Modifier and Type | Field and Description |
---|---|
protected Sector |
GDAL.Area.bbox |
Modifier and Type | Method and Description |
---|---|
static Sector |
GDAL.Area.calcBoundingSector(org.gdal.osr.SpatialReference srs,
java.awt.geom.Point2D[] corners)
calculates a Geodetic bounding box
|
protected Sector |
TiledRasterProducer.computeBoundingSector(java.lang.Iterable<? extends DataRaster> rasters) |
Sector |
RasterServerConfiguration.getSector() |
Sector |
RasterServerConfiguration.RasterSector.getSector() |
Sector |
RasterServerConfiguration.Source.getSector() |
Sector |
RasterServer.getSector()
Returns a Geographic extend (coverage) of the composer
|
Sector |
GDAL.Area.getSector() |
Sector |
DataRaster.getSector()
Returns the region covered be the data.
|
Sector |
CachedDataRaster.getSector() |
Sector |
BasicRasterServer.getSector() |
Sector |
AbstractDataRaster.getSector() |
Modifier and Type | Method and Description |
---|---|
protected org.gdal.gdal.Dataset |
GDALDataRaster.buildNorthUpDatasetFromOverview(Sector reqSector,
int reqWidth,
int reqHeight,
int bestOverviewIdx,
int srcWidth,
int srcHeight) |
protected java.awt.Rectangle |
AbstractDataRaster.computeClipRect(Sector clipSector,
DataRaster clippedRaster) |
protected LatLon |
TiledRasterProducer.computeDesiredTileDelta(Sector sector) |
protected java.awt.geom.AffineTransform |
BufferWrapperRaster.computeGeographicToRasterTransform(int width,
int height,
Sector sector) |
protected java.awt.geom.AffineTransform |
AbstractDataRaster.computeGeographicToRasterTransform(int width,
int height,
Sector sector) |
protected int |
MipMappedBufferedImageRaster.computeMipmapLevel(int sourceWidth,
int sourceHeight,
Sector sourceSector,
int destWidth,
int destHeight,
Sector destSector) |
protected java.awt.geom.AffineTransform |
BufferWrapperRaster.computeSourceToDestTransform(int sourceWidth,
int sourceHeight,
Sector sourceSector,
int destWidth,
int destHeight,
Sector destSector) |
protected java.awt.geom.AffineTransform |
AbstractDataRaster.computeSourceToDestTransform(int sourceWidth,
int sourceHeight,
Sector sourceSector,
int destWidth,
int destHeight,
Sector destSector) |
protected org.gdal.gdal.Dataset |
GDALDataRaster.createCompatibleDataset(int width,
int height,
Sector sector,
AVList destParams) |
protected abstract DataRaster |
TiledRasterProducer.createDataRaster(int width,
int height,
Sector sector,
AVList params) |
protected DataRaster |
TiledImageProducer.createDataRaster(int width,
int height,
Sector sector,
AVList params) |
protected DataRaster |
TiledElevationProducer.createDataRaster(int width,
int height,
Sector sector,
AVList params) |
protected org.gdal.gdal.Dataset |
GDALDataRaster.createMaskDataset(int width,
int height,
Sector sector) |
protected DataRaster |
ImageIORasterReader.createRaster(Sector sector,
java.awt.image.BufferedImage image) |
protected BufferWrapperRaster |
BufferWrapperRaster.createSubRaster(int width,
int height,
Sector sector,
AVList params)
This returns a new sub-raster initialized with the specified properties.
|
protected DataRaster |
GDALDataRaster.doGetSubRaster(int roiWidth,
int roiHeight,
Sector roiSector,
AVList roiParams) |
protected org.gdal.gdal.Dataset |
GDALDataRaster.getBestSuitedDataset(int reqWidth,
int reqHeight,
Sector reqSector)
The purpose of this method is to create the best suited dataset for the requested area.
|
DataRaster |
DataRaster.getSubRaster(int width,
int height,
Sector sector,
AVList params)
Returns a portion of this raster as another raster.
|
DataRaster |
CachedDataRaster.getSubRaster(int width,
int height,
Sector sector,
AVList params) |
DataRaster |
AbstractDataRaster.getSubRaster(int width,
int height,
Sector sector,
AVList params) |
GDAL.Area |
GDAL.Area.intersection(Sector sector) |
protected boolean |
GDALDataRaster.intersects(Sector reqSector) |
protected boolean |
TiledRasterProducer.isWithinLatLonLimits(Sector sector,
LatLon tileDelta,
LatLon tileOrigin) |
void |
GDALDataRaster.setSector(Sector sector)
Set a new extent to the data raster.
|
Constructor and Description |
---|
AbstractDataRaster(int width,
int height,
Sector sector) |
AbstractDataRaster(int width,
int height,
Sector sector,
AVList list) |
Area(org.gdal.osr.SpatialReference srs,
Sector sector) |
BufferedImageRaster(int width,
int height,
int transparency,
Sector sector) |
BufferedImageRaster(Sector sector,
java.awt.image.BufferedImage bufferedImage) |
BufferedImageRaster(Sector sector,
java.awt.image.BufferedImage bufferedImage,
AVList list) |
BufferWrapperRaster(int width,
int height,
Sector sector,
BufferWrapper buffer) |
BufferWrapperRaster(int width,
int height,
Sector sector,
BufferWrapper buffer,
AVList list) |
ByteBufferRaster(int width,
int height,
Sector sector,
AVList params) |
ByteBufferRaster(int width,
int height,
Sector sector,
java.nio.ByteBuffer byteBuffer,
AVList list) |
MipMappedBufferedImageRaster(Sector sector,
java.awt.image.BufferedImage image)
Creates a mipmapped version of a BufferedImageRaster from a single BufferedImage instance.
|
MipMappedBufferedImageRaster(Sector sector,
java.awt.image.BufferedImage[] images)
Creates a mipmapped version of a BufferedImageRaster from multi-resolution array od BufferedImage instances.
|
Modifier and Type | Field and Description |
---|---|
static Sector |
Sector.EMPTY_SECTOR |
static Sector |
Sector.FULL_SPHERE
A
Sector of latitude [-90 degrees, + 90 degrees] and longitude [-180 degrees, + 180 degrees]. |
Modifier and Type | Method and Description |
---|---|
static Sector |
Sector.boundingSector(Globe globe,
LatLon center,
double radius)
Returns a new
Sector encompassing a circle centered at a given position, with a given radius in
meter. |
static Sector |
Sector.boundingSector(java.lang.Iterable<? extends LatLon> locations) |
static Sector |
Sector.boundingSector(java.util.Iterator<TrackPoint> positions) |
static Sector |
Sector.boundingSector(LatLon pA,
LatLon pB) |
static Sector |
Sector.fromDegrees(double[] array)
Creates a new
Sector and initializes it to angles in the specified array. |
static Sector |
Sector.fromDegrees(double minLatitude,
double maxLatitude,
double minLongitude,
double maxLongitude)
Creates a new
Sector and initializes it to the specified angles. |
static Sector |
Sector.fromDegrees(java.awt.geom.Rectangle2D rectangle)
Creates a new
Sector and initializes it to the angles resulting from the given Rectangle2D in degrees lat-lon coordinates where x corresponds to longitude and y to latitude. |
static Sector |
Sector.fromDegreesAndClamp(double minLatitude,
double maxLatitude,
double minLongitude,
double maxLongitude)
Creates a new
Sector and initializes it to the specified angles. |
static Sector |
Sector.fromRadians(double minLatitude,
double maxLatitude,
double minLongitude,
double maxLongitude)
Creates a new
Sector and initializes it to the specified angles. |
static Sector |
Sector.fromUTMRectangle(int zone,
java.lang.String hemisphere,
double minEasting,
double maxEasting,
double minNorthing,
double maxNorthing)
Returns a geographic Sector which bounds the specified UTM rectangle.
|
Sector |
Sector.intersection(Angle latitude,
Angle longitude) |
static Sector |
Sector.intersection(java.lang.Iterable<? extends Sector> sectors)
Returns the intersection of all sectors in the specified iterable.
|
Sector |
Sector.intersection(Sector that) |
static Sector[] |
Sector.splitBoundingSectors(Globe globe,
LatLon center,
double radius)
Returns an array of Sectors encompassing a circle centered at a given position, with a given radius in meters.
|
static Sector[] |
Sector.splitBoundingSectors(java.lang.Iterable<? extends LatLon> locations) |
Sector[] |
Sector.subdivide() |
Sector[] |
Sector.subdivide(int div) |
Sector |
Sector.union(Angle latitude,
Angle longitude) |
static Sector |
Sector.union(java.lang.Iterable<? extends Sector> sectors) |
Sector |
Sector.union(Sector that)
Returns a new sector whose angles are the extremes of the this sector and another.
|
static Sector |
Sector.union(Sector sectorA,
Sector sectorB) |
Modifier and Type | Method and Description |
---|---|
int |
Sector.compareTo(Sector that)
Compares this sector to a specified sector according to their minimum latitude, minimum longitude, maximum
latitude, and maximum longitude, respectively.
|
static Box |
Sector.computeBoundingBox(Globe globe,
double verticalExaggeration,
Sector sector)
|
static Box |
Sector.computeBoundingBox(Globe globe,
double verticalExaggeration,
Sector sector,
double minElevation,
double maxElevation)
|
static Cylinder |
Sector.computeBoundingCylinder(Globe globe,
double verticalExaggeration,
Sector sector)
Returns a cylinder that minimally surrounds the specified sector at a specified vertical exaggeration.
|
static Cylinder |
Sector.computeBoundingCylinder(Globe globe,
double verticalExaggeration,
Sector sector,
double minElevation,
double maxElevation)
Returns a cylinder that minimally surrounds the specified sector at a specified vertical exaggeration and minimum
and maximum elevations for the sector.
|
static Cylinder |
Sector.computeBoundingCylinderOrig(Globe globe,
double verticalExaggeration,
Sector sector) |
static Cylinder |
Sector.computeBoundingCylinderOrig(Globe globe,
double verticalExaggeration,
Sector sector,
double minElevation,
double maxElevation)
Returns a cylinder that minimally surrounds the specified minimum and maximum elevations in the sector at a
specified vertical exaggeration.
|
static Sphere |
Sector.computeBoundingSphere(Globe globe,
double verticalExaggeration,
Sector sector)
Returns a sphere that minimally surrounds the sector at a specified vertical exaggeration.
|
static Cylinder |
Cylinder.computeVerticalBoundingCylinder(Globe globe,
double verticalExaggeration,
Sector sector)
Returns a cylinder that minimally surrounds the specified minimum and maximum elevations in the sector at a
specified vertical exaggeration, and is oriented such that the cylinder axis is perpendicular to the globe's
surface.
|
static Cylinder |
Cylinder.computeVerticalBoundingCylinder(Globe globe,
double verticalExaggeration,
Sector sector,
double minElevation,
double maxElevation)
Returns a cylinder that minimally surrounds the specified minimum and maximum elevations in the sector at a
specified vertical exaggeration, and is oriented such that the cylinder axis is perpendicular to the globe's
surface.
|
protected static Cylinder |
Cylinder.computeVerticalBoundsFromSectorLatitudeRange(Globe globe,
Sector sector,
double minHeight,
double maxHeight)
Compute the Cylinder that surrounds the equator, and has height defined by the sector's minumum and maximum
latitudes (including maxHeight).
|
protected static Cylinder |
Cylinder.computeVerticalBoundsFromSectorQuadrilateral(Globe globe,
Sector sector,
double minHeight,
double maxHeight)
Returns a cylinder that minimally surrounds the specified height range in the sector.
|
protected static Cylinder |
Cylinder.computeVerticalBoundsFromSectorVertices(Globe globe,
Sector sector,
double minHeight,
double maxHeight)
Returns a cylinder that surrounds the specified height range in the zero-area sector.
|
boolean |
Sector.contains(Sector that)
Determines whether another sector is fully contained within this one.
|
static Matrix |
Matrix.fromGeographicToViewport(Sector sector,
int x,
int y,
int width,
int height)
Computes a Matrix that will map the geographic region defined by sector onto a Cartesian region of the specified
width and height and centered at the point (x, y) . |
static Matrix |
Matrix.fromImageToGeographic(int imageWidth,
int imageHeight,
Sector sector)
Computes a
Matrix that will map a aligned 2D grid coordinates to geographic coordinates in degrees. |
static Matrix |
Matrix.fromViewportToGeographic(Sector sector,
int x,
int y,
int width,
int height)
Computes a Matrix that will map a Cartesian region of the specified
width and height
and centered at the point (x, y) to the geographic region defined by sector onto . |
Sector |
Sector.intersection(Sector that) |
boolean |
Sector.intersects(Sector that)
Determines whether this sector intersects another sector's range of latitude and longitude.
|
boolean |
Sector.intersectsInterior(Sector that)
Determines whether the interiors of this sector and another sector intersect.
|
Sector |
Sector.union(Sector that)
Returns a new sector whose angles are the extremes of the this sector and another.
|
static Sector |
Sector.union(Sector sectorA,
Sector sectorB) |
Modifier and Type | Method and Description |
---|---|
static Sector |
Sector.intersection(java.lang.Iterable<? extends Sector> sectors)
Returns the intersection of all sectors in the specified iterable.
|
boolean |
Sector.intersectsAny(java.lang.Iterable<? extends Sector> sectors)
Determines whether this sector intersects any one of the sectors in the specified iterable.
|
static Sector |
Sector.union(java.lang.Iterable<? extends Sector> sectors) |
Constructor and Description |
---|
Sector(Sector sector) |
Modifier and Type | Method and Description |
---|---|
Sector |
GeographicProjection.getProjectionLimits()
Indicates the latitude limits for this projection.
|
Modifier and Type | Method and Description |
---|---|
void |
ElevationModel.composeElevations(Sector sector,
java.util.List<? extends LatLon> latlons,
int tileWidth,
double[] buffer)
Determines the elevations at specified locations within a specified
Sector . |
void |
Globe.computePointsFromPositions(Sector sector,
int numLat,
int numLon,
double[] metersElevation,
Vec4[] out)
Computes a grid of cartesian points corresponding to a grid of geographic positions.
|
void |
EllipsoidalGlobe.computePointsFromPositions(Sector sector,
int numLat,
int numLon,
double[] metersElevation,
Vec4[] out)
Computes a grid of cartesian points corresponding to a grid of geographic positions.
|
protected void |
FlatGlobe.geodeticToCartesian(Sector sector,
int numLat,
int numLon,
double[] metersElevation,
Vec4[] out) |
protected void |
EllipsoidalGlobe.geodeticToCartesian(Sector sector,
int numLat,
int numLon,
double[] metersElevation,
Vec4[] out)
Maps a grid of geographic positions to Cartesian coordinates.
|
void |
GeographicProjection.geographicToCartesian(Globe globe,
Sector sector,
int numLat,
int numLon,
double[] metersElevation,
Vec4 offset,
Vec4[] out)
Converts a grid of geographic positions to a grid of points in Cartesian coordinates.
|
double |
ElevationModel.getBestResolution(Sector sector)
Indicates the best resolution attainable for a specified sector.
|
double[] |
ElevationModel.getBestResolutions(Sector sector) |
double |
ElevationModel.getDetailHint(Sector sector)
Returns the detail hint associated with the specified sector.
|
double[] |
Globe.getElevations(Sector sector,
java.util.List<? extends LatLon> latlons,
double[] targetResolution,
double[] elevations)
Indicates the elevations of a collection of locations.
|
double[] |
EllipsoidalGlobe.getElevations(Sector sector,
java.util.List<? extends LatLon> latLons,
double[] targetResolution,
double[] elevations) |
double[] |
ElevationModel.getElevations(Sector sector,
java.util.List<? extends LatLon> latlons,
double[] targetResolution,
double[] buffer)
Returns the elevations of a collection of locations.
|
double |
Globe.getElevations(Sector sector,
java.util.List<? extends LatLon> latlons,
double targetResolution,
double[] elevations)
Indicates the elevations of a collection of locations.
|
double |
EllipsoidalGlobe.getElevations(Sector sector,
java.util.List<? extends LatLon> latlons,
double targetResolution,
double[] elevations) |
double |
ElevationModel.getElevations(Sector sector,
java.util.List<? extends LatLon> latlons,
double targetResolution,
double[] buffer)
Returns the elevations of a collection of locations.
|
double[] |
ElevationModel.getExtremeElevations(Sector sector)
Returns the minimum and maximum elevations within a specified sector of the elevation model.
|
double |
ElevationModel.getLocalDataAvailability(Sector sector,
java.lang.Double targetResolution)
Returns the proportion of this elevation model's data that is local -- in the computer's data cache or installed
data filestore -- for a specified sector and target resolution.
|
double[] |
Globe.getMinAndMaxElevations(Sector sector)
Returns the minimum and maximum elevations within a specified sector on this Globe.
|
double[] |
EllipsoidalGlobe.getMinAndMaxElevations(Sector sector) |
double[] |
ElevationModel.getUnmappedElevations(Sector sector,
java.util.List<? extends LatLon> latlons,
double[] targetResolution,
double[] buffer)
Returns the elevations of a collection of locations.
|
double |
ElevationModel.getUnmappedElevations(Sector sector,
java.util.List<? extends LatLon> latlons,
double targetResolution,
double[] buffer)
Returns the elevations of a collection of locations.
|
int |
ElevationModel.intersects(Sector sector)
Indicates whether the elevation model covers a specified sector either partially or fully.
|
void |
GeographicProjection.setProjectionLimits(Sector projectionLimits)
Specifies the limits for this projection.
|
Modifier and Type | Field and Description |
---|---|
protected static Sector |
ProjectionUPS.NORTH_LIMITS |
protected Sector |
AbstractGeographicProjection.projectionLimits |
protected static Sector |
ProjectionUPS.SOUTH_LIMITS |
Modifier and Type | Method and Description |
---|---|
Sector |
AbstractGeographicProjection.getProjectionLimits() |
protected static Sector |
ProjectionTransverseMercator.makeProjectionLimits(Angle centralMeridian,
Angle width) |
Modifier and Type | Method and Description |
---|---|
void |
ProjectionUPS.geographicToCartesian(Globe globe,
Sector sector,
int numLat,
int numLon,
double[] metersElevation,
Vec4 offset,
Vec4[] out) |
void |
ProjectionTransverseMercator.geographicToCartesian(Globe globe,
Sector sector,
int numLat,
int numLon,
double[] metersElevation,
Vec4 offset,
Vec4[] out) |
void |
ProjectionSinusoidal.geographicToCartesian(Globe globe,
Sector sector,
int numLat,
int numLon,
double[] metersElevation,
Vec4 offset,
Vec4[] out) |
void |
ProjectionPolarEquidistant.geographicToCartesian(Globe globe,
Sector sector,
int numLat,
int numLon,
double[] metersElevation,
Vec4 offset,
Vec4[] out) |
void |
ProjectionModifiedSinusoidal.geographicToCartesian(Globe globe,
Sector sector,
int numLat,
int numLon,
double[] metersElevation,
Vec4 offset,
Vec4[] out) |
void |
ProjectionMercator.geographicToCartesian(Globe globe,
Sector sector,
int numLat,
int numLon,
double[] metersElevation,
Vec4 offset,
Vec4[] out) |
void |
ProjectionEquirectangular.geographicToCartesian(Globe globe,
Sector sector,
int numLat,
int numLon,
double[] metersElevation,
Vec4 offset,
Vec4[] out) |
void |
AbstractGeographicProjection.setProjectionLimits(Sector projectionLimits) |
Constructor and Description |
---|
AbstractGeographicProjection(Sector projectionLimits) |
Modifier and Type | Field and Description |
---|---|
Sector |
AbstractGraticuleLayer.GridElement.sector |
Modifier and Type | Method and Description |
---|---|
protected Sector[] |
BasicTiledImageLayerBulkDownloader.computeRandomRegions(Sector sector,
int div,
int numRegions) |
Modifier and Type | Method and Description |
---|---|
protected java.util.Iterator<Sector> |
BasicTiledImageLayerBulkDownloader.getRegionIterator(Sector sector,
int div) |
Modifier and Type | Method and Description |
---|---|
void |
SurfaceImageLayer.addImage(java.lang.String name,
java.awt.image.BufferedImage image,
Sector sector)
Add a
BufferedImage to the collection at an explicitly specified location. |
void |
SurfaceImageLayer.addImage(java.lang.String imagePath,
Sector sector)
Add an image to the collection and specify its coverage.
|
protected void |
GARSGraticuleLayer.GraticuleTile.addLabel(java.lang.String label,
Sector sector,
double resolution) |
java.awt.image.BufferedImage |
SurfaceImageLayer.composeImageForSector(Sector sector,
int canvasWidth,
int canvasHeight,
double aspectRatio,
java.awt.image.BufferedImage image)
Create an image for the portion of this layer lying within a specified sector.
|
java.awt.image.BufferedImage |
TiledImageLayer.composeImageForSector(Sector sector,
int canvasWidth,
int canvasHeight,
double aspectRatio,
int levelNumber,
java.lang.String mimeType,
boolean abortOnError,
java.awt.image.BufferedImage image,
int timeout)
Create an image for the portion of this layer lying within a specified sector.
|
int |
TiledImageLayer.computeLevelForResolution(Sector sector,
double resolution) |
protected Sector[] |
BasicTiledImageLayerBulkDownloader.computeRandomRegions(Sector sector,
int div,
int numRegions) |
protected int |
BasicTiledImageLayerBulkDownloader.computeRegionDivisions(Sector sector,
int levelNumber,
int maxCount) |
protected void |
AbstractGraticuleLayer.computeTruncatedSegment(Position p1,
Position p2,
Sector sector,
java.util.ArrayList<Position> positions) |
long |
TiledImageLayer.countImagesInSector(Sector sector) |
long |
TiledImageLayer.countImagesInSector(Sector sector,
int levelNumber) |
protected TextureTile |
TextureTile.createSubTile(Sector sector,
Level level,
int row,
int col)
|
long |
BasicTiledImageLayer.getEstimatedMissingDataSize(Sector sector,
double resolution)
Get the estimated size in bytes of the imagery not in the WorldWind file cache for the given sector and
resolution.
|
long |
BasicTiledImageLayer.getEstimatedMissingDataSize(Sector sector,
double resolution,
FileStore fileStore)
Get the estimated size in bytes of the imagery not in a specified file store for a specified sector and
resolution.
|
protected java.util.ArrayList<TextureTile> |
BasicTiledImageLayerBulkDownloader.getMissingTilesInSector(Sector sector,
int levelNumber) |
protected java.util.Iterator<Sector> |
BasicTiledImageLayerBulkDownloader.getRegionIterator(Sector sector,
int div) |
java.util.Collection<? extends Renderable> |
CachedRenderableLayer.getRenderables(Sector extent)
Returns all Renderables within or intersecting a specified sector.
|
TextureTile[][] |
TiledImageLayer.getTilesInSector(Sector sector,
int levelNumber) |
boolean |
AbstractGraticuleLayer.GridElement.isInView(DrawContext dc,
Sector vs) |
protected java.lang.String |
GARSGraticuleLayer.makeLabel(Sector sector,
java.lang.String graticuleType) |
BulkRetrievalThread |
BasicTiledImageLayer.makeLocal(Sector sector,
double resolution,
BulkRetrievalListener listener)
Start a new
BulkRetrievalThread that downloads all imagery for a given sector and resolution to the
current WorldWind file cache, without downloading imagery that is already in the cache. |
BulkRetrievalThread |
BasicTiledImageLayer.makeLocal(Sector sector,
double resolution,
FileStore fileStore,
BulkRetrievalListener listener)
Start a new
BulkRetrievalThread that downloads all imagery for a given sector and resolution to a
specified FileStore , without downloading imagery that is already in the file store. |
protected boolean |
TiledImageLayer.needToSplit(DrawContext dc,
Sector sector,
Level level) |
Constructor and Description |
---|
BasicTiledImageLayerBulkDownloader(BasicTiledImageLayer layer,
Sector sector,
double resolution,
BulkRetrievalListener listener)
Constructs a downloader to retrieve imagery not currently available in the WorldWind file cache.
|
BasicTiledImageLayerBulkDownloader(BasicTiledImageLayer layer,
Sector sector,
double resolution,
FileStore fileStore,
BulkRetrievalListener listener)
Constructs a downloader to retrieve imagery not currently available in a specified file store.
|
CachedRenderableLayer(Sector coverage)
Constructs a layer instance.
|
CachedRenderableLayer(Sector coverage,
int numLevels)
Constructs a layer instance.
|
GraticuleTile(Sector sector,
int divisions,
int level) |
GraticuleTile(Sector sector,
int divisions,
int level) |
GridElement(Sector sector,
java.lang.Object renderable,
java.lang.String type) |
TextureTile(Sector sector) |
TextureTile(Sector sector,
Level level,
int row,
int col) |
TextureTile(Sector sector,
Level level,
int row,
int column,
java.lang.String cacheName) |
Modifier and Type | Method and Description |
---|---|
protected Sector |
MGRSGraticuleLayer.computeVisibleSector(DrawContext dc) |
Modifier and Type | Method and Description |
---|---|
protected java.util.ArrayList<UTMBaseGraticuleLayer.SquareZone> |
UTMBaseGraticuleLayer.createSquaresGrid(int UTMZone,
java.lang.String hemisphere,
Sector UTMZoneSector,
double minEasting,
double maxEasting,
double minNorthing,
double maxNorthing) |
protected void |
MGRSGraticuleLayer.selectMGRSRenderables(DrawContext dc,
Sector vs) |
void |
UTMBaseGraticuleLayer.SquareZone.selectRenderables(DrawContext dc,
Sector vs) |
void |
UTMBaseGraticuleLayer.SquareGrid.selectRenderables(DrawContext dc,
Sector vs) |
Constructor and Description |
---|
GraticuleTile(Sector sector) |
SquareGrid(int UTMZone,
java.lang.String hemisphere,
Sector UTMZoneSector,
double SWEasting,
double SWNorthing,
double size) |
SquareZone(int UTMZone,
java.lang.String hemisphere,
Sector UTMZoneSector,
double SWEasting,
double SWNorthing,
double size) |
Modifier and Type | Class and Description |
---|---|
class |
MercatorSector |
Modifier and Type | Method and Description |
---|---|
java.awt.image.BufferedImage |
MercatorTiledImageLayer.composeImageForSector(Sector sector,
int imageWidth,
int imageHeight,
int levelNumber,
java.lang.String mimeType,
boolean abortOnError,
java.awt.image.BufferedImage image) |
int |
MercatorTiledImageLayer.computeLevelForResolution(Sector sector,
Globe globe,
double resolution) |
int |
MercatorTiledImageLayer.countImagesInSector(Sector sector,
int levelNumber) |
static MercatorSector |
MercatorSector.fromSector(Sector sector) |
Modifier and Type | Field and Description |
---|---|
Sector |
PlaceNameLayer.NavigationTile.navSector |
protected Sector |
PlaceNameLayer.Tile.sector |
static Sector |
PlaceNameService.TILING_SECTOR |
Modifier and Type | Method and Description |
---|---|
Sector |
PlaceNameService.getMaskingSector() |
Sector |
PlaceNameLayer.Tile.getSector() |
Modifier and Type | Method and Description |
---|---|
java.net.URL |
PlaceNameService.createServiceURLFromSector(Sector sector) |
protected int |
PlaceNameLayerBulkDownloader.estimateNumberTilesinSector(PlaceNameLayer.NavigationTile tile,
Sector searchSector) |
long |
PlaceNameLayer.getEstimatedMissingDataSize(Sector sector,
double resolution)
Get the estimated size in bytes of the placenames not in the WorldWind file cache for the given sector and
resolution.
|
long |
PlaceNameLayer.getEstimatedMissingDataSize(Sector sector,
double resolution,
FileStore fileStore)
Get the estimated size in bytes of the placenames not in a specified file store for the given sector and
resolution.
|
protected int |
PlaceNameLayerBulkDownloader.getMissingTilesCountEstimate(Sector sector,
double resolution) |
protected java.util.ArrayList<PlaceNameLayer.Tile> |
PlaceNameLayerBulkDownloader.getMissingTilesInSector(Sector sector) |
protected static boolean |
PlaceNameLayer.isSectorVisible(DrawContext dc,
Sector sector,
double minDistanceSquared,
double maxDistanceSquared) |
BulkRetrievalThread |
PlaceNameLayer.makeLocal(Sector sector,
double resolution,
BulkRetrievalListener listener)
Start a new
BulkRetrievalThread that downloads all placenames for a given sector and resolution to the
current WorldWind file cache. |
BulkRetrievalThread |
PlaceNameLayer.makeLocal(Sector sector,
double resolution,
FileStore fileStore,
BulkRetrievalListener listener)
Start a new
BulkRetrievalThread that downloads all placenames for a given sector and resolution to a
specified file store. |
protected java.util.List<PlaceNameLayer.NavigationTile> |
PlaceNameLayerBulkDownloader.navTilesVisible(PlaceNameLayer.NavigationTile tile,
Sector sector) |
Constructor and Description |
---|
PlaceNameLayerBulkDownloader(PlaceNameLayer layer,
Sector sector,
double resolution,
BulkRetrievalListener listener)
Constructs a downloader to retrieve placenames not currently available in the WorldWind file cache.
|
PlaceNameLayerBulkDownloader(PlaceNameLayer layer,
Sector sector,
double resolution,
FileStore fileStore,
BulkRetrievalListener listener)
Constructs a downloader to retrieve placenames not currently available in a specified file store and places it
there.
|
PlaceNameService(java.lang.String service,
java.lang.String dataset,
java.lang.String fileCachePath,
Sector sector,
LatLon tileDelta,
java.awt.Font font,
boolean versionTag)
PlaceNameService Constructor
|
Modifier and Type | Method and Description |
---|---|
Sector |
RPFFileIndex.IndexProperties.getBoundingSector() |
Sector |
RPFFileIndex.RPFFileRecord.getSector() |
Modifier and Type | Method and Description |
---|---|
void |
RPFFileIndex.IndexProperties.setBoundingSector(Sector sector) |
void |
RPFFileIndex.RPFFileRecord.setSector(Sector sector) |
Modifier and Type | Field and Description |
---|---|
protected Sector |
KMLRegion.RegionData.sector
Indicates the
Sector used to determine if a Region who's altitudeMode is
clampToGround is visible. |
Modifier and Type | Method and Description |
---|---|
protected Sector |
KMLLink.computeVisibleBounds(DrawContext dc)
Returns a
Sector that specifies the current visible bounds on the globe. |
Sector |
KMLRegion.RegionData.getSector()
Indicates the
Sector used to determine if a Region who's altitudeMode is
clampToGround is visible. |
Modifier and Type | Method and Description |
---|---|
protected boolean |
KMLRegion.isSectorSupported(Sector sector)
Determines if a Sector is supported by this Region implementation.
|
void |
KMLRegion.RegionData.setSector(Sector sector)
Specifies the
Sector that defines a Region's surface sector on the Globe . |
Modifier and Type | Method and Description |
---|---|
static Sector |
KMLUtil.createSectorFromLatLonBox(KMLAbstractLatLonBoxType box)
Creates a
Sector from a KMLAbstractLatLonBoxType's north ,
south , east , and west coordinates. |
Modifier and Type | Method and Description |
---|---|
static java.util.List<LatLon> |
KMLUtil.rotateSector(Globe globe,
Sector sector,
Angle rotation)
Rotate the corners of a sector around a normal vector through the sector centroid.
|
Modifier and Type | Field and Description |
---|---|
protected Sector |
WMSLayerCapabilities.geographicBoundingBox |
Modifier and Type | Method and Description |
---|---|
Sector |
WMSLayerCapabilities.getGeographicBoundingBox() |
Modifier and Type | Method and Description |
---|---|
protected void |
WMSLayerCapabilities.setGeographicBoundingBox(Sector geographicBoundingBox) |
Modifier and Type | Field and Description |
---|---|
protected Sector |
SurfaceObjectTileBuilder.SurfaceObjectTile.objectSector
The sector that bounds the surface renderables intersecting the tile.
|
protected Sector |
SurfaceSector.sector |
protected Sector |
FramebufferTexture.sector |
protected Sector |
AbstractShape.sector |
protected Sector |
DrawContextImpl.visibleSector |
Modifier and Type | Field and Description |
---|---|
protected java.util.List<Sector> |
SurfacePolylines.sectors |
protected java.util.List<Sector> |
SurfaceIcon.SectorInfo.sectors |
Modifier and Type | Method and Description |
---|---|
protected Sector |
AbstractSurfaceRenderable.computeRotatedSectorBounds(Sector sector,
LatLon location,
Angle heading) |
protected Sector[] |
SurfaceText.computeSector(DrawContext dc)
Compute the sector covered by this surface text.
|
Sector |
SurfaceObjectTileBuilder.SurfaceObjectTile.getObjectSector()
Returns a sector that bounds the surface renderables intersecting the tile.
|
Sector |
SurfaceTile.getSector() |
Sector |
SurfaceSector.getSector() |
Sector |
SurfaceImage.getSector() |
Sector |
RigidShape.getSector()
Computes the shape's sector.
|
Sector |
Polygon.getSector() |
Sector |
Path.getSector() |
Sector |
GeographicExtent.getSector()
Returns the object's geographic extent.
|
Sector |
FramebufferTexture.getSector() |
Sector |
ExtrudedPolygon.getSector() |
Sector |
ContourLine.getSector()
Get the contour line current bounding sector.
|
Sector |
AbstractGeneralShape.getSector()
Returns the object's geographic extent.
|
Sector |
DrawContextImpl.getVisibleSector() |
Sector |
DrawContext.getVisibleSector()
Retrieves a
Sector which is at least as large as the current visible sector. |
Modifier and Type | Method and Description |
---|---|
protected java.util.List<Sector> |
AbstractSurfaceRenderable.computeNormalizedSectors(Sector sector) |
protected java.util.List<Sector> |
SurfaceIcons.computeSectors(DrawContext dc) |
protected java.util.List<Sector> |
SurfaceIcon.computeSectors(DrawContext dc) |
protected java.util.List<Sector> |
AbstractSurfaceShape.computeSectors(DrawContext dc)
Computes the bounding sectors for the shape.
|
protected java.util.List<Sector> |
AbstractSurfaceShape.computeSectors(Globe globe)
Computes the bounding sectors for the shape.
|
java.util.List<Sector> |
SurfaceText.getSectors(DrawContext dc)
Returns a list of sectors indicating the geographic region that bounds this renderable for the specified draw
context.
|
java.util.List<Sector> |
SurfaceRenderable.getSectors(DrawContext dc)
Returns a list of sectors indicating the geographic region that bounds this renderable for the specified draw
context.
|
java.util.List<Sector> |
SurfacePolylines.getSectors(DrawContext dc) |
java.util.List<Sector> |
SurfaceIcon.getSectors(DrawContext dc) |
java.util.List<Sector> |
AbstractSurfaceShape.getSectors(DrawContext dc) |
java.util.List<Sector> |
DrawContextImpl.getVisibleSectors(double[] resolutions,
long timeLimit,
Sector sector) |
java.util.List<Sector> |
DrawContext.getVisibleSectors(double[] resolutions,
long timeLimit,
Sector searchSector)
Returns the visible sectors at one of several specified resolutions within a specified search sector.
|
Modifier and Type | Method and Description |
---|---|
void |
SurfaceObjectTileBuilder.SurfaceObjectTile.addAllSurfaceObjects(java.util.List<SurfaceRenderable> c,
Sector sector)
Adds the specified collection of surface renderables to the tile's list of intersecting objects.
|
void |
SurfaceObjectTileBuilder.SurfaceObjectTile.addSurfaceObject(SurfaceRenderable so,
Sector sector)
Adds the specified surface renderable to the tile's list of intersecting objects.
|
protected Matrix |
FramebufferTexture.computeGeographicToCartesianTransform(Sector sector) |
protected int |
AbstractSurfaceRenderable.computeHemisphereOffset(Sector sector,
LatLon location) |
protected Angle |
SurfaceIcons.computeIconRadius(DrawContext dc,
double regionPixelSize,
Sector drawSector) |
protected double |
SurfaceIcons.computeLocationDistanceDegreesSquared(Sector drawSector,
LatLon location) |
protected java.util.List<Sector> |
AbstractSurfaceRenderable.computeNormalizedSectors(Sector sector) |
protected Sector |
AbstractSurfaceRenderable.computeRotatedSectorBounds(Sector sector,
LatLon location,
Angle heading) |
protected Angle |
SurfaceIcons.computeSectorRadius(Sector sector) |
protected TextureTile |
SurfaceObjectTileBuilder.SurfaceObjectTile.createSubTile(Sector sector,
Level level,
int row,
int col)
|
protected SurfaceObjectTileBuilder.SurfaceObjectTile |
SurfaceObjectTileBuilder.createTile(Sector sector,
Level level,
int row,
int column,
java.lang.String cacheName)
Returns a new SurfaceObjectTile corresponding to the specified
sector , level , row , column , and cacheName . |
java.util.List<Sector> |
DrawContextImpl.getVisibleSectors(double[] resolutions,
long timeLimit,
Sector sector) |
java.util.List<Sector> |
DrawContext.getVisibleSectors(double[] resolutions,
long timeLimit,
Sector searchSector)
Returns the visible sectors at one of several specified resolutions within a specified search sector.
|
protected static boolean |
AbstractSurfaceShape.isSectorEmpty(Sector sector) |
void |
SurfaceImage.setImageSource(java.lang.Object imageSource,
Sector sector) |
void |
SurfaceSector.setSector(Sector sector) |
void |
ContourLine.setSector(Sector sector)
Set the contour line bounding sector.
|
void |
DrawContextImpl.setVisibleSector(Sector s) |
void |
DrawContext.setVisibleSector(Sector s)
Sets the visible
Sector . |
Modifier and Type | Method and Description |
---|---|
protected Extent |
AbstractSurfaceObject.computeExtent(Globe globe,
double verticalExaggeration,
java.util.List<Sector> sectors)
Computes an extent bounding the the specified sectors on the specified Globe's surface.
|
Constructor and Description |
---|
ContourLine(double elevation,
Sector sector) |
ContourLine(Sector sector) |
FBOTexture(WWTexture imageSource,
Sector sector,
java.util.List<LatLon> corners) |
FramebufferTexture(WWTexture imageSource,
Sector sector,
java.util.List<LatLon> corners) |
Quadrilateral(Sector sector,
double elevation) |
SurfaceImage(java.lang.Object imageSource,
Sector sector)
Renders a single image tile from a local image source.
|
SurfaceObjectTile(Sector sector,
Level level,
int row,
int column,
java.lang.String cacheName)
Constructs a tile for a given sector, level, row and column of the tile's containing tile set.
|
SurfacePolygons(Sector sector,
CompoundVecBuffer buffer) |
SurfacePolylines(Sector sector,
CompoundVecBuffer buffer) |
SurfaceSector(Sector sector)
Constructs a new surface sector with the specified sector.
|
SurfaceSector(ShapeAttributes normalAttrs,
Sector sector)
Constructs a new surface sector with the specified normal (as opposed to highlight) attributes and the specified
sector.
|
Constructor and Description |
---|
SectorInfo(java.util.List<Sector> sectors,
DrawContext dc) |
Modifier and Type | Field and Description |
---|---|
protected Sector |
BulkRetrievalThread.sector |
Modifier and Type | Method and Description |
---|---|
Sector |
BulkRetrievalThread.getSector()
Get the requested
Sector . |
Modifier and Type | Method and Description |
---|---|
long |
BulkRetrievable.getEstimatedMissingDataSize(Sector sector,
double resolution)
Estimates the amount of data, in bytes, that must be retrieved to the WorldWind data cache for a specified
sector and resolution.
|
long |
BulkRetrievable.getEstimatedMissingDataSize(Sector sector,
double resolution,
FileStore fileStore)
Estimates the amount of data, in bytes, that must be retrieved to a specified filestore for a specified sector
and resolution.
|
BulkRetrievalThread |
BulkRetrievable.makeLocal(Sector sector,
double resolution,
BulkRetrievalListener listener)
Initiates data retrieval to the current WorldWind data cache.
|
BulkRetrievalThread |
BulkRetrievable.makeLocal(Sector sector,
double resolution,
FileStore fileStore,
BulkRetrievalListener listener)
Initiates data retrieval to a specified filestore.
|
Constructor and Description |
---|
BulkRetrievalThread(BulkRetrievable retrievable,
Sector sector,
double resolution,
FileStore fileStore,
BulkRetrievalListener listener)
|
Modifier and Type | Field and Description |
---|---|
protected Sector |
RectangularTessellator.currentCoverage |
protected Sector |
SectorGeometryList.sector
The spanning sector of all sector geometries contained in this list.
|
protected Sector |
RectangularTessellator.RectTile.sector |
protected Sector |
RectangularTessellator.CacheKey.sector |
protected Sector |
LocalElevationModel.LocalTile.sector
The sector the tile covers.
|
protected Sector |
HighResolutionTerrain.sector |
protected Sector |
HighResolutionTerrain.RectTile.sector |
Modifier and Type | Method and Description |
---|---|
protected Sector[] |
BasicElevationModelBulkDownloader.computeRandomRegions(Sector sector,
int div,
int numRegions) |
Sector |
SectorGeometryList.getSector()
Indicates the spanning sector of all sector geometries in this list.
|
Sector |
SectorGeometry.getSector()
Indicates the
Sector covered by this sector geometry. |
Sector |
RectangularTessellator.RectTile.getSector() |
Sector |
LocalElevationModel.getSector()
Returns the sector spanned by this elevation model.
|
Sector |
HighResolutionTerrain.getSector()
Returns the object's sector.
|
Modifier and Type | Method and Description |
---|---|
java.util.List<Sector> |
HighResolutionTerrain.getIntersectionTiles(Position pA,
Position pB) |
protected java.util.Iterator<Sector> |
BasicElevationModelBulkDownloader.getRegionIterator(Sector sector,
int div) |
Modifier and Type | Method and Description |
---|---|
void |
LocalElevationModel.addElevations(java.nio.ByteBuffer byteBuffer,
Sector sector,
int width,
int height,
AVList parameters)
Adds new elevations to this elevation model.
|
void |
HighResolutionTerrain.cacheIntersectingTiles(Sector sector)
Cause the tiles used by subsequent intersection calculations to be cached so that they are available immediately
to those subsequent calculations.
|
void |
WMSBasicElevationModel.composeElevations(Sector sector,
java.util.List<? extends LatLon> latlons,
int tileWidth,
double[] buffer) |
void |
WCSElevationModel.composeElevations(Sector sector,
java.util.List<? extends LatLon> latlons,
int tileWidth,
double[] buffer) |
void |
CompoundElevationModel.composeElevations(Sector sector,
java.util.List<? extends LatLon> latlons,
int tileWidth,
double[] buffer) |
void |
AbstractElevationModel.composeElevations(Sector sector,
java.util.List<? extends LatLon> latlons,
int tileWidth,
double[] buffer) |
protected int |
HighResolutionTerrain.computeColumn(Sector range,
Angle longitude)
Computes the column index corresponding to a specified latitude.
|
protected double[] |
BasicElevationModel.computeExtremeElevations(Sector sector) |
protected int |
BasicElevationModelBulkDownloader.computeLevelForResolution(Sector sector,
double resolution) |
protected Sector[] |
BasicElevationModelBulkDownloader.computeRandomRegions(Sector sector,
int div,
int numRegions) |
protected int |
BasicElevationModelBulkDownloader.computeRegionDivisions(Sector sector,
int levelNumber,
int maxCount) |
protected int |
HighResolutionTerrain.computeRow(Sector range,
Angle latitude)
Computes the row index corresponding to a specified latitude.
|
protected long |
BasicElevationModelBulkDownloader.countTilesInSector(Sector sector,
int levelNumber) |
protected RectangularTessellator.RectTile |
RectangularTessellator.createTile(DrawContext dc,
Sector tileSector,
int level) |
protected HighResolutionTerrain.RectTile |
HighResolutionTerrain.createTile(Sector tileSector)
Creates the tile for a specified sector.
|
protected double[] |
CompoundElevationModel.doGetElevations(Sector sector,
java.util.List<? extends LatLon> latlons,
double[] targetResolution,
double[] buffer,
boolean mapMissingData) |
protected double |
LocalElevationModel.doGetElevations(Sector sector,
java.util.List<? extends LatLon> latlons,
double targetResolution,
double[] buffer,
boolean mapMissingData)
Performs the lookup and assembly of elevations for a list of specified locations.
|
double |
ZeroElevationModel.getBestResolution(Sector sector) |
double |
LocalElevationModel.getBestResolution(Sector sector) |
double |
CompoundElevationModel.getBestResolution(Sector sector) |
double |
BathymetryFilterElevationModel.getBestResolution(Sector sector) |
double |
BasicElevationModel.getBestResolution(Sector sector) |
double[] |
CompoundElevationModel.getBestResolutions(Sector sector) |
double[] |
AbstractElevationModel.getBestResolutions(Sector sector) |
double |
CompoundElevationModel.getDetailHint(Sector sector) |
double |
BasicElevationModel.getDetailHint(Sector sector) |
double |
AbstractElevationModel.getDetailHint(Sector sector) |
protected BasicElevationModel.Elevations |
BasicElevationModel.getElevations(Sector requestedSector,
LevelSet levelSet,
int targetLevelNumber) |
double[] |
CompoundElevationModel.getElevations(Sector sector,
java.util.List<? extends LatLon> latLons,
double[] targetResolutions,
double[] elevations) |
double[] |
AbstractElevationModel.getElevations(Sector sector,
java.util.List<? extends LatLon> latLons,
double[] targetResolutions,
double[] elevations) |
double |
ZeroElevationModel.getElevations(Sector sector,
java.util.List<? extends LatLon> latlons,
double targetResolution,
double[] buffer) |
double |
LocalElevationModel.getElevations(Sector sector,
java.util.List<? extends LatLon> latlons,
double targetResolution,
double[] buffer) |
double |
CompoundElevationModel.getElevations(Sector sector,
java.util.List<? extends LatLon> latlons,
double targetResolution,
double[] buffer)
Returns the elevations of a collection of locations.
|
double |
BathymetryFilterElevationModel.getElevations(Sector sector,
java.util.List<? extends LatLon> latlons,
double targetResolution,
double[] buffer) |
double |
BasicElevationModel.getElevations(Sector sector,
java.util.List<? extends LatLon> latlons,
double targetResolution,
double[] buffer) |
protected double |
BasicElevationModel.getElevations(Sector sector,
java.util.List<? extends LatLon> latlons,
double targetResolution,
double[] buffer,
boolean mapMissingData) |
protected void |
HighResolutionTerrain.getElevations(Sector sector,
java.util.List<LatLon> latlons,
double[] targetResolution,
double[] elevations) |
long |
BasicElevationModel.getEstimatedMissingDataSize(Sector sector,
double resolution)
Get the estimated size in bytes of the elevations not in the WorldWind file cache for the given sector and
resolution.
|
long |
BasicElevationModel.getEstimatedMissingDataSize(Sector sector,
double resolution,
FileStore fileStore)
Get the estimated size in bytes of the elevations not in a specified file store for the given sector and
resolution.
|
double[] |
ZeroElevationModel.getExtremeElevations(Sector sector) |
double[] |
LocalElevationModel.getExtremeElevations(Sector sector) |
Position[] |
HighResolutionTerrain.getExtremeElevations(Sector sector)
Determines the minimum and maximum elevations and their locations within a specified
Sector . |
double[] |
CompoundElevationModel.getExtremeElevations(Sector sector) |
double[] |
BathymetryFilterElevationModel.getExtremeElevations(Sector sector) |
double[] |
BasicElevationModel.getExtremeElevations(Sector sector) |
protected double[] |
BasicElevationModel.Elevations.getExtremes(Sector sector) |
double[] |
BasicElevationModel.ElevationTile.getExtremes(Sector sector,
BasicElevationModel em,
double[] extremes) |
protected java.util.List<HighResolutionTerrain.RectTile> |
HighResolutionTerrain.getIntersectingTiles(Sector sector) |
double |
CompoundElevationModel.getLocalDataAvailability(Sector sector,
java.lang.Double targetResolution) |
double |
BathymetryFilterElevationModel.getLocalDataAvailability(Sector sector,
java.lang.Double targetResolution) |
double |
BasicElevationModel.getLocalDataAvailability(Sector requestedSector,
java.lang.Double targetResolution) |
double |
AbstractElevationModel.getLocalDataAvailability(Sector sector,
java.lang.Double targetResolution) |
protected java.util.ArrayList<Tile> |
BasicElevationModelBulkDownloader.getMissingTilesInSector(Sector sector,
int levelNumber) |
protected java.util.Iterator<Sector> |
BasicElevationModelBulkDownloader.getRegionIterator(Sector sector,
int div) |
protected Level |
BasicElevationModel.getTargetLevel(Sector sector,
double targetSize) |
protected Tile[][] |
BasicElevationModelBulkDownloader.getTilesInSector(Sector sector,
int levelNumber) |
double[] |
CompoundElevationModel.getUnmappedElevations(Sector sector,
java.util.List<? extends LatLon> latLons,
double[] targetResolutions,
double[] elevations) |
double[] |
AbstractElevationModel.getUnmappedElevations(Sector sector,
java.util.List<? extends LatLon> latLons,
double[] targetResolutions,
double[] elevations) |
double |
ZeroElevationModel.getUnmappedElevations(Sector sector,
java.util.List<? extends LatLon> latlons,
double targetResolution,
double[] buffer) |
double |
LocalElevationModel.getUnmappedElevations(Sector sector,
java.util.List<? extends LatLon> latlons,
double targetResolution,
double[] buffer) |
double |
CompoundElevationModel.getUnmappedElevations(Sector sector,
java.util.List<? extends LatLon> latlons,
double targetResolution,
double[] buffer)
Returns the elevations of a collection of locations.
|
double |
BathymetryFilterElevationModel.getUnmappedElevations(Sector sector,
java.util.List<? extends LatLon> latlons,
double targetResolution,
double[] buffer) |
double |
BasicElevationModel.getUnmappedElevations(Sector sector,
java.util.List<? extends LatLon> latlons,
double targetResolution,
double[] buffer) |
Intersection[] |
SectorGeometryList.intersect(double elevation,
Sector sector)
Determines if and where the geometry intersects the ellipsoid at a given elevation.
|
int |
ZeroElevationModel.intersects(Sector sector) |
int |
LocalElevationModel.intersects(Sector sector) |
int |
CompoundElevationModel.intersects(Sector sector) |
int |
BathymetryFilterElevationModel.intersects(Sector sector) |
int |
BasicElevationModel.intersects(Sector sector) |
BulkRetrievalThread |
BasicElevationModel.makeLocal(Sector sector,
double resolution,
BulkRetrievalListener listener)
Start a new
BulkRetrievalThread that downloads all elevations for a given sector and resolution to the
current WorldWind file cache, without downloading imagery already in the cache. |
BulkRetrievalThread |
BasicElevationModel.makeLocal(Sector sector,
double resolution,
FileStore fileStore,
BulkRetrievalListener listener)
Start a new
BulkRetrievalThread that downloads all elevations for a given sector and resolution to a
specified file store, without downloading imagery already in the file store. |
void |
SectorGeometryList.setSector(Sector sector)
Specifies the sector this list spans.
|
protected boolean |
RectangularTessellator.skipTile(DrawContext dc,
Sector sector)
Determines whether a tile is within a 2D globe's projection limits.
|
Constructor and Description |
---|
BasicElevationModelBulkDownloader(BasicElevationModel elevationModel,
Sector sector,
double resolution,
BulkRetrievalListener listener)
Constructs a downloader to retrieve elevations not currently available in the WorldWind file cache.
|
BasicElevationModelBulkDownloader(BasicElevationModel elevationModel,
Sector sector,
double resolution,
FileStore fileStore,
BulkRetrievalListener listener)
Constructs a downloader to retrieve elevations not currently available in a specified file store.
|
CacheKey(DrawContext dc,
Sector sector,
int density) |
ElevationCompositionTile(Sector sector,
Level level,
int width,
int height) |
ElevationTile(Sector sector,
Level level,
int row,
int col) |
HighResolutionTerrain(Globe globe,
Sector sector,
java.lang.Double targetResolution,
java.lang.Double verticalExaggeration)
Constructs a terrain object for a specified sector of a specified globe.
|
LocalTile(Sector sector,
double missingDataFlag,
int tileWidth,
int tileHeight,
BufferWrapper elevations,
java.lang.Double minEl,
java.lang.Double maxEl)
Constructs a new elevations tile.
|
RectTile(Extent extent,
int density,
Sector sector) |
RectTile(RectangularTessellator tessellator,
Extent extent,
int level,
int density,
Sector sector) |
Modifier and Type | Field and Description |
---|---|
protected Sector |
SurfaceTileDrawContext.sector |
Sector |
ImageUtil.AlignedImage.sector |
protected Sector |
ContourList.sector |
Modifier and Type | Field and Description |
---|---|
protected java.util.HashMap<Sector,Extent> |
SectorVisibilityTree.newExtents |
protected java.util.HashMap<Sector,Extent> |
SectorVisibilityTree.prevExtents |
protected java.util.ArrayList<Sector> |
SectorVisibilityTree.sectors |
protected DecisionTree<Sector,SectorVisibilityTree.Context> |
SectorVisibilityTree.tree |
Modifier and Type | Method and Description |
---|---|
static Sector |
ImageUtil.calcBoundingBoxForUTM(AVList params) |
Sector |
LevelSet.computeSectorForKey(TileKey key) |
Sector |
Level.computeSectorForPosition(Angle latitude,
Angle longitude,
LatLon tileOrigin) |
protected static Sector |
DataConfigurationUtils.getDataDescriptorSector(org.w3c.dom.Element context,
java.lang.String path,
javax.xml.xpath.XPath xpath) |
Sector |
Tile.getSector() |
Sector |
SurfaceTileDrawContext.getSector()
Returns this context's sector.
|
Sector |
LevelSet.getSector() |
Sector |
LevelSet.SectorResolution.getSector() |
Sector |
GeographicImageInterpolator.getSector()
Returns the sector containing the image's geographic coordinates.
|
Sector |
ContourList.getSector() |
static Sector |
WWXML.getSector(org.w3c.dom.Element context,
java.lang.String path,
javax.xml.xpath.XPath xpath)
Returns the
Sector value of an element identified by an XPath expression. |
Sector |
RestorableSupport.getStateObjectAsSector(RestorableSupport.StateObject stateObject)
Returns the value of the StateObject as a Sector.
|
Sector |
RestorableSupport.getStateValueAsSector(RestorableSupport.StateObject context,
java.lang.String name) |
Sector |
RestorableSupport.getStateValueAsSector(java.lang.String name) |
protected static Sector |
DataConfigurationUtils.getWWDotNetLayerSetSector(org.w3c.dom.Element context,
java.lang.String path,
javax.xml.xpath.XPath xpath) |
static Sector |
ImageUtil.positionImage(java.awt.image.BufferedImage sourceImage,
java.awt.Point[] imagePoints,
LatLon[] geoPoints,
java.awt.image.BufferedImage destImage) |
static Sector |
ImageUtil.positionImage3(java.awt.image.BufferedImage sourceImage,
java.awt.Point[] imagePoints,
LatLon[] geoPoints,
java.awt.image.BufferedImage destImage) |
static Sector |
ImageUtil.positionImage4(java.awt.image.BufferedImage sourceImage,
java.awt.Point[] imagePoints,
LatLon[] geoPoints,
java.awt.image.BufferedImage destImage) |
static Sector |
ImageUtil.warpImageWithControlPoints(java.awt.image.BufferedImage sourceImage,
java.awt.geom.Point2D[] imagePoints,
LatLon[] geoPoints,
java.awt.image.BufferedImage destImage)
Convenience method for transforming a georeferenced source image into a geographically aligned destination image.
|
static Sector |
ImageUtil.warpImageWithControlPoints3(java.awt.image.BufferedImage sourceImage,
java.awt.geom.Point2D[] imagePoints,
LatLon[] geoPoints,
java.awt.image.BufferedImage destImage)
Transforms a georeferenced source image into a geographically aligned destination image.
|
static Sector |
ImageUtil.warpImageWithControlPoints4(java.awt.image.BufferedImage sourceImage,
java.awt.geom.Point2D[] imagePoints,
LatLon[] geoPoints,
java.awt.image.BufferedImage destImage)
Transforms a georeferenced source image into a geographically aligned destination image.
|
static Sector |
ImageUtil.warpImageWithWorldFile(java.awt.image.BufferedImage sourceImage,
AVList worldFileParams,
java.awt.image.BufferedImage destImage)
Transforms a georeferenced source image into a geographically aligned destination image.
|
Modifier and Type | Method and Description |
---|---|
java.util.List<Sector> |
SectorVisibilityTree.getSectors() |
java.util.List<Sector> |
SectorVisibilityTree.refresh(DrawContext dc,
double sectorSize)
Determines the visible sectors at a specifed resolution within the draw context's current visible sector.
|
java.util.List<Sector> |
SectorVisibilityTree.refresh(DrawContext dc,
double sectorSize,
java.util.List<Sector> searchSectors)
Determines the visible sectors at a specified resolution within a collection of sectors.
|
java.util.List<Sector> |
SectorVisibilityTree.refresh(DrawContext dc,
double sectorSize,
Sector searchSector)
Determines the visible sectors at a specified resolution within a specified sector.
|
Modifier and Type | Method and Description |
---|---|
void |
RestorableSupport.addStateValueAsSector(RestorableSupport.StateObject context,
java.lang.String name,
Sector sector) |
void |
RestorableSupport.addStateValueAsSector(java.lang.String name,
Sector sector) |
static ImageUtil.AlignedImage |
ImageUtil.alignImage(java.awt.image.BufferedImage sourceImage,
float[] latitudes,
float[] longitudes,
Sector sector,
java.awt.Dimension dimension)
Reprojects an image into an aligned image, one with edges of constant latitude and longitude.
|
static org.w3c.dom.Element |
WWXML.appendSector(org.w3c.dom.Element context,
java.lang.String path,
Sector sector)
Append a heirarcy of new elements with a path to a context element, ending with an element formatted as a Sector.
|
java.util.List<java.util.List<Position>> |
ContourBuilder.buildContourLines(double value,
Sector sector,
double altitude)
Computes the geographic contour lines at a specified threshold value.
|
java.util.Set<T> |
BasicQuadTree.getItemsInRegion(Sector testSector,
java.util.Set<T> outItems)
Finds and returns the items intersecting a specified sector.
|
Level |
LevelSet.getLastLevel(Sector sector) |
java.util.List<java.lang.Integer> |
BitSetQuadTreeFilter.FindIntersectingBitsOp.getOnBits(java.util.List<double[]> topRegions,
Sector testSector,
java.util.List<java.lang.Integer> outIds)
Returns the bit positions of significant cells that intersect a specified sector.
|
protected void |
BasicQuadTree.makeLevelZeroCells(Sector sector)
Creates the quadtree's level-zero cells.
|
static void |
ImageUtil.mergeImage(Sector canvasSector,
Sector imageSector,
double aspectRatio,
java.awt.image.BufferedImage image,
java.awt.image.BufferedImage canvas)
Merge an image into another image.
|
abstract void |
ImageTiler.ImageTilerListener.newTile(java.awt.image.BufferedImage tileImage,
Sector tileSector) |
java.util.List<Sector> |
SectorVisibilityTree.refresh(DrawContext dc,
double sectorSize,
Sector searchSector)
Determines the visible sectors at a specified resolution within a specified sector.
|
void |
ImageTiler.tileImage(java.awt.image.BufferedImage baseImage,
Sector baseSector,
ImageTiler.ImageTilerListener listener)
Performs a subdivision according to the current parameters and assuming that the image corresponds with a
Sector rather than a quadrilateral or other shape. |
Modifier and Type | Method and Description |
---|---|
java.util.Set<T> |
BasicQuadTree.getItemsInRegions(java.lang.Iterable<Sector> testSectors,
java.util.Set<T> outItems)
Finds and returns the items intersecting a specified collection of sectors.
|
java.util.List<Sector> |
SectorVisibilityTree.refresh(DrawContext dc,
double sectorSize,
java.util.List<Sector> searchSectors)
Determines the visible sectors at a specified resolution within a collection of sectors.
|
Constructor and Description |
---|
AlignedImage(java.awt.image.BufferedImage image,
Sector sector) |
BasicQuadTree(int numLevels,
Sector sector,
java.util.Map<java.lang.String,java.util.List<T>> itemMap)
Constructs a quadtree of a specified level and spanning a specified region.
|
BasicQuadTree(int numLevels,
Sector sector,
java.util.Map<java.lang.String,java.util.List<T>> itemMap,
boolean allowDuplicates)
Constructs a quadtree of a specified level and spanning a specified region.
|
ClippingTessellator(GLUtessellator tessellator,
Sector sector) |
SectorResolution(Sector sector,
int levelNumber) |
Tile(Sector sector)
Constructs a texture tile for a given sector with a default level, row and column.
|
Tile(Sector sector,
Level level)
Constructs a texture tile for a given sector and level, and with a default row and column.
|
Tile(Sector sector,
Level level,
int row,
int column)
Constructs a tile for a given sector, level, row and column of the tile's containing tile set.
|
Tile(Sector sector,
Level level,
int row,
int column,
java.lang.String cacheName)
Constructs a tile for a given sector, level, row and column of the tile's containing tile set.
|
Constructor and Description |
---|
Context(DrawContext dc,
double sectorSize,
java.util.List<Sector> sectors) |
Modifier and Type | Field and Description |
---|---|
protected Sector |
CombineContext.sector
A geographic sector indicating the context's region of interest.
|
Modifier and Type | Field and Description |
---|---|
protected java.util.ArrayList<Sector> |
CombineContext.boundingSectors
The shape bounding sectors associated with this context.
|
Modifier and Type | Method and Description |
---|---|
Sector |
CombineContext.getSector()
Returns the context's region of interest as a geographic sector.
|
Modifier and Type | Method and Description |
---|---|
java.util.List<Sector> |
CombineContext.getBoundingSectors()
Returns the shape bounding sectors associated with this context.
|
Modifier and Type | Method and Description |
---|---|
void |
CombineContext.addBoundingSector(Sector sector)
Adds the specified geographic sector to this context's list of shape bounding sectors.
|
void |
CombineContext.setSector(Sector sector)
Specifies the context's region of interest as a geographic sector.
|
Modifier and Type | Method and Description |
---|---|
static double[] |
GDALUtils.calcGetGeoTransform(Sector sector,
int width,
int height)
Calculates geo-transform matrix for a north-up raster
|
Modifier and Type | Method and Description |
---|---|
Sector |
LengthMeasurer.getBoundingSector() |
Constructor and Description |
---|
Cell(Sector sector,
double projected,
double surface) |
Modifier and Type | Field and Description |
---|---|
protected Sector |
BasicViewPropertyLimits.eyeLocationLimits |
Modifier and Type | Method and Description |
---|---|
Sector |
ViewPropertyLimits.getEyeLocationLimits()
Returns the Sector which limits a view's eye latitude and longitude.
|
Sector |
BasicViewPropertyLimits.getEyeLocationLimits()
Returns the Sector which limits a view's eye latitude and longitude.
|
Modifier and Type | Method and Description |
---|---|
void |
ViewPropertyLimits.setEyeLocationLimits(Sector sector)
Sets the Sector which will limit a view's eye latitude and longitude.
|
void |
BasicViewPropertyLimits.setEyeLocationLimits(Sector sector)
Sets the Sector which will limit a view's eye latitude and longitude.
|
Modifier and Type | Field and Description |
---|---|
protected Sector |
BasicOrbitViewLimits.centerLocationLimits |
Modifier and Type | Method and Description |
---|---|
Sector |
OrbitViewLimits.getCenterLocationLimits()
Returns the Sector which limits the orbit view center latitude and longitude.
|
Sector |
BasicOrbitViewLimits.getCenterLocationLimits()
Returns the Sector which limits the orbit view center latitude and longitude.
|
Modifier and Type | Method and Description |
---|---|
void |
OrbitViewLimits.setCenterLocationLimits(Sector sector)
Sets the Sector which will limit the orbit view center latitude and longitude.
|
void |
BasicOrbitViewLimits.setCenterLocationLimits(Sector sector)
Sets the Sector which will limit the orbit view center latitude and longitude.
|
Modifier and Type | Method and Description |
---|---|
java.awt.image.BufferedImage |
WMSTiledImageLayer.composeImageForSector(Sector sector,
int canvasWidth,
int canvasHeight,
double aspectRatio,
int levelNumber,
java.lang.String mimeType,
boolean abortOnError,
java.awt.image.BufferedImage image,
int timeout) |
Constructor and Description |
---|
ComposeImageTile(Sector sector,
java.lang.String mimeType,
Level level,
int width,
int height) |
Modifier and Type | Method and Description |
---|---|
Sector |
AntennaModel.getSector() |
Sector |
AntennaAxes.getSector() |
Modifier and Type | Method and Description |
---|---|
Sector |
FileStoreDataSet.getSector() |
Sector |
FileSet.getSector() |
protected Sector |
FileSetHighlighter.highlightSelectedSets(java.util.List<FileSet> fileSets) |
protected Sector |
FileStoreSectorHighlighter.highlightSelectedSets(java.util.List<FileStoreDataSet> dataSets) |
protected static Sector |
FileSetHighlighter.normalizeSector(Sector sector) |
Modifier and Type | Method and Description |
---|---|
protected static Sector |
FileSetHighlighter.normalizeSector(Sector sector) |
void |
FileSet.setSector(Sector sector) |
Modifier and Type | Field and Description |
---|---|
protected Sector |
GliderImage.sector |
Modifier and Type | Method and Description |
---|---|
Sector |
GliderImage.getSector()
Return the image's location.
|
Modifier and Type | Field and Description |
---|---|
protected Sector |
ImportedDataPanel.GoToSectorAction.sector |
Modifier and Type | Method and Description |
---|---|
protected Sector |
ImportedDataPanel.getSector(org.w3c.dom.Element domElement) |
Constructor and Description |
---|
GoToSectorAction(Sector sector) |
Modifier and Type | Field and Description |
---|---|
protected Sector |
ContourBuilderExample.AppFrame.arraySector |
protected Sector |
BulkDownloadPanel.currentSector |
protected static Sector |
ViewLimits.Controller.DEFAULT_SECTOR_LIMITS |
protected Sector |
BulkDownloadPanel.BulkRetrievablePanel.sector |
Modifier and Type | Method and Description |
---|---|
static Sector |
ScankortDenmark.getDenmarkSector() |
Sector |
RadarVolume.getSector() |
Sector |
ViewLimits.AppFrame.getSectorLimits() |
Modifier and Type | Method and Description |
---|---|
protected java.util.List<Position> |
TerrainIntersections.AppFrame.buildGrid(Sector sector,
double height,
int nLatCells,
int nLonCells) |
static double |
ScankortDenmark.computeZoomForExtent(Sector sector) |
protected void |
BulkDownloadPanel.BulkRetrievablePanel.doUpdateDescription(Sector sector) |
protected static java.util.ArrayList<Position> |
HighResolutionTerrainTest.generateReferenceLocations(Sector sector,
int numLats,
int numLons) |
protected static void |
HighResolutionTerrainTest.generateReferenceValues(java.lang.String filePath,
Sector sector) |
static java.lang.String |
BulkDownloadPanel.makeSectorDescription(Sector sector) |
void |
GazetteerPanel.moveToLocation(Sector sector,
java.lang.Double altitude) |
protected static LatLon |
KeepingObjectsInView.randomLocation(Sector sector) |
void |
ViewLimits.AppFrame.setSectorLimits(Sector sector) |
void |
BulkDownloadPanel.BulkRetrievablePanel.updateDescription(Sector sector) |
protected void |
BulkDownloadPanel.updateRetrievablePanels(Sector sector) |
Modifier and Type | Field and Description |
---|---|
protected Sector |
AnalyticSurface.sector |
Modifier and Type | Method and Description |
---|---|
Sector |
AnalyticSurface.getSector()
Returns the
Sector defining the geographic boundary of this surface. |
Modifier and Type | Method and Description |
---|---|
java.util.List<Sector> |
AnalyticSurface.AnalyticSurfaceObject.getSectors(DrawContext dc) |
Modifier and Type | Method and Description |
---|---|
void |
AnalyticSurface.setSector(Sector sector)
Sets this surface's geographic boundary, as a
Sector . |
Constructor and Description |
---|
AnalyticSurface(Sector sector,
double altitude)
Constructs a new AnalyticSurface with the specified
Sector and base altitude in meters. |
AnalyticSurface(Sector sector,
double altitude,
int width,
int height)
Constructs a new AnalyticSurface with the specified
Sector , base altitude in meters, and grid dimensions. |
AnalyticSurface(Sector sector,
double altitude,
int width,
int height,
java.lang.Iterable<? extends AnalyticSurface.GridPointAttributes> iterable)
Constructs a new AnalyticSurface with the specified
Sector , base altitude in meters, grid dimensions, and
iterable of GridPointAttributes. |
Modifier and Type | Field and Description |
---|---|
protected Sector |
InstalledDataPanel.GoToSectorAction.sector |
Modifier and Type | Method and Description |
---|---|
protected Sector |
InstalledDataPanel.getSector(org.w3c.dom.Element domElement) |
Constructor and Description |
---|
GoToSectorAction(Sector sector) |
Modifier and Type | Method and Description |
---|---|
protected Sector |
LinesOfSight.AppFrame.computeGridSector(Position curPos,
double gridRadius) |
Modifier and Type | Method and Description |
---|---|
protected java.util.List<Position> |
LinesOfSight.AppFrame.buildGrid(Sector sector,
double height,
int nRows,
int nCols) |
Modifier and Type | Method and Description |
---|---|
Sector |
SectorSelector.getSector() |
protected Sector |
SectorSelector.resizeShape(Movable dragObject,
int side) |
Modifier and Type | Method and Description |
---|---|
static void |
ExampleUtil.goTo(WorldWindow wwd,
Sector sector)
Causes the View attached to the specified WorldWindow to animate to the specified sector.
|
void |
SectorSelector.RegionShape.setSector(Sector sector) |
Constructor and Description |
---|
RegionShape(Sector sector) |