float OsmAnd::AtlasMapRenderer_OpenGL::getReferenceTileSizeOnScreen( const MapRendererState& state )
{
const auto& rasterMapProvider = state.rasterLayerProviders[static_cast<int>(RasterMapLayerId::BaseLayer)];
if(!rasterMapProvider)
return static_cast<float>(DefaultReferenceTileSizeOnScreen) * setupOptions.displayDensityFactor;
auto tileProvider = std::static_pointer_cast<IMapBitmapTileProvider>(rasterMapProvider);
return tileProvider->getTileSize() * (setupOptions.displayDensityFactor / tileProvider->getTileDensity());
}
void OsmAnd::AtlasMapRenderer_BaseOpenGL::updateConfiguration()
{
BaseAtlasMapRenderer::updateConfiguration();
// Prepare values for projection matrix
_aspectRatio = static_cast<float>(_activeConfig.viewport.width());
auto viewportHeight = _activeConfig.viewport.height();
if(viewportHeight > 0)
_aspectRatio /= static_cast<float>(viewportHeight);
_fovInRadians = qDegreesToRadians(_activeConfig.fieldOfView);
_projectionPlaneHalfHeight = _zNear * _fovInRadians;
_projectionPlaneHalfWidth = _projectionPlaneHalfHeight * _aspectRatio;
// Setup projection with fake Z-far plane
_mProjection = glm::frustum(-_projectionPlaneHalfWidth, _projectionPlaneHalfWidth, -_projectionPlaneHalfHeight, _projectionPlaneHalfHeight, _zNear, 1000.0f);
// Calculate limits of camera distance to target and actual distance
const auto& rasterMapProvider = _activeConfig.tileProviders[RasterMap];
auto tileProvider = static_cast<IMapBitmapTileProvider*>(rasterMapProvider.get());
const float screenTile = tileProvider->getTileSize() * (_activeConfig.displayDensityFactor / tileProvider->getTileDensity());
_nearDistanceFromCameraToTarget = Utilities_BaseOpenGL::calculateCameraDistance(_mProjection, _activeConfig.viewport, TileSide3D / 2.0f, screenTile / 2.0f, 1.5f);
_baseDistanceFromCameraToTarget = Utilities_BaseOpenGL::calculateCameraDistance(_mProjection, _activeConfig.viewport, TileSide3D / 2.0f, screenTile / 2.0f, 1.0f);
_farDistanceFromCameraToTarget = Utilities_BaseOpenGL::calculateCameraDistance(_mProjection, _activeConfig.viewport, TileSide3D / 2.0f, screenTile / 2.0f, 0.75f);
// zoomFraction == [ 0.0 ... 0.5] scales tile [1.0x ... 1.5x]
// zoomFraction == [-0.5 ...-0.0] scales tile [.75x ... 1.0x]
if(_activeConfig.zoomFraction >= 0.0f)
_distanceFromCameraToTarget = _baseDistanceFromCameraToTarget - (_baseDistanceFromCameraToTarget - _nearDistanceFromCameraToTarget) * (2.0f * _activeConfig.zoomFraction);
else
_distanceFromCameraToTarget = _baseDistanceFromCameraToTarget - (_farDistanceFromCameraToTarget - _baseDistanceFromCameraToTarget) * (2.0f * _activeConfig.zoomFraction);
_groundDistanceFromCameraToTarget = _distanceFromCameraToTarget * qCos(qDegreesToRadians(_activeConfig.elevationAngle));
_tileScaleFactor = ((_activeConfig.zoomFraction >= 0.0f) ? (1.0f + _activeConfig.zoomFraction) : (1.0f + 0.5f * _activeConfig.zoomFraction));
_scaleToRetainProjectedSize = _distanceFromCameraToTarget / _baseDistanceFromCameraToTarget;
// Recalculate projection with obtained value
_zSkyplane = _activeConfig.fogDistance * _scaleToRetainProjectedSize + _distanceFromCameraToTarget;
_zFar = glm::length(glm::vec3(_projectionPlaneHalfWidth * (_zSkyplane / _zNear), _projectionPlaneHalfHeight * (_zSkyplane / _zNear), _zSkyplane));
_mProjection = glm::frustum(-_projectionPlaneHalfWidth, _projectionPlaneHalfWidth, -_projectionPlaneHalfHeight, _projectionPlaneHalfHeight, _zNear, _zFar);
_mProjectionInv = glm::inverse(_mProjection);
// Setup camera
_mDistance = glm::translate(0.0f, 0.0f, -_distanceFromCameraToTarget);
_mElevation = glm::rotate(_activeConfig.elevationAngle, glm::vec3(1.0f, 0.0f, 0.0f));
_mAzimuth = glm::rotate(_activeConfig.azimuth, glm::vec3(0.0f, 1.0f, 0.0f));
_mView = _mDistance * _mElevation * _mAzimuth;
// Get inverse camera
_mDistanceInv = glm::translate(0.0f, 0.0f, _distanceFromCameraToTarget);
_mElevationInv = glm::rotate(-_activeConfig.elevationAngle, glm::vec3(1.0f, 0.0f, 0.0f));
_mAzimuthInv = glm::rotate(-_activeConfig.azimuth, glm::vec3(0.0f, 1.0f, 0.0f));
_mViewInv = _mAzimuthInv * _mElevationInv * _mDistanceInv;
// Correct fog distance
_correctedFogDistance = _activeConfig.fogDistance * _scaleToRetainProjectedSize + (_distanceFromCameraToTarget - _groundDistanceFromCameraToTarget);
// Calculate skyplane size
float zSkyplaneK = _zSkyplane / _zNear;
_skyplaneHalfSize.x = zSkyplaneK * _projectionPlaneHalfWidth;
_skyplaneHalfSize.y = zSkyplaneK * _projectionPlaneHalfHeight;
// Compute visible tileset
computeVisibleTileset();
}
