export default Geometry; /** * The coordinate layout for geometries, indicating whether a 3rd or 4th z ('Z') * or measure ('M') coordinate is available. */ export type GeometryLayout = 'XY' | 'XYZ' | 'XYM' | 'XYZM'; /** * The geometry type. One of `'Point'`, `'LineString'`, `'LinearRing'`, * `'Polygon'`, `'MultiPoint'`, `'MultiLineString'`, `'MultiPolygon'`, * `'GeometryCollection'`, or `'Circle'`. */ export type Type = 'Point' | 'LineString' | 'LinearRing' | 'Polygon' | 'MultiPoint' | 'MultiLineString' | 'MultiPolygon' | 'GeometryCollection' | 'Circle'; /** * @classdesc * Abstract base class; normally only used for creating subclasses and not * instantiated in apps. * Base class for vector geometries. * * To get notified of changes to the geometry, register a listener for the * generic `change` event on your geometry instance. * * @abstract * @api */ declare class Geometry extends BaseObject { constructor(); /** * @private * @type {import("../extent.js").Extent} */ private extent_; /** * @private * @type {number} */ private extentRevision_; /** * @protected * @type {number} */ protected simplifiedGeometryMaxMinSquaredTolerance: number; /** * @protected * @type {number} */ protected simplifiedGeometryRevision: number; /** * Get a transformed and simplified version of the geometry. * @abstract * @param {number} revision The geometry revision. * @param {number} squaredTolerance Squared tolerance. * @param {import("../proj.js").TransformFunction} [transform] Optional transform function. * @return {Geometry} Simplified geometry. */ simplifyTransformedInternal: (...arg0: any[]) => any; /** * Get a transformed and simplified version of the geometry. * @abstract * @param {number} squaredTolerance Squared tolerance. * @param {import("../proj.js").TransformFunction} [transform] Optional transform function. * @return {Geometry} Simplified geometry. */ simplifyTransformed(squaredTolerance: number, transform?: import("../proj.js").TransformFunction | undefined): Geometry; /** * Make a complete copy of the geometry. * @abstract * @return {!Geometry} Clone. */ clone(): Geometry; /** * @abstract * @param {number} x X. * @param {number} y Y. * @param {import("../coordinate.js").Coordinate} closestPoint Closest point. * @param {number} minSquaredDistance Minimum squared distance. * @return {number} Minimum squared distance. */ closestPointXY(x: number, y: number, closestPoint: import("../coordinate.js").Coordinate, minSquaredDistance: number): number; /** * @param {number} x X. * @param {number} y Y. * @return {boolean} Contains (x, y). */ containsXY(x: number, y: number): boolean; /** * Return the closest point of the geometry to the passed point as * {@link module:ol/coordinate~Coordinate coordinate}. * @param {import("../coordinate.js").Coordinate} point Point. * @param {import("../coordinate.js").Coordinate} [closestPoint] Closest point. * @return {import("../coordinate.js").Coordinate} Closest point. * @api */ getClosestPoint(point: import("../coordinate.js").Coordinate, closestPoint?: import("../coordinate.js").Coordinate | undefined): import("../coordinate.js").Coordinate; /** * Returns true if this geometry includes the specified coordinate. If the * coordinate is on the boundary of the geometry, returns false. * @param {import("../coordinate.js").Coordinate} coordinate Coordinate. * @return {boolean} Contains coordinate. * @api */ intersectsCoordinate(coordinate: import("../coordinate.js").Coordinate): boolean; /** * @abstract * @param {import("../extent.js").Extent} extent Extent. * @protected * @return {import("../extent.js").Extent} extent Extent. */ protected computeExtent(extent: import("../extent.js").Extent): import("../extent.js").Extent; /** * Get the extent of the geometry. * @param {import("../extent.js").Extent} [extent] Extent. * @return {import("../extent.js").Extent} extent Extent. * @api */ getExtent(extent?: import("../extent.js").Extent | undefined): import("../extent.js").Extent; /** * Rotate the geometry around a given coordinate. This modifies the geometry * coordinates in place. * @abstract * @param {number} angle Rotation angle in radians. * @param {import("../coordinate.js").Coordinate} anchor The rotation center. * @api */ rotate(angle: number, anchor: import("../coordinate.js").Coordinate): void; /** * Scale the geometry (with an optional origin). This modifies the geometry * coordinates in place. * @abstract * @param {number} sx The scaling factor in the x-direction. * @param {number} [sy] The scaling factor in the y-direction (defaults to sx). * @param {import("../coordinate.js").Coordinate} [anchor] The scale origin (defaults to the center * of the geometry extent). * @api */ scale(sx: number, sy?: number | undefined, anchor?: import("../coordinate.js").Coordinate | undefined): void; /** * Create a simplified version of this geometry. For linestrings, this uses * the [Douglas Peucker](https://en.wikipedia.org/wiki/Ramer-Douglas-Peucker_algorithm) * algorithm. For polygons, a quantization-based * simplification is used to preserve topology. * @param {number} tolerance The tolerance distance for simplification. * @return {Geometry} A new, simplified version of the original geometry. * @api */ simplify(tolerance: number): Geometry; /** * Create a simplified version of this geometry using the Douglas Peucker * algorithm. * See https://en.wikipedia.org/wiki/Ramer-Douglas-Peucker_algorithm. * @abstract * @param {number} squaredTolerance Squared tolerance. * @return {Geometry} Simplified geometry. */ getSimplifiedGeometry(squaredTolerance: number): Geometry; /** * Get the type of this geometry. * @abstract * @return {Type} Geometry type. */ getType(): Type; /** * Apply a transform function to the coordinates of the geometry. * The geometry is modified in place. * If you do not want the geometry modified in place, first `clone()` it and * then use this function on the clone. * @abstract * @param {import("../proj.js").TransformFunction} transformFn Transform function. * Called with a flat array of geometry coordinates. */ applyTransform(transformFn: import("../proj.js").TransformFunction): void; /** * Test if the geometry and the passed extent intersect. * @abstract * @param {import("../extent.js").Extent} extent Extent. * @return {boolean} `true` if the geometry and the extent intersect. */ intersectsExtent(extent: import("../extent.js").Extent): boolean; /** * Translate the geometry. This modifies the geometry coordinates in place. If * instead you want a new geometry, first `clone()` this geometry. * @abstract * @param {number} deltaX Delta X. * @param {number} deltaY Delta Y. * @api */ translate(deltaX: number, deltaY: number): void; /** * Transform each coordinate of the geometry from one coordinate reference * system to another. The geometry is modified in place. * For example, a line will be transformed to a line and a circle to a circle. * If you do not want the geometry modified in place, first `clone()` it and * then use this function on the clone. * * @param {import("../proj.js").ProjectionLike} source The current projection. Can be a * string identifier or a {@link module:ol/proj/Projection~Projection} object. * @param {import("../proj.js").ProjectionLike} destination The desired projection. Can be a * string identifier or a {@link module:ol/proj/Projection~Projection} object. * @return {Geometry} This geometry. Note that original geometry is * modified in place. * @api */ transform(source: import("../proj.js").ProjectionLike, destination: import("../proj.js").ProjectionLike): Geometry; } import BaseObject from '../Object.js'; //# sourceMappingURL=Geometry.d.ts.map