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4e5c1713f2
WSJT-X/HamlibTransceiver.cpp
Bill Somerville 4e5c1713f2 Allow for rigs with neither get VFO nor toggle VFO CAT commands 
Some    rigs    always    receive     on    the    same    VFO,    the
HamlibTransceiver::init_rig()  method was  not allowing  for this.  It
needs  to simply  do  nothing  and assume  VFO  MAIN/A  is current  at
startup.

Merged from wsjtx-1.4 branch.




git-svn-id: svn+ssh://svn.code.sf.net/p/wsjt/wsjt/branches/wsjtx@4450 ab8295b8-cf94-4d9e-aec4-7959e3be5d79
2014-10-02 14:46:32 +00:00

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#include "HamlibTransceiver.hpp"
#include <cstring>
#include <QByteArray>
#include <QString>
#include <QDebug>
#include "moc_HamlibTransceiver.cpp"
namespace
{
// Unfortunately bandwidth is conflated with mode, this is probably
// because Icom do the same. So we have to care about bandwidth if
// we want to set mode otherwise we will end up setting unwanted
// bandwidths every time we change mode. The best we can do via the
// Hamlib API is to request the normal option for the mode and hope
// that an appropriate filter is selected. Also ensure that mode is
// only set is absolutely necessary. On Icoms (and probably others)
// the filter is selected by number without checking the actual BW
// so unless the "normal" defaults are set on the rig we won't get
// desirable results.
//
// As an ultimate workaround make sure the user always has the
// option to skip mode setting altogether.
// reroute Hamlib diagnostic messages to Qt
int debug_callback (enum rig_debug_level_e level, rig_ptr_t /* arg */, char const * format, va_list ap)
{
QString message;
message = message.vsprintf (format, ap).trimmed ();
switch (level)
{
case RIG_DEBUG_BUG:
qFatal ("%s", message.toLocal8Bit ().data ());
break;
case RIG_DEBUG_ERR:
qCritical ("%s", message.toLocal8Bit ().data ());
break;
case RIG_DEBUG_WARN:
qWarning ("%s", message.toLocal8Bit ().data ());
break;
default:
qDebug ("%s", message.toLocal8Bit ().data ());
break;
}
return 0;
}
// callback function that receives transceiver capabilities from the
// hamlib libraries
int rigCallback (rig_caps const * caps, void * callback_data)
{
TransceiverFactory::Transceivers * rigs = reinterpret_cast<TransceiverFactory::Transceivers *> (callback_data);
QString key;
if ("Hamlib" == QString::fromLatin1 (caps->mfg_name).trimmed ()
&& "Dummy" == QString::fromLatin1 (caps->model_name).trimmed ())
{
key = TransceiverFactory::basic_transceiver_name_;
}
else
{
key = QString::fromLatin1 (caps->mfg_name).trimmed ()
+ ' '+ QString::fromLatin1 (caps->model_name).trimmed ()
// + ' '+ QString::fromLatin1 (caps->version).trimmed ()
// + " (" + QString::fromLatin1 (rig_strstatus (caps->status)).trimmed () + ')'
;
}
auto port_type = TransceiverFactory::Capabilities::none;
switch (caps->port_type)
{
case RIG_PORT_SERIAL:
port_type = TransceiverFactory::Capabilities::serial;
break;
case RIG_PORT_NETWORK:
port_type = TransceiverFactory::Capabilities::network;
break;
default: break;
}
(*rigs)[key] = TransceiverFactory::Capabilities (caps->rig_model
, port_type
, RIG_PTT_RIG == caps->ptt_type || RIG_PTT_RIG_MICDATA == caps->ptt_type
, RIG_PTT_RIG_MICDATA == caps->ptt_type);
return 1; // keep them coming
}
// int frequency_change_callback (RIG * /* rig */, vfo_t vfo, freq_t f, rig_ptr_t arg)
// {
// (void)vfo; // unused in release build
// Q_ASSERT (vfo == RIG_VFO_CURR); // G4WJS: at the time of writing only current VFO is signalled by hamlib
// HamlibTransceiver * transceiver (reinterpret_cast<HamlibTransceiver *> (arg));
// Q_EMIT transceiver->frequency_change (f, Transceiver::A);
// return RIG_OK;
// }
class hamlib_tx_vfo_fixup final
{
public:
hamlib_tx_vfo_fixup (RIG * rig, vfo_t tx_vfo)
: rig_ {rig}
{
original_vfo_ = rig_->state.tx_vfo;
rig_->state.tx_vfo = tx_vfo;
}
~hamlib_tx_vfo_fixup ()
{
rig_->state.tx_vfo = original_vfo_;
}
private:
RIG * rig_;
vfo_t original_vfo_;
};
}
void HamlibTransceiver::register_transceivers (TransceiverFactory::Transceivers * registry)
{
rig_set_debug_callback (debug_callback, nullptr);
#if WSJT_HAMLIB_TRACE
rig_set_debug (RIG_DEBUG_TRACE);
#elif defined (NDEBUG)
rig_set_debug (RIG_DEBUG_ERR);
#else
rig_set_debug (RIG_DEBUG_VERBOSE);
#endif
rig_load_all_backends ();
rig_list_foreach (rigCallback, registry);
}
void HamlibTransceiver::RIGDeleter::cleanup (RIG * rig)
{
if (rig)
{
// rig->state.obj = 0;
rig_cleanup (rig);
}
}
HamlibTransceiver::HamlibTransceiver (int model_number
, QString const& cat_port
, int cat_baud
, TransceiverFactory::DataBits cat_data_bits
, TransceiverFactory::StopBits cat_stop_bits
, TransceiverFactory::Handshake cat_handshake
, bool cat_dtr_always_on
, bool cat_rts_always_on
, TransceiverFactory::PTTMethod ptt_type
, TransceiverFactory::TXAudioSource back_ptt_port
, QString const& ptt_port
, int poll_interval)
: PollingTransceiver {poll_interval}
, rig_ {rig_init (model_number)}
, back_ptt_port_ {TransceiverFactory::TX_audio_source_rear == back_ptt_port}
, is_dummy_ {RIG_MODEL_DUMMY == model_number}
, reversed_ {false}
{
if (!rig_)
{
throw error {tr ("Hamlib initialisation error")};
}
// rig_->state.obj = this;
if (!cat_port.isEmpty ())
{
set_conf ("rig_pathname", cat_port.toLatin1 ().data ());
}
set_conf ("serial_speed", QByteArray::number (cat_baud).data ());
set_conf ("data_bits", TransceiverFactory::seven_data_bits == cat_data_bits ? "7" : "8");
set_conf ("stop_bits", TransceiverFactory::one_stop_bit == cat_stop_bits ? "1" : "2");
switch (cat_handshake)
{
case TransceiverFactory::handshake_none: set_conf ("serial_handshake", "None"); break;
case TransceiverFactory::handshake_XonXoff: set_conf ("serial_handshake", "XONXOFF"); break;
case TransceiverFactory::handshake_hardware: set_conf ("serial_handshake", "Hardware"); break;
}
if (cat_dtr_always_on)
{
set_conf ("dtr_state", "ON");
}
if (TransceiverFactory::handshake_hardware != cat_handshake && cat_rts_always_on)
{
set_conf ("rts_state", "ON");
}
switch (ptt_type)
{
case TransceiverFactory::PTT_method_VOX:
set_conf ("ptt_type", "None");
break;
case TransceiverFactory::PTT_method_CAT:
// Use the default PTT_TYPE for the rig (defined in the Hamlib
// rig back-end capabilities).
break;
case TransceiverFactory::PTT_method_DTR:
case TransceiverFactory::PTT_method_RTS:
if (!ptt_port.isEmpty () && ptt_port != "None" && ptt_port != cat_port)
{
#if defined (WIN32)
set_conf ("ptt_pathname", ("\\\\.\\" + ptt_port).toLatin1 ().data ());
#else
set_conf ("ptt_pathname", ptt_port.toLatin1 ().data ());
#endif
}
if (TransceiverFactory::PTT_method_DTR == ptt_type)
{
set_conf ("ptt_type", "DTR");
}
else
{
set_conf ("ptt_type", "RTS");
}
}
// Make Icom CAT split commands less glitchy
set_conf ("no_xchg", "1");
// would be nice to get events but not supported on Windows and also not on a lot of rigs
// rig_set_freq_callback (rig_.data (), &frequency_change_callback, this);
}
HamlibTransceiver::~HamlibTransceiver ()
{
}
void HamlibTransceiver::error_check (int ret_code, QString const& doing) const
{
if (RIG_OK != ret_code)
{
#if WSJT_TRACE_CAT && WSJT_TRACE_CAT_POLLS
qDebug () << "HamlibTransceiver::error_check: error:" << rigerror (ret_code);
#endif
throw error {tr ("Hamlib error: %1 while %2").arg (rigerror (ret_code)).arg (doing)};
}
}
void HamlibTransceiver::do_start ()
{
#if WSJT_TRACE_CAT
qDebug () << "HamlibTransceiver::do_start rig:" << QString::fromLatin1 (rig_->caps->mfg_name).trimmed () + ' '
+ QString::fromLatin1 (rig_->caps->model_name).trimmed ();
#endif
error_check (rig_open (rig_.data ()), tr ("opening connection to rig"));
init_rig ();
}
void HamlibTransceiver::do_stop ()
{
if (rig_)
{
rig_close (rig_.data ());
}
#if WSJT_TRACE_CAT
qDebug () << "HamlibTransceiver::do_stop: state:" << state () << "reversed =" << reversed_;
#endif
}
void HamlibTransceiver::init_rig ()
{
if (!is_dummy_)
{
freq_t f1;
freq_t f2;
rmode_t m {RIG_MODE_USB};
rmode_t mb;
pbwidth_t w {rig_passband_wide (rig_.data (), m)};
pbwidth_t wb;
if (!rig_->caps->get_vfo && (rig_->caps->set_vfo || rig_has_vfo_op (rig_.data (), RIG_OP_TOGGLE)))
{
// Icom have deficient CAT protocol with no way of reading which
// VFO is selected or if SPLIT is selected so we have to simply
// assume it is as when we started by setting at open time right
// here. We also gather/set other initial state.
#if WSJT_TRACE_CAT
qDebug () << "HamlibTransceiver::init_rig rig_get_freq";
#endif
error_check (rig_get_freq (rig_.data (), RIG_VFO_CURR, &f1), tr ("getting current frequency"));
#if WSJT_TRACE_CAT
qDebug () << "HamlibTransceiver::init_rig rig_get_freq current frequency =" << f1;
#endif
#if WSJT_TRACE_CAT
qDebug () << "HamlibTransceiver::init_rig rig_get_mode current mode";
#endif
error_check (rig_get_mode (rig_.data (), RIG_VFO_CURR, &m, &w), tr ("getting current mode"));
#if WSJT_TRACE_CAT
qDebug () << "HamlibTransceiver::init_rig rig_get_mode current mode =" << m << "bw =" << w;
#endif
if (!rig_->caps->set_vfo)
{
#if WSJT_TRACE_CAT
qDebug () << "HamlibTransceiver::init_rig rig_vfo_op TOGGLE";
#endif
error_check (rig_vfo_op (rig_.data (), RIG_VFO_CURR, RIG_OP_TOGGLE), tr ("exchanging VFOs"));
}
else
{
#if WSJT_TRACE_CAT
qDebug () << "HamlibTransceiver::init_rig rig_set_vfo to other VFO";
#endif
error_check (rig_set_vfo (rig_.data (), rig_->state.vfo_list & RIG_VFO_B ? RIG_VFO_B : RIG_VFO_SUB), tr ("setting current VFO"));
}
#if WSJT_TRACE_CAT
qDebug () << "HamlibTransceiver::init_rig rig_get_freq other frequency";
#endif
error_check (rig_get_freq (rig_.data (), RIG_VFO_CURR, &f2), tr ("getting other VFO frequency"));
#if WSJT_TRACE_CAT
qDebug () << "HamlibTransceiver::init_rig rig_get_freq other frequency =" << f2;
#endif
#if WSJT_TRACE_CAT
qDebug () << "HamlibTransceiver::init_rig rig_get_mode other VFO";
#endif
error_check (rig_get_mode (rig_.data (), RIG_VFO_CURR, &mb, &wb), tr ("getting other VFO mode"));
#if WSJT_TRACE_CAT
qDebug () << "HamlibTransceiver::init_rig rig_get_mode other mode =" << mb << "bw =" << wb;
#endif
update_other_frequency (f2);
if (!rig_->caps->set_vfo)
{
#if WSJT_TRACE_CAT
qDebug () << "HamlibTransceiver::init_rig rig_vfo_op TOGGLE";
#endif
error_check (rig_vfo_op (rig_.data (), RIG_VFO_CURR, RIG_OP_TOGGLE), tr ("exchanging VFOs"));
}
else
{
#if WSJT_TRACE_CAT
qDebug () << "HamlibTransceiver::init_rig rig_set_vfo A/MAIN";
#endif
error_check (rig_set_vfo (rig_.data (), rig_->state.vfo_list & RIG_VFO_A ? RIG_VFO_A : RIG_VFO_MAIN), tr ("setting current VFO"));
}
if (f1 != f2 || m != mb || w != wb) // we must have started with MAIN/A
{
update_rx_frequency (f1);
}
else
{
#if WSJT_TRACE_CAT
qDebug () << "HamlibTransceiver::init_rig rig_get_freq";
#endif
error_check (rig_get_freq (rig_.data (), RIG_VFO_CURR, &f1), tr ("getting frequency"));
#if WSJT_TRACE_CAT
qDebug () << "HamlibTransceiver::init_rig rig_get_freq frequency =" << f1;
#endif
#if WSJT_TRACE_CAT
qDebug () << "HamlibTransceiver::init_rig rig_get_mode";
#endif
error_check (rig_get_mode (rig_.data (), RIG_VFO_CURR, &m, &w), tr ("getting mode"));
#if WSJT_TRACE_CAT
qDebug () << "HamlibTransceiver::init_rig rig_get_mode mode =" << m << "bw =" << w;
#endif
update_rx_frequency (f1);
}
#if WSJT_TRACE_CAT
// qDebug () << "HamlibTransceiver::init_rig rig_set_split_vfo split off";
#endif
// 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 (rig_->caps->get_vfo)
{
#if WSJT_TRACE_CAT
qDebug ().nospace () << "HamlibTransceiver::init_rig rig_get_vfo current VFO";
#endif
error_check (rig_get_vfo (rig_.data (), &v), tr ("getting current VFO")); // has side effect of establishing current VFO inside hamlib
#if WSJT_TRACE_CAT
qDebug ().nospace () << "HamlibTransceiver::init_rig rig_get_vfo current VFO = 0x" << hex << v;
#endif
}
reversed_ = RIG_VFO_B == v;
if (!(rig_->caps->targetable_vfo & (RIG_TARGETABLE_MODE | RIG_TARGETABLE_PURE)))
{
#if WSJT_TRACE_CAT
qDebug () << "HamlibTransceiver::init_rig rig_get_mode current mode";
#endif
error_check (rig_get_mode (rig_.data (), RIG_VFO_CURR, &m, &w), tr ("getting current mode"));
#if WSJT_TRACE_CAT
qDebug () << "HamlibTransceiver::init_rig rig_get_mode current mode =" << m << "bw =" << w;
#endif
}
}
update_mode (map_mode (m));
}
poll ();
#if WSJT_TRACE_CAT
qDebug () << "HamlibTransceiver::init_rig exit" << state () << "reversed =" << reversed_;
#endif
}
auto HamlibTransceiver::get_vfos () const -> std::tuple<vfo_t, vfo_t>
{
if (rig_->caps->get_vfo)
{
vfo_t v;
#if WSJT_TRACE_CAT
qDebug ().nospace () << "HamlibTransceiver::get_vfos rig_get_vfo";
#endif
error_check (rig_get_vfo (rig_.data (), &v), tr ("getting current VFO")); // has side effect of establishing current VFO inside hamlib
#if WSJT_TRACE_CAT
qDebug ().nospace () << "HamlibTransceiver::get_vfos rig_get_vfo VFO = 0x" << hex << v;
#endif
reversed_ = RIG_VFO_B == v;
}
else if (rig_->caps->set_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
#if WSJT_TRACE_CAT
qDebug () << "HamlibTransceiver::get_vfos rig_set_vfo VFO = A/MAIN";
#endif
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 = state ().split () ? (rig_->state.vfo_list & RIG_VFO_B ? RIG_VFO_B : RIG_VFO_SUB) : rx_vfo;
if (reversed_)
{
#if WSJT_TRACE_CAT
qDebug () << "HamlibTransceiver::get_vfos reversing VFOs";
#endif
std::swap (rx_vfo, tx_vfo);
}
#if WSJT_TRACE_CAT
qDebug ().nospace () << "HamlibTransceiver::get_vfos RX VFO = 0x" << hex << rx_vfo << " TX VFO = 0x" << hex << tx_vfo;
#endif
return std::make_tuple (rx_vfo, tx_vfo);
}
void HamlibTransceiver::do_frequency (Frequency f)
{
#if WSJT_TRACE_CAT
qDebug () << "HamlibTransceiver::do_frequency:" << f << "reversed:" << reversed_;
#endif
if (!is_dummy_)
{
error_check (rig_set_freq (rig_.data (), RIG_VFO_CURR, f), tr ("setting frequency"));
}
update_rx_frequency (f);
}
void HamlibTransceiver::do_tx_frequency (Frequency tx, bool rationalise_mode)
{
#if WSJT_TRACE_CAT
qDebug () << "HamlibTransceiver::do_tx_frequency:" << tx << "rationalise mode:" << rationalise_mode << "reversed:" << reversed_;
#endif
if (!is_dummy_)
{
auto vfos = get_vfos ();
// auto rx_vfo = std::get<0> (vfos);
auto tx_vfo = std::get<1> (vfos);
if (tx)
{
#if WSJT_TRACE_CAT
qDebug () << "HamlibTransceiver::do_tx_frequency rig_set_split_freq";
#endif
hamlib_tx_vfo_fixup fixup (rig_.data (), tx_vfo);
error_check (rig_set_split_freq (rig_.data (), RIG_VFO_CURR, tx), tr ("setting split TX frequency"));
if (rationalise_mode)
{
rmode_t current_mode;
pbwidth_t current_width;
#if WSJT_TRACE_CAT
qDebug () << "HamlibTransceiver::do_tx_frequency rig_get_split_mode";
#endif
error_check (rig_get_split_mode (rig_.data (), RIG_VFO_CURR, &current_mode, &current_width), tr ("getting mode of split TX VFO"));
#if WSJT_TRACE_CAT
qDebug () << "HamlibTransceiver::do_tx_frequency rig_get_split_mode mode =" << current_mode << "bw =" << current_width;
#endif
auto new_mode = map_mode (state ().mode ());
if (new_mode != current_mode)
{
#if WSJT_TRACE_CAT
qDebug () << "HamlibTransceiver::do_tx_frequency rig_set_split_mode mode =" << new_mode;
#endif
error_check (rig_set_split_mode (rig_.data (), RIG_VFO_CURR, new_mode, rig_passband_wide (rig_.data (), new_mode)), tr ("setting split TX VFO mode"));
}
}
}
// 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)
auto split = tx ? RIG_SPLIT_ON : RIG_SPLIT_OFF;
#if WSJT_TRACE_CAT
qDebug () << "HamlibTransceiver::do_tx_frequency rig_set_split_vfo split =" << split;
#endif
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_split (tx);
update_other_frequency (tx);
}
void HamlibTransceiver::do_mode (MODE mode, bool rationalise)
{
#if WSJT_TRACE_CAT
qDebug () << "HamlibTransceiver::do_mode:" << mode << "rationalise:" << rationalise;
#endif
if (!is_dummy_)
{
auto vfos = get_vfos ();
// auto rx_vfo = std::get<0> (vfos);
auto tx_vfo = std::get<1> (vfos);
rmode_t current_mode;
pbwidth_t current_width;
#if WSJT_TRACE_CAT
qDebug () << "HamlibTransceiver::do_mode rig_get_mode";
#endif
error_check (rig_get_mode (rig_.data (), RIG_VFO_CURR, &current_mode, &current_width), tr ("getting current VFO mode"));
#if WSJT_TRACE_CAT
qDebug () << "HamlibTransceiver::do_mode rig_get_mode mode =" << current_mode << "bw =" << current_width;
#endif
auto new_mode = map_mode (mode);
if (new_mode != current_mode)
{
#if WSJT_TRACE_CAT
qDebug () << "HamlibTransceiver::do_mode rig_set_mode mode =" << new_mode;
#endif
error_check (rig_set_mode (rig_.data (), RIG_VFO_CURR, new_mode, rig_passband_wide (rig_.data (), new_mode)), tr ("setting current VFO mode"));
}
if (state ().split () && rationalise)
{
#if WSJT_TRACE_CAT
qDebug () << "HamlibTransceiver::do_mode rig_get_split_mode";
#endif
error_check (rig_get_split_mode (rig_.data (), RIG_VFO_CURR, &current_mode, &current_width), tr ("getting split TX VFO mode"));
#if WSJT_TRACE_CAT
qDebug () << "HamlibTransceiver::do_mode rig_get_split_mode mode =" << current_mode << "bw =" << current_width;
#endif
if (new_mode != current_mode)
{
#if WSJT_TRACE_CAT
qDebug () << "HamlibTransceiver::do_mode rig_set_split_mode mode =" << new_mode;
#endif
hamlib_tx_vfo_fixup fixup (rig_.data (), tx_vfo);
error_check (rig_set_split_mode (rig_.data (), RIG_VFO_CURR, new_mode, rig_passband_wide (rig_.data (), new_mode)), tr ("setting split TX VFO mode"));
}
}
}
update_mode (mode);
}
void HamlibTransceiver::poll ()
{
if (is_dummy_)
{
// split with dummy is never reported since there is no rig
if (state ().split ())
{
update_split (false);
}
}
else
{
#if !WSJT_TRACE_CAT_POLLS
#if defined (NDEBUG)
rig_set_debug (RIG_DEBUG_ERR);
#else
rig_set_debug (RIG_DEBUG_VERBOSE);
#endif
#endif
freq_t f;
rmode_t m;
pbwidth_t w;
split_t s;
if (rig_->caps->get_vfo)
{
#if WSJT_TRACE_CAT && WSJT_TRACE_CAT_POLLS
qDebug ().nospace () << "HamlibTransceiver::poll rig_get_vfo";
#endif
vfo_t v;
error_check (rig_get_vfo (rig_.data (), &v), tr ("getting current VFO")); // has side effect of establishing current VFO inside hamlib
#if WSJT_TRACE_CAT && WSJT_TRACE_CAT_POLLS
qDebug ().nospace () << "HamlibTransceiver::poll rig_get_vfo VFO = 0x" << hex << v;
#endif
reversed_ = RIG_VFO_B == v;
}
#if WSJT_TRACE_CAT && WSJT_TRACE_CAT_POLLS
qDebug () << "HamlibTransceiver::poll rig_get_freq";
#endif
error_check (rig_get_freq (rig_.data (), RIG_VFO_CURR, &f), tr ("getting current VFO frequency"));
#if WSJT_TRACE_CAT && WSJT_TRACE_CAT_POLLS
qDebug () << "HamlibTransceiver::poll rig_get_freq frequency =" << f;
#endif
update_rx_frequency (f);
if (state ().split () && (rig_->caps->targetable_vfo & (RIG_TARGETABLE_FREQ | RIG_TARGETABLE_PURE)))
{
// 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
#if WSJT_TRACE_CAT && WSJT_TRACE_CAT_POLLS
qDebug () << "HamlibTransceiver::poll rig_get_freq other VFO";
#endif
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 current VFO frequency"));
#if WSJT_TRACE_CAT && WSJT_TRACE_CAT_POLLS
qDebug () << "HamlibTransceiver::poll rig_get_freq other VFO =" << f;
#endif
update_other_frequency (f);
}
#if WSJT_TRACE_CAT && WSJT_TRACE_CAT_POLLS
qDebug () << "HamlibTransceiver::poll rig_get_mode";
#endif
error_check (rig_get_mode (rig_.data (), RIG_VFO_CURR, &m, &w), tr ("getting current VFO mode"));
#if WSJT_TRACE_CAT && WSJT_TRACE_CAT_POLLS
qDebug () << "HamlibTransceiver::poll rig_get_mode mode =" << m << "bw =" << w;
#endif
update_mode (map_mode (m));
#if WSJT_TRACE_CAT && WSJT_TRACE_CAT_POLLS
qDebug ().nospace () << "HamlibTransceiver::poll rig_get_split_vfo";
#endif
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)
{
#if WSJT_TRACE_CAT && WSJT_TRACE_CAT_POLLS
qDebug ().nospace () << "HamlibTransceiver::poll rig_get_split_vfo split = " << s << " VFO = 0x" << hex << v;
#endif
update_split (true);
// if (RIG_VFO_A == v)
// {
// reversed_ = true; // not sure if this helps us here
// }
}
else if (-RIG_OK == rc) // not split
{
#if WSJT_TRACE_CAT && WSJT_TRACE_CAT_POLLS
qDebug ().nospace () << "HamlibTransceiver::poll rig_get_split_vfo split = " << s << " VFO = 0x" << hex << v;
#endif
update_split (false);
}
else if (-RIG_ENAVAIL == rc || -RIG_ENIMPL == rc) // Some rigs (Icom) don't have a way of reporting SPLIT mode
{
#if WSJT_TRACE_CAT && WSJT_TRACE_CAT_POLLS
qDebug ().nospace () << "HamlibTransceiver::poll rig_get_split_vfo can't do on this rig";
#endif
// just report how we see it based on prior commands
}
else
{
error_check (rc, tr ("getting split TX VFO"));
}
if (RIG_PTT_NONE != rig_->state.pttport.type.ptt && rig_->caps->get_ptt)
{
#if WSJT_TRACE_CAT && WSJT_TRACE_CAT_POLLS
qDebug () << "HamlibTransceiver::poll rig_get_ptt";
#endif
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"));
#if WSJT_TRACE_CAT && WSJT_TRACE_CAT_POLLS
qDebug () << "HamlibTransceiver::poll rig_get_ptt PTT =" << p;
#endif
update_PTT (!(RIG_PTT_OFF == p));
}
}
#if !WSJT_TRACE_CAT_POLLS
#if WSJT_HAMLIB_TRACE
rig_set_debug (RIG_DEBUG_TRACE);
#elif defined (NDEBUG)
rig_set_debug (RIG_DEBUG_ERR);
#else
rig_set_debug (RIG_DEBUG_VERBOSE);
#endif
#endif
}
}
void HamlibTransceiver::do_ptt (bool on)
{
#if WSJT_TRACE_CAT
qDebug () << "HamlibTransceiver::do_ptt:" << on << state () << "reversed =" << reversed_;
#endif
if (on)
{
if (RIG_PTT_NONE != rig_->state.pttport.type.ptt)
{
#if WSJT_TRACE_CAT
qDebug () << "HamlibTransceiver::do_ptt rig_set_ptt PTT = true";
#endif
error_check (rig_set_ptt (rig_.data (), RIG_VFO_CURR, back_ptt_port_ ? RIG_PTT_ON_DATA : RIG_PTT_ON), tr ("setting PTT on"));
}
}
else
{
if (RIG_PTT_NONE != rig_->state.pttport.type.ptt)
{
#if WSJT_TRACE_CAT
qDebug () << "HamlibTransceiver::do_ptt rig_set_ptt PTT = false";
#endif
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
}
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