import { getDistance } from "./chunk-ZLPTRF2L.js"; import { equals, getWorldsAway } from "./chunk-3JZANJYE.js"; import { clamp, modulo, toDegrees, toRadians, wrap } from "./chunk-54BTDBAD.js"; import { applyTransform, getWidth } from "./chunk-CKDBVGKM.js"; // node_modules/ol/console.js var levels = { info: 1, warn: 2, error: 3, none: 4 }; var level = levels.info; function warn(...args) { if (level > levels.warn) { return; } console.warn(...args); } function error(...args) { if (level > levels.error) { return; } console.error(...args); } // node_modules/ol/proj/Units.js var unitByCode = { "9001": "m", "9002": "ft", "9003": "us-ft", "9101": "radians", "9102": "degrees" }; function fromCode(code) { return unitByCode[code]; } var METERS_PER_UNIT = { // use the radius of the Normal sphere "radians": 6370997 / (2 * Math.PI), "degrees": 2 * Math.PI * 6370997 / 360, "ft": 0.3048, "m": 1, "us-ft": 1200 / 3937 }; // node_modules/ol/proj/Projection.js var Projection = class { /** * @param {Options} options Projection options. */ constructor(options) { this.code_ = options.code; this.units_ = /** @type {import("./Units.js").Units} */ options.units; this.extent_ = options.extent !== void 0 ? options.extent : null; this.worldExtent_ = options.worldExtent !== void 0 ? options.worldExtent : null; this.axisOrientation_ = options.axisOrientation !== void 0 ? options.axisOrientation : "enu"; this.global_ = options.global !== void 0 ? options.global : false; this.canWrapX_ = !!(this.global_ && this.extent_); this.getPointResolutionFunc_ = options.getPointResolution; this.defaultTileGrid_ = null; this.metersPerUnit_ = options.metersPerUnit; } /** * @return {boolean} The projection is suitable for wrapping the x-axis */ canWrapX() { return this.canWrapX_; } /** * Get the code for this projection, e.g. 'EPSG:4326'. * @return {string} Code. * @api */ getCode() { return this.code_; } /** * Get the validity extent for this projection. * @return {import("../extent.js").Extent} Extent. * @api */ getExtent() { return this.extent_; } /** * Get the units of this projection. * @return {import("./Units.js").Units} Units. * @api */ getUnits() { return this.units_; } /** * Get the amount of meters per unit of this projection. If the projection is * not configured with `metersPerUnit` or a units identifier, the return is * `undefined`. * @return {number|undefined} Meters. * @api */ getMetersPerUnit() { return this.metersPerUnit_ || METERS_PER_UNIT[this.units_]; } /** * Get the world extent for this projection. * @return {import("../extent.js").Extent} Extent. * @api */ getWorldExtent() { return this.worldExtent_; } /** * Get the axis orientation of this projection. * Example values are: * enu - the default easting, northing, elevation. * neu - northing, easting, up - useful for "lat/long" geographic coordinates, * or south orientated transverse mercator. * wnu - westing, northing, up - some planetary coordinate systems have * "west positive" coordinate systems * @return {string} Axis orientation. * @api */ getAxisOrientation() { return this.axisOrientation_; } /** * Is this projection a global projection which spans the whole world? * @return {boolean} Whether the projection is global. * @api */ isGlobal() { return this.global_; } /** * Set if the projection is a global projection which spans the whole world * @param {boolean} global Whether the projection is global. * @api */ setGlobal(global) { this.global_ = global; this.canWrapX_ = !!(global && this.extent_); } /** * @return {import("../tilegrid/TileGrid.js").default} The default tile grid. */ getDefaultTileGrid() { return this.defaultTileGrid_; } /** * @param {import("../tilegrid/TileGrid.js").default} tileGrid The default tile grid. */ setDefaultTileGrid(tileGrid) { this.defaultTileGrid_ = tileGrid; } /** * Set the validity extent for this projection. * @param {import("../extent.js").Extent} extent Extent. * @api */ setExtent(extent) { this.extent_ = extent; this.canWrapX_ = !!(this.global_ && extent); } /** * Set the world extent for this projection. * @param {import("../extent.js").Extent} worldExtent World extent * [minlon, minlat, maxlon, maxlat]. * @api */ setWorldExtent(worldExtent) { this.worldExtent_ = worldExtent; } /** * Set the getPointResolution function (see {@link module:ol/proj.getPointResolution} * for this projection. * @param {function(number, import("../coordinate.js").Coordinate):number} func Function * @api */ setGetPointResolution(func) { this.getPointResolutionFunc_ = func; } /** * Get the custom point resolution function for this projection (if set). * @return {GetPointResolution|undefined} The custom point * resolution function (if set). */ getPointResolutionFunc() { return this.getPointResolutionFunc_; } }; var Projection_default = Projection; // node_modules/ol/proj/epsg3857.js var RADIUS = 6378137; var HALF_SIZE = Math.PI * RADIUS; var EXTENT = [-HALF_SIZE, -HALF_SIZE, HALF_SIZE, HALF_SIZE]; var WORLD_EXTENT = [-180, -85, 180, 85]; var MAX_SAFE_Y = RADIUS * Math.log(Math.tan(Math.PI / 2)); var EPSG3857Projection = class extends Projection_default { /** * @param {string} code Code. */ constructor(code) { super({ code, units: "m", extent: EXTENT, global: true, worldExtent: WORLD_EXTENT, getPointResolution: function(resolution, point) { return resolution / Math.cosh(point[1] / RADIUS); } }); } }; var PROJECTIONS = [ new EPSG3857Projection("EPSG:3857"), new EPSG3857Projection("EPSG:102100"), new EPSG3857Projection("EPSG:102113"), new EPSG3857Projection("EPSG:900913"), new EPSG3857Projection("http://www.opengis.net/def/crs/EPSG/0/3857"), new EPSG3857Projection("http://www.opengis.net/gml/srs/epsg.xml#3857") ]; function fromEPSG4326(input, output, dimension, stride) { const length = input.length; dimension = dimension > 1 ? dimension : 2; stride = stride ?? dimension; if (output === void 0) { if (dimension > 2) { output = input.slice(); } else { output = new Array(length); } } for (let i = 0; i < length; i += stride) { output[i] = HALF_SIZE * input[i] / 180; let y = RADIUS * Math.log(Math.tan(Math.PI * (+input[i + 1] + 90) / 360)); if (y > MAX_SAFE_Y) { y = MAX_SAFE_Y; } else if (y < -MAX_SAFE_Y) { y = -MAX_SAFE_Y; } output[i + 1] = y; } return output; } function toEPSG4326(input, output, dimension, stride) { const length = input.length; dimension = dimension > 1 ? dimension : 2; stride = stride ?? dimension; if (output === void 0) { if (dimension > 2) { output = input.slice(); } else { output = new Array(length); } } for (let i = 0; i < length; i += stride) { output[i] = 180 * input[i] / HALF_SIZE; output[i + 1] = 360 * Math.atan(Math.exp(input[i + 1] / RADIUS)) / Math.PI - 90; } return output; } // node_modules/ol/proj/epsg4326.js var RADIUS2 = 6378137; var EXTENT2 = [-180, -90, 180, 90]; var METERS_PER_UNIT2 = Math.PI * RADIUS2 / 180; var EPSG4326Projection = class extends Projection_default { /** * @param {string} code Code. * @param {string} [axisOrientation] Axis orientation. */ constructor(code, axisOrientation) { super({ code, units: "degrees", extent: EXTENT2, axisOrientation, global: true, metersPerUnit: METERS_PER_UNIT2, worldExtent: EXTENT2 }); } }; var PROJECTIONS2 = [ new EPSG4326Projection("CRS:84"), new EPSG4326Projection("EPSG:4326", "neu"), new EPSG4326Projection("urn:ogc:def:crs:OGC:1.3:CRS84"), new EPSG4326Projection("urn:ogc:def:crs:OGC:2:84"), new EPSG4326Projection("http://www.opengis.net/def/crs/OGC/1.3/CRS84"), new EPSG4326Projection("http://www.opengis.net/gml/srs/epsg.xml#4326", "neu"), new EPSG4326Projection("http://www.opengis.net/def/crs/EPSG/0/4326", "neu") ]; // node_modules/ol/proj/projections.js var cache = {}; function clear() { cache = {}; } function get(code) { return cache[code] || cache[code.replace(/urn:(x-)?ogc:def:crs:EPSG:(.*:)?(\w+)$/, "EPSG:$3")] || null; } function add(code, projection) { cache[code] = projection; } // node_modules/ol/proj/transforms.js var transforms = {}; function clear2() { transforms = {}; } function add2(source, destination, transformFn) { const sourceCode = source.getCode(); const destinationCode = destination.getCode(); if (!(sourceCode in transforms)) { transforms[sourceCode] = {}; } transforms[sourceCode][destinationCode] = transformFn; } function get2(sourceCode, destinationCode) { if (sourceCode in transforms && destinationCode in transforms[sourceCode]) { return transforms[sourceCode][destinationCode]; } return null; } // node_modules/ol/proj/utm.js var K0 = 0.9996; var E = 669438e-8; var E2 = E * E; var E3 = E2 * E; var E_P2 = E / (1 - E); var SQRT_E = Math.sqrt(1 - E); var _E = (1 - SQRT_E) / (1 + SQRT_E); var _E2 = _E * _E; var _E3 = _E2 * _E; var _E4 = _E3 * _E; var _E5 = _E4 * _E; var M1 = 1 - E / 4 - 3 * E2 / 64 - 5 * E3 / 256; var M2 = 3 * E / 8 + 3 * E2 / 32 + 45 * E3 / 1024; var M3 = 15 * E2 / 256 + 45 * E3 / 1024; var M4 = 35 * E3 / 3072; var P2 = 3 / 2 * _E - 27 / 32 * _E3 + 269 / 512 * _E5; var P3 = 21 / 16 * _E2 - 55 / 32 * _E4; var P4 = 151 / 96 * _E3 - 417 / 128 * _E5; var P5 = 1097 / 512 * _E4; var R = 6378137; function toLonLat(easting, northing, zone) { const x = easting - 5e5; const y = zone.north ? northing : northing - 1e7; const m = y / K0; const mu = m / (R * M1); const pRad = mu + P2 * Math.sin(2 * mu) + P3 * Math.sin(4 * mu) + P4 * Math.sin(6 * mu) + P5 * Math.sin(8 * mu); const pSin = Math.sin(pRad); const pSin2 = pSin * pSin; const pCos = Math.cos(pRad); const pTan = pSin / pCos; const pTan2 = pTan * pTan; const pTan4 = pTan2 * pTan2; const epSin = 1 - E * pSin2; const epSinSqrt = Math.sqrt(1 - E * pSin2); const n = R / epSinSqrt; const r = (1 - E) / epSin; const c = E_P2 * pCos ** 2; const c2 = c * c; const d = x / (n * K0); const d2 = d * d; const d3 = d2 * d; const d4 = d3 * d; const d5 = d4 * d; const d6 = d5 * d; const latitude = pRad - pTan / r * (d2 / 2 - d4 / 24 * (5 + 3 * pTan2 + 10 * c - 4 * c2 - 9 * E_P2)) + d6 / 720 * (61 + 90 * pTan2 + 298 * c + 45 * pTan4 - 252 * E_P2 - 3 * c2); let longitude = (d - d3 / 6 * (1 + 2 * pTan2 + c) + d5 / 120 * (5 - 2 * c + 28 * pTan2 - 3 * c2 + 8 * E_P2 + 24 * pTan4)) / pCos; longitude = wrap( longitude + toRadians(zoneToCentralLongitude(zone.number)), -Math.PI, Math.PI ); return [toDegrees(longitude), toDegrees(latitude)]; } var MIN_LATITUDE = -80; var MAX_LATITUDE = 84; var MIN_LONGITUDE = -180; var MAX_LONGITUDE = 180; function fromLonLat(longitude, latitude, zone) { longitude = wrap(longitude, MIN_LONGITUDE, MAX_LONGITUDE); if (latitude < MIN_LATITUDE) { latitude = MIN_LATITUDE; } else if (latitude > MAX_LATITUDE) { latitude = MAX_LATITUDE; } const latRad = toRadians(latitude); const latSin = Math.sin(latRad); const latCos = Math.cos(latRad); const latTan = latSin / latCos; const latTan2 = latTan * latTan; const latTan4 = latTan2 * latTan2; const lonRad = toRadians(longitude); const centralLon = zoneToCentralLongitude(zone.number); const centralLonRad = toRadians(centralLon); const n = R / Math.sqrt(1 - E * latSin ** 2); const c = E_P2 * latCos ** 2; const a = latCos * wrap(lonRad - centralLonRad, -Math.PI, Math.PI); const a2 = a * a; const a3 = a2 * a; const a4 = a3 * a; const a5 = a4 * a; const a6 = a5 * a; const m = R * (M1 * latRad - M2 * Math.sin(2 * latRad) + M3 * Math.sin(4 * latRad) - M4 * Math.sin(6 * latRad)); const easting = K0 * n * (a + a3 / 6 * (1 - latTan2 + c) + a5 / 120 * (5 - 18 * latTan2 + latTan4 + 72 * c - 58 * E_P2)) + 5e5; let northing = K0 * (m + n * latTan * (a2 / 2 + a4 / 24 * (5 - latTan2 + 9 * c + 4 * c ** 2) + a6 / 720 * (61 - 58 * latTan2 + latTan4 + 600 * c - 330 * E_P2))); if (!zone.north) { northing += 1e7; } return [easting, northing]; } function zoneToCentralLongitude(zone) { return (zone - 1) * 6 - 180 + 3; } var epsgRegExes = [ /^EPSG:(\d+)$/, /^urn:ogc:def:crs:EPSG::(\d+)$/, /^http:\/\/www\.opengis\.net\/def\/crs\/EPSG\/0\/(\d+)$/ ]; function zoneFromCode(code) { let epsgId = 0; for (const re of epsgRegExes) { const match = code.match(re); if (match) { epsgId = parseInt(match[1]); break; } } if (!epsgId) { return null; } let number = 0; let north = false; if (epsgId > 32700 && epsgId < 32761) { number = epsgId - 32700; } else if (epsgId > 32600 && epsgId < 32661) { north = true; number = epsgId - 32600; } if (!number) { return null; } return { number, north }; } function makeTransformFunction(transformer, zone) { return function(input, output, dimension, stride) { const length = input.length; dimension = dimension > 1 ? dimension : 2; stride = stride ?? dimension; if (!output) { if (dimension > 2) { output = input.slice(); } else { output = new Array(length); } } for (let i = 0; i < length; i += stride) { const x = input[i]; const y = input[i + 1]; const coord = transformer(x, y, zone); output[i] = coord[0]; output[i + 1] = coord[1]; } return output; }; } function makeProjection(code) { const zone = zoneFromCode(code); if (!zone) { return null; } return new Projection_default({ code, units: "m" }); } function makeTransforms(projection) { const zone = zoneFromCode(projection.getCode()); if (!zone) { return null; } return { forward: makeTransformFunction(fromLonLat, zone), inverse: makeTransformFunction(toLonLat, zone) }; } // node_modules/ol/proj.js var transformFactories = [makeTransforms]; var projectionFactories = [makeProjection]; var showCoordinateWarning = true; function disableCoordinateWarning(disable) { const hide = disable === void 0 ? true : disable; showCoordinateWarning = !hide; } function cloneTransform(input, output) { if (output !== void 0) { for (let i = 0, ii = input.length; i < ii; ++i) { output[i] = input[i]; } output = output; } else { output = input.slice(); } return output; } function identityTransform(input, output) { if (output !== void 0 && input !== output) { for (let i = 0, ii = input.length; i < ii; ++i) { output[i] = input[i]; } input = output; } return input; } function addProjection(projection) { add(projection.getCode(), projection); add2(projection, projection, cloneTransform); } function addProjections(projections) { projections.forEach(addProjection); } function get3(projectionLike) { if (!(typeof projectionLike === "string")) { return projectionLike; } const projection = get(projectionLike); if (projection) { return projection; } for (const makeProjection2 of projectionFactories) { const projection2 = makeProjection2(projectionLike); if (projection2) { return projection2; } } return null; } function getPointResolution(projection, resolution, point, units) { projection = get3(projection); let pointResolution; const getter = projection.getPointResolutionFunc(); if (getter) { pointResolution = getter(resolution, point); if (units && units !== projection.getUnits()) { const metersPerUnit = projection.getMetersPerUnit(); if (metersPerUnit) { pointResolution = pointResolution * metersPerUnit / METERS_PER_UNIT[units]; } } } else { const projUnits = projection.getUnits(); if (projUnits == "degrees" && !units || units == "degrees") { pointResolution = resolution; } else { const toEPSG43262 = getTransformFromProjections( projection, get3("EPSG:4326") ); if (!toEPSG43262 && projUnits !== "degrees") { pointResolution = resolution * projection.getMetersPerUnit(); } else { let vertices = [ point[0] - resolution / 2, point[1], point[0] + resolution / 2, point[1], point[0], point[1] - resolution / 2, point[0], point[1] + resolution / 2 ]; vertices = toEPSG43262(vertices, vertices, 2); const width = getDistance(vertices.slice(0, 2), vertices.slice(2, 4)); const height = getDistance(vertices.slice(4, 6), vertices.slice(6, 8)); pointResolution = (width + height) / 2; } const metersPerUnit = units ? METERS_PER_UNIT[units] : projection.getMetersPerUnit(); if (metersPerUnit !== void 0) { pointResolution /= metersPerUnit; } } } return pointResolution; } function addEquivalentProjections(projections) { addProjections(projections); projections.forEach(function(source) { projections.forEach(function(destination) { if (source !== destination) { add2(source, destination, cloneTransform); } }); }); } function addEquivalentTransforms(projections1, projections2, forwardTransform, inverseTransform) { projections1.forEach(function(projection1) { projections2.forEach(function(projection2) { add2(projection1, projection2, forwardTransform); add2(projection2, projection1, inverseTransform); }); }); } function clearAllProjections() { clear(); clear2(); } function createProjection(projection, defaultCode) { if (!projection) { return get3(defaultCode); } if (typeof projection === "string") { return get3(projection); } return ( /** @type {Projection} */ projection ); } function createTransformFromCoordinateTransform(coordTransform) { return ( /** * @param {Array} input Input. * @param {Array} [output] Output. * @param {number} [dimension] Dimensions that should be transformed. * @param {number} [stride] Stride. * @return {Array} Output. */ (function(input, output, dimension, stride) { const length = input.length; dimension = dimension !== void 0 ? dimension : 2; stride = stride ?? dimension; output = output !== void 0 ? output : new Array(length); for (let i = 0; i < length; i += stride) { const point = coordTransform(input.slice(i, i + dimension)); const pointLength = point.length; for (let j = 0, jj = stride; j < jj; ++j) { output[i + j] = j >= pointLength ? input[i + j] : point[j]; } } return output; }) ); } function addCoordinateTransforms(source, destination, forward, inverse) { const sourceProj = get3(source); const destProj = get3(destination); add2( sourceProj, destProj, createTransformFromCoordinateTransform(forward) ); add2( destProj, sourceProj, createTransformFromCoordinateTransform(inverse) ); } function fromLonLat2(coordinate, projection) { disableCoordinateWarning(); return transform( coordinate, "EPSG:4326", projection !== void 0 ? projection : "EPSG:3857" ); } function toLonLat2(coordinate, projection) { const lonLat = transform( coordinate, projection !== void 0 ? projection : "EPSG:3857", "EPSG:4326" ); const lon = lonLat[0]; if (lon < -180 || lon > 180) { lonLat[0] = modulo(lon + 180, 360) - 180; } return lonLat; } function equivalent(projection1, projection2) { if (projection1 === projection2) { return true; } const equalUnits = projection1.getUnits() === projection2.getUnits(); if (projection1.getCode() === projection2.getCode()) { return equalUnits; } const transformFunc = getTransformFromProjections(projection1, projection2); return transformFunc === cloneTransform && equalUnits; } function getTransformFromProjections(source, destination) { const sourceCode = source.getCode(); const destinationCode = destination.getCode(); let transformFunc = get2(sourceCode, destinationCode); if (transformFunc) { return transformFunc; } let sourceTransforms = null; let destinationTransforms = null; for (const makeTransforms2 of transformFactories) { if (!sourceTransforms) { sourceTransforms = makeTransforms2(source); } if (!destinationTransforms) { destinationTransforms = makeTransforms2(destination); } } if (!sourceTransforms && !destinationTransforms) { return null; } const intermediateCode = "EPSG:4326"; if (!destinationTransforms) { const toDestination = get2(intermediateCode, destinationCode); if (toDestination) { transformFunc = composeTransformFuncs( sourceTransforms.inverse, toDestination ); } } else if (!sourceTransforms) { const fromSource = get2(sourceCode, intermediateCode); if (fromSource) { transformFunc = composeTransformFuncs( fromSource, destinationTransforms.forward ); } } else { transformFunc = composeTransformFuncs( sourceTransforms.inverse, destinationTransforms.forward ); } if (transformFunc) { addProjection(source); addProjection(destination); add2(source, destination, transformFunc); } return transformFunc; } function composeTransformFuncs(t1, t2) { return function(input, output, dimensions, stride) { output = t1(input, output, dimensions, stride); return t2(output, output, dimensions, stride); }; } function getTransform(source, destination) { const sourceProjection = get3(source); const destinationProjection = get3(destination); return getTransformFromProjections(sourceProjection, destinationProjection); } function transform(coordinate, source, destination) { const transformFunc = getTransform(source, destination); if (!transformFunc) { const sourceCode = get3(source).getCode(); const destinationCode = get3(destination).getCode(); throw new Error( `No transform available between ${sourceCode} and ${destinationCode}` ); } return transformFunc(coordinate, void 0, coordinate.length); } function transformExtent(extent, source, destination, stops) { const transformFunc = getTransform(source, destination); return applyTransform(extent, transformFunc, void 0, stops); } function transformWithProjections(point, sourceProjection, destinationProjection) { const transformFunc = getTransformFromProjections( sourceProjection, destinationProjection ); return transformFunc(point); } var userProjection = null; function setUserProjection(projection) { userProjection = get3(projection); } function clearUserProjection() { userProjection = null; } function getUserProjection() { return userProjection; } function useGeographic() { setUserProjection("EPSG:4326"); } function toUserCoordinate(coordinate, sourceProjection) { if (!userProjection) { return coordinate; } return transform(coordinate, sourceProjection, userProjection); } function fromUserCoordinate(coordinate, destProjection) { if (!userProjection) { if (showCoordinateWarning && !equals(coordinate, [0, 0]) && coordinate[0] >= -180 && coordinate[0] <= 180 && coordinate[1] >= -90 && coordinate[1] <= 90) { showCoordinateWarning = false; warn( "Call useGeographic() from ol/proj once to work with [longitude, latitude] coordinates." ); } return coordinate; } return transform(coordinate, userProjection, destProjection); } function toUserExtent(extent, sourceProjection) { if (!userProjection) { return extent; } return transformExtent(extent, sourceProjection, userProjection); } function fromUserExtent(extent, destProjection) { if (!userProjection) { return extent; } return transformExtent(extent, userProjection, destProjection); } function toUserResolution(resolution, sourceProjection) { if (!userProjection) { return resolution; } const sourceMetersPerUnit = get3(sourceProjection).getMetersPerUnit(); const userMetersPerUnit = userProjection.getMetersPerUnit(); return sourceMetersPerUnit && userMetersPerUnit ? resolution * sourceMetersPerUnit / userMetersPerUnit : resolution; } function fromUserResolution(resolution, destProjection) { if (!userProjection) { return resolution; } const destMetersPerUnit = get3(destProjection).getMetersPerUnit(); const userMetersPerUnit = userProjection.getMetersPerUnit(); return destMetersPerUnit && userMetersPerUnit ? resolution * userMetersPerUnit / destMetersPerUnit : resolution; } function createSafeCoordinateTransform(sourceProj, destProj, transform2) { return function(coord) { let transformed, worldsAway; if (sourceProj.canWrapX()) { const sourceExtent = sourceProj.getExtent(); const sourceExtentWidth = getWidth(sourceExtent); coord = coord.slice(0); worldsAway = getWorldsAway(coord, sourceProj, sourceExtentWidth); if (worldsAway) { coord[0] = coord[0] - worldsAway * sourceExtentWidth; } coord[0] = clamp(coord[0], sourceExtent[0], sourceExtent[2]); coord[1] = clamp(coord[1], sourceExtent[1], sourceExtent[3]); transformed = transform2(coord); } else { transformed = transform2(coord); } if (worldsAway && destProj.canWrapX()) { transformed[0] += worldsAway * getWidth(destProj.getExtent()); } return transformed; }; } function addCommon() { addEquivalentProjections(PROJECTIONS); addEquivalentProjections(PROJECTIONS2); addEquivalentTransforms( PROJECTIONS2, PROJECTIONS, fromEPSG4326, toEPSG4326 ); } addCommon(); export { warn, error, fromCode, METERS_PER_UNIT, Projection_default, disableCoordinateWarning, cloneTransform, identityTransform, addProjection, addProjections, get3 as get, getPointResolution, addEquivalentProjections, addEquivalentTransforms, clearAllProjections, createProjection, createTransformFromCoordinateTransform, addCoordinateTransforms, fromLonLat2 as fromLonLat, toLonLat2 as toLonLat, equivalent, getTransformFromProjections, getTransform, transform, transformExtent, transformWithProjections, setUserProjection, clearUserProjection, getUserProjection, useGeographic, toUserCoordinate, fromUserCoordinate, toUserExtent, fromUserExtent, toUserResolution, fromUserResolution, createSafeCoordinateTransform, addCommon }; 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