import { RasterS2TileReader, RasterTileReader } from '.';
import type { ElevationConverter, ElevationPoint, S2TileMetadata, TileMetadata } from '.';
import type { Face, FeatureIterator, Properties, RGBA, S2Feature, S2PMTilesReader, VectorFeature } from '../..';
import type { Metadata } from 's2-tilejson';
/**
 * # Raster Tiles File Reader
 *
 * ## Description
 * Read an entire archive of raster tiles, where the max zoom data is iterated upon
 *
 * Supports reading either RGB(A) data and/or RGB(A) encoded elevation data.
 *
 * ## Usage
 * ```ts
 * import { convertTerrariumElevationData } from 's2-tools';
 * import { RasterTilesFileReader } from 's2-tools/file';
 *
 * // creates a reader for a tile set treating the max zoom as 3 instead of the metadata's max zoom
 * const reader = new RasterTilesFileReader('./raster-tiles-top-level-folder', 3);
 * // example of reading in an elevation dataset
 * const reader2 = new RasterTilesFileReader('./terrariumData', -1, convertTerrariumElevationData);
 *
 * // grab the metadata
 * const metadata = await reader.getMetadata();
 *
 * // grab a WM tile
 * const tile1 = await reader.getTile(0, 0, 0);
 * // or if it's an S2 tile spec
 * const tile2 = await reader.getTileS2(0, 0, 0, 0);
 *
 * // grab all the max zoom tiles:
 * for await (const tile of reader) {
 *   console.log(tile);
 * }
 * ```
 */
export declare class RasterTilesFileReader<T extends Properties = RGBA | ElevationPoint> implements FeatureIterator<S2TileMetadata | TileMetadata, T, Properties> {
    readonly input: string | S2PMTilesReader;
    readonly threshold: number;
    readonly converter?: ElevationConverter | undefined;
    metadata?: Metadata;
    /**
     * @param input - the file path or S2PMTilesReader to read from
     * @param threshold - if non-zero its the max zoom to read all tiles in the FeatureIterator
     * @param converter - the elevation converter
     */
    constructor(input: string | S2PMTilesReader, threshold?: number, converter?: ElevationConverter | undefined);
    /**
     * Get the metadata of the archive
     * @returns - the metadata
     */
    getMetadata(): Promise<Metadata>;
    /**
     * Grab the tile at the given zoom-x-y coordinates
     * @param zoom - the zoom level of the tile
     * @param x - the x coordinate of the tile
     * @param y - the y coordinate of the tile
     * @returns - the tile
     */
    getTile(zoom: number, x: number, y: number): Promise<RasterTileReader<T> | undefined>;
    /**
     * Grab the tile at the given (face, zoom, x, y) coordinates
     * @param face - the Open S2 projection face
     * @param zoom - the zoom level of the tile
     * @param x - the x coordinate of the tile
     * @param y - the y coordinate of the tile
     * @returns - the tile
     */
    getTileS2(face: Face, zoom: number, x: number, y: number): Promise<RasterS2TileReader<T> | undefined>;
    /**
     * Return true if the tile exists
     * @param zoom - the zoom level of the tile
     * @param x - the x coordinate of the tile
     * @param y - the y coordinate of the tile
     * @returns - true if the tile exists
     */
    hasTile(zoom: number, x: number, y: number): Promise<boolean>;
    /**
     * Return true if the tile exists
     * @param face - the Open S2 projection face
     * @param zoom - the zoom level of the tile
     * @param x - the x coordinate of the tile
     * @param y - the y coordinate of the tile
     * @returns - true if the tile exists
     */
    hasTileS2(face: Face, zoom: number, x: number, y: number): Promise<boolean>;
    /**
     * Iterate over all tiles in the archive
     * @yields - the each of the tile's pixel RGBA data as lon-lat or S2 s-t coordinates with the RGBA as m-values
     */
    [Symbol.asyncIterator](): AsyncGenerator<S2Feature<S2TileMetadata, T, Properties> | VectorFeature<TileMetadata, T, Properties>>;
}
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