import { o as o2 } from "./chunk-SAJAEMIJ.js"; import { o, r as r2, x } from "./chunk-VGWC3IKZ.js"; import { $, E as E2, I as I2, R, p } from "./chunk-3RSFVUKZ.js"; import { a } from "./chunk-ZLNEXZAN.js"; import { N, a as a2, b, m as m2 } from "./chunk-RYY6632W.js"; import { n } from "./chunk-TJNOJH33.js"; import { m2 as m, u, v2 as v } from "./chunk-VCH45Q2I.js"; import { e as e2 } from "./chunk-GSSTTHIT.js"; import { e as e3, s as s4, t as t2, w, w2 } from "./chunk-6T6G6LCQ.js"; import { E, G, I, P, S, T, k, s as s3 } from "./chunk-PQFTYGF5.js"; import { s2 as s } from "./chunk-2Z2TG5CU.js"; import { O, f } from "./chunk-V6P2MAQQ.js"; import { s3 as s2 } from "./chunk-E5O6P5I2.js"; import { has } from "./chunk-SPWQ3AWG.js"; import { e, r, t } from "./chunk-YXWMMD76.js"; // node_modules/@arcgis/core/geometry/support/GeographicTransformationStep.js var s5 = 0; var t3 = class { constructor(t5) { this.uid = s5++, t5 ? (this._wkt = null != t5.wkt ? t5.wkt : null, this._wkid = null != t5.wkid ? t5.wkid : -1, this._isInverse = null != t5.isInverse && true === t5.isInverse) : (this._wkt = null, this._wkid = -1, this._isInverse = false); } static fromGE(s10) { const i3 = new t3(); return i3._wkt = s10.wkt, i3._wkid = s10.wkid, i3._isInverse = s10.isInverse, i3; } get wkt() { return this._wkt; } set wkt(t5) { this._wkt = t5, this.uid = s5++; } get wkid() { return this._wkid; } set wkid(t5) { this._wkid = t5, this.uid = s5++; } get isInverse() { return this._isInverse; } set isInverse(t5) { this._isInverse = t5, this.uid = s5++; } getInverse() { const s10 = new t3(); return s10._wkt = this.wkt, s10._wkid = this._wkid, s10._isInverse = !this.isInverse, s10; } }; // node_modules/@arcgis/core/geometry/support/GeographicTransformation.js var s6 = class { constructor(s10) { if (this.steps = [], this._cachedProjection = {}, this._chain = "", this._gtlistentry = null, s10 && s10.steps) for (const i3 of s10.steps) i3 instanceof t3 ? this.steps.push(i3) : this.steps.push(new t3({ wkid: i3.wkid, wkt: i3.wkt, isInverse: i3.isInverse })); } static cacheKey(t5, s10) { return [void 0 !== t5.wkid && null !== t5.wkid ? t5.wkid.toString() : "-1", void 0 !== t5.wkt && null !== t5.wkt ? t5.wkt.toString() : "", void 0 !== s10.wkid && null !== s10.wkid ? s10.wkid.toString() : "-1", void 0 !== s10.wkt && null !== s10.wkt ? s10.wkt.toString() : ""].join(","); } static fromGE(i3) { const e5 = new s6(); let n4 = ""; for (const s10 of i3.steps) { const i4 = t3.fromGE(s10); e5.steps.push(i4), n4 += i4.uid.toString() + ","; } return e5._cachedProjection = {}, e5._gtlistentry = null, e5._chain = n4, e5; } getInverse() { const t5 = new s6(); t5.steps = []; for (let s10 = this.steps.length - 1; s10 >= 0; s10--) { const i3 = this.steps[s10]; t5.steps.push(i3.getInverse()); } return t5; } getGTListEntry() { let t5 = ""; for (const s10 of this.steps) t5 += s10.uid.toString() + ","; return t5 !== this._chain && (this._gtlistentry = null, this._cachedProjection = {}, this._chain = t5), this._gtlistentry; } assignCachedGe(t5, i3, e5) { this._cachedProjection[s6.cacheKey(t5, i3)] = e5; } getCachedGeTransformation(t5, i3) { let e5 = ""; for (const s10 of this.steps) e5 += s10.uid.toString() + ","; e5 !== this._chain && (this._gtlistentry = null, this._cachedProjection = {}, this._chain = e5); const n4 = this._cachedProjection[s6.cacheKey(t5, i3)]; return void 0 === n4 ? null : n4; } }; // node_modules/@arcgis/core/chunks/pe.js var t4; var o3 = null; function r3() { return !!o3; } function n2() { return !!has("esri-wasm"); } function _() { return t4 || (t4 = import("./pe-wasm-7XURYN4Y.js").then((e5) => e5.p).then(({ default: t5 }) => t5({ locateFile: (t6) => a(`esri/geometry/support/${t6}`) })).then((e5) => { S2(e5); }), t4); } var P2; var s7; var E3; !function(e5) { function t5(e6, t6, r7) { o3.ensureCache.prepare(); const n5 = M(r7), _3 = r7 === n5, P3 = o3.ensureFloat64(n5), s10 = o3._pe_geog_to_proj(o3.getPointer(e6), t6, P3); return s10 && A(r7, t6, P3, _3), s10; } function r6(e6, o5, r7, _3) { switch (_3) { case s7.PE_TRANSFORM_P_TO_G: return n4(e6, o5, r7); case s7.PE_TRANSFORM_G_TO_P: return t5(e6, o5, r7); } return 0; } function n4(e6, t6, o5) { return _2(e6, t6, o5, 0); } function _2(e6, t6, r7, n5) { o3.ensureCache.prepare(); const _3 = M(r7), P3 = r7 === _3, s10 = o3.ensureFloat64(_3), E4 = o3._pe_proj_to_geog_center(o3.getPointer(e6), t6, s10, n5); return E4 && A(r7, t6, s10, P3), E4; } e5.geogToProj = t5, e5.projGeog = r6, e5.projToGeog = n4, e5.projToGeogCenter = _2; }(P2 || (P2 = {})), function(e5) { function t5() { e5.PE_BUFFER_MAX = o3.PeDefs.prototype.PE_BUFFER_MAX, e5.PE_NAME_MAX = o3.PeDefs.prototype.PE_NAME_MAX, e5.PE_MGRS_MAX = o3.PeDefs.prototype.PE_MGRS_MAX, e5.PE_USNG_MAX = o3.PeDefs.prototype.PE_USNG_MAX, e5.PE_DD_MAX = o3.PeDefs.prototype.PE_DD_MAX, e5.PE_DDM_MAX = o3.PeDefs.prototype.PE_DDM_MAX, e5.PE_DMS_MAX = o3.PeDefs.prototype.PE_DMS_MAX, e5.PE_UTM_MAX = o3.PeDefs.prototype.PE_UTM_MAX, e5.PE_PARM_MAX = o3.PeDefs.prototype.PE_PARM_MAX, e5.PE_TYPE_NONE = o3.PeDefs.prototype.PE_TYPE_NONE, e5.PE_TYPE_GEOGCS = o3.PeDefs.prototype.PE_TYPE_GEOGCS, e5.PE_TYPE_PROJCS = o3.PeDefs.prototype.PE_TYPE_PROJCS, e5.PE_TYPE_GEOGTRAN = o3.PeDefs.prototype.PE_TYPE_GEOGTRAN, e5.PE_TYPE_COORDSYS = o3.PeDefs.prototype.PE_TYPE_COORDSYS, e5.PE_TYPE_UNIT = o3.PeDefs.prototype.PE_TYPE_UNIT, e5.PE_TYPE_LINUNIT = o3.PeDefs.prototype.PE_TYPE_LINUNIT, e5.PE_STR_OPTS_NONE = o3.PeDefs.prototype.PE_STR_OPTS_NONE, e5.PE_STR_AUTH_NONE = o3.PeDefs.prototype.PE_STR_AUTH_NONE, e5.PE_STR_AUTH_TOP = o3.PeDefs.prototype.PE_STR_AUTH_TOP, e5.PE_STR_NAME_CANON = o3.PeDefs.prototype.PE_STR_NAME_CANON, e5.PE_PARM_X0 = o3.PeDefs.prototype.PE_PARM_X0, e5.PE_PARM_ND = o3.PeDefs.prototype.PE_PARM_ND, e5.PE_TRANSFORM_1_TO_2 = o3.PeDefs.prototype.PE_TRANSFORM_1_TO_2, e5.PE_TRANSFORM_2_TO_1 = o3.PeDefs.prototype.PE_TRANSFORM_2_TO_1, e5.PE_TRANSFORM_P_TO_G = o3.PeDefs.prototype.PE_TRANSFORM_P_TO_G, e5.PE_TRANSFORM_G_TO_P = o3.PeDefs.prototype.PE_TRANSFORM_G_TO_P, e5.PE_HORIZON_RECT = o3.PeDefs.prototype.PE_HORIZON_RECT, e5.PE_HORIZON_POLY = o3.PeDefs.prototype.PE_HORIZON_POLY, e5.PE_HORIZON_LINE = o3.PeDefs.prototype.PE_HORIZON_LINE, e5.PE_HORIZON_DELTA = o3.PeDefs.prototype.PE_HORIZON_DELTA; } e5.init = t5; }(s7 || (s7 = {})), function(e5) { const t5 = {}, r6 = {}, n4 = (e6) => { if (e6) { const t6 = e6.getType(); switch (t6) { case s7.PE_TYPE_GEOGCS: e6 = o3.castObject(e6, o3.PeGeogcs); break; case s7.PE_TYPE_PROJCS: e6 = o3.castObject(e6, o3.PeProjcs); break; case s7.PE_TYPE_GEOGTRAN: e6 = o3.castObject(e6, o3.PeGeogtran); break; default: t6 & s7.PE_TYPE_UNIT && (e6 = o3.castObject(e6, o3.PeUnit)); } } return e6; }; function _2() { o3.PeFactory.prototype.initialize(null); } function P3(e6) { return E4(s7.PE_TYPE_COORDSYS, e6); } function E4(e6, r7) { let _3 = null, P4 = t5[e6]; if (P4 || (P4 = {}, t5[e6] = P4), P4.hasOwnProperty(String(r7))) _3 = P4[r7]; else { const t6 = o3.PeFactory.prototype.factoryByType(e6, r7); o3.compare(t6, o3.NULL) || (_3 = t6, P4[r7] = _3); } return _3 = n4(_3), _3; } function i3(e6, t6) { let _3 = null, P4 = r6[e6]; if (P4 || (P4 = {}, r6[e6] = P4), P4.hasOwnProperty(t6)) _3 = P4[t6]; else { const r7 = o3.PeFactory.prototype.fromString(e6, t6); o3.compare(r7, o3.NULL) || (_3 = r7, P4[t6] = _3); } return _3 = n4(_3), _3; } function p3(e6) { return E4(s7.PE_TYPE_GEOGCS, e6); } function u4(e6) { return E4(s7.PE_TYPE_GEOGTRAN, e6); } function a5(e6) { return o3.PeFactory.prototype.getCode(e6); } function c2(e6) { return E4(s7.PE_TYPE_PROJCS, e6); } function g2(e6) { return E4(s7.PE_TYPE_UNIT, e6); } e5.initialize = _2, e5.coordsys = P3, e5.factoryByType = E4, e5.fromString = i3, e5.geogcs = p3, e5.geogtran = u4, e5.getCode = a5, e5.projcs = c2, e5.unit = g2; }(E3 || (E3 = {})); var i = null; var p2; var u2; var a3; var c; var g; var T2; var f2; var O2; var l; function S2(e5) { function t5(e6, t6, o5) { e6[t6] = o5(e6[t6]); } o3 = e5, s7.init(), p2.init(), g.init(), f2.init(), O2.init(), i = class extends o3.PeGCSExtent { destroy() { o3.destroy(this); } }; const r6 = [o3.PeDatum, o3.PeGeogcs, o3.PeGeogtran, o3.PeObject, o3.PeParameter, o3.PePrimem, o3.PeProjcs, o3.PeSpheroid, o3.PeUnit]; for (const o5 of r6) t5(o5.prototype, "getName", (e6) => function() { return e6.call(this, new Array(s7.PE_NAME_MAX)); }); for (const P3 of [o3.PeGeogtran, o3.PeProjcs]) t5(P3.prototype, "getParameters", (e6) => function() { const t6 = new Array(s7.PE_PARM_MAX); let r7 = e6.call(this); for (let e7 = 0; e7 < t6.length; e7++) { const n5 = o3.getValue(r7, "*"); t6[e7] = n5 ? o3.wrapPointer(n5, o3.PeParameter) : null, r7 += Int32Array.BYTES_PER_ELEMENT; } return t6; }); t5(o3.PeHorizon.prototype, "getCoord", (e6) => function() { const t6 = this.getSize(); if (!t6) return null; const o5 = []; return A(o5, t6, e6.call(this)), o5; }), t5(o3.PeGTlistExtendedEntry.prototype, "getEntries", (e6) => { const t6 = o3._pe_getPeGTlistExtendedGTsSize(); return function() { let r7 = null; const n5 = e6.call(this); if (!o3.compare(n5, o3.NULL)) { r7 = [n5]; const e7 = this.getSteps(); if (e7 > 1) { const _3 = o3.getPointer(n5); for (let n6 = 1; n6 < e7; n6++) r7.push(o3.wrapPointer(_3 + t6 * n6, o3.PeGTlistExtendedGTs)); } } return r7; }; }); const n4 = o3._pe_getPeHorizonSize(), _2 = (e6) => function() { let t6 = this._cache; if (t6 || (t6 = /* @__PURE__ */ new Map(), this._cache = t6), t6.has(e6)) return t6.get(e6); let r7 = null; const _3 = e6.call(this); if (!o3.compare(_3, o3.NULL)) { r7 = [_3]; const e7 = _3.getNump(); if (e7 > 1) { const t7 = o3.getPointer(_3); for (let _4 = 1; _4 < e7; _4++) r7.push(o3.wrapPointer(t7 + n4 * _4, o3.PeHorizon)); } } return t6.set(e6, r7), r7; }; t5(o3.PeProjcs.prototype, "horizonGcsGenerate", _2), t5(o3.PeProjcs.prototype, "horizonPcsGenerate", _2), o3.PeObject.prototype.toString = function(e6 = s7.PE_STR_OPTS_NONE) { o3.ensureCache.prepare(); const t6 = o3.getPointer(this), r7 = o3.ensureInt8(new Array(s7.PE_BUFFER_MAX)); return o3.UTF8ToString(o3._pe_object_to_string_ext(t6, e6, r7)); }; } function N2(e5) { if (!e5) return; const t5 = o3.getClass(e5); if (!t5) return; const r6 = o3.getCache(t5); if (!r6) return; const n4 = o3.getPointer(e5); n4 && delete r6[n4]; } function y(e5, t5) { const r6 = [], n4 = new Array(t5); for (let _2 = 0; _2 < e5; _2++) r6.push(o3.ensureInt8(n4)); return r6; } function M(e5) { let t5; return Array.isArray(e5[0]) ? (t5 = [], e5.forEach((e6) => { t5.push(e6[0], e6[1]); })) : t5 = e5, t5; } function A(e5, t5, r6, n4 = false) { if (n4) for (let _2 = 0; _2 < 2 * t5; _2++) e5[_2] = o3.getValue(r6 + _2 * Float64Array.BYTES_PER_ELEMENT, "double"); else { const n5 = 0 === e5.length; for (let _2 = 0; _2 < t5; _2++) n5 && (e5[_2] = new Array(2)), e5[_2][0] = o3.getValue(r6, "double"), e5[_2][1] = o3.getValue(r6 + Float64Array.BYTES_PER_ELEMENT, "double"), r6 += 2 * Float64Array.BYTES_PER_ELEMENT; } } !function(e5) { let t5; function r6() { e5.PE_GTLIST_OPTS_COMMON = o3.PeGTlistExtended.prototype.PE_GTLIST_OPTS_COMMON, t5 = o3._pe_getPeGTlistExtendedEntrySize(); } function n4(e6, r7, n5, _2, P3, s10) { let E4 = null; const i3 = new o3.PeInteger(s10); try { const p3 = o3.PeGTlistExtended.prototype.getGTlist(e6, r7, n5, _2, P3, i3); if ((s10 = i3.val) && (E4 = [p3], s10 > 1)) { const e7 = o3.getPointer(p3); for (let r8 = 1; r8 < s10; r8++) E4.push(o3.wrapPointer(e7 + t5 * r8, o3.PeGTlistExtendedEntry)); } } finally { o3.destroy(i3); } return E4; } e5.init = r6, e5.getGTlist = n4; }(p2 || (p2 = {})), function(e5) { function t5(e6) { if (e6 && e6.length) { for (const t6 of e6) N2(t6), t6.getEntries().forEach((e7) => { N2(e7); const t7 = e7.getGeogtran(); N2(t7), t7.getParameters().forEach(N2), [t7.getGeogcs1(), t7.getGeogcs2()].forEach((e8) => { N2(e8); const t8 = e8.getDatum(); N2(t8), N2(t8.getSpheroid()), N2(e8.getPrimem()), N2(e8.getUnit()); }); }); o3.PeGTlistExtendedEntry.prototype.Delete(e6[0]); } } e5.destroy = t5; }(u2 || (u2 = {})), function(e5) { function t5(e6, t6, r6, n4, _2) { o3.ensureCache.prepare(); const P3 = M(r6), s10 = r6 === P3, E4 = o3.ensureFloat64(P3); let i3 = 0; n4 && (i3 = o3.ensureFloat64(n4)); const p3 = o3._pe_geog_to_geog(o3.getPointer(e6), t6, E4, i3, _2); return p3 && A(r6, t6, E4, s10), p3; } e5.geogToGeog = t5; }(a3 || (a3 = {})), function(e5) { const t5 = (e6, t6, r7, n5, _3, P4) => { let E5, i4; switch (o3.ensureCache.prepare(), e6) { case "dd": E5 = o3._pe_geog_to_dd, i4 = s7.PE_DD_MAX; break; case "ddm": E5 = o3._pe_geog_to_ddm, i4 = s7.PE_DDM_MAX; break; case "dms": E5 = o3._pe_geog_to_dms, i4 = s7.PE_DMS_MAX; } let p4 = 0; t6 && (p4 = o3.getPointer(t6)); const u4 = M(n5), a5 = o3.ensureFloat64(u4), c2 = y(r7, i4), g2 = E5(p4, r7, a5, _3, o3.ensureInt32(c2)); if (g2) for (let s10 = 0; s10 < r7; s10++) P4[s10] = o3.UTF8ToString(c2[s10]); return g2; }, r6 = (e6, t6, r7, n5, _3) => { let P4; switch (o3.ensureCache.prepare(), e6) { case "dd": P4 = o3._pe_dd_to_geog; break; case "ddm": P4 = o3._pe_ddm_to_geog; break; case "dms": P4 = o3._pe_dms_to_geog; } let s10 = 0; t6 && (s10 = o3.getPointer(t6)); const E5 = n5.map((e7) => o3.ensureString(e7)), i4 = o3.ensureInt32(E5), p4 = o3.ensureFloat64(new Array(2 * r7)), u4 = P4(s10, r7, i4, p4); return u4 && A(_3, r7, p4), u4; }; function n4(e6, o5, r7, n5, _3) { return t5("dms", e6, o5, r7, n5, _3); } function _2(e6, t6, o5, n5) { return r6("dms", e6, t6, o5, n5); } function P3(e6, o5, r7, n5, _3) { return t5("ddm", e6, o5, r7, n5, _3); } function E4(e6, t6, o5, n5) { return r6("ddm", e6, t6, o5, n5); } function i3(e6, o5, r7, n5, _3) { return t5("dd", e6, o5, r7, n5, _3); } function p3(e6, t6, o5, n5) { return r6("dd", e6, t6, o5, n5); } e5.geogToDms = n4, e5.dmsToGeog = _2, e5.geogToDdm = P3, e5.ddmToGeog = E4, e5.geogToDd = i3, e5.ddToGeog = p3; }(c || (c = {})), function(e5) { function t5() { e5.PE_MGRS_STYLE_NEW = o3.PeNotationMgrs.prototype.PE_MGRS_STYLE_NEW, e5.PE_MGRS_STYLE_OLD = o3.PeNotationMgrs.prototype.PE_MGRS_STYLE_OLD, e5.PE_MGRS_STYLE_AUTO = o3.PeNotationMgrs.prototype.PE_MGRS_STYLE_AUTO, e5.PE_MGRS_180_ZONE_1_PLUS = o3.PeNotationMgrs.prototype.PE_MGRS_180_ZONE_1_PLUS, e5.PE_MGRS_ADD_SPACES = o3.PeNotationMgrs.prototype.PE_MGRS_ADD_SPACES; } function r6(e6, t6, r7, n5, _2, P3, E4) { o3.ensureCache.prepare(); let i3 = 0; e6 && (i3 = o3.getPointer(e6)); const p3 = M(r7), u4 = o3.ensureFloat64(p3), a5 = y(t6, s7.PE_MGRS_MAX), c2 = o3.ensureInt32(a5), g2 = o3._pe_geog_to_mgrs_extended(i3, t6, u4, n5, _2, P3, c2); if (g2) for (let s10 = 0; s10 < t6; s10++) E4[s10] = o3.UTF8ToString(a5[s10]); return g2; } function n4(e6, t6, r7, n5, _2) { o3.ensureCache.prepare(); let P3 = 0; e6 && (P3 = o3.getPointer(e6)); const s10 = r7.map((e7) => o3.ensureString(e7)), E4 = o3.ensureInt32(s10), i3 = o3.ensureFloat64(new Array(2 * t6)), p3 = o3._pe_mgrs_to_geog_extended(P3, t6, E4, n5, i3); return p3 && A(_2, t6, i3), p3; } e5.init = t5, e5.geogToMgrsExtended = r6, e5.mgrsToGeogExtended = n4; }(g || (g = {})), function(e5) { function t5(e6, t6, r7, n4, _2, P3, E4) { o3.ensureCache.prepare(); let i3 = 0; e6 && (i3 = o3.getPointer(e6)); const p3 = M(r7), u4 = o3.ensureFloat64(p3), a5 = y(t6, s7.PE_MGRS_MAX), c2 = o3.ensureInt32(a5), g2 = o3._pe_geog_to_usng(i3, t6, u4, n4, _2, P3, c2); if (g2) for (let s10 = 0; s10 < t6; s10++) E4[s10] = o3.UTF8ToString(a5[s10]); return g2; } function r6(e6, t6, r7, n4) { o3.ensureCache.prepare(); let _2 = 0; e6 && (_2 = o3.getPointer(e6)); const P3 = r7.map((e7) => o3.ensureString(e7)), s10 = o3.ensureInt32(P3), E4 = o3.ensureFloat64(new Array(2 * t6)), i3 = o3._pe_usng_to_geog(_2, t6, s10, E4); return i3 && A(n4, t6, E4), i3; } e5.geogToUsng = t5, e5.usngToGeog = r6; }(T2 || (T2 = {})), function(e5) { function t5() { e5.PE_UTM_OPTS_NONE = o3.PeNotationUtm.prototype.PE_UTM_OPTS_NONE, e5.PE_UTM_OPTS_ADD_SPACES = o3.PeNotationUtm.prototype.PE_UTM_OPTS_ADD_SPACES, e5.PE_UTM_OPTS_NS = o3.PeNotationUtm.prototype.PE_UTM_OPTS_NS; } function r6(e6, t6, r7, n5, _2) { o3.ensureCache.prepare(); let P3 = 0; e6 && (P3 = o3.getPointer(e6)); const E4 = M(r7), i3 = o3.ensureFloat64(E4), p3 = y(t6, s7.PE_UTM_MAX), u4 = o3.ensureInt32(p3), a5 = o3._pe_geog_to_utm(P3, t6, i3, n5, u4); if (a5) for (let s10 = 0; s10 < t6; s10++) _2[s10] = o3.UTF8ToString(p3[s10]); return a5; } function n4(e6, t6, r7, n5, _2) { o3.ensureCache.prepare(); let P3 = 0; e6 && (P3 = o3.getPointer(e6)); const s10 = r7.map((e7) => o3.ensureString(e7)), E4 = o3.ensureInt32(s10), i3 = o3.ensureFloat64(new Array(2 * t6)), p3 = o3._pe_utm_to_geog(P3, t6, E4, n5, i3); return p3 && A(_2, t6, i3), p3; } e5.init = t5, e5.geogToUtm = r6, e5.utmToGeog = n4; }(f2 || (f2 = {})), function(e5) { const t5 = /* @__PURE__ */ new Map(); function r6() { e5.PE_PCSINFO_OPTION_NONE = o3.PePCSInfo.prototype.PE_PCSINFO_OPTION_NONE, e5.PE_PCSINFO_OPTION_DOMAIN = o3.PePCSInfo.prototype.PE_PCSINFO_OPTION_DOMAIN, e5.PE_POLE_OUTSIDE_BOUNDARY = o3.PePCSInfo.prototype.PE_POLE_OUTSIDE_BOUNDARY, e5.PE_POLE_POINT = o3.PePCSInfo.prototype.PE_POLE_POINT; } function n4(r7, n5 = e5.PE_PCSINFO_OPTION_DOMAIN) { let _2 = null, P3 = null; return t5.has(r7) && (P3 = t5.get(r7), P3[n5] && (_2 = P3[n5])), _2 || (_2 = o3.PePCSInfo.prototype.generate(r7, n5), P3 || (P3 = [], t5.set(r7, P3)), P3[n5] = _2), _2; } e5.init = r6, e5.generate = n4; }(O2 || (O2 = {})), function(e5) { function t5() { return o3.PeVersion.prototype.version_string(); } e5.versionString = t5; }(l || (l = {})); var d = Object.freeze(Object.defineProperty({ __proto__: null, get _pe() { return o3; }, isLoaded: r3, isSupported: n2, load: _, get PeCSTransformations() { return P2; }, get PeDefs() { return s7; }, get PeFactory() { return E3; }, get PeGCSExtent() { return i; }, get PeGTlistExtended() { return p2; }, get PeGTlistExtendedEntry() { return u2; }, get PeGTTransformations() { return a3; }, get PeNotationDms() { return c; }, get PeNotationMgrs() { return g; }, get PeNotationUsng() { return T2; }, get PeNotationUtm() { return f2; }, get PePCSInfo() { return O2; }, get PeVersion() { return l; }, _init: S2 }, Symbol.toStringTag, { value: "Module" })); // node_modules/@arcgis/core/geometry/support/geodesicConstants.js var i2 = Math.PI / 180; var r4 = s4.radius; var n3 = s4.eccentricitySquared; var s8 = { a1: r4 * n3, a2: r4 * n3 * r4 * n3, a3: r4 * n3 * n3 / 2, a4: r4 * n3 * r4 * n3 * 2.5, a5: r4 * n3 + r4 * n3 * n3 / 2, a6: 1 - n3 }; var d2 = { 4267: { a: 63782064e-1, f: 1 / 294.9786982 }, 4269: { a: 6378137, f: 1 / 298.257222101 }, 4326: { a: s4.radius, f: s4.flattening }, 104900: { a: 2439700, f: 0 }, 104901: { a: 6051e3, f: 0 }, 104902: { a: 6051800, f: 0 }, 104903: { a: e3.radius, f: e3.flattening }, 104904: { a: 3393400, f: 1 / 192.0430107526882 }, 104905: { a: t2.radius, f: t2.flattening }, 104906: { a: 6200, f: 0 }, 104907: { a: 11100, f: 0 }, 104908: { a: 71492e3, f: 0.06487439154031222 }, 104909: { a: 8200, f: 0 }, 104910: { a: 83500, f: 0 }, 104911: { a: 1e4, f: 0 }, 104912: { a: 2409300, f: 0 }, 104913: { a: 15e3, f: 0 }, 104914: { a: 4e4, f: 0 }, 104915: { a: 1562090, f: 0 }, 104916: { a: 2632345, f: 0 }, 104917: { a: 85e3, f: 0 }, 104918: { a: 1821460, f: 0 }, 104919: { a: 5e3, f: 0 }, 104920: { a: 12e3, f: 0 }, 104921: { a: 3e4, f: 3 }, 104922: { a: 18e3, f: 0 }, 104923: { a: 14e3, f: 0 }, 104924: { a: 49300, f: 0 }, 104925: { a: 60268e3, f: 1 / 10.2079945799458 }, 104926: { a: 16e3, f: 0 }, 104927: { a: 9500, f: 0 }, 104928: { a: 56e4, f: 0 }, 104929: { a: 249400, f: 0 }, 104930: { a: 59500, f: 0 }, 104931: { a: 16e3, f: 0 }, 104932: { a: 133e3, f: 0 }, 104933: { a: 718e3, f: 0 }, 104934: { a: 888e3, f: 0 }, 104935: { a: 1986300, f: 0 }, 104936: { a: 1e4, f: 0 }, 104937: { a: 41900, f: 0 }, 104938: { a: 11e4, f: 0 }, 104939: { a: 50100, f: 0 }, 104940: { a: 764e3, f: 0 }, 104941: { a: 11e3, f: 0 }, 104942: { a: 529800, f: 0 }, 104943: { a: 2575e3, f: 0 }, 104944: { a: 25559e3, f: 1 / 43.61604095563141 }, 104945: { a: 578900, f: 0 }, 104946: { a: 33e3, f: 0 }, 104947: { a: 21e3, f: 0 }, 104948: { a: 13e3, f: 0 }, 104949: { a: 31e3, f: 0 }, 104950: { a: 27e3, f: 0 }, 104951: { a: 42e3, f: 0 }, 104952: { a: 235800, f: 0 }, 104953: { a: 761400, f: 0 }, 104954: { a: 15e3, f: 0 }, 104955: { a: 54e3, f: 0 }, 104956: { a: 77e3, f: 0 }, 104957: { a: 27e3, f: 0 }, 104958: { a: 788900, f: 0 }, 104959: { a: 584700, f: 0 }, 104960: { a: 24764e3, f: 0.01708124697141011 }, 104961: { a: 74e3, f: 0 }, 104962: { a: 79e3, f: 0 }, 104963: { a: 104e3, f: 0.14423076923076922 }, 104964: { a: 29e3, f: 0 }, 104965: { a: 17e4, f: 0 }, 104966: { a: 208e3, f: 0 }, 104967: { a: 4e4, f: 0 }, 104968: { a: 1352600, f: 0 }, 104969: { a: 1195e3, f: 0 }, 104970: { a: 593e3, f: 0 }, 104971: { a: t2.radius, f: 0 }, 104972: { a: 47e4, f: 0 }, 104973: { a: 255e3, f: 0 }, 104974: { a: 2439400, f: 0 } }; // node_modules/@arcgis/core/geometry/projection.js var J = null; var Q = null; var Y = null; var $2 = {}; var nn = new e2(); function en() { return !!J && r3(); } function tn(n4) { return t(Y) && (Y = Promise.all([_(), import("./geometryEngineBase-RRNLUIQZ.js").then((n5) => n5.g), import("./hydrated-JXBXY4JG.js")])), Y.then(([, e5, { hydratedAdapter: t5 }]) => { f(n4), Q = t5, J = e5.default, J._enableProjection(d), nn.notify(); }); } function rn(n4, e5, t5 = null, r6 = null) { return Array.isArray(n4) ? 0 === n4.length ? [] : ln(Q, n4, n4[0].spatialReference, e5, t5, r6) : ln(Q, [n4], n4.spatialReference, e5, t5, r6)[0]; } function ln(n4, e5, t5, r6, l2 = null, i3 = null) { if (t(t5) || t(r6)) return e5; if (An(t5, r6, l2)) return e5.map((n5) => e(Pn(n5, t5, r6))); if (t(l2)) { const n5 = s6.cacheKey(t5, r6); void 0 !== $2[n5] ? l2 = $2[n5] : (l2 = sn(t5, r6, void 0), t(l2) && (l2 = new s6()), $2[n5] = l2); } if (t(J) || t(n4)) throw new cn(); return r(i3) ? J._project(n4, e5, t5, r6, l2, i3) : J._project(n4, e5, t5, r6, l2); } function un(n4, e5) { const t5 = on([n4], e5); return r(t5.pending) ? { pending: t5.pending, geometry: null } : r(t5.geometries) ? { pending: null, geometry: t5.geometries[0] } : { pending: null, geometry: null }; } function on(n4, e5) { if (!en()) { for (const t5 of n4) if (r(t5) && !E(t5.spatialReference, e5) && I(t5.spatialReference) && I(e5) && !An(t5.spatialReference, e5)) return s(nn), { pending: tn(), geometries: null }; } return { pending: null, geometries: n4.map((n5) => t(n5) ? null : E(n5.spatialReference, e5) ? n5 : I(n5.spatialReference) && I(e5) ? fn(n5, e5) : null) }; } function sn(n4, e5, t5 = null) { if (t(n4) || t(e5)) return null; if (t(J) || t(Q)) throw new cn(); const r6 = J._getTransformation(Q, n4, e5, t5, t5 == null ? void 0 : t5.spatialReference); return null !== r6 ? s6.fromGE(r6) : null; } var cn = class extends s2 { constructor() { super("projection:not-loaded", "projection engine not fully loaded yet, please call load()"); } }; var En; !function(n4) { n4[n4.UNKNOWN = 0] = "UNKNOWN", n4[n4.SPHERICAL_ECEF = 1] = "SPHERICAL_ECEF", n4[n4.WGS84 = 2] = "WGS84", n4[n4.WEB_MERCATOR = 3] = "WEB_MERCATOR", n4[n4.WGS84_ECEF = 4] = "WGS84_ECEF", n4[n4.CGCS2000 = 5] = "CGCS2000", n4[n4.WGS84_COMPARABLE_LON_LAT = 6] = "WGS84_COMPARABLE_LON_LAT", n4[n4.SPHERICAL_MARS_PCPF = 7] = "SPHERICAL_MARS_PCPF", n4[n4.GCSMARS2000 = 8] = "GCSMARS2000", n4[n4.SPHERICAL_MOON_PCPF = 9] = "SPHERICAL_MOON_PCPF", n4[n4.GCSMOON2000 = 10] = "GCSMOON2000", n4[n4.LON_LAT = 11] = "LON_LAT", n4[n4.PLATE_CARREE = 12] = "PLATE_CARREE"; }(En || (En = {})); function fn(n4, e5) { try { const t5 = rn(n4, e5); if (null == t5) return null; "xmin" in n4 && "xmin" in t5 && (t5.zmin = n4.zmin, t5.zmax = n4.zmax); const r6 = o2(t5.type, n4.spatialReference, e5); return r(r6) && r6(t5), t5; } catch (t5) { if (!(t5 instanceof cn)) throw t5; return null; } } function An(n4, e5, t5) { return !t5 && (!!E(n4, e5) || I(n4) && I(e5) && !!de(n4, e5, ye)); } async function _n(n4, e5, t5, r6) { if (en()) return O(r6); if (Array.isArray(n4)) { for (const { source: l2, dest: u4, geographicTransformation: o5 } of n4) if (!An(l2, u4, o5)) return tn(r6); } else if (!An(n4, e5, t5)) return tn(r6); return O(r6); } function Pn(n4, e5, t5) { return n4 ? "x" in n4 ? Ln(n4, e5, new w(), t5, 0) : "xmin" in n4 ? In(n4, e5, new w2(), t5, 0) : "rings" in n4 ? Tn(n4, e5, new v(), t5, 0) : "paths" in n4 ? Gn(n4, e5, new m(), t5, 0) : "points" in n4 ? Mn(n4, e5, new u(), t5, 0) : null : null; } function Ln(n4, e5, t5, r6, l2) { ze[0] = n4.x, ze[1] = n4.y; const u4 = n4.z; return ze[2] = void 0 !== u4 ? u4 : l2, xn(ze, e5, 0, ze, r6, 0, 1) ? (t5.x = ze[0], t5.y = ze[1], t5.spatialReference = r6, void 0 === u4 ? (t5.z = void 0, t5.hasZ = false) : (t5.z = ze[2], t5.hasZ = true), void 0 === n4.m ? (t5.m = void 0, t5.hasM = false) : (t5.m = n4.m, t5.hasM = true), t5) : null; } function Mn(n4, e5, t5, r6, l2) { const { points: u4, hasZ: o5, hasM: s10 } = n4, i3 = [], a5 = u4.length, c2 = []; for (const E4 of u4) c2.push(E4[0], E4[1], o5 ? E4[2] : l2); if (!xn(c2, e5, 0, c2, r6, 0, a5)) return null; for (let E4 = 0; E4 < a5; ++E4) { const n5 = 3 * E4, e6 = c2[n5], t6 = c2[n5 + 1]; o5 && s10 ? i3.push([e6, t6, c2[n5 + 2], u4[E4][3]]) : o5 ? i3.push([e6, t6, c2[n5 + 2]]) : s10 ? i3.push([e6, t6, u4[E4][2]]) : i3.push([e6, t6]); } return t5.points = i3, t5.spatialReference = r6, t5.hasZ = o5, t5.hasM = s10, t5; } function Gn(n4, e5, t5, r6, l2) { const { paths: u4, hasZ: o5, hasM: s10 } = n4, i3 = []; return bn(u4, o5 != null ? o5 : false, s10 != null ? s10 : false, e5, i3, r6, l2) ? (t5.paths = i3, t5.spatialReference = r6, t5.hasZ = o5, t5.hasM = s10, t5) : null; } function mn(n4, e5, t5 = e5.spatialReference, r6 = 0) { return r(n4.spatialReference) && r(t5) && r(Tn(n4, n4.spatialReference, e5, t5, r6)); } function Tn(n4, e5, t5, r6, l2) { const { rings: u4, hasZ: o5, hasM: s10 } = n4, i3 = []; return bn(u4, o5 != null ? o5 : false, s10 != null ? s10 : false, e5, i3, r6, l2) ? (t5.rings = i3, t5.spatialReference = r6, t5.hasZ = o5, t5.hasM = s10, t5) : null; } function In(n4, e5, t5, r6, l2) { const { xmin: u4, ymin: o5, xmax: s10, ymax: i3, hasZ: a5, hasM: c2 } = n4; if (!Bn(u4, o5, a5 ? n4.zmin : l2, e5, ze, r6)) return null; t5.xmin = ze[0], t5.ymin = ze[1], a5 && (t5.zmin = ze[2]); return Bn(s10, i3, a5 ? n4.zmax : l2, e5, ze, r6) ? (t5.xmax = ze[0], t5.ymax = ze[1], a5 && (t5.zmax = ze[2]), c2 && (t5.mmin = n4.mmin, t5.mmax = n4.mmax), t5.spatialReference = r6, t5) : null; } function gn(n4, e5, t5, r6 = 0) { ze[0] = n4.x, ze[1] = n4.y; const l2 = n4.z; return ze[2] = void 0 !== l2 ? l2 : r6, xn(ze, n4.spatialReference, 0, e5, t5, 0, 1); } function Bn(n4, e5, t5, r6, l2, u4) { return Ke[0] = n4, Ke[1] = e5, Ke[2] = t5, xn(Ke, r6, 0, l2, u4, 0, 1); } function xn(n4, e5, t5, r6, l2, o5, s10 = 1) { const i3 = de(e5, l2, ye); if (t(i3)) return false; if (i3 === Qn) { if (n4 === r6 && t5 === o5) return true; const e6 = t5 + 3 * s10; for (let l3 = t5, u4 = o5; l3 < e6; l3++, u4++) r6[u4] = n4[l3]; return true; } const a5 = t5 + 3 * s10; for (let u4 = t5, c2 = o5; u4 < a5; u4 += 3, c2 += 3) i3(n4, u4, r6, c2); return true; } function bn(n4, e5, t5, r6, l2, u4, o5 = 0) { const s10 = new Array(); for (const a5 of n4) for (const n5 of a5) s10.push(n5[0], n5[1], e5 ? n5[2] : o5); if (!xn(s10, r6, 0, s10, u4, 0, s10.length / 3)) return false; let i3 = 0; l2.length = 0; for (const a5 of n4) { const n5 = new Array(); for (const r7 of a5) e5 && t5 ? n5.push([s10[i3++], s10[i3++], s10[i3++], r7[3]]) : e5 ? n5.push([s10[i3++], s10[i3++], s10[i3++]]) : t5 ? (n5.push([s10[i3++], s10[i3++], r7[2]]), i3++) : (n5.push([s10[i3++], s10[i3++]]), i3++); l2.push(n5); } return true; } function Zn(n4, e5, t5, r6) { if (t(n4) || t(r6)) return false; const l2 = Jn(n4, Be), o5 = Jn(r6, je); if (l2 === o5 && !Vn(o5) && (l2 !== En.UNKNOWN || E(n4, r6))) return x(t5, e5), true; if (Vn(o5)) { const n5 = Ie[l2][En.LON_LAT], r7 = Ie[En.LON_LAT][o5]; return !t(n5) && !t(r7) && (n5(e5, 0, be, 0), r7(be, 0, ke, 0), Xn(Ue * be[0], Ue * be[1], t5), t5[12] = ke[0], t5[13] = ke[1], t5[14] = ke[2], true); } if ((o5 === En.WEB_MERCATOR || o5 === En.PLATE_CARREE) && (l2 === En.WGS84 || l2 === En.CGCS2000 && o5 === En.PLATE_CARREE || l2 === En.SPHERICAL_ECEF || l2 === En.WEB_MERCATOR)) { const n5 = Ie[l2][En.LON_LAT], r7 = Ie[En.LON_LAT][o5]; return !t(n5) && !t(r7) && (n5(e5, 0, be, 0), r7(be, 0, ke, 0), l2 === En.SPHERICAL_ECEF ? Dn(Ue * be[0], Ue * be[1], t5) : r2(t5), t5[12] = ke[0], t5[13] = ke[1], t5[14] = ke[2], true); } return false; } function Vn(n4) { return n4 === En.SPHERICAL_ECEF || n4 === En.SPHERICAL_MARS_PCPF || n4 === En.SPHERICAL_MOON_PCPF; } function Xn(n4, e5, t5) { const r6 = Math.sin(n4), l2 = Math.cos(n4), u4 = Math.sin(e5), o5 = Math.cos(e5), s10 = t5; return s10[0] = -r6, s10[4] = -u4 * l2, s10[8] = o5 * l2, s10[12] = 0, s10[1] = l2, s10[5] = -u4 * r6, s10[9] = o5 * r6, s10[13] = 0, s10[2] = 0, s10[6] = o5, s10[10] = u4, s10[14] = 0, s10[3] = 0, s10[7] = 0, s10[11] = 0, s10[15] = 1, s10; } function Dn(n4, e5, t5) { return Xn(n4, e5, t5), o(t5, t5), t5; } function Jn(n4, e5) { return n4 ? e5.spatialReference === n4 ? e5.spatialReferenceId : (e5.spatialReference = n4, "metersPerUnit" in e5 && (e5.metersPerUnit = $(n4, 1)), n4.wkt === I2.wkt ? e5.spatialReferenceId = En.SPHERICAL_ECEF : G(n4) ? e5.spatialReferenceId = En.WGS84 : k(n4) ? e5.spatialReferenceId = En.WEB_MERCATOR : T(n4) ? e5.spatialReferenceId = En.PLATE_CARREE : n4.wkt === p.wkt ? e5.spatialReferenceId = En.WGS84_ECEF : n4.wkid === S.CGCS2000 ? e5.spatialReferenceId = En.CGCS2000 : n4.wkt === E2.wkt ? e5.spatialReferenceId = En.SPHERICAL_MARS_PCPF : n4.wkt === R.wkt ? e5.spatialReferenceId = En.SPHERICAL_MOON_PCPF : P(n4) ? e5.spatialReferenceId = En.GCSMARS2000 : s3(n4) ? e5.spatialReferenceId = En.GCSMOON2000 : e5.spatialReferenceId = En.UNKNOWN) : En.UNKNOWN; } function Qn(n4, e5, t5, r6) { n4 !== t5 && (t5[r6++] = n4[e5++], t5[r6++] = n4[e5++], t5[r6] = n4[e5]); } function Yn(n4, e5, t5, r6) { t5[r6++] = xe * (n4[e5++] / s4.radius), t5[r6++] = xe * (Math.PI / 2 - 2 * Math.atan(Math.exp(-n4[e5++] / s4.radius))), t5[r6] = n4[e5]; } function $n(n4, e5, t5, r6) { Yn(n4, e5, t5, r6), Pe(t5, r6, t5, r6); } function ne(n4, e5, t5, r6) { Yn(n4, e5, t5, r6), We(t5, r6, t5, r6); } function ee(n4, t5, r6, l2, u4) { const o5 = 0.4999999 * Math.PI, s10 = a2(Ue * n4[t5 + 1], -o5, o5), i3 = Math.sin(s10); r6[l2++] = Ue * n4[t5] * u4.radius, r6[l2++] = u4.halfSemiMajorAxis * Math.log((1 + i3) / (1 - i3)), r6[l2] = n4[t5 + 2]; } function te(n4, e5, t5, r6) { ee(n4, e5, t5, r6, s4); } var re = s4.radius * Math.PI / 180; var le = 180 / (s4.radius * Math.PI); function ue(n4, e5, t5, r6) { t5[r6] = n4[e5] * re, t5[r6 + 1] = n4[e5 + 1] * re, t5[r6 + 2] = n4[e5 + 2]; } function oe(n4, e5, t5, r6) { t5[r6] = n4[e5] * le, t5[r6 + 1] = n4[e5 + 1] * le, t5[r6 + 2] = n4[e5 + 2]; } function se(n4, e5, t5, r6) { Yn(n4, e5, t5, r6), ue(t5, r6, t5, r6); } function ie(n4, e5, t5, r6) { me(n4, e5, t5, r6), ue(t5, r6, t5, r6); } function ae(n4, e5, t5, r6) { Me(n4, e5, t5, r6), ue(t5, r6, t5, r6); } function ce(n4, e5, t5, r6) { oe(n4, e5, t5, r6), Pe(t5, r6, t5, r6); } function Ee(n4, e5, t5, r6) { oe(n4, e5, t5, r6), te(t5, r6, t5, r6); } function Ce(n4, e5, t5, r6) { oe(n4, e5, t5, r6), We(t5, r6, t5, r6); } function Ae(n4, e5, t5, r6, l2) { const u4 = l2 + n4[e5 + 2], o5 = Ue * n4[e5 + 1], s10 = Ue * n4[e5], i3 = Math.cos(o5); t5[r6++] = Math.cos(s10) * i3 * u4, t5[r6++] = Math.sin(s10) * i3 * u4, t5[r6] = Math.sin(o5) * u4; } function _e(n4, e5, t5, r6) { Ae(n4, e5, t5, r6, e3.radius); } function Se(n4, e5, t5, r6) { Ae(n4, e5, t5, r6, t2.radius); } function Pe(n4, e5, t5, r6) { Ae(n4, e5, t5, r6, s4.radius); } function pe(n4, e5, t5, r6, u4) { const o5 = n4[e5], s10 = n4[e5 + 1], i3 = n4[e5 + 2], a5 = Math.sqrt(o5 * o5 + s10 * s10 + i3 * i3), c2 = N(i3 / (0 === a5 ? 1 : a5)), E4 = Math.atan2(s10, o5); t5[r6++] = xe * E4, t5[r6++] = xe * c2, t5[r6] = a5 - u4; } function Le(n4, e5, t5, r6) { pe(n4, e5, t5, r6, e3.radius); } function Oe(n4, e5, t5, r6) { pe(n4, e5, t5, r6, t2.radius); } function Me(n4, e5, t5, r6) { pe(n4, e5, t5, r6, s4.radius); } function Ne(n4, e5, t5, r6) { Me(n4, e5, t5, r6), te(t5, r6, t5, r6); } function Ge(n4, e5, t5, r6) { Me(n4, e5, t5, r6), We(t5, r6, t5, r6); } function he(n4, e5, t5, r6, l2) { const u4 = Ue * n4[e5], o5 = Ue * n4[e5 + 1], s10 = n4[e5 + 2], i3 = Math.sin(o5), a5 = Math.cos(o5), c2 = l2.radius / Math.sqrt(1 - l2.eccentricitySquared * i3 * i3); t5[r6++] = (c2 + s10) * a5 * Math.cos(u4), t5[r6++] = (c2 + s10) * a5 * Math.sin(u4), t5[r6++] = (c2 * (1 - l2.eccentricitySquared) + s10) * i3; } function We(n4, e5, t5, r6) { he(n4, e5, t5, r6, s4); } function me(n4, e5, t5, r6) { const l2 = s8, u4 = n4[e5], o5 = n4[e5 + 1], s10 = n4[e5 + 2]; let i3, a5, c2, E4, C, R2, f3, A2, _2, S3, P3, p3, L, O3, M2, N3, G2, h, W, m3, T3; i3 = Math.abs(s10), a5 = u4 * u4 + o5 * o5, c2 = Math.sqrt(a5), E4 = a5 + s10 * s10, C = Math.sqrt(E4), m3 = Math.atan2(o5, u4), R2 = s10 * s10 / E4, f3 = a5 / E4, O3 = l2.a2 / C, M2 = l2.a3 - l2.a4 / C, f3 > 0.3 ? (A2 = i3 / C * (1 + f3 * (l2.a1 + O3 + R2 * M2) / C), W = Math.asin(A2), S3 = A2 * A2, _2 = Math.sqrt(1 - S3)) : (_2 = c2 / C * (1 - R2 * (l2.a5 - O3 - f3 * M2) / C), W = Math.acos(_2), S3 = 1 - _2 * _2, A2 = Math.sqrt(S3)), P3 = 1 - s4.eccentricitySquared * S3, p3 = s4.radius / Math.sqrt(P3), L = l2.a6 * p3, O3 = c2 - p3 * _2, M2 = i3 - L * A2, G2 = _2 * O3 + A2 * M2, N3 = _2 * M2 - A2 * O3, h = N3 / (L / P3 + G2), W += h, T3 = G2 + N3 * h / 2, s10 < 0 && (W = -W), t5[r6++] = xe * m3, t5[r6++] = xe * W, t5[r6] = T3; } function Te(n4, e5, t5, r6) { me(n4, e5, t5, r6), Pe(t5, r6, t5, r6); } function Fe(n4, e5, t5, r6) { me(n4, e5, t5, r6), te(t5, r6, t5, r6); } var Ie = { [En.WGS84]: { [En.CGCS2000]: null, [En.GCSMARS2000]: null, [En.GCSMOON2000]: null, [En.LON_LAT]: Qn, [En.WGS84_COMPARABLE_LON_LAT]: Qn, [En.SPHERICAL_ECEF]: Pe, [En.SPHERICAL_MARS_PCPF]: null, [En.SPHERICAL_MOON_PCPF]: null, [En.UNKNOWN]: null, [En.WEB_MERCATOR]: te, [En.PLATE_CARREE]: ue, [En.WGS84]: Qn, [En.WGS84_ECEF]: We }, [En.CGCS2000]: { [En.CGCS2000]: Qn, [En.GCSMARS2000]: null, [En.GCSMOON2000]: null, [En.LON_LAT]: Qn, [En.WGS84_COMPARABLE_LON_LAT]: Qn, [En.SPHERICAL_ECEF]: Pe, [En.SPHERICAL_MARS_PCPF]: null, [En.SPHERICAL_MOON_PCPF]: null, [En.UNKNOWN]: null, [En.WEB_MERCATOR]: null, [En.PLATE_CARREE]: ue, [En.WGS84]: null, [En.WGS84_ECEF]: We }, [En.GCSMARS2000]: { [En.CGCS2000]: null, [En.GCSMARS2000]: Qn, [En.GCSMOON2000]: null, [En.LON_LAT]: Qn, [En.WGS84_COMPARABLE_LON_LAT]: null, [En.SPHERICAL_ECEF]: null, [En.SPHERICAL_MARS_PCPF]: Se, [En.SPHERICAL_MOON_PCPF]: null, [En.UNKNOWN]: null, [En.WEB_MERCATOR]: null, [En.PLATE_CARREE]: null, [En.WGS84]: null, [En.WGS84_ECEF]: null }, [En.GCSMOON2000]: { [En.CGCS2000]: null, [En.GCSMARS2000]: null, [En.GCSMOON2000]: Qn, [En.LON_LAT]: Qn, [En.WGS84_COMPARABLE_LON_LAT]: null, [En.SPHERICAL_ECEF]: null, [En.SPHERICAL_MARS_PCPF]: null, [En.SPHERICAL_MOON_PCPF]: _e, [En.UNKNOWN]: null, [En.WEB_MERCATOR]: null, [En.PLATE_CARREE]: null, [En.WGS84]: null, [En.WGS84_ECEF]: null }, [En.WEB_MERCATOR]: { [En.CGCS2000]: null, [En.GCSMARS2000]: null, [En.GCSMOON2000]: null, [En.LON_LAT]: Yn, [En.WGS84_COMPARABLE_LON_LAT]: Yn, [En.SPHERICAL_ECEF]: $n, [En.SPHERICAL_MARS_PCPF]: null, [En.SPHERICAL_MOON_PCPF]: null, [En.UNKNOWN]: null, [En.WEB_MERCATOR]: Qn, [En.PLATE_CARREE]: se, [En.WGS84]: Yn, [En.WGS84_ECEF]: ne }, [En.WGS84_ECEF]: { [En.CGCS2000]: me, [En.GCSMARS2000]: null, [En.GCSMOON2000]: null, [En.LON_LAT]: me, [En.WGS84_COMPARABLE_LON_LAT]: me, [En.SPHERICAL_ECEF]: Te, [En.SPHERICAL_MARS_PCPF]: null, [En.SPHERICAL_MOON_PCPF]: null, [En.UNKNOWN]: null, [En.WEB_MERCATOR]: Fe, [En.PLATE_CARREE]: ie, [En.WGS84]: me, [En.WGS84_ECEF]: Qn }, [En.SPHERICAL_ECEF]: { [En.CGCS2000]: Me, [En.GCSMARS2000]: null, [En.GCSMOON2000]: null, [En.LON_LAT]: Me, [En.WGS84_COMPARABLE_LON_LAT]: Me, [En.SPHERICAL_ECEF]: Qn, [En.SPHERICAL_MARS_PCPF]: null, [En.SPHERICAL_MOON_PCPF]: null, [En.UNKNOWN]: null, [En.WEB_MERCATOR]: Ne, [En.PLATE_CARREE]: ae, [En.WGS84]: Me, [En.WGS84_ECEF]: Ge }, [En.SPHERICAL_MARS_PCPF]: { [En.CGCS2000]: null, [En.GCSMARS2000]: Oe, [En.GCSMOON2000]: null, [En.LON_LAT]: Oe, [En.WGS84_COMPARABLE_LON_LAT]: null, [En.SPHERICAL_ECEF]: null, [En.SPHERICAL_MARS_PCPF]: Qn, [En.SPHERICAL_MOON_PCPF]: null, [En.UNKNOWN]: null, [En.WEB_MERCATOR]: null, [En.PLATE_CARREE]: null, [En.WGS84]: null, [En.WGS84_ECEF]: null }, [En.SPHERICAL_MOON_PCPF]: { [En.CGCS2000]: null, [En.GCSMARS2000]: null, [En.GCSMOON2000]: Le, [En.LON_LAT]: Le, [En.WGS84_COMPARABLE_LON_LAT]: null, [En.SPHERICAL_ECEF]: null, [En.SPHERICAL_MARS_PCPF]: null, [En.SPHERICAL_MOON_PCPF]: Qn, [En.UNKNOWN]: null, [En.WEB_MERCATOR]: null, [En.PLATE_CARREE]: null, [En.WGS84]: null, [En.WGS84_ECEF]: null }, [En.UNKNOWN]: { [En.CGCS2000]: null, [En.GCSMARS2000]: null, [En.GCSMOON2000]: null, [En.LON_LAT]: null, [En.WGS84_COMPARABLE_LON_LAT]: null, [En.SPHERICAL_ECEF]: null, [En.SPHERICAL_MARS_PCPF]: null, [En.SPHERICAL_MOON_PCPF]: null, [En.UNKNOWN]: Qn, [En.WEB_MERCATOR]: null, [En.PLATE_CARREE]: null, [En.WGS84]: null, [En.WGS84_ECEF]: null }, [En.LON_LAT]: { [En.CGCS2000]: Qn, [En.GCSMARS2000]: Qn, [En.GCSMOON2000]: Qn, [En.LON_LAT]: Qn, [En.WGS84_COMPARABLE_LON_LAT]: Qn, [En.SPHERICAL_ECEF]: Pe, [En.SPHERICAL_MARS_PCPF]: Se, [En.SPHERICAL_MOON_PCPF]: _e, [En.UNKNOWN]: null, [En.WEB_MERCATOR]: te, [En.PLATE_CARREE]: ue, [En.WGS84]: Qn, [En.WGS84_ECEF]: We }, [En.WGS84_COMPARABLE_LON_LAT]: { [En.CGCS2000]: null, [En.GCSMARS2000]: null, [En.GCSMOON2000]: null, [En.LON_LAT]: Qn, [En.WGS84_COMPARABLE_LON_LAT]: Qn, [En.SPHERICAL_ECEF]: Pe, [En.SPHERICAL_MARS_PCPF]: null, [En.SPHERICAL_MOON_PCPF]: null, [En.UNKNOWN]: null, [En.WEB_MERCATOR]: null, [En.PLATE_CARREE]: ue, [En.WGS84]: Qn, [En.WGS84_ECEF]: We }, [En.PLATE_CARREE]: { [En.CGCS2000]: oe, [En.GCSMARS2000]: null, [En.GCSMOON2000]: null, [En.LON_LAT]: oe, [En.WGS84_COMPARABLE_LON_LAT]: oe, [En.SPHERICAL_ECEF]: ce, [En.SPHERICAL_MARS_PCPF]: null, [En.SPHERICAL_MOON_PCPF]: null, [En.UNKNOWN]: null, [En.WEB_MERCATOR]: Ee, [En.PLATE_CARREE]: Qn, [En.WGS84]: oe, [En.WGS84_ECEF]: Ce } }; function de(n4, e5, t5 = ge()) { return t(n4) || t(e5) ? null : He(n4, e5, t5).projector; } function He(n4, e5, t5) { if (t(n4) || t(e5) || t5.source.spatialReference === n4 && t5.dest.spatialReference === e5) return t5; const r6 = Jn(n4, t5.source), l2 = Jn(e5, t5.dest); return r6 === En.UNKNOWN && l2 === En.UNKNOWN ? E(n4, e5) ? t5.projector = Qn : t5.projector = null : t5.projector = Ie[r6][l2], t5; } function ge() { return { source: { spatialReference: null, spatialReferenceId: En.UNKNOWN, metersPerUnit: 1 }, dest: { spatialReference: null, spatialReferenceId: En.UNKNOWN, metersPerUnit: 1 }, projector: Qn }; } var Be = { spatialReference: null, spatialReferenceId: En.UNKNOWN }; var je = { spatialReference: null, spatialReferenceId: En.UNKNOWN }; var ye = ge(); var we = ge(); var Ue = m2(1); var xe = b(1); var Ke = n(); var be = n(); var ke = n(); var ze = n(); var ve = n(); export { P2 as P, s7 as s, E3 as E, a3 as a, O2 as O, s6 as s2, en, tn, rn, ln, un, on, sn, An, _n, mn, gn, xn, Zn }; //# sourceMappingURL=chunk-P24XEEHY.js.map