Agriculture-front-end/dist/CesiumUnminified/Workers/chunk-NI2R52QD.js

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/**
* @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 {
Matrix4_default,
Rectangle_default
} from "./chunk-I5TDPPC4.js";
import {
Cartesian3_default,
Cartographic_default,
Ellipsoid_default,
Matrix3_default
} from "./chunk-C5CE4OG6.js";
import {
Math_default
} from "./chunk-4PHPQRSH.js";
import {
defaultValue_default
} from "./chunk-UCPPWV64.js";
import {
Check_default,
DeveloperError_default
} from "./chunk-U4IMCOF5.js";
import {
defined_default
} from "./chunk-BDUJXBVF.js";
// packages/engine/Source/Core/GeographicProjection.js
function GeographicProjection(ellipsoid) {
this._ellipsoid = defaultValue_default(ellipsoid, Ellipsoid_default.WGS84);
this._semimajorAxis = this._ellipsoid.maximumRadius;
this._oneOverSemimajorAxis = 1 / this._semimajorAxis;
}
Object.defineProperties(GeographicProjection.prototype, {
/**
* Gets the {@link Ellipsoid}.
*
* @memberof GeographicProjection.prototype
*
* @type {Ellipsoid}
* @readonly
*/
ellipsoid: {
get: function() {
return this._ellipsoid;
}
}
});
GeographicProjection.prototype.project = function(cartographic, result) {
const semimajorAxis = this._semimajorAxis;
const x = cartographic.longitude * semimajorAxis;
const y = cartographic.latitude * semimajorAxis;
const z = cartographic.height;
if (!defined_default(result)) {
return new Cartesian3_default(x, y, z);
}
result.x = x;
result.y = y;
result.z = z;
return result;
};
GeographicProjection.prototype.unproject = function(cartesian, result) {
if (!defined_default(cartesian)) {
throw new DeveloperError_default("cartesian is required");
}
const oneOverEarthSemimajorAxis = this._oneOverSemimajorAxis;
const longitude = cartesian.x * oneOverEarthSemimajorAxis;
const latitude = cartesian.y * oneOverEarthSemimajorAxis;
const height = cartesian.z;
if (!defined_default(result)) {
return new Cartographic_default(longitude, latitude, height);
}
result.longitude = longitude;
result.latitude = latitude;
result.height = height;
return result;
};
var GeographicProjection_default = GeographicProjection;
// packages/engine/Source/Core/Intersect.js
var Intersect = {
/**
* Represents that an object is not contained within the frustum.
*
* @type {number}
* @constant
*/
OUTSIDE: -1,
/**
* Represents that an object intersects one of the frustum's planes.
*
* @type {number}
* @constant
*/
INTERSECTING: 0,
/**
* Represents that an object is fully within the frustum.
*
* @type {number}
* @constant
*/
INSIDE: 1
};
var Intersect_default = Object.freeze(Intersect);
// packages/engine/Source/Core/Interval.js
function Interval(start, stop) {
this.start = defaultValue_default(start, 0);
this.stop = defaultValue_default(stop, 0);
}
var Interval_default = Interval;
// packages/engine/Source/Core/BoundingSphere.js
function BoundingSphere(center, radius) {
this.center = Cartesian3_default.clone(defaultValue_default(center, Cartesian3_default.ZERO));
this.radius = defaultValue_default(radius, 0);
}
var fromPointsXMin = new Cartesian3_default();
var fromPointsYMin = new Cartesian3_default();
var fromPointsZMin = new Cartesian3_default();
var fromPointsXMax = new Cartesian3_default();
var fromPointsYMax = new Cartesian3_default();
var fromPointsZMax = new Cartesian3_default();
var fromPointsCurrentPos = new Cartesian3_default();
var fromPointsScratch = new Cartesian3_default();
var fromPointsRitterCenter = new Cartesian3_default();
var fromPointsMinBoxPt = new Cartesian3_default();
var fromPointsMaxBoxPt = new Cartesian3_default();
var fromPointsNaiveCenterScratch = new Cartesian3_default();
var volumeConstant = 4 / 3 * Math_default.PI;
BoundingSphere.fromPoints = function(positions, result) {
if (!defined_default(result)) {
result = new BoundingSphere();
}
if (!defined_default(positions) || positions.length === 0) {
result.center = Cartesian3_default.clone(Cartesian3_default.ZERO, result.center);
result.radius = 0;
return result;
}
const currentPos = Cartesian3_default.clone(positions[0], fromPointsCurrentPos);
const xMin = Cartesian3_default.clone(currentPos, fromPointsXMin);
const yMin = Cartesian3_default.clone(currentPos, fromPointsYMin);
const zMin = Cartesian3_default.clone(currentPos, fromPointsZMin);
const xMax = Cartesian3_default.clone(currentPos, fromPointsXMax);
const yMax = Cartesian3_default.clone(currentPos, fromPointsYMax);
const zMax = Cartesian3_default.clone(currentPos, fromPointsZMax);
const numPositions = positions.length;
let i;
for (i = 1; i < numPositions; i++) {
Cartesian3_default.clone(positions[i], currentPos);
const x = currentPos.x;
const y = currentPos.y;
const z = currentPos.z;
if (x < xMin.x) {
Cartesian3_default.clone(currentPos, xMin);
}
if (x > xMax.x) {
Cartesian3_default.clone(currentPos, xMax);
}
if (y < yMin.y) {
Cartesian3_default.clone(currentPos, yMin);
}
if (y > yMax.y) {
Cartesian3_default.clone(currentPos, yMax);
}
if (z < zMin.z) {
Cartesian3_default.clone(currentPos, zMin);
}
if (z > zMax.z) {
Cartesian3_default.clone(currentPos, zMax);
}
}
const xSpan = Cartesian3_default.magnitudeSquared(
Cartesian3_default.subtract(xMax, xMin, fromPointsScratch)
);
const ySpan = Cartesian3_default.magnitudeSquared(
Cartesian3_default.subtract(yMax, yMin, fromPointsScratch)
);
const zSpan = Cartesian3_default.magnitudeSquared(
Cartesian3_default.subtract(zMax, zMin, fromPointsScratch)
);
let diameter1 = xMin;
let diameter2 = xMax;
let maxSpan = xSpan;
if (ySpan > maxSpan) {
maxSpan = ySpan;
diameter1 = yMin;
diameter2 = yMax;
}
if (zSpan > maxSpan) {
maxSpan = zSpan;
diameter1 = zMin;
diameter2 = zMax;
}
const ritterCenter = fromPointsRitterCenter;
ritterCenter.x = (diameter1.x + diameter2.x) * 0.5;
ritterCenter.y = (diameter1.y + diameter2.y) * 0.5;
ritterCenter.z = (diameter1.z + diameter2.z) * 0.5;
let radiusSquared = Cartesian3_default.magnitudeSquared(
Cartesian3_default.subtract(diameter2, ritterCenter, fromPointsScratch)
);
let ritterRadius = Math.sqrt(radiusSquared);
const minBoxPt = fromPointsMinBoxPt;
minBoxPt.x = xMin.x;
minBoxPt.y = yMin.y;
minBoxPt.z = zMin.z;
const maxBoxPt = fromPointsMaxBoxPt;
maxBoxPt.x = xMax.x;
maxBoxPt.y = yMax.y;
maxBoxPt.z = zMax.z;
const naiveCenter = Cartesian3_default.midpoint(
minBoxPt,
maxBoxPt,
fromPointsNaiveCenterScratch
);
let naiveRadius = 0;
for (i = 0; i < numPositions; i++) {
Cartesian3_default.clone(positions[i], currentPos);
const r = Cartesian3_default.magnitude(
Cartesian3_default.subtract(currentPos, naiveCenter, fromPointsScratch)
);
if (r > naiveRadius) {
naiveRadius = r;
}
const oldCenterToPointSquared = Cartesian3_default.magnitudeSquared(
Cartesian3_default.subtract(currentPos, ritterCenter, fromPointsScratch)
);
if (oldCenterToPointSquared > radiusSquared) {
const oldCenterToPoint = Math.sqrt(oldCenterToPointSquared);
ritterRadius = (ritterRadius + oldCenterToPoint) * 0.5;
radiusSquared = ritterRadius * ritterRadius;
const oldToNew = oldCenterToPoint - ritterRadius;
ritterCenter.x = (ritterRadius * ritterCenter.x + oldToNew * currentPos.x) / oldCenterToPoint;
ritterCenter.y = (ritterRadius * ritterCenter.y + oldToNew * currentPos.y) / oldCenterToPoint;
ritterCenter.z = (ritterRadius * ritterCenter.z + oldToNew * currentPos.z) / oldCenterToPoint;
}
}
if (ritterRadius < naiveRadius) {
Cartesian3_default.clone(ritterCenter, result.center);
result.radius = ritterRadius;
} else {
Cartesian3_default.clone(naiveCenter, result.center);
result.radius = naiveRadius;
}
return result;
};
var defaultProjection = new GeographicProjection_default();
var fromRectangle2DLowerLeft = new Cartesian3_default();
var fromRectangle2DUpperRight = new Cartesian3_default();
var fromRectangle2DSouthwest = new Cartographic_default();
var fromRectangle2DNortheast = new Cartographic_default();
BoundingSphere.fromRectangle2D = function(rectangle, projection, result) {
return BoundingSphere.fromRectangleWithHeights2D(
rectangle,
projection,
0,
0,
result
);
};
BoundingSphere.fromRectangleWithHeights2D = function(rectangle, projection, minimumHeight, maximumHeight, result) {
if (!defined_default(result)) {
result = new BoundingSphere();
}
if (!defined_default(rectangle)) {
result.center = Cartesian3_default.clone(Cartesian3_default.ZERO, result.center);
result.radius = 0;
return result;
}
projection = defaultValue_default(projection, defaultProjection);
Rectangle_default.southwest(rectangle, fromRectangle2DSouthwest);
fromRectangle2DSouthwest.height = minimumHeight;
Rectangle_default.northeast(rectangle, fromRectangle2DNortheast);
fromRectangle2DNortheast.height = maximumHeight;
const lowerLeft = projection.project(
fromRectangle2DSouthwest,
fromRectangle2DLowerLeft
);
const upperRight = projection.project(
fromRectangle2DNortheast,
fromRectangle2DUpperRight
);
const width = upperRight.x - lowerLeft.x;
const height = upperRight.y - lowerLeft.y;
const elevation = upperRight.z - lowerLeft.z;
result.radius = Math.sqrt(width * width + height * height + elevation * elevation) * 0.5;
const center = result.center;
center.x = lowerLeft.x + width * 0.5;
center.y = lowerLeft.y + height * 0.5;
center.z = lowerLeft.z + elevation * 0.5;
return result;
};
var fromRectangle3DScratch = [];
BoundingSphere.fromRectangle3D = function(rectangle, ellipsoid, surfaceHeight, result) {
ellipsoid = defaultValue_default(ellipsoid, Ellipsoid_default.WGS84);
surfaceHeight = defaultValue_default(surfaceHeight, 0);
if (!defined_default(result)) {
result = new BoundingSphere();
}
if (!defined_default(rectangle)) {
result.center = Cartesian3_default.clone(Cartesian3_default.ZERO, result.center);
result.radius = 0;
return result;
}
const positions = Rectangle_default.subsample(
rectangle,
ellipsoid,
surfaceHeight,
fromRectangle3DScratch
);
return BoundingSphere.fromPoints(positions, result);
};
BoundingSphere.fromVertices = function(positions, center, stride, result) {
if (!defined_default(result)) {
result = new BoundingSphere();
}
if (!defined_default(positions) || positions.length === 0) {
result.center = Cartesian3_default.clone(Cartesian3_default.ZERO, result.center);
result.radius = 0;
return result;
}
center = defaultValue_default(center, Cartesian3_default.ZERO);
stride = defaultValue_default(stride, 3);
Check_default.typeOf.number.greaterThanOrEquals("stride", stride, 3);
const currentPos = fromPointsCurrentPos;
currentPos.x = positions[0] + center.x;
currentPos.y = positions[1] + center.y;
currentPos.z = positions[2] + center.z;
const xMin = Cartesian3_default.clone(currentPos, fromPointsXMin);
const yMin = Cartesian3_default.clone(currentPos, fromPointsYMin);
const zMin = Cartesian3_default.clone(currentPos, fromPointsZMin);
const xMax = Cartesian3_default.clone(currentPos, fromPointsXMax);
const yMax = Cartesian3_default.clone(currentPos, fromPointsYMax);
const zMax = Cartesian3_default.clone(currentPos, fromPointsZMax);
const numElements = positions.length;
let i;
for (i = 0; i < numElements; i += stride) {
const x = positions[i] + center.x;
const y = positions[i + 1] + center.y;
const z = positions[i + 2] + center.z;
currentPos.x = x;
currentPos.y = y;
currentPos.z = z;
if (x < xMin.x) {
Cartesian3_default.clone(currentPos, xMin);
}
if (x > xMax.x) {
Cartesian3_default.clone(currentPos, xMax);
}
if (y < yMin.y) {
Cartesian3_default.clone(currentPos, yMin);
}
if (y > yMax.y) {
Cartesian3_default.clone(currentPos, yMax);
}
if (z < zMin.z) {
Cartesian3_default.clone(currentPos, zMin);
}
if (z > zMax.z) {
Cartesian3_default.clone(currentPos, zMax);
}
}
const xSpan = Cartesian3_default.magnitudeSquared(
Cartesian3_default.subtract(xMax, xMin, fromPointsScratch)
);
const ySpan = Cartesian3_default.magnitudeSquared(
Cartesian3_default.subtract(yMax, yMin, fromPointsScratch)
);
const zSpan = Cartesian3_default.magnitudeSquared(
Cartesian3_default.subtract(zMax, zMin, fromPointsScratch)
);
let diameter1 = xMin;
let diameter2 = xMax;
let maxSpan = xSpan;
if (ySpan > maxSpan) {
maxSpan = ySpan;
diameter1 = yMin;
diameter2 = yMax;
}
if (zSpan > maxSpan) {
maxSpan = zSpan;
diameter1 = zMin;
diameter2 = zMax;
}
const ritterCenter = fromPointsRitterCenter;
ritterCenter.x = (diameter1.x + diameter2.x) * 0.5;
ritterCenter.y = (diameter1.y + diameter2.y) * 0.5;
ritterCenter.z = (diameter1.z + diameter2.z) * 0.5;
let radiusSquared = Cartesian3_default.magnitudeSquared(
Cartesian3_default.subtract(diameter2, ritterCenter, fromPointsScratch)
);
let ritterRadius = Math.sqrt(radiusSquared);
const minBoxPt = fromPointsMinBoxPt;
minBoxPt.x = xMin.x;
minBoxPt.y = yMin.y;
minBoxPt.z = zMin.z;
const maxBoxPt = fromPointsMaxBoxPt;
maxBoxPt.x = xMax.x;
maxBoxPt.y = yMax.y;
maxBoxPt.z = zMax.z;
const naiveCenter = Cartesian3_default.midpoint(
minBoxPt,
maxBoxPt,
fromPointsNaiveCenterScratch
);
let naiveRadius = 0;
for (i = 0; i < numElements; i += stride) {
currentPos.x = positions[i] + center.x;
currentPos.y = positions[i + 1] + center.y;
currentPos.z = positions[i + 2] + center.z;
const r = Cartesian3_default.magnitude(
Cartesian3_default.subtract(currentPos, naiveCenter, fromPointsScratch)
);
if (r > naiveRadius) {
naiveRadius = r;
}
const oldCenterToPointSquared = Cartesian3_default.magnitudeSquared(
Cartesian3_default.subtract(currentPos, ritterCenter, fromPointsScratch)
);
if (oldCenterToPointSquared > radiusSquared) {
const oldCenterToPoint = Math.sqrt(oldCenterToPointSquared);
ritterRadius = (ritterRadius + oldCenterToPoint) * 0.5;
radiusSquared = ritterRadius * ritterRadius;
const oldToNew = oldCenterToPoint - ritterRadius;
ritterCenter.x = (ritterRadius * ritterCenter.x + oldToNew * currentPos.x) / oldCenterToPoint;
ritterCenter.y = (ritterRadius * ritterCenter.y + oldToNew * currentPos.y) / oldCenterToPoint;
ritterCenter.z = (ritterRadius * ritterCenter.z + oldToNew * currentPos.z) / oldCenterToPoint;
}
}
if (ritterRadius < naiveRadius) {
Cartesian3_default.clone(ritterCenter, result.center);
result.radius = ritterRadius;
} else {
Cartesian3_default.clone(naiveCenter, result.center);
result.radius = naiveRadius;
}
return result;
};
BoundingSphere.fromEncodedCartesianVertices = function(positionsHigh, positionsLow, result) {
if (!defined_default(result)) {
result = new BoundingSphere();
}
if (!defined_default(positionsHigh) || !defined_default(positionsLow) || positionsHigh.length !== positionsLow.length || positionsHigh.length === 0) {
result.center = Cartesian3_default.clone(Cartesian3_default.ZERO, result.center);
result.radius = 0;
return result;
}
const currentPos = fromPointsCurrentPos;
currentPos.x = positionsHigh[0] + positionsLow[0];
currentPos.y = positionsHigh[1] + positionsLow[1];
currentPos.z = positionsHigh[2] + positionsLow[2];
const xMin = Cartesian3_default.clone(currentPos, fromPointsXMin);
const yMin = Cartesian3_default.clone(currentPos, fromPointsYMin);
const zMin = Cartesian3_default.clone(currentPos, fromPointsZMin);
const xMax = Cartesian3_default.clone(currentPos, fromPointsXMax);
const yMax = Cartesian3_default.clone(currentPos, fromPointsYMax);
const zMax = Cartesian3_default.clone(currentPos, fromPointsZMax);
const numElements = positionsHigh.length;
let i;
for (i = 0; i < numElements; i += 3) {
const x = positionsHigh[i] + positionsLow[i];
const y = positionsHigh[i + 1] + positionsLow[i + 1];
const z = positionsHigh[i + 2] + positionsLow[i + 2];
currentPos.x = x;
currentPos.y = y;
currentPos.z = z;
if (x < xMin.x) {
Cartesian3_default.clone(currentPos, xMin);
}
if (x > xMax.x) {
Cartesian3_default.clone(currentPos, xMax);
}
if (y < yMin.y) {
Cartesian3_default.clone(currentPos, yMin);
}
if (y > yMax.y) {
Cartesian3_default.clone(currentPos, yMax);
}
if (z < zMin.z) {
Cartesian3_default.clone(currentPos, zMin);
}
if (z > zMax.z) {
Cartesian3_default.clone(currentPos, zMax);
}
}
const xSpan = Cartesian3_default.magnitudeSquared(
Cartesian3_default.subtract(xMax, xMin, fromPointsScratch)
);
const ySpan = Cartesian3_default.magnitudeSquared(
Cartesian3_default.subtract(yMax, yMin, fromPointsScratch)
);
const zSpan = Cartesian3_default.magnitudeSquared(
Cartesian3_default.subtract(zMax, zMin, fromPointsScratch)
);
let diameter1 = xMin;
let diameter2 = xMax;
let maxSpan = xSpan;
if (ySpan > maxSpan) {
maxSpan = ySpan;
diameter1 = yMin;
diameter2 = yMax;
}
if (zSpan > maxSpan) {
maxSpan = zSpan;
diameter1 = zMin;
diameter2 = zMax;
}
const ritterCenter = fromPointsRitterCenter;
ritterCenter.x = (diameter1.x + diameter2.x) * 0.5;
ritterCenter.y = (diameter1.y + diameter2.y) * 0.5;
ritterCenter.z = (diameter1.z + diameter2.z) * 0.5;
let radiusSquared = Cartesian3_default.magnitudeSquared(
Cartesian3_default.subtract(diameter2, ritterCenter, fromPointsScratch)
);
let ritterRadius = Math.sqrt(radiusSquared);
const minBoxPt = fromPointsMinBoxPt;
minBoxPt.x = xMin.x;
minBoxPt.y = yMin.y;
minBoxPt.z = zMin.z;
const maxBoxPt = fromPointsMaxBoxPt;
maxBoxPt.x = xMax.x;
maxBoxPt.y = yMax.y;
maxBoxPt.z = zMax.z;
const naiveCenter = Cartesian3_default.midpoint(
minBoxPt,
maxBoxPt,
fromPointsNaiveCenterScratch
);
let naiveRadius = 0;
for (i = 0; i < numElements; i += 3) {
currentPos.x = positionsHigh[i] + positionsLow[i];
currentPos.y = positionsHigh[i + 1] + positionsLow[i + 1];
currentPos.z = positionsHigh[i + 2] + positionsLow[i + 2];
const r = Cartesian3_default.magnitude(
Cartesian3_default.subtract(currentPos, naiveCenter, fromPointsScratch)
);
if (r > naiveRadius) {
naiveRadius = r;
}
const oldCenterToPointSquared = Cartesian3_default.magnitudeSquared(
Cartesian3_default.subtract(currentPos, ritterCenter, fromPointsScratch)
);
if (oldCenterToPointSquared > radiusSquared) {
const oldCenterToPoint = Math.sqrt(oldCenterToPointSquared);
ritterRadius = (ritterRadius + oldCenterToPoint) * 0.5;
radiusSquared = ritterRadius * ritterRadius;
const oldToNew = oldCenterToPoint - ritterRadius;
ritterCenter.x = (ritterRadius * ritterCenter.x + oldToNew * currentPos.x) / oldCenterToPoint;
ritterCenter.y = (ritterRadius * ritterCenter.y + oldToNew * currentPos.y) / oldCenterToPoint;
ritterCenter.z = (ritterRadius * ritterCenter.z + oldToNew * currentPos.z) / oldCenterToPoint;
}
}
if (ritterRadius < naiveRadius) {
Cartesian3_default.clone(ritterCenter, result.center);
result.radius = ritterRadius;
} else {
Cartesian3_default.clone(naiveCenter, result.center);
result.radius = naiveRadius;
}
return result;
};
BoundingSphere.fromCornerPoints = function(corner, oppositeCorner, result) {
Check_default.typeOf.object("corner", corner);
Check_default.typeOf.object("oppositeCorner", oppositeCorner);
if (!defined_default(result)) {
result = new BoundingSphere();
}
const center = Cartesian3_default.midpoint(corner, oppositeCorner, result.center);
result.radius = Cartesian3_default.distance(center, oppositeCorner);
return result;
};
BoundingSphere.fromEllipsoid = function(ellipsoid, result) {
Check_default.typeOf.object("ellipsoid", ellipsoid);
if (!defined_default(result)) {
result = new BoundingSphere();
}
Cartesian3_default.clone(Cartesian3_default.ZERO, result.center);
result.radius = ellipsoid.maximumRadius;
return result;
};
var fromBoundingSpheresScratch = new Cartesian3_default();
BoundingSphere.fromBoundingSpheres = function(boundingSpheres, result) {
if (!defined_default(result)) {
result = new BoundingSphere();
}
if (!defined_default(boundingSpheres) || boundingSpheres.length === 0) {
result.center = Cartesian3_default.clone(Cartesian3_default.ZERO, result.center);
result.radius = 0;
return result;
}
const length = boundingSpheres.length;
if (length === 1) {
return BoundingSphere.clone(boundingSpheres[0], result);
}
if (length === 2) {
return BoundingSphere.union(boundingSpheres[0], boundingSpheres[1], result);
}
const positions = [];
let i;
for (i = 0; i < length; i++) {
positions.push(boundingSpheres[i].center);
}
result = BoundingSphere.fromPoints(positions, result);
const center = result.center;
let radius = result.radius;
for (i = 0; i < length; i++) {
const tmp = boundingSpheres[i];
radius = Math.max(
radius,
Cartesian3_default.distance(center, tmp.center, fromBoundingSpheresScratch) + tmp.radius
);
}
result.radius = radius;
return result;
};
var fromOrientedBoundingBoxScratchU = new Cartesian3_default();
var fromOrientedBoundingBoxScratchV = new Cartesian3_default();
var fromOrientedBoundingBoxScratchW = new Cartesian3_default();
BoundingSphere.fromOrientedBoundingBox = function(orientedBoundingBox, result) {
Check_default.defined("orientedBoundingBox", orientedBoundingBox);
if (!defined_default(result)) {
result = new BoundingSphere();
}
const halfAxes = orientedBoundingBox.halfAxes;
const u = Matrix3_default.getColumn(halfAxes, 0, fromOrientedBoundingBoxScratchU);
const v = Matrix3_default.getColumn(halfAxes, 1, fromOrientedBoundingBoxScratchV);
const w = Matrix3_default.getColumn(halfAxes, 2, fromOrientedBoundingBoxScratchW);
Cartesian3_default.add(u, v, u);
Cartesian3_default.add(u, w, u);
result.center = Cartesian3_default.clone(orientedBoundingBox.center, result.center);
result.radius = Cartesian3_default.magnitude(u);
return result;
};
var scratchFromTransformationCenter = new Cartesian3_default();
var scratchFromTransformationScale = new Cartesian3_default();
BoundingSphere.fromTransformation = function(transformation, result) {
Check_default.typeOf.object("transformation", transformation);
if (!defined_default(result)) {
result = new BoundingSphere();
}
const center = Matrix4_default.getTranslation(
transformation,
scratchFromTransformationCenter
);
const scale = Matrix4_default.getScale(
transformation,
scratchFromTransformationScale
);
const radius = 0.5 * Cartesian3_default.magnitude(scale);
result.center = Cartesian3_default.clone(center, result.center);
result.radius = radius;
return result;
};
BoundingSphere.clone = function(sphere, result) {
if (!defined_default(sphere)) {
return void 0;
}
if (!defined_default(result)) {
return new BoundingSphere(sphere.center, sphere.radius);
}
result.center = Cartesian3_default.clone(sphere.center, result.center);
result.radius = sphere.radius;
return result;
};
BoundingSphere.packedLength = 4;
BoundingSphere.pack = function(value, array, startingIndex) {
Check_default.typeOf.object("value", value);
Check_default.defined("array", array);
startingIndex = defaultValue_default(startingIndex, 0);
const center = value.center;
array[startingIndex++] = center.x;
array[startingIndex++] = center.y;
array[startingIndex++] = center.z;
array[startingIndex] = value.radius;
return array;
};
BoundingSphere.unpack = function(array, startingIndex, result) {
Check_default.defined("array", array);
startingIndex = defaultValue_default(startingIndex, 0);
if (!defined_default(result)) {
result = new BoundingSphere();
}
const center = result.center;
center.x = array[startingIndex++];
center.y = array[startingIndex++];
center.z = array[startingIndex++];
result.radius = array[startingIndex];
return result;
};
var unionScratch = new Cartesian3_default();
var unionScratchCenter = new Cartesian3_default();
BoundingSphere.union = function(left, right, result) {
Check_default.typeOf.object("left", left);
Check_default.typeOf.object("right", right);
if (!defined_default(result)) {
result = new BoundingSphere();
}
const leftCenter = left.center;
const leftRadius = left.radius;
const rightCenter = right.center;
const rightRadius = right.radius;
const toRightCenter = Cartesian3_default.subtract(
rightCenter,
leftCenter,
unionScratch
);
const centerSeparation = Cartesian3_default.magnitude(toRightCenter);
if (leftRadius >= centerSeparation + rightRadius) {
left.clone(result);
return result;
}
if (rightRadius >= centerSeparation + leftRadius) {
right.clone(result);
return result;
}
const halfDistanceBetweenTangentPoints = (leftRadius + centerSeparation + rightRadius) * 0.5;
const center = Cartesian3_default.multiplyByScalar(
toRightCenter,
(-leftRadius + halfDistanceBetweenTangentPoints) / centerSeparation,
unionScratchCenter
);
Cartesian3_default.add(center, leftCenter, center);
Cartesian3_default.clone(center, result.center);
result.radius = halfDistanceBetweenTangentPoints;
return result;
};
var expandScratch = new Cartesian3_default();
BoundingSphere.expand = function(sphere, point, result) {
Check_default.typeOf.object("sphere", sphere);
Check_default.typeOf.object("point", point);
result = BoundingSphere.clone(sphere, result);
const radius = Cartesian3_default.magnitude(
Cartesian3_default.subtract(point, result.center, expandScratch)
);
if (radius > result.radius) {
result.radius = radius;
}
return result;
};
BoundingSphere.intersectPlane = function(sphere, plane) {
Check_default.typeOf.object("sphere", sphere);
Check_default.typeOf.object("plane", plane);
const center = sphere.center;
const radius = sphere.radius;
const normal = plane.normal;
const distanceToPlane = Cartesian3_default.dot(normal, center) + plane.distance;
if (distanceToPlane < -radius) {
return Intersect_default.OUTSIDE;
} else if (distanceToPlane < radius) {
return Intersect_default.INTERSECTING;
}
return Intersect_default.INSIDE;
};
BoundingSphere.transform = function(sphere, transform, result) {
Check_default.typeOf.object("sphere", sphere);
Check_default.typeOf.object("transform", transform);
if (!defined_default(result)) {
result = new BoundingSphere();
}
result.center = Matrix4_default.multiplyByPoint(
transform,
sphere.center,
result.center
);
result.radius = Matrix4_default.getMaximumScale(transform) * sphere.radius;
return result;
};
var distanceSquaredToScratch = new Cartesian3_default();
BoundingSphere.distanceSquaredTo = function(sphere, cartesian) {
Check_default.typeOf.object("sphere", sphere);
Check_default.typeOf.object("cartesian", cartesian);
const diff = Cartesian3_default.subtract(
sphere.center,
cartesian,
distanceSquaredToScratch
);
const distance = Cartesian3_default.magnitude(diff) - sphere.radius;
if (distance <= 0) {
return 0;
}
return distance * distance;
};
BoundingSphere.transformWithoutScale = function(sphere, transform, result) {
Check_default.typeOf.object("sphere", sphere);
Check_default.typeOf.object("transform", transform);
if (!defined_default(result)) {
result = new BoundingSphere();
}
result.center = Matrix4_default.multiplyByPoint(
transform,
sphere.center,
result.center
);
result.radius = sphere.radius;
return result;
};
var scratchCartesian3 = new Cartesian3_default();
BoundingSphere.computePlaneDistances = function(sphere, position, direction, result) {
Check_default.typeOf.object("sphere", sphere);
Check_default.typeOf.object("position", position);
Check_default.typeOf.object("direction", direction);
if (!defined_default(result)) {
result = new Interval_default();
}
const toCenter = Cartesian3_default.subtract(
sphere.center,
position,
scratchCartesian3
);
const mag = Cartesian3_default.dot(direction, toCenter);
result.start = mag - sphere.radius;
result.stop = mag + sphere.radius;
return result;
};
var projectTo2DNormalScratch = new Cartesian3_default();
var projectTo2DEastScratch = new Cartesian3_default();
var projectTo2DNorthScratch = new Cartesian3_default();
var projectTo2DWestScratch = new Cartesian3_default();
var projectTo2DSouthScratch = new Cartesian3_default();
var projectTo2DCartographicScratch = new Cartographic_default();
var projectTo2DPositionsScratch = new Array(8);
for (let n = 0; n < 8; ++n) {
projectTo2DPositionsScratch[n] = new Cartesian3_default();
}
var projectTo2DProjection = new GeographicProjection_default();
BoundingSphere.projectTo2D = function(sphere, projection, result) {
Check_default.typeOf.object("sphere", sphere);
projection = defaultValue_default(projection, projectTo2DProjection);
const ellipsoid = projection.ellipsoid;
let center = sphere.center;
const radius = sphere.radius;
let normal;
if (Cartesian3_default.equals(center, Cartesian3_default.ZERO)) {
normal = Cartesian3_default.clone(Cartesian3_default.UNIT_X, projectTo2DNormalScratch);
} else {
normal = ellipsoid.geodeticSurfaceNormal(center, projectTo2DNormalScratch);
}
const east = Cartesian3_default.cross(
Cartesian3_default.UNIT_Z,
normal,
projectTo2DEastScratch
);
Cartesian3_default.normalize(east, east);
const north = Cartesian3_default.cross(normal, east, projectTo2DNorthScratch);
Cartesian3_default.normalize(north, north);
Cartesian3_default.multiplyByScalar(normal, radius, normal);
Cartesian3_default.multiplyByScalar(north, radius, north);
Cartesian3_default.multiplyByScalar(east, radius, east);
const south = Cartesian3_default.negate(north, projectTo2DSouthScratch);
const west = Cartesian3_default.negate(east, projectTo2DWestScratch);
const positions = projectTo2DPositionsScratch;
let corner = positions[0];
Cartesian3_default.add(normal, north, corner);
Cartesian3_default.add(corner, east, corner);
corner = positions[1];
Cartesian3_default.add(normal, north, corner);
Cartesian3_default.add(corner, west, corner);
corner = positions[2];
Cartesian3_default.add(normal, south, corner);
Cartesian3_default.add(corner, west, corner);
corner = positions[3];
Cartesian3_default.add(normal, south, corner);
Cartesian3_default.add(corner, east, corner);
Cartesian3_default.negate(normal, normal);
corner = positions[4];
Cartesian3_default.add(normal, north, corner);
Cartesian3_default.add(corner, east, corner);
corner = positions[5];
Cartesian3_default.add(normal, north, corner);
Cartesian3_default.add(corner, west, corner);
corner = positions[6];
Cartesian3_default.add(normal, south, corner);
Cartesian3_default.add(corner, west, corner);
corner = positions[7];
Cartesian3_default.add(normal, south, corner);
Cartesian3_default.add(corner, east, corner);
const length = positions.length;
for (let i = 0; i < length; ++i) {
const position = positions[i];
Cartesian3_default.add(center, position, position);
const cartographic = ellipsoid.cartesianToCartographic(
position,
projectTo2DCartographicScratch
);
projection.project(cartographic, position);
}
result = BoundingSphere.fromPoints(positions, result);
center = result.center;
const x = center.x;
const y = center.y;
const z = center.z;
center.x = z;
center.y = x;
center.z = y;
return result;
};
BoundingSphere.isOccluded = function(sphere, occluder) {
Check_default.typeOf.object("sphere", sphere);
Check_default.typeOf.object("occluder", occluder);
return !occluder.isBoundingSphereVisible(sphere);
};
BoundingSphere.equals = function(left, right) {
return left === right || defined_default(left) && defined_default(right) && Cartesian3_default.equals(left.center, right.center) && left.radius === right.radius;
};
BoundingSphere.prototype.intersectPlane = function(plane) {
return BoundingSphere.intersectPlane(this, plane);
};
BoundingSphere.prototype.distanceSquaredTo = function(cartesian) {
return BoundingSphere.distanceSquaredTo(this, cartesian);
};
BoundingSphere.prototype.computePlaneDistances = function(position, direction, result) {
return BoundingSphere.computePlaneDistances(
this,
position,
direction,
result
);
};
BoundingSphere.prototype.isOccluded = function(occluder) {
return BoundingSphere.isOccluded(this, occluder);
};
BoundingSphere.prototype.equals = function(right) {
return BoundingSphere.equals(this, right);
};
BoundingSphere.prototype.clone = function(result) {
return BoundingSphere.clone(this, result);
};
BoundingSphere.prototype.volume = function() {
const radius = this.radius;
return volumeConstant * radius * radius * radius;
};
var BoundingSphere_default = BoundingSphere;
export {
GeographicProjection_default,
Intersect_default,
Interval_default,
BoundingSphere_default
};