mirror of
https://github.com/saitohirga/WSJT-X.git
synced 2024-11-17 17:42:02 -05:00
080f7ef1a2
Static storage variables that should have been class members are made so. This ensures that if they are used as initialization one time switches then they will operate correctly when their class instantiated more than once. This now happoens for most classes due to the configurations switching facility which destroys all windows and re-instantiates them. git-svn-id: svn+ssh://svn.code.sf.net/p/wsjt/wsjt/branches/wsjtx@6661 ab8295b8-cf94-4d9e-aec4-7959e3be5d79
1082 lines
38 KiB
C++
1082 lines
38 KiB
C++
#include "HamlibTransceiver.hpp"
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#include <cstring>
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#include <cmath>
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#include <QByteArray>
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#include <QString>
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#include <QStandardPaths>
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#include <QFile>
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#include <QJsonDocument>
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#include <QJsonObject>
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#include <QJsonValue>
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#include <QDebug>
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#include "moc_HamlibTransceiver.cpp"
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namespace
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{
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// Unfortunately bandwidth is conflated with mode, this is probably
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// because Icom do the same. So we have to care about bandwidth if
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// we want to set mode otherwise we will end up setting unwanted
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// bandwidths every time we change mode. The best we can do via the
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// Hamlib API is to request the normal option for the mode and hope
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// that an appropriate filter is selected. Also ensure that mode is
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// only set is absolutely necessary. On Icoms (and probably others)
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// the filter is selected by number without checking the actual BW
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// so unless the "normal" defaults are set on the rig we won't get
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// desirable results.
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//
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// As an ultimate workaround make sure the user always has the
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// option to skip mode setting altogether.
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// reroute Hamlib diagnostic messages to Qt
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int debug_callback (enum rig_debug_level_e level, rig_ptr_t /* arg */, char const * format, va_list ap)
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{
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QString message;
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static char constexpr fmt[] = "Hamlib: %s";
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message = message.vsprintf (format, ap).trimmed ();
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switch (level)
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{
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case RIG_DEBUG_BUG:
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qFatal (fmt, message.toLocal8Bit ().data ());
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break;
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case RIG_DEBUG_ERR:
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qCritical (fmt, message.toLocal8Bit ().data ());
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break;
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case RIG_DEBUG_WARN:
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qWarning (fmt, message.toLocal8Bit ().data ());
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break;
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default:
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qDebug (fmt, message.toLocal8Bit ().data ());
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break;
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}
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return 0;
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}
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// callback function that receives transceiver capabilities from the
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// hamlib libraries
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int rigCallback (rig_caps const * caps, void * callback_data)
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{
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TransceiverFactory::Transceivers * rigs = reinterpret_cast<TransceiverFactory::Transceivers *> (callback_data);
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QString key;
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if (RIG_MODEL_DUMMY == caps->rig_model)
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{
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key = TransceiverFactory::basic_transceiver_name_;
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}
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else
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{
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key = QString::fromLatin1 (caps->mfg_name).trimmed ()
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+ ' '+ QString::fromLatin1 (caps->model_name).trimmed ()
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// + ' '+ QString::fromLatin1 (caps->version).trimmed ()
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// + " (" + QString::fromLatin1 (rig_strstatus (caps->status)).trimmed () + ')'
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;
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}
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auto port_type = TransceiverFactory::Capabilities::none;
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switch (caps->port_type)
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{
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case RIG_PORT_SERIAL:
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port_type = TransceiverFactory::Capabilities::serial;
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break;
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case RIG_PORT_NETWORK:
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port_type = TransceiverFactory::Capabilities::network;
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break;
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case RIG_PORT_USB:
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port_type = TransceiverFactory::Capabilities::usb;
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break;
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default: break;
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}
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(*rigs)[key] = TransceiverFactory::Capabilities (caps->rig_model
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, port_type
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, RIG_MODEL_DUMMY != caps->rig_model
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&& (RIG_PTT_RIG == caps->ptt_type
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|| RIG_PTT_RIG_MICDATA == caps->ptt_type)
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, RIG_PTT_RIG_MICDATA == caps->ptt_type);
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return 1; // keep them coming
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}
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// int frequency_change_callback (RIG * /* rig */, vfo_t vfo, freq_t f, rig_ptr_t arg)
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// {
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// (void)vfo; // unused in release build
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// Q_ASSERT (vfo == RIG_VFO_CURR); // G4WJS: at the time of writing only current VFO is signalled by hamlib
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// HamlibTransceiver * transceiver (reinterpret_cast<HamlibTransceiver *> (arg));
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// Q_EMIT transceiver->frequency_change (f, Transceiver::A);
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// return RIG_OK;
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// }
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class hamlib_tx_vfo_fixup final
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{
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public:
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hamlib_tx_vfo_fixup (RIG * rig, vfo_t tx_vfo)
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: rig_ {rig}
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{
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original_vfo_ = rig_->state.tx_vfo;
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rig_->state.tx_vfo = tx_vfo;
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}
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~hamlib_tx_vfo_fixup ()
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{
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rig_->state.tx_vfo = original_vfo_;
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}
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private:
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RIG * rig_;
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vfo_t original_vfo_;
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};
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}
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freq_t HamlibTransceiver::dummy_frequency_;
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rmode_t HamlibTransceiver::dummy_mode_ {RIG_MODE_NONE};
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void HamlibTransceiver::register_transceivers (TransceiverFactory::Transceivers * registry)
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{
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rig_set_debug_callback (debug_callback, nullptr);
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#if WSJT_HAMLIB_TRACE
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#if WSJT_HAMLIB_VERBOSE_TRACE
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rig_set_debug (RIG_DEBUG_TRACE);
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#else
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rig_set_debug (RIG_DEBUG_VERBOSE);
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#endif
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#elif defined (NDEBUG)
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rig_set_debug (RIG_DEBUG_ERR);
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#else
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rig_set_debug (RIG_DEBUG_WARN);
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#endif
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rig_load_all_backends ();
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rig_list_foreach (rigCallback, registry);
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}
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void HamlibTransceiver::RIGDeleter::cleanup (RIG * rig)
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{
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if (rig)
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{
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// rig->state.obj = 0;
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rig_cleanup (rig);
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}
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}
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HamlibTransceiver::HamlibTransceiver (TransceiverFactory::PTTMethod ptt_type, QString const& ptt_port,
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QObject * parent)
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: PollingTransceiver {0, parent}
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, rig_ {rig_init (RIG_MODEL_DUMMY)}
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, set_rig_mode_ {false}
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, back_ptt_port_ {false}
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, one_VFO_ {false}
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, is_dummy_ {true}
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, reversed_ {false}
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, mode_query_works_ {true}
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, split_query_works_ {true}
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, tickle_hamlib_ {false}
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, get_vfo_works_ {true}
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{
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if (!rig_)
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{
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throw error {tr ("Hamlib initialisation error")};
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}
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switch (ptt_type)
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{
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case TransceiverFactory::PTT_method_VOX:
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set_conf ("ptt_type", "None");
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break;
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case TransceiverFactory::PTT_method_CAT:
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// Use the default PTT_TYPE for the rig (defined in the Hamlib
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// rig back-end capabilities).
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break;
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case TransceiverFactory::PTT_method_DTR:
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case TransceiverFactory::PTT_method_RTS:
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if (!ptt_port.isEmpty ())
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{
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#if defined (WIN32)
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set_conf ("ptt_pathname", ("\\\\.\\" + ptt_port).toLatin1 ().data ());
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#else
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set_conf ("ptt_pathname", ptt_port.toLatin1 ().data ());
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#endif
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}
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if (TransceiverFactory::PTT_method_DTR == ptt_type)
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{
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set_conf ("ptt_type", "DTR");
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}
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else
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{
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set_conf ("ptt_type", "RTS");
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}
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}
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}
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HamlibTransceiver::HamlibTransceiver (int model_number, TransceiverFactory::ParameterPack const& params,
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QObject * parent)
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: PollingTransceiver {params.poll_interval, parent}
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, rig_ {rig_init (model_number)}
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, set_rig_mode_ {params.set_rig_mode}
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, back_ptt_port_ {TransceiverFactory::TX_audio_source_rear == params.audio_source}
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, one_VFO_ {false}
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, is_dummy_ {RIG_MODEL_DUMMY == model_number}
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, reversed_ {false}
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, mode_query_works_ {rig_ && rig_->caps->get_mode}
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, split_query_works_ {rig_ && rig_->caps->get_split_vfo}
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, tickle_hamlib_ {false}
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, get_vfo_works_ {true}
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{
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if (!rig_)
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{
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throw error {tr ("Hamlib initialisation error")};
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}
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// rig_->state.obj = this;
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{
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//
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// user defined Hamlib settings
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//
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auto settings_file_name = QStandardPaths::locate (
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#if QT_VERSION >= 0x050500
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QStandardPaths::AppConfigLocation
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#else
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QStandardPaths::ConfigLocation
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#endif
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, "hamlib_settings.json");
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if (!settings_file_name.isEmpty ())
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{
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QFile settings_file {settings_file_name};
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if (settings_file.open (QFile::ReadOnly))
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{
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QJsonParseError status;
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auto settings_doc = QJsonDocument::fromJson (settings_file.readAll (), &status);
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if (status.error)
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{
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throw error {tr ("Hamlib settings file error: %1 at character offset %2")
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.arg (status.errorString ()).arg (status.offset)};
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}
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if (!settings_doc.isObject ())
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{
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throw error {tr ("Hamlib settings file error: top level must be a JSON object")};
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}
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auto const& settings = settings_doc.object ();
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//
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// configuration settings
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//
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auto const& config = settings["config"];
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if (!config.isUndefined ())
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{
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if (!config.isObject ())
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{
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throw error {tr ("Hamlib settings file error: config must be a JSON object")};
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}
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auto const& config_list = config.toObject ();
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for (auto item = config_list.constBegin (); item != config_list.constEnd (); ++item)
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{
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set_conf (item.key ().toLocal8Bit ().constData ()
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, (*item).toVariant ().toString ().toLocal8Bit ().constData ());
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}
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}
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}
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}
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}
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if (!is_dummy_)
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{
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switch (rig_->caps->port_type)
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{
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case RIG_PORT_SERIAL:
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if (!params.serial_port.isEmpty ())
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{
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set_conf ("rig_pathname", params.serial_port.toLatin1 ().data ());
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}
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set_conf ("serial_speed", QByteArray::number (params.baud).data ());
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set_conf ("data_bits", TransceiverFactory::seven_data_bits == params.data_bits ? "7" : "8");
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set_conf ("stop_bits", TransceiverFactory::one_stop_bit == params.stop_bits ? "1" : "2");
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switch (params.handshake)
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{
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case TransceiverFactory::handshake_none: set_conf ("serial_handshake", "None"); break;
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case TransceiverFactory::handshake_XonXoff: set_conf ("serial_handshake", "XONXOFF"); break;
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case TransceiverFactory::handshake_hardware: set_conf ("serial_handshake", "Hardware"); break;
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}
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if (params.force_dtr)
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{
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set_conf ("dtr_state", params.dtr_high ? "ON" : "OFF");
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}
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if (params.force_rts)
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{
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if (TransceiverFactory::handshake_hardware != params.handshake)
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{
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set_conf ("rts_state", params.rts_high ? "ON" : "OFF");
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}
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}
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break;
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case RIG_PORT_NETWORK:
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if (!params.network_port.isEmpty ())
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{
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set_conf ("rig_pathname", params.network_port.toLatin1 ().data ());
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}
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break;
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case RIG_PORT_USB:
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if (!params.usb_port.isEmpty ())
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{
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set_conf ("rig_pathname", params.usb_port.toLatin1 ().data ());
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}
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break;
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default:
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throw error {tr ("Unsupported CAT type")};
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break;
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}
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}
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switch (params.ptt_type)
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{
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case TransceiverFactory::PTT_method_VOX:
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set_conf ("ptt_type", "None");
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break;
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case TransceiverFactory::PTT_method_CAT:
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// Use the default PTT_TYPE for the rig (defined in the Hamlib
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// rig back-end capabilities).
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break;
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case TransceiverFactory::PTT_method_DTR:
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case TransceiverFactory::PTT_method_RTS:
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if (!params.ptt_port.isEmpty ()
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&& params.ptt_port != "None"
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&& (is_dummy_ || params.ptt_port != params.serial_port))
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{
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#if defined (WIN32)
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set_conf ("ptt_pathname", ("\\\\.\\" + params.ptt_port).toLatin1 ().data ());
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#else
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set_conf ("ptt_pathname", params.ptt_port.toLatin1 ().data ());
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#endif
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}
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if (TransceiverFactory::PTT_method_DTR == params.ptt_type)
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{
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set_conf ("ptt_type", "DTR");
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}
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else
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{
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set_conf ("ptt_type", "RTS");
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}
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}
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// Make Icom CAT split commands less glitchy
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set_conf ("no_xchg", "1");
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// would be nice to get events but not supported on Windows and also not on a lot of rigs
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// rig_set_freq_callback (rig_.data (), &frequency_change_callback, this);
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}
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void HamlibTransceiver::error_check (int ret_code, QString const& doing) const
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{
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if (RIG_OK != ret_code)
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{
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TRACE_CAT_POLL ("HamlibTransceiver", "error:" << rigerror (ret_code));
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throw error {tr ("Hamlib error: %1 while %2").arg (rigerror (ret_code)).arg (doing)};
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}
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}
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int HamlibTransceiver::do_start ()
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{
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TRACE_CAT ("HamlibTransceiver",
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QString::fromLatin1 (rig_->caps->mfg_name).trimmed ()
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<< QString::fromLatin1 (rig_->caps->model_name).trimmed ());
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error_check (rig_open (rig_.data ()), tr ("opening connection to rig"));
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// the Net rigctl back end promises all functions work but we must
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// test get_vfo as it determines our strategy for Icom rigs
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vfo_t vfo;
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int rc = rig_get_vfo (rig_.data (), &vfo);
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if (-RIG_ENAVAIL == rc || -RIG_ENIMPL == rc)
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{
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get_vfo_works_ = false;
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// determine if the rig uses single VFO addressing i.e. A/B and
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// no get_vfo function
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if (rig_->state.vfo_list & RIG_VFO_B)
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{
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one_VFO_ = true;
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}
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}
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else
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{
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error_check (rc, "getting current VFO");
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}
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if ((WSJT_RIG_NONE_CAN_SPLIT || !is_dummy_)
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&& rig_->caps->set_split_vfo) // if split is possible do some extra setup
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{
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freq_t f1;
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freq_t f2;
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rmode_t m {RIG_MODE_USB};
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rmode_t mb;
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pbwidth_t w {RIG_PASSBAND_NORMAL};
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pbwidth_t wb;
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if ((!get_vfo_works_ || !rig_->caps->get_vfo)
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&& (rig_->caps->set_vfo || rig_has_vfo_op (rig_.data (), RIG_OP_TOGGLE)))
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{
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// Icom have deficient CAT protocol with no way of reading which
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// VFO is selected or if SPLIT is selected so we have to simply
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// assume it is as when we started by setting at open time right
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// here. We also gather/set other initial state.
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error_check (rig_get_freq (rig_.data (), RIG_VFO_CURR, &f1), tr ("getting current frequency"));
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f1 = std::round (f1);
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TRACE_CAT ("HamlibTransceiver", "current frequency =" << f1);
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error_check (rig_get_mode (rig_.data (), RIG_VFO_CURR, &m, &w), tr ("getting current mode"));
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TRACE_CAT ("HamlibTransceiver", "current mode =" << rig_strrmode (m) << "bw =" << w);
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if (!rig_->caps->set_vfo)
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{
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TRACE_CAT ("HamlibTransceiver", "rig_vfo_op TOGGLE");
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error_check (rig_vfo_op (rig_.data (), RIG_VFO_CURR, RIG_OP_TOGGLE), tr ("exchanging VFOs"));
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}
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else
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{
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TRACE_CAT ("HamlibTransceiver", "rig_set_vfo to other VFO");
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error_check (rig_set_vfo (rig_.data (), rig_->state.vfo_list & RIG_VFO_B ? RIG_VFO_B : RIG_VFO_SUB), tr ("setting current VFO"));
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}
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error_check (rig_get_freq (rig_.data (), RIG_VFO_CURR, &f2), tr ("getting other VFO frequency"));
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f2 = std::round (f2);
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TRACE_CAT ("HamlibTransceiver", "rig_get_freq other frequency =" << f2);
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error_check (rig_get_mode (rig_.data (), RIG_VFO_CURR, &mb, &wb), tr ("getting other VFO mode"));
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TRACE_CAT ("HamlibTransceiver", "rig_get_mode other mode =" << rig_strrmode (mb) << "bw =" << wb);
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update_other_frequency (f2);
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if (!rig_->caps->set_vfo)
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{
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TRACE_CAT ("HamlibTransceiver", "rig_vfo_op TOGGLE");
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error_check (rig_vfo_op (rig_.data (), RIG_VFO_CURR, RIG_OP_TOGGLE), tr ("exchanging VFOs"));
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}
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else
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{
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TRACE_CAT ("HamlibTransceiver", "rig_set_vfo A/MAIN");
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error_check (rig_set_vfo (rig_.data (), rig_->state.vfo_list & RIG_VFO_A ? RIG_VFO_A : RIG_VFO_MAIN), tr ("setting current VFO"));
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}
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if (f1 != f2 || m != mb || w != wb) // we must have started with MAIN/A
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{
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update_rx_frequency (f1);
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}
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else
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{
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error_check (rig_get_freq (rig_.data (), RIG_VFO_CURR, &f1), tr ("getting frequency"));
|
|
f1 = std::round (f1);
|
|
TRACE_CAT ("HamlibTransceiver", "rig_get_freq frequency =" << f1);
|
|
|
|
error_check (rig_get_mode (rig_.data (), RIG_VFO_CURR, &m, &w), tr ("getting mode"));
|
|
TRACE_CAT ("HamlibTransceiver", "rig_get_mode mode =" << rig_strrmode (m) << "bw =" << w);
|
|
|
|
update_rx_frequency (f1);
|
|
}
|
|
|
|
// TRACE_CAT ("HamlibTransceiver", "rig_set_split_vfo split off");
|
|
// error_check (rig_set_split_vfo (rig_.data (), RIG_VFO_CURR, RIG_SPLIT_OFF, RIG_VFO_CURR), tr ("setting split off"));
|
|
// update_split (false);
|
|
}
|
|
else
|
|
{
|
|
vfo_t v {RIG_VFO_A}; // assume RX always on VFO A/MAIN
|
|
|
|
if (get_vfo_works_ && rig_->caps->get_vfo)
|
|
{
|
|
error_check (rig_get_vfo (rig_.data (), &v), tr ("getting current VFO")); // has side effect of establishing current VFO inside hamlib
|
|
TRACE_CAT ("HamlibTransceiver", "rig_get_vfo current VFO = " << rig_strvfo (v));
|
|
}
|
|
|
|
reversed_ = RIG_VFO_B == v;
|
|
|
|
if (mode_query_works_ && !(rig_->caps->targetable_vfo & (RIG_TARGETABLE_MODE | RIG_TARGETABLE_PURE)))
|
|
{
|
|
if (RIG_OK == rig_get_mode (rig_.data (), RIG_VFO_CURR, &m, &w))
|
|
{
|
|
TRACE_CAT ("HamlibTransceiver", "rig_get_mode current mode =" << rig_strrmode (m) << "bw =" << w);
|
|
}
|
|
else
|
|
{
|
|
mode_query_works_ = false;
|
|
// Some rigs (HDSDR) don't have a working way of
|
|
// reporting MODE so we give up on mode queries -
|
|
// sets will still cause an error
|
|
TRACE_CAT ("HamlibTransceiver", "rig_get_mode can't do on this rig");
|
|
}
|
|
}
|
|
}
|
|
update_mode (map_mode (m));
|
|
}
|
|
|
|
tickle_hamlib_ = true;
|
|
|
|
if (is_dummy_ && dummy_frequency_)
|
|
{
|
|
// return to where last dummy instance was
|
|
// TODO: this is going to break down if multiple dummy rigs are used
|
|
rig_set_freq (rig_.data (), RIG_VFO_CURR, dummy_frequency_);
|
|
update_rx_frequency (dummy_frequency_);
|
|
if (RIG_MODE_NONE != dummy_mode_)
|
|
{
|
|
rig_set_mode (rig_.data (), RIG_VFO_CURR, dummy_mode_, RIG_PASSBAND_NOCHANGE);
|
|
update_mode (map_mode (dummy_mode_));
|
|
}
|
|
}
|
|
|
|
int resolution {0};
|
|
freq_t current_frequency;
|
|
error_check (rig_get_freq (rig_.data (), RIG_VFO_CURR, ¤t_frequency), tr ("getting current VFO frequency"));
|
|
current_frequency = std::round (current_frequency);
|
|
Frequency f = current_frequency;
|
|
if (f && !(f % 10))
|
|
{
|
|
auto test_frequency = f - f % 100 + 55;
|
|
error_check (rig_set_freq (rig_.data (), RIG_VFO_CURR, test_frequency), tr ("setting frequency"));
|
|
freq_t new_frequency;
|
|
error_check (rig_get_freq (rig_.data (), RIG_VFO_CURR, &new_frequency), tr ("getting current VFO frequency"));
|
|
new_frequency = std::round (new_frequency);
|
|
switch (static_cast<Radio::FrequencyDelta> (new_frequency - test_frequency))
|
|
{
|
|
case -5: resolution = -1; break; // 10Hz truncated
|
|
case 5: resolution = 1; break; // 10Hz rounded
|
|
case -55: resolution = -2; break; // 100Hz truncated
|
|
case 45: resolution = 2; break; // 100Hz rounded
|
|
}
|
|
error_check (rig_set_freq (rig_.data (), RIG_VFO_CURR, current_frequency), tr ("setting frequency"));
|
|
}
|
|
|
|
poll ();
|
|
|
|
TRACE_CAT ("HamlibTransceiver", "exit" << state () << "reversed =" << reversed_ << "resolution = " << resolution);
|
|
return resolution;
|
|
}
|
|
|
|
void HamlibTransceiver::do_stop ()
|
|
{
|
|
if (is_dummy_)
|
|
{
|
|
rig_get_freq (rig_.data (), RIG_VFO_CURR, &dummy_frequency_);
|
|
dummy_frequency_ = std::round (dummy_frequency_);
|
|
if (mode_query_works_)
|
|
{
|
|
pbwidth_t width;
|
|
rig_get_mode (rig_.data (), RIG_VFO_CURR, &dummy_mode_, &width);
|
|
}
|
|
}
|
|
if (rig_)
|
|
{
|
|
rig_close (rig_.data ());
|
|
}
|
|
|
|
TRACE_CAT ("HamlibTransceiver", "state:" << state () << "reversed =" << reversed_);
|
|
}
|
|
|
|
auto HamlibTransceiver::get_vfos (bool for_split) const -> std::tuple<vfo_t, vfo_t>
|
|
{
|
|
if (get_vfo_works_ && rig_->caps->get_vfo)
|
|
{
|
|
vfo_t v;
|
|
error_check (rig_get_vfo (rig_.data (), &v), tr ("getting current VFO")); // has side effect of establishing current VFO inside hamlib
|
|
TRACE_CAT ("HamlibTransceiver", "rig_get_vfo VFO = " << rig_strvfo (v));
|
|
|
|
reversed_ = RIG_VFO_B == v;
|
|
}
|
|
else if (!for_split && rig_->caps->set_vfo && rig_->caps->set_split_vfo)
|
|
{
|
|
// use VFO A/MAIN for main frequency and B/SUB for Tx
|
|
// frequency if split since these type of radios can only
|
|
// support this way around
|
|
|
|
TRACE_CAT ("HamlibTransceiver", "rig_set_vfo VFO = A/MAIN");
|
|
error_check (rig_set_vfo (rig_.data (), rig_->state.vfo_list & RIG_VFO_A ? RIG_VFO_A : RIG_VFO_MAIN), tr ("setting current VFO"));
|
|
}
|
|
// else only toggle available but both VFOs should be substitutable
|
|
|
|
auto rx_vfo = rig_->state.vfo_list & RIG_VFO_A ? RIG_VFO_A : RIG_VFO_MAIN;
|
|
auto tx_vfo = (WSJT_RIG_NONE_CAN_SPLIT || !is_dummy_) && for_split
|
|
? (rig_->state.vfo_list & RIG_VFO_B ? RIG_VFO_B : RIG_VFO_SUB)
|
|
: rx_vfo;
|
|
if (reversed_)
|
|
{
|
|
TRACE_CAT ("HamlibTransceiver", "reversing VFOs");
|
|
std::swap (rx_vfo, tx_vfo);
|
|
}
|
|
|
|
TRACE_CAT ("HamlibTransceiver", "RX VFO = " << rig_strvfo (rx_vfo) << " TX VFO = " << rig_strvfo (tx_vfo));
|
|
return std::make_tuple (rx_vfo, tx_vfo);
|
|
}
|
|
|
|
void HamlibTransceiver::do_frequency (Frequency f, MODE m, bool no_ignore)
|
|
{
|
|
TRACE_CAT ("HamlibTransceiver", f << "mode:" << m << "reversed:" << reversed_);
|
|
|
|
// only change when receiving or simplex or direct VFO addressing
|
|
// unavailable or forced
|
|
if (!state ().ptt () || !state ().split () || !one_VFO_ || no_ignore)
|
|
{
|
|
// for the 1st time as a band change may cause a recalled mode to be
|
|
// set
|
|
error_check (rig_set_freq (rig_.data (), RIG_VFO_CURR, f), tr ("setting frequency"));
|
|
update_rx_frequency (f);
|
|
|
|
if (mode_query_works_ && UNK != m)
|
|
{
|
|
rmode_t current_mode;
|
|
pbwidth_t current_width;
|
|
auto new_mode = map_mode (m);
|
|
error_check (rig_get_mode (rig_.data (), RIG_VFO_CURR, ¤t_mode, ¤t_width), tr ("getting current VFO mode"));
|
|
TRACE_CAT ("HamlibTransceiver", "rig_get_mode mode = " << rig_strrmode (current_mode) << "bw =" << current_width);
|
|
|
|
if (new_mode != current_mode)
|
|
{
|
|
TRACE_CAT ("HamlibTransceiver", "rig_set_mode mode = " << rig_strrmode (new_mode));
|
|
error_check (rig_set_mode (rig_.data (), RIG_VFO_CURR, new_mode, RIG_PASSBAND_NOCHANGE), tr ("setting current VFO mode"));
|
|
|
|
// for the 2nd time because a mode change may have caused a
|
|
// frequency change
|
|
error_check (rig_set_freq (rig_.data (), RIG_VFO_CURR, f), tr ("setting frequency"));
|
|
|
|
// for the second time because some rigs change mode according
|
|
// to frequency such as the TS-2000 auto mode setting
|
|
TRACE_CAT ("HamlibTransceiver", "rig_set_mode mode = " << rig_strrmode (new_mode));
|
|
error_check (rig_set_mode (rig_.data (), RIG_VFO_CURR, new_mode, RIG_PASSBAND_NOCHANGE), tr ("setting current VFO mode"));
|
|
}
|
|
update_mode (m);
|
|
}
|
|
}
|
|
}
|
|
|
|
void HamlibTransceiver::do_tx_frequency (Frequency tx, bool no_ignore)
|
|
{
|
|
TRACE_CAT ("HamlibTransceiver", tx << "reversed:" << reversed_);
|
|
|
|
if (WSJT_RIG_NONE_CAN_SPLIT || !is_dummy_) // split is meaningless if you can't see it
|
|
{
|
|
auto split = tx ? RIG_SPLIT_ON : RIG_SPLIT_OFF;
|
|
auto vfos = get_vfos (tx);
|
|
// auto rx_vfo = std::get<0> (vfos); // or use RIG_VFO_CURR
|
|
auto tx_vfo = std::get<1> (vfos);
|
|
|
|
if (tx)
|
|
{
|
|
// Doing set split for the 1st of two times, this one
|
|
// ensures that the internal Hamlib state is correct
|
|
// otherwise rig_set_split_freq() will target the wrong VFO
|
|
// on some rigs
|
|
|
|
if (tickle_hamlib_)
|
|
{
|
|
// This potentially causes issues with the Elecraft K3
|
|
// which will block setting split mode when it deems
|
|
// cross mode split operation not possible. There's not
|
|
// much we can do since the Hamlib Library needs this
|
|
// call at least once to establish the Tx VFO. Best we
|
|
// can do is only do this once per session.
|
|
TRACE_CAT ("HamlibTransceiver", "rig_set_split_vfo split =" << split);
|
|
auto rc = rig_set_split_vfo (rig_.data (), RIG_VFO_CURR, split, tx_vfo);
|
|
if (tx || (-RIG_ENAVAIL != rc && -RIG_ENIMPL != rc))
|
|
{
|
|
// On rigs that can't have split controlled only throw an
|
|
// exception when an error other than command not accepted
|
|
// is returned when trying to leave split mode. This allows
|
|
// fake split mode and non-split mode to work without error
|
|
// on such rigs without having to know anything about the
|
|
// specific rig.
|
|
error_check (rc, tr ("setting/unsetting split mode"));
|
|
}
|
|
tickle_hamlib_ = false;
|
|
update_split (tx);
|
|
}
|
|
|
|
// just change current when transmitting with single VFO
|
|
// addressing
|
|
if (state ().ptt () && one_VFO_)
|
|
{
|
|
TRACE_CAT ("HamlibTransceiver", "rig_set_split_vfo split =" << split);
|
|
error_check (rig_set_split_vfo (rig_.data (), RIG_VFO_CURR, split, tx_vfo), tr ("setting split mode"));
|
|
|
|
error_check (rig_set_freq (rig_.data (), RIG_VFO_CURR, tx), tr ("setting frequency"));
|
|
|
|
if (set_rig_mode_ && mode_query_works_)
|
|
{
|
|
rmode_t current_mode;
|
|
pbwidth_t current_width;
|
|
auto new_mode = map_mode (state ().mode ());
|
|
error_check (rig_get_mode (rig_.data (), RIG_VFO_CURR, ¤t_mode, ¤t_width), tr ("getting current VFO mode"));
|
|
TRACE_CAT ("HamlibTransceiver", "rig_get_mode mode = " << rig_strrmode (current_mode) << "bw =" << current_width);
|
|
|
|
if (new_mode != current_mode)
|
|
{
|
|
TRACE_CAT ("HamlibTransceiver", "rig_set_mode mode = " << rig_strrmode (new_mode));
|
|
error_check (rig_set_mode (rig_.data (), RIG_VFO_CURR, new_mode, RIG_PASSBAND_NOCHANGE), tr ("setting current VFO mode"));
|
|
}
|
|
}
|
|
update_other_frequency (tx);
|
|
}
|
|
else if (!one_VFO_ || no_ignore) // if not single VFO addressing and not forced
|
|
{
|
|
hamlib_tx_vfo_fixup fixup (rig_.data (), tx_vfo);
|
|
if (set_rig_mode_)
|
|
{
|
|
auto new_mode = map_mode (state ().mode ());
|
|
TRACE_CAT ("HamlibTransceiver", "rig_set_split_freq_mode freq = " << tx
|
|
<< " mode = " << rig_strrmode (new_mode));
|
|
error_check (rig_set_split_freq_mode (rig_.data (), RIG_VFO_CURR, tx, new_mode, RIG_PASSBAND_NOCHANGE), tr ("setting split TX frequency and mode"));
|
|
}
|
|
else
|
|
{
|
|
TRACE_CAT ("HamlibTransceiver", "rig_set_split_freq freq = " << tx);
|
|
error_check (rig_set_split_freq (rig_.data (), RIG_VFO_CURR, tx), tr ("setting split TX frequency"));
|
|
}
|
|
// Enable split last since some rigs (Kenwood for one) come out
|
|
// of split when you switch RX VFO (to set split mode above for
|
|
// example). Also the Elecraft K3 will refuse to go to split
|
|
// with certain VFO A/B mode combinations.
|
|
TRACE_CAT ("HamlibTransceiver", "rig_set_split_vfo split =" << split);
|
|
error_check (rig_set_split_vfo (rig_.data (), RIG_VFO_CURR, split, tx_vfo), tr ("setting split mode"));
|
|
update_other_frequency (tx);
|
|
update_split (tx);
|
|
}
|
|
}
|
|
else
|
|
{
|
|
// Disable split
|
|
TRACE_CAT ("HamlibTransceiver", "rig_set_split_vfo split =" << split);
|
|
auto rc = rig_set_split_vfo (rig_.data (), RIG_VFO_CURR, split, tx_vfo);
|
|
if (tx || (-RIG_ENAVAIL != rc && -RIG_ENIMPL != rc))
|
|
{
|
|
// On rigs that can't have split controlled only throw an
|
|
// exception when an error other than command not accepted
|
|
// is returned when trying to leave split mode. This allows
|
|
// fake split mode and non-split mode to work without error
|
|
// on such rigs without having to know anything about the
|
|
// specific rig.
|
|
error_check (rc, tr ("setting/unsetting split mode"));
|
|
}
|
|
update_other_frequency (tx);
|
|
update_split (tx);
|
|
}
|
|
}
|
|
}
|
|
|
|
void HamlibTransceiver::do_mode (MODE mode)
|
|
{
|
|
TRACE_CAT ("HamlibTransceiver", mode);
|
|
|
|
auto vfos = get_vfos (state ().split ());
|
|
// auto rx_vfo = std::get<0> (vfos);
|
|
auto tx_vfo = std::get<1> (vfos);
|
|
|
|
rmode_t current_mode;
|
|
pbwidth_t current_width;
|
|
auto new_mode = map_mode (mode);
|
|
|
|
// only change when receiving or simplex if direct VFO addressing unavailable
|
|
if (!(state ().ptt () && state ().split () && one_VFO_))
|
|
{
|
|
error_check (rig_get_mode (rig_.data (), RIG_VFO_CURR, ¤t_mode, ¤t_width), tr ("getting current VFO mode"));
|
|
TRACE_CAT ("HamlibTransceiver", "rig_get_mode mode = " << rig_strrmode (current_mode) << "bw =" << current_width);
|
|
|
|
if (new_mode != current_mode)
|
|
{
|
|
TRACE_CAT ("HamlibTransceiver", "rig_set_mode mode = " << rig_strrmode (new_mode));
|
|
error_check (rig_set_mode (rig_.data (), RIG_VFO_CURR, new_mode, RIG_PASSBAND_NOCHANGE), tr ("setting current VFO mode"));
|
|
}
|
|
}
|
|
|
|
// just change current when transmitting split with one VFO mode
|
|
if (state ().ptt () && state ().split () && one_VFO_)
|
|
{
|
|
error_check (rig_get_mode (rig_.data (), RIG_VFO_CURR, ¤t_mode, ¤t_width), tr ("getting current VFO mode"));
|
|
TRACE_CAT ("HamlibTransceiver", "rig_get_mode mode = " << rig_strrmode (current_mode) << "bw =" << current_width);
|
|
|
|
if (new_mode != current_mode)
|
|
{
|
|
TRACE_CAT ("HamlibTransceiver", "rig_set_mode mode = " << rig_strrmode (new_mode));
|
|
error_check (rig_set_mode (rig_.data (), RIG_VFO_CURR, new_mode, RIG_PASSBAND_NOCHANGE), tr ("setting current VFO mode"));
|
|
}
|
|
}
|
|
else if (state ().split () && !one_VFO_)
|
|
{
|
|
error_check (rig_get_split_mode (rig_.data (), RIG_VFO_CURR, ¤t_mode, ¤t_width), tr ("getting split TX VFO mode"));
|
|
TRACE_CAT ("HamlibTransceiver", "rig_get_split_mode mode = " << rig_strrmode (current_mode) << "bw =" << current_width);
|
|
|
|
if (new_mode != current_mode)
|
|
{
|
|
TRACE_CAT ("HamlibTransceiver", "rig_set_split_mode mode = " << rig_strrmode (new_mode));
|
|
hamlib_tx_vfo_fixup fixup (rig_.data (), tx_vfo);
|
|
error_check (rig_set_split_mode (rig_.data (), RIG_VFO_CURR, new_mode, RIG_PASSBAND_NOCHANGE), tr ("setting split TX VFO mode"));
|
|
}
|
|
}
|
|
update_mode (mode);
|
|
}
|
|
|
|
void HamlibTransceiver::poll ()
|
|
{
|
|
#if !WSJT_TRACE_CAT_POLLS
|
|
#if defined (NDEBUG)
|
|
rig_set_debug (RIG_DEBUG_ERR);
|
|
#else
|
|
rig_set_debug (RIG_DEBUG_WARN);
|
|
#endif
|
|
#endif
|
|
|
|
freq_t f;
|
|
rmode_t m;
|
|
pbwidth_t w;
|
|
split_t s;
|
|
|
|
if (get_vfo_works_ && rig_->caps->get_vfo)
|
|
{
|
|
vfo_t v;
|
|
error_check (rig_get_vfo (rig_.data (), &v), tr ("getting current VFO")); // has side effect of establishing current VFO inside hamlib
|
|
TRACE_CAT_POLL ("HamlibTransceiver", "VFO =" << rig_strvfo (v));
|
|
reversed_ = RIG_VFO_B == v;
|
|
}
|
|
|
|
// only read when receiving or simplex
|
|
if (!state ().ptt () || !state ().split ())
|
|
{
|
|
error_check (rig_get_freq (rig_.data (), RIG_VFO_CURR, &f), tr ("getting current VFO frequency"));
|
|
f = std::round (f);
|
|
TRACE_CAT_POLL ("HamlibTransceiver", "rig_get_freq frequency =" << f);
|
|
update_rx_frequency (f);
|
|
}
|
|
|
|
if ((WSJT_RIG_NONE_CAN_SPLIT || !is_dummy_)
|
|
&& state ().split ()
|
|
&& (rig_->caps->targetable_vfo & (RIG_TARGETABLE_FREQ | RIG_TARGETABLE_PURE))
|
|
&& !one_VFO_)
|
|
{
|
|
// only read "other" VFO if in split, this allows rigs like
|
|
// FlexRadio to work in Kenwood TS-2000 mode despite them
|
|
// not having a FB; command
|
|
|
|
// we can only probe current VFO unless rig supports reading
|
|
// the other one directly because we can't glitch the Rx
|
|
error_check (rig_get_freq (rig_.data ()
|
|
, reversed_
|
|
? (rig_->state.vfo_list & RIG_VFO_A ? RIG_VFO_A : RIG_VFO_MAIN)
|
|
: (rig_->state.vfo_list & RIG_VFO_B ? RIG_VFO_B : RIG_VFO_SUB)
|
|
, &f), tr ("getting other VFO frequency"));
|
|
f = std::round (f);
|
|
TRACE_CAT_POLL ("HamlibTransceiver", "rig_get_freq other VFO =" << f);
|
|
update_other_frequency (f);
|
|
}
|
|
|
|
// only read when receiving or simplex if direct VFO addressing unavailable
|
|
if ((!state ().ptt () || !state ().split ())
|
|
&& mode_query_works_)
|
|
{
|
|
// We have to ignore errors here because Yaesu FTdx... rigs can
|
|
// report the wrong mode when transmitting split with different
|
|
// modes per VFO. This is unfortunate because that is exactly
|
|
// what you need to do to get 4kHz Rx b.w and modulation into
|
|
// the rig through the data socket or USB. I.e. USB for Rx and
|
|
// DATA-USB for Tx.
|
|
auto rc = rig_get_mode (rig_.data (), RIG_VFO_CURR, &m, &w);
|
|
if (RIG_OK == rc)
|
|
{
|
|
TRACE_CAT_POLL ("HamlibTransceiver", "rig_get_mode mode =" << rig_strrmode (m) << "bw =" << w);
|
|
update_mode (map_mode (m));
|
|
}
|
|
else
|
|
{
|
|
TRACE_CAT_POLL ("HamlibTransceiver", "rig_get_mode mode failed with rc:" << rc << "ignoring");
|
|
}
|
|
}
|
|
|
|
if ((WSJT_RIG_NONE_CAN_SPLIT || !is_dummy_)
|
|
&& rig_->caps->get_split_vfo && split_query_works_)
|
|
{
|
|
vfo_t v {RIG_VFO_NONE}; // so we can tell if it doesn't get updated :(
|
|
auto rc = rig_get_split_vfo (rig_.data (), RIG_VFO_CURR, &s, &v);
|
|
if (-RIG_OK == rc && RIG_SPLIT_ON == s)
|
|
{
|
|
TRACE_CAT_POLL ("HamlibTransceiver", "rig_get_split_vfo split = " << s << " VFO = " << rig_strvfo (v));
|
|
update_split (true);
|
|
// if (RIG_VFO_A == v)
|
|
// {
|
|
// reversed_ = true; // not sure if this helps us here
|
|
// }
|
|
}
|
|
else if (-RIG_OK == rc) // not split
|
|
{
|
|
TRACE_CAT_POLL ("HamlibTransceiver", "rig_get_split_vfo split = " << s << " VFO = " << rig_strvfo (v));
|
|
update_split (false);
|
|
}
|
|
else
|
|
{
|
|
// Some rigs (Icom) don't have a way of reporting SPLIT
|
|
// mode
|
|
TRACE_CAT_POLL ("HamlibTransceiver", "rig_get_split_vfo can't do on this rig");
|
|
// just report how we see it based on prior commands
|
|
split_query_works_ = false;
|
|
}
|
|
}
|
|
|
|
if (RIG_PTT_NONE != rig_->state.pttport.type.ptt && rig_->caps->get_ptt)
|
|
{
|
|
ptt_t p;
|
|
auto rc = rig_get_ptt (rig_.data (), RIG_VFO_CURR, &p);
|
|
if (-RIG_ENAVAIL != rc && -RIG_ENIMPL != rc) // may fail if
|
|
// Net rig ctl and target doesn't
|
|
// support command
|
|
{
|
|
error_check (rc, tr ("getting PTT state"));
|
|
TRACE_CAT_POLL ("HamlibTransceiver", "rig_get_ptt PTT =" << p);
|
|
update_PTT (!(RIG_PTT_OFF == p));
|
|
}
|
|
}
|
|
|
|
#if !WSJT_TRACE_CAT_POLLS
|
|
#if WSJT_HAMLIB_TRACE
|
|
#if WSJT_HAMLIB_VERBOSE_TRACE
|
|
rig_set_debug (RIG_DEBUG_TRACE);
|
|
#else
|
|
rig_set_debug (RIG_DEBUG_VERBOSE);
|
|
#endif
|
|
#elif defined (NDEBUG)
|
|
rig_set_debug (RIG_DEBUG_ERR);
|
|
#else
|
|
rig_set_debug (RIG_DEBUG_WARN);
|
|
#endif
|
|
#endif
|
|
}
|
|
|
|
void HamlibTransceiver::do_ptt (bool on)
|
|
{
|
|
TRACE_CAT ("HamlibTransceiver", on << state () << "reversed =" << reversed_);
|
|
if (on)
|
|
{
|
|
if (RIG_PTT_NONE != rig_->state.pttport.type.ptt)
|
|
{
|
|
TRACE_CAT ("HamlibTransceiver", "rig_set_ptt PTT = true");
|
|
error_check (rig_set_ptt (rig_.data (), RIG_VFO_CURR
|
|
, RIG_PTT_RIG_MICDATA == rig_->caps->ptt_type && back_ptt_port_
|
|
? RIG_PTT_ON_DATA : RIG_PTT_ON), tr ("setting PTT on"));
|
|
}
|
|
}
|
|
else
|
|
{
|
|
if (RIG_PTT_NONE != rig_->state.pttport.type.ptt)
|
|
{
|
|
TRACE_CAT ("HamlibTransceiver", "rig_set_ptt PTT = false");
|
|
error_check (rig_set_ptt (rig_.data (), RIG_VFO_CURR, RIG_PTT_OFF), tr ("setting PTT off"));
|
|
}
|
|
}
|
|
|
|
update_PTT (on);
|
|
}
|
|
|
|
void HamlibTransceiver::set_conf (char const * item, char const * value)
|
|
{
|
|
token_t token = rig_token_lookup (rig_.data (), item);
|
|
if (RIG_CONF_END != token) // only set if valid for rig model
|
|
{
|
|
error_check (rig_set_conf (rig_.data (), token, value), tr ("setting a configuration item"));
|
|
}
|
|
}
|
|
|
|
QByteArray HamlibTransceiver::get_conf (char const * item)
|
|
{
|
|
token_t token = rig_token_lookup (rig_.data (), item);
|
|
QByteArray value {128, '\0'};
|
|
if (RIG_CONF_END != token) // only get if valid for rig model
|
|
{
|
|
error_check (rig_get_conf (rig_.data (), token, value.data ()), tr ("getting a configuration item"));
|
|
}
|
|
return value;
|
|
}
|
|
|
|
auto HamlibTransceiver::map_mode (rmode_t m) const -> MODE
|
|
{
|
|
switch (m)
|
|
{
|
|
case RIG_MODE_AM:
|
|
case RIG_MODE_SAM:
|
|
case RIG_MODE_AMS:
|
|
case RIG_MODE_DSB:
|
|
return AM;
|
|
|
|
case RIG_MODE_CW:
|
|
return CW;
|
|
|
|
case RIG_MODE_CWR:
|
|
return CW_R;
|
|
|
|
case RIG_MODE_USB:
|
|
case RIG_MODE_ECSSUSB:
|
|
case RIG_MODE_SAH:
|
|
case RIG_MODE_FAX:
|
|
return USB;
|
|
|
|
case RIG_MODE_LSB:
|
|
case RIG_MODE_ECSSLSB:
|
|
case RIG_MODE_SAL:
|
|
return LSB;
|
|
|
|
case RIG_MODE_RTTY:
|
|
return FSK;
|
|
|
|
case RIG_MODE_RTTYR:
|
|
return FSK_R;
|
|
|
|
case RIG_MODE_PKTLSB:
|
|
return DIG_L;
|
|
|
|
case RIG_MODE_PKTUSB:
|
|
return DIG_U;
|
|
|
|
case RIG_MODE_FM:
|
|
case RIG_MODE_WFM:
|
|
return FM;
|
|
|
|
case RIG_MODE_PKTFM:
|
|
return DIG_FM;
|
|
|
|
default:
|
|
return UNK;
|
|
}
|
|
}
|
|
|
|
rmode_t HamlibTransceiver::map_mode (MODE mode) const
|
|
{
|
|
switch (mode)
|
|
{
|
|
case AM: return RIG_MODE_AM;
|
|
case CW: return RIG_MODE_CW;
|
|
case CW_R: return RIG_MODE_CWR;
|
|
case USB: return RIG_MODE_USB;
|
|
case LSB: return RIG_MODE_LSB;
|
|
case FSK: return RIG_MODE_RTTY;
|
|
case FSK_R: return RIG_MODE_RTTYR;
|
|
case DIG_L: return RIG_MODE_PKTLSB;
|
|
case DIG_U: return RIG_MODE_PKTUSB;
|
|
case FM: return RIG_MODE_FM;
|
|
case DIG_FM: return RIG_MODE_PKTFM;
|
|
default: break;
|
|
}
|
|
return RIG_MODE_USB; // quieten compiler grumble
|
|
}
|