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- define(["./defaultValue-f6d5e6da","./Matrix3-b2351961","./ArcType-26a3f38d","./Transforms-c34ae887","./Color-af92f2d9","./ComponentDatatype-ab629b88","./GeometryAttribute-d91450b3","./GeometryAttributes-1e4ddcd2","./IndexDatatype-a9b1bc18","./Math-355606c6","./PolylinePipeline-059f0395","./Matrix2-7a8e9daf","./RuntimeError-9b4ce3fb","./combine-0c102d93","./WebGLConstants-7f557f93","./EllipsoidGeodesic-20aaff03","./EllipsoidRhumbLine-1289f7e8","./IntersectionTests-4dc8e906","./Plane-5931b53e"],(function(e,o,t,l,r,n,i,a,s,p,c,y,d,u,f,h,C,g,T){"use strict";function m(e,o,t,l,n,i,a){const s=c.PolylinePipeline.numberOfPoints(e,o,n);let p;const y=t.red,d=t.green,u=t.blue,f=t.alpha,h=l.red,C=l.green,g=l.blue,T=l.alpha;if(r.Color.equals(t,l)){for(p=0;p<s;p++)i[a++]=r.Color.floatToByte(y),i[a++]=r.Color.floatToByte(d),i[a++]=r.Color.floatToByte(u),i[a++]=r.Color.floatToByte(f);return a}const m=(h-y)/s,P=(C-d)/s,_=(g-u)/s,A=(T-f)/s;let B=a;for(p=0;p<s;p++)i[B++]=r.Color.floatToByte(y+p*m),i[B++]=r.Color.floatToByte(d+p*P),i[B++]=r.Color.floatToByte(u+p*_),i[B++]=r.Color.floatToByte(f+p*A);return B}function P(l){const n=(l=e.defaultValue(l,e.defaultValue.EMPTY_OBJECT)).positions,i=l.colors,a=e.defaultValue(l.colorsPerVertex,!1);this._positions=n,this._colors=i,this._colorsPerVertex=a,this._arcType=e.defaultValue(l.arcType,t.ArcType.GEODESIC),this._granularity=e.defaultValue(l.granularity,p.CesiumMath.RADIANS_PER_DEGREE),this._ellipsoid=e.defaultValue(l.ellipsoid,o.Ellipsoid.WGS84),this._workerName="createSimplePolylineGeometry";let s=1+n.length*o.Cartesian3.packedLength;s+=e.defined(i)?1+i.length*r.Color.packedLength:1,this.packedLength=s+o.Ellipsoid.packedLength+3}P.pack=function(t,l,n){let i;n=e.defaultValue(n,0);const a=t._positions;let s=a.length;for(l[n++]=s,i=0;i<s;++i,n+=o.Cartesian3.packedLength)o.Cartesian3.pack(a[i],l,n);const p=t._colors;for(s=e.defined(p)?p.length:0,l[n++]=s,i=0;i<s;++i,n+=r.Color.packedLength)r.Color.pack(p[i],l,n);return o.Ellipsoid.pack(t._ellipsoid,l,n),n+=o.Ellipsoid.packedLength,l[n++]=t._colorsPerVertex?1:0,l[n++]=t._arcType,l[n]=t._granularity,l},P.unpack=function(t,l,n){let i;l=e.defaultValue(l,0);let a=t[l++];const s=new Array(a);for(i=0;i<a;++i,l+=o.Cartesian3.packedLength)s[i]=o.Cartesian3.unpack(t,l);a=t[l++];const p=a>0?new Array(a):void 0;for(i=0;i<a;++i,l+=r.Color.packedLength)p[i]=r.Color.unpack(t,l);const c=o.Ellipsoid.unpack(t,l);l+=o.Ellipsoid.packedLength;const y=1===t[l++],d=t[l++],u=t[l];return e.defined(n)?(n._positions=s,n._colors=p,n._ellipsoid=c,n._colorsPerVertex=y,n._arcType=d,n._granularity=u,n):new P({positions:s,colors:p,ellipsoid:c,colorsPerVertex:y,arcType:d,granularity:u})};const _=new Array(2),A=new Array(2),B={positions:_,height:A,ellipsoid:void 0,minDistance:void 0,granularity:void 0};return P.createGeometry=function(y){const d=y._positions,u=y._colors,f=y._colorsPerVertex,h=y._arcType,C=y._granularity,g=y._ellipsoid,T=p.CesiumMath.chordLength(C,g.maximumRadius),P=e.defined(u)&&!f;let E;const b=d.length;let k,D,G,L,w=0;if(h===t.ArcType.GEODESIC||h===t.ArcType.RHUMB){let o,l,n;h===t.ArcType.GEODESIC?(o=p.CesiumMath.chordLength(C,g.maximumRadius),l=c.PolylinePipeline.numberOfPoints,n=c.PolylinePipeline.generateArc):(o=C,l=c.PolylinePipeline.numberOfPointsRhumbLine,n=c.PolylinePipeline.generateRhumbArc);const i=c.PolylinePipeline.extractHeights(d,g),a=B;if(h===t.ArcType.GEODESIC?a.minDistance=T:a.granularity=C,a.ellipsoid=g,P){let t=0;for(E=0;E<b-1;E++)t+=l(d[E],d[E+1],o)+1;k=new Float64Array(3*t),G=new Uint8Array(4*t),a.positions=_,a.height=A;let s=0;for(E=0;E<b-1;++E){_[0]=d[E],_[1]=d[E+1],A[0]=i[E],A[1]=i[E+1];const o=n(a);if(e.defined(u)){const e=o.length/3;L=u[E];for(let o=0;o<e;++o)G[s++]=r.Color.floatToByte(L.red),G[s++]=r.Color.floatToByte(L.green),G[s++]=r.Color.floatToByte(L.blue),G[s++]=r.Color.floatToByte(L.alpha)}k.set(o,w),w+=o.length}}else if(a.positions=d,a.height=i,k=new Float64Array(n(a)),e.defined(u)){for(G=new Uint8Array(k.length/3*4),E=0;E<b-1;++E){w=m(d[E],d[E+1],u[E],u[E+1],T,G,w)}const e=u[b-1];G[w++]=r.Color.floatToByte(e.red),G[w++]=r.Color.floatToByte(e.green),G[w++]=r.Color.floatToByte(e.blue),G[w++]=r.Color.floatToByte(e.alpha)}}else{D=P?2*b-2:b,k=new Float64Array(3*D),G=e.defined(u)?new Uint8Array(4*D):void 0;let t=0,l=0;for(E=0;E<b;++E){const n=d[E];if(P&&E>0&&(o.Cartesian3.pack(n,k,t),t+=3,L=u[E-1],G[l++]=r.Color.floatToByte(L.red),G[l++]=r.Color.floatToByte(L.green),G[l++]=r.Color.floatToByte(L.blue),G[l++]=r.Color.floatToByte(L.alpha)),P&&E===b-1)break;o.Cartesian3.pack(n,k,t),t+=3,e.defined(u)&&(L=u[E],G[l++]=r.Color.floatToByte(L.red),G[l++]=r.Color.floatToByte(L.green),G[l++]=r.Color.floatToByte(L.blue),G[l++]=r.Color.floatToByte(L.alpha))}}const V=new a.GeometryAttributes;V.position=new i.GeometryAttribute({componentDatatype:n.ComponentDatatype.DOUBLE,componentsPerAttribute:3,values:k}),e.defined(u)&&(V.color=new i.GeometryAttribute({componentDatatype:n.ComponentDatatype.UNSIGNED_BYTE,componentsPerAttribute:4,values:G,normalize:!0})),D=k.length/3;const x=2*(D-1),S=s.IndexDatatype.createTypedArray(D,x);let I=0;for(E=0;E<D-1;++E)S[I++]=E,S[I++]=E+1;return new i.Geometry({attributes:V,indices:S,primitiveType:i.PrimitiveType.LINES,boundingSphere:l.BoundingSphere.fromPoints(d)})},function(t,l){return e.defined(l)&&(t=P.unpack(t,l)),t._ellipsoid=o.Ellipsoid.clone(t._ellipsoid),P.createGeometry(t)}}));
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