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/****************************************************************************
*
* (c) 2009-2016 QGROUNDCONTROL PROJECT <http://www.qgroundcontrol.org>
*
* QGroundControl is licensed according to the terms in the file
* COPYING.md in the root of the source code directory.
*
****************************************************************************/
#include "CameraCalc.h"
#include "JsonHelper.h"
#include "Vehicle.h"
#include "CameraMetaData.h"
#include <QQmlEngine>
const char* CameraCalc::_valueSetIsDistanceName = "ValueSetIsDistance";
const char* CameraCalc::_distanceToSurfaceName = "DistanceToSurface";
const char* CameraCalc::_imageDensityName = "ImageDensity";
const char* CameraCalc::_frontalOverlapName = "FrontalOverlap";
const char* CameraCalc::_sideOverlapName = "SideOverlap";
const char* CameraCalc::_adjustedFootprintFrontalName = "AdjustedFootprintFrontal";
const char* CameraCalc::_adjustedFootprintSideName = "AdjustedFootprintSide";
const char* CameraCalc::_jsonCameraSpecTypeKey = "CameraSpecType";
const char* CameraCalc::_jsonKnownCameraNameKey = "CameraName";
CameraCalc::CameraCalc(Vehicle* vehicle, QObject* parent)
: CameraSpec (parent)
, _vehicle (vehicle)
, _dirty (false)
, _cameraSpecType (CameraSpecNone)
, _disableRecalc (false)
, _metaDataMap (FactMetaData::createMapFromJsonFile(QStringLiteral(":/json/CameraCalc.FactMetaData.json"), this))
, _valueSetIsDistanceFact (0, _valueSetIsDistanceName, FactMetaData::valueTypeBool)
, _distanceToSurfaceFact (0, _distanceToSurfaceName, FactMetaData::valueTypeDouble)
, _imageDensityFact (0, _imageDensityName, FactMetaData::valueTypeDouble)
, _frontalOverlapFact (0, _frontalOverlapName, FactMetaData::valueTypeDouble)
, _sideOverlapFact (0, _sideOverlapName, FactMetaData::valueTypeDouble)
, _adjustedFootprintSideFact (0, _adjustedFootprintSideName, FactMetaData::valueTypeDouble)
, _adjustedFootprintFrontalFact (0, _adjustedFootprintFrontalName, FactMetaData::valueTypeDouble)
, _imageFootprintSide (0)
, _imageFootprintFrontal (0)
, _knownCameraList (_vehicle->staticCameraList())
{
QQmlEngine::setObjectOwnership(this, QQmlEngine::CppOwnership);
_valueSetIsDistanceFact.setMetaData (_metaDataMap[_valueSetIsDistanceName], true /* setDefaultFromMetaData */);
_distanceToSurfaceFact.setMetaData (_metaDataMap[_distanceToSurfaceName], true);
_imageDensityFact.setMetaData (_metaDataMap[_imageDensityName], true);
_frontalOverlapFact.setMetaData (_metaDataMap[_frontalOverlapName], true);
_sideOverlapFact.setMetaData (_metaDataMap[_sideOverlapName], true);
_adjustedFootprintSideFact.setMetaData (_metaDataMap[_adjustedFootprintSideName], true);
_adjustedFootprintFrontalFact.setMetaData (_metaDataMap[_adjustedFootprintFrontalName], true);
connect(this, &CameraCalc::knownCameraNameChanged, this, &CameraCalc::_knownCameraNameChanged);
connect(this, &CameraCalc::cameraSpecTypeChanged, this, &CameraCalc::_recalcTriggerDistance);
connect(&_distanceToSurfaceFact, &Fact::rawValueChanged, this, &CameraCalc::_recalcTriggerDistance);
connect(&_imageDensityFact, &Fact::rawValueChanged, this, &CameraCalc::_recalcTriggerDistance);
connect(&_frontalOverlapFact, &Fact::rawValueChanged, this, &CameraCalc::_recalcTriggerDistance);
connect(&_sideOverlapFact, &Fact::rawValueChanged, this, &CameraCalc::_recalcTriggerDistance);
connect(landscape(), &Fact::rawValueChanged, this, &CameraCalc::_recalcTriggerDistance);
_recalcTriggerDistance();
}
void CameraCalc::setDirty(bool dirty)
{
if (_dirty != dirty) {
_dirty = dirty;
emit dirtyChanged(_dirty);
}
}
void CameraCalc::setCameraSpecType(CameraSpecType cameraSpecType)
{
if (cameraSpecType != _cameraSpecType) {
_cameraSpecType = cameraSpecType;
emit cameraSpecTypeChanged(_cameraSpecType);
}
}
void CameraCalc::setKnownCameraName(QString knownCameraName)
{
if (knownCameraName != _knownCameraName) {
_knownCameraName = knownCameraName;
emit knownCameraNameChanged(_knownCameraName);
}
}
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void CameraCalc::_knownCameraNameChanged(QString knownCameraName)
{
if (_cameraSpecType == CameraSpecKnown) {
CameraMetaData* cameraMetaData = NULL;
// Update camera specs to new camera
for (int cameraIndex=0; cameraIndex<_knownCameraList.count(); cameraIndex++) {
cameraMetaData = _knownCameraList[cameraIndex].value<CameraMetaData*>();
if (knownCameraName == cameraMetaData->name()) {
break;
}
}
_disableRecalc = true;
if (cameraMetaData) {
sensorWidth()->setRawValue (cameraMetaData->sensorWidth());
sensorHeight()->setRawValue (cameraMetaData->sensorHeight());
imageWidth()->setRawValue (cameraMetaData->imageWidth());
imageHeight()->setRawValue (cameraMetaData->imageHeight());
focalLength()->setRawValue (cameraMetaData->focalLength());
landscape()->setRawValue (cameraMetaData->landscape());
fixedOrientation()->setRawValue (cameraMetaData->fixedOrientation());
minTriggerInterval()->setRawValue (cameraMetaData->minTriggerInterval());
} else {
// We don't know this camera, switch back to custom
_cameraSpecType = CameraSpecCustom;
emit cameraSpecTypeChanged(_cameraSpecType);
}
_disableRecalc = false;
_recalcTriggerDistance();
}
}
void CameraCalc::_recalcTriggerDistance(void)
{
if (_disableRecalc || _cameraSpecType == CameraSpecNone) {
return;
}
_disableRecalc = true;
double focalLength = this->focalLength()->rawValue().toDouble();
double sensorWidth = this->sensorWidth()->rawValue().toDouble();
double sensorHeight = this->sensorHeight()->rawValue().toDouble();
double imageWidth = this->imageWidth()->rawValue().toDouble();
double imageHeight = this->imageHeight()->rawValue().toDouble();
double imageDensity = _imageDensityFact.rawValue().toDouble();
if (focalLength <= 0 || sensorWidth <= 0 || sensorHeight <= 0 || imageWidth <= 0 || imageHeight <= 0 || imageDensity <= 0) {
return;
}
if (_valueSetIsDistanceFact.rawValue().toBool()) {
_imageDensityFact.setRawValue((_distanceToSurfaceFact.rawValue().toDouble() * sensorWidth * 100.0) / (imageWidth * focalLength));
} else {
_distanceToSurfaceFact.setRawValue((imageWidth * _imageDensityFact.rawValue().toDouble() * focalLength) / (sensorWidth * 100.0));
}
imageDensity = _imageDensityFact.rawValue().toDouble();
if (landscape()->rawValue().toBool()) {
_imageFootprintSide = (imageWidth * imageDensity) / 100.0;
_imageFootprintFrontal = (imageHeight * imageDensity) / 100.0;
} else {
_imageFootprintSide = (imageHeight * imageDensity) / 100.0;
_imageFootprintFrontal = (imageWidth * imageDensity) / 100.0;
}
_adjustedFootprintSideFact.setRawValue (_imageFootprintSide * ((100.0 - _sideOverlapFact.rawValue().toDouble()) / 100.0));
_adjustedFootprintFrontalFact.setRawValue (_imageFootprintFrontal * ((100.0 - _frontalOverlapFact.rawValue().toDouble()) / 100.0));
emit imageFootprintSideChanged (_imageFootprintSide);
emit imageFootprintFrontalChanged (_imageFootprintFrontal);
_disableRecalc = false;
}
void CameraCalc::save(QJsonObject& json) const
{
json[_jsonCameraSpecTypeKey] = (int)_cameraSpecType;
json[_adjustedFootprintSideName] = _adjustedFootprintSideFact.rawValue().toDouble();
json[_adjustedFootprintFrontalName] = _adjustedFootprintFrontalFact.rawValue().toDouble();
json[_distanceToSurfaceName] = _distanceToSurfaceFact.rawValue().toDouble();
if (_cameraSpecType != CameraSpecNone) {
CameraSpec::save(json);
json[_jsonKnownCameraNameKey] = _knownCameraName;
json[_valueSetIsDistanceName] = _valueSetIsDistanceFact.rawValue().toBool();
json[_imageDensityName] = _imageDensityFact.rawValue().toDouble();
json[_frontalOverlapName] = _frontalOverlapFact.rawValue().toDouble();
json[_sideOverlapName] = _sideOverlapFact.rawValue().toDouble();
bool CameraCalc::load(const QJsonObject& json, QString& errorString)
{
QList<JsonHelper::KeyValidateInfo> keyInfoList1 = {
{ _jsonCameraSpecTypeKey, QJsonValue::Double, true },
{ _adjustedFootprintSideName, QJsonValue::Double, true },
{ _adjustedFootprintFrontalName, QJsonValue::Double, true },
{ _distanceToSurfaceName, QJsonValue::Double, true },
if (!JsonHelper::validateKeys(json, keyInfoList1, errorString)) {
int cameraSpecType = json[_jsonCameraSpecTypeKey].toInt();
switch (cameraSpecType) {
case CameraSpecNone:
case CameraSpecCustom:
case CameraSpecKnown:
break;
default:
errorString = tr("Unsupported CameraSpecType %d").arg(cameraSpecType);
setCameraSpecType((CameraSpecType)cameraSpecType);
_adjustedFootprintSideFact.setRawValue (json[_adjustedFootprintSideName].toDouble());
_adjustedFootprintFrontalFact.setRawValue (json[_adjustedFootprintFrontalName].toDouble());
_distanceToSurfaceFact.setRawValue (json[_distanceToSurfaceName].toDouble());
if (_cameraSpecType != CameraSpecNone) {
QList<JsonHelper::KeyValidateInfo> keyInfoList2 = {
{ _jsonKnownCameraNameKey, QJsonValue::String, true },
{ _valueSetIsDistanceName, QJsonValue::Bool, true },
{ _imageDensityName, QJsonValue::Double, true },
{ _frontalOverlapName, QJsonValue::Double, true },
{ _sideOverlapName, QJsonValue::Double, true },
};
if (!JsonHelper::validateKeys(json, keyInfoList2, errorString)) {
setKnownCameraName(json[_jsonKnownCameraNameKey].toString());
_valueSetIsDistanceFact.setRawValue (json[_valueSetIsDistanceName].toBool());
_imageDensityFact.setRawValue (json[_imageDensityName].toDouble());
_frontalOverlapFact.setRawValue (json[_frontalOverlapName].toDouble());
_sideOverlapFact.setRawValue (json[_sideOverlapName].toDouble());
if (!CameraSpec::load(json, errorString)) {
return false;
}
}