// Part of BNC, a utility for retrieving decoding and
// converting GNSS data streams from NTRIP broadcasters.
//
// Copyright (C) 2007
// German Federal Agency for Cartography and Geodesy (BKG)
// http://www.bkg.bund.de
// Czech Technical University Prague, Department of Geodesy
// http://www.fsv.cvut.cz
//
// Email: euref-ip@bkg.bund.de
//
// This program is free software; you can redistribute it and/or
// modify it under the terms of the GNU General Public License
// as published by the Free Software Foundation, version 2.
//
// This program is distributed in the hope that it will be useful,
// but WITHOUT ANY WARRANTY; without even the implied warranty of
// MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
// GNU General Public License for more details.
//
// You should have received a copy of the GNU General Public License
// along with this program; if not, write to the Free Software
// Foundation, Inc., 59 Temple Place - Suite 330, Boston, MA 02111-1307, USA.
/* -------------------------------------------------------------------------
* BKG NTRIP Client
* -------------------------------------------------------------------------
*
* Class: t_pppWidgets
*
* Purpose: This class stores widgets for PPP options
*
* Author: L. Mervart
*
* Created: 29-Jul-2014
*
* Changes:
*
* -----------------------------------------------------------------------*/
#include
#include
#include
#include
#include
#include
#include
#include
#include
#include "pppWidgets.h"
#include "qtfilechooser.h"
#include "bncsettings.h"
#include "bnccore.h"
using namespace std;
// Constructor
////////////////////////////////////////////////////////////////////////////
t_pppWidgets::t_pppWidgets() {
_dataSource = new QComboBox(); _dataSource ->setObjectName("PPP/dataSource"); _widgets << _dataSource;
_rinexObs = new qtFileChooser(); _rinexObs ->setObjectName("PPP/rinexObs"); _widgets << _rinexObs;
_rinexNav = new qtFileChooser(); _rinexNav ->setObjectName("PPP/rinexNav"); _widgets << _rinexNav;
_corrMount = new QLineEdit(); _corrMount ->setObjectName("PPP/corrMount"); _widgets << _corrMount;
_corrFile = new qtFileChooser(); _corrFile ->setObjectName("PPP/corrFile"); _widgets << _corrFile;
_crdFile = new qtFileChooser(); _crdFile ->setObjectName("PPP/crdFile"); _widgets << _crdFile;
_antexFile = new qtFileChooser(); _antexFile ->setObjectName("PPP/antexFile"); _widgets << _antexFile;
_blqFile = new qtFileChooser(); _blqFile ->setObjectName("PPP/blqFile"); _widgets << _blqFile;
_logPath = new QLineEdit(); _logPath ->setObjectName("PPP/logPath"); _widgets << _logPath;
_nmeaPath = new QLineEdit(); _nmeaPath ->setObjectName("PPP/nmeaPath"); _widgets << _nmeaPath;
_snxtroPath = new QLineEdit(); _snxtroPath ->setObjectName("PPP/snxtroPath"); _widgets << _snxtroPath;
_snxtroSampl = new QComboBox(); _snxtroSampl->setObjectName("PPP/snxtroSampl"); _widgets << _snxtroSampl;
_snxtroIntr = new QComboBox(); _snxtroIntr ->setObjectName("PPP/snxtroIntr"); _widgets << _snxtroIntr;
_snxtroAc = new QLineEdit(); _snxtroAc ->setObjectName("PPP/snxtroAc"); _widgets << _snxtroAc;
_snxtroSol = new QLineEdit(); _snxtroSol ->setObjectName("PPP/snxtroSol"); _widgets << _snxtroSol;
_v3filenames = new QCheckBox(); _v3filenames ->setObjectName("PPP/v3filenames"); _widgets << _v3filenames;
_staTable = new QTableWidget(); _staTable ->setObjectName("PPP/staTable"); _widgets << _staTable;
_lcGPS = new QComboBox(); _lcGPS ->setObjectName("PPP/lcGPS"); _widgets << _lcGPS;
_lcGLONASS = new QComboBox(); _lcGLONASS ->setObjectName("PPP/lcGLONASS"); _widgets << _lcGLONASS;
_lcGalileo = new QComboBox(); _lcGalileo ->setObjectName("PPP/lcGalileo"); _widgets << _lcGalileo;
_lcBDS = new QComboBox(); _lcBDS ->setObjectName("PPP/lcBDS"); _widgets << _lcBDS;
_modelObs = new QComboBox(); _modelObs ->setObjectName("PPP/modelObs"); _widgets << _modelObs;
_pseudoObs = new QComboBox(); _pseudoObs ->setObjectName("PPP/pseudoObs"); _widgets << _pseudoObs;
_sigmaC1 = new QLineEdit(); _sigmaC1 ->setObjectName("PPP/sigmaC1"); _widgets << _sigmaC1;
_sigmaL1 = new QLineEdit(); _sigmaL1 ->setObjectName("PPP/sigmaL1"); _widgets << _sigmaL1;
_maxResC1 = new QLineEdit(); _maxResC1 ->setObjectName("PPP/maxResC1"); _widgets << _maxResC1;
_maxResL1 = new QLineEdit(); _maxResL1 ->setObjectName("PPP/maxResL1"); _widgets << _maxResL1;
_minObs = new QSpinBox(); _minObs ->setObjectName("PPP/minObs"); _widgets << _minObs;
_minEle = new QSpinBox(); _minEle ->setObjectName("PPP/minEle"); _widgets << _minEle;
_eleWgtCode = new QCheckBox(); _eleWgtCode ->setObjectName("PPP/eleWgtCode"); _widgets << _eleWgtCode;
_eleWgtPhase = new QCheckBox(); _eleWgtPhase ->setObjectName("PPP/eleWgtPhase"); _widgets << _eleWgtPhase;
_seedingTime = new QLineEdit(); _seedingTime ->setObjectName("PPP/seedingTime"); _widgets << _seedingTime;
_corrWaitTime = new QSpinBox(); _corrWaitTime->setObjectName("PPP/corrWaitTime"); _widgets << _corrWaitTime;
_addStaButton = new QPushButton("Add Station"); _widgets << _addStaButton;
_delStaButton = new QPushButton("Delete Station"); _widgets << _delStaButton;
_addStaButton->setWhatsThis(tr("Hit the 'Add Station' button to add a new line to the Station table.
"));
_delStaButton->setWhatsThis(tr("Hit the 'Delete Station' button to delete a highlighted row from the Station table.
"));
_plotCoordinates = new QLineEdit; _plotCoordinates ->setObjectName("PPP/plotCoordinates"); _widgets << _plotCoordinates;
_mapWinButton = new QPushButton; _mapWinButton ->setObjectName("PPP/mapWinButton"); _widgets << _mapWinButton;
_useGoogleMap = new QRadioButton; _useGoogleMap ->setObjectName("PPP/useGoogleMap"); _widgets << _useGoogleMap;
_useOpenStreetMap = new QRadioButton; _useOpenStreetMap->setObjectName("PPP/useOpenStreetMap"); _widgets << _useOpenStreetMap;
_audioResponse = new QLineEdit; _audioResponse ->setObjectName("PPP/audioResponse"); _widgets << _audioResponse;
_mapWinDotSize = new QLineEdit; _mapWinDotSize ->setObjectName("PPP/mapWinDotSize"); _widgets << _mapWinDotSize;
_mapWinDotColor = new QComboBox; _mapWinDotColor ->setObjectName("PPP/mapWinDotColor"); _widgets << _mapWinDotColor;
_mapSpeedSlider = new QSlider; _mapSpeedSlider ->setObjectName("PPP/mapSpeedSlider"); _widgets << _mapSpeedSlider;
_dataSource->setEditable(false);
_dataSource->addItems(QString(",Real-Time Streams,RINEX Files").split(","));
connect(_dataSource, SIGNAL(currentIndexChanged(const QString&)), this, SLOT(slotEnableWidgets()));
connect(_modelObs, SIGNAL(currentIndexChanged(const QString&)), this, SLOT(slotEnableWidgets()));
connect(_snxtroPath, SIGNAL(textChanged(const QString &)), this, SLOT(slotPPPTextChanged()));
connect(_snxtroAc, SIGNAL(textChanged(const QString &)), this, SLOT(slotPPPTextChanged()));
connect(_snxtroSol, SIGNAL(textChanged(const QString &)), this, SLOT(slotPPPTextChanged()));
slotEnableWidgets();
_lcGPS->setEditable(false);
#ifdef USE_PPP_SSR_I
_lcGPS->addItems(QString("P3,P3&L3").split(","));
#else
_lcGPS->addItems(QString("no,Pi,Li,Pi&Li").split(","));
#endif
_lcGLONASS->setEditable(false);
#ifdef USE_PPP_SSR_I
_lcGLONASS->addItems(QString("no,P3,L3,P3&L3").split(","));
#else
_lcGLONASS->addItems(QString("no,Pi,Li,Pi&Li").split(","));
#endif
_lcGalileo->setEditable(false);
#ifdef USE_PPP_SSR_I
_lcGalileo->addItems(QString("no,P3,L3,P3&L3").split(","));
#else
_lcGalileo->addItems(QString("no,Pi,Li,Pi&Li").split(","));
#endif
_lcBDS->setEditable(false);
#ifdef USE_PPP_SSR_I
_lcBDS->addItems(QString("no,P3,L3,P3&L3").split(","));
#else
_lcBDS->addItems(QString("no,Pi,Li,Pi&Li").split(","));
#endif
_modelObs->setEditable(false);
_pseudoObs->setEditable(false);
#ifdef USE_PPP_SSR_I
_modelObs->addItems(QString("Ionosphere-free PPP").split(","));
_pseudoObs->addItems(QString("no").split(","));
#else
_modelObs->addItems(QString("Ionosphere-free PPP,Uncombined PPP,PPP-RTK,DCM with Code Biases,DCM with Phase Biases").split(","));
_pseudoObs->addItems(QString("no,Ionosphere,Iono+Tropo").split(","));
#endif
_snxtroSampl->setEditable(false);
_snxtroSampl->addItems(QString("1 sec,5 sec,10 sec,30 sec,60 sec,300 sec").split(","));
_snxtroIntr->setEditable(false);
_snxtroIntr->addItems(QString("1 min,2 min,5 min,10 min,15 min,30 min,1 hour,1 day").split(","));
_snxtroIntr->setCurrentIndex(6);
_minObs->setMinimum(4);
_minObs->setMaximum(6);
_minObs->setSingleStep(1);
_minEle->setMinimum(0);
_minEle->setMaximum(20);
_minEle->setSingleStep(1);
_minEle->setSuffix(" deg");
_corrWaitTime->setMinimum(0);
_corrWaitTime->setMaximum(20);
_corrWaitTime->setSingleStep(1);
_corrWaitTime->setSuffix(" sec");
_staTable->setColumnCount(10);
_staTable->setRowCount(0);
_staTable->setHorizontalHeaderLabels(
QString("Station,Sigma N,Sigma E,Sigma H,Noise N,Noise E,Noise H,Tropo Sigma,Tropo Noise, NMEA Port").split(","));
_staTable->setSelectionMode(QAbstractItemView::ExtendedSelection);
_staTable->setSelectionBehavior(QAbstractItemView::SelectRows);
#if QT_VERSION >= 0x050000
_staTable->horizontalHeader()->setSectionResizeMode(QHeaderView::Interactive);
#endif
_staTable->horizontalHeader()->setDefaultAlignment(Qt::AlignLeft);
connect(_addStaButton, SIGNAL(clicked()), this, SLOT(slotAddStation()));
connect(_delStaButton, SIGNAL(clicked()), this, SLOT(slotDelStation()));
_mapWinButton->setText("Open Map");
_mapWinDotColor->setEditable(false);
_mapWinDotColor->addItems(QString("red,yellow").split(","));
_mapSpeedSlider->setOrientation(Qt::Horizontal);
_mapSpeedSlider->setRange(1, 100);
_mapSpeedSlider->setTickPosition(QSlider::TicksBelow);
_mapSpeedSlider->setTickInterval(10);
connect(_mapSpeedSlider, SIGNAL(valueChanged(int)), BNC_CORE, SIGNAL(mapSpeedSliderChanged(int)));
// WhatsThis, PPP (2)
// ------------------
_staTable->setWhatsThis(tr("Specify values for Sigma and white Noise of the Stations North, East and Height coordinate components in meters. Specify also a Sigma in meters for a priori model based Tropospheric delays and a Sigma in meters per second for the delay's Noise.
Specifying one record per Station is mandatory. BNC will only process data for stations which are listed here. To define a station, specify the 'Mountpoint' when in 'Real-Time Streams' mode or the 4-character station ID when in 'RINEX Files' mode.
'Sigma' is meant to describe the uncertainty of a single coordinate or tropospheric delay estimated for one epoch. 'Noise' is meant to describe the variation of estimates from epoch to epoch.
- A Sigma of 100.0 meters may be an appropriate choice e.g. for the initial N/E/H coordinates. However, this value may be significantly smaller (i.e. 0.01) for stations with well-known a priori coordinates.
- A Noise of 100.0 meters for the estimated N/E/H coordinates may also be appropriate considering the potential movement of a rover position.
- A value of 0.1 meters may be an appropriate Sigma for the a priori model based Tropospheric delay estimation.
- Specify a Noise to describe the expected variation of the tropospheric effect over time. Supposing 1Hz observation data, specifying a value of 3e-6 would mean that the tropospheric effect may vary 3600 * 3e-6 = 0.01 meters per hour.
You can also specify a 'NMEA Port' to output coordinates in NMEA format through an IP port of your local host. [key: PPP/staTable]
"));
// WhatsThis, PPP (3)
// ------------------
_corrWaitTime->setWhatsThis(tr("Zero value means that BNC processes each epoch of data immediately after its arrival using satellite clock corrections available at that time.
Specifying a non-zero value (i.e. 5 sec) means that the epochs of data are buffered and the processing of each epoch is postponed till the satellite clock corrections not older than '5 sec' (example) become available. [key: PPP/corrWaitTime]
"));
_seedingTime->setWhatsThis(tr("
Enter the length of a startup period in seconds for which you want to fix the PPP solutions to known a priori coordinates as introduced through option 'Coordinates file'. Adjust 'Sigma N/E/H' in the PPP Stations table according to the coordinate's precision. Fixing a priori coordinates is done in BNC through setting 'Sigma N/E/H' temporarily to zero.
This option allows the PPP solution to rapidly converge. It requires that the antenna remains unmoved on the a priori known position throughout the startup period.
A value of 60 is likely to be an appropriate choice.
Default is an empty option field, meaning that you don't want BNC to fix PPP solutions during startup to an a priori coordinate. [key: PPP/seedingTime]
"));
// WhatsThis, PPP (4)
// ------------------
_plotCoordinates->setWhatsThis(tr("For one of your PPP Stations BNC can produce a time series plot of coordinate displacements in the 'PPP Plot' tab below. Specify a 'Mountpoint' (when in 'Real-Time Streams' mode) or the 4-character station ID (when in 'RINEX Files' mode) to define the station whose coordinate displacements you would like to see plotted.
Note that this option makes only sense for a stationary receiver with known a priori marker coordinates as specified through PPP option 'Coordinates file'.
Default is an empty option field, meaning that BNC shall not produce a time series plot of PPP coordinate displacements. [key: PPP/plotCoordinates]
"));
_audioResponse->setWhatsThis(tr("Specify an 'Audio response' threshold in meters. A beep is produced by BNC whenever a horizontal PPP coordinate component differs by more than the threshold value from the a priori marker coordinate.
Default is an empty option field, meaning that you don't want BNC to produce alarm signals. [key: PPP/audioResponse]
"));
_mapWinButton->setWhatsThis(tr("You may like to track your rover position using Google Maps or Open Street Map as a background map. A 'Track map' can be produced with BNC in 'Real-Time Streams' or 'RINEX files' PPP mode.
The 'Open Map' button opens a windows showing a map according to specified options.
Even in 'RINEX files' post processing mode you should not forget to specify a proxy under the 'Network' tab if that is operated in front of BNC because the program needs to download the map data.
"));
_useGoogleMap->setWhatsThis(tr("Specify Google Maps as the background for your rover positions. [key: PPP/useGoogleMap]
"));
_useOpenStreetMap->setWhatsThis(tr("Specify Open Street Map as the background for your rover positions. [key: PPP/useOpenStreetMap]
"));
_mapWinDotSize->setWhatsThis(tr("Specify the size of dots showing rover positions on the track map.
A dot size of '3' may be appropriate. The maximum possible dot size is '10'. An empty option field or a size of '0' would mean that you don't want BNC to show the rover's track on the map. [key: PPP/mapWinDotSize]
"));
_mapWinDotColor->setWhatsThis(tr("Specify the color of dots showing the rover track on the map. [key: PPP/mapWinDotColor]
"));
_mapSpeedSlider->setWhatsThis(tr("With BNC in 'RINEX files' PPP post processing mode you can specify the speed of computations as appropriate for 'Track map' visualization.
Note that you can adjust 'Post-processing speed' on-the-fly while BNC is already processing your observations. [key: PPP/mapSpeedSlider]
"));
readOptions();
}
//
////////////////////////////////////////////////////////////////////////////
t_pppWidgets::~t_pppWidgets() {
delete _dataSource;
delete _rinexObs;
delete _rinexNav;
delete _corrMount;
delete _corrFile;
delete _crdFile;
delete _antexFile;
delete _blqFile;
delete _logPath;
delete _nmeaPath;
delete _snxtroPath;
delete _snxtroSampl;
delete _snxtroIntr;
delete _snxtroAc;
delete _snxtroSol;
delete _v3filenames;
for (int iRow = _staTable->rowCount()-1; iRow >=0; iRow--) {
_staTable->removeRow(iRow);
}
delete _staTable;
delete _lcGPS;
delete _lcGLONASS;
delete _lcGalileo;
delete _lcBDS;
delete _modelObs;
delete _pseudoObs;
delete _sigmaC1;
delete _sigmaL1;
delete _maxResC1;
delete _maxResL1;
delete _minObs;
delete _minEle;
delete _eleWgtCode;
delete _eleWgtPhase;
delete _seedingTime;
delete _corrWaitTime;
delete _addStaButton;
delete _delStaButton;
delete _plotCoordinates;
delete _mapWinButton;
delete _useGoogleMap;
delete _useOpenStreetMap;
delete _audioResponse;
delete _mapWinDotSize;
delete _mapWinDotColor;
delete _mapSpeedSlider;
}
//
////////////////////////////////////////////////////////////////////////////
void t_pppWidgets::readOptions() {
bncSettings settings;
// ComboBoxes
// ----------
int ii = _dataSource->findText(settings.value(_dataSource->objectName()).toString());
if (ii != -1) {
_dataSource->setCurrentIndex(ii);
}
ii = _lcGPS->findText(settings.value(_lcGPS->objectName()).toString());
if (ii != -1) {
_lcGPS->setCurrentIndex(ii);
}
ii = _lcGLONASS->findText(settings.value(_lcGLONASS->objectName()).toString());
if (ii != -1) {
_lcGLONASS->setCurrentIndex(ii);
}
ii = _lcGalileo->findText(settings.value(_lcGalileo->objectName()).toString());
if (ii != -1) {
_lcGalileo->setCurrentIndex(ii);
}
ii = _lcBDS->findText(settings.value(_lcBDS->objectName()).toString());
if (ii != -1) {
_lcBDS->setCurrentIndex(ii);
}
ii = _modelObs->findText(settings.value(_modelObs->objectName()).toString());
if (ii != -1) {
_modelObs->setCurrentIndex(ii);
}
ii = _pseudoObs->findText(settings.value(_pseudoObs->objectName()).toString());
if (ii != -1) {
_pseudoObs->setCurrentIndex(ii);
}
ii = _snxtroIntr->findText(settings.value(_snxtroIntr->objectName()).toString());
if (ii != -1) {
_snxtroIntr->setCurrentIndex(ii);
}
// FileChoosers
// ------------
_rinexObs ->setFileName(settings.value(_rinexObs ->objectName()).toString());
_rinexNav ->setFileName(settings.value(_rinexNav ->objectName()).toString());
_corrFile ->setFileName(settings.value(_corrFile ->objectName()).toString());
_crdFile ->setFileName(settings.value(_crdFile ->objectName()).toString());
_antexFile->setFileName(settings.value(_antexFile->objectName()).toString());
_blqFile->setFileName(settings.value(_blqFile->objectName()).toString());
// LineEdits
// ---------
_corrMount ->setText(settings.value(_corrMount ->objectName()).toString());
_logPath ->setText(settings.value(_logPath ->objectName()).toString());
_nmeaPath ->setText(settings.value(_nmeaPath ->objectName()).toString());
_snxtroPath ->setText(settings.value(_snxtroPath ->objectName()).toString());
_snxtroAc ->setText(settings.value(_snxtroAc ->objectName()).toString());
_snxtroSol ->setText(settings.value(_snxtroSol ->objectName()).toString());
if (!settings.value(_sigmaC1->objectName()).toString().isEmpty()) {
_sigmaC1->setText(settings.value(_sigmaC1->objectName()).toString());
}
else {
_sigmaC1->setText("2.0");
}
if (!settings.value(_sigmaL1->objectName()).toString().isEmpty()) {
_sigmaL1->setText(settings.value(_sigmaL1->objectName()).toString());
}
else {
_sigmaL1->setText("0.01");
}
if (!settings.value(_maxResC1->objectName()).toString().isEmpty()) {
_maxResC1->setText(settings.value(_maxResC1->objectName()).toString());
}
else {
_maxResC1->setText("4.0");
}
if (!settings.value(_maxResL1->objectName()).toString().isEmpty()) {
_maxResL1->setText(settings.value(_maxResL1->objectName()).toString());
}
else {
_maxResL1->setText("0.03");
}
if (!settings.value(_seedingTime->objectName()).toString().isEmpty()) {
_seedingTime->setText(settings.value(_seedingTime->objectName()).toString());
}
else {
_seedingTime->setText("0");
}
// CheckBoxes
// ----------
_eleWgtCode ->setCheckState(Qt::CheckState(settings.value(_eleWgtCode ->objectName()).toInt()));
_eleWgtPhase->setCheckState(Qt::CheckState(settings.value(_eleWgtPhase->objectName()).toInt()));
_v3filenames->setCheckState(Qt::CheckState(settings.value(_v3filenames->objectName()).toInt()));
// SpinBoxex
// ---------
_minObs->setValue(settings.value(_minObs->objectName()).toInt());
_minEle->setValue(settings.value(_minEle->objectName()).toInt());
_corrWaitTime->setValue(settings.value(_corrWaitTime->objectName()).toInt());
ii = _snxtroSampl->findText(settings.value(_snxtroSampl->objectName()).toString());
if (ii != -1) {
_snxtroSampl->setCurrentIndex(ii);
}
// Table with stations
// -------------------
for (int iRow = _staTable->rowCount()-1; iRow >=0; iRow--) {
_staTable->removeRow(iRow);
}
int iRow = -1;
QListIterator it(settings.value(_staTable->objectName()).toStringList());
while (it.hasNext()) {
QStringList hlp = it.next().split(",");
++iRow;
_staTable->insertRow(iRow);
for (int iCol = 0; iCol < hlp.size(); iCol++) {
_staTable->setItem(iRow, iCol, new QTableWidgetItem(hlp[iCol]));
}
}
// Plots and Maps
// --------------
_plotCoordinates ->setText(settings.value(_plotCoordinates->objectName()).toString());
_audioResponse ->setText(settings.value(_audioResponse->objectName()).toString());
_useGoogleMap ->setChecked(settings.value(_useGoogleMap->objectName()).toBool());
_useOpenStreetMap->setChecked(settings.value(_useOpenStreetMap->objectName()).toBool());
_mapWinDotSize ->setText(settings.value(_mapWinDotSize->objectName()).toString());
ii = _mapWinDotColor->findText(settings.value(_mapWinDotColor->objectName()).toString());
if (ii != -1) {
_mapWinDotColor->setCurrentIndex(ii);
}
int speed = settings.value(_mapSpeedSlider->objectName()).toInt();
if (speed == 0) speed = _mapSpeedSlider->maximum();
_mapSpeedSlider->setSliderPosition(speed);
}
//
////////////////////////////////////////////////////////////////////////////
void t_pppWidgets::saveOptions() {
bncSettings settings;
settings.setValue(_dataSource ->objectName(), _dataSource ->currentText());
settings.setValue(_rinexObs ->objectName(), _rinexObs ->fileName());
settings.setValue(_rinexNav ->objectName(), _rinexNav ->fileName());
settings.setValue(_corrMount ->objectName(), _corrMount ->text());
settings.setValue(_corrFile ->objectName(), _corrFile ->fileName());
settings.setValue(_crdFile ->objectName(), _crdFile ->fileName());
settings.setValue(_antexFile ->objectName(), _antexFile ->fileName());
settings.setValue(_blqFile ->objectName(), _blqFile ->fileName());
settings.setValue(_logPath ->objectName(), _logPath ->text());
settings.setValue(_nmeaPath ->objectName(), _nmeaPath ->text());
settings.setValue(_snxtroPath ->objectName(), _snxtroPath ->text());
settings.setValue(_snxtroSampl ->objectName(), _snxtroSampl ->currentText());
settings.setValue(_snxtroIntr ->objectName(), _snxtroIntr ->currentText());
settings.setValue(_snxtroAc ->objectName(), _snxtroAc ->text());
settings.setValue(_snxtroSol ->objectName(), _snxtroSol ->text());
settings.setValue(_v3filenames ->objectName(), _v3filenames ->checkState());
settings.setValue(_lcGPS ->objectName(), _lcGPS ->currentText());
settings.setValue(_lcGLONASS ->objectName(), _lcGLONASS ->currentText());
settings.setValue(_lcGalileo ->objectName(), _lcGalileo ->currentText());
settings.setValue(_lcBDS ->objectName(), _lcBDS ->currentText());
settings.setValue(_modelObs ->objectName(), _modelObs ->currentText());
settings.setValue(_pseudoObs ->objectName(), _pseudoObs ->currentText());
settings.setValue(_sigmaC1 ->objectName(), _sigmaC1 ->text());
settings.setValue(_sigmaL1 ->objectName(), _sigmaL1 ->text());
settings.setValue(_corrWaitTime->objectName(), _corrWaitTime->value());
settings.setValue(_maxResC1 ->objectName(), _maxResC1 ->text());
settings.setValue(_maxResL1 ->objectName(), _maxResL1 ->text());
settings.setValue(_seedingTime ->objectName(), _seedingTime ->text());
settings.setValue(_minObs ->objectName(), _minObs ->value());
settings.setValue(_minEle ->objectName(), _minEle ->value());
settings.setValue(_eleWgtCode ->objectName(), _eleWgtCode ->checkState());
settings.setValue(_eleWgtPhase ->objectName(), _eleWgtPhase ->checkState());
QStringList staList;
for (int iRow = 0; iRow < _staTable->rowCount(); iRow++) {
QString hlp;
for (int iCol = 0; iCol < _staTable->columnCount(); iCol++) {
if (_staTable->item(iRow, iCol)) {
hlp += _staTable->item(iRow, iCol)->text() + ",";
}
}
if (!hlp.isEmpty()) {
staList << hlp;
}
}
settings.setValue(_staTable->objectName(), staList);
settings.setValue(_plotCoordinates ->objectName(), _plotCoordinates ->text());
settings.setValue(_audioResponse ->objectName(), _audioResponse ->text());
settings.setValue(_useGoogleMap ->objectName(), _useGoogleMap ->isChecked());
settings.setValue(_useOpenStreetMap->objectName(), _useOpenStreetMap->isChecked());
settings.setValue(_mapWinDotSize ->objectName(), _mapWinDotSize ->text());
settings.setValue(_mapWinDotColor ->objectName(), _mapWinDotColor ->currentText());
settings.setValue(_mapSpeedSlider ->objectName(), _mapSpeedSlider ->value());
}
//
////////////////////////////////////////////////////////////////////////////
void t_pppWidgets::slotEnableWidgets() {
const static QPalette paletteWhite(QColor(255, 255, 255));
const static QPalette paletteGray(QColor(230, 230, 230));
bool allDisabled = _dataSource->currentText() == "";
bool realTime = _dataSource->currentText() == "Real-Time Streams";
bool rinexFiles = _dataSource->currentText() == "RINEX Files";
bool enablePseudoObs;
if (_modelObs->currentText() == "PPP-RTK" ||
_modelObs->currentText() == "Ionosphere-free PPP") {
enablePseudoObs = false;
}
else {
enablePseudoObs = true;
}
QListIterator it(_widgets);
while (it.hasNext()) {
QWidget* widget = it.next();
widget->setEnabled(!allDisabled);
}
if (realTime) {
_rinexObs->setEnabled(false);
_rinexNav->setEnabled(false);
_corrFile->setEnabled(false);
}
else if (rinexFiles) {
_corrMount ->setEnabled(false);
_audioResponse->setEnabled(false);
}
if ( _snxtroPath->text() != "" && !allDisabled) {
_snxtroSampl->setEnabled(true);
_snxtroIntr ->setEnabled(true);
_snxtroAc ->setEnabled(true);
_snxtroSol ->setEnabled(true);
}
else {
_snxtroSampl->setEnabled(false);
_snxtroIntr ->setEnabled(false);
_snxtroAc ->setEnabled(false);
_snxtroSol ->setEnabled(false);
}
if (enablePseudoObs) {
_pseudoObs->setEnabled(true);
} else {
_pseudoObs->setEnabled(false);
}
_dataSource->setEnabled(true);
it.toFront();
while (it.hasNext()) {
QWidget* widget = it.next();
if (widget->isEnabled()) {
widget->setPalette(paletteWhite);
}
else {
widget->setPalette(paletteGray);
}
}
}
//
////////////////////////////////////////////////////////////////////////////
void t_pppWidgets::slotAddStation() {
int iRow = _staTable->rowCount();
_staTable->insertRow(iRow);
for (int iCol = 0; iCol < _staTable->columnCount(); iCol++) {
if (iCol == 0) _staTable->setItem(iRow, iCol, new QTableWidgetItem(""));
if (iCol == 1) _staTable->setItem(iRow, iCol, new QTableWidgetItem("100.0"));
if (iCol == 2) _staTable->setItem(iRow, iCol, new QTableWidgetItem("100.0"));
if (iCol == 3) _staTable->setItem(iRow, iCol, new QTableWidgetItem("100.0"));
if (iCol == 4) _staTable->setItem(iRow, iCol, new QTableWidgetItem("100.0"));
if (iCol == 5) _staTable->setItem(iRow, iCol, new QTableWidgetItem("100.0"));
if (iCol == 6) _staTable->setItem(iRow, iCol, new QTableWidgetItem("100.0"));
if (iCol == 7) _staTable->setItem(iRow, iCol, new QTableWidgetItem("0.1"));
if (iCol == 8) _staTable->setItem(iRow, iCol, new QTableWidgetItem("3e-6"));
if (iCol == 9) _staTable->setItem(iRow, iCol, new QTableWidgetItem("0"));
}
}
//
////////////////////////////////////////////////////////////////////////////
void t_pppWidgets::slotDelStation() {
int nRows = _staTable->rowCount();
bool flg[nRows];
for (int iRow = 0; iRow < nRows; iRow++) {
if (_staTable->isItemSelected(_staTable->item(iRow,1))) {
flg[iRow] = true;
}
else {
flg[iRow] = false;
}
}
for (int iRow = nRows-1; iRow >= 0; iRow--) {
if (flg[iRow]) {
_staTable->removeRow(iRow);
}
}
}
// PPP Text
////////////////////////////////////////////////////////////////////////////
void t_pppWidgets::slotPPPTextChanged(){
const static QPalette paletteWhite(QColor(255, 255, 255));
const static QPalette paletteGray(QColor(230, 230, 230));
// SNX TRO file sampling
// ---------------------
if (sender() == 0 || sender() == _snxtroPath) {
if ( _snxtroPath->text() != "" ) {
_snxtroSampl->setEnabled(true);
_snxtroIntr ->setEnabled(true);
_snxtroAc ->setEnabled(true);
_snxtroSol ->setEnabled(true);
_snxtroSampl->setPalette(paletteWhite);
_snxtroIntr ->setPalette(paletteWhite);
_snxtroAc ->setPalette(paletteWhite);
_snxtroSol ->setPalette(paletteWhite);
}
else {
_snxtroSampl->setEnabled(false);
_snxtroIntr ->setEnabled(false);
_snxtroAc ->setEnabled(false);
_snxtroSol ->setEnabled(false);
_snxtroSampl->setPalette(paletteGray);
_snxtroIntr ->setPalette(paletteGray);
_snxtroAc ->setPalette(paletteGray);
_snxtroSol ->setPalette(paletteGray);
}
}
}