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https://github.com/saitohirga/WSJT-X.git
synced 2024-11-26 14:18:38 -05:00
424ed88645
V12.2.6 of teh DX Lab Suite Commander finally has a way to suppress mode rationalization when setting the split Tx frequency. This now means that we can now honor the radio setting to not change the rig modulation mode. This should help with a number of rigs that require different modes on teh Tx and Rx VFOs for optimal wide band digital operation. This will also help with some rig and interface combinations that lock up or otherwise misbehave when setting the Tx VFO mode at certain times with respect to other rig control commands. This change also improves mode setting in general hopefully closing a few corner case issues when starting up and when transmitting for the first time in a session. Included is the latest DX Lab Suite Commander TCP/IP commands documentation correct for v12.2.6. git-svn-id: svn+ssh://svn.code.sf.net/p/wsjt/wsjt/branches/wsjtx@7030 ab8295b8-cf94-4d9e-aec4-7959e3be5d79
222 lines
7.4 KiB
C++
222 lines
7.4 KiB
C++
#include "TransceiverFactory.hpp"
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#include <QMetaType>
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#include "HamlibTransceiver.hpp"
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#include "DXLabSuiteCommanderTransceiver.hpp"
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#include "HRDTransceiver.hpp"
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#include "EmulateSplitTransceiver.hpp"
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#if defined (WIN32)
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#include "OmniRigTransceiver.hpp"
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#endif
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#include "moc_TransceiverFactory.cpp"
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// we use the hamlib "Hamlib Dummy" transceiver for non-CAT radios,
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// this allows us to still use the hamlib PTT control features for a
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// unified PTT control solution
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char const * const TransceiverFactory::basic_transceiver_name_ = "None";
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namespace
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{
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enum // supported non-hamlib radio interfaces
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{
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NonHamlibBaseId = 9899
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, CommanderId
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, HRDId
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, OmniRigOneId
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, OmniRigTwoId
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};
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}
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TransceiverFactory::TransceiverFactory ()
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{
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HamlibTransceiver::register_transceivers (&transceivers_);
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DXLabSuiteCommanderTransceiver::register_transceivers (&transceivers_, CommanderId);
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HRDTransceiver::register_transceivers (&transceivers_, HRDId);
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#if defined (WIN32)
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// OmniRig is ActiveX/COM server so only on Windows
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OmniRigTransceiver::register_transceivers (&transceivers_, OmniRigOneId, OmniRigTwoId);
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#endif
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}
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TransceiverFactory::~TransceiverFactory ()
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{
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HamlibTransceiver::unregister_transceivers ();
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}
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auto TransceiverFactory::supported_transceivers () const -> Transceivers const&
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{
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return transceivers_;
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}
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auto TransceiverFactory::CAT_port_type (QString const& name) const -> Capabilities::PortType
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{
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return supported_transceivers ()[name].port_type_;
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}
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bool TransceiverFactory::has_CAT_PTT (QString const& name) const
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{
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return
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supported_transceivers ()[name].has_CAT_PTT_
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|| supported_transceivers ()[name].model_number_ > NonHamlibBaseId;
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}
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bool TransceiverFactory::has_CAT_PTT_mic_data (QString const& name) const
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{
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return supported_transceivers ()[name].has_CAT_PTT_mic_data_;
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}
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bool TransceiverFactory::has_CAT_indirect_serial_PTT (QString const& name) const
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{
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return supported_transceivers ()[name].has_CAT_indirect_serial_PTT_;
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}
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bool TransceiverFactory::has_asynchronous_CAT (QString const& name) const
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{
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return supported_transceivers ()[name].asynchronous_;
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}
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std::unique_ptr<Transceiver> TransceiverFactory::create (ParameterPack const& params, QThread * target_thread)
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{
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std::unique_ptr<Transceiver> result;
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switch (supported_transceivers ()[params.rig_name].model_number_)
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{
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case CommanderId:
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{
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std::unique_ptr<TransceiverBase> basic_transceiver;
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if (PTT_method_CAT != params.ptt_type)
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{
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// we start with a dummy HamlibTransceiver object instance that can support direct PTT
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basic_transceiver.reset (new HamlibTransceiver {params.ptt_type, params.ptt_port});
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if (target_thread)
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{
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basic_transceiver.get ()->moveToThread (target_thread);
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}
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}
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// wrap the basic Transceiver object instance with a decorator object that talks to DX Lab Suite Commander
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result.reset (new DXLabSuiteCommanderTransceiver {std::move (basic_transceiver), params.network_port, PTT_method_CAT == params.ptt_type, params.poll_interval});
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if (target_thread)
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{
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result->moveToThread (target_thread);
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}
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}
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break;
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case HRDId:
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{
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std::unique_ptr<TransceiverBase> basic_transceiver;
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if (PTT_method_CAT != params.ptt_type)
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{
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// we start with a dummy HamlibTransceiver object instance that can support direct PTT
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basic_transceiver.reset (new HamlibTransceiver {params.ptt_type, params.ptt_port});
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if (target_thread)
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{
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basic_transceiver.get ()->moveToThread (target_thread);
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}
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}
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// wrap the basic Transceiver object instance with a decorator object that talks to ham Radio Deluxe
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result.reset (new HRDTransceiver {std::move (basic_transceiver), params.network_port, PTT_method_CAT == params.ptt_type, params.poll_interval});
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if (target_thread)
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{
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result->moveToThread (target_thread);
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}
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}
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break;
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#if defined (WIN32)
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case OmniRigOneId:
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{
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std::unique_ptr<TransceiverBase> basic_transceiver;
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if (PTT_method_CAT != params.ptt_type && "CAT" != params.ptt_port)
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{
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// we start with a dummy HamlibTransceiver object instance that can support direct PTT
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basic_transceiver.reset (new HamlibTransceiver {params.ptt_type, params.ptt_port});
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if (target_thread)
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{
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basic_transceiver.get ()->moveToThread (target_thread);
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}
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}
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// wrap the basic Transceiver object instance with a decorator object that talks to OmniRig rig one
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result.reset (new OmniRigTransceiver {std::move (basic_transceiver), OmniRigTransceiver::One, params.ptt_type, params.ptt_port});
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if (target_thread)
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{
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result->moveToThread (target_thread);
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}
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}
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break;
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case OmniRigTwoId:
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{
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std::unique_ptr<TransceiverBase> basic_transceiver;
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if (PTT_method_CAT != params.ptt_type && "CAT" != params.ptt_port)
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{
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// we start with a dummy HamlibTransceiver object instance that can support direct PTT
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basic_transceiver.reset (new HamlibTransceiver {params.ptt_type, params.ptt_port});
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if (target_thread)
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{
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basic_transceiver.get ()->moveToThread (target_thread);
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}
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}
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// wrap the basic Transceiver object instance with a decorator object that talks to OmniRig rig two
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result.reset (new OmniRigTransceiver {std::move (basic_transceiver), OmniRigTransceiver::Two, params.ptt_type, params.ptt_port});
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if (target_thread)
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{
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result->moveToThread (target_thread);
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}
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}
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break;
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#endif
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default:
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result.reset (new HamlibTransceiver {supported_transceivers ()[params.rig_name].model_number_, params});
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if (target_thread)
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{
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result->moveToThread (target_thread);
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}
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break;
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}
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if (split_mode_emulate == params.split_mode)
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{
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// wrap the Transceiver object instance with a decorator that emulates split mode
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result.reset (new EmulateSplitTransceiver {std::move (result)});
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if (target_thread)
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{
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result->moveToThread (target_thread);
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}
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}
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return result;
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}
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#if !defined (QT_NO_DEBUG_STREAM)
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ENUM_QDEBUG_OPS_IMPL (TransceiverFactory, DataBits);
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ENUM_QDEBUG_OPS_IMPL (TransceiverFactory, StopBits);
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ENUM_QDEBUG_OPS_IMPL (TransceiverFactory, Handshake);
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ENUM_QDEBUG_OPS_IMPL (TransceiverFactory, PTTMethod);
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ENUM_QDEBUG_OPS_IMPL (TransceiverFactory, TXAudioSource);
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ENUM_QDEBUG_OPS_IMPL (TransceiverFactory, SplitMode);
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#endif
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ENUM_QDATASTREAM_OPS_IMPL (TransceiverFactory, DataBits);
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ENUM_QDATASTREAM_OPS_IMPL (TransceiverFactory, StopBits);
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ENUM_QDATASTREAM_OPS_IMPL (TransceiverFactory, Handshake);
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ENUM_QDATASTREAM_OPS_IMPL (TransceiverFactory, PTTMethod);
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ENUM_QDATASTREAM_OPS_IMPL (TransceiverFactory, TXAudioSource);
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ENUM_QDATASTREAM_OPS_IMPL (TransceiverFactory, SplitMode);
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ENUM_CONVERSION_OPS_IMPL (TransceiverFactory, DataBits);
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ENUM_CONVERSION_OPS_IMPL (TransceiverFactory, StopBits);
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ENUM_CONVERSION_OPS_IMPL (TransceiverFactory, Handshake);
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ENUM_CONVERSION_OPS_IMPL (TransceiverFactory, PTTMethod);
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ENUM_CONVERSION_OPS_IMPL (TransceiverFactory, TXAudioSource);
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ENUM_CONVERSION_OPS_IMPL (TransceiverFactory, SplitMode);
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