cga/Algebra/Vector.hs

{-# OPTIONS_HADDOCK ignore-exports #-}
{-# LANGUAGE ViewPatterns #-}

module Algebra.Vector where

import Control.Applicative
import Control.Arrow ((***))
import Data.List (sortBy)
import Diagrams.Coordinates
import Diagrams.TwoD.Types
import Graphics.Gloss.Geometry.Line
import GHC.Float
import MyPrelude


type Vec     = R2
type PT      = P2
type Coord   = (Double, Double)
type Segment = (PT, PT)
type Square  = (Coord, Coord)


data Alignment = CW
               | CCW
               | CL
  deriving (Eq)


-- |Convert two dimensions such as (xmin, xmax) and (ymin, ymax)
-- to proper square coordinates, as in:
-- ((xmin, ymin), (xmax, ymax))
dimToSquare :: (Double, Double) -- ^ x dimension
            -> (Double, Double) -- ^ y dimension
            -> Square           -- ^ square describing those dimensions
dimToSquare (x1, x2) (y1, y2) = ((x1, y1), (x2, y2))


-- |Checks whether the Point is in a given Square.
inRange :: Square -- ^ the square: ((xmin, ymin), (xmax, ymax))
        -> PT     -- ^ Coordinate
        -> Bool   -- ^ result
inRange ((xmin, ymin), (xmax, ymax)) (coords -> x :& y)
  = x >= min xmin xmax
    && x <= max xmin xmax
    && y >= min ymin ymax
    && y <= max ymin ymax


-- |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 (R2 a1 a2) (R2 b1 b2) = a1 * b1 + a2 * b2


-- |Multiply a scalar with a vector.
scalarMul :: Double -> Vec -> Vec
scalarMul d (R2 a b) = R2 (a * d) (b * d)


-- |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 (coords -> ax :& ay) (coords -> bx :& by) (coords -> cx :& cy) =
  (bx - ax) * (cy - ay) - (by - ay) * (cx - ax)


-- |Get the point where two lines intesect, if any.
intersectSeg' :: Segment -> Segment -> Maybe PT
intersectSeg' (a, b) (c, d) =
  glossToPt <$> intersectSegSeg (ptToGloss a)
                                (ptToGloss b)
                                (ptToGloss c)
                                (ptToGloss d)
  where
    ptToGloss = (double2Float *** double2Float) <$> unp2
    glossToPt = p2 . (float2Double *** float2Double)


-- |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


-- |Sort all points according to their X-coordinates only.
sortedX :: [PT] -> [PT]
sortedX xs =
  fmap p2
  . sortBy (\(a1, _) (a2, _) -> compare a1 a2)
  $ fmap unp2 xs


-- |Sort all points according to their Y-coordinates only.
sortedY :: [PT] -> [PT]
sortedY xs =
  fmap p2
  . sortBy (\(_, b1) (_, b2) -> compare b1 b2)
  $ fmap unp2 xs


-- |Apply a function on the coordinates of a point.
onPT :: (Coord -> Coord) -> PT -> PT
onPT f = p2 . f . unp2


-- |Compare the y-coordinate of two points.
ptCmpY :: PT -> PT -> Ordering
ptCmpY (coords -> _ :& y1) (coords -> _ :& y2) =
  compare y1 y2


-- |Compare the x-coordinate of two points.
ptCmpX :: PT -> PT -> Ordering
ptCmpX (coords -> x1 :& _) (coords -> x2 :& _) =
  compare x1 x2


posInfPT :: PT
posInfPT = p2 (read "Infinity", read "Infinity")


negInfPT :: PT
negInfPT = p2 (negate . read $ "Infinity", negate . read $ "Infinity")
Restructure files, add new subsystems 2014-10-07 17:12:07 +00:00			`{-# OPTIONS_HADDOCK ignore-exports #-}`
VEC: use ViewPatterns for pattern matching on P2 2014-12-17 23:31:43 +00:00			`{-# LANGUAGE ViewPatterns #-}`
Restructure files, add new subsystems 2014-10-07 17:12:07 +00:00
Restructure modules 2014-10-10 15:40:08 +00:00			`module Algebra.Vector where`
Restructure files, add new subsystems 2014-10-07 17:12:07 +00:00
POLYINT: first try of polygon intersection algorithm in O(n) 2014-10-24 23:44:13 +00:00			`import Control.Applicative`
VEC: use *** arrow to simplify 2014-12-13 03:05:28 +00:00			`import Control.Arrow ((***))`
VEC: add sortedX and sortedY 2014-11-29 04:08:54 +00:00			`import Data.List (sortBy)`
VEC: use ViewPatterns for pattern matching on P2 2014-12-17 23:31:43 +00:00			`import Diagrams.Coordinates`
Rework vector/point typesystem Don't rely on Data.Vector.V2 and friend anymore, but use the types we have from Diagrams already and enhance them. 2014-10-08 14:31:57 +00:00			`import Diagrams.TwoD.Types`
POLYINT: first try of polygon intersection algorithm in O(n) 2014-10-24 23:44:13 +00:00			`import Graphics.Gloss.Geometry.Line`
			`import GHC.Float`
ALGO: refactor Move sortedXY to Vector.hs, fix shadowing of scanH. Simplified grahamCHSteps by making use of a more generalized scanH function. 2014-10-13 20:06:12 +00:00			`import MyPrelude`
Restructure files, add new subsystems 2014-10-07 17:12:07 +00:00

Merge VectorTypes.hs into Vector.hs 2014-12-03 20:41:00 +00:00			`type Vec = R2`
			`type PT = P2`
			`type Coord = (Double, Double)`
			`type Segment = (PT, PT)`
			`type Square = (Coord, Coord)`


			`data Alignment = CW`
			`\| CCW`
			`\| CL`
			`deriving (Eq)`


VEC: Fix the inRange function It now takes a PROPER square, as in ((xmin, ymin), (xmax, ymax)) instead of ((xmin, xmax), (ymin, ymax)) and also works with negative values. Because the meaning of the arguments has changed, we also had to fix all uses of it. 2014-12-17 02:35:33 +00:00			`-- \|Convert two dimensions such as (xmin, xmax) and (ymin, ymax)`
			`-- to proper square coordinates, as in:`
			`-- ((xmin, ymin), (xmax, ymax))`
			`dimToSquare :: (Double, Double) -- ^ x dimension`
			`-> (Double, Double) -- ^ y dimension`
			`-> Square -- ^ square describing those dimensions`
			`dimToSquare (x1, x2) (y1, y2) = ((x1, y1), (x2, y2))`


			`-- \|Checks whether the Point is in a given Square.`
			`inRange :: Square -- ^ the square: ((xmin, ymin), (xmax, ymax))`
VEC: use the Square type for inRange 2014-11-13 22:04:26 +00:00			`-> PT -- ^ Coordinate`
			`-> Bool -- ^ result`
VEC: use ViewPatterns for pattern matching on P2 2014-12-17 23:31:43 +00:00			`inRange ((xmin, ymin), (xmax, ymax)) (coords -> x :& y)`
VEC: Fix the inRange function It now takes a PROPER square, as in ((xmin, ymin), (xmax, ymax)) instead of ((xmin, xmax), (ymin, ymax)) and also works with negative values. Because the meaning of the arguments has changed, we also had to fix all uses of it. 2014-12-17 02:35:33 +00:00			`= x >= min xmin xmax`
			`&& x <= max xmin xmax`
			`&& y >= min ymin ymax`
			`&& y <= max ymin ymax`
Restructure files, add new subsystems 2014-10-07 17:12:07 +00:00

Fix haddock comment 2014-10-09 01:15:27 +00:00			`-- \|Get the angle between two vectors.`
Rework vector/point typesystem Don't rely on Data.Vector.V2 and friend anymore, but use the types we have from Diagrams already and enhance them. 2014-10-08 14:31:57 +00:00			`getAngle :: Vec -> Vec -> Double`
Improve overall style and indenting 2014-10-09 22:19:05 +00:00			`getAngle a b =`
VEC: improve readability 2014-12-17 23:33:24 +00:00			`acos`
			`. flip (/) (vecLength a * vecLength b)`
			`. scalarProd a`
			`$ b`
Rework vector/point typesystem Don't rely on Data.Vector.V2 and friend anymore, but use the types we have from Diagrams already and enhance them. 2014-10-08 14:31:57 +00:00

			`-- \|Get the length of a vector.`
			`vecLength :: Vec -> Double`
VEC: fix "defaulting... constraint to type Integer" warning 2014-10-13 17:15:09 +00:00			`vecLength v = sqrt (x^(2 :: Int) + y^(2 :: Int))`
Rework vector/point typesystem Don't rely on Data.Vector.V2 and friend anymore, but use the types we have from Diagrams already and enhance them. 2014-10-08 14:31:57 +00:00			`where`
			`(x, y) = unr2 v`


			`-- \|Compute the scalar product of two vectors.`
			`scalarProd :: Vec -> Vec -> Double`
VEC: simplify scalarProd 2014-12-17 18:36:40 +00:00			`scalarProd (R2 a1 a2) (R2 b1 b2) = a1 * b1 + a2 * b2`
Rework vector/point typesystem Don't rely on Data.Vector.V2 and friend anymore, but use the types we have from Diagrams already and enhance them. 2014-10-08 14:31:57 +00:00

VEC: move scalarMul from Test/Vector.hs to Algebra/Vector.hs 2014-12-17 18:41:15 +00:00			`-- \|Multiply a scalar with a vector.`
			`scalarMul :: Double -> Vec -> Vec`
			`scalarMul d (R2 a b) = R2 (a * d) (b * d)`


Rework vector/point typesystem Don't rely on Data.Vector.V2 and friend anymore, but use the types we have from Diagrams already and enhance them. 2014-10-08 14:31:57 +00:00			`-- \|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`
VEC: style 2014-10-13 17:14:25 +00:00			`vp2 a b = pt2Vec b - pt2Vec a`
Rework vector/point typesystem Don't rely on Data.Vector.V2 and friend anymore, but use the types we have from Diagrams already and enhance them. 2014-10-08 14:31:57 +00:00

ALGO: Improve readability by introducing notcw 2014-10-12 18:37:24 +00:00			`-- \|Computes the determinant of 3 points.`
			`det :: PT -> PT -> PT -> Double`
VEC: use ViewPatterns for pattern matching on P2 2014-12-17 23:31:43 +00:00			`det (coords -> ax :& ay) (coords -> bx :& by) (coords -> cx :& cy) =`
			`(bx - ax) * (cy - ay) - (by - ay) * (cx - ax)`
ALGO: Improve readability by introducing notcw 2014-10-12 18:37:24 +00:00

POLYINT: first try of polygon intersection algorithm in O(n) 2014-10-24 23:44:13 +00:00			`-- \|Get the point where two lines intesect, if any.`
			`intersectSeg' :: Segment -> Segment -> Maybe PT`
			`intersectSeg' (a, b) (c, d) =`
			`glossToPt <$> intersectSegSeg (ptToGloss a)`
			`(ptToGloss b)`
			`(ptToGloss c)`
			`(ptToGloss d)`
			`where`
VEC: use *** arrow to simplify 2014-12-13 03:05:28 +00:00			`ptToGloss = (double2Float *** double2Float) <$> unp2`
			`glossToPt = p2 . (float2Double *** float2Double)`
POLYINT: first try of polygon intersection algorithm in O(n) 2014-10-24 23:44:13 +00:00

ALGO: Improve readability by introducing notcw 2014-10-12 18:37:24 +00:00			`-- \|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`
VEC: fix orientation, it was swapped 2014-10-13 00:30:11 +00:00			`LT -> CW`
			`GT -> CCW`
ALGO: Improve readability by introducing notcw 2014-10-12 18:37:24 +00:00			`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`
ALGO: refactor Move sortedXY to Vector.hs, fix shadowing of scanH. Simplified grahamCHSteps by making use of a more generalized scanH function. 2014-10-13 20:06:12 +00:00

			`-- \|Sort X and Y coordinates lexicographically.`
			`sortedXY :: [PT] -> [PT]`
			`sortedXY = fmap p2 . sortLex . fmap unp2`
POLYINT: first try of polygon intersection algorithm in O(n) 2014-10-24 23:44:13 +00:00

VEC: add sortedX and sortedY 2014-11-29 04:08:54 +00:00			`-- \|Sort all points according to their X-coordinates only.`
			`sortedX :: [PT] -> [PT]`
			`sortedX xs =`
			`fmap p2`
			`. sortBy (\(a1, _) (a2, _) -> compare a1 a2)`
			`$ fmap unp2 xs`


			`-- \|Sort all points according to their Y-coordinates only.`
			`sortedY :: [PT] -> [PT]`
			`sortedY xs =`
			`fmap p2`
			`. sortBy (\(_, b1) (_, b2) -> compare b1 b2)`
			`$ fmap unp2 xs`


POLYINT: first try of polygon intersection algorithm in O(n) 2014-10-24 23:44:13 +00:00			`-- \|Apply a function on the coordinates of a point.`
VEC: simplify type signature of onPT 2014-12-14 17:02:09 +00:00			`onPT :: (Coord -> Coord) -> PT -> PT`
POLYINT: first try of polygon intersection algorithm in O(n) 2014-10-24 23:44:13 +00:00			`onPT f = p2 . f . unp2`


			`-- \|Compare the y-coordinate of two points.`
			`ptCmpY :: PT -> PT -> Ordering`
VEC: use ViewPatterns for pattern matching on P2 2014-12-17 23:31:43 +00:00			`ptCmpY (coords -> _ :& y1) (coords -> _ :& y2) =`
			`compare y1 y2`
POLYINT: first try of polygon intersection algorithm in O(n) 2014-10-24 23:44:13 +00:00

VEC: fix haddock doc 2014-10-25 12:50:09 +00:00			`-- \|Compare the x-coordinate of two points.`
POLYINT: first try of polygon intersection algorithm in O(n) 2014-10-24 23:44:13 +00:00			`ptCmpX :: PT -> PT -> Ordering`
VEC: use ViewPatterns for pattern matching on P2 2014-12-17 23:31:43 +00:00			`ptCmpX (coords -> x1 :& _) (coords -> x2 :& _) =`
			`compare x1 x2`
POLYINT: first try of polygon intersection algorithm in O(n) 2014-10-24 23:44:13 +00:00

			`posInfPT :: PT`
			`posInfPT = p2 (read "Infinity", read "Infinity")`


			`negInfPT :: PT`
			`negInfPT = p2 (negate . read $ "Infinity", negate . read $ "Infinity")`