import { t } from "./chunk-XZA4MVET.js"; import { s } from "./chunk-TSN7NGNU.js"; // node_modules/@arcgis/core/chunks/geometryEngineJSON.js function t2(n) { return s.extendedSpatialReferenceInfo(n); } function r(t3, r2, i2) { return s.clip(t, t3, r2, i2); } function i(t3, r2, i2) { return s.cut(t, t3, r2, i2); } function s2(t3, r2, i2) { return s.contains(t, t3, r2, i2); } function o(t3, r2, i2) { return s.crosses(t, t3, r2, i2); } function u(t3, r2, i2, s3) { return s.distance(t, t3, r2, i2, s3); } function a(t3, r2, i2) { return s.equals(t, t3, r2, i2); } function c(t3, r2, i2) { return s.intersects(t, t3, r2, i2); } function f(t3, r2, i2) { return s.touches(t, t3, r2, i2); } function l(t3, r2, i2) { return s.within(t, t3, r2, i2); } function p(t3, r2, i2) { return s.disjoint(t, t3, r2, i2); } function g(t3, r2, i2) { return s.overlaps(t, t3, r2, i2); } function d(t3, r2, i2, s3) { return s.relate(t, t3, r2, i2, s3); } function m(t3, r2) { return s.isSimple(t, t3, r2); } function y(t3, r2) { return s.simplify(t, t3, r2); } function h(t3, r2, i2 = false) { return s.convexHull(t, t3, r2, i2); } function x(t3, r2, i2) { return s.difference(t, t3, r2, i2); } function w(t3, r2, i2) { return s.symmetricDifference(t, t3, r2, i2); } function A(t3, r2, i2) { return s.intersect(t, t3, r2, i2); } function j(t3, r2, i2 = null) { return s.union(t, t3, r2, i2); } function E(t3, r2, i2, s3, o2, u2, a2) { return s.offset(t, t3, r2, i2, s3, o2, u2, a2); } function b(t3, r2, i2, s3, o2 = false) { return s.buffer(t, t3, r2, i2, s3, o2); } function v(t3, r2, i2, s3, o2, u2, a2) { return s.geodesicBuffer(t, t3, r2, i2, s3, o2, u2, a2); } function z(t3, r2, i2, s3 = true) { return s.nearestCoordinate(t, t3, r2, i2, s3); } function I(t3, r2, i2) { return s.nearestVertex(t, t3, r2, i2); } function S(t3, r2, i2, s3, o2) { return s.nearestVertices(t, t3, r2, i2, s3, o2); } function V(n, t3, r2, i2) { if (t3 == null || i2 == null) throw new Error("Illegal Argument Exception"); const s3 = s.rotate(t3, r2, i2); return s3.spatialReference = n, s3; } function D(n, t3, r2) { if (t3 == null || r2 == null) throw new Error("Illegal Argument Exception"); const i2 = s.flipHorizontal(t3, r2); return i2.spatialReference = n, i2; } function H(n, t3, r2) { if (t3 == null || r2 == null) throw new Error("Illegal Argument Exception"); const i2 = s.flipVertical(t3, r2); return i2.spatialReference = n, i2; } function R(t3, r2, i2, s3, o2) { return s.generalize(t, t3, r2, i2, s3, o2); } function B(t3, r2, i2, s3) { return s.densify(t, t3, r2, i2, s3); } function L(t3, r2, i2, s3, o2 = 0) { return s.geodesicDensify(t, t3, r2, i2, s3, o2); } function _(t3, r2, i2) { return s.planarArea(t, t3, r2, i2); } function q(t3, r2, i2) { return s.planarLength(t, t3, r2, i2); } function C(t3, r2, i2, s3) { return s.geodesicArea(t, t3, r2, i2, s3); } function G(t3, r2, i2, s3) { return s.geodesicLength(t, t3, r2, i2, s3); } var O = Object.freeze(Object.defineProperty({ __proto__: null, extendedSpatialReferenceInfo: t2, clip: r, cut: i, contains: s2, crosses: o, distance: u, equals: a, intersects: c, touches: f, within: l, disjoint: p, overlaps: g, relate: d, isSimple: m, simplify: y, convexHull: h, difference: x, symmetricDifference: w, intersect: A, union: j, offset: E, buffer: b, geodesicBuffer: v, nearestCoordinate: z, nearestVertex: I, nearestVertices: S, rotate: V, flipHorizontal: D, flipVertical: H, generalize: R, densify: B, geodesicDensify: L, planarArea: _, planarLength: q, geodesicArea: C, geodesicLength: G }, Symbol.toStringTag, { value: "Module" })); export { t2 as t, r, i, s2 as s, o, u, a, c, f, l, p, g, d, m, y, h, x, w, A, j, E, b, v, z, I, S, V, D, H, R, B, L, _, q, C, G, O }; //# sourceMappingURL=chunk-UARK4UE6.js.map