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OpenLayers mapping library
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/**
* Calculates ideal resolution to use from the source in order to achieve
* pixel mapping as close as possible to 1:1 during reprojection.
* The resolution is calculated regardless of what resolutions
* are actually available in the dataset (TileGrid, Image, ...).
*
* @param {import("./proj/Projection.js").default} sourceProj Source projection.
* @param {import("./proj/Projection.js").default} targetProj Target projection.
* @param {import("./coordinate.js").Coordinate} targetCenter Target center.
* @param {number} targetResolution Target resolution.
* @return {number} The best resolution to use. Can be +-Infinity, NaN or 0.
*/
export function calculateSourceResolution(sourceProj: import("./proj/Projection.js").default, targetProj: import("./proj/Projection.js").default, targetCenter: import("./coordinate.js").Coordinate, targetResolution: number): number;
/**
* Calculates ideal resolution to use from the source in order to achieve
* pixel mapping as close as possible to 1:1 during reprojection.
* The resolution is calculated regardless of what resolutions
* are actually available in the dataset (TileGrid, Image, ...).
*
* @param {import("./proj/Projection.js").default} sourceProj Source projection.
* @param {import("./proj/Projection.js").default} targetProj Target projection.
* @param {import("./extent.js").Extent} targetExtent Target extent
* @param {number} targetResolution Target resolution.
* @return {number} The best resolution to use. Can be +-Infinity, NaN or 0.
*/
export function calculateSourceExtentResolution(sourceProj: import("./proj/Projection.js").default, targetProj: import("./proj/Projection.js").default, targetExtent: import("./extent.js").Extent, targetResolution: number): number;
/**
* @typedef {Object} ImageExtent
* @property {import("./extent.js").Extent} extent Extent.
* @property {import("./extent.js").Extent} [clipExtent] Clip extent.
* @property {import('./DataTile.js').ImageLike} image Image.
*/
/**
* Renders the source data into new canvas based on the triangulation.
*
* @param {number} width Width of the canvas.
* @param {number} height Height of the canvas.
* @param {number} pixelRatio Pixel ratio.
* @param {number} sourceResolution Source resolution.
* @param {import("./extent.js").Extent} sourceExtent Extent of the data source.
* @param {number} targetResolution Target resolution.
* @param {import("./extent.js").Extent} targetExtent Target extent.
* @param {import("./reproj/Triangulation.js").default} triangulation Calculated triangulation.
* @param {Array} sources Array of sources.
* @param {number} gutter Gutter of the sources.
* @param {boolean} [renderEdges] Render reprojection edges.
* @param {boolean} [interpolate] Use linear interpolation when resampling.
* @param {boolean} [drawSingle] Draw single source images directly without stitchContext.
* @param {boolean} [clipExtent] Clip stitchContext to sourceExtent.
* @return {HTMLCanvasElement} Canvas with reprojected data.
*/
export function render(width: number, height: number, pixelRatio: number, sourceResolution: number, sourceExtent: import("./extent.js").Extent, targetResolution: number, targetExtent: import("./extent.js").Extent, triangulation: import("./reproj/Triangulation.js").default, sources: Array, gutter: number, renderEdges?: boolean | undefined, interpolate?: boolean | undefined, drawSingle?: boolean | undefined, clipExtent?: boolean | undefined): HTMLCanvasElement;
/**
* @type {Array}
*/
export const canvasPool: Array;
export type ImageExtent = {
/**
* Extent.
*/
extent: import("./extent.js").Extent;
/**
* Clip extent.
*/
clipExtent?: import("./extent.js").Extent | undefined;
/**
* Image.
*/
image: import("./DataTile.js").ImageLike;
};
//# sourceMappingURL=reproj.d.ts.map