SurveyComplexItem.cc 60.3 KB
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/****************************************************************************
 *
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 * (c) 2009-2020 QGROUNDCONTROL PROJECT <http://www.qgroundcontrol.org>
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 *
 * QGroundControl is licensed according to the terms in the file
 * COPYING.md in the root of the source code directory.
 *
 ****************************************************************************/


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#include "SurveyComplexItem.h"
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#include "JsonHelper.h"
#include "MissionController.h"
#include "QGCGeo.h"
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#include "QGCQGeoCoordinate.h"
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#include "SettingsManager.h"
#include "AppSettings.h"
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#include "PlanMasterController.h"
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#include "QGCApplication.h"
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#include <QPolygonF>

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QGC_LOGGING_CATEGORY(SurveyComplexItemLog, "SurveyComplexItemLog")

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const QString SurveyComplexItem::name(tr("Survey"));

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const char* SurveyComplexItem::jsonComplexItemTypeValue =   "survey";
const char* SurveyComplexItem::jsonV3ComplexItemTypeValue = "survey";

const char* SurveyComplexItem::settingsGroup =              "Survey";
const char* SurveyComplexItem::gridAngleName =              "GridAngle";
const char* SurveyComplexItem::gridEntryLocationName =      "GridEntryLocation";
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const char* SurveyComplexItem::flyAlternateTransectsName =  "FlyAlternateTransects";
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const char* SurveyComplexItem::splitConcavePolygonsName =   "SplitConcavePolygons";
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const char* SurveyComplexItem::_jsonGridAngleKey =          "angle";
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const char* SurveyComplexItem::_jsonEntryPointKey =         "entryLocation";
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const char* SurveyComplexItem::_jsonV3GridObjectKey =                   "grid";
const char* SurveyComplexItem::_jsonV3GridAltitudeKey =                 "altitude";
const char* SurveyComplexItem::_jsonV3GridAltitudeRelativeKey =         "relativeAltitude";
const char* SurveyComplexItem::_jsonV3GridAngleKey =                    "angle";
const char* SurveyComplexItem::_jsonV3GridSpacingKey =                  "spacing";
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const char* SurveyComplexItem::_jsonV3EntryPointKey =                   "entryLocation";
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const char* SurveyComplexItem::_jsonV3TurnaroundDistKey =               "turnAroundDistance";
const char* SurveyComplexItem::_jsonV3CameraTriggerDistanceKey =        "cameraTriggerDistance";
const char* SurveyComplexItem::_jsonV3CameraTriggerInTurnaroundKey =    "cameraTriggerInTurnaround";
const char* SurveyComplexItem::_jsonV3HoverAndCaptureKey =              "hoverAndCapture";
const char* SurveyComplexItem::_jsonV3GroundResolutionKey =             "groundResolution";
const char* SurveyComplexItem::_jsonV3FrontalOverlapKey =               "imageFrontalOverlap";
const char* SurveyComplexItem::_jsonV3SideOverlapKey =                  "imageSideOverlap";
const char* SurveyComplexItem::_jsonV3CameraSensorWidthKey =            "sensorWidth";
const char* SurveyComplexItem::_jsonV3CameraSensorHeightKey =           "sensorHeight";
const char* SurveyComplexItem::_jsonV3CameraResolutionWidthKey =        "resolutionWidth";
const char* SurveyComplexItem::_jsonV3CameraResolutionHeightKey =       "resolutionHeight";
const char* SurveyComplexItem::_jsonV3CameraFocalLengthKey =            "focalLength";
const char* SurveyComplexItem::_jsonV3CameraMinTriggerIntervalKey =     "minTriggerInterval";
const char* SurveyComplexItem::_jsonV3CameraObjectKey =                 "camera";
const char* SurveyComplexItem::_jsonV3CameraNameKey =                   "name";
const char* SurveyComplexItem::_jsonV3ManualGridKey =                   "manualGrid";
const char* SurveyComplexItem::_jsonV3CameraOrientationLandscapeKey =   "orientationLandscape";
const char* SurveyComplexItem::_jsonV3FixedValueIsAltitudeKey =         "fixedValueIsAltitude";
const char* SurveyComplexItem::_jsonV3Refly90DegreesKey =               "refly90Degrees";
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const char* SurveyComplexItem::_jsonFlyAlternateTransectsKey =          "flyAlternateTransects";
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const char* SurveyComplexItem::_jsonSplitConcavePolygonsKey =           "splitConcavePolygons";
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SurveyComplexItem::SurveyComplexItem(PlanMasterController* masterController, bool flyView, const QString& kmlOrShpFile, QObject* parent)
    : TransectStyleComplexItem  (masterController, flyView, settingsGroup, parent)
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    , _metaDataMap              (FactMetaData::createMapFromJsonFile(QStringLiteral(":/json/Survey.SettingsGroup.json"), this))
    , _gridAngleFact            (settingsGroup, _metaDataMap[gridAngleName])
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    , _flyAlternateTransectsFact(settingsGroup, _metaDataMap[flyAlternateTransectsName])
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    , _splitConcavePolygonsFact (settingsGroup, _metaDataMap[splitConcavePolygonsName])
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    , _entryPoint               (EntryLocationTopLeft)
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{
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    _editorQml = "qrc:/qml/SurveyItemEditor.qml";

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    // If the user hasn't changed turnaround from the default (which is a fixed wing default) and we are multi-rotor set the multi-rotor default.
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    // NULL check since object creation during unit testing passes NULL for vehicle
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    if (_controllerVehicle && _controllerVehicle->multiRotor() && _turnAroundDistanceFact.rawValue().toDouble() == _turnAroundDistanceFact.rawDefaultValue().toDouble()) {
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        // Note this is set to 10 meters to work around a problem with PX4 Pro turnaround behavior. Don't change unless firmware gets better as well.
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        _turnAroundDistanceFact.setRawValue(10);
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    }
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    if (_controllerVehicle && !(_controllerVehicle->fixedWing() || _controllerVehicle->vtol())) {
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        // Only fixed wing flight paths support alternate transects
        _flyAlternateTransectsFact.setRawValue(false);
    }

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    // We override the altitude to the mission default
    if (_cameraCalc.isManualCamera() || !_cameraCalc.valueSetIsDistance()->rawValue().toBool()) {
        _cameraCalc.distanceToSurface()->setRawValue(qgcApp()->toolbox()->settingsManager()->appSettings()->defaultMissionItemAltitude()->rawValue());
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    }

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    connect(&_gridAngleFact,            &Fact::valueChanged,                        this, &SurveyComplexItem::_setDirty);
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    connect(&_flyAlternateTransectsFact,&Fact::valueChanged,                        this, &SurveyComplexItem::_setDirty);
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    connect(&_splitConcavePolygonsFact, &Fact::valueChanged,                        this, &SurveyComplexItem::_setDirty);
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    connect(this,                       &SurveyComplexItem::refly90DegreesChanged,  this, &SurveyComplexItem::_setDirty);
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    connect(&_gridAngleFact,            &Fact::valueChanged,                        this, &SurveyComplexItem::_rebuildTransects);
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    connect(&_flyAlternateTransectsFact,&Fact::valueChanged,                        this, &SurveyComplexItem::_rebuildTransects);
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    connect(&_splitConcavePolygonsFact, &Fact::valueChanged,                        this, &SurveyComplexItem::_rebuildTransects);
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    connect(this,                       &SurveyComplexItem::refly90DegreesChanged,  this, &SurveyComplexItem::_rebuildTransects);
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    connect(&_surveyAreaPolygon,        &QGCMapPolygon::isValidChanged,             this, &SurveyComplexItem::_updateWizardMode);
    connect(&_surveyAreaPolygon,        &QGCMapPolygon::traceModeChanged,           this, &SurveyComplexItem::_updateWizardMode);

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    if (!kmlOrShpFile.isEmpty()) {
        _surveyAreaPolygon.loadKMLOrSHPFile(kmlOrShpFile);
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        _surveyAreaPolygon.setDirty(false);
    }
    setDirty(false);
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}

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void SurveyComplexItem::save(QJsonArray&  planItems)
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{
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    QJsonObject saveObject;
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    _saveWorker(saveObject);
    planItems.append(saveObject);
}

void SurveyComplexItem::savePreset(const QString& name)
{
    QJsonObject saveObject;

    _saveWorker(saveObject);
    _savePresetJson(name, saveObject);
}

void SurveyComplexItem::_saveWorker(QJsonObject& saveObject)
{
    TransectStyleComplexItem::_save(saveObject);
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    saveObject[JsonHelper::jsonVersionKey] =                    5;
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    saveObject[VisualMissionItem::jsonTypeKey] =                VisualMissionItem::jsonTypeComplexItemValue;
    saveObject[ComplexMissionItem::jsonComplexItemTypeKey] =    jsonComplexItemTypeValue;
    saveObject[_jsonGridAngleKey] =                             _gridAngleFact.rawValue().toDouble();
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    saveObject[_jsonFlyAlternateTransectsKey] =                 _flyAlternateTransectsFact.rawValue().toBool();
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    saveObject[_jsonSplitConcavePolygonsKey] =                  _splitConcavePolygonsFact.rawValue().toBool();
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    saveObject[_jsonEntryPointKey] =                            _entryPoint;
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    // Polygon shape
    _surveyAreaPolygon.saveToJson(saveObject);
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}
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void SurveyComplexItem::loadPreset(const QString& name)
{
    QString errorString;

    QJsonObject presetObject = _loadPresetJson(name);
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    if (!_loadV4V5(presetObject, 0, errorString, 5, true /* forPresets */)) {
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        qgcApp()->showAppMessage(QStringLiteral("Internal Error: Preset load failed. Name: %1 Error: %2").arg(name).arg(errorString));
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    }
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    _rebuildTransects();
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}

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bool SurveyComplexItem::load(const QJsonObject& complexObject, int sequenceNumber, QString& errorString)
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{
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    // We need to pull version first to determine what validation/conversion needs to be performed
    QList<JsonHelper::KeyValidateInfo> versionKeyInfoList = {
        { JsonHelper::jsonVersionKey, QJsonValue::Double, true },
    };
    if (!JsonHelper::validateKeys(complexObject, versionKeyInfoList, errorString)) {
        return false;
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    }

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    int version = complexObject[JsonHelper::jsonVersionKey].toInt();
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    if (version < 2 || version > 5) {
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        errorString = tr("Survey items do not support version %1").arg(version);
        return false;
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    }
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    if (version == 4 || version == 5) {
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        if (!_loadV4V5(complexObject, sequenceNumber, errorString, version, false /* forPresets */)) {
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            return false;
        }
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        _recalcComplexDistance();
        if (_cameraShots == 0) {
            // Shot count was possibly not available from plan file
            _recalcCameraShots();
        }
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    } else {
        // Must be v2 or v3
        QJsonObject v3ComplexObject = complexObject;
        if (version == 2) {
            // Convert to v3
            if (v3ComplexObject.contains(VisualMissionItem::jsonTypeKey) && v3ComplexObject[VisualMissionItem::jsonTypeKey].toString() == QStringLiteral("survey")) {
                v3ComplexObject[VisualMissionItem::jsonTypeKey] = VisualMissionItem::jsonTypeComplexItemValue;
                v3ComplexObject[ComplexMissionItem::jsonComplexItemTypeKey] = jsonComplexItemTypeValue;
            }
        }
        if (!_loadV3(complexObject, sequenceNumber, errorString)) {
            return false;
        }
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        // V2/3 doesn't include individual items so we need to rebuild manually
        _rebuildTransects();
    }
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    return true;
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}

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bool SurveyComplexItem::_loadV4V5(const QJsonObject& complexObject, int sequenceNumber, QString& errorString, int version, bool forPresets)
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{
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    QList<JsonHelper::KeyValidateInfo> keyInfoList = {
        { VisualMissionItem::jsonTypeKey,               QJsonValue::String, true },
        { ComplexMissionItem::jsonComplexItemTypeKey,   QJsonValue::String, true },
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        { _jsonEntryPointKey,                           QJsonValue::Double, true },
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        { _jsonGridAngleKey,                            QJsonValue::Double, true },
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        { _jsonFlyAlternateTransectsKey,                QJsonValue::Bool,   false },
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    };
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    if(version == 5) {
        JsonHelper::KeyValidateInfo jSplitPolygon = { _jsonSplitConcavePolygonsKey, QJsonValue::Bool, true };
        keyInfoList.append(jSplitPolygon);
    }

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    if (!JsonHelper::validateKeys(complexObject, keyInfoList, errorString)) {
        return false;
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    }
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    QString itemType = complexObject[VisualMissionItem::jsonTypeKey].toString();
    QString complexType = complexObject[ComplexMissionItem::jsonComplexItemTypeKey].toString();
    if (itemType != VisualMissionItem::jsonTypeComplexItemValue || complexType != jsonComplexItemTypeValue) {
        errorString = tr("%1 does not support loading this complex mission item type: %2:%3").arg(qgcApp()->applicationName()).arg(itemType).arg(complexType);
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        return false;
    }
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    _ignoreRecalc = !forPresets;
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    if (!forPresets) {
        setSequenceNumber(sequenceNumber);
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        if (!_surveyAreaPolygon.loadFromJson(complexObject, true /* required */, errorString)) {
            _surveyAreaPolygon.clear();
            return false;
        }
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    }
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    if (!TransectStyleComplexItem::_load(complexObject, forPresets, errorString)) {
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        _ignoreRecalc = false;
        return false;
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    }
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    _gridAngleFact.setRawValue              (complexObject[_jsonGridAngleKey].toDouble());
    _flyAlternateTransectsFact.setRawValue  (complexObject[_jsonFlyAlternateTransectsKey].toBool(false));
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    if (version == 5) {
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        _splitConcavePolygonsFact.setRawValue   (complexObject[_jsonSplitConcavePolygonsKey].toBool(true));
    }
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    _entryPoint = complexObject[_jsonEntryPointKey].toInt();
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    _ignoreRecalc = false;

    return true;
}

bool SurveyComplexItem::_loadV3(const QJsonObject& complexObject, int sequenceNumber, QString& errorString)
{
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    QList<JsonHelper::KeyValidateInfo> mainKeyInfoList = {
        { VisualMissionItem::jsonTypeKey,               QJsonValue::String, true },
        { ComplexMissionItem::jsonComplexItemTypeKey,   QJsonValue::String, true },
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        { QGCMapPolygon::jsonPolygonKey,                QJsonValue::Array,  true },
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        { _jsonV3GridObjectKey,                         QJsonValue::Object, true },
        { _jsonV3CameraObjectKey,                       QJsonValue::Object, false },
        { _jsonV3CameraTriggerDistanceKey,              QJsonValue::Double, true },
        { _jsonV3ManualGridKey,                         QJsonValue::Bool,   true },
        { _jsonV3FixedValueIsAltitudeKey,               QJsonValue::Bool,   true },
        { _jsonV3HoverAndCaptureKey,                    QJsonValue::Bool,   false },
        { _jsonV3Refly90DegreesKey,                     QJsonValue::Bool,   false },
        { _jsonV3CameraTriggerInTurnaroundKey,          QJsonValue::Bool,   false },    // Should really be required, but it was missing from initial code due to bug
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    };
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    if (!JsonHelper::validateKeys(complexObject, mainKeyInfoList, errorString)) {
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        return false;
    }
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    QString itemType = complexObject[VisualMissionItem::jsonTypeKey].toString();
    QString complexType = complexObject[ComplexMissionItem::jsonComplexItemTypeKey].toString();
    if (itemType != VisualMissionItem::jsonTypeComplexItemValue || complexType != jsonV3ComplexItemTypeValue) {
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        errorString = tr("%1 does not support loading this complex mission item type: %2:%3").arg(qgcApp()->applicationName()).arg(itemType).arg(complexType);
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        return false;
    }

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    _ignoreRecalc = true;

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    setSequenceNumber(sequenceNumber);
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    _hoverAndCaptureFact.setRawValue            (complexObject[_jsonV3HoverAndCaptureKey].toBool(false));
    _refly90DegreesFact.setRawValue             (complexObject[_jsonV3Refly90DegreesKey].toBool(false));
    _cameraTriggerInTurnAroundFact.setRawValue  (complexObject[_jsonV3CameraTriggerInTurnaroundKey].toBool(true));

    _cameraCalc.valueSetIsDistance()->setRawValue   (complexObject[_jsonV3FixedValueIsAltitudeKey].toBool(true));
    _cameraCalc.setDistanceToSurfaceRelative        (complexObject[_jsonV3GridAltitudeRelativeKey].toBool(true));
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    bool manualGrid = complexObject[_jsonV3ManualGridKey].toBool(true);
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    QList<JsonHelper::KeyValidateInfo> gridKeyInfoList = {
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        { _jsonV3GridAltitudeKey,           QJsonValue::Double, true },
        { _jsonV3GridAltitudeRelativeKey,   QJsonValue::Bool,   true },
        { _jsonV3GridAngleKey,              QJsonValue::Double, true },
        { _jsonV3GridSpacingKey,            QJsonValue::Double, true },
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        { _jsonEntryPointKey,      QJsonValue::Double, false },
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        { _jsonV3TurnaroundDistKey,         QJsonValue::Double, true },
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    };
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    QJsonObject gridObject = complexObject[_jsonV3GridObjectKey].toObject();
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    if (!JsonHelper::validateKeys(gridObject, gridKeyInfoList, errorString)) {
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        _ignoreRecalc = false;
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        return false;
    }
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    _gridAngleFact.setRawValue          (gridObject[_jsonV3GridAngleKey].toDouble());
    _turnAroundDistanceFact.setRawValue (gridObject[_jsonV3TurnaroundDistKey].toDouble());

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    if (gridObject.contains(_jsonEntryPointKey)) {
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        _entryPoint = gridObject[_jsonEntryPointKey].toInt();
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    } else {
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        _entryPoint = EntryLocationTopRight;
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    }
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    _cameraCalc.distanceToSurface()->setRawValue        (gridObject[_jsonV3GridAltitudeKey].toDouble());
    _cameraCalc.adjustedFootprintSide()->setRawValue    (gridObject[_jsonV3GridSpacingKey].toDouble());
    _cameraCalc.adjustedFootprintFrontal()->setRawValue (complexObject[_jsonV3CameraTriggerDistanceKey].toDouble());

    if (manualGrid) {
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        _cameraCalc.cameraName()->setRawValue(_cameraCalc.manualCameraName());
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    } else {
        if (!complexObject.contains(_jsonV3CameraObjectKey)) {
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            errorString = tr("%1 but %2 object is missing").arg("manualGrid = false").arg("camera");
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            _ignoreRecalc = false;
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            return false;
        }

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        QJsonObject cameraObject = complexObject[_jsonV3CameraObjectKey].toObject();
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        // Older code had typo on "imageSideOverlap" incorrectly being "imageSizeOverlap"
        QString incorrectImageSideOverlap = "imageSizeOverlap";
        if (cameraObject.contains(incorrectImageSideOverlap)) {
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            cameraObject[_jsonV3SideOverlapKey] = cameraObject[incorrectImageSideOverlap];
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            cameraObject.remove(incorrectImageSideOverlap);
        }

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        QList<JsonHelper::KeyValidateInfo> cameraKeyInfoList = {
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            { _jsonV3GroundResolutionKey,           QJsonValue::Double, true },
            { _jsonV3FrontalOverlapKey,             QJsonValue::Double, true },
            { _jsonV3SideOverlapKey,                QJsonValue::Double, true },
            { _jsonV3CameraSensorWidthKey,          QJsonValue::Double, true },
            { _jsonV3CameraSensorHeightKey,         QJsonValue::Double, true },
            { _jsonV3CameraResolutionWidthKey,      QJsonValue::Double, true },
            { _jsonV3CameraResolutionHeightKey,     QJsonValue::Double, true },
            { _jsonV3CameraFocalLengthKey,          QJsonValue::Double, true },
            { _jsonV3CameraNameKey,                 QJsonValue::String, true },
            { _jsonV3CameraOrientationLandscapeKey, QJsonValue::Bool,   true },
            { _jsonV3CameraMinTriggerIntervalKey,   QJsonValue::Double, false },
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        };
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        if (!JsonHelper::validateKeys(cameraObject, cameraKeyInfoList, errorString)) {
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            _ignoreRecalc = false;
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            return false;
        }

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        _cameraCalc.cameraName()->setRawValue           (cameraObject[_jsonV3CameraNameKey].toString());
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        _cameraCalc.landscape()->setRawValue            (cameraObject[_jsonV3CameraOrientationLandscapeKey].toBool(true));
        _cameraCalc.frontalOverlap()->setRawValue       (cameraObject[_jsonV3FrontalOverlapKey].toInt());
        _cameraCalc.sideOverlap()->setRawValue          (cameraObject[_jsonV3SideOverlapKey].toInt());
        _cameraCalc.sensorWidth()->setRawValue          (cameraObject[_jsonV3CameraSensorWidthKey].toDouble());
        _cameraCalc.sensorHeight()->setRawValue         (cameraObject[_jsonV3CameraSensorHeightKey].toDouble());
        _cameraCalc.focalLength()->setRawValue          (cameraObject[_jsonV3CameraFocalLengthKey].toDouble());
        _cameraCalc.imageWidth()->setRawValue           (cameraObject[_jsonV3CameraResolutionWidthKey].toInt());
        _cameraCalc.imageHeight()->setRawValue          (cameraObject[_jsonV3CameraResolutionHeightKey].toInt());
        _cameraCalc.minTriggerInterval()->setRawValue   (cameraObject[_jsonV3CameraMinTriggerIntervalKey].toDouble(0));
        _cameraCalc.imageDensity()->setRawValue         (cameraObject[_jsonV3GroundResolutionKey].toDouble());
        _cameraCalc.fixedOrientation()->setRawValue     (false);
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    }
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    // Polygon shape
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    /// Load a polygon from json
    ///     @param json Json object to load from
    ///     @param required true: no polygon in object will generate error
    ///     @param errorString Error string if return is false
    /// @return true: success, false: failure (errorString set)
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    if (!_surveyAreaPolygon.loadFromJson(complexObject, true /* required */, errorString)) {
        _surveyAreaPolygon.clear();
        _ignoreRecalc = false;
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        return false;
    }
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    _ignoreRecalc = false;

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    return true;
}

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/// Reverse the order of the transects. First transect becomes last and so forth.
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void SurveyComplexItem::_reverseTransectOrder(QList<QList<QGeoCoordinate>>& transects)
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{
    QList<QList<QGeoCoordinate>> rgReversedTransects;
    for (int i=transects.count() - 1; i>=0; i--) {
        rgReversedTransects.append(transects[i]);
    }
    transects = rgReversedTransects;
}

/// Reverse the order of all points withing each transect, First point becomes last and so forth.
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void SurveyComplexItem::_reverseInternalTransectPoints(QList<QList<QGeoCoordinate>>& transects)
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{
    for (int i=0; i<transects.count(); i++) {
        QList<QGeoCoordinate> rgReversedCoords;
        QList<QGeoCoordinate>& rgOriginalCoords = transects[i];
        for (int j=rgOriginalCoords.count()-1; j>=0; j--) {
            rgReversedCoords.append(rgOriginalCoords[j]);
        }
        transects[i] = rgReversedCoords;
    }
}

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/// Reorders the transects such that the first transect is the shortest distance to the specified coordinate
/// and the first point within that transect is the shortest distance to the specified coordinate.
///     @param distanceCoord Coordinate to measure distance against
///     @param transects Transects to test and reorder
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void SurveyComplexItem::_optimizeTransectsForShortestDistance(const QGeoCoordinate& distanceCoord, QList<QList<QGeoCoordinate>>& transects)
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{
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    double rgTransectDistance[4];
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    rgTransectDistance[0] = transects.first().first().distanceTo(distanceCoord);
    rgTransectDistance[1] = transects.first().last().distanceTo(distanceCoord);
    rgTransectDistance[2] = transects.last().first().distanceTo(distanceCoord);
    rgTransectDistance[3] = transects.last().last().distanceTo(distanceCoord);
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    int shortestIndex = 0;
    double shortestDistance = rgTransectDistance[0];
    for (int i=1; i<3; i++) {
        if (rgTransectDistance[i] < shortestDistance) {
            shortestIndex = i;
            shortestDistance = rgTransectDistance[i];
        }
    }
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    if (shortestIndex > 1) {
        // We need to reverse the order of segments
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        _reverseTransectOrder(transects);
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    }
    if (shortestIndex & 1) {
        // We need to reverse the points within each segment
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        _reverseInternalTransectPoints(transects);
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    }
}
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qreal SurveyComplexItem::_ccw(QPointF pt1, QPointF pt2, QPointF pt3)
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{
    return (pt2.x()-pt1.x())*(pt3.y()-pt1.y()) - (pt2.y()-pt1.y())*(pt3.x()-pt1.x());
}

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qreal SurveyComplexItem::_dp(QPointF pt1, QPointF pt2)
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{
    return (pt2.x()-pt1.x())/qSqrt((pt2.x()-pt1.x())*(pt2.x()-pt1.x()) + (pt2.y()-pt1.y())*(pt2.y()-pt1.y()));
}

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void SurveyComplexItem::_swapPoints(QList<QPointF>& points, int index1, int index2)
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{
    QPointF temp = points[index1];
    points[index1] = points[index2];
    points[index2] = temp;
}

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/// Returns true if the current grid angle generates north/south oriented transects
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bool SurveyComplexItem::_gridAngleIsNorthSouthTransects()
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{
    // Grid angle ranges from -360<->360
    double gridAngle = qAbs(_gridAngleFact.rawValue().toDouble());
    return gridAngle < 45.0 || (gridAngle > 360.0 - 45.0) || (gridAngle > 90.0 + 45.0 && gridAngle < 270.0 - 45.0);
}

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void SurveyComplexItem::_adjustTransectsToEntryPointLocation(QList<QList<QGeoCoordinate>>& transects)
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{
    if (transects.count() == 0) {
        return;
    }

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    bool reversePoints = false;
    bool reverseTransects = false;
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    if (_entryPoint == EntryLocationBottomLeft || _entryPoint == EntryLocationBottomRight) {
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        reversePoints = true;
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    }
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    if (_entryPoint == EntryLocationTopRight || _entryPoint == EntryLocationBottomRight) {
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        reverseTransects = true;
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    }
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    if (reversePoints) {
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        qCDebug(SurveyComplexItemLog) << "_adjustTransectsToEntryPointLocation Reverse Points";
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        _reverseInternalTransectPoints(transects);
    }
    if (reverseTransects) {
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        qCDebug(SurveyComplexItemLog) << "_adjustTransectsToEntryPointLocation Reverse Transects";
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        _reverseTransectOrder(transects);
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    }
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    qCDebug(SurveyComplexItemLog) << "_adjustTransectsToEntryPointLocation Modified entry point:entryLocation" << transects.first().first() << _entryPoint;
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}

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QPointF SurveyComplexItem::_rotatePoint(const QPointF& point, const QPointF& origin, double angle)
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{
    QPointF rotated;
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    double radians = (M_PI / 180.0) * -angle;
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    rotated.setX(((point.x() - origin.x()) * cos(radians)) - ((point.y() - origin.y()) * sin(radians)) + origin.x());
    rotated.setY(((point.x() - origin.x()) * sin(radians)) + ((point.y() - origin.y()) * cos(radians)) + origin.y());

    return rotated;
}

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void SurveyComplexItem::_intersectLinesWithRect(const QList<QLineF>& lineList, const QRectF& boundRect, QList<QLineF>& resultLines)
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{
    QLineF topLine      (boundRect.topLeft(),       boundRect.topRight());
    QLineF bottomLine   (boundRect.bottomLeft(),    boundRect.bottomRight());
    QLineF leftLine     (boundRect.topLeft(),       boundRect.bottomLeft());
    QLineF rightLine    (boundRect.topRight(),      boundRect.bottomRight());

    for (int i=0; i<lineList.count(); i++) {
        QPointF intersectPoint;
        QLineF intersectLine;
        const QLineF& line = lineList[i];

        int foundCount = 0;
        if (line.intersect(topLine, &intersectPoint) == QLineF::BoundedIntersection) {
            intersectLine.setP1(intersectPoint);
            foundCount++;
        }
        if (line.intersect(rightLine, &intersectPoint) == QLineF::BoundedIntersection) {
            if (foundCount == 0) {
                intersectLine.setP1(intersectPoint);
            } else {
                if (foundCount != 1) {
                    qWarning() << "Found more than two intersecting points";
                }
                intersectLine.setP2(intersectPoint);
            }
            foundCount++;
        }
        if (line.intersect(bottomLine, &intersectPoint) == QLineF::BoundedIntersection) {
            if (foundCount == 0) {
                intersectLine.setP1(intersectPoint);
            } else {
                if (foundCount != 1) {
                    qWarning() << "Found more than two intersecting points";
                }
                intersectLine.setP2(intersectPoint);
            }
            foundCount++;
        }
        if (line.intersect(leftLine, &intersectPoint) == QLineF::BoundedIntersection) {
            if (foundCount == 0) {
                intersectLine.setP1(intersectPoint);
            } else {
                if (foundCount != 1) {
                    qWarning() << "Found more than two intersecting points";
                }
                intersectLine.setP2(intersectPoint);
            }
            foundCount++;
        }

        if (foundCount == 2) {
            resultLines += intersectLine;
        }
    }
}

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void SurveyComplexItem::_intersectLinesWithPolygon(const QList<QLineF>& lineList, const QPolygonF& polygon, QList<QLineF>& resultLines)
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{
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    resultLines.clear();
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    for (int i=0; i<lineList.count(); i++) {
        const QLineF& line = lineList[i];
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        QList<QPointF> intersections;
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        // Intersect the line with all the polygon edges
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        for (int j=0; j<polygon.count()-1; j++) {
            QPointF intersectPoint;
            QLineF polygonLine = QLineF(polygon[j], polygon[j+1]);
            if (line.intersect(polygonLine, &intersectPoint) == QLineF::BoundedIntersection) {
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                if (!intersections.contains(intersectPoint)) {
                    intersections.append(intersectPoint);
                }
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            }
        }

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        // We now have one or more intersection points all along the same line. Find the two
        // which are furthest away from each other to form the transect.
        if (intersections.count() > 1) {
            QPointF firstPoint;
            QPointF secondPoint;
            double currentMaxDistance = 0;

            for (int i=0; i<intersections.count(); i++) {
                for (int j=0; j<intersections.count(); j++) {
                    QLineF lineTest(intersections[i], intersections[j]);
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                    \
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                    double newMaxDistance = lineTest.length();
                    if (newMaxDistance > currentMaxDistance) {
                        firstPoint = intersections[i];
                        secondPoint = intersections[j];
                        currentMaxDistance = newMaxDistance;
                    }
                }
            }

            resultLines += QLineF(firstPoint, secondPoint);
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        }
    }
}

/// Adjust the line segments such that they are all going the same direction with respect to going from P1->P2
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void SurveyComplexItem::_adjustLineDirection(const QList<QLineF>& lineList, QList<QLineF>& resultLines)
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{
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    qreal firstAngle = 0;
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    for (int i=0; i<lineList.count(); i++) {
        const QLineF& line = lineList[i];
        QLineF adjustedLine;

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        if (i == 0) {
            firstAngle = line.angle();
        }

        if (qAbs(line.angle() - firstAngle) > 1.0) {
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            adjustedLine.setP1(line.p2());
            adjustedLine.setP2(line.p1());
        } else {
            adjustedLine = line;
        }

        resultLines += adjustedLine;
    }
}

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double SurveyComplexItem::_clampGridAngle90(double gridAngle)
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{
    // Clamp grid angle to -90<->90. This prevents transects from being rotated to a reversed order.
    if (gridAngle > 90.0) {
        gridAngle -= 180.0;
    } else if (gridAngle < -90.0) {
        gridAngle += 180;
    }
    return gridAngle;
}

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bool SurveyComplexItem::_nextTransectCoord(const QList<QGeoCoordinate>& transectPoints, int pointIndex, QGeoCoordinate& coord)
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{
    if (pointIndex > transectPoints.count()) {
        qWarning() << "Bad grid generation";
        return false;
    }

    coord = transectPoints[pointIndex];
    return true;
}

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bool SurveyComplexItem::_hasTurnaround(void) const
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{
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    return _turnAroundDistance() > 0;
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}
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double SurveyComplexItem::_turnaroundDistance(void) const
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{
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    return _turnAroundDistanceFact.rawValue().toDouble();
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}

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void SurveyComplexItem::_rebuildTransectsPhase1(void)
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{
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    bool split = splitConcavePolygons()->rawValue().toBool();
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	if (split) {
		_rebuildTransectsPhase1WorkerSplitPolygons(false /* refly */);
	} else {
		_rebuildTransectsPhase1WorkerSinglePolygon(false /* refly */);
	}
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    if (_refly90DegreesFact.rawValue().toBool()) {
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    	if (split) {
    		_rebuildTransectsPhase1WorkerSplitPolygons(true /* refly */);
    	} else {
    		_rebuildTransectsPhase1WorkerSinglePolygon(true /* refly */);
    	}
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    }
}

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void SurveyComplexItem::_rebuildTransectsPhase1WorkerSinglePolygon(bool refly)
{
    if (_ignoreRecalc) {
        return;
    }

    // If the transects are getting rebuilt then any previously loaded mission items are now invalid
    if (_loadedMissionItemsParent) {
        _loadedMissionItems.clear();
        _loadedMissionItemsParent->deleteLater();
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        _loadedMissionItemsParent = nullptr;
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    }

    // First pass will clear old transect data, refly will append to existing data
    if (!refly) {
        _transects.clear();
        _transectsPathHeightInfo.clear();
    }

    if (_surveyAreaPolygon.count() < 3) {
        return;
    }

    // Convert polygon to NED

    QList<QPointF> polygonPoints;
    QGeoCoordinate tangentOrigin = _surveyAreaPolygon.pathModel().value<QGCQGeoCoordinate*>(0)->coordinate();
    qCDebug(SurveyComplexItemLog) << "_rebuildTransectsPhase1 Convert polygon to NED - _surveyAreaPolygon.count():tangentOrigin" << _surveyAreaPolygon.count() << tangentOrigin;
    for (int i=0; i<_surveyAreaPolygon.count(); i++) {
        double y, x, down;
        QGeoCoordinate vertex = _surveyAreaPolygon.pathModel().value<QGCQGeoCoordinate*>(i)->coordinate();
        if (i == 0) {
            // This avoids a nan calculation that comes out of convertGeoToNed
            x = y = 0;
        } else {
            convertGeoToNed(vertex, tangentOrigin, &y, &x, &down);
        }
        polygonPoints += QPointF(x, y);
        qCDebug(SurveyComplexItemLog) << "_rebuildTransectsPhase1 vertex:x:y" << vertex << polygonPoints.last().x() << polygonPoints.last().y();
    }

    // Generate transects

    double gridAngle = _gridAngleFact.rawValue().toDouble();
    double gridSpacing = _cameraCalc.adjustedFootprintSide()->rawValue().toDouble();
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    if (gridSpacing < 0.5) {
        // We can't let gridSpacing get too small otherwise we will end up with too many transects.
        // So we limit to 0.5 meter spacing as min and set to huge value which will cause a single
        // transect to be added.
        gridSpacing = 100000;
    }
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    gridAngle = _clampGridAngle90(gridAngle);
    gridAngle += refly ? 90 : 0;
    qCDebug(SurveyComplexItemLog) << "_rebuildTransectsPhase1 Clamped grid angle" << gridAngle;

    qCDebug(SurveyComplexItemLog) << "_rebuildTransectsPhase1 gridSpacing:gridAngle:refly" << gridSpacing << gridAngle << refly;

    // Convert polygon to bounding rect

    qCDebug(SurveyComplexItemLog) << "_rebuildTransectsPhase1 Polygon";
    QPolygonF polygon;
    for (int i=0; i<polygonPoints.count(); i++) {
        qCDebug(SurveyComplexItemLog) << "Vertex" << polygonPoints[i];
        polygon << polygonPoints[i];
    }
    polygon << polygonPoints[0];
    QRectF boundingRect = polygon.boundingRect();
    QPointF boundingCenter = boundingRect.center();
    qCDebug(SurveyComplexItemLog) << "Bounding rect" << boundingRect.topLeft().x() << boundingRect.topLeft().y() << boundingRect.bottomRight().x() << boundingRect.bottomRight().y();

    // Create set of rotated parallel lines within the expanded bounding rect. Make the lines larger than the
    // bounding box to guarantee intersection.

    QList<QLineF> lineList;

    // Transects are generated to be as long as the largest width/height of the bounding rect plus some fudge factor.
    // This way they will always be guaranteed to intersect with a polygon edge no matter what angle they are rotated to.
    // They are initially generated with the transects flowing from west to east and then points within the transect north to south.
    double maxWidth = qMax(boundingRect.width(), boundingRect.height()) + 2000.0;
    double halfWidth = maxWidth / 2.0;
    double transectX = boundingCenter.x() - halfWidth;
    double transectXMax = transectX + maxWidth;
    while (transectX < transectXMax) {
        double transectYTop = boundingCenter.y() - halfWidth;
        double transectYBottom = boundingCenter.y() + halfWidth;

        lineList += QLineF(_rotatePoint(QPointF(transectX, transectYTop), boundingCenter, gridAngle), _rotatePoint(QPointF(transectX, transectYBottom), boundingCenter, gridAngle));
        transectX += gridSpacing;
    }

    // Now intersect the lines with the polygon
    QList<QLineF> intersectLines;
#if 1
    _intersectLinesWithPolygon(lineList, polygon, intersectLines);
#else
    // This is handy for debugging grid problems, not for release
    intersectLines = lineList;
#endif

    // Less than two transects intersected with the polygon:
    //      Create a single transect which goes through the center of the polygon
    //      Intersect it with the polygon
    if (intersectLines.count() < 2) {
        _surveyAreaPolygon.center();
        QLineF firstLine = lineList.first();
        QPointF lineCenter = firstLine.pointAt(0.5);
        QPointF centerOffset = boundingCenter - lineCenter;
        firstLine.translate(centerOffset);
        lineList.clear();
        lineList.append(firstLine);
        intersectLines = lineList;
        _intersectLinesWithPolygon(lineList, polygon, intersectLines);
    }

    // Make sure all lines are going the same direction. Polygon intersection leads to lines which
    // can be in varied directions depending on the order of the intesecting sides.
    QList<QLineF> resultLines;
    _adjustLineDirection(intersectLines, resultLines);

    // Convert from NED to Geo
    QList<QList<QGeoCoordinate>> transects;
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    for (const QLineF& line : resultLines) {
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        QGeoCoordinate          coord;
        QList<QGeoCoordinate>   transect;

        convertNedToGeo(line.p1().y(), line.p1().x(), 0, tangentOrigin, &coord);
        transect.append(coord);
        convertNedToGeo(line.p2().y(), line.p2().x(), 0, tangentOrigin, &coord);
        transect.append(coord);

        transects.append(transect);
    }

    _adjustTransectsToEntryPointLocation(transects);

    if (refly) {
        _optimizeTransectsForShortestDistance(_transects.last().last().coord, transects);
    }

    if (_flyAlternateTransectsFact.rawValue().toBool()) {
        QList<QList<QGeoCoordinate>> alternatingTransects;
        for (int i=0; i<transects.count(); i++) {
            if (!(i & 1)) {
                alternatingTransects.append(transects[i]);
            }
        }
        for (int i=transects.count()-1; i>0; i--) {
            if (i & 1) {
                alternatingTransects.append(transects[i]);
            }
        }
        transects = alternatingTransects;
    }

    // Adjust to lawnmower pattern
    bool reverseVertices = false;
    for (int i=0; i<transects.count(); i++) {
        // We must reverse the vertices for every other transect in order to make a lawnmower pattern
        QList<QGeoCoordinate> transectVertices = transects[i];
        if (reverseVertices) {
            reverseVertices = false;
            QList<QGeoCoordinate> reversedVertices;
            for (int j=transectVertices.count()-1; j>=0; j--) {
                reversedVertices.append(transectVertices[j]);
            }
            transectVertices = reversedVertices;
        } else {
            reverseVertices = true;
        }
        transects[i] = transectVertices;
    }

    // Convert to CoordInfo transects and append to _transects
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    for (const QList<QGeoCoordinate>& transect : transects) {
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        QGeoCoordinate                                  coord;
        QList<TransectStyleComplexItem::CoordInfo_t>    coordInfoTransect;
        TransectStyleComplexItem::CoordInfo_t           coordInfo;

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        coordInfo = { transect[0], CoordTypeSurveyEntry };
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        coordInfoTransect.append(coordInfo);
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        coordInfo = { transect[1], CoordTypeSurveyExit };
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        coordInfoTransect.append(coordInfo);

        // For hover and capture we need points for each camera location within the transect
        if (triggerCamera() && hoverAndCaptureEnabled()) {
            double transectLength = transect[0].distanceTo(transect[1]);
            double transectAzimuth = transect[0].azimuthTo(transect[1]);
            if (triggerDistance() < transectLength) {
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                int cInnerHoverPoints = static_cast<int>(floor(transectLength / triggerDistance()));
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                qCDebug(SurveyComplexItemLog) << "cInnerHoverPoints" << cInnerHoverPoints;
                for (int i=0; i<cInnerHoverPoints; i++) {
                    QGeoCoordinate hoverCoord = transect[0].atDistanceAndAzimuth(triggerDistance() * (i + 1), transectAzimuth);
                    TransectStyleComplexItem::CoordInfo_t coordInfo = { hoverCoord, CoordTypeInteriorHoverTrigger };
                    coordInfoTransect.insert(1 + i, coordInfo);
                }
            }
        }

        // Extend the transect ends for turnaround
        if (_hasTurnaround()) {
            QGeoCoordinate turnaroundCoord;
            double turnAroundDistance = _turnAroundDistanceFact.rawValue().toDouble();

            double azimuth = transect[0].azimuthTo(transect[1]);
            turnaroundCoord = transect[0].atDistanceAndAzimuth(-turnAroundDistance, azimuth);
            turnaroundCoord.setAltitude(qQNaN());
            TransectStyleComplexItem::CoordInfo_t coordInfo = { turnaroundCoord, CoordTypeTurnaround };
            coordInfoTransect.prepend(coordInfo);

            azimuth = transect.last().azimuthTo(transect[transect.count() - 2]);
            turnaroundCoord = transect.last().atDistanceAndAzimuth(-turnAroundDistance, azimuth);
            turnaroundCoord.setAltitude(qQNaN());
            coordInfo = { turnaroundCoord, CoordTypeTurnaround };
            coordInfoTransect.append(coordInfo);
        }

        _transects.append(coordInfoTransect);
    }
}


void SurveyComplexItem::_rebuildTransectsPhase1WorkerSplitPolygons(bool refly)
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{
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    if (_ignoreRecalc) {
        return;
    }

    // If the transects are getting rebuilt then any previously loaded mission items are now invalid
    if (_loadedMissionItemsParent) {
        _loadedMissionItems.clear();
        _loadedMissionItemsParent->deleteLater();
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        _loadedMissionItemsParent = nullptr;
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    }

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    // First pass will clear old transect data, refly will append to existing data
    if (!refly) {
        _transects.clear();
        _transectsPathHeightInfo.clear();
    }
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    if (_surveyAreaPolygon.count() < 3) {
        return;
    }

    // Convert polygon to NED

    QList<QPointF> polygonPoints;
    QGeoCoordinate tangentOrigin = _surveyAreaPolygon.pathModel().value<QGCQGeoCoordinate*>(0)->coordinate();
    qCDebug(SurveyComplexItemLog) << "_rebuildTransectsPhase1 Convert polygon to NED - _surveyAreaPolygon.count():tangentOrigin" << _surveyAreaPolygon.count() << tangentOrigin;
    for (int i=0; i<_surveyAreaPolygon.count(); i++) {
        double y, x, down;
        QGeoCoordinate vertex = _surveyAreaPolygon.pathModel().value<QGCQGeoCoordinate*>(i)->coordinate();
        if (i == 0) {
            // This avoids a nan calculation that comes out of convertGeoToNed
            x = y = 0;
        } else {
            convertGeoToNed(vertex, tangentOrigin, &y, &x, &down);
        }
        polygonPoints += QPointF(x, y);
        qCDebug(SurveyComplexItemLog) << "_rebuildTransectsPhase1 vertex:x:y" << vertex << polygonPoints.last().x() << polygonPoints.last().y();
    }

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    // convert into QPolygonF
    QPolygonF polygon;
    for (int i=0; i<polygonPoints.count(); i++) {
        qCDebug(SurveyComplexItemLog) << "Vertex" << polygonPoints[i];
        polygon << polygonPoints[i];
    }

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    // Create list of separate polygons
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    QList<QPolygonF> polygons{};
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    _PolygonDecomposeConvex(polygon, polygons);
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    // iterate over polygons
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    for (auto p = polygons.begin(); p != polygons.end(); ++p) {
        QPointF* vMatch = nullptr;
        // find matching vertex in previous polygon
        if (p != polygons.begin()) {
            auto pLast = p - 1;
            for (auto& i : *p) {
                for (auto& j : *pLast) {
                   if (i == j) {
                       vMatch = &i;
                       break;
                   }
                   if (vMatch) break;
                }
            }

        }


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        // close polygon
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        *p << p->front();
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        // build transects for this polygon
        // TODO figure out tangent origin
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        // TODO improve selection of entry points
//        qCDebug(SurveyComplexItemLog) << "Transects from polynom p " << p;
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        _rebuildTransectsFromPolygon(refly, *p, tangentOrigin, vMatch);
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    }
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}

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void SurveyComplexItem::_PolygonDecomposeConvex(const QPolygonF& polygon, QList<QPolygonF>& decomposedPolygons)
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{
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	// this follows "Mark Keil's Algorithm" https://mpen.ca/406/keil
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    int decompSize = std::numeric_limits<int>::max();
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    if (polygon.size() < 3) return;
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    if (polygon.size() == 3) {
        decomposedPolygons << polygon;
        return;
    }
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    QList<QPolygonF> decomposedPolygonsMin{};

    for (auto vertex = polygon.begin(); vertex != polygon.end(); ++vertex)
    {
        // is vertex reflex?
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        bool vertexIsReflex = _VertexIsReflex(polygon, vertex);
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        if (!vertexIsReflex) continue;

        for (auto vertexOther = polygon.begin(); vertexOther != polygon.end(); ++vertexOther)
        {
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            auto vertexBefore = vertex == polygon.begin() ? polygon.end() - 1 : vertex - 1;
            auto vertexAfter = vertex == polygon.end() - 1 ? polygon.begin() : vertex + 1;
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            if (vertexOther == vertex) continue;
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            if (vertexAfter == vertexOther) continue;
            if (vertexBefore == vertexOther) continue;
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            bool canSee = _VertexCanSeeOther(polygon, vertex, vertexOther);
            if (!canSee) continue;

            QPolygonF polyLeft;
            auto v = vertex;
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            auto polyLeftContainsReflex = false;
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            while ( v != vertexOther) {
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                if (v != vertex && _VertexIsReflex(polygon, v)) {
                    polyLeftContainsReflex = true;
                }
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                polyLeft << *v;
                ++v;
                if (v == polygon.end()) v = polygon.begin();
            }
            polyLeft << *vertexOther;
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            auto polyLeftValid = !(polyLeftContainsReflex && polyLeft.size() == 3);
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            QPolygonF polyRight;
            v = vertexOther;
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            auto polyRightContainsReflex = false;
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            while ( v != vertex) {
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                if (v != vertex && _VertexIsReflex(polygon, v)) {
                    polyRightContainsReflex = true;
                }
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                polyRight << *v;
                ++v;
                if (v == polygon.end()) v = polygon.begin();
            }
            polyRight << *vertex;
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            auto polyRightValid = !(polyRightContainsReflex && polyRight.size() == 3);

            if (!polyLeftValid || ! polyRightValid) {
//                decompSize = std::numeric_limits<int>::max();
                continue;
            }
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            // recursion
            QList<QPolygonF> polyLeftDecomposed{};
            _PolygonDecomposeConvex(polyLeft, polyLeftDecomposed);
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            QList<QPolygonF> polyRightDecomposed{};
            _PolygonDecomposeConvex(polyRight, polyRightDecomposed);

            // compositon
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            auto subSize = polyLeftDecomposed.size() + polyRightDecomposed.size();
            if ((polyLeftContainsReflex && polyLeftDecomposed.size() == 1)
                    || (polyRightContainsReflex && polyRightDecomposed.size() == 1))
            {
                // don't accept polygons that contian reflex vertices and were not split
                subSize = std::numeric_limits<int>::max();
            }
            if (subSize < decompSize) {
                decompSize = subSize;
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                decomposedPolygonsMin = polyLeftDecomposed + polyRightDecomposed;
            }
        }

    }

    // assemble output
    if (decomposedPolygonsMin.size() > 0) {
        decomposedPolygons << decomposedPolygonsMin;
    } else {
        decomposedPolygons << polygon;
    }
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    return;
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}

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bool SurveyComplexItem::_VertexCanSeeOther(const QPolygonF& polygon, const QPointF* vertexA, const QPointF* vertexB) {
    if (vertexA == vertexB) return false;
    auto vertexAAfter = vertexA + 1 == polygon.end() ? polygon.begin() : vertexA + 1;
    auto vertexABefore = vertexA == polygon.begin() ? polygon.end() - 1 : vertexA - 1;
    if (vertexAAfter == vertexB) return false;
    if (vertexABefore == vertexB) return false;
//    qCDebug(SurveyComplexItemLog) << "_VertexCanSeeOther false after first checks ";

    bool visible = true;
//    auto diff = *vertexA - *vertexB;
    QLineF lineAB{*vertexA, *vertexB};
    auto distanceAB = lineAB.length();//sqrtf(diff.x() * diff.x() + diff.y()*diff.y());

//    qCDebug(SurveyComplexItemLog) << "_VertexCanSeeOther distanceAB " << distanceAB;
    for (auto vertexC = polygon.begin(); vertexC != polygon.end(); ++vertexC)
    {
        if (vertexC == vertexA) continue;
        if (vertexC == vertexB) continue;
        auto vertexD = vertexC + 1 == polygon.end() ? polygon.begin() : vertexC + 1;
        if (vertexD == vertexA) continue;
        if (vertexD == vertexB) continue;
        QLineF lineCD(*vertexC, *vertexD);
        QPointF intersection{};
        auto intersects = lineAB.intersect(lineCD, &intersection);
        if (intersects == QLineF::IntersectType::BoundedIntersection) {
//            auto diffIntersection = *vertexA - intersection;
//            auto distanceIntersection = sqrtf(diffIntersection.x() * diffIntersection.x() + diffIntersection.y()*diffIntersection.y());
//            qCDebug(SurveyComplexItemLog) << "*vertexA " << *vertexA << "*vertexB " << *vertexB  << " intersection " << intersection;

            QLineF lineIntersection{*vertexA, intersection};
            auto distanceIntersection = lineIntersection.length();//sqrtf(diff.x() * diff.x() + diff.y()*diff.y());
            qCDebug(SurveyComplexItemLog) << "_VertexCanSeeOther distanceIntersection " << distanceIntersection;
            if (distanceIntersection < distanceAB) {
                visible = false;
                break;
            }
        }
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    }

    return visible;
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}

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bool SurveyComplexItem::_VertexIsReflex(const QPolygonF& polygon, const QPointF* vertex) {
    auto vertexBefore = vertex == polygon.begin() ? polygon.end() - 1 : vertex - 1;
    auto vertexAfter = vertex == polygon.end() - 1 ? polygon.begin() : vertex + 1;
    auto area = (((vertex->x() - vertexBefore->x())*(vertexAfter->y() - vertexBefore->y()))-((vertexAfter->x() - vertexBefore->x())*(vertex->y() - vertexBefore->y())));
    return area > 0;

}


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void SurveyComplexItem::_rebuildTransectsFromPolygon(bool refly, const QPolygonF& polygon, const QGeoCoordinate& tangentOrigin, const QPointF* const transitionPoint)
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{
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    // Generate transects

    double gridAngle = _gridAngleFact.rawValue().toDouble();
    double gridSpacing = _cameraCalc.adjustedFootprintSide()->rawValue().toDouble();

    gridAngle = _clampGridAngle90(gridAngle);
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    gridAngle += refly ? 90 : 0;
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    qCDebug(SurveyComplexItemLog) << "_rebuildTransectsPhase1 Clamped grid angle" << gridAngle;

    qCDebug(SurveyComplexItemLog) << "_rebuildTransectsPhase1 gridSpacing:gridAngle:refly" << gridSpacing << gridAngle << refly;

    // Convert polygon to bounding rect

    qCDebug(SurveyComplexItemLog) << "_rebuildTransectsPhase1 Polygon";
    QRectF boundingRect = polygon.boundingRect();
    QPointF boundingCenter = boundingRect.center();
    qCDebug(SurveyComplexItemLog) << "Bounding rect" << boundingRect.topLeft().x() << boundingRect.topLeft().y() << boundingRect.bottomRight().x() << boundingRect.bottomRight().y();

    // Create set of rotated parallel lines within the expanded bounding rect. Make the lines larger than the
    // bounding box to guarantee intersection.

    QList<QLineF> lineList;

    // Transects are generated to be as long as the largest width/height of the bounding rect plus some fudge factor.
    // This way they will always be guaranteed to intersect with a polygon edge no matter what angle they are rotated to.
    // They are initially generated with the transects flowing from west to east and then points within the transect north to south.
    double maxWidth = qMax(boundingRect.width(), boundingRect.height()) + 2000.0;
    double halfWidth = maxWidth / 2.0;
    double transectX = boundingCenter.x() - halfWidth;
    double transectXMax = transectX + maxWidth;
    while (transectX < transectXMax) {
        double transectYTop = boundingCenter.y() - halfWidth;
        double transectYBottom = boundingCenter.y() + halfWidth;

        lineList += QLineF(_rotatePoint(QPointF(transectX, transectYTop), boundingCenter, gridAngle), _rotatePoint(QPointF(transectX, transectYBottom), boundingCenter, gridAngle));
        transectX += gridSpacing;
    }

    // Now intersect the lines with the polygon
    QList<QLineF> intersectLines;
#if 1
    _intersectLinesWithPolygon(lineList, polygon, intersectLines);
#else
    // This is handy for debugging grid problems, not for release
    intersectLines = lineList;
#endif

    // Less than two transects intersected with the polygon:
    //      Create a single transect which goes through the center of the polygon
    //      Intersect it with the polygon
    if (intersectLines.count() < 2) {
        _surveyAreaPolygon.center();
        QLineF firstLine = lineList.first();
        QPointF lineCenter = firstLine.pointAt(0.5);
        QPointF centerOffset = boundingCenter - lineCenter;
        firstLine.translate(centerOffset);
        lineList.clear();
        lineList.append(firstLine);
        intersectLines = lineList;
        _intersectLinesWithPolygon(lineList, polygon, intersectLines);
    }

    // Make sure all lines are going the same direction. Polygon intersection leads to lines which
    // can be in varied directions depending on the order of the intesecting sides.
    QList<QLineF> resultLines;
    _adjustLineDirection(intersectLines, resultLines);

    // Convert from NED to Geo
    QList<QList<QGeoCoordinate>> transects;
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    if (transitionPoint != nullptr) {
        QList<QGeoCoordinate>   transect;
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        QGeoCoordinate          coord;
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        convertNedToGeo(transitionPoint->y(), transitionPoint->x(), 0, tangentOrigin, &coord);
        transect.append(coord);
        transect.append(coord); //TODO
        transects.append(transect);
    }

    for (const QLineF& line: resultLines) {
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        QList<QGeoCoordinate>   transect;
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        QGeoCoordinate          coord;
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        convertNedToGeo(line.p1().y(), line.p1().x(), 0, tangentOrigin, &coord);
        transect.append(coord);
        convertNedToGeo(line.p2().y(), line.p2().x(), 0, tangentOrigin, &coord);
        transect.append(coord);

        transects.append(transect);
    }

    _adjustTransectsToEntryPointLocation(transects);

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    if (refly) {
        _optimizeTransectsForShortestDistance(_transects.last().last().coord, transects);
    }

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    if (_flyAlternateTransectsFact.rawValue().toBool()) {
        QList<QList<QGeoCoordinate>> alternatingTransects;
        for (int i=0; i<transects.count(); i++) {
            if (!(i & 1)) {
                alternatingTransects.append(transects[i]);
            }
        }
        for (int i=transects.count()-1; i>0; i--) {
            if (i & 1) {
                alternatingTransects.append(transects[i]);
            }
        }
        transects = alternatingTransects;
    }

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    // Adjust to lawnmower pattern
    bool reverseVertices = false;
    for (int i=0; i<transects.count(); i++) {
        // We must reverse the vertices for every other transect in order to make a lawnmower pattern
        QList<QGeoCoordinate> transectVertices = transects[i];
        if (reverseVertices) {
            reverseVertices = false;
            QList<QGeoCoordinate> reversedVertices;
            for (int j=transectVertices.count()-1; j>=0; j--) {
                reversedVertices.append(transectVertices[j]);
            }
            transectVertices = reversedVertices;
        } else {
            reverseVertices = true;
        }
        transects[i] = transectVertices;
    }

    // Convert to CoordInfo transects and append to _transects
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    for (const QList<QGeoCoordinate>& transect: transects) {
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        QGeoCoordinate                                  coord;
        QList<TransectStyleComplexItem::CoordInfo_t>    coordInfoTransect;
        TransectStyleComplexItem::CoordInfo_t           coordInfo;

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        coordInfo = { transect[0], CoordTypeSurveyEntry };
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        coordInfoTransect.append(coordInfo);
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        coordInfo = { transect[1], CoordTypeSurveyExit };
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        coordInfoTransect.append(coordInfo);

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        // For hover and capture we need points for each camera location within the transect
        if (triggerCamera() && hoverAndCaptureEnabled()) {
            double transectLength = transect[0].distanceTo(transect[1]);
            double transectAzimuth = transect[0].azimuthTo(transect[1]);
            if (triggerDistance() < transectLength) {
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                int cInnerHoverPoints = static_cast<int>(floor(transectLength / triggerDistance()));
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                qCDebug(SurveyComplexItemLog) << "cInnerHoverPoints" << cInnerHoverPoints;
                for (int i=0; i<cInnerHoverPoints; i++) {
                    QGeoCoordinate hoverCoord = transect[0].atDistanceAndAzimuth(triggerDistance() * (i + 1), transectAzimuth);
                    TransectStyleComplexItem::CoordInfo_t coordInfo = { hoverCoord, CoordTypeInteriorHoverTrigger };
                    coordInfoTransect.insert(1 + i, coordInfo);
                }
            }
        }
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        // Extend the transect ends for turnaround
        if (_hasTurnaround()) {
            QGeoCoordinate turnaroundCoord;
            double turnAroundDistance = _turnAroundDistanceFact.rawValue().toDouble();

            double azimuth = transect[0].azimuthTo(transect[1]);
            turnaroundCoord = transect[0].atDistanceAndAzimuth(-turnAroundDistance, azimuth);
            turnaroundCoord.setAltitude(qQNaN());
            TransectStyleComplexItem::CoordInfo_t coordInfo = { turnaroundCoord, CoordTypeTurnaround };
            coordInfoTransect.prepend(coordInfo);

            azimuth = transect.last().azimuthTo(transect[transect.count() - 2]);
            turnaroundCoord = transect.last().atDistanceAndAzimuth(-turnAroundDistance, azimuth);
            turnaroundCoord.setAltitude(qQNaN());
            coordInfo = { turnaroundCoord, CoordTypeTurnaround };
            coordInfoTransect.append(coordInfo);
        }

        _transects.append(coordInfoTransect);
    }
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    qCDebug(SurveyComplexItemLog) << "_transects.size() " << _transects.size();
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}

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void SurveyComplexItem::_recalcCameraShots(void)
{
    double triggerDistance = this->triggerDistance();
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    if (triggerDistance == 0) {
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        _cameraShots = 0;
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    } else {
        if (_cameraTriggerInTurnAroundFact.rawValue().toBool()) {
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            _cameraShots = qCeil(_complexDistance / triggerDistance);
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        } else {
            _cameraShots = 0;
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            if (_loadedMissionItemsParent) {
                // We have to do it the hard way based on the mission items themselves
                if (hoverAndCaptureEnabled()) {
                    // Count the number of camera triggers in the mission items
                    for (const MissionItem* missionItem: _loadedMissionItems) {
                        _cameraShots += missionItem->command() == MAV_CMD_IMAGE_START_CAPTURE ? 1 : 0;
                    }
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                } else {
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                    bool waitingForTriggerStop = false;
                    QGeoCoordinate distanceStartCoord;
                    QGeoCoordinate distanceEndCoord;
                    for (const MissionItem* missionItem: _loadedMissionItems) {
                        if (missionItem->command() == MAV_CMD_NAV_WAYPOINT) {
                            if (waitingForTriggerStop) {
                                distanceEndCoord = QGeoCoordinate(missionItem->param5(), missionItem->param6());
                            } else {
                                distanceStartCoord = QGeoCoordinate(missionItem->param5(), missionItem->param6());
                            }
                        } else if (missionItem->command() == MAV_CMD_DO_SET_CAM_TRIGG_DIST) {
                            if (missionItem->param1() > 0) {
                                // Trigger start
                                waitingForTriggerStop = true;
                            } else {
                                // Trigger stop
                                waitingForTriggerStop = false;
                                _cameraShots += qCeil(distanceEndCoord.distanceTo(distanceStartCoord) / triggerDistance);
                                distanceStartCoord = QGeoCoordinate();
                                distanceEndCoord = QGeoCoordinate();
                            }
                        }
                    }

                }
            } else {
                // We have transects available, calc from those
                for (const QList<TransectStyleComplexItem::CoordInfo_t>& transect: _transects) {
                    QGeoCoordinate firstCameraCoord, lastCameraCoord;
                    if (_hasTurnaround() && !hoverAndCaptureEnabled()) {
                        firstCameraCoord = transect[1].coord;
                        lastCameraCoord = transect[transect.count() - 2].coord;
                    } else {
                        firstCameraCoord = transect.first().coord;
                        lastCameraCoord = transect.last().coord;
                    }
                    _cameraShots += qCeil(firstCameraCoord.distanceTo(lastCameraCoord) / triggerDistance);
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                }
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            }
        }
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    }

    emit cameraShotsChanged();
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}
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SurveyComplexItem::ReadyForSaveState SurveyComplexItem::readyForSaveState(void) const
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{
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    return TransectStyleComplexItem::readyForSaveState();
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}

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void SurveyComplexItem::rotateEntryPoint(void)
{
    if (_entryPoint == EntryLocationLast) {
        _entryPoint = EntryLocationFirst;
    } else {
        _entryPoint++;
    }
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    _rebuildTransects();

    setDirty(true);
}
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double SurveyComplexItem::timeBetweenShots(void)
{
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    return _cruiseSpeed == 0 ? 0 : triggerDistance() / _cruiseSpeed;
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}
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double SurveyComplexItem::additionalTimeDelay (void) const
{
    double hoverTime = 0;

    if (hoverAndCaptureEnabled()) {
        for (const QList<TransectStyleComplexItem::CoordInfo_t>& transect: _transects) {
            hoverTime += _hoverAndCaptureDelaySeconds * transect.count();
        }
    }

    return hoverTime;
}
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void SurveyComplexItem::_updateWizardMode(void)
{
    if (_surveyAreaPolygon.isValid() && !_surveyAreaPolygon.traceMode()) {
        setWizardMode(false);
    }
}