WSJT-X/Configuration.hpp
Bill Somerville c5c6feb41c 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

219 lines
6.7 KiB
C++

#ifndef CONFIGURATION_HPP_
#define CONFIGURATION_HPP_
#include <QObject>
#include "Radio.hpp"
#include "AudioDevice.hpp"
#include "Transceiver.hpp"
#include "pimpl_h.hpp"
class QSettings;
class QWidget;
class QAudioDeviceInfo;
class QString;
class QDir;
class QFont;
class Bands;
class FrequencyList;
class StationList;
class QStringListModel;
class QHostAddress;
//
// Class Configuration
//
// Encapsulates the control, access and, persistence of user defined
// settings for the wsjtx GUI. Setting values are accessed through a
// QDialog window containing concept orientated tab windows.
//
// Responsibilities
//
// Provides management of the CAT and PTT rig interfaces, providing
// control access via a minimal generic set of Qt slots and status
// updates via Qt signals. Internally the rig control capability is
// farmed out to a separate thread since many of the rig control
// functions are blocking.
//
// All user settings required by the wsjtx GUI are exposed through
// query methods. Settings only become visible once they have been
// accepted by the user which is done by clicking the "OK" button on
// the settings dialog.
//
// The QSettings instance passed to the constructor is used to read
// and write user settings.
//
// Pointers to three QAbstractItemModel objects are provided to give
// access to amateur band information, user working frequencies and,
// user operating band information. These porovide consistent data
// models that can be used in GUI lists or tables or simply queried
// for user defined bands, default operating frequencies and, station
// descriptions.
//
class Configuration final
: public QObject
{
Q_OBJECT;
Q_ENUMS (DataMode Type2MsgGen);
public:
using MODE = Transceiver::MODE;
using TransceiverState = Transceiver::TransceiverState;
using Frequency = Radio::Frequency;
using port_type = quint16;
enum DataMode {data_mode_none, data_mode_USB, data_mode_data};
enum Type2MsgGen {type_2_msg_1_full, type_2_msg_3_full, type_2_msg_5_only};
explicit Configuration (QSettings * settings, QWidget * parent = nullptr);
~Configuration ();
int exec ();
QDir temp_dir () const;
QDir doc_dir () const;
QAudioDeviceInfo const& audio_input_device () const;
AudioDevice::Channel audio_input_channel () const;
QAudioDeviceInfo const& audio_output_device () const;
AudioDevice::Channel audio_output_channel () const;
// These query methods should be used after a call to exec() to
// determine if either the audio input or audio output stream
// parameters have changed. The respective streams should be
// re-opened if they return true.
bool restart_audio_input () const;
bool restart_audio_output () const;
QString my_callsign () const;
QString my_grid () const;
QFont decoded_text_font () const;
qint32 id_interval () const;
bool id_after_73 () const;
bool tx_QSY_allowed () const;
bool spot_to_psk_reporter () const;
bool monitor_off_at_startup () const;
bool monitor_last_used () const;
bool log_as_RTTY () const;
bool report_in_comments () const;
bool prompt_to_log () const;
bool insert_blank () const;
bool DXCC () const;
bool clear_DX () const;
bool miles () const;
bool quick_call () const;
bool disable_TX_on_73 () const;
bool watchdog () const;
bool TX_messages () const;
bool split_mode () const;
bool post_decodes () const;
QString udp_server_name () const;
port_type udp_server_port () const;
bool accept_udp_requests () const;
bool udpWindowToFront () const;
bool udpWindowRestore () const;
Bands * bands ();
FrequencyList * frequencies ();
StationList * stations ();
QStringListModel * macros ();
QDir save_directory () const;
QString rig_name () const;
unsigned jt9w_bw_mult () const;
float jt9w_min_dt () const;
float jt9w_max_dt () const;
Type2MsgGen type_2_msg_gen () const;
QColor color_CQ () const;
QColor color_MyCall () const;
QColor color_TxMsg () const;
QColor color_DXCC () const;
QColor color_NewCall () const;
// This method queries if a CAT and PTT connection is operational,
//
// It also doubles as an initialisation method when the
// open_if_closed parameter is passed as true.
bool transceiver_online (bool open_if_closed = false);
// Close down connection to rig.
void transceiver_offline ();
// Set transceiver frequency in Hertz.
Q_SLOT void transceiver_frequency (Frequency);
// Setting a non zero TX frequency means split operation
// rationalise_mode means ensure TX uses same mode as RX.
Q_SLOT void transceiver_tx_frequency (Frequency = 0u);
// Set transceiver mode.
//
// Rationalise means ensure TX uses same mode as RX.
Q_SLOT void transceiver_mode (MODE);
// Set/unset PTT.
//
// Note that this must be called even if VOX PTT is selected since
// the "Emulate Split" mode requires PTT information to coordinate
// frequency changes.
Q_SLOT void transceiver_ptt (bool = true);
// Attempt to (re-)synchronise transceiver state.
//
// Force signal guarantees either a transceiver_update or a
// transceiver_failure signal.
//
// The enforce_mode_and_split parameter ensures that future
// transceiver updates have the correct mode and split setting
// i.e. the transceiver is ready for use.
Q_SLOT void sync_transceiver (bool force_signal = false, bool enforce_mode_and_split = false);
//
// This signal indicates that a font has been selected and accepted
// for the decoded text.
//
Q_SIGNAL void decoded_text_font_changed (QFont);
//
// This signal is emitted when the UDP server changes
//
Q_SIGNAL void udp_server_changed (QString const& udp_server);
Q_SIGNAL void udp_server_port_changed (port_type server_port);
//
// These signals are emitted and reflect transceiver state changes
//
// signals a change in one of the TransceiverState members
Q_SIGNAL void transceiver_update (Transceiver::TransceiverState) const;
// Signals a failure of a control rig CAT or PTT connection.
//
// A failed rig CAT or PTT connection is fatal and the underlying
// connections are closed automatically. The connections can be
// re-established with a call to transceiver_online(true) assuming
// the fault condition has been rectified or is transient.
Q_SIGNAL void transceiver_failure (QString reason) const;
private:
class impl;
pimpl<impl> m_;
};
Q_DECLARE_METATYPE (Configuration::DataMode);
Q_DECLARE_METATYPE (Configuration::Type2MsgGen);
#if !defined (QT_NO_DEBUG_STREAM)
ENUM_QDEBUG_OPS_DECL (Configuration, DataMode);
ENUM_QDEBUG_OPS_DECL (Configuration, Type2MsgGen);
#endif
ENUM_QDATASTREAM_OPS_DECL (Configuration, DataMode);
ENUM_QDATASTREAM_OPS_DECL (Configuration, Type2MsgGen);
ENUM_CONVERSION_OPS_DECL (Configuration, DataMode);
ENUM_CONVERSION_OPS_DECL (Configuration, Type2MsgGen);
#endif