\section{Extrusions}
\begin{code}
module RSAGL.Modeling.Extrusion
(extrude,
extrudeTube,
extrudePrism)
where
import RSAGL.Math.Curve
import RSAGL.Math.CurveExtras
import RSAGL.Math.Vector
import RSAGL.Math.Affine
import Control.Applicative
import RSAGL.Scene.CoordinateSystems
import RSAGL.Math.Orthagonal
import Data.Maybe
import RSAGL.Types
\end{code}
\subsection{The General Extrusion}
\texttt{extrude} takes a vector or point indicating an orientation, a curve representing the spine of the extrusion, and
a curve representing the loop in the x-y plane.
\begin{code}
extrude :: Curve (Either Point3D Vector3D) -> Curve Point3D -> Curve (Curve Point3D) -> Surface Point3D
extrude upish spine loop = wrapSurface $ transformation <$> (modelLookAt <$> spine <*> (forward <$> Right <$> spine') <*> (up <$> upish)) <*> loop
where spine' = curveDerivative spine
\end{code}
\subsection{Specific Extrusions}
\begin{code}
extrudeTube :: Curve RSdouble -> Curve Point3D -> Surface Point3D
extrudeTube radius spine = extrude upish spine (scale' <$> radius <*> pure circleXY)
where upish = pure $ Right $ fromMaybe (let [a,b] = iterateCurve 2 spine in fst $ orthos $ vectorToFrom a b) $ newellCurve spine
extrudePrism :: Vector3D -> (Point3D,RSdouble) -> (Point3D,RSdouble) -> Curve Point3D -> Surface Point3D
extrudePrism upish (a,ra) (b,rb) c = extrude (pure $ Right $ upish) (linearInterpolation [a,b]) (flip scale' c <$> linearInterpolation [ra,rb])
\end{code}