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sdrangel/plugins/feature/map/mapmodel.cpp

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///////////////////////////////////////////////////////////////////////////////////
// Copyright (C) 2021 Jon Beniston, M7RCE //
// //
// 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 as version 3 of the License, or //
// (at your option) any later version. //
// //
// 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 V3 for more details. //
// //
// You should have received a copy of the GNU General Public License //
// along with this program. If not, see <http://www.gnu.org/licenses/>. //
///////////////////////////////////////////////////////////////////////////////////
#include <QGeoRectangle>
#include "channel/channelwebapiutils.h"
#include "maincore.h"
#include "mapmodel.h"
#include "mapgui.h"
#include "map.h"
#include "SWGTargetAzimuthElevation.h"
MapItem::MapItem(const QObject *sourcePipe, const QString &group, MapSettings::MapItemSettings *itemSettings, SWGSDRangel::SWGMapItem *mapItem) :
m_altitude(0.0)
{
m_sourcePipe = sourcePipe;
m_group = group;
m_itemSettings = itemSettings;
m_name = *mapItem->getName();
update(mapItem);
}
void MapItem::update(SWGSDRangel::SWGMapItem *mapItem)
{
if (mapItem->getLabel()) {
m_label = *mapItem->getLabel();
} else {
m_label = "";
}
m_latitude = mapItem->getLatitude();
m_longitude = mapItem->getLongitude();
m_altitude = mapItem->getAltitude();
if (mapItem->getPositionDateTime()) {
m_positionDateTime = QDateTime::fromString(*mapItem->getPositionDateTime(), Qt::ISODateWithMs);
} else {
m_positionDateTime = QDateTime();
}
m_useHeadingPitchRoll = mapItem->getOrientation() == 1;
m_heading = mapItem->getHeading();
m_pitch = mapItem->getPitch();
m_roll = mapItem->getRoll();
if (mapItem->getOrientationDateTime()) {
m_orientationDateTime = QDateTime::fromString(*mapItem->getOrientationDateTime(), Qt::ISODateWithMs);
} else {
m_orientationDateTime = QDateTime();
}
m_image = *mapItem->getImage();
m_imageRotation = mapItem->getImageRotation();
QString *text = mapItem->getText();
if (text != nullptr) {
m_text = text->replace("\n", "<br>"); // Convert to HTML
} else {
m_text = "";
}
if (mapItem->getModel()) {
m_model = *mapItem->getModel();
} else {
m_model = "";
}
m_labelAltitudeOffset = mapItem->getLabelAltitudeOffset();
m_modelAltitudeOffset = mapItem->getModelAltitudeOffset();
m_altitudeReference = mapItem->getAltitudeReference();
m_fixedPosition = mapItem->getFixedPosition();
QList<SWGSDRangel::SWGMapAnimation *> *animations = mapItem->getAnimations();
if (animations)
{
for (auto animation : *animations) {
m_animations.append(new CesiumInterface::Animation(animation));
}
}
findFrequency();
updateTrack(mapItem->getTrack());
updatePredictedTrack(mapItem->getPredictedTrack());
}
QGeoCoordinate MapItem::getCoordinates()
{
QGeoCoordinate coords;
coords.setLatitude(m_latitude);
coords.setLongitude(m_longitude);
return coords;
}
void MapItem::findFrequency()
{
// Look for a frequency in the text for this object
QRegExp re("(([0-9]+(\\.[0-9]+)?) *([kMG])?Hz)");
if (re.indexIn(m_text) != -1)
{
QStringList capture = re.capturedTexts();
m_frequency = capture[2].toDouble();
if (capture.length() == 5)
{
QChar unit = capture[4][0];
if (unit == 'k')
m_frequency *= 1000.0;
else if (unit == 'M')
m_frequency *= 1000000.0;
else if (unit == 'G')
m_frequency *= 1000000000.0;
}
m_frequencyString = capture[0];
}
else
{
m_frequency = 0.0;
}
}
void MapItem::updateTrack(QList<SWGSDRangel::SWGMapCoordinate *> *track)
{
if (track != nullptr)
{
qDeleteAll(m_takenTrackCoords);
m_takenTrackCoords.clear();
qDeleteAll(m_takenTrackDateTimes);
m_takenTrackDateTimes.clear();
m_takenTrack.clear();
m_takenTrack1.clear();
m_takenTrack2.clear();
for (int i = 0; i < track->size(); i++)
{
SWGSDRangel::SWGMapCoordinate* p = track->at(i);
QGeoCoordinate *c = new QGeoCoordinate(p->getLatitude(), p->getLongitude(), p->getAltitude());
QDateTime *d = new QDateTime(QDateTime::fromString(*p->getDateTime(), Qt::ISODate));
m_takenTrackCoords.push_back(c);
m_takenTrackDateTimes.push_back(d);
m_takenTrack.push_back(QVariant::fromValue(*c));
}
}
else
{
// Automatically create a track
if (m_takenTrackCoords.size() == 0)
{
QGeoCoordinate *c = new QGeoCoordinate(m_latitude, m_longitude, m_altitude);
m_takenTrackCoords.push_back(c);
if (m_positionDateTime.isValid()) {
m_takenTrackDateTimes.push_back(new QDateTime(m_positionDateTime));
} else {
m_takenTrackDateTimes.push_back(new QDateTime(QDateTime::currentDateTime()));
}
m_takenTrack.push_back(QVariant::fromValue(*c));
}
else
{
QGeoCoordinate *prev = m_takenTrackCoords.last();
QDateTime *prevDateTime = m_takenTrackDateTimes.last();
if ((prev->latitude() != m_latitude) || (prev->longitude() != m_longitude)
|| (prev->altitude() != m_altitude) || (*prevDateTime != m_positionDateTime))
{
QGeoCoordinate *c = new QGeoCoordinate(m_latitude, m_longitude, m_altitude);
m_takenTrackCoords.push_back(c);
if (m_positionDateTime.isValid()) {
m_takenTrackDateTimes.push_back(new QDateTime(m_positionDateTime));
} else {
m_takenTrackDateTimes.push_back(new QDateTime(QDateTime::currentDateTime()));
}
m_takenTrack.push_back(QVariant::fromValue(*c));
}
}
}
}
void MapItem::updatePredictedTrack(QList<SWGSDRangel::SWGMapCoordinate *> *track)
{
if (track != nullptr)
{
qDeleteAll(m_predictedTrackCoords);
m_predictedTrackCoords.clear();
qDeleteAll(m_predictedTrackDateTimes);
m_predictedTrackDateTimes.clear();
m_predictedTrack.clear();
m_predictedTrack1.clear();
m_predictedTrack2.clear();
for (int i = 0; i < track->size(); i++)
{
SWGSDRangel::SWGMapCoordinate* p = track->at(i);
QGeoCoordinate *c = new QGeoCoordinate(p->getLatitude(), p->getLongitude(), p->getAltitude());
QDateTime *d = new QDateTime(QDateTime::fromString(*p->getDateTime(), Qt::ISODate));
m_predictedTrackCoords.push_back(c);
m_predictedTrackDateTimes.push_back(d);
m_predictedTrack.push_back(QVariant::fromValue(*c));
}
}
}
MapModel::MapModel(MapGUI *gui) :
m_gui(gui),
m_target(-1)
{
connect(this, &MapModel::dataChanged, this, &MapModel::update3DMap);
}
Q_INVOKABLE void MapModel::add(MapItem *item)
{
beginInsertRows(QModelIndex(), rowCount(), rowCount());
m_items.append(item);
m_selected.append(false);
endInsertRows();
}
void MapModel::update(const QObject *sourcePipe, SWGSDRangel::SWGMapItem *swgMapItem, const QString &group)
{
QString name = *swgMapItem->getName();
// Add, update or delete and item
MapItem *item = findMapItem(sourcePipe, name);
if (item != nullptr)
{
QString image = *swgMapItem->getImage();
if (image.isEmpty())
{
// Delete the item
remove(item);
// Need to call update, for it to be removed in 3D map
// Item is set to not be available from this point in time
// It will still be available if time is set in the past
item->update(swgMapItem);
}
else
{
// Update the item
item->update(swgMapItem);
splitTracks(item);
update(item);
}
}
else
{
// Make sure not a duplicate request to delete
QString image = *swgMapItem->getImage();
if (!image.isEmpty())
{
// Add new item
item = new MapItem(sourcePipe, group, m_gui->getItemSettings(group), swgMapItem);
add(item);
// Add to 3D Map (we don't appear to get a dataChanged signal when adding)
CesiumInterface *cesium = m_gui->cesium();
if (cesium) {
cesium->update(item, isTarget(item), isSelected3D(item));
}
playAnimations(item);
}
}
}
// Slot called on dataChanged signal, to update 3D map
void MapModel::update3DMap(const QModelIndex &topLeft, const QModelIndex &bottomRight, const QVector<int> &roles)
{
(void) roles;
CesiumInterface *cesium = m_gui->cesium();
if (cesium)
{
for (int row = topLeft.row(); row <= bottomRight.row(); row++)
{
cesium->update(m_items[row], isTarget(m_items[row]), isSelected3D(m_items[row]));
playAnimations(m_items[row]);
}
}
}
void MapModel::playAnimations(MapItem *item)
{
CesiumInterface *cesium = m_gui->cesium();
if (cesium)
{
for (auto animation : item->m_animations) {
m_gui->cesium()->playAnimation(item->m_name, animation);
}
}
qDeleteAll(item->m_animations);
item->m_animations.clear();
}
void MapModel::update(MapItem *item)
{
int row = m_items.indexOf(item);
if (row >= 0)
{
QModelIndex idx = index(row);
emit dataChanged(idx, idx);
if (row == m_target) {
updateTarget();
}
}
}
void MapModel::remove(MapItem *item)
{
int row = m_items.indexOf(item);
if (row >= 0)
{
beginRemoveRows(QModelIndex(), row, row);
m_items.removeAt(row);
m_selected.removeAt(row);
if (row == m_target) {
m_target = -1;
} else if (row < m_target) {
m_target--;
}
endRemoveRows();
}
}
void MapModel::allUpdated()
{
for (int i = 0; i < m_items.count(); i++)
{
// Updates both 2D and 3D Map
QModelIndex idx = index(i);
emit dataChanged(idx, idx);
}
}
void MapModel::removeAll()
{
if (m_items.count() > 0)
{
beginRemoveRows(QModelIndex(), 0, m_items.count());
m_items.clear();
m_selected.clear();
endRemoveRows();
}
}
// After new settings are deserialised, we need to update
// pointers to item settings for all existing items
void MapModel::updateItemSettings(QHash<QString, MapSettings::MapItemSettings *> m_itemSettings)
{
for (auto item : m_items) {
item->m_itemSettings = m_itemSettings[item->m_group];
}
}
void MapModel::updateTarget()
{
// Calculate range, azimuth and elevation to object from station
AzEl *azEl = m_gui->getAzEl();
azEl->setTarget(m_items[m_target]->m_latitude, m_items[m_target]->m_longitude, m_items[m_target]->m_altitude);
azEl->calculate();
// Send to Rotator Controllers
QList<ObjectPipe*> rotatorPipes;
MainCore::instance()->getMessagePipes().getMessagePipes(this, "target", rotatorPipes);
for (const auto& pipe : rotatorPipes)
{
MessageQueue *messageQueue = qobject_cast<MessageQueue*>(pipe->m_element);
SWGSDRangel::SWGTargetAzimuthElevation *swgTarget = new SWGSDRangel::SWGTargetAzimuthElevation();
swgTarget->setName(new QString(m_items[m_target]->m_name));
swgTarget->setAzimuth(azEl->getAzimuth());
swgTarget->setElevation(azEl->getElevation());
messageQueue->push(MainCore::MsgTargetAzimuthElevation::create(m_gui->getMap(), swgTarget));
}
}
void MapModel::setTarget(const QString& name)
{
if (name.isEmpty())
{
QModelIndex idx = index(-1);
setData(idx, QVariant(-1), MapModel::targetRole);
}
else
{
QModelIndex idx = findMapItemIndex(name);
setData(idx, QVariant(idx.row()), MapModel::targetRole);
}
}
bool MapModel::isTarget(const MapItem *mapItem) const
{
if (m_target < 0) {
return false;
} else {
return m_items[m_target] == mapItem;
}
}
// FIXME: This should use Z order - rather than adding/removing
// but I couldn't quite get it to work
Q_INVOKABLE void MapModel::moveToFront(int oldRow)
{
// Last item in list is drawn on top, so remove than add to end of list
if (oldRow < m_items.size() - 1)
{
bool wasTarget = m_target == oldRow;
MapItem *item = m_items[oldRow];
bool wasSelected = m_selected[oldRow];
remove(item);
add(item);
int newRow = m_items.size() - 1;
if (wasTarget) {
m_target = newRow;
}
m_selected[newRow] = wasSelected;
QModelIndex idx = index(newRow);
emit dataChanged(idx, idx);
}
}
Q_INVOKABLE void MapModel::moveToBack(int oldRow)
{
// First item in list is drawn first, so remove item then add to front of list
if ((oldRow < m_items.size()) && (oldRow > 0))
{
bool wasTarget = m_target == oldRow;
int newRow = 0;
// See: https://forum.qt.io/topic/122991/changing-the-order-mapquickitems-are-drawn-on-a-map
//QModelIndex parent;
//beginMoveRows(parent, oldRow, oldRow, parent, newRow);
beginResetModel();
m_items.move(oldRow, newRow);
m_selected.move(oldRow, newRow);
if (wasTarget) {
m_target = newRow;
} else if (m_target >= 0) {
m_target++;
}
//endMoveRows();
endResetModel();
//emit dataChanged(index(oldRow), index(newRow));
}
}
MapItem *MapModel::findMapItem(const QObject *source, const QString& name)
{
// FIXME: Should consider adding a QHash for this
QListIterator<MapItem *> i(m_items);
while (i.hasNext())
{
MapItem *item = i.next();
if ((item->m_name == name) && (item->m_sourcePipe == source))
return item;
}
return nullptr;
}
MapItem *MapModel::findMapItem(const QString& name)
{
QListIterator<MapItem *> i(m_items);
while (i.hasNext())
{
MapItem *item = i.next();
if (item->m_name == name)
return item;
}
return nullptr;
}
QModelIndex MapModel::findMapItemIndex(const QString& name)
{
int idx = 0;
QListIterator<MapItem *> i(m_items);
while (i.hasNext())
{
MapItem *item = i.next();
if (item->m_name == name) {
return index(idx);
}
idx++;
}
return index(-1);
}
int MapModel::rowCount(const QModelIndex &parent) const
{
Q_UNUSED(parent)
return m_items.count();
}
QVariant MapModel::data(const QModelIndex &index, int role) const
{
int row = index.row();
if ((row < 0) || (row >= m_items.count())) {
return QVariant();
}
if (role == MapModel::positionRole)
{
// Coordinates to display the item at
QGeoCoordinate coords;
coords.setLatitude(m_items[row]->m_latitude);
coords.setLongitude(m_items[row]->m_longitude);
return QVariant::fromValue(coords);
}
else if (role == MapModel::mapTextRole)
{
// Create the text to go in the bubble next to the image
QString name = m_items[row]->m_label.isEmpty() ? m_items[row]->m_name : m_items[row]->m_label;
if (row == m_target)
{
AzEl *azEl = m_gui->getAzEl();
QString text = QString("%1<br>Az: %2%5 El: %3%5 Dist: %4 km")
.arg(m_selected[row] ? m_items[row]->m_text : name)
.arg(std::round(azEl->getAzimuth()))
.arg(std::round(azEl->getElevation()))
.arg(std::round(azEl->getDistance() / 1000.0))
.arg(QChar(0xb0));
return QVariant::fromValue(text);
}
else if (m_selected[row])
{
return QVariant::fromValue(m_items[row]->m_text);
}
else
{
return QVariant::fromValue(name);
}
}
else if (role == MapModel::mapTextVisibleRole)
{
return QVariant::fromValue((m_selected[row] || m_displayNames) && m_items[row]->m_itemSettings->m_enabled && m_items[row]->m_itemSettings->m_display2DLabel);
}
else if (role == MapModel::mapImageVisibleRole)
{
return QVariant::fromValue(m_items[row]->m_itemSettings->m_enabled && m_items[row]->m_itemSettings->m_display2DIcon);
}
else if (role == MapModel::mapImageRole)
{
// Set an image to use
return QVariant::fromValue(m_items[row]->m_image);
}
else if (role == MapModel::mapImageRotationRole)
{
// Angle to rotate image by
return QVariant::fromValue(m_items[row]->m_imageRotation);
}
else if (role == MapModel::mapImageMinZoomRole)
{
// Minimum zoom level
//return QVariant::fromValue(m_items[row]->m_imageMinZoom);
return QVariant::fromValue(m_items[row]->m_itemSettings->m_2DMinZoom);
}
else if (role == MapModel::bubbleColourRole)
{
// Select a background colour for the text bubble next to the item
if (m_selected[row]) {
return QVariant::fromValue(QColor("lightgreen"));
} else {
return QVariant::fromValue(QColor("lightblue"));
}
}
else if (role == MapModel::selectedRole)
{
return QVariant::fromValue(m_selected[row]);
}
else if (role == MapModel::targetRole)
{
return QVariant::fromValue(m_target == row);
}
else if (role == MapModel::frequencyRole)
{
return QVariant::fromValue(m_items[row]->m_frequency);
}
else if (role == MapModel::frequencyStringRole)
{
return QVariant::fromValue(m_items[row]->m_frequencyString);
}
else if (role == MapModel::predictedGroundTrack1Role)
{
if ( (m_displayAllGroundTracks || (m_displaySelectedGroundTracks && m_selected[row]))
&& m_items[row]->m_itemSettings->m_enabled && m_items[row]->m_itemSettings->m_display2DTrack) {
return m_items[row]->m_predictedTrack1;
} else {
return QVariantList();
}
}
else if (role == MapModel::predictedGroundTrack2Role)
{
if ( (m_displayAllGroundTracks || (m_displaySelectedGroundTracks && m_selected[row]))
&& m_items[row]->m_itemSettings->m_enabled && m_items[row]->m_itemSettings->m_display2DTrack) {
return m_items[row]->m_predictedTrack2;
} else {
return QVariantList();
}
}
else if (role == MapModel::groundTrack1Role)
{
if ( (m_displayAllGroundTracks || (m_displaySelectedGroundTracks && m_selected[row]))
&& m_items[row]->m_itemSettings->m_enabled && m_items[row]->m_itemSettings->m_display2DTrack) {
return m_items[row]->m_takenTrack1;
} else {
return QVariantList();
}
}
else if (role == MapModel::groundTrack2Role)
{
if ( (m_displayAllGroundTracks || (m_displaySelectedGroundTracks && m_selected[row]))
&& m_items[row]->m_itemSettings->m_enabled && m_items[row]->m_itemSettings->m_display2DTrack) {
return m_items[row]->m_takenTrack2;
} else {
return QVariantList();
}
}
else if (role == groundTrackColorRole)
{
return QVariant::fromValue(QColor::fromRgb(m_items[row]->m_itemSettings->m_2DTrackColor));
}
else if (role == predictedGroundTrackColorRole)
{
return QVariant::fromValue(QColor::fromRgb(m_items[row]->m_itemSettings->m_2DTrackColor).lighter());
}
return QVariant();
}
bool MapModel::setData(const QModelIndex &idx, const QVariant& value, int role)
{
int row = idx.row();
if ((row < 0) || (row >= m_items.count()))
return false;
if (role == MapModel::selectedRole)
{
m_selected[row] = value.toBool();
emit dataChanged(idx, idx);
return true;
}
else if (role == MapModel::targetRole)
{
if (m_target >= 0)
{
// Update text bubble for old target
QModelIndex oldIdx = index(m_target);
m_target = -1;
emit dataChanged(oldIdx, oldIdx);
}
m_target = row;
updateTarget();
emit dataChanged(idx, idx);
return true;
}
return true;
}
Qt::ItemFlags MapModel::flags(const QModelIndex &index) const
{
(void) index;
return Qt::ItemIsEnabled | Qt::ItemIsSelectable | Qt::ItemIsEditable;
}
void MapModel::setDisplayNames(bool displayNames)
{
m_displayNames = displayNames;
allUpdated();
}
void MapModel::setDisplaySelectedGroundTracks(bool displayGroundTracks)
{
m_displaySelectedGroundTracks = displayGroundTracks;
allUpdated();
}
void MapModel::setDisplayAllGroundTracks(bool displayGroundTracks)
{
m_displayAllGroundTracks = displayGroundTracks;
allUpdated();
}
void MapModel::setFrequency(double frequency)
{
// Set as centre frequency
ChannelWebAPIUtils::setCenterFrequency(0, frequency);
}
void MapModel::track3D(int index)
{
if (index < m_items.count())
{
MapItem *item = m_items[index];
m_gui->track3D(item->m_name);
}
}
void MapModel::splitTracks(MapItem *item)
{
if (item->m_takenTrackCoords.size() > 1)
splitTrack(item->m_takenTrackCoords, item->m_takenTrack, item->m_takenTrack1, item->m_takenTrack2,
item->m_takenStart1, item->m_takenStart2, item->m_takenEnd1, item->m_takenEnd2);
if (item->m_predictedTrackCoords.size() > 1)
splitTrack(item->m_predictedTrackCoords, item->m_predictedTrack, item->m_predictedTrack1, item->m_predictedTrack2,
item->m_predictedStart1, item->m_predictedStart2, item->m_predictedEnd1, item->m_predictedEnd2);
}
void MapModel::interpolateEast(QGeoCoordinate *c1, QGeoCoordinate *c2, double x, QGeoCoordinate *ci, bool offScreen)
{
double x1 = c1->longitude();
double y1 = c1->latitude();
double x2 = c2->longitude();
double y2 = c2->latitude();
double y;
if (x2 < x1)
x2 += 360.0;
if (x < x1)
x += 360.0;
y = interpolate(x1, y1, x2, y2, x);
if (x > 180)
x -= 360.0;
if (offScreen)
x -= 0.000000001;
else
x += 0.000000001;
ci->setLongitude(x);
ci->setLatitude(y);
ci->setAltitude(c1->altitude());
}
void MapModel::interpolateWest(QGeoCoordinate *c1, QGeoCoordinate *c2, double x, QGeoCoordinate *ci, bool offScreen)
{
double x1 = c1->longitude();
double y1 = c1->latitude();
double x2 = c2->longitude();
double y2 = c2->latitude();
double y;
if (x2 > x1)
x2 -= 360.0;
if (x > x1)
x -= 360.0;
y = interpolate(x1, y1, x2, y2, x);
if (x < -180)
x += 360.0;
if (offScreen)
x += 0.000000001;
else
x -= 0.000000001;
ci->setLongitude(x);
ci->setLatitude(y);
ci->setAltitude(c1->altitude());
}
static bool isOnScreen(double lon, double bottomLeftLongitude, double bottomRightLongitude, double width, bool antimed)
{
bool onScreen = false;
if (width == 360)
onScreen = true;
else if (!antimed)
onScreen = (lon > bottomLeftLongitude) && (lon <= bottomRightLongitude);
else
onScreen = (lon > bottomLeftLongitude) || (lon <= bottomRightLongitude);
return onScreen;
}
static bool crossesAntimeridian(double prevLon, double lon)
{
bool crosses = false;
if ((prevLon > 90) && (lon < -90))
crosses = true; // West to East
else if ((prevLon < -90) && (lon > 90))
crosses = true; // East to West
return crosses;
}
static bool crossesAntimeridianEast(double prevLon, double lon)
{
bool crosses = false;
if ((prevLon > 90) && (lon < -90))
crosses = true; // West to East
return crosses;
}
static bool crossesAntimeridianWest(double prevLon, double lon)
{
bool crosses = false;
if ((prevLon < -90) && (lon > 90))
crosses = true; // East to West
return crosses;
}
static bool crossesEdge(double lon, double prevLon, double bottomLeftLongitude, double bottomRightLongitude)
{
// Determine if antimerdian is between the two points
if (!crossesAntimeridian(prevLon, lon))
{
bool crosses = false;
if ((prevLon <= bottomRightLongitude) && (lon > bottomRightLongitude))
crosses = true; // Crosses right edge East
else if ((prevLon >= bottomRightLongitude) && (lon < bottomRightLongitude))
crosses = true; // Crosses right edge West
else if ((prevLon >= bottomLeftLongitude) && (lon < bottomLeftLongitude))
crosses = true; // Crosses left edge West
else if ((prevLon <= bottomLeftLongitude) && (lon > bottomLeftLongitude))
crosses = true; // Crosses left edge East
return crosses;
}
else
{
// Determine which point and the edge the antimerdian is between
bool prevLonToRightCrossesAnti = crossesAntimeridianEast(prevLon, bottomRightLongitude);
bool rightToLonCrossesAnti = crossesAntimeridianEast(bottomRightLongitude, lon);
bool prevLonToLeftCrossesAnti = crossesAntimeridianWest(prevLon, bottomLeftLongitude);
bool leftToLonCrossesAnti = crossesAntimeridianWest(bottomLeftLongitude, lon);
bool crosses = false;
if ( ((prevLon > bottomRightLongitude) && prevLonToRightCrossesAnti && (lon > bottomRightLongitude))
|| ((prevLon <= bottomRightLongitude) && (lon <= bottomRightLongitude) && rightToLonCrossesAnti)
)
crosses = true; // Crosses right edge East
else if ( ((prevLon < bottomRightLongitude) && prevLonToRightCrossesAnti && (lon < bottomRightLongitude))
|| ((prevLon >= bottomRightLongitude) && (lon >= bottomRightLongitude) && rightToLonCrossesAnti)
)
crosses = true; // Crosses right edge West
else if ( ((prevLon < bottomLeftLongitude) && prevLonToLeftCrossesAnti && (lon < bottomLeftLongitude))
|| ((prevLon >= bottomLeftLongitude) && (lon >= bottomLeftLongitude) && leftToLonCrossesAnti)
)
crosses = true; // Crosses left edge West
else if ( ((prevLon > bottomLeftLongitude) && prevLonToLeftCrossesAnti && (lon > bottomLeftLongitude))
|| ((prevLon <= bottomLeftLongitude) && (lon <= bottomLeftLongitude) && leftToLonCrossesAnti)
)
crosses = true; // Crosses left edge East
return crosses;
}
}
void MapModel::interpolate(QGeoCoordinate *c1, QGeoCoordinate *c2, double bottomLeftLongitude, double bottomRightLongitude, QGeoCoordinate* ci, bool offScreen)
{
double x1 = c1->longitude();
double x2 = c2->longitude();
double crossesAnti = crossesAntimeridian(x1, x2);
double x;
// Need to work out which edge we're interpolating too
// and whether antimeridian is in the way, as that flips x1<x2 to x1>x2
if (((x1 < x2) && !crossesAnti) || ((x1 > x2) && crossesAnti))
{
x = offScreen ? bottomRightLongitude : bottomLeftLongitude;
interpolateEast(c1, c2, x, ci, offScreen);
}
else
{
x = offScreen ? bottomLeftLongitude : bottomRightLongitude;
interpolateWest(c1, c2, x, ci, offScreen);
}
}
void MapModel::splitTrack(const QList<QGeoCoordinate *>& coords, const QVariantList& track,
QVariantList& track1, QVariantList& track2,
QGeoCoordinate& start1, QGeoCoordinate& start2,
QGeoCoordinate& end1, QGeoCoordinate& end2)
{
/*
QStringList l;
for (int i = 0; i < track.size(); i++)
{
QGeoCoordinate c = track[i].value<QGeoCoordinate>();
l.append(QString("%1").arg((int)c.longitude()));
}
qDebug() << "Init T: " << l;
*/
QQuickItem* map = m_gui->getMapItem();
QVariant rectVariant;
QMetaObject::invokeMethod(map, "mapRect", Q_RETURN_ARG(QVariant, rectVariant));
QGeoRectangle rect = qvariant_cast<QGeoRectangle>(rectVariant);
double bottomLeftLongitude = rect.bottomLeft().longitude();
double bottomRightLongitude = rect.bottomRight().longitude();
int width = round(rect.width());
bool antimed = (width == 360) || (bottomLeftLongitude > bottomRightLongitude);
/*
qDebug() << "Anitmed visible: " << antimed;
qDebug() << "bottomLeftLongitude: " << bottomLeftLongitude;
qDebug() << "bottomRightLongitude: " << bottomRightLongitude;
*/
track1.clear();
track2.clear();
double lon, prevLon;
bool onScreen, prevOnScreen;
QList<QVariantList *> tracks({&track1, &track2});
QList<QGeoCoordinate *> ends({&end1, &end2});
QList<QGeoCoordinate *> starts({&start1, &start2});
int trackIdx = 0;
for (int i = 0; i < coords.size(); i++)
{
lon = coords[i]->longitude();
if (i == 0)
{
prevLon = lon;
prevOnScreen = true; // To avoid interpolation for first point
}
// Can be onscreen after having crossed edge from other side
// Or can be onscreen after previously having been off screen
onScreen = isOnScreen(lon, bottomLeftLongitude, bottomRightLongitude, width, antimed);
bool crossedEdge = crossesEdge(lon, prevLon, bottomLeftLongitude, bottomRightLongitude);
if ((onScreen && !crossedEdge) || (onScreen && !prevOnScreen))
{
if ((i > 0) && (tracks[trackIdx]->size() == 0)) // Could also use (onScreen && !prevOnScreen)?
{
if (trackIdx >= starts.size())
break;
// Interpolate from edge of screen
interpolate(coords[i-1], coords[i], bottomLeftLongitude, bottomRightLongitude, starts[trackIdx], false);
tracks[trackIdx]->append(QVariant::fromValue(*starts[trackIdx]));
}
tracks[trackIdx]->append(track[i]);
}
else if (tracks[trackIdx]->size() > 0)
{
// Either we've crossed to the other side, or have gone off screen
if (trackIdx >= ends.size())
break;
// Interpolate to edge of screen
interpolate(coords[i-1], coords[i], bottomLeftLongitude, bottomRightLongitude, ends[trackIdx], true);
tracks[trackIdx]->append(QVariant::fromValue(*ends[trackIdx]));
// Start new track
trackIdx++;
if (trackIdx >= tracks.size())
{
// This can happen with highly retrograde orbits, where trace 90% of period
// will cover more than 360 degrees - delete last point as Map
// will not be able to display it properly
tracks[trackIdx-1]->removeLast();
break;
}
if (onScreen)
{
// Interpolate from edge of screen
interpolate(coords[i-1], coords[i], bottomLeftLongitude, bottomRightLongitude, starts[trackIdx], false);
tracks[trackIdx]->append(QVariant::fromValue(*starts[trackIdx]));
tracks[trackIdx]->append(track[i]);
}
}
prevLon = lon;
prevOnScreen = onScreen;
}
/*
l.clear();
for (int i = 0; i < track1.size(); i++)
{
QGeoCoordinate c = track1[i].value<QGeoCoordinate>();
if (!c.isValid())
l.append("Invalid!");
else
l.append(QString("%1").arg(c.longitude(), 0, 'f', 1));
}
qDebug() << "T1: " << l;
l.clear();
for (int i = 0; i < track2.size(); i++)
{
QGeoCoordinate c = track2[i].value<QGeoCoordinate>();
if (!c.isValid())
l.append("Invalid!");
else
l.append(QString("%1").arg(c.longitude(), 0, 'f', 1));
}
qDebug() << "T2: " << l;
*/
}
void MapModel::viewChanged(double bottomLeftLongitude, double bottomRightLongitude)
{
(void) bottomRightLongitude;
if (!std::isnan(bottomLeftLongitude))
{
for (int row = 0; row < m_items.size(); row++)
{
MapItem *item = m_items[row];
if (item->m_takenTrackCoords.size() > 1)
{
splitTrack(item->m_takenTrackCoords, item->m_takenTrack, item->m_takenTrack1, item->m_takenTrack2,
item->m_takenStart1, item->m_takenStart2, item->m_takenEnd1, item->m_takenEnd2);
QModelIndex idx = index(row);
emit dataChanged(idx, idx);
}
if (item->m_predictedTrackCoords.size() > 1)
{
splitTrack(item->m_predictedTrackCoords, item->m_predictedTrack, item->m_predictedTrack1, item->m_predictedTrack2,
item->m_predictedStart1, item->m_predictedStart2, item->m_predictedEnd1, item->m_predictedEnd2);
QModelIndex idx = index(row);
emit dataChanged(idx, idx);
}
}
}
}
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