import {
  J
} from "./chunk-XIEPNAEI.js";
import {
  f
} from "./chunk-M5BTTMP6.js";
import {
  D
} from "./chunk-FYNVVMWY.js";
import {
  t
} from "./chunk-HBMVUVZX.js";
import {
  c,
  s as s2,
  v
} from "./chunk-2Z6LERTI.js";
import {
  Z,
  i,
  o2 as o,
  r
} from "./chunk-ECW2QABR.js";
import {
  I
} from "./chunk-MRJEICT6.js";
import {
  s3 as s
} from "./chunk-EMJ4ZSM2.js";

// node_modules/@arcgis/core/geometry/support/intersects.js
function n(n4) {
  return n4 === "mesh" ? o : Z(n4);
}

// node_modules/@arcgis/core/layers/graphics/contains.js
function n2(n4, t4) {
  return n4 ? t4 ? 4 : 3 : t4 ? 3 : 2;
}
function t2(n4, t4, r3, e3) {
  return o2(n4, t4, r3, e3.coords[0], e3.coords[1]);
}
function r2(t4, r3, e3, c3, u2, f3) {
  const s3 = n2(u2, f3), { coords: i3, lengths: l2 } = c3;
  if (!l2)
    return false;
  for (let n4 = 0, d = 0; n4 < l2.length; n4++, d += s3)
    if (!o2(t4, r3, e3, i3[d], i3[d + 1]))
      return false;
  return true;
}
function o2(t4, r3, o3, c3, u2) {
  if (!t4)
    return false;
  const f3 = n2(r3, o3), { coords: s3, lengths: i3 } = t4;
  let l2 = false, d = 0;
  for (const n4 of i3)
    l2 = e(l2, s3, f3, d, n4, c3, u2), d += n4 * f3;
  return l2;
}
function e(n4, t4, r3, o3, e3, c3, u2) {
  let f3 = n4, s3 = o3;
  for (let i3 = o3, l2 = o3 + e3 * r3; i3 < l2; i3 += r3) {
    s3 = i3 + r3, s3 === l2 && (s3 = o3);
    const n5 = t4[i3], e4 = t4[i3 + 1], d = t4[s3], g2 = t4[s3 + 1];
    (e4 < u2 && g2 >= u2 || g2 < u2 && e4 >= u2) && n5 + (u2 - e4) / (g2 - e4) * (d - n5) < c3 && (f3 = !f3);
  }
  return f3;
}

// node_modules/@arcgis/core/layers/graphics/data/spatialQuerySupport.js
var c2 = "feature-store:unsupported-query";
var R = { esriSpatialRelIntersects: "intersects", esriSpatialRelContains: "contains", esriSpatialRelCrosses: "crosses", esriSpatialRelDisjoint: "disjoint", esriSpatialRelEnvelopeIntersects: "intersects", esriSpatialRelIndexIntersects: null, esriSpatialRelOverlaps: "overlaps", esriSpatialRelTouches: "touches", esriSpatialRelWithin: "within", esriSpatialRelRelation: null };
var S = { spatialRelationship: { esriSpatialRelIntersects: true, esriSpatialRelContains: true, esriSpatialRelWithin: true, esriSpatialRelCrosses: true, esriSpatialRelDisjoint: true, esriSpatialRelTouches: true, esriSpatialRelOverlaps: true, esriSpatialRelEnvelopeIntersects: true, esriSpatialRelIndexIntersects: false, esriSpatialRelRelation: false }, queryGeometry: { esriGeometryPoint: true, esriGeometryMultipoint: true, esriGeometryPolyline: true, esriGeometryPolygon: true, esriGeometryEnvelope: true }, layerGeometry: { esriGeometryPoint: true, esriGeometryMultipoint: true, esriGeometryPolyline: true, esriGeometryPolygon: true, esriGeometryEnvelope: false } };
function G2(e3) {
  return S.spatialRelationship[e3] === true;
}
function g(e3) {
  return S.queryGeometry[v(e3)] === true;
}
function j(e3) {
  return S.layerGeometry[e3] === true;
}
function h2() {
  return import("./geometryEngineJSON-XXKTYTFH.js");
}
function v2(e3, n4, l2, y2, c3) {
  if (c(n4) && l2 === "esriGeometryPoint" && (e3 === "esriSpatialRelIntersects" || e3 === "esriSpatialRelContains")) {
    const e4 = D(new t(), n4, false, false);
    return Promise.resolve((r3) => t2(e4, false, false, r3));
  }
  if (c(n4) && l2 === "esriGeometryMultipoint") {
    const r3 = D(new t(), n4, false, false);
    if (e3 === "esriSpatialRelContains")
      return Promise.resolve((e4) => r2(r3, false, false, e4, y2, c3));
  }
  if (s2(n4) && l2 === "esriGeometryPoint" && (e3 === "esriSpatialRelIntersects" || e3 === "esriSpatialRelContains"))
    return Promise.resolve((e4) => r(n4, J(l2, y2, c3, e4)));
  if (s2(n4) && l2 === "esriGeometryMultipoint" && e3 === "esriSpatialRelContains")
    return Promise.resolve((e4) => i(n4, J(l2, y2, c3, e4)));
  if (s2(n4) && e3 === "esriSpatialRelIntersects") {
    const e4 = n(l2);
    return Promise.resolve((r3) => e4(n4, J(l2, y2, c3, r3)));
  }
  return h2().then((r3) => {
    const t4 = r3[R[e3]].bind(null, n4.spatialReference, n4);
    return (e4) => t4(J(l2, y2, c3, e4));
  });
}
async function P(r3, t4, i3) {
  const { spatialRel: s3, geometry: o3 } = r3;
  if (o3) {
    if (!G2(s3))
      throw new s(c2, "Unsupported query spatial relationship", { query: r3 });
    if (I(o3.spatialReference) && I(i3)) {
      if (!g(o3))
        throw new s(c2, "Unsupported query geometry type", { query: r3 });
      if (!j(t4))
        throw new s(c2, "Unsupported layer geometry type", { query: r3 });
      if (r3.outSR)
        return f(r3.geometry && r3.geometry.spatialReference, r3.outSR);
    }
  }
}
function I2(e3) {
  if (s2(e3))
    return true;
  if (c(e3)) {
    for (const r3 of e3.rings) {
      if (r3.length !== 5)
        return false;
      if (r3[0][0] !== r3[1][0] || r3[0][0] !== r3[4][0] || r3[2][0] !== r3[3][0] || r3[0][1] !== r3[3][1] || r3[0][1] !== r3[4][1] || r3[1][1] !== r3[2][1])
        return false;
    }
    return true;
  }
  return false;
}

// node_modules/@arcgis/core/layers/graphics/data/timeSupport.js
function t3(t4, n4) {
  if (!t4)
    return null;
  const e3 = n4.featureAdapter, { startTimeField: u2, endTimeField: l2 } = t4;
  let r3 = Number.POSITIVE_INFINITY, i3 = Number.NEGATIVE_INFINITY;
  if (u2 && l2)
    n4.forEach((t5) => {
      const n5 = e3.getAttribute(t5, u2), o3 = e3.getAttribute(t5, l2);
      n5 == null || isNaN(n5) || (r3 = Math.min(r3, n5)), o3 == null || isNaN(o3) || (i3 = Math.max(i3, o3));
    });
  else {
    const t5 = u2 || l2;
    n4.forEach((n5) => {
      const u3 = e3.getAttribute(n5, t5);
      u3 == null || isNaN(u3) || (r3 = Math.min(r3, u3), i3 = Math.max(i3, u3));
    });
  }
  return { start: r3, end: i3 };
}
function n3(t4, n4, r3) {
  if (!n4 || !t4)
    return null;
  const { startTimeField: i3, endTimeField: o3 } = t4;
  if (!i3 && !o3)
    return null;
  const { start: s3, end: a } = n4;
  return s3 === null && a === null ? null : s3 === void 0 && a === void 0 ? l() : i3 && o3 ? e2(r3, i3, o3, s3, a) : u(r3, i3 || o3, s3, a);
}
function e2(t4, n4, e3, u2, l2) {
  return u2 != null && l2 != null ? (r3) => {
    const i3 = t4.getAttribute(r3, n4), o3 = t4.getAttribute(r3, e3);
    return (i3 == null || i3 <= l2) && (o3 == null || o3 >= u2);
  } : u2 != null ? (n5) => {
    const l3 = t4.getAttribute(n5, e3);
    return l3 == null || l3 >= u2;
  } : l2 != null ? (e4) => {
    const u3 = t4.getAttribute(e4, n4);
    return u3 == null || u3 <= l2;
  } : void 0;
}
function u(t4, n4, e3, u2) {
  return e3 != null && u2 != null && e3 === u2 ? (u3) => t4.getAttribute(u3, n4) === e3 : e3 != null && u2 != null ? (l2) => {
    const r3 = t4.getAttribute(l2, n4);
    return r3 >= e3 && r3 <= u2;
  } : e3 != null ? (u3) => t4.getAttribute(u3, n4) >= e3 : u2 != null ? (e4) => t4.getAttribute(e4, n4) <= u2 : void 0;
}
function l() {
  return () => false;
}

export {
  v2 as v,
  P,
  I2 as I,
  t3 as t,
  n3 as n
};
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