mirror of
https://github.com/saitohirga/WSJT-X.git
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d9a8b798f0
This seems to be limited to the Yaesu FTdx3000 "RX A" and "RX B" commands so a short delay has been added after these sort of commands. git-svn-id: svn+ssh://svn.code.sf.net/p/wsjt/wsjt/branches/wsjtx@5299 ab8295b8-cf94-4d9e-aec4-7959e3be5d79
150 lines
4.9 KiB
C++
150 lines
4.9 KiB
C++
#ifndef TRANSCEIVER_BASE_HPP__
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#define TRANSCEIVER_BASE_HPP__
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#include <stdexcept>
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#include <QString>
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#include "Transceiver.hpp"
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//
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// Base Transceiver Implementation
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//
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// Behaviour common to all Transceiver implementations.
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//
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// Collaborations
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//
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// Implements the Transceiver abstract interface as template methods
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// and provides a new abstract interface with similar functionality
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// (do_XXXXX operations). Provides and calls abstract interface that
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// gets called post the above operations (do_post_XXXXX) to allow
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// caching implementation etc.
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//
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// A key factor is to catch all exceptions thrown by sub-class
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// implementations where the template method is a Qt slot which is
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// therefore likely to be called by Qt which doesn't handle
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// exceptions. Any exceptions are converted to Transceiver::failure()
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// signals.
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//
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// Sub-classes update the stored state via a protected interface.
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//
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// Responsibilities:
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//
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// Wrap incoming Transceiver messages catching all exceptions in Qt
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// slot driven messages and converting them to Qt signals. This is
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// done because exceptions make concrete Transceiver implementations
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// simpler to write, but exceptions cannot cross signal/slot
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// boundaries (especially across threads). This also removes any
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// requirement for the client code to handle exceptions.
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//
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// Maintain the state of the concrete Transceiver instance that is
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// passed back via the Transceiver::update(TransceiverState) signal,
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// it is still the responsibility of concrete Transceiver
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// implementations to emit the state_change signal when they have a
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// status update.
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//
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// Maintain a go/no-go status for concrete Transceiver
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// implementations ensuring only a valid sequence of messages are
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// passed. A concrete Transceiver instance must be started before it
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// can receive messages, any exception thrown takes the Transceiver
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// offline.
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//
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// Implements methods that concrete Transceiver implementations use
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// to update the Transceiver state. These do not signal state change
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// to clients as this is the responsibility of the concrete
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// Transceiver implementation, thus allowing multiple state component
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// updates to be signalled together if required.
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//
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class TransceiverBase
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: public Transceiver
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{
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Q_OBJECT;
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protected:
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TransceiverBase () = default;
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public:
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//
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// Implement the Transceiver abstract interface.
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//
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void start () noexcept override final;
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void stop () noexcept override final;
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void frequency (Frequency rx, MODE = UNK) noexcept override final;
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void tx_frequency (Frequency tx, bool rationalise_mode) noexcept override final;
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void mode (MODE, bool rationalise) noexcept override final;
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void ptt (bool) noexcept override final;
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void sync (bool force_signal) noexcept override final;
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protected:
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//
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// Error exception which is thrown to signal unexpected errors.
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//
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struct error
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: public std::runtime_error
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{
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error (char const * const msg) : std::runtime_error (msg) {}
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error (QString const& msg) : std::runtime_error (msg.toStdString ()) {}
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};
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// Template methods that sub classes implement to do what they need to do.
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//
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// These methods may throw exceptions to signal errors.
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virtual void do_start () = 0;
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virtual void do_post_start () {}
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virtual void do_stop () = 0;
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virtual void do_post_stop () {}
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virtual void do_frequency (Frequency rx, MODE = UNK) = 0;
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virtual void do_post_frequency (Frequency, MODE = UNK) {}
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virtual void do_tx_frequency (Frequency tx = 0u, bool rationalise_mode = false) = 0;
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virtual void do_post_tx_frequency (Frequency = 0u, bool /* rationalise_mode */ = false) {}
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virtual void do_mode (MODE, bool rationalise = true) = 0;
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virtual void do_post_mode (MODE, bool /* rationalise */ = true) {}
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virtual void do_ptt (bool = true) = 0;
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virtual void do_post_ptt (bool = true) {}
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virtual void do_sync (bool force_signal = false) = 0;
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virtual bool do_pre_update () {return true;}
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// sub classes report rig state changes with these methods
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void update_rx_frequency (Frequency);
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void update_other_frequency (Frequency = 0);
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void update_split (bool);
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void update_mode (MODE);
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void update_PTT (bool = true);
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// Calling this eventually triggers the Transceiver::update(State) signal.
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void update_complete ();
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// sub class may asynchronously take the rig offline by calling this
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void offline (QString const& reason);
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// and query state with this one
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TransceiverState const& state () const {return state_;}
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private:
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Q_SLOT void updated ();
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TransceiverState state_;
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};
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// some trace macros
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#if WSJT_TRACE_CAT
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#define TRACE_CAT(MSG) qDebug () << __PRETTY_FUNCTION__ << MSG
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#else
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#define TRACE_CAT(MSG)
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#endif
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#if WSJT_TRACE_CAT && WSJT_TRACE_CAT_POLLS
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#define TRACE_CAT_POLL(MSG) qDebug () << __PRETTY_FUNCTION__ << MSG
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#else
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#define TRACE_CAT_POLL(MSG)
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#endif
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#endif
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