main.cesium.IonImageryProvider.kt Maven / Gradle / Ivy
// Automatically generated - do not modify!
@file:Suppress(
"NON_EXTERNAL_DECLARATION_IN_INAPPROPRIATE_FILE",
)
package cesium
/**
* Provides tiled imagery using the Cesium ion REST API.
* ```
* viewer.imageryLayers.addImageryProvider(new IonImageryProvider({ assetId : 23489024 }));
* ```
* @see Online Documentation
*/
@JsName("\$cesium__IonImageryProvider")
external class IonImageryProvider(options: ConstructorOptions) {
/**
* The default alpha blending value of this provider, with 0.0 representing fully transparent and
* 1.0 representing fully opaque.
* @see Online Documentation
*/
var defaultAlpha: Double?
/**
* The default alpha blending value on the night side of the globe of this provider, with 0.0 representing fully transparent and
* 1.0 representing fully opaque.
* @see Online Documentation
*/
var defaultNightAlpha: Double?
/**
* The default alpha blending value on the day side of the globe of this provider, with 0.0 representing fully transparent and
* 1.0 representing fully opaque.
* @see Online Documentation
*/
var defaultDayAlpha: Double?
/**
* The default brightness of this provider. 1.0 uses the unmodified imagery color. Less than 1.0
* makes the imagery darker while greater than 1.0 makes it brighter.
* @see Online Documentation
*/
var defaultBrightness: Double?
/**
* The default contrast of this provider. 1.0 uses the unmodified imagery color. Less than 1.0 reduces
* the contrast while greater than 1.0 increases it.
* @see Online Documentation
*/
var defaultContrast: Double?
/**
* The default hue of this provider in radians. 0.0 uses the unmodified imagery color.
* @see Online Documentation
*/
var defaultHue: Double?
/**
* The default saturation of this provider. 1.0 uses the unmodified imagery color. Less than 1.0 reduces the
* saturation while greater than 1.0 increases it.
* @see Online Documentation
*/
var defaultSaturation: Double?
/**
* The default gamma correction to apply to this provider. 1.0 uses the unmodified imagery color.
* @see Online Documentation
*/
var defaultGamma: Double?
/**
* The default texture minification filter to apply to this provider.
* @see Online Documentation
*/
var defaultMinificationFilter: TextureMinificationFilter
/**
* The default texture magnification filter to apply to this provider.
* @see Online Documentation
*/
var defaultMagnificationFilter: TextureMagnificationFilter
/**
* Gets a value indicating whether or not the provider is ready for use.
* @see Online Documentation
*/
val ready: Boolean
/**
* Gets a promise that resolves to true when the provider is ready for use.
* @see Online Documentation
*/
val readyPromise: kotlin.js.Promise
/**
* Gets the rectangle, in radians, of the imagery provided by the instance. This function should
* not be called before [IonImageryProvider.ready] returns true.
* @see Online Documentation
*/
val rectangle: Rectangle
/**
* Gets the width of each tile, in pixels. This function should
* not be called before [IonImageryProvider.ready] returns true.
* @see Online Documentation
*/
val tileWidth: Int
/**
* Gets the height of each tile, in pixels. This function should
* not be called before [IonImageryProvider.ready] returns true.
* @see Online Documentation
*/
val tileHeight: Int
/**
* Gets the maximum level-of-detail that can be requested. This function should
* not be called before [IonImageryProvider.ready] returns true.
* @see Online Documentation
*/
val maximumLevel: Int?
/**
* Gets the minimum level-of-detail that can be requested. This function should
* not be called before [IonImageryProvider.ready] returns true. Generally,
* a minimum level should only be used when the rectangle of the imagery is small
* enough that the number of tiles at the minimum level is small. An imagery
* provider with more than a few tiles at the minimum level will lead to
* rendering problems.
* @see Online Documentation
*/
val minimumLevel: Int
/**
* Gets the tiling scheme used by the provider. This function should
* not be called before [IonImageryProvider.ready] returns true.
* @see Online Documentation
*/
val tilingScheme: TilingScheme
/**
* Gets the tile discard policy. If not undefined, the discard policy is responsible
* for filtering out "missing" tiles via its shouldDiscardImage function. If this function
* returns undefined, no tiles are filtered. This function should
* not be called before [IonImageryProvider.ready] returns true.
* @see Online Documentation
*/
val tileDiscardPolicy: TileDiscardPolicy
/**
* Gets an event that is raised when the imagery provider encounters an asynchronous error. By subscribing
* to the event, you will be notified of the error and can potentially recover from it. Event listeners
* are passed an instance of [TileProviderError].
* @see Online Documentation
*/
val errorEvent: Event
/**
* Gets the credit to display when this imagery provider is active. Typically this is used to credit
* the source of the imagery. This function should
* not be called before [IonImageryProvider.ready] returns true.
* @see Online Documentation
*/
val credit: Credit
/**
* Gets a value indicating whether or not the images provided by this imagery provider
* include an alpha channel. If this property is false, an alpha channel, if present, will
* be ignored. If this property is true, any images without an alpha channel will be treated
* as if their alpha is 1.0 everywhere. When this property is false, memory usage
* and texture upload time are reduced.
* @see Online Documentation
*/
val hasAlphaChannel: Boolean
/**
* Gets the proxy used by this provider.
* @see Online Documentation
*/
val proxy: Proxy
/**
* Gets the credits to be displayed when a given tile is displayed.
* @param [x] The tile X coordinate.
* @param [y] The tile Y coordinate.
* @param [level] The tile level;
* @return The credits to be displayed when the tile is displayed.
* @see Online Documentation
*/
fun getTileCredits(
x: Double,
y: Double,
level: Int,
): Array
/**
* Requests the image for a given tile. This function should
* not be called before [IonImageryProvider.ready] returns true.
* @param [x] The tile X coordinate.
* @param [y] The tile Y coordinate.
* @param [level] The tile level.
* @param [request] The request object. Intended for internal use only.
* @return A promise for the image that will resolve when the image is available, or
* undefined if there are too many active requests to the server, and the request
* should be retried later. The resolved image may be either an
* Image or a Canvas DOM object.
* @see Online Documentation
*/
fun requestImage(
x: Double,
y: Double,
level: Int,
request: Request? = definedExternally,
): kotlin.js.Promise?
/**
* Asynchronously determines what features, if any, are located at a given longitude and latitude within
* a tile. This function should not be called before [IonImageryProvider.ready] returns true.
* This function is optional, so it may not exist on all ImageryProviders.
* @param [x] The tile X coordinate.
* @param [y] The tile Y coordinate.
* @param [level] The tile level.
* @param [longitude] The longitude at which to pick features.
* @param [latitude] The latitude at which to pick features.
* @return A promise for the picked features that will resolve when the asynchronous
* picking completes. The resolved value is an array of [ImageryLayerFeatureInfo]
* instances. The array may be empty if no features are found at the given location.
* It may also be undefined if picking is not supported.
* @see Online Documentation
*/
fun pickFeatures(
x: Double,
y: Double,
level: Int,
longitude: Double,
latitude: Double,
): kotlin.js.Promise>?
/**
* Initialization options for the TileMapServiceImageryProvider constructor
* @property [assetId] An ion imagery asset ID
* @property [accessToken] The access token to use.
* Default value - [Ion.defaultAccessToken]
* @property [server] The resource to the Cesium ion API server.
* Default value - [Ion.defaultServer]
* @see Online Documentation
*/
interface ConstructorOptions {
var assetId: Int
var accessToken: String?
var server: Resource?
}
}