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- /**
- * @license
- * Cesium - https://github.com/CesiumGS/cesium
- * Version 1.99
- *
- * 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.
- */
- define(["./AttributeCompression-5b18be52","./Matrix3-edb29a7e","./Color-bda3e761","./defaultValue-135942ca","./IndexDatatype-3a8ea78f","./Math-a304e2d6","./OrientedBoundingBox-3ab8a09c","./Matrix2-7a2bab7e","./createTaskProcessorWorker","./ComponentDatatype-e86a9f87","./WebGLConstants-fcb70ee3","./Transforms-3ea76111","./combine-462d91dd","./RuntimeError-f0dada00","./EllipsoidTangentPlane-46a19c1a","./AxisAlignedBoundingBox-5f8053d3","./IntersectionTests-f3382f21","./Plane-5bea24eb"],(function(e,t,n,a,r,o,i,s,c,f,d,l,u,h,g,p,b,m){"use strict";const y=new t.Cartesian3,C=new t.Ellipsoid,I=new s.Rectangle,x={min:void 0,max:void 0,indexBytesPerElement:void 0};function w(e,t,a){const r=t.length,o=2+r*i.OrientedBoundingBox.packedLength+1+function(e){const t=e.length;let a=0;for(let r=0;r<t;++r)a+=n.Color.packedLength+3+e[r].batchIds.length;return a}(a),s=new Float64Array(o);let c=0;s[c++]=e,s[c++]=r;for(let e=0;e<r;++e)i.OrientedBoundingBox.pack(t[e],s,c),c+=i.OrientedBoundingBox.packedLength;const f=a.length;s[c++]=f;for(let e=0;e<f;++e){const t=a[e];n.Color.pack(t.color,s,c),c+=n.Color.packedLength,s[c++]=t.offset,s[c++]=t.count;const r=t.batchIds,o=r.length;s[c++]=o;for(let e=0;e<o;++e)s[c++]=r[e]}return s}const A=new t.Cartesian3,E=new t.Cartesian3,N=new t.Cartesian3,T=new t.Cartesian3,B=new t.Cartesian3,k=new t.Cartographic,L=new s.Rectangle;return c((function(c,f){let d;!function(e){const n=new Float64Array(e);let a=0;x.indexBytesPerElement=n[a++],x.min=n[a++],x.max=n[a++],t.Cartesian3.unpack(n,a,y),a+=t.Cartesian3.packedLength,t.Ellipsoid.unpack(n,a,C),a+=t.Ellipsoid.packedLength,s.Rectangle.unpack(n,a,I)}(c.packedBuffer),d=2===x.indexBytesPerElement?new Uint16Array(c.indices):new Uint32Array(c.indices);const l=new Uint16Array(c.positions),u=new Uint32Array(c.counts),h=new Uint32Array(c.indexCounts),g=new Uint32Array(c.batchIds),p=new Uint32Array(c.batchTableColors),b=new Array(u.length),m=y,O=C;let U=I;const P=x.min,F=x.max;let M,S,D,R=c.minimumHeights,_=c.maximumHeights;a.defined(R)&&a.defined(_)&&(R=new Float32Array(R),_=new Float32Array(_));const G=l.length/2,V=l.subarray(0,G),Y=l.subarray(G,2*G);e.AttributeCompression.zigZagDeltaDecode(V,Y);const v=new Float64Array(3*G);for(M=0;M<G;++M){const e=V[M],n=Y[M],a=o.CesiumMath.lerp(U.west,U.east,e/32767),r=o.CesiumMath.lerp(U.south,U.north,n/32767),i=t.Cartographic.fromRadians(a,r,0,k),s=O.cartographicToCartesian(i,A);t.Cartesian3.pack(s,v,3*M)}const H=u.length,W=new Array(H),z=new Array(H);let Z=0,j=0;for(M=0;M<H;++M)W[M]=Z,z[M]=j,Z+=u[M],j+=h[M];const q=new Float32Array(3*G*2),J=new Uint16Array(2*G),K=new Uint32Array(z.length),Q=new Uint32Array(h.length);let X=[];const $={};for(M=0;M<H;++M)D=p[M],a.defined($[D])?($[D].positionLength+=u[M],$[D].indexLength+=h[M],$[D].batchIds.push(M)):$[D]={positionLength:u[M],indexLength:h[M],offset:0,indexOffset:0,batchIds:[M]};let ee,te=0,ne=0;for(D in $)if($.hasOwnProperty(D)){ee=$[D],ee.offset=te,ee.indexOffset=ne;const e=2*ee.positionLength,t=2*ee.indexLength+6*ee.positionLength;te+=e,ne+=t,ee.indexLength=t}const ae=[];for(D in $)$.hasOwnProperty(D)&&(ee=$[D],ae.push({color:n.Color.fromRgba(parseInt(D)),offset:ee.indexOffset,count:ee.indexLength,batchIds:ee.batchIds}));for(M=0;M<H;++M){D=p[M],ee=$[D];const e=ee.offset;let n=3*e,r=e;const o=W[M],s=u[M],c=g[M];let f=P,l=F;a.defined(R)&&a.defined(_)&&(f=R[M],l=_[M]);let y=Number.POSITIVE_INFINITY,C=Number.NEGATIVE_INFINITY,I=Number.POSITIVE_INFINITY,x=Number.NEGATIVE_INFINITY;for(S=0;S<s;++S){const e=t.Cartesian3.unpack(v,3*o+3*S,A);O.scaleToGeodeticSurface(e,e);const a=O.cartesianToCartographic(e,k),i=a.latitude,s=a.longitude;y=Math.min(i,y),C=Math.max(i,C),I=Math.min(s,I),x=Math.max(s,x);const d=O.geodeticSurfaceNormal(e,E);let u=t.Cartesian3.multiplyByScalar(d,f,N);const h=t.Cartesian3.add(e,u,T);u=t.Cartesian3.multiplyByScalar(d,l,u);const g=t.Cartesian3.add(e,u,B);t.Cartesian3.subtract(g,m,g),t.Cartesian3.subtract(h,m,h),t.Cartesian3.pack(g,q,n),t.Cartesian3.pack(h,q,n+3),J[r]=c,J[r+1]=c,n+=6,r+=2}U=L,U.west=I,U.east=x,U.south=y,U.north=C,b[M]=i.OrientedBoundingBox.fromRectangle(U,P,F,O);let w=ee.indexOffset;const G=z[M],V=h[M];for(K[M]=w,S=0;S<V;S+=3){const t=d[G+S]-o,n=d[G+S+1]-o,a=d[G+S+2]-o;X[w++]=2*t+e,X[w++]=2*n+e,X[w++]=2*a+e,X[w++]=2*a+1+e,X[w++]=2*n+1+e,X[w++]=2*t+1+e}for(S=0;S<s;++S){const t=S,n=(S+1)%s;X[w++]=2*t+1+e,X[w++]=2*n+e,X[w++]=2*t+e,X[w++]=2*t+1+e,X[w++]=2*n+1+e,X[w++]=2*n+e}ee.offset+=2*s,ee.indexOffset=w,Q[M]=w-K[M]}X=r.IndexDatatype.createTypedArray(q.length/3,X);const re=ae.length;for(let e=0;e<re;++e){const t=ae[e].batchIds;let n=0;const a=t.length;for(let e=0;e<a;++e)n+=Q[t[e]];ae[e].count=n}const oe=w(2===X.BYTES_PER_ELEMENT?r.IndexDatatype.UNSIGNED_SHORT:r.IndexDatatype.UNSIGNED_INT,b,ae);return f.push(q.buffer,X.buffer,K.buffer,Q.buffer,J.buffer,oe.buffer),{positions:q.buffer,indices:X.buffer,indexOffsets:K.buffer,indexCounts:Q.buffer,batchIds:J.buffer,packedBuffer:oe.buffer}}))}));
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