/** * @license * Cesium - https://github.com/CesiumGS/cesium * Version 1.117 * * Copyright 2011-2022 Cesium Contributors * * Licensed under the Apache License, Version 2.0 (the "License"); * you may not use this file except in compliance with the License. * You may obtain a copy of the License at * * http://www.apache.org/licenses/LICENSE-2.0 * * Unless required by applicable law or agreed to in writing, software * distributed under the License is distributed on an "AS IS" BASIS, * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. * See the License for the specific language governing permissions and * limitations under the License. * * Columbus View (Pat. Pend.) * * Portions licensed separately. * See https://github.com/CesiumGS/cesium/blob/main/LICENSE.md for full licensing details. */ import { PolylinePipeline_default } from "./chunk-ZWPIM77Q.js"; import { arrayRemoveDuplicates_default } from "./chunk-V7JB576Q.js"; import { Cartesian3_default, Cartographic_default } from "./chunk-C5CE4OG6.js"; import { Math_default } from "./chunk-4PHPQRSH.js"; import { defined_default } from "./chunk-BDUJXBVF.js"; // packages/engine/Source/Core/WallGeometryLibrary.js var WallGeometryLibrary = {}; function latLonEquals(c0, c1) { return Math_default.equalsEpsilon(c0.latitude, c1.latitude, Math_default.EPSILON10) && Math_default.equalsEpsilon(c0.longitude, c1.longitude, Math_default.EPSILON10); } var scratchCartographic1 = new Cartographic_default(); var scratchCartographic2 = new Cartographic_default(); function removeDuplicates(ellipsoid, positions, topHeights, bottomHeights) { positions = arrayRemoveDuplicates_default(positions, Cartesian3_default.equalsEpsilon); const length = positions.length; if (length < 2) { return; } const hasBottomHeights = defined_default(bottomHeights); const hasTopHeights = defined_default(topHeights); const cleanedPositions = new Array(length); const cleanedTopHeights = new Array(length); const cleanedBottomHeights = new Array(length); const v0 = positions[0]; cleanedPositions[0] = v0; const c0 = ellipsoid.cartesianToCartographic(v0, scratchCartographic1); if (hasTopHeights) { c0.height = topHeights[0]; } cleanedTopHeights[0] = c0.height; if (hasBottomHeights) { cleanedBottomHeights[0] = bottomHeights[0]; } else { cleanedBottomHeights[0] = 0; } const startTopHeight = cleanedTopHeights[0]; const startBottomHeight = cleanedBottomHeights[0]; let hasAllSameHeights = startTopHeight === startBottomHeight; let index = 1; for (let i = 1; i < length; ++i) { const v1 = positions[i]; const c1 = ellipsoid.cartesianToCartographic(v1, scratchCartographic2); if (hasTopHeights) { c1.height = topHeights[i]; } hasAllSameHeights = hasAllSameHeights && c1.height === 0; if (!latLonEquals(c0, c1)) { cleanedPositions[index] = v1; cleanedTopHeights[index] = c1.height; if (hasBottomHeights) { cleanedBottomHeights[index] = bottomHeights[i]; } else { cleanedBottomHeights[index] = 0; } hasAllSameHeights = hasAllSameHeights && cleanedTopHeights[index] === cleanedBottomHeights[index]; Cartographic_default.clone(c1, c0); ++index; } else if (c0.height < c1.height) { cleanedTopHeights[index - 1] = c1.height; } } if (hasAllSameHeights || index < 2) { return; } cleanedPositions.length = index; cleanedTopHeights.length = index; cleanedBottomHeights.length = index; return { positions: cleanedPositions, topHeights: cleanedTopHeights, bottomHeights: cleanedBottomHeights }; } var positionsArrayScratch = new Array(2); var heightsArrayScratch = new Array(2); var generateArcOptionsScratch = { positions: void 0, height: void 0, granularity: void 0, ellipsoid: void 0 }; WallGeometryLibrary.computePositions = function(ellipsoid, wallPositions, maximumHeights, minimumHeights, granularity, duplicateCorners) { const o = removeDuplicates( ellipsoid, wallPositions, maximumHeights, minimumHeights ); if (!defined_default(o)) { return; } wallPositions = o.positions; maximumHeights = o.topHeights; minimumHeights = o.bottomHeights; const length = wallPositions.length; const numCorners = length - 2; let topPositions; let bottomPositions; const minDistance = Math_default.chordLength( granularity, ellipsoid.maximumRadius ); const generateArcOptions = generateArcOptionsScratch; generateArcOptions.minDistance = minDistance; generateArcOptions.ellipsoid = ellipsoid; if (duplicateCorners) { let count = 0; let i; for (i = 0; i < length - 1; i++) { count += PolylinePipeline_default.numberOfPoints( wallPositions[i], wallPositions[i + 1], minDistance ) + 1; } topPositions = new Float64Array(count * 3); bottomPositions = new Float64Array(count * 3); const generateArcPositions = positionsArrayScratch; const generateArcHeights = heightsArrayScratch; generateArcOptions.positions = generateArcPositions; generateArcOptions.height = generateArcHeights; let offset = 0; for (i = 0; i < length - 1; i++) { generateArcPositions[0] = wallPositions[i]; generateArcPositions[1] = wallPositions[i + 1]; generateArcHeights[0] = maximumHeights[i]; generateArcHeights[1] = maximumHeights[i + 1]; const pos = PolylinePipeline_default.generateArc(generateArcOptions); topPositions.set(pos, offset); generateArcHeights[0] = minimumHeights[i]; generateArcHeights[1] = minimumHeights[i + 1]; bottomPositions.set( PolylinePipeline_default.generateArc(generateArcOptions), offset ); offset += pos.length; } } else { generateArcOptions.positions = wallPositions; generateArcOptions.height = maximumHeights; topPositions = new Float64Array( PolylinePipeline_default.generateArc(generateArcOptions) ); generateArcOptions.height = minimumHeights; bottomPositions = new Float64Array( PolylinePipeline_default.generateArc(generateArcOptions) ); } return { bottomPositions, topPositions, numCorners }; }; var WallGeometryLibrary_default = WallGeometryLibrary; export { WallGeometryLibrary_default };