define(["exports","./when-c2e8ef35","./Math-d30358ed","./Cartesian2-e875d9d2","./Transforms-44592b02","./PolylineVolumeGeometryLibrary-6dcd44cb","./PolylinePipeline-3852f7d2"],function(a,o,M,T,d,N,L){"use strict";var e={},O=new T.Cartesian3,p=new T.Cartesian3,m=new T.Cartesian3,g=new T.Cartesian3,R=[new T.Cartesian3,new T.Cartesian3],V=new T.Cartesian3,Q=new T.Cartesian3,U=new T.Cartesian3,G=new T.Cartesian3,I=new T.Cartesian3,q=new T.Cartesian3,j=new T.Cartesian3,k=new T.Cartesian3,F=new T.Cartesian3,H=new T.Cartesian3,c=new d.Quaternion,h=new d.Matrix3;function J(a,e,r,n,t){var i,s=T.Cartesian3.angleBetween(T.Cartesian3.subtract(e,a,O),T.Cartesian3.subtract(r,a,p)),o=n===N.CornerType.BEVELED?1:Math.ceil(s/M.CesiumMath.toRadians(5))+1,C=3*o,l=new Array(C);l[C-3]=r.x,l[C-2]=r.y,l[C-1]=r.z,i=t?d.Matrix3.fromQuaternion(d.Quaternion.fromAxisAngle(T.Cartesian3.negate(a,O),s/o,c),h):d.Matrix3.fromQuaternion(d.Quaternion.fromAxisAngle(a,s/o,c),h);var y=0;e=T.Cartesian3.clone(e,O);for(var u=0;u