WSJT-X/Configuration.cpp
Bill Somerville 3f75b4144a Send status information to UDP server
To  facilitate interaction  with other  applications WSJT-X  now sends
status  updates  to  a  predefined   UDP  server  or  multicast  group
address. The  status updates include the  information currently posted
to  the  decodes.txt and  wsjtx_status.txt  files.   An optional  back
communications  channel is  also implemented  allowing the  UDP server
application to control some basic actions in WSJT-X.

A reference implementaion of a typical UDP server written in C++ using
Qt is  provided to demonstrate  these facilities. This  application is
not intended  as a user  tool but  only as an  example of how  a third
party application may interact with WSJT-X.

The  UDP messages  Use QDataStream  based serialization.  Messages are
documented in  NetworkMessage.hpp along with some  helper classes that
simplify the building and decoding of messages.

Two  message  handling  classes   are  introduced,  MessageClient  and
MessageServer.  WSJT-X uses the MessageClient class to manage outgoing
and  incoming  UDP  messages   that  allow  communication  with  other
applications.   The MessageServer  class implements  the kind  of code
that a  potential cooperating  application might use.   Although these
classes  use  Qt serialization  facilities,  the  message formats  are
easily  read and  written  by  applications that  do  not  use the  Qt
framework.

MessageAggregator   is   a   demonstration   application   that   uses
MessageServer and  presents a GUI  that displays messages from  one or
more  WSJT-X instances  and  allows sending  back a  CQ  or QRZ  reply
invocation  by double  clicking  a decode.   This  application is  not
intended as  a user facing tool  but rather as a  demonstration of the
WSJT-X UDP messaging facility. It  also demonstrates being a multicast
UDP server by allowing multiple instances to run concurrently. This is
enabled by using an appropriate  multicast group address as the server
address.  Cooperating   applications  need  not   implement  multicast
techniques but  it is recomended  otherwise only a  single appliaction
can act as a broadcast message (from WSJT-X) recipient.

git-svn-id: svn+ssh://svn.code.sf.net/p/wsjt/wsjt/branches/wsjtx@5225 ab8295b8-cf94-4d9e-aec4-7959e3be5d79
2015-04-15 16:40:49 +00:00

2511 lines
93 KiB
C++

#include "Configuration.hpp"
//
// Read me!
//
// This file defines a configuration dialog with the user. The general
// strategy is to expose agreed configuration parameters via a custom
// interface (See Configuration.hpp). The state exposed through this
// public interface reflects stored or derived data in the
// Configuration::impl object. The Configuration::impl structure is
// an implementation of the PIMPL (a.k.a. Cheshire Cat or compilation
// firewall) implementation hiding idiom that allows internal state to
// be completely removed from the public interface.
//
// There is a secondary level of parameter storage which reflects
// current settings UI state, these parameters are not copied to the
// state store that the public interface exposes until the
// Configuration:impl::accept() operation is successful. The accept()
// operation is tied to the settings OK button. The normal and most
// convenient place to store this intermediate settings UI state is in
// the data models of the UI controls, if that is not convenient then
// separate member variables must be used to store that state. It is
// important for the user experience that no publicly visible settings
// are changed while the settings UI are changed i.e. all settings
// changes must be deferred until the "OK" button is
// clicked. Conversely, all changes must be discarded if the settings
// UI "Cancel" button is clicked.
//
// There is a complication related to the radio interface since the
// this module offers the facility to test the radio interface. This
// test means that the public visibility to the radio being tested
// must be changed. To maintain the illusion of deferring changes
// until they are accepted, the original radio related settings are
// stored upon showing the UI and restored if the UI is dismissed by
// canceling.
//
// It should be noted that the settings UI lives as long as the
// application client that uses it does. It is simply shown and hidden
// as it is needed rather than creating it on demand. This strategy
// saves a lot of expensive UI drawing at the expense of a little
// storage and gives a convenient place to deliver settings values
// from.
//
// Here is an overview of the high level flow of this module:
//
// 1) On construction the initial environment is initialized and
// initial values for settings are read from the QSettings
// database. At this point default values for any new settings are
// established by providing a default value to the QSettings value
// queries. This should be the only place where a hard coded value for
// a settings item is defined. Any remaining one-time UI
// initialization is also done. At the end of the constructor a method
// initialise_models() is called to load the UI with the current
// settings values.
//
// 2) When the settings UI is displayed by a client calling the exec()
// operation, only temporary state need be stored as the UI state will
// already mirror the publicly visible settings state.
//
// 3) As the user makes changes to the settings UI only validation
// need be carried out since the UI control data models are used as
// the temporary store of unconfirmed settings. As some settings will
// depend on each other a validate() operation is available, this
// operations implements a check of any complex multi-field values.
//
// 4) If the user discards the settings changes by dismissing the UI
// with the "Cancel" button; the reject() operation is called. The
// reject() operation calls initialise_models() which will revert all
// the UI visible state to the values as at the initial exec()
// operation. No changes are moved into the data fields in
// Configuration::impl that reflect the settings state published by
// the public interface (Configuration.hpp).
//
// 5) If the user accepts the settings changes by dismissing the UI
// with the "OK" button; the accept() operation is called which calls
// the validate() operation again and, if it passes, the fields that
// are used to deliver the settings state are updated from the UI
// control models or other temporary state variables. At the end of
// the accept() operation, just before hiding the UI and returning
// control to the caller; the new settings values are stored into the
// settings database by a call to the write_settings() operation, thus
// ensuring that settings changes are saved even if the application
// crashes or is subsequently killed.
//
// 6) On destruction, which only happens when the application
// terminates, the settings are saved to the settings database by
// calling the write_settings() operation. This is largely redundant
// but is still done to save the default values of any new settings on
// an initial run.
//
// To add a new setting:
//
// 1) Update the UI with the new widget to view and change the value.
//
// 2) Add a member to Configuration::impl to store the accepted
// setting state. If the setting state is dynamic; add a new signal to
// broadcast the setting value.
//
// 3) Add a query method to the public interface (Configuration.hpp)
// to access the new setting value. If the settings is dynamic; this
// step is optional since value changes will be broadcast via a
// signal.
//
// 4) Add a forwarding operation to implement the new query (3) above.
//
// 5) Add a settings read call to read_settings() with a sensible
// default value. If the setting value is dynamic, add a signal emit
// call to broadcast the setting value change.
//
// 6) Add code to initialise_models() to load the widget control's
// data model with the current value.
//
// 7) If there is no convenient data model field, add a data member to
// store the proposed new value. Ensure this member has a valid value
// on exit from read_settings().
//
// 8) Add any required inter-field validation to the validate()
// operation.
//
// 9) Add code to the accept() operation to extract the setting value
// from the widget control data model and load it into the
// Configuration::impl member that reflects the publicly visible
// setting state. If the setting value is dynamic; add a signal emit
// call to broadcast any changed state of the setting.
//
// 10) Add a settings write call to save the setting value to the
// settings database.
//
#include <stdexcept>
#include <iterator>
#include <algorithm>
#include <functional>
#include <limits>
#include <QApplication>
#include <QMetaType>
#include <QSettings>
#include <QAudioDeviceInfo>
#include <QAudioInput>
#include <QDialog>
#include <QMessageBox>
#include <QAction>
#include <QFileDialog>
#include <QDir>
#include <QFormLayout>
#include <QString>
#include <QStringList>
#include <QStringListModel>
#include <QLineEdit>
#include <QRegExpValidator>
#include <QIntValidator>
#include <QThread>
#include <QTimer>
#include <QStandardPaths>
#include <QFont>
#include <QFontDialog>
#include <QColorDialog>
#include <QSerialPortInfo>
#include <QScopedPointer>
#include <QDebug>
#include "qt_helpers.hpp"
#include "SettingsGroup.hpp"
#include "FrequencyLineEdit.hpp"
#include "FrequencyItemDelegate.hpp"
#include "CandidateKeyFilter.hpp"
#include "ForeignKeyDelegate.hpp"
#include "TransceiverFactory.hpp"
#include "Transceiver.hpp"
#include "Bands.hpp"
#include "FrequencyList.hpp"
#include "StationList.hpp"
#include "NetworkServerLookup.hpp"
#include "pimpl_impl.hpp"
#include "ui_Configuration.h"
#include "moc_Configuration.cpp"
namespace
{
struct init
{
init ()
{
qRegisterMetaType<Configuration::DataMode> ("Configuration::DataMode");
qRegisterMetaTypeStreamOperators<Configuration::DataMode> ("Configuration::DataMode");
qRegisterMetaType<Configuration::Type2MsgGen> ("Configuration::Type2MsgGen");
qRegisterMetaTypeStreamOperators<Configuration::Type2MsgGen> ("Configuration::Type2MsgGen");
}
} static_initializer;
// these undocumented flag values when stored in (Qt::UserRole - 1)
// of a ComboBox item model index allow the item to be enabled or
// disabled
int const combo_box_item_enabled (32 | 1);
int const combo_box_item_disabled (0);
QRegExp message_alphabet {"[- A-Za-z0-9+./?]*"};
}
//
// Dialog to get a new Frequency item
//
class FrequencyDialog final
: public QDialog
{
public:
using Frequency = Radio::Frequency;
explicit FrequencyDialog (QWidget * parent = nullptr)
: QDialog {parent}
{
setWindowTitle (QApplication::applicationName () + " - " + tr ("Add Frequency"));
auto form_layout = new QFormLayout ();
form_layout->addRow (tr ("&Frequency (MHz):"), &frequency_line_edit_);
auto main_layout = new QVBoxLayout (this);
main_layout->addLayout (form_layout);
auto button_box = new QDialogButtonBox {QDialogButtonBox::Ok | QDialogButtonBox::Cancel};
main_layout->addWidget (button_box);
connect (button_box, &QDialogButtonBox::accepted, this, &FrequencyDialog::accept);
connect (button_box, &QDialogButtonBox::rejected, this, &FrequencyDialog::reject);
}
Frequency frequency () const
{
return frequency_line_edit_.frequency ();
}
private:
FrequencyLineEdit frequency_line_edit_;
};
//
// Dialog to get a new Station item
//
class StationDialog final
: public QDialog
{
public:
explicit StationDialog (StationList const * stations, Bands * bands, QWidget * parent = nullptr)
: QDialog {parent}
, filtered_bands_ {new CandidateKeyFilter {stations, bands}}
{
setWindowTitle (QApplication::applicationName () + " - " + tr ("Add Station"));
band_.setModel (filtered_bands_.data ());
auto form_layout = new QFormLayout ();
form_layout->addRow (tr ("&Band:"), &band_);
form_layout->addRow (tr ("&Offset (MHz):"), &delta_);
form_layout->addRow (tr ("&Antenna:"), &description_);
auto main_layout = new QVBoxLayout (this);
main_layout->addLayout (form_layout);
auto button_box = new QDialogButtonBox {QDialogButtonBox::Ok | QDialogButtonBox::Cancel};
main_layout->addWidget (button_box);
connect (button_box, &QDialogButtonBox::accepted, this, &StationDialog::accept);
connect (button_box, &QDialogButtonBox::rejected, this, &StationDialog::reject);
if (delta_.text ().isEmpty ())
{
delta_.setText ("0");
}
}
StationList::Station station () const
{
return {band_.currentText (), delta_.frequency_delta (), description_.text ()};
}
int exec () override
{
filtered_bands_->set_active_key ();
return QDialog::exec ();
}
private:
QScopedPointer<CandidateKeyFilter> filtered_bands_;
QComboBox band_;
FrequencyDeltaLineEdit delta_;
QLineEdit description_;
};
class RearrangableMacrosModel
: public QStringListModel
{
public:
Qt::ItemFlags flags (QModelIndex const& index) const override
{
auto flags = QStringListModel::flags (index);
if (index.isValid ())
{
// disallow drop onto existing items
flags &= ~Qt::ItemIsDropEnabled;
}
return flags;
}
};
// Class MessageItemDelegate
//
// Item delegate for message entry such as free text message macros.
//
class MessageItemDelegate final
: public QStyledItemDelegate
{
public:
explicit MessageItemDelegate (QObject * parent = nullptr)
: QStyledItemDelegate {parent}
{
}
QWidget * createEditor (QWidget * parent
, QStyleOptionViewItem const& /* option*/
, QModelIndex const& /* index */
) const override
{
auto editor = new QLineEdit {parent};
editor->setFrame (false);
editor->setValidator (new QRegExpValidator {message_alphabet, editor});
return editor;
}
};
// Fields that are transceiver related.
//
// These are aggregated in a structure to enable a non-equivalence to
// be provided.
//
// don't forget to update the != operator if any fields are added
// otherwise rig parameter changes will not trigger reconfiguration
struct RigParams
{
QString CAT_serial_port_;
QString CAT_network_port_;
qint32 CAT_baudrate_;
TransceiverFactory::DataBits CAT_data_bits_;
TransceiverFactory::StopBits CAT_stop_bits_;
TransceiverFactory::Handshake CAT_handshake_;
bool CAT_force_control_lines_;
bool CAT_DTR_high_;
bool CAT_RTS_high_;
qint32 CAT_poll_interval_;
TransceiverFactory::PTTMethod PTT_method_;
QString PTT_port_;
TransceiverFactory::TXAudioSource TX_audio_source_;
TransceiverFactory::SplitMode split_mode_;
QString rig_name_;
};
bool operator != (RigParams const&, RigParams const&);
inline
bool operator == (RigParams const& lhs, RigParams const& rhs)
{
return !(lhs != rhs);
}
// Internal implementation of the Configuration class.
class Configuration::impl final
: public QDialog
{
Q_OBJECT;
public:
using FrequencyDelta = Radio::FrequencyDelta;
using port_type = Configuration::port_type;
explicit impl (Configuration * self, QSettings * settings, QWidget * parent);
~impl ();
bool have_rig (bool open_if_closed = true);
void transceiver_frequency (Frequency);
void transceiver_tx_frequency (Frequency);
void transceiver_mode (MODE);
void transceiver_ptt (bool);
void sync_transceiver (bool force_signal);
Q_SLOT int exec () override;
Q_SLOT void accept () override;
Q_SLOT void reject () override;
Q_SLOT void done (int) override;
private:
typedef QList<QAudioDeviceInfo> AudioDevices;
void read_settings ();
void write_settings ();
bool load_audio_devices (QAudio::Mode, QComboBox *, QAudioDeviceInfo *);
void update_audio_channels (QComboBox const *, int, QComboBox *, bool);
void set_application_font (QFont const&);
void initialise_models ();
bool open_rig ();
//bool set_mode ();
void close_rig ();
void enumerate_rigs ();
void set_rig_invariants ();
bool validate ();
void message_box (QString const& reason, QString const& detail = QString ());
void fill_port_combo_box (QComboBox *);
Q_SLOT void on_font_push_button_clicked ();
Q_SLOT void on_decoded_text_font_push_button_clicked ();
Q_SLOT void on_PTT_port_combo_box_activated (int);
Q_SLOT void on_CAT_port_combo_box_activated (int);
Q_SLOT void on_CAT_serial_baud_combo_box_currentIndexChanged (int);
Q_SLOT void on_CAT_data_bits_button_group_buttonClicked (int);
Q_SLOT void on_CAT_stop_bits_button_group_buttonClicked (int);
Q_SLOT void on_CAT_handshake_button_group_buttonClicked (int);
Q_SLOT void on_CAT_poll_interval_spin_box_valueChanged (int);
Q_SLOT void on_split_mode_button_group_buttonClicked (int);
Q_SLOT void on_test_CAT_push_button_clicked ();
Q_SLOT void on_test_PTT_push_button_clicked ();
Q_SLOT void on_CAT_control_lines_group_box_toggled (bool);
Q_SLOT void on_CAT_DTR_check_box_toggled (bool);
Q_SLOT void on_CAT_RTS_check_box_toggled (bool);
Q_SLOT void on_rig_combo_box_currentIndexChanged (int);
Q_SLOT void on_sound_input_combo_box_currentTextChanged (QString const&);
Q_SLOT void on_sound_output_combo_box_currentTextChanged (QString const&);
Q_SLOT void on_add_macro_push_button_clicked (bool = false);
Q_SLOT void on_delete_macro_push_button_clicked (bool = false);
Q_SLOT void on_PTT_method_button_group_buttonClicked (int);
Q_SLOT void on_callsign_line_edit_editingFinished ();
Q_SLOT void on_grid_line_edit_editingFinished ();
Q_SLOT void on_add_macro_line_edit_editingFinished ();
Q_SLOT void delete_macro ();
void delete_selected_macros (QModelIndexList);
Q_SLOT void on_save_path_select_push_button_clicked (bool);
Q_SLOT void delete_frequencies ();
Q_SLOT void insert_frequency ();
Q_SLOT void delete_stations ();
Q_SLOT void insert_station ();
Q_SLOT void handle_transceiver_update (TransceiverState);
Q_SLOT void handle_transceiver_failure (QString reason);
Q_SLOT void on_pbCQmsg_clicked();
Q_SLOT void on_pbMyCall_clicked();
Q_SLOT void on_pbTxMsg_clicked();
Q_SLOT void on_pbNewDXCC_clicked();
Q_SLOT void on_pbNewCall_clicked();
// typenames used as arguments must match registered type names :(
Q_SIGNAL void stop_transceiver () const;
Q_SIGNAL void frequency (Frequency rx, Transceiver::MODE) const;
Q_SIGNAL void tx_frequency (Frequency tx, bool rationalize_mode) const;
Q_SIGNAL void mode (Transceiver::MODE, bool rationalize) const;
Q_SIGNAL void ptt (bool) const;
Q_SIGNAL void sync (bool force_signal) const;
Configuration * const self_; // back pointer to public interface
QThread transceiver_thread_;
TransceiverFactory transceiver_factory_;
Ui::configuration_dialog * ui_;
QSettings * settings_;
QDir doc_dir_;
QDir temp_dir_;
QDir default_save_directory_;
QDir save_directory_;
QFont font_;
QFont next_font_;
QFont decoded_text_font_;
QFont next_decoded_text_font_;
bool restart_sound_input_device_;
bool restart_sound_output_device_;
unsigned jt9w_bw_mult_;
float jt9w_min_dt_;
float jt9w_max_dt_;
Type2MsgGen type_2_msg_gen_;
QStringListModel macros_;
RearrangableMacrosModel next_macros_;
QAction * macro_delete_action_;
Bands bands_;
FrequencyList frequencies_;
FrequencyList next_frequencies_;
StationList stations_;
StationList next_stations_;
QAction * frequency_delete_action_;
QAction * frequency_insert_action_;
FrequencyDialog * frequency_dialog_;
QAction * station_delete_action_;
QAction * station_insert_action_;
StationDialog * station_dialog_;
RigParams rig_params_;
RigParams saved_rig_params_;
bool rig_is_dummy_;
bool rig_active_;
bool have_rig_;
bool rig_changed_;
TransceiverState cached_rig_state_;
bool ptt_state_;
// the following members are required to get the rig into split the
// first time monitor or tune or Tx occur
bool setup_split_;
Frequency required_tx_frequency_; // this is needed because DX Lab
// Suite Commander in particular
// insists on reporting out of
// date state after successful
// commands to change the rig
// state :( Zero is valid and it
// means that we don't know the Tx
// frequency rather than implying
// no split.
bool enforce_mode_and_split_;
FrequencyDelta transceiver_offset_;
// configuration fields that we publish
QString my_callsign_;
QString my_grid_;
QColor color_CQ_;
QColor next_color_CQ_;
QColor color_MyCall_;
QColor next_color_MyCall_;
QColor color_TxMsg_;
QColor next_color_TxMsg_;
QColor color_DXCC_;
QColor next_color_DXCC_;
QColor color_NewCall_;
QColor next_color_NewCall_;
qint32 id_interval_;
bool id_after_73_;
bool tx_QSY_allowed_;
bool spot_to_psk_reporter_;
bool monitor_off_at_startup_;
bool monitor_last_used_;
bool log_as_RTTY_;
bool report_in_comments_;
bool prompt_to_log_;
bool insert_blank_;
bool DXCC_;
bool clear_DX_;
bool miles_;
bool quick_call_;
bool disable_TX_on_73_;
bool watchdog_;
bool TX_messages_;
QString udp_server_name_;
port_type udp_server_port_;
bool accept_udp_requests_;
bool udpWindowToFront_;
bool udpWindowRestore_;
DataMode data_mode_;
QAudioDeviceInfo audio_input_device_;
bool default_audio_input_device_selected_;
AudioDevice::Channel audio_input_channel_;
QAudioDeviceInfo audio_output_device_;
bool default_audio_output_device_selected_;
AudioDevice::Channel audio_output_channel_;
friend class Configuration;
};
#include "Configuration.moc"
// delegate to implementation class
Configuration::Configuration (QSettings * settings, QWidget * parent)
: m_ {this, settings, parent}
{
}
Configuration::~Configuration ()
{
}
QDir Configuration::doc_dir () const {return m_->doc_dir_;}
QDir Configuration::temp_dir () const {return m_->temp_dir_;}
int Configuration::exec () {return m_->exec ();}
QAudioDeviceInfo const& Configuration::audio_input_device () const {return m_->audio_input_device_;}
AudioDevice::Channel Configuration::audio_input_channel () const {return m_->audio_input_channel_;}
QAudioDeviceInfo const& Configuration::audio_output_device () const {return m_->audio_output_device_;}
AudioDevice::Channel Configuration::audio_output_channel () const {return m_->audio_output_channel_;}
bool Configuration::restart_audio_input () const {return m_->restart_sound_input_device_;}
bool Configuration::restart_audio_output () const {return m_->restart_sound_output_device_;}
unsigned Configuration::jt9w_bw_mult () const {return m_->jt9w_bw_mult_;}
float Configuration::jt9w_min_dt () const {return m_->jt9w_min_dt_;}
float Configuration::jt9w_max_dt () const {return m_->jt9w_max_dt_;}
auto Configuration::type_2_msg_gen () const -> Type2MsgGen {return m_->type_2_msg_gen_;}
QString Configuration::my_callsign () const {return m_->my_callsign_;}
QString Configuration::my_grid () const {return m_->my_grid_;}
QColor Configuration::color_CQ () const {return m_->color_CQ_;}
QColor Configuration::color_MyCall () const {return m_->color_MyCall_;}
QColor Configuration::color_TxMsg () const {return m_->color_TxMsg_;}
QColor Configuration::color_DXCC () const {return m_->color_DXCC_;}
QColor Configuration::color_NewCall () const {return m_->color_NewCall_;}
QFont Configuration::decoded_text_font () const {return m_->decoded_text_font_;}
qint32 Configuration::id_interval () const {return m_->id_interval_;}
bool Configuration::id_after_73 () const {return m_->id_after_73_;}
bool Configuration::tx_QSY_allowed () const {return m_->tx_QSY_allowed_;}
bool Configuration::spot_to_psk_reporter () const {return m_->spot_to_psk_reporter_;}
bool Configuration::monitor_off_at_startup () const {return m_->monitor_off_at_startup_;}
bool Configuration::monitor_last_used () const {return m_->monitor_last_used_;}
bool Configuration::log_as_RTTY () const {return m_->log_as_RTTY_;}
bool Configuration::report_in_comments () const {return m_->report_in_comments_;}
bool Configuration::prompt_to_log () const {return m_->prompt_to_log_;}
bool Configuration::insert_blank () const {return m_->insert_blank_;}
bool Configuration::DXCC () const {return m_->DXCC_;}
bool Configuration::clear_DX () const {return m_->clear_DX_;}
bool Configuration::miles () const {return m_->miles_;}
bool Configuration::quick_call () const {return m_->quick_call_;}
bool Configuration::disable_TX_on_73 () const {return m_->disable_TX_on_73_;}
bool Configuration::watchdog () const {return m_->watchdog_;}
bool Configuration::TX_messages () const {return m_->TX_messages_;}
bool Configuration::split_mode () const
{
return !m_->rig_is_dummy_ && m_->rig_params_.split_mode_ != TransceiverFactory::split_mode_none;
}
QString Configuration::udp_server_name () const {return m_->udp_server_name_;}
auto Configuration::udp_server_port () const -> port_type {return m_->udp_server_port_;}
bool Configuration::accept_udp_requests () const {return m_->accept_udp_requests_;}
bool Configuration::udpWindowToFront () const {return m_->udpWindowToFront_;}
bool Configuration::udpWindowRestore () const {return m_->udpWindowRestore_;}
Bands * Configuration::bands () {return &m_->bands_;}
StationList * Configuration::stations () {return &m_->stations_;}
FrequencyList * Configuration::frequencies () {return &m_->frequencies_;}
QStringListModel * Configuration::macros () {return &m_->macros_;}
QDir Configuration::save_directory () const {return m_->save_directory_;}
QString Configuration::rig_name () const {return m_->rig_params_.rig_name_;}
bool Configuration::transceiver_online (bool open_if_closed)
{
#if WSJT_TRACE_CAT
qDebug () << "Configuration::transceiver_online: open_if_closed:" << open_if_closed << m_->cached_rig_state_;
#endif
return m_->have_rig (open_if_closed);
}
void Configuration::transceiver_offline ()
{
#if WSJT_TRACE_CAT
qDebug () << "Configuration::transceiver_offline:" << m_->cached_rig_state_;
#endif
return m_->close_rig ();
}
void Configuration::transceiver_frequency (Frequency f)
{
#if WSJT_TRACE_CAT
qDebug () << "Configuration::transceiver_frequency:" << f << m_->cached_rig_state_;
#endif
m_->transceiver_frequency (f);
}
void Configuration::transceiver_tx_frequency (Frequency f)
{
#if WSJT_TRACE_CAT
qDebug () << "Configuration::transceiver_tx_frequency:" << f << m_->cached_rig_state_;
#endif
m_->setup_split_ = true;
m_->required_tx_frequency_ = f;
m_->transceiver_tx_frequency (f);
}
void Configuration::transceiver_mode (MODE mode)
{
#if WSJT_TRACE_CAT
qDebug () << "Configuration::transceiver_mode:" << mode << m_->cached_rig_state_;
#endif
m_->transceiver_mode (mode);
}
void Configuration::transceiver_ptt (bool on)
{
#if WSJT_TRACE_CAT
qDebug () << "Configuration::transceiver_ptt:" << on << m_->cached_rig_state_;
#endif
m_->transceiver_ptt (on);
}
void Configuration::sync_transceiver (bool force_signal, bool enforce_mode_and_split)
{
#if WSJT_TRACE_CAT
qDebug () << "Configuration::sync_transceiver: force signal:" << force_signal << "enforce_mode_and_split:" << enforce_mode_and_split << m_->cached_rig_state_;
#endif
m_->enforce_mode_and_split_ = enforce_mode_and_split;
m_->setup_split_ = enforce_mode_and_split;
m_->required_tx_frequency_ = 0;
m_->sync_transceiver (force_signal);
}
Configuration::impl::impl (Configuration * self, QSettings * settings, QWidget * parent)
: QDialog {parent}
, self_ {self}
, ui_ {new Ui::configuration_dialog}
, settings_ {settings}
, frequencies_ {
{
136130,
474200,
1838000,
3576000,
5357000,
7076000,
10138000,
14076000,
18102000,
21076000,
24917000,
28076000,
50276000,
70091000,
144489000,
}
}
, stations_ {&bands_}
, next_stations_ {&bands_}
, frequency_dialog_ {new FrequencyDialog {this}}
, station_dialog_ {new StationDialog {&next_stations_, &bands_, this}}
, rig_active_ {false}
, have_rig_ {false}
, rig_changed_ {false}
, ptt_state_ {false}
, setup_split_ {false}
, required_tx_frequency_ {0}
, enforce_mode_and_split_ {false}
, transceiver_offset_ {0}
, default_audio_input_device_selected_ {false}
, default_audio_output_device_selected_ {false}
{
ui_->setupUi (this);
#if !defined (CMAKE_BUILD)
#define WSJT_SHARE_DESTINATION "."
#define WSJT_DOC_DESTINATION "."
#endif
#if !defined (Q_OS_WIN) || QT_VERSION >= 0x050300
auto path = QStandardPaths::locate (QStandardPaths::DataLocation, WSJT_DOC_DESTINATION, QStandardPaths::LocateDirectory);
if (path.isEmpty ())
{
doc_dir_.cdUp ();
#if defined (Q_OS_MAC)
doc_dir_.cdUp ();
doc_dir_.cdUp ();
#endif
doc_dir_.cd (WSJT_SHARE_DESTINATION);
doc_dir_.cd (WSJT_DOC_DESTINATION);
}
else
{
doc_dir_.cd (path);
}
#else
doc_dir_.cd (WSJT_DOC_DESTINATION);
#endif
{
// Create a temporary directory in a suitable location
QString temp_location {QStandardPaths::writableLocation (QStandardPaths::TempLocation)};
if (!temp_location.isEmpty ())
{
temp_dir_.setPath (temp_location);
}
QString unique_directory {QApplication::applicationName ()};
if (!temp_dir_.mkpath (unique_directory) || !temp_dir_.cd (unique_directory))
{
QMessageBox::critical (this, "WSJT-X", tr ("Create temporary directory error: ") + temp_dir_.absolutePath ());
throw std::runtime_error {"Failed to create usable temporary directory"};
}
}
{
// Find a suitable data file location
QDir data_dir {QStandardPaths::writableLocation (QStandardPaths::DataLocation)};
if (!data_dir.mkpath ("."))
{
QMessageBox::critical (this, "WSJT-X", tr ("Create data directory error: ") + data_dir.absolutePath ());
throw std::runtime_error {"Failed to create data directory"};
}
// Make sure the default save directory exists
QString save_dir {"save"};
default_save_directory_ = data_dir;
if (!default_save_directory_.mkpath (save_dir) || !default_save_directory_.cd (save_dir))
{
QMessageBox::critical (this, "WSJT-X", tr ("Create Directory", "Cannot create directory \"") + default_save_directory_.absoluteFilePath (save_dir) + "\".");
throw std::runtime_error {"Failed to create save directory"};
}
// we now have a deafult save path that exists
// make sure samples directory exists
QString samples_dir {"samples"};
if (!default_save_directory_.mkpath (samples_dir))
{
QMessageBox::critical (this, "WSJT-X", tr ("Create Directory", "Cannot create directory \"") + default_save_directory_.absoluteFilePath (samples_dir) + "\".");
throw std::runtime_error {"Failed to create save directory"};
}
// copy in any new sample files to the sample directory
QDir dest_dir {default_save_directory_};
dest_dir.cd (samples_dir);
QDir source_dir {":/" + samples_dir};
source_dir.cd (save_dir);
source_dir.cd (samples_dir);
auto list = source_dir.entryInfoList (QStringList {{"*.wav"}}, QDir::Files | QDir::Readable);
Q_FOREACH (auto const& item, list)
{
if (!dest_dir.exists (item.fileName ()))
{
QFile file {item.absoluteFilePath ()};
file.copy (dest_dir.absoluteFilePath (item.fileName ()));
}
}
}
// this must be done after the default paths above are set
read_settings ();
//
// validation
//
ui_->callsign_line_edit->setValidator (new QRegExpValidator {QRegExp {"[A-Za-z0-9/]+"}, this});
ui_->grid_line_edit->setValidator (new QRegExpValidator {QRegExp {"[A-Ra-r]{2,2}[0-9]{2,2}[A-Xa-x]{0,2}"}, this});
ui_->add_macro_line_edit->setValidator (new QRegExpValidator {message_alphabet, this});
ui_->udp_server_port_spin_box->setMinimum (1);
ui_->udp_server_port_spin_box->setMaximum (std::numeric_limits<port_type>::max ());
//
// assign ids to radio buttons
//
ui_->CAT_data_bits_button_group->setId (ui_->CAT_7_bit_radio_button, TransceiverFactory::seven_data_bits);
ui_->CAT_data_bits_button_group->setId (ui_->CAT_8_bit_radio_button, TransceiverFactory::eight_data_bits);
ui_->CAT_stop_bits_button_group->setId (ui_->CAT_one_stop_bit_radio_button, TransceiverFactory::one_stop_bit);
ui_->CAT_stop_bits_button_group->setId (ui_->CAT_two_stop_bit_radio_button, TransceiverFactory::two_stop_bits);
ui_->CAT_handshake_button_group->setId (ui_->CAT_handshake_none_radio_button, TransceiverFactory::handshake_none);
ui_->CAT_handshake_button_group->setId (ui_->CAT_handshake_xon_radio_button, TransceiverFactory::handshake_XonXoff);
ui_->CAT_handshake_button_group->setId (ui_->CAT_handshake_hardware_radio_button, TransceiverFactory::handshake_hardware);
ui_->PTT_method_button_group->setId (ui_->PTT_VOX_radio_button, TransceiverFactory::PTT_method_VOX);
ui_->PTT_method_button_group->setId (ui_->PTT_CAT_radio_button, TransceiverFactory::PTT_method_CAT);
ui_->PTT_method_button_group->setId (ui_->PTT_DTR_radio_button, TransceiverFactory::PTT_method_DTR);
ui_->PTT_method_button_group->setId (ui_->PTT_RTS_radio_button, TransceiverFactory::PTT_method_RTS);
ui_->TX_audio_source_button_group->setId (ui_->TX_source_mic_radio_button, TransceiverFactory::TX_audio_source_front);
ui_->TX_audio_source_button_group->setId (ui_->TX_source_data_radio_button, TransceiverFactory::TX_audio_source_rear);
ui_->TX_mode_button_group->setId (ui_->mode_none_radio_button, data_mode_none);
ui_->TX_mode_button_group->setId (ui_->mode_USB_radio_button, data_mode_USB);
ui_->TX_mode_button_group->setId (ui_->mode_data_radio_button, data_mode_data);
ui_->split_mode_button_group->setId (ui_->split_none_radio_button, TransceiverFactory::split_mode_none);
ui_->split_mode_button_group->setId (ui_->split_rig_radio_button, TransceiverFactory::split_mode_rig);
ui_->split_mode_button_group->setId (ui_->split_emulate_radio_button, TransceiverFactory::split_mode_emulate);
//
// setup PTT port combo box drop down content
//
fill_port_combo_box (ui_->PTT_port_combo_box);
ui_->PTT_port_combo_box->addItem ("CAT");
//
// setup hooks to keep audio channels aligned with devices
//
{
using namespace std;
using namespace std::placeholders;
function<void (int)> cb (bind (&Configuration::impl::update_audio_channels, this, ui_->sound_input_combo_box, _1, ui_->sound_input_channel_combo_box, false));
connect (ui_->sound_input_combo_box, static_cast<void (QComboBox::*)(int)> (&QComboBox::currentIndexChanged), cb);
cb = bind (&Configuration::impl::update_audio_channels, this, ui_->sound_output_combo_box, _1, ui_->sound_output_channel_combo_box, true);
connect (ui_->sound_output_combo_box, static_cast<void (QComboBox::*)(int)> (&QComboBox::currentIndexChanged), cb);
}
//
// setup macros list view
//
ui_->macros_list_view->setModel (&next_macros_);
ui_->macros_list_view->setItemDelegate (new MessageItemDelegate {this});
macro_delete_action_ = new QAction {tr ("&Delete"), ui_->macros_list_view};
ui_->macros_list_view->insertAction (nullptr, macro_delete_action_);
connect (macro_delete_action_, &QAction::triggered, this, &Configuration::impl::delete_macro);
//
// setup working frequencies table model & view
//
frequencies_.sort (0);
ui_->frequencies_table_view->setModel (&next_frequencies_);
ui_->frequencies_table_view->sortByColumn (0, Qt::AscendingOrder);
ui_->frequencies_table_view->setItemDelegateForColumn (0, new FrequencyItemDelegate {&bands_, this});
ui_->frequencies_table_view->setColumnHidden (1, true);
frequency_delete_action_ = new QAction {tr ("&Delete"), ui_->frequencies_table_view};
ui_->frequencies_table_view->insertAction (nullptr, frequency_delete_action_);
connect (frequency_delete_action_, &QAction::triggered, this, &Configuration::impl::delete_frequencies);
frequency_insert_action_ = new QAction {tr ("&Insert ..."), ui_->frequencies_table_view};
ui_->frequencies_table_view->insertAction (nullptr, frequency_insert_action_);
connect (frequency_insert_action_, &QAction::triggered, this, &Configuration::impl::insert_frequency);
//
// setup stations table model & view
//
stations_.sort (0);
ui_->stations_table_view->setModel (&next_stations_);
ui_->stations_table_view->sortByColumn (0, Qt::AscendingOrder);
ui_->stations_table_view->setColumnWidth (1, 150);
ui_->stations_table_view->setItemDelegateForColumn (0, new ForeignKeyDelegate {&next_stations_, &bands_, 0, 0, this});
ui_->stations_table_view->setItemDelegateForColumn (1, new FrequencyDeltaItemDelegate {this});
station_delete_action_ = new QAction {tr ("&Delete"), ui_->stations_table_view};
ui_->stations_table_view->insertAction (nullptr, station_delete_action_);
connect (station_delete_action_, &QAction::triggered, this, &Configuration::impl::delete_stations);
station_insert_action_ = new QAction {tr ("&Insert ..."), ui_->stations_table_view};
ui_->stations_table_view->insertAction (nullptr, station_insert_action_);
connect (station_insert_action_, &QAction::triggered, this, &Configuration::impl::insert_station);
//
// load combo boxes with audio setup choices
//
default_audio_input_device_selected_ = load_audio_devices (QAudio::AudioInput, ui_->sound_input_combo_box, &audio_input_device_);
default_audio_output_device_selected_ = load_audio_devices (QAudio::AudioOutput, ui_->sound_output_combo_box, &audio_output_device_);
update_audio_channels (ui_->sound_input_combo_box, ui_->sound_input_combo_box->currentIndex (), ui_->sound_input_channel_combo_box, false);
update_audio_channels (ui_->sound_output_combo_box, ui_->sound_output_combo_box->currentIndex (), ui_->sound_output_channel_combo_box, true);
ui_->sound_input_channel_combo_box->setCurrentIndex (audio_input_channel_);
ui_->sound_output_channel_combo_box->setCurrentIndex (audio_output_channel_);
restart_sound_input_device_ = false;
restart_sound_output_device_ = false;
enumerate_rigs ();
initialise_models ();
transceiver_thread_.start ();
#if !WSJT_ENABLE_EXPERIMENTAL_FEATURES
ui_->jt9w_group_box->setEnabled (false);
#endif
}
Configuration::impl::~impl ()
{
write_settings ();
close_rig ();
transceiver_thread_.quit ();
transceiver_thread_.wait ();
temp_dir_.removeRecursively (); // clean up temp files
}
void Configuration::impl::initialise_models ()
{
auto pal = ui_->callsign_line_edit->palette ();
if (my_callsign_.isEmpty ())
{
pal.setColor (QPalette::Base, "#ffccff");
}
else
{
pal.setColor (QPalette::Base, Qt::white);
}
ui_->callsign_line_edit->setPalette (pal);
ui_->grid_line_edit->setPalette (pal);
ui_->callsign_line_edit->setText (my_callsign_);
ui_->grid_line_edit->setText (my_grid_);
ui_->labCQ->setStyleSheet(QString("background: %1").arg(color_CQ_.name()));
ui_->labMyCall->setStyleSheet(QString("background: %1").arg(color_MyCall_.name()));
ui_->labTx->setStyleSheet(QString("background: %1").arg(color_TxMsg_.name()));
ui_->labDXCC->setStyleSheet(QString("background: %1").arg(color_DXCC_.name()));
ui_->labNewCall->setStyleSheet(QString("background: %1").arg(color_NewCall_.name()));
ui_->CW_id_interval_spin_box->setValue (id_interval_);
ui_->PTT_method_button_group->button (rig_params_.PTT_method_)->setChecked (true);
ui_->save_path_display_label->setText (save_directory_.absolutePath ());
ui_->CW_id_after_73_check_box->setChecked (id_after_73_);
ui_->tx_QSY_check_box->setChecked (tx_QSY_allowed_);
ui_->psk_reporter_check_box->setChecked (spot_to_psk_reporter_);
ui_->monitor_off_check_box->setChecked (monitor_off_at_startup_);
ui_->monitor_last_used_check_box->setChecked (monitor_last_used_);
ui_->log_as_RTTY_check_box->setChecked (log_as_RTTY_);
ui_->report_in_comments_check_box->setChecked (report_in_comments_);
ui_->prompt_to_log_check_box->setChecked (prompt_to_log_);
ui_->insert_blank_check_box->setChecked (insert_blank_);
ui_->DXCC_check_box->setChecked (DXCC_);
ui_->clear_DX_check_box->setChecked (clear_DX_);
ui_->miles_check_box->setChecked (miles_);
ui_->quick_call_check_box->setChecked (quick_call_);
ui_->disable_TX_on_73_check_box->setChecked (disable_TX_on_73_);
ui_->watchdog_check_box->setChecked (watchdog_);
ui_->TX_messages_check_box->setChecked (TX_messages_);
ui_->jt9w_bandwidth_mult_combo_box->setCurrentText (QString::number (jt9w_bw_mult_));
ui_->jt9w_min_dt_double_spin_box->setValue (jt9w_min_dt_);
ui_->jt9w_max_dt_double_spin_box->setValue (jt9w_max_dt_);
ui_->type_2_msg_gen_combo_box->setCurrentIndex (type_2_msg_gen_);
ui_->rig_combo_box->setCurrentText (rig_params_.rig_name_);
ui_->TX_mode_button_group->button (data_mode_)->setChecked (true);
ui_->split_mode_button_group->button (rig_params_.split_mode_)->setChecked (true);
ui_->CAT_serial_baud_combo_box->setCurrentText (QString::number (rig_params_.CAT_baudrate_));
ui_->CAT_data_bits_button_group->button (rig_params_.CAT_data_bits_)->setChecked (true);
ui_->CAT_stop_bits_button_group->button (rig_params_.CAT_stop_bits_)->setChecked (true);
ui_->CAT_handshake_button_group->button (rig_params_.CAT_handshake_)->setChecked (true);
ui_->CAT_control_lines_group_box->setChecked (rig_params_.CAT_force_control_lines_);
ui_->CAT_DTR_check_box->setChecked (rig_params_.CAT_DTR_high_);
ui_->CAT_RTS_check_box->setChecked (rig_params_.CAT_RTS_high_);
ui_->TX_audio_source_button_group->button (rig_params_.TX_audio_source_)->setChecked (true);
ui_->CAT_poll_interval_spin_box->setValue (rig_params_.CAT_poll_interval_);
ui_->udp_server_line_edit->setText (udp_server_name_);
ui_->udp_server_port_spin_box->setValue (udp_server_port_);
ui_->accept_udp_requests_check_box->setChecked (accept_udp_requests_);
ui_->udpWindowToFront->setChecked(udpWindowToFront_);
ui_->udpWindowRestore->setChecked(udpWindowRestore_);
if (rig_params_.PTT_port_.isEmpty ())
{
if (ui_->PTT_port_combo_box->count ())
{
ui_->PTT_port_combo_box->setCurrentText (ui_->PTT_port_combo_box->itemText (0));
}
}
else
{
ui_->PTT_port_combo_box->setCurrentText (rig_params_.PTT_port_);
}
next_macros_.setStringList (macros_.stringList ());
next_frequencies_ = frequencies_.frequencies ();
next_stations_ = stations_.stations ();
set_rig_invariants ();
}
void Configuration::impl::done (int r)
{
// do this here since window is still on screen at this point
SettingsGroup g {settings_, "Configuration"};
settings_->setValue ("window/size", size ());
settings_->setValue ("window/pos", pos ());
QDialog::done (r);
}
void Configuration::impl::read_settings ()
{
SettingsGroup g {settings_, "Configuration"};
resize (settings_->value ("window/size", size ()).toSize ());
move (settings_->value ("window/pos", pos ()).toPoint ());
my_callsign_ = settings_->value ("MyCall", "").toString ();
my_grid_ = settings_->value ("MyGrid", "").toString ();
next_color_CQ_ = color_CQ_ = settings_->value("colorCQ","#66ff66").toString();
next_color_MyCall_ = color_MyCall_ = settings_->value("colorMyCall","#ff6666").toString();
next_color_TxMsg_ = color_TxMsg_ = settings_->value("colorTxMsg","#ffff00").toString();
next_color_DXCC_ = color_DXCC_ = settings_->value("colorDXCC","#ff00ff").toString();
next_color_NewCall_ = color_NewCall_ = settings_->value("colorNewCall","#ffaaff").toString();
if (next_font_.fromString (settings_->value ("Font", QGuiApplication::font ().toString ()).toString ())
&& next_font_ != font_)
{
font_ = next_font_;
set_application_font (font_);
}
else
{
next_font_ = font_;
}
if (next_decoded_text_font_.fromString (settings_->value ("DecodedTextFont", "Courier, 10").toString ())
&& next_decoded_text_font_ != decoded_text_font_)
{
decoded_text_font_ = next_decoded_text_font_;
Q_EMIT self_->decoded_text_font_changed (decoded_text_font_);
}
else
{
next_decoded_text_font_ = decoded_text_font_;
}
id_interval_ = settings_->value ("IDint", 0).toInt ();
save_directory_ = settings_->value ("SaveDir", default_save_directory_.absolutePath ()).toString ();
{
//
// retrieve audio input device
//
auto saved_name = settings_->value ("SoundInName").toString ();
// deal with special Windows default audio devices
auto default_device = QAudioDeviceInfo::defaultInputDevice ();
if (saved_name == default_device.deviceName ())
{
audio_input_device_ = default_device;
default_audio_input_device_selected_ = true;
}
else
{
default_audio_input_device_selected_ = false;
Q_FOREACH (auto const& p, QAudioDeviceInfo::availableDevices (QAudio::AudioInput)) // available audio input devices
{
if (p.deviceName () == saved_name)
{
audio_input_device_ = p;
}
}
}
}
{
//
// retrieve audio output device
//
auto saved_name = settings_->value("SoundOutName").toString();
// deal with special Windows default audio devices
auto default_device = QAudioDeviceInfo::defaultOutputDevice ();
if (saved_name == default_device.deviceName ())
{
audio_output_device_ = default_device;
default_audio_output_device_selected_ = true;
}
else
{
default_audio_output_device_selected_ = false;
Q_FOREACH (auto const& p, QAudioDeviceInfo::availableDevices (QAudio::AudioOutput)) // available audio output devices
{
if (p.deviceName () == saved_name)
{
audio_output_device_ = p;
}
}
}
}
// retrieve audio channel info
audio_input_channel_ = AudioDevice::fromString (settings_->value ("AudioInputChannel", "Mono").toString ());
audio_output_channel_ = AudioDevice::fromString (settings_->value ("AudioOutputChannel", "Mono").toString ());
jt9w_bw_mult_ = settings_->value ("ToneMult", 1).toUInt ();
jt9w_min_dt_ = settings_->value ("DTmin", -2.5).toFloat ();
jt9w_max_dt_ = settings_->value ("DTmax", 5.).toFloat ();
type_2_msg_gen_ = settings_->value ("Type2MsgGen", QVariant::fromValue (Configuration::type_2_msg_3_full)).value<Configuration::Type2MsgGen> ();
monitor_off_at_startup_ = settings_->value ("MonitorOFF", false).toBool ();
monitor_last_used_ = settings_->value ("MonitorLastUsed", false).toBool ();
spot_to_psk_reporter_ = settings_->value ("PSKReporter", false).toBool ();
id_after_73_ = settings_->value ("After73", false).toBool ();
tx_QSY_allowed_ = settings_->value ("TxQSYAllowed", false).toBool ();
macros_.setStringList (settings_->value ("Macros", QStringList {"TNX 73 GL"}).toStringList ());
if (settings_->contains ("frequencies"))
{
frequencies_ = settings_->value ("frequencies").value<Radio::Frequencies> ();
}
stations_ = settings_->value ("stations").value<StationList::Stations> ();
log_as_RTTY_ = settings_->value ("toRTTY", false).toBool ();
report_in_comments_ = settings_->value("dBtoComments", false).toBool ();
rig_params_.rig_name_ = settings_->value ("Rig", TransceiverFactory::basic_transceiver_name_).toString ();
rig_is_dummy_ = TransceiverFactory::basic_transceiver_name_ == rig_params_.rig_name_;
rig_params_.CAT_network_port_ = settings_->value ("CATNetworkPort").toString ();
rig_params_.CAT_serial_port_ = settings_->value ("CATSerialPort").toString ();
rig_params_.CAT_baudrate_ = settings_->value ("CATSerialRate", 4800).toInt ();
rig_params_.CAT_data_bits_ = settings_->value ("CATDataBits", QVariant::fromValue (TransceiverFactory::eight_data_bits)).value<TransceiverFactory::DataBits> ();
rig_params_.CAT_stop_bits_ = settings_->value ("CATStopBits", QVariant::fromValue (TransceiverFactory::two_stop_bits)).value<TransceiverFactory::StopBits> ();
rig_params_.CAT_handshake_ = settings_->value ("CATHandshake", QVariant::fromValue (TransceiverFactory::handshake_none)).value<TransceiverFactory::Handshake> ();
rig_params_.CAT_force_control_lines_ = settings_->value ("CATForceControlLines", false).toBool ();
rig_params_.CAT_DTR_high_ = settings_->value ("DTR", false).toBool ();
rig_params_.CAT_RTS_high_ = settings_->value ("RTS", false).toBool ();
rig_params_.PTT_method_ = settings_->value ("PTTMethod", QVariant::fromValue (TransceiverFactory::PTT_method_VOX)).value<TransceiverFactory::PTTMethod> ();
rig_params_.TX_audio_source_ = settings_->value ("TXAudioSource", QVariant::fromValue (TransceiverFactory::TX_audio_source_front)).value<TransceiverFactory::TXAudioSource> ();
rig_params_.PTT_port_ = settings_->value ("PTTport").toString ();
data_mode_ = settings_->value ("DataMode", QVariant::fromValue (data_mode_none)).value<Configuration::DataMode> ();
prompt_to_log_ = settings_->value ("PromptToLog", false).toBool ();
insert_blank_ = settings_->value ("InsertBlank", false).toBool ();
DXCC_ = settings_->value ("DXCCEntity", false).toBool ();
clear_DX_ = settings_->value ("ClearCallGrid", false).toBool ();
miles_ = settings_->value ("Miles", false).toBool ();
quick_call_ = settings_->value ("QuickCall", false).toBool ();
disable_TX_on_73_ = settings_->value ("73TxDisable", false).toBool ();
watchdog_ = settings_->value ("Runaway", false).toBool ();
TX_messages_ = settings_->value ("Tx2QSO", false).toBool ();
rig_params_.CAT_poll_interval_ = settings_->value ("Polling", 0).toInt ();
rig_params_.split_mode_ = settings_->value ("SplitMode", QVariant::fromValue (TransceiverFactory::split_mode_none)).value<TransceiverFactory::SplitMode> ();
udp_server_name_ = settings_->value ("UDPServer", "localhost").toString ();
udp_server_port_ = settings_->value ("UDPServerPort", 2237).toUInt ();
accept_udp_requests_ = settings_->value ("AcceptUDPRequests", false).toBool ();
udpWindowToFront_ = settings_->value ("udpWindowToFront",false).toBool ();
udpWindowRestore_ = settings_->value ("udpWindowRestore",false).toBool ();
}
void Configuration::impl::write_settings ()
{
SettingsGroup g {settings_, "Configuration"};
settings_->setValue ("MyCall", my_callsign_);
settings_->setValue ("MyGrid", my_grid_);
settings_->setValue("colorCQ",color_CQ_);
settings_->setValue("colorMyCall",color_MyCall_);
settings_->setValue("colorTxMsg",color_TxMsg_);
settings_->setValue("colorDXCC",color_DXCC_);
settings_->setValue("colorNewCall",color_NewCall_);
settings_->setValue ("Font", font_.toString ());
settings_->setValue ("DecodedTextFont", decoded_text_font_.toString ());
settings_->setValue ("IDint", id_interval_);
settings_->setValue ("PTTMethod", QVariant::fromValue (rig_params_.PTT_method_));
settings_->setValue ("PTTport", rig_params_.PTT_port_);
settings_->setValue ("SaveDir", save_directory_.absolutePath ());
if (default_audio_input_device_selected_)
{
settings_->setValue ("SoundInName", QAudioDeviceInfo::defaultInputDevice ().deviceName ());
}
else
{
settings_->setValue ("SoundInName", audio_input_device_.deviceName ());
}
if (default_audio_output_device_selected_)
{
settings_->setValue ("SoundOutName", QAudioDeviceInfo::defaultOutputDevice ().deviceName ());
}
else
{
settings_->setValue ("SoundOutName", audio_output_device_.deviceName ());
}
settings_->setValue ("AudioInputChannel", AudioDevice::toString (audio_input_channel_));
settings_->setValue ("AudioOutputChannel", AudioDevice::toString (audio_output_channel_));
settings_->setValue ("ToneMult", jt9w_bw_mult_);
settings_->setValue ("DTmin", jt9w_min_dt_);
settings_->setValue ("DTmax", jt9w_max_dt_);
settings_->setValue ("Type2MsgGen", QVariant::fromValue (type_2_msg_gen_));
settings_->setValue ("MonitorOFF", monitor_off_at_startup_);
settings_->setValue ("MonitorLastUsed", monitor_last_used_);
settings_->setValue ("PSKReporter", spot_to_psk_reporter_);
settings_->setValue ("After73", id_after_73_);
settings_->setValue ("TxQSYAllowed", tx_QSY_allowed_);
settings_->setValue ("Macros", macros_.stringList ());
settings_->setValue ("frequencies", QVariant::fromValue (frequencies_.frequencies ()));
settings_->setValue ("stations", QVariant::fromValue (stations_.stations ()));
settings_->setValue ("toRTTY", log_as_RTTY_);
settings_->setValue ("dBtoComments", report_in_comments_);
settings_->setValue ("Rig", rig_params_.rig_name_);
settings_->setValue ("CATNetworkPort", rig_params_.CAT_network_port_);
settings_->setValue ("CATSerialPort", rig_params_.CAT_serial_port_);
settings_->setValue ("CATSerialRate", rig_params_.CAT_baudrate_);
settings_->setValue ("CATDataBits", QVariant::fromValue (rig_params_.CAT_data_bits_));
settings_->setValue ("CATStopBits", QVariant::fromValue (rig_params_.CAT_stop_bits_));
settings_->setValue ("CATHandshake", QVariant::fromValue (rig_params_.CAT_handshake_));
settings_->setValue ("DataMode", QVariant::fromValue (data_mode_));
settings_->setValue ("PromptToLog", prompt_to_log_);
settings_->setValue ("InsertBlank", insert_blank_);
settings_->setValue ("DXCCEntity", DXCC_);
settings_->setValue ("ClearCallGrid", clear_DX_);
settings_->setValue ("Miles", miles_);
settings_->setValue ("QuickCall", quick_call_);
settings_->setValue ("73TxDisable", disable_TX_on_73_);
settings_->setValue ("Runaway", watchdog_);
settings_->setValue ("Tx2QSO", TX_messages_);
settings_->setValue ("CATForceControlLines", rig_params_.CAT_force_control_lines_);
settings_->setValue ("DTR", rig_params_.CAT_DTR_high_);
settings_->setValue ("RTS", rig_params_.CAT_RTS_high_);
settings_->setValue ("TXAudioSource", QVariant::fromValue (rig_params_.TX_audio_source_));
settings_->setValue ("Polling", rig_params_.CAT_poll_interval_);
settings_->setValue ("SplitMode", QVariant::fromValue (rig_params_.split_mode_));
settings_->setValue ("UDPServer", udp_server_name_);
settings_->setValue ("UDPServerPort", udp_server_port_);
settings_->setValue ("AcceptUDPRequests", accept_udp_requests_);
settings_->setValue ("udpWindowToFront", udpWindowToFront_);
settings_->setValue ("udpWindowRestore", udpWindowRestore_);
}
void Configuration::impl::set_rig_invariants ()
{
auto const& rig = ui_->rig_combo_box->currentText ();
auto const& ptt_port = ui_->PTT_port_combo_box->currentText ();
auto ptt_method = static_cast<TransceiverFactory::PTTMethod> (ui_->PTT_method_button_group->checkedId ());
auto CAT_PTT_enabled = transceiver_factory_.has_CAT_PTT (rig);
auto CAT_indirect_serial_PTT = transceiver_factory_.has_CAT_indirect_serial_PTT (rig);
auto asynchronous_CAT = transceiver_factory_.has_asynchronous_CAT (rig);
auto is_hw_handshake = ui_->CAT_handshake_group_box->isEnabled ()
&& TransceiverFactory::handshake_hardware == static_cast<TransceiverFactory::Handshake> (ui_->CAT_handshake_button_group->checkedId ());
ui_->test_CAT_push_button->setStyleSheet ({});
ui_->CAT_poll_interval_label->setEnabled (!asynchronous_CAT);
ui_->CAT_poll_interval_spin_box->setEnabled (!asynchronous_CAT);
static auto last_port_type = TransceiverFactory::Capabilities::none;
auto port_type = transceiver_factory_.CAT_port_type (rig);
bool is_serial_CAT (TransceiverFactory::Capabilities::serial == port_type);
if (TransceiverFactory::basic_transceiver_name_ == rig)
{
ui_->CAT_control_group_box->setEnabled (false);
}
else
{
ui_->CAT_control_group_box->setEnabled (true);
if (port_type != last_port_type)
{
last_port_type = port_type;
switch (port_type)
{
case TransceiverFactory::Capabilities::serial:
fill_port_combo_box (ui_->CAT_port_combo_box);
ui_->CAT_port_combo_box->setCurrentText (rig_params_.CAT_serial_port_);
if (ui_->CAT_port_combo_box->currentText ().isEmpty () && ui_->CAT_port_combo_box->count ())
{
ui_->CAT_port_combo_box->setCurrentText (ui_->CAT_port_combo_box->itemText (0));
}
ui_->CAT_port_label->setText (tr ("Serial Port:"));
ui_->CAT_port_combo_box->setToolTip (tr ("Serial port used for CAT control"));
ui_->CAT_port_combo_box->setEnabled (true);
break;
case TransceiverFactory::Capabilities::network:
ui_->CAT_port_combo_box->setCurrentText (rig_params_.CAT_network_port_);
ui_->CAT_port_label->setText (tr ("Network Server:"));
ui_->CAT_port_combo_box->setToolTip (tr ("Optional hostname and port of network service.\n"
"Leave blank for a sensible default on this machine.\n"
"Formats:\n"
"\thostname:port\n"
"\tIPv4-address:port\n"
"\t[IPv6-address]:port"));
ui_->CAT_port_combo_box->clear ();
ui_->CAT_port_combo_box->setEnabled (true);
break;
default:
ui_->CAT_port_combo_box->clear ();
ui_->CAT_port_combo_box->setEnabled (false);
break;
}
}
ui_->CAT_serial_port_parameters_group_box->setEnabled (is_serial_CAT);
ui_->CAT_control_lines_group_box->setEnabled (is_serial_CAT && !is_hw_handshake);
}
auto const& cat_port = ui_->CAT_port_combo_box->currentText ();
ui_->TX_audio_source_group_box->setEnabled (transceiver_factory_.has_CAT_PTT_mic_data (rig) && TransceiverFactory::PTT_method_CAT == ptt_method);
// if (ui_->test_PTT_push_button->isEnabled ()) // don't enable if disabled - "Test CAT" must succeed first
// {
// ui_->test_PTT_push_button->setEnabled ((TransceiverFactory::PTT_method_CAT == ptt_method && CAT_PTT_enabled)
// || TransceiverFactory::PTT_method_DTR == ptt_method
// || TransceiverFactory::PTT_method_RTS == ptt_method);
// }
ui_->test_PTT_push_button->setEnabled (false);
// only enable CAT option if transceiver has CAT PTT
ui_->PTT_CAT_radio_button->setEnabled (CAT_PTT_enabled);
auto enable_ptt_port = TransceiverFactory::PTT_method_CAT != ptt_method && TransceiverFactory::PTT_method_VOX != ptt_method;
ui_->PTT_port_combo_box->setEnabled (enable_ptt_port);
ui_->PTT_port_label->setEnabled (enable_ptt_port);
ui_->PTT_port_combo_box->setItemData (ui_->PTT_port_combo_box->findText ("CAT")
, CAT_indirect_serial_PTT ? combo_box_item_enabled : combo_box_item_disabled
, Qt::UserRole - 1);
auto control_lines_available = !ui_->CAT_control_lines_group_box->isEnabled ()
|| !ui_->CAT_control_lines_group_box->isChecked ();
ui_->PTT_DTR_radio_button->setEnabled (!(((is_serial_CAT && ptt_port == cat_port)
&& !control_lines_available)
|| ("CAT" == ptt_port && !CAT_indirect_serial_PTT)));
ui_->PTT_RTS_radio_button->setEnabled (!(((is_serial_CAT && ptt_port == cat_port)
&& (!control_lines_available || is_hw_handshake))
|| ("CAT" == ptt_port && !CAT_indirect_serial_PTT)));
}
bool Configuration::impl::validate ()
{
if (ui_->sound_input_combo_box->currentIndex () < 0
&& !QAudioDeviceInfo::availableDevices (QAudio::AudioInput).empty ())
{
message_box (tr ("Invalid audio input device"));
return false;
}
if (ui_->sound_output_combo_box->currentIndex () < 0
&& !QAudioDeviceInfo::availableDevices (QAudio::AudioOutput).empty ())
{
message_box (tr ("Invalid audio output device"));
return false;
}
if (!ui_->PTT_method_button_group->checkedButton ()->isEnabled ())
{
message_box (tr ("Invalid PTT method"));
return false;
}
// auto CAT_port = ui_->CAT_port_combo_box->currentText ();
// if (ui_->CAT_port_combo_box->isEnabled () && CAT_port.isEmpty ())
// {
// message_box (tr ("Invalid CAT port"));
// return false;
// }
auto ptt_method = static_cast<TransceiverFactory::PTTMethod> (ui_->PTT_method_button_group->checkedId ());
auto ptt_port = ui_->PTT_port_combo_box->currentText ();
if ((TransceiverFactory::PTT_method_DTR == ptt_method || TransceiverFactory::PTT_method_RTS == ptt_method)
&& (ptt_port.isEmpty ()
|| combo_box_item_disabled == ui_->PTT_port_combo_box->itemData (ui_->PTT_port_combo_box->findText (ptt_port), Qt::UserRole - 1)))
{
message_box (tr ("Invalid PTT port"));
return false;
}
return true;
}
int Configuration::impl::exec ()
{
// macros can be modified in the main window
next_macros_.setStringList (macros_.stringList ());
ptt_state_ = false;
have_rig_ = rig_active_; // record that we started with a rig open
saved_rig_params_ = rig_params_; // used to detect changes that
// require the Transceiver to be
// re-opened
rig_changed_ = false;
return QDialog::exec();
}
void Configuration::impl::accept ()
{
// Called when OK button is clicked.
if (!validate ())
{
return; // not accepting
}
// extract all rig related configuration parameters into temporary
// structure for checking if the rig needs re-opening without
// actually updating our live state
RigParams temp_rig_params;
temp_rig_params.rig_name_ = ui_->rig_combo_box->currentText ();
switch (transceiver_factory_.CAT_port_type (temp_rig_params.rig_name_))
{
case TransceiverFactory::Capabilities::serial:
temp_rig_params.CAT_serial_port_ = ui_->CAT_port_combo_box->currentText ();
temp_rig_params.CAT_network_port_ = rig_params_.CAT_network_port_;
break;
case TransceiverFactory::Capabilities::network:
temp_rig_params.CAT_network_port_ = ui_->CAT_port_combo_box->currentText ();
temp_rig_params.CAT_serial_port_ = rig_params_.CAT_serial_port_;
break;
default:
temp_rig_params.CAT_serial_port_ = rig_params_.CAT_serial_port_;
temp_rig_params.CAT_network_port_ = rig_params_.CAT_network_port_;
break;
}
temp_rig_params.CAT_baudrate_ = ui_->CAT_serial_baud_combo_box->currentText ().toInt ();
temp_rig_params.CAT_data_bits_ = static_cast<TransceiverFactory::DataBits> (ui_->CAT_data_bits_button_group->checkedId ());
temp_rig_params.CAT_stop_bits_ = static_cast<TransceiverFactory::StopBits> (ui_->CAT_stop_bits_button_group->checkedId ());
temp_rig_params.CAT_handshake_ = static_cast<TransceiverFactory::Handshake> (ui_->CAT_handshake_button_group->checkedId ());
temp_rig_params.CAT_force_control_lines_ = ui_->CAT_control_lines_group_box->isChecked ();
temp_rig_params.CAT_DTR_high_ = ui_->CAT_DTR_check_box->isChecked ();
temp_rig_params.CAT_RTS_high_ = ui_->CAT_RTS_check_box->isChecked ();
temp_rig_params.CAT_poll_interval_ = ui_->CAT_poll_interval_spin_box->value ();
temp_rig_params.PTT_method_ = static_cast<TransceiverFactory::PTTMethod> (ui_->PTT_method_button_group->checkedId ());
temp_rig_params.PTT_port_ = ui_->PTT_port_combo_box->currentText ();
temp_rig_params.TX_audio_source_ = static_cast<TransceiverFactory::TXAudioSource> (ui_->TX_audio_source_button_group->checkedId ());
temp_rig_params.split_mode_ = static_cast<TransceiverFactory::SplitMode> (ui_->split_mode_button_group->checkedId ());
// open_rig() uses values from models so we use it to validate the
// Transceiver settings before agreeing to accept the configuration
if (temp_rig_params != rig_params_ && !open_rig ())
{
return; // not accepting
}
QDialog::accept(); // do this before accessing custom
// models so that any changes in
// delegates in views get flushed to
// the underlying models before we
// access them
sync_transceiver (true); // force an update
//
// from here on we are bound to accept the new configuration
// parameters so extract values from models and make them live
//
if (next_font_ != font_)
{
font_ = next_font_;
set_application_font (font_);
}
if (next_decoded_text_font_ != decoded_text_font_)
{
decoded_text_font_ = next_decoded_text_font_;
Q_EMIT self_->decoded_text_font_changed (decoded_text_font_);
}
color_CQ_ = next_color_CQ_;
color_MyCall_ = next_color_MyCall_;
color_TxMsg_ = next_color_TxMsg_;
color_DXCC_ = next_color_DXCC_;
color_NewCall_ = next_color_NewCall_;
rig_params_ = temp_rig_params; // now we can go live with the rig
// related configuration parameters
rig_is_dummy_ = TransceiverFactory::basic_transceiver_name_ == rig_params_.rig_name_;
// Check to see whether SoundInThread must be restarted,
// and save user parameters.
{
auto const& device_name = ui_->sound_input_combo_box->currentText ();
if (device_name != audio_input_device_.deviceName ())
{
auto const& default_device = QAudioDeviceInfo::defaultInputDevice ();
if (device_name == default_device.deviceName ())
{
audio_input_device_ = default_device;
}
else
{
bool found {false};
Q_FOREACH (auto const& d, QAudioDeviceInfo::availableDevices (QAudio::AudioInput))
{
if (device_name == d.deviceName ())
{
audio_input_device_ = d;
found = true;
}
}
if (!found)
{
audio_input_device_ = default_device;
}
}
restart_sound_input_device_ = true;
}
}
{
auto const& device_name = ui_->sound_output_combo_box->currentText ();
if (device_name != audio_output_device_.deviceName ())
{
auto const& default_device = QAudioDeviceInfo::defaultOutputDevice ();
if (device_name == default_device.deviceName ())
{
audio_output_device_ = default_device;
}
else
{
bool found {false};
Q_FOREACH (auto const& d, QAudioDeviceInfo::availableDevices (QAudio::AudioOutput))
{
if (device_name == d.deviceName ())
{
audio_output_device_ = d;
found = true;
}
}
if (!found)
{
audio_output_device_ = default_device;
}
}
restart_sound_output_device_ = true;
}
}
if (audio_input_channel_ != static_cast<AudioDevice::Channel> (ui_->sound_input_channel_combo_box->currentIndex ()))
{
audio_input_channel_ = static_cast<AudioDevice::Channel> (ui_->sound_input_channel_combo_box->currentIndex ());
restart_sound_input_device_ = true;
}
Q_ASSERT (audio_input_channel_ <= AudioDevice::Right);
if (audio_output_channel_ != static_cast<AudioDevice::Channel> (ui_->sound_output_channel_combo_box->currentIndex ()))
{
audio_output_channel_ = static_cast<AudioDevice::Channel> (ui_->sound_output_channel_combo_box->currentIndex ());
restart_sound_output_device_ = true;
}
Q_ASSERT (audio_output_channel_ <= AudioDevice::Both);
my_callsign_ = ui_->callsign_line_edit->text ();
my_grid_ = ui_->grid_line_edit->text ();
spot_to_psk_reporter_ = ui_->psk_reporter_check_box->isChecked ();
id_interval_ = ui_->CW_id_interval_spin_box->value ();
id_after_73_ = ui_->CW_id_after_73_check_box->isChecked ();
tx_QSY_allowed_ = ui_->tx_QSY_check_box->isChecked ();
monitor_off_at_startup_ = ui_->monitor_off_check_box->isChecked ();
monitor_last_used_ = ui_->monitor_last_used_check_box->isChecked ();
jt9w_bw_mult_ = ui_->jt9w_bandwidth_mult_combo_box->currentText ().toUInt ();
jt9w_min_dt_ = static_cast<float> (ui_->jt9w_min_dt_double_spin_box->value ());
jt9w_max_dt_ = static_cast<float> (ui_->jt9w_max_dt_double_spin_box->value ());
type_2_msg_gen_ = static_cast<Type2MsgGen> (ui_->type_2_msg_gen_combo_box->currentIndex ());
log_as_RTTY_ = ui_->log_as_RTTY_check_box->isChecked ();
report_in_comments_ = ui_->report_in_comments_check_box->isChecked ();
prompt_to_log_ = ui_->prompt_to_log_check_box->isChecked ();
insert_blank_ = ui_->insert_blank_check_box->isChecked ();
DXCC_ = ui_->DXCC_check_box->isChecked ();
clear_DX_ = ui_->clear_DX_check_box->isChecked ();
miles_ = ui_->miles_check_box->isChecked ();
quick_call_ = ui_->quick_call_check_box->isChecked ();
disable_TX_on_73_ = ui_->disable_TX_on_73_check_box->isChecked ();
watchdog_ = ui_->watchdog_check_box->isChecked ();
TX_messages_ = ui_->TX_messages_check_box->isChecked ();
data_mode_ = static_cast<DataMode> (ui_->TX_mode_button_group->checkedId ());
save_directory_ = ui_->save_path_display_label->text ();
auto new_server = ui_->udp_server_line_edit->text ();
if (new_server != udp_server_name_)
{
udp_server_name_ = new_server;
Q_EMIT self_->udp_server_changed (new_server);
}
auto new_port = ui_->udp_server_port_spin_box->value ();
if (new_port != udp_server_port_)
{
udp_server_port_ = new_port;
Q_EMIT self_->udp_server_port_changed (new_port);
}
accept_udp_requests_ = ui_->accept_udp_requests_check_box->isChecked ();
udpWindowToFront_ = ui_->udpWindowToFront->isChecked ();
udpWindowRestore_ = ui_->udpWindowRestore->isChecked ();
if (macros_.stringList () != next_macros_.stringList ())
{
macros_.setStringList (next_macros_.stringList ());
}
if (frequencies_.frequencies () != next_frequencies_.frequencies ())
{
frequencies_ = next_frequencies_.frequencies ();
frequencies_.sort (0);
}
if (stations_.stations () != next_stations_.stations ())
{
stations_ = next_stations_.stations ();
stations_.sort (0);
}
write_settings (); // make visible to all
}
void Configuration::impl::reject ()
{
initialise_models (); // reverts to settings as at exec ()
// check if the Transceiver instance changed, in which case we need
// to re open any prior Transceiver type
if (rig_changed_)
{
if (have_rig_)
{
// we have to do this since the rig has been opened since we
// were exec'ed even though it might fail
open_rig ();
}
else
{
close_rig ();
}
}
QDialog::reject ();
}
void Configuration::impl::message_box (QString const& reason, QString const& detail)
{
QMessageBox mb;
mb.setText (reason);
if (!detail.isEmpty ())
{
mb.setDetailedText (detail);
}
mb.setStandardButtons (QMessageBox::Ok);
mb.setDefaultButton (QMessageBox::Ok);
mb.setIcon (QMessageBox::Critical);
mb.exec ();
}
void Configuration::impl::on_font_push_button_clicked ()
{
next_font_ = QFontDialog::getFont (0, next_font_, this);
}
void Configuration::impl::on_pbCQmsg_clicked()
{
auto new_color = QColorDialog::getColor(next_color_CQ_, this, "CQ Messages Color");
if (new_color.isValid ())
{
next_color_CQ_ = new_color;
ui_->labCQ->setStyleSheet(QString("background: %1").arg(next_color_CQ_.name()));
}
}
void Configuration::impl::on_pbMyCall_clicked()
{
auto new_color = QColorDialog::getColor(next_color_MyCall_, this, "My Call Messages Color");
if (new_color.isValid ())
{
next_color_MyCall_ = new_color;
ui_->labMyCall->setStyleSheet(QString("background: %1").arg(next_color_MyCall_.name()));
}
}
void Configuration::impl::on_pbTxMsg_clicked()
{
auto new_color = QColorDialog::getColor(next_color_TxMsg_, this, "Tx Messages Color");
if (new_color.isValid ())
{
next_color_TxMsg_ = new_color;
ui_->labTx->setStyleSheet(QString("background: %1").arg(next_color_TxMsg_.name()));
}
}
void Configuration::impl::on_pbNewDXCC_clicked()
{
auto new_color = QColorDialog::getColor(next_color_DXCC_, this, "New DXCC Messages Color");
if (new_color.isValid ())
{
next_color_DXCC_ = new_color;
ui_->labDXCC->setStyleSheet(QString("background: %1").arg(next_color_DXCC_.name()));
}
}
void Configuration::impl::on_pbNewCall_clicked()
{
auto new_color = QColorDialog::getColor(next_color_NewCall_, this, "New Call Messages Color");
if (new_color.isValid ())
{
next_color_NewCall_ = new_color;
ui_->labNewCall->setStyleSheet(QString("background: %1").arg(next_color_NewCall_.name()));
}
}
void Configuration::impl::on_decoded_text_font_push_button_clicked ()
{
next_decoded_text_font_ = QFontDialog::getFont (0, decoded_text_font_ , this
, tr ("WSJT-X Decoded Text Font Chooser")
#if QT_VERSION >= 0x050201
, QFontDialog::MonospacedFonts
#endif
);
}
void Configuration::impl::on_PTT_port_combo_box_activated (int /* index */)
{
set_rig_invariants ();
}
void Configuration::impl::on_CAT_port_combo_box_activated (int /* index */)
{
set_rig_invariants ();
}
void Configuration::impl::on_CAT_serial_baud_combo_box_currentIndexChanged (int /* index */)
{
set_rig_invariants ();
}
void Configuration::impl::on_CAT_handshake_button_group_buttonClicked (int /* id */)
{
set_rig_invariants ();
}
void Configuration::impl::on_rig_combo_box_currentIndexChanged (int /* index */)
{
set_rig_invariants ();
}
void Configuration::impl::on_CAT_data_bits_button_group_buttonClicked (int /* id */)
{
set_rig_invariants ();
}
void Configuration::impl::on_CAT_stop_bits_button_group_buttonClicked (int /* id */)
{
set_rig_invariants ();
}
void Configuration::impl::on_CAT_poll_interval_spin_box_valueChanged (int /* value */)
{
set_rig_invariants ();
}
void Configuration::impl::on_split_mode_button_group_buttonClicked (int /* id */)
{
setup_split_ = true;
required_tx_frequency_ = 0;
}
void Configuration::impl::on_test_CAT_push_button_clicked ()
{
if (!validate ())
{
return;
}
ui_->test_CAT_push_button->setStyleSheet ({});
if (open_rig ())
{
Q_EMIT sync (true);
}
set_rig_invariants ();
}
void Configuration::impl::on_test_PTT_push_button_clicked ()
{
if (!validate ())
{
return;
}
Q_EMIT self_->transceiver_ptt ((ptt_state_ = !ptt_state_));
ui_->test_PTT_push_button->setStyleSheet (ptt_state_ ? "QPushButton{background-color: red;"
"border-style: outset; border-width: 1px; border-radius: 5px;"
"border-color: black; min-width: 5em; padding: 3px;}"
: "");
}
void Configuration::impl::on_CAT_control_lines_group_box_toggled (bool /* checked */)
{
set_rig_invariants ();
}
void Configuration::impl::on_CAT_DTR_check_box_toggled (bool /* checked */)
{
set_rig_invariants ();
}
void Configuration::impl::on_CAT_RTS_check_box_toggled (bool /* checked */)
{
set_rig_invariants ();
}
void Configuration::impl::on_PTT_method_button_group_buttonClicked (int /* id */)
{
set_rig_invariants ();
}
void Configuration::impl::on_callsign_line_edit_editingFinished ()
{
ui_->callsign_line_edit->setText (ui_->callsign_line_edit->text ().toUpper ());
}
void Configuration::impl::on_grid_line_edit_editingFinished ()
{
auto text = ui_->grid_line_edit->text ();
ui_->grid_line_edit->setText (text.left (4).toUpper () + text.mid (4).toLower ());
}
void Configuration::impl::on_sound_input_combo_box_currentTextChanged (QString const& text)
{
default_audio_input_device_selected_ = QAudioDeviceInfo::defaultInputDevice ().deviceName () == text;
}
void Configuration::impl::on_sound_output_combo_box_currentTextChanged (QString const& text)
{
default_audio_output_device_selected_ = QAudioDeviceInfo::defaultOutputDevice ().deviceName () == text;
}
void Configuration::impl::on_add_macro_line_edit_editingFinished ()
{
ui_->add_macro_line_edit->setText (ui_->add_macro_line_edit->text ().toUpper ());
}
void Configuration::impl::on_delete_macro_push_button_clicked (bool /* checked */)
{
auto selection_model = ui_->macros_list_view->selectionModel ();
if (selection_model->hasSelection ())
{
// delete all selected items
delete_selected_macros (selection_model->selectedRows ());
}
}
void Configuration::impl::delete_macro ()
{
auto selection_model = ui_->macros_list_view->selectionModel ();
if (!selection_model->hasSelection ())
{
// delete item under cursor if any
auto index = selection_model->currentIndex ();
if (index.isValid ())
{
next_macros_.removeRow (index.row ());
}
}
else
{
// delete the whole selection
delete_selected_macros (selection_model->selectedRows ());
}
}
void Configuration::impl::delete_selected_macros (QModelIndexList selected_rows)
{
// sort in reverse row order so that we can delete without changing
// indices underneath us
qSort (selected_rows.begin (), selected_rows.end (), [] (QModelIndex const& lhs, QModelIndex const& rhs)
{
return rhs.row () < lhs.row (); // reverse row ordering
});
// now delete them
Q_FOREACH (auto index, selected_rows)
{
next_macros_.removeRow (index.row ());
}
}
void Configuration::impl::on_add_macro_push_button_clicked (bool /* checked */)
{
if (next_macros_.insertRow (next_macros_.rowCount ()))
{
auto index = next_macros_.index (next_macros_.rowCount () - 1);
ui_->macros_list_view->setCurrentIndex (index);
next_macros_.setData (index, ui_->add_macro_line_edit->text ());
ui_->add_macro_line_edit->clear ();
}
}
void Configuration::impl::delete_frequencies ()
{
auto selection_model = ui_->frequencies_table_view->selectionModel ();
selection_model->select (selection_model->selection (), QItemSelectionModel::SelectCurrent | QItemSelectionModel::Rows);
next_frequencies_.removeDisjointRows (selection_model->selectedRows ());
}
void Configuration::impl::insert_frequency ()
{
if (QDialog::Accepted == frequency_dialog_->exec ())
{
ui_->frequencies_table_view->setCurrentIndex (next_frequencies_.add (frequency_dialog_->frequency ()));
}
}
void Configuration::impl::delete_stations ()
{
auto selection_model = ui_->stations_table_view->selectionModel ();
selection_model->select (selection_model->selection (), QItemSelectionModel::SelectCurrent | QItemSelectionModel::Rows);
next_stations_.removeDisjointRows (selection_model->selectedRows ());
}
void Configuration::impl::insert_station ()
{
if (QDialog::Accepted == station_dialog_->exec ())
{
ui_->stations_table_view->setCurrentIndex (next_stations_.add (station_dialog_->station ()));
}
}
void Configuration::impl::on_save_path_select_push_button_clicked (bool /* checked */)
{
QFileDialog fd {this, tr ("Save Directory"), ui_->save_path_display_label->text ()};
fd.setFileMode (QFileDialog::Directory);
fd.setOption (QFileDialog::ShowDirsOnly);
if (fd.exec ())
{
if (fd.selectedFiles ().size ())
{
ui_->save_path_display_label->setText (fd.selectedFiles ().at (0));
}
}
}
bool Configuration::impl::have_rig (bool open_if_closed)
{
if (open_if_closed && !rig_active_ && !open_rig ())
{
QMessageBox::critical (this, "WSJT-X", tr ("Failed to open connection to rig"));
}
return rig_active_;
}
bool Configuration::impl::open_rig ()
{
auto result = false;
try
{
close_rig ();
// create a new Transceiver object
TransceiverFactory::LineControl DTR {TransceiverFactory::no_control};
TransceiverFactory::LineControl RTS {TransceiverFactory::no_control};
if (ui_->CAT_control_lines_group_box->isChecked ())
{
DTR = ui_->CAT_DTR_check_box->isEnabled () && ui_->CAT_DTR_check_box->isChecked () ? TransceiverFactory::force_high : TransceiverFactory::force_low;
RTS = ui_->CAT_RTS_check_box->isEnabled () && ui_->CAT_RTS_check_box->isChecked () ? TransceiverFactory::force_high : TransceiverFactory::force_low;
}
auto rig = transceiver_factory_.create (ui_->rig_combo_box->currentText ()
, ui_->CAT_port_combo_box->currentText ()
, ui_->CAT_serial_baud_combo_box->currentText ().toInt ()
, static_cast<TransceiverFactory::DataBits> (ui_->CAT_data_bits_button_group->checkedId ())
, static_cast<TransceiverFactory::StopBits> (ui_->CAT_stop_bits_button_group->checkedId ())
, static_cast<TransceiverFactory::Handshake> (ui_->CAT_handshake_button_group->checkedId ())
, DTR
, RTS
, static_cast<TransceiverFactory::PTTMethod> (ui_->PTT_method_button_group->checkedId ())
, static_cast<TransceiverFactory::TXAudioSource> (ui_->TX_audio_source_button_group->checkedId ())
, static_cast<TransceiverFactory::SplitMode> (ui_->split_mode_button_group->checkedId ())
, ui_->PTT_port_combo_box->currentText ()
, ui_->CAT_poll_interval_spin_box->value () * 1000
, &transceiver_thread_
);
// hook up Configuration transceiver control signals to Transceiver slots
//
// these connections cross the thread boundary
connect (this, &Configuration::impl::frequency, rig.get (), &Transceiver::frequency);
connect (this, &Configuration::impl::tx_frequency, rig.get (), &Transceiver::tx_frequency);
connect (this, &Configuration::impl::mode, rig.get (), &Transceiver::mode);
connect (this, &Configuration::impl::ptt, rig.get (), &Transceiver::ptt);
connect (this, &Configuration::impl::sync, rig.get (), &Transceiver::sync);
// hook up Transceiver signals to Configuration signals
//
// these connections cross the thread boundary
connect (rig.get (), &Transceiver::update, this, &Configuration::impl::handle_transceiver_update);
connect (rig.get (), &Transceiver::failure, this, &Configuration::impl::handle_transceiver_failure);
// setup thread safe startup and close down semantics
connect (this, &Configuration::impl::stop_transceiver, rig.get (), &Transceiver::stop);
auto p = rig.release (); // take ownership
// schedule eventual destruction
//
// must be queued connection to avoid premature self-immolation
// since finished signal is going to be emitted from the object
// that will get destroyed in its own stop slot i.e. a same
// thread signal to slot connection which by default will be
// reduced to a method function call.
connect (p, &Transceiver::finished, p, &Transceiver::deleteLater, Qt::QueuedConnection);
ui_->test_CAT_push_button->setStyleSheet ({});
rig_active_ = true;
QTimer::singleShot (0, p, SLOT (start ())); // start rig on its thread
result = true;
}
catch (std::exception const& e)
{
handle_transceiver_failure (e.what ());
}
rig_changed_ = true;
return result;
}
void Configuration::impl::transceiver_frequency (Frequency f)
{
Transceiver::MODE mode {Transceiver::UNK};
switch (static_cast<DataMode> (ui_->TX_mode_button_group->checkedId ()))
{
case data_mode_USB: mode = Transceiver::USB; break;
case data_mode_data: mode = Transceiver::DIG_U; break;
case data_mode_none: break;
}
if (cached_rig_state_.frequency () != f
|| (mode != Transceiver::UNK && mode != cached_rig_state_.mode ()))
{
cached_rig_state_.frequency (f);
cached_rig_state_.mode (mode);
// lookup offset
transceiver_offset_ = stations_.offset (f);
Q_EMIT frequency (f + transceiver_offset_, mode);
}
}
// bool Configuration::impl::set_mode ()
// {
// // Some rigs change frequency when switching between some modes so
// // we need to check if we change mode and not elide the frequency
// // setting in the same as the cached frequency.
// bool mode_changed {false};
// auto data_mode = static_cast<DataMode> (ui_->TX_mode_button_group->checkedId ());
// // Set mode if we are responsible for it.
// if (data_mode_USB == data_mode && cached_rig_state_.mode () != Transceiver::USB)
// {
// if (Transceiver::USB != cached_rig_state_.mode ())
// {
// cached_rig_state_.mode (Transceiver::USB);
// Q_EMIT mode (Transceiver::USB, cached_rig_state_.split () && data_mode_none != data_mode_);
// mode_changed = true;
// }
// }
// if (data_mode_data == data_mode && cached_rig_state_.mode () != Transceiver::DIG_U)
// {
// if (Transceiver::DIG_U != cached_rig_state_.mode ())
// {
// cached_rig_state_.mode (Transceiver::DIG_U);
// Q_EMIT mode (Transceiver::DIG_U, cached_rig_state_.split () && data_mode_none != data_mode_);
// mode_changed = true;
// }
// }
// return mode_changed;
// }
void Configuration::impl::transceiver_tx_frequency (Frequency f)
{
if (/* set_mode () || */ cached_rig_state_.tx_frequency () != f || cached_rig_state_.split () != !!f)
{
cached_rig_state_.tx_frequency (f);
cached_rig_state_.split (f);
// lookup offset if we are in split mode
if (f)
{
transceiver_offset_ = stations_.offset (f);
f += transceiver_offset_;
}
// Rationalise TX VFO mode if we ask for split and are
// responsible for mode.
Q_EMIT tx_frequency (f, cached_rig_state_.split () && data_mode_none != data_mode_);
}
}
void Configuration::impl::transceiver_mode (MODE m)
{
if (cached_rig_state_.mode () != m)
{
cached_rig_state_.mode (m);
// Rationalise mode if we are responsible for it and in split mode.
Q_EMIT mode (m, cached_rig_state_.split () && data_mode_none != data_mode_);
}
}
void Configuration::impl::transceiver_ptt (bool on)
{
// set_mode ();
cached_rig_state_.ptt (on);
// pass this on regardless of cache
Q_EMIT ptt (on);
}
void Configuration::impl::sync_transceiver (bool force_signal)
{
// pass this on as cache must be ignored
Q_EMIT sync (force_signal);
}
void Configuration::impl::handle_transceiver_update (TransceiverState state)
{
#if WSJT_TRACE_CAT
qDebug () << "Configuration::handle_transceiver_update: Transceiver State:" << state;
#endif
if (state.online ())
{
TransceiverFactory::SplitMode split_mode_selected;
if (isVisible ())
{
ui_->test_CAT_push_button->setStyleSheet ("QPushButton {background-color: green;}");
auto const& rig = ui_->rig_combo_box->currentText ();
auto ptt_method = static_cast<TransceiverFactory::PTTMethod> (ui_->PTT_method_button_group->checkedId ());
auto CAT_PTT_enabled = transceiver_factory_.has_CAT_PTT (rig);
ui_->test_PTT_push_button->setEnabled ((TransceiverFactory::PTT_method_CAT == ptt_method && CAT_PTT_enabled)
|| TransceiverFactory::PTT_method_DTR == ptt_method
|| TransceiverFactory::PTT_method_RTS == ptt_method);
// set_mode ();
// Follow the setup choice.
split_mode_selected = static_cast<TransceiverFactory::SplitMode> (ui_->split_mode_button_group->checkedId ());
}
else
{
// Follow the rig unless configuration has been changed.
split_mode_selected = static_cast<TransceiverFactory::SplitMode> (rig_params_.split_mode_);
if (enforce_mode_and_split_)
{
if ((TransceiverFactory::split_mode_none != split_mode_selected) != state.split ())
{
if (!setup_split_)
{
// Rig split mode isn't consistent with settings so
// change settings.
//
// For rigs that can't report split mode changes
// (e.g.Icom) this is going to confuse operators, but
// what can we do if they change the rig?
// auto split_mode = state.split () ? TransceiverFactory::split_mode_rig : TransceiverFactory::split_mode_none;
// rig_params_.split_mode_ = split_mode;
// ui_->split_mode_button_group->button (split_mode)->setChecked (true);
// split_mode_selected = split_mode;
setup_split_ = true;
required_tx_frequency_ = 0;
// Q_EMIT self_->transceiver_failure (tr ("Rig split mode setting not consistent with WSJT-X settings. Changing WSJT-X settings for you."));
Q_EMIT self_->transceiver_failure (tr ("Rig split mode setting not consistent with WSJT-X settings."));
}
}
// set_mode ();
}
}
// One time rig setup split
if (setup_split_ && cached_rig_state_.split () != state.split ())
{
Q_EMIT tx_frequency (TransceiverFactory::split_mode_none != split_mode_selected ? (required_tx_frequency_ ? required_tx_frequency_ : state.tx_frequency ()) : 0, true);
}
setup_split_ = false;
required_tx_frequency_ = 0;
}
else
{
close_rig ();
}
cached_rig_state_ = state;
// take off offset
cached_rig_state_.frequency (cached_rig_state_.frequency () - transceiver_offset_);
if (cached_rig_state_.tx_frequency ())
{
cached_rig_state_.tx_frequency (cached_rig_state_.tx_frequency () - transceiver_offset_);
}
// pass on to clients
Q_EMIT self_->transceiver_update (cached_rig_state_);
}
void Configuration::impl::handle_transceiver_failure (QString reason)
{
#if WSJT_TRACE_CAT
qDebug () << "Configuration::handle_transceiver_failure: reason:" << reason;
#endif
close_rig ();
if (isVisible ())
{
message_box (tr ("Rig failure"), reason);
}
else
{
// pass on if our dialog isn't active
Q_EMIT self_->transceiver_failure (reason);
}
}
void Configuration::impl::close_rig ()
{
ui_->test_PTT_push_button->setStyleSheet ({});
ui_->test_PTT_push_button->setEnabled (false);
ptt_state_ = false;
// revert to no rig configured
if (rig_active_)
{
ui_->test_CAT_push_button->setStyleSheet ("QPushButton {background-color: red;}");
Q_EMIT stop_transceiver ();
rig_active_ = false;
}
}
// load the available audio devices into the selection combo box and
// select the default device if the current device isn't set or isn't
// available
bool Configuration::impl::load_audio_devices (QAudio::Mode mode, QComboBox * combo_box, QAudioDeviceInfo * device)
{
using std::copy;
using std::back_inserter;
bool result {false};
combo_box->clear ();
int current_index = -1;
int default_index = -1;
int extra_items {0};
auto const& default_device = (mode == QAudio::AudioInput ? QAudioDeviceInfo::defaultInputDevice () : QAudioDeviceInfo::defaultOutputDevice ());
// deal with special default audio devices on Windows
if ("Default Input Device" == default_device.deviceName ()
|| "Default Output Device" == default_device.deviceName ())
{
default_index = 0;
QList<QVariant> channel_counts;
auto scc = default_device.supportedChannelCounts ();
copy (scc.cbegin (), scc.cend (), back_inserter (channel_counts));
combo_box->addItem (default_device.deviceName (), channel_counts);
++extra_items;
if (default_device == *device)
{
current_index = 0;
result = true;
}
}
Q_FOREACH (auto const& p, QAudioDeviceInfo::availableDevices (mode))
{
// convert supported channel counts into something we can store in the item model
QList<QVariant> channel_counts;
auto scc = p.supportedChannelCounts ();
copy (scc.cbegin (), scc.cend (), back_inserter (channel_counts));
combo_box->addItem (p.deviceName (), channel_counts);
if (p == *device)
{
current_index = combo_box->count () - 1;
}
else if (p == default_device)
{
default_index = combo_box->count () - 1;
}
}
if (current_index < 0) // not found - use default
{
*device = default_device;
result = true;
current_index = default_index;
}
combo_box->setCurrentIndex (current_index);
return result;
}
// enable only the channels that are supported by the selected audio device
void Configuration::impl::update_audio_channels (QComboBox const * source_combo_box, int index, QComboBox * combo_box, bool allow_both)
{
// disable all items
for (int i (0); i < combo_box->count (); ++i)
{
combo_box->setItemData (i, combo_box_item_disabled, Qt::UserRole - 1);
}
Q_FOREACH (QVariant const& v, source_combo_box->itemData (index).toList ())
{
// enable valid options
int n {v.toInt ()};
if (2 == n)
{
combo_box->setItemData (AudioDevice::Left, combo_box_item_enabled, Qt::UserRole - 1);
combo_box->setItemData (AudioDevice::Right, combo_box_item_enabled, Qt::UserRole - 1);
if (allow_both)
{
combo_box->setItemData (AudioDevice::Both, combo_box_item_enabled, Qt::UserRole - 1);
}
}
else if (1 == n)
{
combo_box->setItemData (AudioDevice::Mono, combo_box_item_enabled, Qt::UserRole - 1);
}
}
}
void Configuration::impl::set_application_font (QFont const& font)
{
qApp->setStyleSheet (qApp->styleSheet () + "* {" + font_as_stylesheet (font) + '}');
}
// load all the supported rig names into the selection combo box
void Configuration::impl::enumerate_rigs ()
{
ui_->rig_combo_box->clear ();
auto rigs = transceiver_factory_.supported_transceivers ();
for (auto r = rigs.cbegin (); r != rigs.cend (); ++r)
{
if ("None" == r.key ())
{
// put None first
ui_->rig_combo_box->insertItem (0, r.key (), r.value ().model_number_);
}
else
{
ui_->rig_combo_box->addItem (r.key (), r.value ().model_number_);
}
}
ui_->rig_combo_box->setCurrentText (rig_params_.rig_name_);
}
void Configuration::impl::fill_port_combo_box (QComboBox * cb)
{
auto current_text = cb->currentText ();
cb->clear ();
Q_FOREACH (auto const& p, QSerialPortInfo::availablePorts ())
{
if (!p.portName ().contains ( "NULL" )) // virtual serial port pairs
{
// remove possibly confusing Windows device path (OK because
// it gets added back by Hamlib)
cb->addItem (p.systemLocation ().remove (QRegularExpression {R"(^\\\\\.\\)"}));
}
}
cb->addItem("USB");
cb->setEditText (current_text);
}
inline
bool operator != (RigParams const& lhs, RigParams const& rhs)
{
return
lhs.CAT_serial_port_ != rhs.CAT_serial_port_
|| lhs.CAT_network_port_ != rhs.CAT_network_port_
|| lhs.CAT_baudrate_ != rhs.CAT_baudrate_
|| lhs.CAT_data_bits_ != rhs.CAT_data_bits_
|| lhs.CAT_stop_bits_ != rhs.CAT_stop_bits_
|| lhs.CAT_handshake_ != rhs.CAT_handshake_
|| lhs.CAT_force_control_lines_ != rhs.CAT_force_control_lines_
|| lhs.CAT_DTR_high_ != rhs.CAT_DTR_high_
|| lhs.CAT_RTS_high_ != rhs.CAT_RTS_high_
|| lhs.CAT_poll_interval_ != rhs.CAT_poll_interval_
|| lhs.PTT_method_ != rhs.PTT_method_
|| lhs.PTT_port_ != rhs.PTT_port_
|| lhs.TX_audio_source_ != rhs.TX_audio_source_
|| lhs.split_mode_ != rhs.split_mode_
|| lhs.rig_name_ != rhs.rig_name_;
}
#if !defined (QT_NO_DEBUG_STREAM)
ENUM_QDEBUG_OPS_IMPL (Configuration, DataMode);
ENUM_QDEBUG_OPS_IMPL (Configuration, Type2MsgGen);
#endif
ENUM_QDATASTREAM_OPS_IMPL (Configuration, DataMode);
ENUM_QDATASTREAM_OPS_IMPL (Configuration, Type2MsgGen);
ENUM_CONVERSION_OPS_IMPL (Configuration, DataMode);
ENUM_CONVERSION_OPS_IMPL (Configuration, Type2MsgGen);