import { D, T, V, c, g, h, m, s, y as y2, z } from "./chunk-D5GG5NVO.js"; import "./chunk-USORKAIZ.js"; import { O } from "./chunk-Q34L5KZA.js"; import { d, y } from "./chunk-XLV7RUSE.js"; import "./chunk-NTUXR253.js"; import "./chunk-EOSZHC5H.js"; import "./chunk-C43UE3Z5.js"; import "./chunk-7XXXCK2A.js"; import "./chunk-7ZIDBK7B.js"; import "./chunk-WZQZRKNH.js"; import { a } from "./chunk-LRDX4TO7.js"; import { u } from "./chunk-WEMIK25H.js"; import "./chunk-JXW4QTJA.js"; import "./chunk-UXF37FQ4.js"; import "./chunk-ZOEK6QHJ.js"; import "./chunk-XNLG7T2T.js"; import "./chunk-IR4PV7VK.js"; import "./chunk-2Z6LERTI.js"; import "./chunk-OWVBLVP3.js"; import "./chunk-PDKDCAAD.js"; import { j2 as j } from "./chunk-ECW2QABR.js"; import "./chunk-GCDJLKH4.js"; import { R, k2 as k, p } from "./chunk-MRJEICT6.js"; import "./chunk-Y3WMVFTW.js"; import "./chunk-SAS7RONY.js"; import "./chunk-WSRBH7BF.js"; import "./chunk-IHXECKQQ.js"; import "./chunk-ULGDPLM2.js"; import "./chunk-EMJ4ZSM2.js"; import "./chunk-IKP3YN53.js"; import { e } from "./chunk-GZT4BVFP.js"; import "./chunk-A5ICIBVI.js"; // node_modules/@arcgis/core/smartMapping/statistics/support/utils.js var h2 = null; function y3(e2, t, n) { return e2.x < 0 ? e2.x += t : e2.x > n && (e2.x -= t), e2; } function I(e2, n, r2, o) { const u2 = p(r2) ? R(r2) : null, a2 = u2 ? Math.round((u2.valid[1] - u2.valid[0]) / n.scale[0]) : null; return e2.map((e3) => { const r3 = new j(e(e3.geometry)); return O(n, r3, r3, r3.hasZ, r3.hasM), e3.geometry = u2 ? y3(r3, a2, o[0]) : r3, e3; }); } function $(e2, t = 18, n, o, i, s3) { const l = new Float64Array(i * s3); t = Math.round(u(t)); let u2 = Number.POSITIVE_INFINITY, a2 = Number.NEGATIVE_INFINITY, m2 = 0, d3 = 0, p3 = 0, h3 = 0; const y4 = d(o, n); for (const { geometry: r2, attributes: c3 } of e2) { const { x: e3, y: n2 } = r2, o2 = Math.max(0, e3 - t), I3 = Math.max(0, n2 - t), $2 = Math.min(s3, n2 + t), g3 = Math.min(i, e3 + t), j2 = +y4(c3); for (let r3 = I3; r3 < $2; r3++) for (let s4 = o2; s4 < g3; s4++) { const o3 = r3 * i + s4, c4 = y(s4 - e3, r3 - n2, t), y5 = l[o3]; m2 = l[o3] += c4 * j2; const I4 = m2 - y5; d3 += I4, p3 += I4 * I4, m2 < u2 && (u2 = m2), m2 > a2 && (a2 = m2), h3++; } } if (!h3) return { mean: 0, stddev: 0, min: 0, max: 0, mid: 0, count: 0 }; const I2 = (a2 - u2) / 2; return { mean: d3 / h3, stdDev: Math.sqrt((p3 - d3 * d3 / h3) / h3), min: u2, max: a2, mid: I2, count: h3 }; } async function g2(e2, t) { if (!t) return []; const n = e2.field, r2 = e2.valueExpression, i = e2.normalizationType, s3 = e2.normalizationField, l = e2.normalizationTotal, u2 = [], a2 = e2.viewInfoParams; let f = null, c3 = null; if (r2) { if (!h2) { const { arcadeUtils: e3 } = await a(); h2 = e3; } f = h2.createFunction(r2), c3 = a2 && h2.getViewInfo({ viewingMode: a2.viewingMode, scale: a2.scale, spatialReference: new k(a2.spatialReference) }); } const p3 = e2.fieldInfos, y4 = !(t[0] && "declaredClass" in t[0] && t[0].declaredClass === "esri.Graphic") && p3 ? { fields: p3 } : null; return t.forEach((e3) => { const t2 = e3.attributes; let o; if (r2) { const t3 = y4 ? { ...e3, layer: y4 } : e3, n2 = h2.createExecContext(t3, c3); o = h2.executeFunction(f, n2); } else t2 && (o = t2[n]); if (i && isFinite(o)) { const e4 = t2 && parseFloat(t2[s3]); o = T(o, i, e4, l); } u2.push(o); }), u2; } // node_modules/@arcgis/core/smartMapping/statistics/support/statsWorker.js async function d2(i) { const { attribute: e2, features: s3 } = i, { normalizationType: r2, normalizationField: m2, minValue: u2, maxValue: f, fieldType: d3 } = e2, p3 = await g2({ field: e2.field, valueExpression: e2.valueExpression, normalizationType: r2, normalizationField: m2, normalizationTotal: e2.normalizationTotal, viewInfoParams: e2.viewInfoParams, fieldInfos: e2.fieldInfos }, s3), v2 = s({ normalizationType: r2, normalizationField: m2, minValue: u2, maxValue: f }), c3 = { value: 0.5, fieldType: d3 }, z3 = d3 === "esriFieldTypeString" ? m({ values: p3, supportsNullCount: v2, percentileParams: c3 }) : c({ values: p3, minValue: u2, maxValue: f, useSampleStdDev: !r2, supportsNullCount: v2, percentileParams: c3 }); return V(z3, d3 === "esriFieldTypeDate"); } async function p2(i) { const { attribute: e2, features: n } = i, o = await g2({ field: e2.field, valueExpression: e2.valueExpression, viewInfoParams: e2.viewInfoParams, fieldInfos: e2.fieldInfos }, n), t = g(o); return h(t, e2.domain, e2.returnAllCodedValues); } async function v(i) { const { attribute: e2, features: n } = i, { field: o, normalizationType: t, normalizationField: l, normalizationTotal: s3, classificationMethod: r2 } = e2, f = await g2({ field: o, valueExpression: e2.valueExpression, normalizationType: t, normalizationField: l, normalizationTotal: s3, viewInfoParams: e2.viewInfoParams, fieldInfos: e2.fieldInfos }, n), d3 = y2(f, { field: o, normalizationType: t, normalizationField: l, normalizationTotal: s3, classificationMethod: r2, standardDeviationInterval: e2.standardDeviationInterval, numClasses: e2.numClasses, minValue: e2.minValue, maxValue: e2.maxValue }); return D(d3, r2); } async function c2(i) { const { attribute: e2, features: n } = i, { field: o, normalizationType: t, normalizationField: l, normalizationTotal: s3, classificationMethod: r2 } = e2, m2 = await g2({ field: o, valueExpression: e2.valueExpression, normalizationType: t, normalizationField: l, normalizationTotal: s3, viewInfoParams: e2.viewInfoParams, fieldInfos: e2.fieldInfos }, n); return z(m2, { field: o, normalizationType: t, normalizationField: l, normalizationTotal: s3, classificationMethod: r2, standardDeviationInterval: e2.standardDeviationInterval, numBins: e2.numBins, minValue: e2.minValue, maxValue: e2.maxValue }); } async function z2(a2) { const { attribute: n, features: o } = a2, { field: t, radius: l, fieldOffset: s3, transform: r2, spatialReference: m2, size: u2 } = n, f = I(o, r2, m2, u2), { count: d3, min: p3, max: v2, mean: c3, stdDev: z3 } = $(f, l, s3, t, u2[0], u2[1]); return { count: d3, min: p3, max: v2, avg: c3, stddev: z3 }; } export { v as classBreaks, z2 as heatmapStatistics, c2 as histogram, d2 as summaryStatistics, p2 as uniqueValues }; //# sourceMappingURL=statsWorker-Z3SQUZHX.js.map