/**************************************************************************** * * (c) 2009-2016 QGROUNDCONTROL PROJECT * * QGroundControl is licensed according to the terms in the file * COPYING.md in the root of the source code directory. * ****************************************************************************/ import QtQuick 2.3 import QtQuick.Controls 1.2 import QtLocation 5.3 import QtPositioning 5.3 import QtQuick.Layouts 1.11 import QGroundControl 1.0 import QGroundControl.ScreenTools 1.0 import QGroundControl.Palette 1.0 import QGroundControl.Controls 1.0 import QGroundControl.FlightMap 1.0 /// Fixed Wing Landing Pattern map visuals Item { id: _root property var map ///< Map control to place item in signal clicked(int sequenceNumber) readonly property real _landingWidthMeters: 15 readonly property real _landingLengthMeters: 100 property var _missionItem: object property var _mouseArea property var _dragAreas: [ ] property var _flightPath property real _landingAreaBearing: _missionItem.landingCoordinate.azimuthTo(_missionItem.loiterTangentCoordinate) property var _loiterPointObject property var _landingPointObject property real _transitionAltitudeMeters property real _midSlopeAltitudeMeters property real _landingAltitudeMeters: _missionItem.landingAltitude.rawValue property real _loiterAltitudeMeters: _missionItem.loiterAltitude.rawValue function _calcGlideSlopeHeights() { var adjacent = _missionItem.landingCoordinate.distanceTo(_missionItem.loiterTangentCoordinate) var opposite = _loiterAltitudeMeters - _landingAltitudeMeters var angleRadians = Math.atan(opposite / adjacent) var transitionDistance = _landingLengthMeters / 2 var glideSlopeDistance = adjacent - transitionDistance _transitionAltitudeMeters = Math.tan(angleRadians) * (transitionDistance) _midSlopeAltitudeMeters = Math.tan(angleRadians) * (transitionDistance + (glideSlopeDistance / 2)) } function hideItemVisuals() { objMgr.destroyObjects() } function showItemVisuals() { if (objMgr.rgDynamicObjects.length === 0) { _loiterPointObject = objMgr.createObject(loiterPointComponent, map, true /* parentObjectIsMap */) _landingPointObject = objMgr.createObject(landingPointComponent, map, true /* parentObjectIsMap */) var rgComponents = [ flightPathComponent, loiterRadiusComponent, landingAreaComponent, landingAreaLabelComponent, glideSlopeComponent, glideSlopeLabelComponent, transitionHeightComponent, midGlideSlopeHeightComponent, approachHeightComponent ] objMgr.createObjects(rgComponents, map, true /* parentObjectIsMap */) } } function hideMouseArea() { if (_mouseArea) { _mouseArea.destroy() _mouseArea = undefined } } function showMouseArea() { if (!_mouseArea) { _mouseArea = mouseAreaComponent.createObject(map) map.addMapItem(_mouseArea) } } function hideDragAreas() { for (var i=0; i<_dragAreas.length; i++) { _dragAreas[i].destroy() } _dragAreas = [ ] } function showDragAreas() { if (_dragAreas.length === 0) { _dragAreas.push(loiterDragAreaComponent.createObject(map)) _dragAreas.push(landDragAreaComponent.createObject(map)) } } function _setFlightPath() { _flightPath = [ _missionItem.loiterTangentCoordinate, _missionItem.landingCoordinate ] } QGCDynamicObjectManager { id: objMgr } Component.onCompleted: { if (_missionItem.landingCoordSet) { showItemVisuals() if (!_missionItem.flyView && _missionItem.isCurrentItem) { showDragAreas() } _setFlightPath() } else if (!_missionItem.flyView && _missionItem.isCurrentItem) { showMouseArea() } } Component.onDestruction: { hideDragAreas() hideMouseArea() hideItemVisuals() } on_LandingAltitudeMetersChanged: _calcGlideSlopeHeights() on_LoiterAltitudeMetersChanged: _calcGlideSlopeHeights() Connections { target: _missionItem onIsCurrentItemChanged: { if (_missionItem.flyView) { return } if (_missionItem.isCurrentItem) { if (_missionItem.landingCoordSet) { showDragAreas() } else { showMouseArea() } } else { hideMouseArea() hideDragAreas() } } onLandingCoordSetChanged: { if (_missionItem.flyView) { return } if (_missionItem.landingCoordSet) { hideMouseArea() showItemVisuals() showDragAreas() _setFlightPath() } else if (_missionItem.isCurrentItem) { hideDragAreas() showMouseArea() } } onLandingCoordinateChanged: { _calcGlideSlopeHeights() _setFlightPath() } onLoiterTangentCoordinateChanged: { _calcGlideSlopeHeights() _setFlightPath() } } // Mouse area to capture landing point coordindate Component { id: mouseAreaComponent MouseArea { anchors.fill: map z: QGroundControl.zOrderMapItems + 1 // Over item indicators onClicked: { var coordinate = map.toCoordinate(Qt.point(mouse.x, mouse.y), false /* clipToViewPort */) coordinate.latitude = coordinate.latitude.toFixed(_decimalPlaces) coordinate.longitude = coordinate.longitude.toFixed(_decimalPlaces) coordinate.altitude = coordinate.altitude.toFixed(_decimalPlaces) _missionItem.landingCoordinate = coordinate } } } // Control which is used to drag the loiter point Component { id: loiterDragAreaComponent MissionItemIndicatorDrag { mapControl: _root.map itemIndicator: _loiterPointObject itemCoordinate: _missionItem.loiterCoordinate property bool _preventReentrancy: false onItemCoordinateChanged: { if (!_preventReentrancy) { if (Drag.active && _missionItem.loiterDragAngleOnly) { _preventReentrancy = true var angle = _missionItem.landingCoordinate.azimuthTo(itemCoordinate) var distance = _missionItem.landingCoordinate.distanceTo(_missionItem.loiterCoordinate) _missionItem.loiterCoordinate = _missionItem.landingCoordinate.atDistanceAndAzimuth(distance, angle) _preventReentrancy = false } else { _missionItem.loiterCoordinate = itemCoordinate } } } } } // Control which is used to drag the landing point Component { id: landDragAreaComponent MissionItemIndicatorDrag { mapControl: _root.map itemIndicator: _landingPointObject itemCoordinate: _missionItem.landingCoordinate onItemCoordinateChanged: _missionItem.landingCoordinate = itemCoordinate } } // Flight path Component { id: flightPathComponent MapPolyline { z: QGroundControl.zOrderMapItems - 1 // Under item indicators line.color: "#be781c" line.width: 2 path: _flightPath } } // Loiter point Component { id: loiterPointComponent MapQuickItem { anchorPoint.x: sourceItem.anchorPointX anchorPoint.y: sourceItem.anchorPointY z: QGroundControl.zOrderMapItems coordinate: _missionItem.loiterCoordinate sourceItem: MissionItemIndexLabel { index: _missionItem.sequenceNumber label: "Loiter" checked: _missionItem.isCurrentItem onClicked: _root.clicked(_missionItem.sequenceNumber) } } } // Landing point Component { id: landingPointComponent MapQuickItem { anchorPoint.x: sourceItem.anchorPointX anchorPoint.y: sourceItem.anchorPointY z: QGroundControl.zOrderMapItems coordinate: _missionItem.landingCoordinate sourceItem: MissionItemIndexLabel { index: _missionItem.sequenceNumber checked: _missionItem.isCurrentItem onClicked: _root.clicked(_missionItem.sequenceNumber) } } } Component { id: loiterRadiusComponent MapCircle { z: QGroundControl.zOrderMapItems center: _missionItem.loiterCoordinate radius: _missionItem.loiterRadius.rawValue border.width: 2 border.color: "green" color: "transparent" } } Component { id: landingAreaLabelComponent MapQuickItem { anchorPoint.x: sourceItem.contentWidth / 2 anchorPoint.y: sourceItem.contentHeight / 2 z: QGroundControl.zOrderMapItems coordinate: _missionItem.landingCoordinate visible: _missionItem.isCurrentItem sourceItem: QGCLabel { id: landingAreaLabel text: qsTr("Landing Area") color: "white" property real _rawBearing: _landingAreaBearing property real _adjustedBearing on_RawBearingChanged: { _adjustedBearing = _rawBearing if (_adjustedBearing > 180) { _adjustedBearing -= 180 } _adjustedBearing -= 90 if (_adjustedBearing < 0) { _adjustedBearing += 360 } } transform: Rotation { origin.x: landingAreaLabel.width / 2 origin.y: landingAreaLabel.height / 2 angle: landingAreaLabel._adjustedBearing } } } } Component { id: glideSlopeLabelComponent MapQuickItem { anchorPoint.x: sourceItem._rawBearing > 180 ? sourceItem.contentWidth : 0 anchorPoint.y: sourceItem.contentHeight / 2 z: QGroundControl.zOrderMapItems visible: _missionItem.isCurrentItem sourceItem: QGCLabel { id: glideSlopeLabel text: qsTr("Glide Slope") color: "white" property real _rawBearing: _landingAreaBearing property real _adjustedBearing on_RawBearingChanged: { _adjustedBearing = _rawBearing if (_adjustedBearing > 180) { _adjustedBearing -= 180 } _adjustedBearing -= 90 if (_adjustedBearing < 0) { _adjustedBearing += 360 } } transform: Rotation { origin.x: sourceItem._rawBearing > 180 ? sourceItem.contentWidth : 0 origin.y: glideSlopeLabel.contentHeight / 2 angle: glideSlopeLabel._adjustedBearing } } function recalc() { coordinate = _missionItem.landingCoordinate.atDistanceAndAzimuth(_landingLengthMeters / 2 + 2, _landingAreaBearing) } Component.onCompleted: recalc() Connections { target: _missionItem onLandingCoordinateChanged: recalc() onLoiterTangentCoordinateChanged: recalc() } } } Component { id: landingAreaComponent MapPolygon { z: QGroundControl.zOrderMapItems border.width: 1 border.color: "black" color: "green" opacity: 0.5 readonly property real angleRadians: Math.atan((_landingWidthMeters / 2) / (_landingLengthMeters / 2)) readonly property real angleDegrees: (angleRadians * (180 / Math.PI)) readonly property real hypotenuse: (_landingWidthMeters / 2) / Math.sin(angleRadians) function recalc() { path = [ ] addCoordinate(_missionItem.landingCoordinate.atDistanceAndAzimuth(hypotenuse, _landingAreaBearing - angleDegrees)) addCoordinate(_missionItem.landingCoordinate.atDistanceAndAzimuth(hypotenuse, _landingAreaBearing + angleDegrees)) addCoordinate(_missionItem.landingCoordinate.atDistanceAndAzimuth(hypotenuse, _landingAreaBearing + (180 - angleDegrees))) addCoordinate(_missionItem.landingCoordinate.atDistanceAndAzimuth(hypotenuse, _landingAreaBearing - (180 - angleDegrees))) } Component.onCompleted: recalc() Connections { target: _missionItem onLandingCoordinateChanged: recalc() onLoiterTangentCoordinateChanged: recalc() } } } Component { id: glideSlopeComponent MapPolygon { z: QGroundControl.zOrderMapItems border.width: 1 border.color: "black" color: "orange" opacity: 0.5 readonly property real angleRadians: Math.atan((_landingWidthMeters / 2) / (_landingLengthMeters / 2)) readonly property real angleDegrees: (angleRadians * (180 / Math.PI)) readonly property real hypotenuse: (_landingWidthMeters / 2) / Math.sin(angleRadians) function recalc() { path = [ ] addCoordinate(_missionItem.landingCoordinate.atDistanceAndAzimuth(hypotenuse, _landingAreaBearing - angleDegrees)) addCoordinate(_missionItem.landingCoordinate.atDistanceAndAzimuth(hypotenuse, _landingAreaBearing + angleDegrees)) addCoordinate(_missionItem.loiterTangentCoordinate) } Component.onCompleted: recalc() Connections { target: _missionItem onLandingCoordinateChanged: recalc() onLoiterTangentCoordinateChanged: recalc() } } } Component { id: transitionHeightComponent MapQuickItem { anchorPoint.x: sourceItem.width / 2 anchorPoint.y: 0 z: QGroundControl.zOrderMapItems visible: _missionItem.isCurrentItem sourceItem: HeightIndicator { heightText: Math.floor(QGroundControl.metersToAppSettingsDistanceUnits(_transitionAltitudeMeters)) + QGroundControl.appSettingsDistanceUnitsString + "*" } function recalc() { var centeredCoordinate = _missionItem.landingCoordinate.atDistanceAndAzimuth(_landingLengthMeters / 2, _landingAreaBearing) var angleIncrement = _landingAreaBearing > 180 ? -90 : 90 coordinate = centeredCoordinate.atDistanceAndAzimuth(_landingWidthMeters, _landingAreaBearing + angleIncrement) } Component.onCompleted: recalc() Connections { target: _missionItem onLandingCoordinateChanged: recalc() onLoiterTangentCoordinateChanged: recalc() } } } Component { id: midGlideSlopeHeightComponent MapQuickItem { anchorPoint.x: sourceItem.width / 2 anchorPoint.y: 0 z: QGroundControl.zOrderMapItems visible: _missionItem.isCurrentItem sourceItem: HeightIndicator { heightText: Math.floor(QGroundControl.metersToAppSettingsDistanceUnits(_midSlopeAltitudeMeters)) + QGroundControl.appSettingsDistanceUnitsString + "*" } function recalc() { var transitionCoordinate = _missionItem.landingCoordinate.atDistanceAndAzimuth(_landingLengthMeters / 2, _landingAreaBearing) var halfDistance = transitionCoordinate.distanceTo(_missionItem.loiterTangentCoordinate) / 2 var centeredCoordinate = transitionCoordinate.atDistanceAndAzimuth(halfDistance, _landingAreaBearing) var angleIncrement = _landingAreaBearing > 180 ? -90 : 90 coordinate = centeredCoordinate.atDistanceAndAzimuth(_landingWidthMeters / 2, _landingAreaBearing + angleIncrement) } Component.onCompleted: recalc() Connections { target: _missionItem onLandingCoordinateChanged: recalc() onLoiterTangentCoordinateChanged: recalc() } } } Component { id: approachHeightComponent MapQuickItem { anchorPoint.x: sourceItem.width / 2 anchorPoint.y: 0 z: QGroundControl.zOrderMapItems visible: _missionItem.isCurrentItem coordinate: _missionItem.loiterTangentCoordinate sourceItem: HeightIndicator { heightText: _missionItem.loiterAltitude.value.toFixed(1) + QGroundControl.appSettingsDistanceUnitsString } } } }