#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 // initialize_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 initialize_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 initialize_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 #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include "qt_helpers.hpp" #include "MetaDataRegistry.hpp" #include "SettingsGroup.hpp" #include "FrequencyLineEdit.hpp" #include "CandidateKeyFilter.hpp" #include "ForeignKeyDelegate.hpp" #include "TransceiverFactory.hpp" #include "Transceiver.hpp" #include "Bands.hpp" #include "Modes.hpp" #include "FrequencyList.hpp" #include "StationList.hpp" #include "NetworkServerLookup.hpp" #include "pimpl_impl.hpp" #include "ui_Configuration.h" #include "moc_Configuration.cpp" namespace { // 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 Item = FrequencyList::Item; explicit FrequencyDialog (Modes * modes_model, QWidget * parent = nullptr) : QDialog {parent} { setWindowTitle (QApplication::applicationName () + " - " + tr ("Add Frequency")); mode_combo_box_.setModel (modes_model); auto form_layout = new QFormLayout (); form_layout->addRow (tr ("&Mode:"), &mode_combo_box_); 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); } Item item () const { return {frequency_line_edit_.frequency (), Modes::value (mode_combo_box_.currentText ())}; } private: QComboBox mode_combo_box_; 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 {bands, stations, 0, 0}} { 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 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; } }; // 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 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 initialize_models (); bool open_rig (); //bool set_mode (); void close_rig (); TransceiverFactory::ParameterPack gather_rig_data (); 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 *); Frequency apply_calibration (Frequency) const; Frequency remove_calibration (Frequency) const; 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 (bool checked); 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 on_reset_frequencies_push_button_clicked (bool); 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 start_transceiver () const; 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_; QList rig_connections_; Ui::configuration_dialog * ui_; QSettings * settings_; QDir doc_dir_; QDir data_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_; Modes modes_; FrequencyList frequencies_; FrequencyList next_frequencies_; StationList stations_; StationList next_stations_; FrequencyDelta current_offset_; QAction * frequency_delete_action_; QAction * frequency_insert_action_; FrequencyDialog * frequency_dialog_; QAction * station_delete_action_; QAction * station_insert_action_; StationDialog * station_dialog_; TransceiverFactory::ParameterPack rig_params_; TransceiverFactory::ParameterPack saved_rig_params_; bool rig_is_dummy_; bool rig_active_; bool have_rig_; bool rig_changed_; TransceiverState cached_rig_state_; double frequency_calibration_intercept_; double frequency_calibration_slope_ppm_; // 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_; // 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_; bool enable_VHF_features_; bool decode_at_52s_; 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::data_dir () const {return m_->data_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_->rig_is_dummy_ || 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::enable_VHF_features () const {return m_->enable_VHF_features_;} bool Configuration::decode_at_52s () const {return m_->decode_at_52s_;} bool Configuration::split_mode () const { return !m_->rig_is_dummy_ and (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_;} Bands const * Configuration::bands () const {return &m_->bands_;} StationList * Configuration::stations () {return &m_->stations_;} StationList const * Configuration::stations () const {return &m_->stations_;} FrequencyList * Configuration::frequencies () {return &m_->frequencies_;} FrequencyList const * Configuration::frequencies () const {return &m_->frequencies_;} QStringListModel * Configuration::macros () {return &m_->macros_;} QStringListModel const * Configuration::macros () const {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} , doc_dir_ {QApplication::applicationDirPath ()} , data_dir_ {QApplication::applicationDirPath ()} , frequencies_ {&bands_} , next_frequencies_ {&bands_} , stations_ {&bands_} , next_stations_ {&bands_} , current_offset_ {0} , frequency_dialog_ {new FrequencyDialog {&modes_, 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} , 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 "." #define WSJT_DATA_DESTINATION "." #endif #if !defined (Q_OS_WIN) || QT_VERSION >= 0x050300 auto doc_path = QStandardPaths::locate (QStandardPaths::DataLocation, WSJT_DOC_DESTINATION, QStandardPaths::LocateDirectory); if (doc_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 (doc_path); } auto data_path = QStandardPaths::locate (QStandardPaths::DataLocation, WSJT_DATA_DESTINATION, QStandardPaths::LocateDirectory); if (data_path.isEmpty ()) { data_dir_.cdUp (); #if defined (Q_OS_MAC) data_dir_.cdUp (); data_dir_.cdUp (); #endif data_dir_.cd (WSJT_SHARE_DESTINATION); data_dir_.cd (WSJT_DATA_DESTINATION); } else { data_dir_.cd (data_path); } #else doc_dir_.cd (WSJT_DOC_DESTINATION); data_dir_.cd (WSJT_DATA_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::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 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 (&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 (&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 (FrequencyList::frequency_column); ui_->frequencies_table_view->setModel (&next_frequencies_); ui_->frequencies_table_view->sortByColumn (FrequencyList::frequency_column, Qt::AscendingOrder); ui_->frequencies_table_view->setColumnHidden (FrequencyList::frequency_mhz_column, true); // delegates auto frequencies_item_delegate = new QStyledItemDelegate {this}; frequencies_item_delegate->setItemEditorFactory (item_editor_factory ()); ui_->frequencies_table_view->setItemDelegate (frequencies_item_delegate); ui_->frequencies_table_view->setItemDelegateForColumn (FrequencyList::mode_column, new ForeignKeyDelegate {&modes_, 0, this}); // actions 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 (StationList::band_column); ui_->stations_table_view->setModel (&next_stations_); ui_->stations_table_view->sortByColumn (StationList::band_column, Qt::AscendingOrder); // delegates auto stations_item_delegate = new QStyledItemDelegate {this}; stations_item_delegate->setItemEditorFactory (item_editor_factory ()); ui_->stations_table_view->setItemDelegate (stations_item_delegate); ui_->stations_table_view->setItemDelegateForColumn (StationList::band_column, new ForeignKeyDelegate {&bands_, &next_stations_, 0, StationList::band_column, this}); // actions 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 (); initialize_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::initialize_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_type)->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_->enable_VHF_features_check_box->setChecked(enable_VHF_features_); ui_->decode_at_52s_check_box->setChecked(decode_at_52s_); 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_.baud)); ui_->CAT_data_bits_button_group->button (rig_params_.data_bits)->setChecked (true); ui_->CAT_stop_bits_button_group->button (rig_params_.stop_bits)->setChecked (true); ui_->CAT_handshake_button_group->button (rig_params_.handshake)->setChecked (true); ui_->CAT_control_lines_group_box->setChecked (rig_params_.force_line_control); ui_->CAT_DTR_check_box->setChecked (rig_params_.dtr_high); ui_->CAT_RTS_check_box->setChecked (rig_params_.rts_high); ui_->TX_audio_source_button_group->button (rig_params_.audio_source)->setChecked (true); ui_->CAT_poll_interval_spin_box->setValue (rig_params_.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_); ui_->calibration_intercept_spin_box->setValue (frequency_calibration_intercept_); ui_->calibration_slope_ppm_spin_box->setValue (frequency_calibration_slope_ppm_); 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_.frequency_list (frequencies_.frequency_list ()); next_stations_.station_list (stations_.station_list ()); 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 (); 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_.frequency_list (settings_->value ("frequencies").value ()); } stations_.station_list (settings_->value ("stations").value ()); 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_.network_port = settings_->value ("CATNetworkPort").toString (); rig_params_.serial_port = settings_->value ("CATSerialPort").toString (); rig_params_.baud = settings_->value ("CATSerialRate", 4800).toInt (); rig_params_.data_bits = settings_->value ("CATDataBits", QVariant::fromValue (TransceiverFactory::eight_data_bits)).value (); rig_params_.stop_bits = settings_->value ("CATStopBits", QVariant::fromValue (TransceiverFactory::two_stop_bits)).value (); rig_params_.handshake = settings_->value ("CATHandshake", QVariant::fromValue (TransceiverFactory::handshake_none)).value (); rig_params_.force_line_control = settings_->value ("CATForceControlLines", false).toBool (); rig_params_.dtr_high = settings_->value ("DTR", false).toBool (); rig_params_.rts_high = settings_->value ("RTS", false).toBool (); rig_params_.ptt_type = settings_->value ("PTTMethod", QVariant::fromValue (TransceiverFactory::PTT_method_VOX)).value (); rig_params_.audio_source = settings_->value ("TXAudioSource", QVariant::fromValue (TransceiverFactory::TX_audio_source_front)).value (); rig_params_.ptt_port = settings_->value ("PTTport").toString (); data_mode_ = settings_->value ("DataMode", QVariant::fromValue (data_mode_none)).value (); 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 (); enable_VHF_features_ = settings_->value("VHFUHF",false).toBool (); decode_at_52s_ = settings_->value("Decode52",false).toBool (); rig_params_.poll_interval = settings_->value ("Polling", 0).toInt (); rig_params_.split_mode = settings_->value ("SplitMode", QVariant::fromValue (TransceiverFactory::split_mode_none)).value (); udp_server_name_ = settings_->value ("UDPServer", "127.0.0.1").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 (); frequency_calibration_intercept_ = settings_->value ("CalibrationIntercept", 0.).toDouble (); frequency_calibration_slope_ppm_ = settings_->value ("CalibrationSlopePPM", 0.).toDouble (); } 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_type)); 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_.frequency_list ())); settings_->setValue ("stations", QVariant::fromValue (stations_.station_list ())); settings_->setValue ("toRTTY", log_as_RTTY_); settings_->setValue ("dBtoComments", report_in_comments_); settings_->setValue ("Rig", rig_params_.rig_name); settings_->setValue ("CATNetworkPort", rig_params_.network_port); settings_->setValue ("CATSerialPort", rig_params_.serial_port); settings_->setValue ("CATSerialRate", rig_params_.baud); settings_->setValue ("CATDataBits", QVariant::fromValue (rig_params_.data_bits)); settings_->setValue ("CATStopBits", QVariant::fromValue (rig_params_.stop_bits)); settings_->setValue ("CATHandshake", QVariant::fromValue (rig_params_.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_.force_line_control); settings_->setValue ("DTR", rig_params_.dtr_high); settings_->setValue ("RTS", rig_params_.rts_high); settings_->setValue ("TXAudioSource", QVariant::fromValue (rig_params_.audio_source)); settings_->setValue ("Polling", rig_params_.poll_interval); settings_->setValue ("SplitMode", QVariant::fromValue (rig_params_.split_mode)); settings_->setValue ("VHFUHF", enable_VHF_features_); settings_->setValue ("Decode52", decode_at_52s_); 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_); settings_->setValue ("CalibrationIntercept", frequency_calibration_intercept_); settings_->setValue ("CalibrationSlopePPM", frequency_calibration_slope_ppm_); } 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 (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 (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) { // makes no sense with rig as "None" ui_->monitor_last_used_check_box->setEnabled (false); ui_->CAT_control_group_box->setEnabled (false); ui_->test_CAT_push_button->setEnabled (false); ui_->test_PTT_push_button->setEnabled (TransceiverFactory::PTT_method_DTR == ptt_method || TransceiverFactory::PTT_method_RTS == ptt_method); ui_->TX_audio_source_group_box->setEnabled (false); ui_->mode_group_box->setEnabled (false); ui_->split_operation_group_box->setEnabled (false); } else { ui_->monitor_last_used_check_box->setEnabled (true); ui_->CAT_control_group_box->setEnabled (true); ui_->test_CAT_push_button->setEnabled (true); ui_->test_PTT_push_button->setEnabled (false); ui_->TX_audio_source_group_box->setEnabled (transceiver_factory_.has_CAT_PTT_mic_data (rig) && TransceiverFactory::PTT_method_CAT == ptt_method); ui_->mode_group_box->setEnabled (true); ui_->split_operation_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_.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->clear (); ui_->CAT_port_combo_box->setCurrentText (rig_params_.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->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 (); // 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 ptt_method = static_cast (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 ()); 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; initialize_models (); return QDialog::exec(); } TransceiverFactory::ParameterPack Configuration::impl::gather_rig_data () { TransceiverFactory::ParameterPack result; result.rig_name = ui_->rig_combo_box->currentText (); switch (transceiver_factory_.CAT_port_type (result.rig_name)) { case TransceiverFactory::Capabilities::network: result.network_port = ui_->CAT_port_combo_box->currentText (); result.serial_port = rig_params_.serial_port; break; default: result.serial_port = ui_->CAT_port_combo_box->currentText (); result.network_port = rig_params_.network_port; break; } result.baud = ui_->CAT_serial_baud_combo_box->currentText ().toInt (); result.data_bits = static_cast (ui_->CAT_data_bits_button_group->checkedId ()); result.stop_bits = static_cast (ui_->CAT_stop_bits_button_group->checkedId ()); result.handshake = static_cast (ui_->CAT_handshake_button_group->checkedId ()); result.force_line_control = ui_->CAT_control_lines_group_box->isChecked (); result.dtr_high = ui_->CAT_DTR_check_box->isChecked (); result.rts_high = ui_->CAT_RTS_check_box->isChecked (); result.poll_interval = ui_->CAT_poll_interval_spin_box->value (); result.ptt_type = static_cast (ui_->PTT_method_button_group->checkedId ()); result.ptt_port = ui_->PTT_port_combo_box->currentText (); result.audio_source = static_cast (ui_->TX_audio_source_button_group->checkedId ()); result.split_mode = static_cast (ui_->split_mode_button_group->checkedId ()); return result; } 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 auto temp_rig_params = gather_rig_data (); // 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 (ui_->sound_input_channel_combo_box->currentIndex ())) { audio_input_channel_ = static_cast (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 (ui_->sound_output_channel_combo_box->currentIndex ())) { audio_output_channel_ = static_cast (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 (ui_->jt9w_min_dt_double_spin_box->value ()); jt9w_max_dt_ = static_cast (ui_->jt9w_max_dt_double_spin_box->value ()); type_2_msg_gen_ = static_cast (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 (ui_->TX_mode_button_group->checkedId ()); save_directory_ = ui_->save_path_display_label->text (); enable_VHF_features_ = ui_->enable_VHF_features_check_box->isChecked (); decode_at_52s_ = ui_->decode_at_52s_check_box->isChecked (); frequency_calibration_intercept_ = ui_->calibration_intercept_spin_box->value (); frequency_calibration_slope_ppm_ = ui_->calibration_slope_ppm_spin_box->value (); 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_.frequency_list () != next_frequencies_.frequency_list ()) { frequencies_.frequency_list (next_frequencies_.frequency_list ()); frequencies_.sort (FrequencyList::frequency_column); } if (stations_.station_list () != next_stations_.station_list ()) { stations_.station_list(next_stations_.station_list ()); stations_.sort (StationList::band_column); } write_settings (); // make visible to all } void Configuration::impl::reject () { initialize_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 (bool checked) { ui_->test_PTT_push_button->setChecked (!checked); // let status // update check us if (!validate ()) { return; } if (open_rig ()) { Q_EMIT self_->transceiver_ptt (checked); } } 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 ()); ui_->frequencies_table_view->resizeColumnToContents (FrequencyList::mode_column); } void Configuration::impl::on_reset_frequencies_push_button_clicked (bool /* checked */) { if (QMessageBox::Yes == QMessageBox::question (this, tr ("Reset Working Frequencies") , tr ("Are you sure you want to discard your current " "working frequencies and replace them with default " "ones?"))) { next_frequencies_.reset_to_defaults (); } } void Configuration::impl::insert_frequency () { if (QDialog::Accepted == frequency_dialog_->exec ()) { ui_->frequencies_table_view->setCurrentIndex (next_frequencies_.add (frequency_dialog_->item ())); ui_->frequencies_table_view->resizeColumnToContents (FrequencyList::mode_column); } } 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 ()); ui_->stations_table_view->resizeColumnToContents (StationList::band_column); ui_->stations_table_view->resizeColumnToContents (StationList::offset_column); } void Configuration::impl::insert_station () { if (QDialog::Accepted == station_dialog_->exec ()) { ui_->stations_table_view->setCurrentIndex (next_stations_.add (station_dialog_->station ())); ui_->stations_table_view->resizeColumnToContents (StationList::band_column); ui_->stations_table_view->resizeColumnToContents (StationList::offset_column); } } 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 && !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; auto const rig_data = gather_rig_data (); if (!rig_active_ || rig_data != saved_rig_params_) { try { close_rig (); // create a new Transceiver object auto rig = transceiver_factory_.create (rig_data, &transceiver_thread_); // hook up Configuration transceiver control signals to Transceiver slots // // these connections cross the thread boundary rig_connections_ << connect (this, &Configuration::impl::frequency, rig.get (), &Transceiver::frequency); rig_connections_ << connect (this, &Configuration::impl::tx_frequency, rig.get (), &Transceiver::tx_frequency); rig_connections_ << connect (this, &Configuration::impl::mode, rig.get (), &Transceiver::mode); rig_connections_ << connect (this, &Configuration::impl::ptt, rig.get (), &Transceiver::ptt); rig_connections_ << 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 rig_connections_ << connect (this, &Configuration::impl::start_transceiver, rig.get (), &Transceiver::start); 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; Q_EMIT start_transceiver (); // start rig on its thread result = true; } catch (std::exception const& e) { handle_transceiver_failure (e.what ()); } saved_rig_params_ = rig_data; rig_changed_ = true; } else { result = true; } return result; } void Configuration::impl::transceiver_frequency (Frequency f) { Transceiver::MODE mode {Transceiver::UNK}; if (ui_->mode_group_box->isEnabled ()) { switch (static_cast (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); // apply any offset & calibration // we store the offset here for use in feedback from the rig, we // cannot absolutely determine if the offset should apply but by // simply picking an offset when the Rx frequency is set and // sticking to it we get sane behaviour current_offset_ = stations_.offset (f); Q_EMIT frequency (apply_calibration (f + current_offset_), mode); } } void Configuration::impl::transceiver_tx_frequency (Frequency f) { if (/* set_mode () || */ cached_rig_state_.tx_frequency () != f || !cached_rig_state_.compare_split (!!f)) { cached_rig_state_.split (f); cached_rig_state_.tx_frequency (f); // lookup offset and apply calibration if we are in split mode if (cached_rig_state_.split ()) { // apply and offset and calibration // we store the offset here for use in feedback from the // rig, we cannot absolutely determine if the offset should // apply but by simply picking an offset when the Rx // frequency is set and sticking to it we get sane behaviour current_offset_ = stations_.offset (f); f = apply_calibration (f + current_offset_); } // Rationalise TX VFO mode if we ask for split and are // responsible for mode. Q_EMIT tx_frequency (f, cached_rig_state_.split () && ui_->mode_group_box->isEnabled () && 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 () && ui_->mode_group_box->isEnabled () && data_mode_none != data_mode_); } } void Configuration::impl::transceiver_ptt (bool on) { 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 ()) { ui_->test_PTT_push_button->setChecked (state.ptt ()); 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 (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); // Follow the setup choice. split_mode_selected = static_cast (ui_->split_mode_button_group->checkedId ()); } else { // Follow the rig unless configuration has been changed. split_mode_selected = static_cast (rig_params_.split_mode); if (enforce_mode_and_split_) { if (TransceiverFactory::basic_transceiver_name_ != ui_->rig_combo_box->currentText () && ((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.")); if (cached_rig_state_.split () != state.split ()) { Q_EMIT self_->transceiver_failure (tr ("Rig split mode setting not consistent with WSJT-X settings.")); } } } } } // 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 && cached_rig_state_.split () ? (required_tx_frequency_ ? required_tx_frequency_ : state.tx_frequency ()) : 0, true); } setup_split_ = false; required_tx_frequency_ = 0; } else { close_rig (); } // take off calibration & offset state.frequency (remove_calibration (state.frequency ()) - current_offset_); if (state.tx_frequency ()) { // take off calibration & offset state.tx_frequency (remove_calibration (state.tx_frequency ()) - current_offset_); } cached_rig_state_ = state; // 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 (); ui_->test_PTT_push_button->setChecked (false); 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->setEnabled (false); // revert to no rig configured if (rig_active_) { ui_->test_CAT_push_button->setStyleSheet ("QPushButton {background-color: red;}"); Q_EMIT stop_transceiver (); Q_FOREACH (auto const& connection, rig_connections_) { disconnect (connection); } rig_connections_.clear (); 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 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 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); } auto Configuration::impl::apply_calibration (Frequency f) const -> Frequency { return std::llround (frequency_calibration_intercept_ + (1. + frequency_calibration_slope_ppm_ / 1.e6) * f); } auto Configuration::impl::remove_calibration (Frequency f) const -> Frequency { return std::llround ((f - frequency_calibration_intercept_) / (1. + frequency_calibration_slope_ppm_ / 1.e6)); } #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);