2 lines
7.3 KiB
JavaScript
Executable File
2 lines
7.3 KiB
JavaScript
Executable File
define(["./arrayRemoveDuplicates-9b636830","./Transforms-20461479","./Matrix3-81054f0f","./ComponentDatatype-ab629b88","./PolylineVolumeGeometryLibrary-664193d8","./CorridorGeometryLibrary-99cbed9f","./defaultValue-f6d5e6da","./GeometryAttribute-b8117bde","./GeometryAttributes-1e4ddcd2","./GeometryOffsetAttribute-2579b8d2","./IndexDatatype-d3db4e7d","./Math-2ce22ee9","./PolygonPipeline-621b1cb0","./Matrix2-413c4048","./RuntimeError-9b4ce3fb","./combine-0c102d93","./WebGLConstants-7f557f93","./EllipsoidTangentPlane-d430e7d5","./AxisAlignedBoundingBox-2c0751ca","./IntersectionTests-a57eed59","./Plane-6add0ae1","./PolylinePipeline-5ae670bc","./EllipsoidGeodesic-2723ab86","./EllipsoidRhumbLine-77eff028"],(function(e,t,i,r,o,n,s,a,l,u,d,p,f,h,c,y,g,b,m,A,_,E,C,G){"use strict";const T=new i.Cartesian3,P=new i.Cartesian3,v=new i.Cartesian3;function w(e,t){const u=[],p=e.positions,f=e.corners,h=e.endPositions,c=new l.GeometryAttributes;let y,g,b,m=0,A=0,_=0;for(g=0;g<p.length;g+=2)b=p[g].length-3,m+=b,_+=b/3*4,A+=p[g+1].length-3;for(m+=3,A+=3,g=0;g<f.length;g++){y=f[g];const e=f[g].leftPositions;s.defined(e)?(b=e.length,m+=b,_+=b/3*2):(b=f[g].rightPositions.length,A+=b,_+=b/3*2)}const E=s.defined(h);let C;E&&(C=h[0].length-3,m+=C,A+=C,C/=3,_+=4*C);const G=m+A,w=new Float64Array(G);let L,D,x,k,V,N,O=0,H=G-1;const I=C/2,M=d.IndexDatatype.createTypedArray(G/3,_+4);let B=0;if(M[B++]=O/3,M[B++]=(H-2)/3,E){u.push(O/3),N=T,V=P;const e=h[0];for(g=0;g<I;g++)N=i.Cartesian3.fromArray(e,3*(I-1-g),N),V=i.Cartesian3.fromArray(e,3*(I+g),V),n.CorridorGeometryLibrary.addAttribute(w,V,O),n.CorridorGeometryLibrary.addAttribute(w,N,void 0,H),D=O/3,k=D+1,L=(H-2)/3,x=L-1,M[B++]=L,M[B++]=x,M[B++]=D,M[B++]=k,O+=3,H-=3}let S=0,R=p[S++],U=p[S++];for(w.set(R,O),w.set(U,H-U.length+1),b=U.length-3,u.push(O/3,(H-2)/3),g=0;g<b;g+=3)D=O/3,k=D+1,L=(H-2)/3,x=L-1,M[B++]=L,M[B++]=x,M[B++]=D,M[B++]=k,O+=3,H-=3;for(g=0;g<f.length;g++){let e;y=f[g];const r=y.leftPositions,a=y.rightPositions;let l,d=v;if(s.defined(r)){for(H-=3,l=x,u.push(k),e=0;e<r.length/3;e++)d=i.Cartesian3.fromArray(r,3*e,d),M[B++]=l-e-1,M[B++]=l-e,n.CorridorGeometryLibrary.addAttribute(w,d,void 0,H),H-=3;u.push(l-Math.floor(r.length/6)),t===o.CornerType.BEVELED&&u.push((H-2)/3+1),O+=3}else{for(O+=3,l=k,u.push(x),e=0;e<a.length/3;e++)d=i.Cartesian3.fromArray(a,3*e,d),M[B++]=l+e,M[B++]=l+e+1,n.CorridorGeometryLibrary.addAttribute(w,d,O),O+=3;u.push(l+Math.floor(a.length/6)),t===o.CornerType.BEVELED&&u.push(O/3-1),H-=3}for(R=p[S++],U=p[S++],R.splice(0,3),U.splice(U.length-3,3),w.set(R,O),w.set(U,H-U.length+1),b=U.length-3,e=0;e<U.length;e+=3)k=O/3,D=k-1,x=(H-2)/3,L=x+1,M[B++]=L,M[B++]=x,M[B++]=D,M[B++]=k,O+=3,H-=3;O-=3,H+=3,u.push(O/3,(H-2)/3)}if(E){O+=3,H-=3,N=T,V=P;const e=h[1];for(g=0;g<I;g++)N=i.Cartesian3.fromArray(e,3*(C-g-1),N),V=i.Cartesian3.fromArray(e,3*g,V),n.CorridorGeometryLibrary.addAttribute(w,N,void 0,H),n.CorridorGeometryLibrary.addAttribute(w,V,O),k=O/3,D=k-1,x=(H-2)/3,L=x+1,M[B++]=L,M[B++]=x,M[B++]=D,M[B++]=k,O+=3,H-=3;u.push(O/3)}else u.push(O/3,(H-2)/3);return M[B++]=O/3,M[B++]=(H-2)/3,c.position=new a.GeometryAttribute({componentDatatype:r.ComponentDatatype.DOUBLE,componentsPerAttribute:3,values:w}),{attributes:c,indices:M,wallIndices:u}}function L(e){const t=(e=s.defaultValue(e,s.defaultValue.EMPTY_OBJECT)).positions,r=e.width,n=s.defaultValue(e.height,0),a=s.defaultValue(e.extrudedHeight,n);this._positions=t,this._ellipsoid=i.Ellipsoid.clone(s.defaultValue(e.ellipsoid,i.Ellipsoid.WGS84)),this._width=r,this._height=Math.max(n,a),this._extrudedHeight=Math.min(n,a),this._cornerType=s.defaultValue(e.cornerType,o.CornerType.ROUNDED),this._granularity=s.defaultValue(e.granularity,p.CesiumMath.RADIANS_PER_DEGREE),this._offsetAttribute=e.offsetAttribute,this._workerName="createCorridorOutlineGeometry",this.packedLength=1+t.length*i.Cartesian3.packedLength+i.Ellipsoid.packedLength+6}L.pack=function(e,t,r){r=s.defaultValue(r,0);const o=e._positions,n=o.length;t[r++]=n;for(let e=0;e<n;++e,r+=i.Cartesian3.packedLength)i.Cartesian3.pack(o[e],t,r);return i.Ellipsoid.pack(e._ellipsoid,t,r),r+=i.Ellipsoid.packedLength,t[r++]=e._width,t[r++]=e._height,t[r++]=e._extrudedHeight,t[r++]=e._cornerType,t[r++]=e._granularity,t[r]=s.defaultValue(e._offsetAttribute,-1),t};const D=i.Ellipsoid.clone(i.Ellipsoid.UNIT_SPHERE),x={positions:void 0,ellipsoid:D,width:void 0,height:void 0,extrudedHeight:void 0,cornerType:void 0,granularity:void 0,offsetAttribute:void 0};return L.unpack=function(e,t,r){t=s.defaultValue(t,0);const o=e[t++],n=new Array(o);for(let r=0;r<o;++r,t+=i.Cartesian3.packedLength)n[r]=i.Cartesian3.unpack(e,t);const a=i.Ellipsoid.unpack(e,t,D);t+=i.Ellipsoid.packedLength;const l=e[t++],u=e[t++],d=e[t++],p=e[t++],f=e[t++],h=e[t];return s.defined(r)?(r._positions=n,r._ellipsoid=i.Ellipsoid.clone(a,r._ellipsoid),r._width=l,r._height=u,r._extrudedHeight=d,r._cornerType=p,r._granularity=f,r._offsetAttribute=-1===h?void 0:h,r):(x.positions=n,x.width=l,x.height=u,x.extrudedHeight=d,x.cornerType=p,x.granularity=f,x.offsetAttribute=-1===h?void 0:h,new L(x))},L.createGeometry=function(o){let l=o._positions;const h=o._width,c=o._ellipsoid;l=function(e,t){for(let i=0;i<e.length;i++)e[i]=t.scaleToGeodeticSurface(e[i],e[i]);return e}(l,c);const y=e.arrayRemoveDuplicates(l,i.Cartesian3.equalsEpsilon);if(y.length<2||h<=0)return;const g=o._height,b=o._extrudedHeight,m=!p.CesiumMath.equalsEpsilon(g,b,0,p.CesiumMath.EPSILON2),A={ellipsoid:c,positions:y,width:h,cornerType:o._cornerType,granularity:o._granularity,saveAttributes:!1};let _;if(m)A.height=g,A.extrudedHeight=b,A.offsetAttribute=o._offsetAttribute,_=function(e){const t=e.ellipsoid,i=w(n.CorridorGeometryLibrary.computePositions(e),e.cornerType),o=i.wallIndices,l=e.height,p=e.extrudedHeight,h=i.attributes,c=i.indices;let y=h.position.values,g=y.length,b=new Float64Array(g);b.set(y);const m=new Float64Array(2*g);if(y=f.PolygonPipeline.scaleToGeodeticHeight(y,l,t),b=f.PolygonPipeline.scaleToGeodeticHeight(b,p,t),m.set(y),m.set(b,g),h.position.values=m,g/=3,s.defined(e.offsetAttribute)){let t=new Uint8Array(2*g);if(e.offsetAttribute===u.GeometryOffsetAttribute.TOP)t=t.fill(1,0,g);else{const i=e.offsetAttribute===u.GeometryOffsetAttribute.NONE?0:1;t=t.fill(i)}h.applyOffset=new a.GeometryAttribute({componentDatatype:r.ComponentDatatype.UNSIGNED_BYTE,componentsPerAttribute:1,values:t})}let A;const _=c.length,E=d.IndexDatatype.createTypedArray(m.length/3,2*(_+o.length));E.set(c);let C,G,T=_;for(A=0;A<_;A+=2){const e=c[A],t=c[A+1];E[T++]=e+g,E[T++]=t+g}for(A=0;A<o.length;A++)C=o[A],G=C+g,E[T++]=C,E[T++]=G;return{attributes:h,indices:E}}(A);else{if(_=w(n.CorridorGeometryLibrary.computePositions(A),A.cornerType),_.attributes.position.values=f.PolygonPipeline.scaleToGeodeticHeight(_.attributes.position.values,g,c),s.defined(o._offsetAttribute)){const e=_.attributes.position.values.length,t=o._offsetAttribute===u.GeometryOffsetAttribute.NONE?0:1,i=new Uint8Array(e/3).fill(t);_.attributes.applyOffset=new a.GeometryAttribute({componentDatatype:r.ComponentDatatype.UNSIGNED_BYTE,componentsPerAttribute:1,values:i})}}const E=_.attributes,C=t.BoundingSphere.fromVertices(E.position.values,void 0,3);return new a.Geometry({attributes:E,indices:_.indices,primitiveType:a.PrimitiveType.LINES,boundingSphere:C,offsetAttribute:o._offsetAttribute})},function(e,t){return s.defined(t)&&(e=L.unpack(e,t)),e._ellipsoid=i.Ellipsoid.clone(e._ellipsoid),L.createGeometry(e)}}));
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