Initialization and teardown of rig control internals has been revised to avoid several problems related to timing and when switching between different CAT settings. This includes improvements in having the operating frequency restored between sessions when not using CAT rig control. The initialization of OmniRig connections has been improved, unfortunately it is still possible to get an exception when clicking the "Test CAT" button where just clicking "OK" and leaving the settings dialog will probably work. Some unnecessary CAT commands output during direct rig control have been elided to reduce the level of traffic a little. The handling of some automatically generated free text messages used when the station is a type 2 compound callsign or is working a type 2 compound callsign has been improved. This is related to how a double click on a message of the form "DE TI4/N0URE 73" is double clicked. The new behaviour depends on whether the current "DX Call" matches the call in the message. This resolves the ambiguity as to whether this message is a sign off at the end of a QSO with current operator (a 73 message is generated) or a tail end opportunity where the message should be treated the same as a CQ or QRZ message (WSJT-X QSYs to the frequency, generates messages and selects message one ready to call). This still leaves some potential ambiguous behaviors in this complex area but selecting "Clear DX call and grid after logging" should resolve most of them. Rig control trace messages have been cleaned up and are now more helpful, less verbose and, tidier in the source code. ------------------------------------------------------------------------ Merged from the wsjtx-1.5 branch. git-svn-id: svn+ssh://svn.code.sf.net/p/wsjt/wsjt/branches/wsjtx@5298 ab8295b8-cf94-4d9e-aec4-7959e3be5d79
170 lines
5.2 KiB
C++
170 lines
5.2 KiB
C++
#ifndef TRANSCEIVER_HPP__
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#define TRANSCEIVER_HPP__
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#include <QObject>
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#include "qt_helpers.hpp"
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#include "Radio.hpp"
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class QString;
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//
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// Abstract Transceiver Interface
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//
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// This is the minimal generic interface to a rig as required by
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// wsjtx.
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//
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// Responsibilities
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//
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// Provides Qt slots to set the frequency, mode and PTT of some
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// transceiver. They are Qt slots so that they may be invoked across
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// a thread boundary.
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//
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// Provides a synchronisation Qt slot which should be implemented in
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// sub-classes in such a way that normal operation of the rig is not
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// disturbed. This is intended to be use to poll rig state
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// periodically and changing VFO to read the other VFO frequency or
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// mode for example should not be done since the operator may be
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// tuning the VFO at the time and would be surprised by an unprompted
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// VFO change.
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//
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// Provides a control interface using Qt slots to start and stop the
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// rig control and PTT connections.
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//
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// These are Qt slots rather than the constructor and destructor
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// because it is expected that the concrete Transceiver
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// implementations will run in a separate thread from where they are
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// constructed.
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//
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// Qt signals are defined to notify clients of asynchronous rig state
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// changes and failures. These can and are expected to cross thread
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// boundaries.
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//
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// A signal finished() is defined that concrete Transceiver
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// implementations must emit when they are ripe for destruction. This
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// is intended to be used by clients that move the Transceiver
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// instance to a thread and need to use QObject::deleteLater() to
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// safely dispose of the Transceiver instance. Implementations should
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// expect Qt slot calls after emitting finished, it is up to the
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// implementation whether these slot invocations are ignored.
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//
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class Transceiver
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: public QObject
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{
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Q_OBJECT;
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Q_ENUMS (MODE);
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public:
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using Frequency = Radio::Frequency;
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protected:
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Transceiver ()
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{
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}
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public:
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virtual ~Transceiver ()
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{
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}
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enum MODE {UNK, CW, CW_R, USB, LSB, FSK, FSK_R, DIG_U, DIG_L, AM, FM, DIG_FM};
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//
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// Aggregation of all of the rig and PTT state accessible via this
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// interface.
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class TransceiverState
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{
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public:
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TransceiverState ()
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: online_ {false}
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, frequency_ {0, 0}
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, mode_ {UNK}
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, split_ {unknown}
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, ptt_ {false}
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{
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}
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bool online () const {return online_;}
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Frequency frequency () const {return frequency_[0];}
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Frequency tx_frequency () const {return frequency_[1];}
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bool split () const {return on == split_;}
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MODE mode () const {return mode_;}
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bool ptt () const {return ptt_;}
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void online (bool state) {online_ = state;}
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void frequency (Frequency f) {frequency_[0] = f;}
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void tx_frequency (Frequency f) {frequency_[1] = f;}
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void split (bool state) {split_ = state ? on : off;}
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void mode (MODE m) {mode_ = m;}
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void ptt (bool state) {ptt_ = state;}
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private:
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bool online_;
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Frequency frequency_[2]; // [0] -> Rx; [1] -> Other
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MODE mode_;
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enum {unknown, off, on} split_;
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bool ptt_;
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// Don't forget to update the debug print and != operator if you
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// add more members here
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friend QDebug operator << (QDebug, TransceiverState const&);
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friend bool operator != (TransceiverState const&, TransceiverState const&);
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};
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//
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// The following slots and signals are expected to all run in the
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// same thread which is not necessarily the main GUI thread. It is
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// up to the client of the Transceiver class to organise the
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// allocation to a thread and the lifetime of the object instances.
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//
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// Connect and disconnect.
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Q_SLOT virtual void start () noexcept = 0;
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Q_SLOT virtual void stop () noexcept = 0;
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// Set frequency in Hertz.
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Q_SLOT virtual void frequency (Frequency, MODE = UNK) noexcept = 0;
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// Setting a non-zero TX frequency means split operation, the value
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// zero means simplex operation.
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//
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// Rationalise_mode means ensure TX uses same mode as RX.
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Q_SLOT virtual void tx_frequency (Frequency tx = 0, bool rationalise_mode = true) noexcept = 0;
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// Set mode.
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// Rationalise means ensure TX uses same mode as RX.
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Q_SLOT virtual void mode (MODE, bool rationalise = true) noexcept = 0;
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// Set/unset PTT.
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Q_SLOT virtual void ptt (bool = true) noexcept = 0;
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// Attempt to re-synchronise or query state.
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// Force_signal guarantees a update or failure signal.
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Q_SLOT virtual void sync (bool force_signal = false) noexcept = 0;
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// asynchronous status updates
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Q_SIGNAL void update (Transceiver::TransceiverState) const;
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Q_SIGNAL void failure (QString reason) const;
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// Ready to be destroyed.
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Q_SIGNAL void finished () const;
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};
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Q_DECLARE_METATYPE (Transceiver::TransceiverState);
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Q_DECLARE_METATYPE (Transceiver::MODE);
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#if !defined (QT_NO_DEBUG_STREAM)
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ENUM_QDEBUG_OPS_DECL (Transceiver, MODE);
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QDebug operator << (QDebug, Transceiver::TransceiverState const&);
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#endif
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ENUM_QDATASTREAM_OPS_DECL (Transceiver, MODE);
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ENUM_CONVERSION_OPS_DECL (Transceiver, MODE);
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bool operator != (Transceiver::TransceiverState const&, Transceiver::TransceiverState const&);
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bool operator == (Transceiver::TransceiverState const&, Transceiver::TransceiverState const&);
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#endif
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