static void GetPolygonPoints(std::vector<RasterPoint> &pts, const AirspacePolygon &airspace, const RasterPoint pt, unsigned radius) { GeoBounds bounds = airspace.GetGeoBounds(); GeoPoint center = bounds.GetCenter(); fixed geo_heigth = bounds.GetGeoHeight(); fixed geo_width = bounds.GetGeoWidth(); fixed geo_size = std::max(geo_heigth, geo_width); WindowProjection projection; projection.SetScreenSize({radius * 2, radius * 2}); projection.SetScreenOrigin(pt.x, pt.y); projection.SetGeoLocation(center); projection.SetScale(fixed(radius * 2) / geo_size); projection.SetScreenAngle(Angle::Zero()); projection.UpdateScreenBounds(); const SearchPointVector &border = airspace.GetPoints(); pts.reserve(border.size()); for (auto it = border.begin(), it_end = border.end(); it != it_end; ++it) pts.push_back(projection.GeoToScreen(it->GetLocation())); }
void OZPreviewRenderer::Draw(Canvas &canvas, const ObservationZonePoint &oz, const RasterPoint pt, unsigned radius, const TaskLook &look, const AirspaceRendererSettings &airspace_settings, const AirspaceLook &airspace_look) { fixed scale; GeoPoint center; if (IsAncientHardware()) { scale = fixed(radius) / ((const CylinderZone &)oz).GetRadius(); center = oz.GetReference(); } else { OZBoundary boundary = oz.GetBoundary(); auto it = boundary.begin(); GeoBounds bounds(*it); for (auto it_end = boundary.end(); it != it_end; ++it) bounds.Extend(*it); center = bounds.GetCenter(); fixed geo_heigth = GeoPoint(center.longitude, bounds.north).Distance( GeoPoint(center.longitude, bounds.south)); fixed geo_width = GeoPoint(bounds.west, center.latitude).Distance( GeoPoint(bounds.east, center.latitude)); scale = fixed(radius * 2) / std::max(geo_heigth, geo_width); } WindowProjection projection; projection.SetScreenSize(radius * 2, radius * 2); projection.SetScreenOrigin(pt.x, pt.y); projection.SetGeoLocation(center); projection.SetScale(scale); projection.SetScreenAngle(Angle::Zero()); projection.UpdateScreenBounds(); OZRenderer ozv(look, airspace_look, airspace_settings); ozv.Draw(canvas, OZRenderer::LAYER_SHADE, projection, oz, 1); ozv.Draw(canvas, OZRenderer::LAYER_INACTIVE, projection, oz, 1); ozv.Draw(canvas, OZRenderer::LAYER_ACTIVE, projection, oz, 1); }
void OZPreviewRenderer::Draw(Canvas &canvas, const ObservationZonePoint &oz, const PixelPoint pt, unsigned radius, const TaskLook &look, const AirspaceRendererSettings &airspace_settings, const AirspaceLook &airspace_look) { double scale; GeoPoint center; if (IsAncientHardware()) { scale = double(radius) / ((const CylinderZone &)oz).GetRadius(); center = oz.GetReference(); } else { OZBoundary boundary = oz.GetBoundary(); GeoBounds bounds = GeoBounds::Invalid(); for (auto i = boundary.begin(), end = boundary.end(); i != end; ++i) bounds.Extend(*i); center = bounds.GetCenter(); auto geo_width = bounds.GetGeoWidth(); auto geo_heigth = bounds.GetGeoHeight(); scale = double(radius * 2) / std::max(geo_heigth, geo_width); } WindowProjection projection; projection.SetScreenSize({radius * 2, radius * 2}); projection.SetScreenOrigin(pt.x, pt.y); projection.SetGeoLocation(center); projection.SetScale(scale); projection.SetScreenAngle(Angle::Zero()); projection.UpdateScreenBounds(); OZRenderer ozv(look, airspace_look, airspace_settings); ozv.Draw(canvas, OZRenderer::LAYER_SHADE, projection, oz, 1); ozv.Draw(canvas, OZRenderer::LAYER_INACTIVE, projection, oz, 1); ozv.Draw(canvas, OZRenderer::LAYER_ACTIVE, projection, oz, 1); }
static void DrawPolygon(Canvas &canvas, const AirspacePolygon &airspace, const RasterPoint pt, unsigned radius) { if (IsAncientHardware()) { canvas.Rectangle(pt.x - radius, pt.y - radius, pt.x + radius, pt.y + radius); return; } GeoBounds bounds = airspace.GetGeoBounds(); GeoPoint center = bounds.GetCenter(); fixed geo_heigth = GeoPoint(center.longitude, bounds.north).Distance( GeoPoint(center.longitude, bounds.south)); fixed geo_width = GeoPoint(bounds.west, center.latitude).Distance( GeoPoint(bounds.east, center.latitude)); fixed geo_size = std::max(geo_heigth, geo_width); WindowProjection projection; projection.SetScreenSize(radius * 2, radius * 2); projection.SetScreenOrigin(pt.x, pt.y); projection.SetGeoLocation(center); projection.SetScale(fixed(radius * 2) / geo_size); projection.SetScreenAngle(Angle::Zero()); projection.UpdateScreenBounds(); const SearchPointVector &border = airspace.GetPoints(); std::vector<RasterPoint> pts; pts.reserve(border.size()); for (auto it = border.begin(), it_end = border.end(); it != it_end; ++it) pts.push_back(projection.GeoToScreen(it->get_location())); canvas.polygon(&pts[0], (unsigned)pts.size()); }