WSJT-X/HRDTransceiver.hpp
Bill Somerville 4300b45e6a Set split mode before and after setting Tx frequency
Also cleaned up duplicate trace output.

Using the  DX Lab  Suite Commander  CAT interface  with rigs  like the
TS-2000  requires  that  split  mode  be set  after  changing  the  Tx
frequency. This  is because  setting teh  Tx frequency  disables split
mode.

With some Icom rigs  the rig must be in split  mode before setting the
Tx frequency otherwise the Tx frequency change will not be honoured.

To fix  this the sequence set-split,  set-tx-frequency, set-split must
always be used to change the Tx frequency.

Support for new DX Lab Suite Commander TCP/IP commands

Dave AA6YQ has added two new commands to the Commander server to allow
more reliable control.

Requires DX Lab Suite Commander 11.1.4 or later.

Ensure split Tx frequency agrees with UI before transmitting

Ensure split works on Yaesu via Hamlib without breaking others

Also improved class HamlibTransceiver debug trace messages.

Merged r4776-r4779 from wsjtx-1.4 branch.



git-svn-id: svn+ssh://svn.code.sf.net/p/wsjt/wsjt/branches/wsjtx@4780 ab8295b8-cf94-4d9e-aec4-7959e3be5d79
2014-12-06 20:23:29 +00:00

178 lines
6.5 KiB
C++

#ifndef HRD_TRANSCEIVER_HPP__
#define HRD_TRANSCEIVER_HPP__
#include <vector>
#include <tuple>
#include <memory>
#include <QScopedPointer>
#include <QString>
#include <QStringList>
#include "TransceiverFactory.hpp"
#include "PollingTransceiver.hpp"
class QRegExp;
class QTcpSocket;
//
// Ham Radio Deluxe Transceiver Interface
//
// Implemented as a Transceiver decorator because we may want the PTT
// services of another Transceiver type such as the HamlibTransceiver
// which can be enabled by wrapping a HamlibTransceiver instantiated
// as a "Hamlib Dummy" transceiver in the Transceiver factory method.
//
class HRDTransceiver final
: public PollingTransceiver
{
public:
static void register_transceivers (TransceiverFactory::Transceivers *, int id);
// takes ownership of wrapped Transceiver
explicit HRDTransceiver (std::unique_ptr<TransceiverBase> wrapped
, QString const& server
, bool use_for_ptt
, int poll_interval);
~HRDTransceiver ();
protected:
// Implement the TransceiverBase interface.
void do_start () override;
void do_stop () override;
void do_frequency (Frequency, MODE = UNK) override;
void do_tx_frequency (Frequency, bool rationalise_mode = true) override;
void do_mode (MODE, bool rationalise = true) override;
void do_ptt (bool on) override;
// Implement the PollingTransceiver interface.
void poll () override;
private:
QString send_command (QString const&, bool no_debug = false, bool prepend_context = true, bool recurse = false);
void send_simple_command (QString const&, bool no_debug = false);
bool write_to_port (char const *, qint64 length);
int find_button (QRegExp const&) const;
int find_dropdown (QRegExp const&) const;
std::vector<int> find_dropdown_selection (int dropdown, QRegExp const&) const;
int get_dropdown (int, bool no_debug = false);
void set_dropdown (int, int);
void set_button (int button_index, bool checked = true);
bool is_button_checked (int button_index, bool no_debug = false);
// This dictionary type maps Transceiver::MODE to a list of mode
// drop down selection indexes that equate to that mode. It is used
// to map internal MODE values to HRD drop down selections and vice
// versa.
using ModeMap = std::vector<std::tuple<MODE, std::vector<int> > >;
void map_modes (int dropdown, ModeMap *);
int lookup_mode (MODE, ModeMap const&) const;
MODE lookup_mode (int, ModeMap const&) const;
// An alternate TransceiverBase instance that can be used to drive
// PTT if required.
std::unique_ptr<TransceiverBase> wrapped_;
bool use_for_ptt_; // Use HRD for PTT.
QString server_; // The TCP/IP addrress and port for
// the HRD server.
QTcpSocket * hrd_; // The TCP/IP client that links to the
// HRD server.
enum {none, v4, v5} protocol_; // The HRD protocol that has been
// detected.
using RadioMap = std::vector<std::tuple<unsigned, QString> >;
RadioMap radios_; // Dictionary of available radios.
unsigned current_radio_; // The current addressed radio.
unsigned vfo_count_; // How many VFOs are supported.
QStringList buttons_; // The buttons available to click.
QStringList dropdown_names_; // The names of drop down selectors
// available.
QMap<QString, QStringList> dropdowns_; // Dictionary of available
// drop down selections.
QStringList slider_names_; // The name of available sliders.
QMap<QString, QStringList> sliders_; // Dictionary of available
// slider ranges.
int vfo_A_button_; // The button we use to select VFO
// A. May be -1 if none available.
int vfo_B_button_; // Index of button we use to select
// VFO B. May be -1 if none available.
int vfo_toggle_button_; // Index of button we use to toggle
// the VFOs. Use this if VFO A and VFO
// B selection are not available.
int mode_A_dropdown_; // Index of the mode drop down for VFO
// A.
ModeMap mode_A_map_; // The map of modes available for VFO
// A.
int mode_B_dropdown_; // The drop down index for VFO B mode
// setting. May be -1 if independent
// VFO mode setting not available.
ModeMap mode_B_map_; // The map of modes for VFO B.
int split_mode_button_; // Button to use to select split
// operation. May be -1 if no button
// is available.
int split_mode_dropdown_; // The drop down index that allows
// split mode to be turned on and
// off. May be -1 if no such drop down
// exists.
bool split_mode_dropdown_write_only_; // Some rigs cannot report
// split status.
std::vector<int> split_mode_dropdown_selection_on_; // The drop down
// selection to
// turn on
// split.
std::vector<int> split_mode_dropdown_selection_off_; // The drop
// down
// selection to
// disable
// split.
int split_off_button_; // The button to turn off split mode.
int tx_A_button_; // The button to transmit on VFO A.
int tx_B_button_; // The button to transmit on VFO B.
int rx_A_button_; // The button to receive on VFO A
// A. May be -1 if none available.
int rx_B_button_; // The button to receive on VFO B
// May be -1 if none available.
int receiver_dropdown_; // Select receiver
std::vector<int> rx_A_selection_;
std::vector<int> rx_B_selection_;
int ptt_button_; // The button to toggle PTT.
bool reversed_; // True if VFOs are reversed.
};
#endif