mirror of
https://github.com/ciphervance/supercell-wx.git
synced 2025-10-30 08:10:05 +00:00
Dan Paulat
parent
869dee8288
commit
9c442574ae
3 changed files with 138 additions and 31 deletions
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@ -1,4 +1,5 @@
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#include <scwx/qt/view/level3_radial_view.hpp>
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#include <scwx/qt/util/geographic_lib.hpp>
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#include <scwx/common/constants.hpp>
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#include <scwx/util/logger.hpp>
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#include <scwx/util/threads.hpp>
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@ -19,21 +20,37 @@ namespace view
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static const std::string logPrefix_ = "scwx::qt::view::level3_radial_view";
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static const auto logger_ = scwx::util::Logger::Create(logPrefix_);
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static constexpr uint16_t RANGE_FOLDED = 1u;
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static constexpr uint32_t VERTICES_PER_BIN = 6u;
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static constexpr uint32_t VALUES_PER_VERTEX = 2u;
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static constexpr std::uint32_t kMaxRadialGates_ =
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common::MAX_0_5_DEGREE_RADIALS * common::MAX_DATA_MOMENT_GATES;
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static constexpr std::uint32_t kMaxCoordinates_ = kMaxRadialGates_ * 2u;
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static constexpr std::uint16_t RANGE_FOLDED = 1u;
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static constexpr std::uint32_t VERTICES_PER_BIN = 6u;
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static constexpr std::uint32_t VALUES_PER_VERTEX = 2u;
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class Level3RadialViewImpl
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{
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public:
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explicit Level3RadialViewImpl() :
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latitude_ {}, longitude_ {}, range_ {}, vcp_ {}, sweepTime_ {}
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explicit Level3RadialViewImpl(Level3RadialView* self) :
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self_ {self},
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latitude_ {},
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longitude_ {},
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range_ {},
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vcp_ {},
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sweepTime_ {}
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{
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coordinates_.resize(kMaxCoordinates_);
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}
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~Level3RadialViewImpl() = default;
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std::vector<float> vertices_;
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std::vector<std::uint8_t> dataMoments8_;
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void ComputeCoordinates(
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std::shared_ptr<wsr88d::rpg::GenericRadialDataPacket> radialData);
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Level3RadialView* self_;
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std::vector<float> coordinates_ {};
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std::vector<float> vertices_ {};
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std::vector<std::uint8_t> dataMoments8_ {};
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float latitude_;
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float longitude_;
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@ -47,7 +64,7 @@ Level3RadialView::Level3RadialView(
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const std::string& product,
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std::shared_ptr<manager::RadarProductManager> radarProductManager) :
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Level3ProductView(product, radarProductManager),
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p(std::make_unique<Level3RadialViewImpl>())
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p(std::make_unique<Level3RadialViewImpl>(this))
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{
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}
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@ -155,7 +172,7 @@ void Level3RadialView::ComputeSweep()
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}
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// A message with radial data should either have a Digital Radial Data
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// Array Packet, or a Radial Data Array Packet (TODO)
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// Array Packet, or a Radial Data Array Packet
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std::shared_ptr<wsr88d::rpg::DigitalRadialDataArrayPacket>
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digitalDataPacket = nullptr;
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std::shared_ptr<wsr88d::rpg::RadialDataPacket> radialDataPacket = nullptr;
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@ -205,20 +222,32 @@ void Level3RadialView::ComputeSweep()
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return;
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}
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// Assume the number of radials should be 360 or 720
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const size_t radials = radialData->number_of_radials();
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if (radials != 360 && radials != 720)
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// Valid number of radials is 1-720
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size_t radials = radialData->number_of_radials();
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if (radials < 1 || radials > 720)
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{
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logger_->warn("Unsupported number of radials: {}", radials);
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return;
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}
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const common::RadialSize radialSize =
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(radials == common::MAX_0_5_DEGREE_RADIALS) ?
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common::RadialSize::_0_5Degree :
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common::RadialSize::_1Degree;
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common::RadialSize radialSize;
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if (radials == common::MAX_0_5_DEGREE_RADIALS)
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{
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radialSize = common::RadialSize::_0_5Degree;
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}
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else if (radials == common::MAX_1_DEGREE_RADIALS)
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{
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radialSize = common::RadialSize::_1Degree;
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}
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else
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{
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radialSize = common::RadialSize::NonStandard;
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}
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const std::vector<float>& coordinates =
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radarProductManager->coordinates(radialSize);
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(radialSize == common::RadialSize::NonStandard) ?
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p->coordinates_ :
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radarProductManager->coordinates(radialSize);
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// There should be a positive number of range bins in radial data
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const uint16_t gates = radialData->number_of_range_bins();
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@ -232,8 +261,8 @@ void Level3RadialView::ComputeSweep()
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p->longitude_ = descriptionBlock->longitude_of_radar();
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p->range_ = descriptionBlock->range();
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p->sweepTime_ =
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util::TimePoint(descriptionBlock->volume_scan_date(),
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descriptionBlock->volume_scan_start_time() * 1000);
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scwx::util::TimePoint(descriptionBlock->volume_scan_date(),
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descriptionBlock->volume_scan_start_time() * 1000);
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p->vcp_ = descriptionBlock->volume_coverage_pattern();
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// Calculate vertices
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@ -255,9 +284,18 @@ void Level3RadialView::ComputeSweep()
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const uint16_t snrThreshold = descriptionBlock->threshold();
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// Determine which radial to start at
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const float radialMultiplier = radials / 360.0f;
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const float startAngle = radialData->start_angle(0);
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const uint16_t startRadial = std::lroundf(startAngle * radialMultiplier);
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std::uint16_t startRadial;
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if (radialSize == common::RadialSize::NonStandard)
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{
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p->ComputeCoordinates(radialData);
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startRadial = 0;
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}
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else
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{
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const float radialMultiplier = radials / 360.0f;
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const float startAngle = radialData->start_angle(0);
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startRadial = std::lroundf(startAngle * radialMultiplier);
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}
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for (uint16_t radial = 0; radial < radialData->number_of_radials(); radial++)
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{
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@ -371,6 +409,73 @@ void Level3RadialView::ComputeSweep()
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emit SweepComputed();
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}
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void Level3RadialViewImpl::ComputeCoordinates(
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std::shared_ptr<wsr88d::rpg::GenericRadialDataPacket> radialData)
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{
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logger_->debug("ComputeCoordinates()");
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boost::timer::cpu_timer timer;
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const GeographicLib::Geodesic& geodesic(
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util::GeographicLib::DefaultGeodesic());
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auto radarProductManager = self_->radar_product_manager();
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auto radarSite = radarProductManager->radar_site();
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const float gateSize = radarProductManager->gate_size();
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const double radarLatitude = radarSite->latitude();
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const double radarLongitude = radarSite->longitude();
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// Calculate azimuth coordinates
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timer.start();
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const std::uint16_t numRadials = radialData->number_of_radials();
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const std::uint16_t numRangeBins = radialData->number_of_range_bins();
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const std::uint32_t numRadialGates = numRadials * numRangeBins;
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const std::uint32_t maxRadialGates =
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numRadials * common::MAX_DATA_MOMENT_GATES;
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auto radialGates = boost::irange<uint32_t>(0, maxRadialGates);
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std::for_each(
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std::execution::par_unseq,
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radialGates.begin(),
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radialGates.end(),
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[&](std::uint32_t radialGate)
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{
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const std::uint16_t gate = static_cast<std::uint16_t>(
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radialGate % common::MAX_DATA_MOMENT_GATES);
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if (gate >= numRadialGates)
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{
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return;
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}
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const std::uint16_t radial = static_cast<std::uint16_t>(
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radialGate / common::MAX_DATA_MOMENT_GATES);
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const float deltaAngle =
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(radial == 0) ? radialData->start_angle(0) -
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radialData->start_angle(numRadials - 1) :
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radialData->delta_angle(radial);
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const float angle =
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radialData->start_angle(radial) - (deltaAngle * 0.5f);
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const float range = (gate + 1) * gateSize;
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const std::size_t offset = radialGate * 2;
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double latitude;
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double longitude;
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geodesic.Direct(
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radarLatitude, radarLongitude, angle, range, latitude, longitude);
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coordinates_[offset] = latitude;
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coordinates_[offset + 1] = longitude;
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});
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timer.stop();
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logger_->debug("Coordinates calculated in {}", timer.format(6, "%ws"));
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}
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std::shared_ptr<Level3RadialView> Level3RadialView::Create(
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const std::string& product,
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std::shared_ptr<manager::RadarProductManager> radarProductManager)
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@ -8,7 +8,8 @@ namespace common
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enum class RadialSize
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{
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_0_5Degree,
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_1Degree
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_1Degree,
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NonStandard
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};
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} // namespace common
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@ -20,19 +20,20 @@ public:
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explicit GenericRadialDataPacket();
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~GenericRadialDataPacket();
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GenericRadialDataPacket(const GenericRadialDataPacket&) = delete;
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GenericRadialDataPacket(const GenericRadialDataPacket&) = delete;
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GenericRadialDataPacket& operator=(const GenericRadialDataPacket&) = delete;
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GenericRadialDataPacket(GenericRadialDataPacket&&) noexcept;
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GenericRadialDataPacket& operator=(GenericRadialDataPacket&&) noexcept;
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virtual std::uint16_t index_of_first_range_bin() const = 0;
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virtual std::int16_t i_center_of_sweep() const = 0;
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virtual std::int16_t j_center_of_sweep() const = 0;
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virtual std::uint16_t number_of_radials() const = 0;
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virtual std::uint16_t number_of_range_bins() const = 0;
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virtual float start_angle(std::uint16_t r) const = 0;
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virtual float delta_angle(std::uint16_t r) const = 0;
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virtual int16_t i_center_of_sweep() const = 0;
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virtual int16_t j_center_of_sweep() const = 0;
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virtual uint16_t number_of_radials() const = 0;
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virtual uint16_t number_of_range_bins() const = 0;
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virtual float start_angle(uint16_t r) const = 0;
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virtual const std::vector<uint8_t>& level(uint16_t r) const = 0;
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virtual const std::vector<std::uint8_t>& level(std::uint16_t r) const = 0;
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private:
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std::unique_ptr<GenericRadialDataPacketImpl> p;
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