import "./chunk-Y2EWIDNZ.js"; import "./chunk-6BRTRIDE.js"; import "./chunk-YZUP3MAF.js"; import "./chunk-E3HOL2XO.js"; import "./chunk-SCXOTZ6Q.js"; import "./chunk-G5AI6ZNE.js"; import "./chunk-WR32EHFC.js"; import "./chunk-NTUXR253.js"; import "./chunk-TERAW6FT.js"; import "./chunk-XNLG7T2T.js"; import "./chunk-IR4PV7VK.js"; import { a } from "./chunk-MXB2XLKV.js"; import "./chunk-VNFRAYHO.js"; import "./chunk-R5IG2D6H.js"; import "./chunk-VBRY5KJM.js"; import "./chunk-SAS7RONY.js"; import "./chunk-ULGDPLM2.js"; import "./chunk-EMJ4ZSM2.js"; import "./chunk-IKP3YN53.js"; import { r, t3 as t } from "./chunk-GZT4BVFP.js"; import "./chunk-A5ICIBVI.js"; // node_modules/@arcgis/core/libs/i3s/enums.js var n; var e; !function(n4) { n4[n4.None = 0] = "None", n4[n4.Int16 = 1] = "Int16", n4[n4.Int32 = 2] = "Int32"; }(n || (n = {})), function(n4) { n4[n4.Replace = 0] = "Replace", n4[n4.Outside = 1] = "Outside", n4[n4.Inside = 2] = "Inside", n4[n4.Finished = 3] = "Finished"; }(e || (e = {})); // node_modules/@arcgis/core/libs/i3s/I3SModule.js function e2() { return n2 || (n2 = new Promise((t2) => import("./i3s-RJEK4VSY.js").then((t3) => t3.i).then(({ default: e3 }) => { const n4 = e3({ locateFile: i, onRuntimeInitialized: () => t2(n4) }); delete n4.then; })).catch((t2) => { throw t2; })), n2; } function i(e3) { return a(`esri/libs/i3s/${e3}`); } var n2; // node_modules/@arcgis/core/views/3d/layers/i3s/I3SNode.js var n3; var o; var s; var a2; var c; !function(e3) { e3[e3.Unmodified = 0] = "Unmodified", e3[e3.Culled = 1] = "Culled", e3[e3.NotChecked = 2] = "NotChecked"; }(n3 || (n3 = {})), function(e3) { e3[e3.Unmodified = 0] = "Unmodified", e3[e3.PotentiallyModified = 1] = "PotentiallyModified", e3[e3.Culled = 2] = "Culled", e3[e3.Unknown = 3] = "Unknown", e3[e3.NotChecked = 4] = "NotChecked"; }(o || (o = {})); !function(e3) { e3[e3.Unknown = 0] = "Unknown", e3[e3.Uncached = 1] = "Uncached", e3[e3.Cached = 2] = "Cached"; }(s || (s = {})), function(e3) { e3[e3.None = 0] = "None", e3[e3.MaxScreenThreshold = 1] = "MaxScreenThreshold", e3[e3.ScreenSpaceRelative = 2] = "ScreenSpaceRelative", e3[e3.RemovedFeatureDiameter = 3] = "RemovedFeatureDiameter", e3[e3.DistanceRangeFromDefaultCamera = 4] = "DistanceRangeFromDefaultCamera"; }(a2 || (a2 = {})), function(e3) { e3[e3.Hole = 0] = "Hole", e3[e3.Leaf = 1] = "Leaf"; }(c || (c = {})); // node_modules/@arcgis/core/views/3d/layers/SceneLayerWorker.js async function s2(e3) { await g(); const t2 = [e3.geometryBuffer]; return { result: m(e3, t2), transferList: t2 }; } async function f(e3) { await g(); const r2 = [e3.geometryBuffer], { geometryBuffer: n4 } = e3, o2 = n4.byteLength, s3 = y._malloc(o2), f2 = new Uint8Array(y.HEAPU8.buffer, s3, o2); f2.set(new Uint8Array(n4)); const i3 = y.dracoDecompressPointCloudData(s3, f2.byteLength); if (y._free(s3), i3.error.length > 0) throw `i3s.wasm: ${i3.error}`; const a4 = i3.featureIds?.length > 0 ? t(i3.featureIds) : null, u2 = t(i3.positions); a4 && r2.push(a4.buffer), r2.push(u2.buffer); return { result: { positions: u2, featureIds: a4 }, transferList: r2 }; } async function i2(e3) { await g(), E(e3); const t2 = { buffer: e3.buffer }; return { result: t2, transferList: [t2.buffer] }; } async function a3(e3) { await g(), b(e3); } async function u(e3) { await g(), y.setLegacySchema(e3.context, e3.jsonSchema); } function l(e3) { h(e3); } var c2; var y; function b(e3) { const t2 = e3.modifications, r2 = y._malloc(8 * t2.length), n4 = new Float64Array(y.HEAPU8.buffer, r2, t2.length); for (let o2 = 0; o2 < t2.length; ++o2) n4[o2] = t2[o2]; y.setModifications(e3.context, r2, t2.length, e3.isGeodetic), y._free(r2); } function m(n4, o2) { if (!y) return null; const { context: s3, localOrigin: f2, globalTrafo: i3, mbs: a4, obb: u2, elevationOffset: l2, geometryBuffer: c3, geometryDescriptor: b2, indexToVertexProjector: m2, vertexToRenderProjector: d2 } = n4, E2 = y._malloc(c3.byteLength), h2 = 33, g2 = y._malloc(h2 * Float64Array.BYTES_PER_ELEMENT), w2 = new Uint8Array(y.HEAPU8.buffer, E2, c3.byteLength); w2.set(new Uint8Array(c3)); const A = new Float64Array(y.HEAPU8.buffer, g2, h2); p(A, f2); let _ = A.byteOffset + 3 * A.BYTES_PER_ELEMENT, L2 = new Float64Array(A.buffer, _); p(L2, i3), _ += 16 * A.BYTES_PER_ELEMENT, L2 = new Float64Array(A.buffer, _), p(L2, a4), _ += 4 * A.BYTES_PER_ELEMENT, r(u2) && (L2 = new Float64Array(A.buffer, _), p(L2, u2.center), _ += 3 * A.BYTES_PER_ELEMENT, L2 = new Float64Array(A.buffer, _), p(L2, u2.halfSize), _ += 3 * A.BYTES_PER_ELEMENT, L2 = new Float64Array(A.buffer, _), p(L2, u2.quaternion)); const I = b2, T = { isDraco: false, isLegacy: false, color: n4.layouts.some((e3) => e3.some((e4) => e4.name === "color")), normal: n4.needNormals && n4.layouts.some((e3) => e3.some((e4) => e4.name === "normalCompressed")), uv0: n4.layouts.some((e3) => e3.some((e4) => e4.name === "uv0")), uvRegion: n4.layouts.some((e3) => e3.some((e4) => e4.name === "uvRegion")), featureIndex: I.featureIndex }, P = y.process(s3, !!n4.obb, E2, w2.byteLength, I, T, g2, l2, m2, d2, n4.normalReferenceFrame); if (y._free(g2), y._free(E2), P.error.length > 0) throw `i3s.wasm: ${P.error}`; if (P.discarded) return null; const U = P.componentOffsets.length > 0 ? t(P.componentOffsets) : null, B = P.featureIds.length > 0 ? t(P.featureIds) : null, F = t(P.interleavedVertedData).buffer, M = P.indicesType === n.Int16 ? t(new Uint16Array(P.indices.buffer, P.indices.byteOffset, P.indices.byteLength / 2)) : t(new Uint32Array(P.indices.buffer, P.indices.byteOffset, P.indices.byteLength / 4)), S = t(P.positions), x = P.positionIndicesType === n.Int16 ? t(new Uint16Array(P.positionIndices.buffer, P.positionIndices.byteOffset, P.positionIndices.byteLength / 2)) : t(new Uint32Array(P.positionIndices.buffer, P.positionIndices.byteOffset, P.positionIndices.byteLength / 4)), O = { layout: n4.layouts[0], interleavedVertexData: F, indices: M, hasColors: P.hasColors, hasModifications: P.hasModifications, positionData: { data: S, indices: x } }; return B && o2.push(B.buffer), U && o2.push(U.buffer), o2.push(F), o2.push(M.buffer), o2.push(S.buffer), o2.push(x.buffer), { componentOffsets: U, featureIds: B, transformedGeometry: O, obb: P.obb }; } function d(e3) { return e3 === 0 ? o.Unmodified : e3 === 1 ? o.PotentiallyModified : e3 === 2 ? o.Culled : o.Unknown; } function E(e3) { const { context: t2, buffer: r2 } = e3, n4 = y._malloc(r2.byteLength), o2 = r2.byteLength / Float64Array.BYTES_PER_ELEMENT, s3 = new Float64Array(y.HEAPU8.buffer, n4, o2), f2 = new Float64Array(r2); s3.set(f2), y.filterOBBs(t2, n4, o2), f2.set(s3), y._free(n4); } function h(e3) { y && y.destroy(e3); } function p(e3, t2) { for (let r2 = 0; r2 < t2.length; ++r2) e3[r2] = t2[r2]; } function g() { return y ? Promise.resolve() : (c2 || (c2 = e2().then((e3) => { y = e3, c2 = null; })), c2); } var w = { transform: m, destroy: h }; export { l as destroyContext, f as dracoDecompressPointCloudData, i2 as filterObbsForModifications, E as filterObbsForModificationsSync, g as initialize, d as interpretObbModificationResults, s2 as process, u as setLegacySchema, a3 as setModifications, b as setModificationsSync, w as test }; //# sourceMappingURL=SceneLayerWorker-SAXSQD5N.js.map