{-# OPTIONS_HADDOCK ignore-exports #-} module Algebra.Vector where import Algebra.VectorTypes import Control.Applicative import Diagrams.TwoD.Types import Graphics.Gloss.Geometry.Line import GHC.Float import MyPrelude -- |Checks whether the Point is in a given dimension. inRange :: Coord -- ^ X dimension -> Coord -- ^ Y dimension -> PT -- ^ Coordinates -> Bool -- ^ result inRange (xlD, xuD) (ylD, yuD) p = x <= xuD && x >= xlD && y <= yuD && y >= ylD where (x, y) = unp2 p -- |Get the angle between two vectors. getAngle :: Vec -> Vec -> Double getAngle a b = acos . flip (/) (vecLength a * vecLength b) . scalarProd a $ b -- |Get the length of a vector. vecLength :: Vec -> Double vecLength v = sqrt (x^(2 :: Int) + y^(2 :: Int)) where (x, y) = unr2 v -- |Compute the scalar product of two vectors. scalarProd :: Vec -> Vec -> Double scalarProd v1 v2 = a1 * b1 + a2 * b2 where (a1, a2) = unr2 v1 (b1, b2) = unr2 v2 -- |Construct a vector that points to a point from the origin. pt2Vec :: PT -> Vec pt2Vec = r2 . unp2 -- |Give the point which is at the coordinates the vector -- points to from the origin. vec2Pt :: Vec -> PT vec2Pt = p2 . unr2 -- |Construct a vector between two points. vp2 :: PT -- ^ vector origin -> PT -- ^ vector points here -> Vec vp2 a b = pt2Vec b - pt2Vec a -- |Computes the determinant of 3 points. det :: PT -> PT -> PT -> Double det a b c = (bx - ax) * (cy - ay) - (by - ay) * (cx - ax) where (ax, ay) = unp2 a (bx, by) = unp2 b (cx, cy) = unp2 c -- |Get the point where two lines intesect, if any. intersectSeg' :: Segment -> Segment -> Maybe PT intersectSeg' (a, b) (c, d) = glossToPt <$> intersectSegSeg (ptToGloss a) (ptToGloss b) (ptToGloss c) (ptToGloss d) where ptToGloss = (\(x, y) -> (double2Float x, double2Float y)) <$> unp2 glossToPt = p2 . (\(x, y) -> (float2Double x, float2Double y)) -- |Get the orientation of 3 points which can either be -- * clock-wise -- * counter-clock-wise -- * collinear getOrient :: PT -> PT -> PT -> Alignment getOrient a b c = case compare (det a b c) 0 of LT -> CW GT -> CCW EQ -> CL --- |Checks if 3 points a,b,c do not build a clockwise triangle by --- connecting a-b-c. This is done by computing the determinant and --- checking the algebraic sign. notcw :: PT -> PT -> PT -> Bool notcw a b c = case getOrient a b c of CW -> False _ -> True -- |Sort X and Y coordinates lexicographically. sortedXY :: [PT] -> [PT] sortedXY = fmap p2 . sortLex . fmap unp2 -- |Apply a function on the coordinates of a point. onPT :: ((Double, Double) -> (Double, Double)) -> PT -> PT onPT f = p2 . f . unp2 -- |Compare the y-coordinate of two points. ptCmpY :: PT -> PT -> Ordering ptCmpY p1' p2' = compare ((snd . unp2) p1') ((snd . unp2) p2') -- |Compare the x-coordinate of two points. ptCmpX :: PT -> PT -> Ordering ptCmpX p1' p2' = compare ((fst . unp2) p1') ((fst . unp2) p2') posInfPT :: PT posInfPT = p2 (read "Infinity", read "Infinity") negInfPT :: PT negInfPT = p2 (negate . read $ "Infinity", negate . read $ "Infinity")