{-# LANGUAGE FlexibleContexts #-} {-# LANGUAGE FlexibleInstances #-} {-# LANGUAGE MultiParamTypeClasses #-} {-# LANGUAGE TypeFamilies #-} {-# LANGUAGE TypeSynonymInstances #-} ----------------------------------------------------------------------------- -- | -- Module : Diagrams.TwoD.Path.Turtle -- Copyright : (c) 2011 Michael Sloan -- License : BSD-style (see LICENSE) -- Maintainer : Michael Sloan , Deepak Jois -- Authors : Michael Sloan , Deepak Jois -- -- A module consisting of core types and functions to represent and operate on -- a \"turtle\". -- -- More info about turtle graphics: -- -- ----------------------------------------------------------------------------- module Diagrams.TwoD.Path.Turtle.Internal ( -- * Turtle data types and accessors TurtleState(..), TurtlePath(..), PenStyle(..) -- * Motion commands , forward, backward, left, right -- * Pen style commands , setPenColor, setPenColour, setPenWidth -- * State setters , startTurtle, setHeading, towards , setPenPos -- * Drawing control , penUp, penDown, penHop, closeCurrent -- * Debugging , traceTurtle -- * Diagram related , getTurtleDiagram , getTurtlePath ) where import Debug.Trace (traceShow) import Diagrams.Prelude -- | Style attributes associated with the turtle pen data PenStyle n = PenStyle { penWidth :: n -- ^ Width of pen. Default is 1.0 , penColor :: Colour Double -- ^ Color of pen. Default is @black@ } deriving Show -- | Turtle path type that captures a list of paths and the style attributes -- associated with them data TurtlePath n = TurtlePath { penStyle :: PenStyle n -- ^ Style , turtleTrail :: Located (Trail V2 n) -- ^ Path } deriving Show -- | Core turtle data type. A turtle needs to keep track of its current -- position, like its position, heading etc., and all the paths that it has -- traversed so far. -- -- We need to record a new path, everytime an attribute like style, pen position -- etc changes, so that we can separately track styles for each portion of the -- eventual path that the turtle took. data TurtleState n = TurtleState { -- | State of the pen. @False@ means that turtle movements will not draw -- anything isPenDown :: Bool -- | Current position. This is updated everytime the turtle moves , penPos :: P2 n -- | Orientation of the turtle in 2D space, given in degrees , heading :: Angle n -- | Path traversed by the turtle so far, without any style or pen -- attributes changing , currTrail :: Located (Trail' Line V2 n) -- | Current style of the pen , currPenStyle :: PenStyle n -- | List of paths along with style information, traversed by the turtle -- previously , paths :: [TurtlePath n] } deriving Show -- | Default pen style, with @penWidth@ set to 1.0 and @penColor@ set to black defaultPenStyle :: Fractional n => PenStyle n defaultPenStyle = PenStyle 1.0 black -- | The initial state of turtle. The turtle is located at the origin, at an -- orientation of 0 degrees with its pen position down. The pen style is -- @defaultPenStyle@. startTurtle :: (Floating n, Ord n) => TurtleState n startTurtle = TurtleState True origin zero (mempty `at` origin) defaultPenStyle [] -- | Draw a segment along the turtle’s path and update its position. If the pen -- is up, only the position is updated. moveTurtle :: (Floating n, Ord n) => Segment Closed V2 n -- ^ Segment representing the path to travel -> TurtleState n -- ^ Turtle to move -> TurtleState n -- ^ Resulting turtle moveTurtle s t@(TurtleState pd pos h tr _ _) = if pd -- Add segment to current trail and update position then t { currTrail = newTrail , penPos = newPenPos } -- Update position only else t { penPos = newPenPos } where -- Rotate segment by orientation before adding to trail rotatedSeg = rotate h s newTrail = mapLoc (<> fromSegments [rotatedSeg]) tr -- Calculate the new position along the segment newPenPos = pos .+^ segOffset rotatedSeg -- | Move the turtle forward by @x@ units forward :: (Floating n, Ord n) => n -- ^ Distance to move -> TurtleState n -- ^ Turtle to move -> TurtleState n -- ^ Resulting turtle forward x = moveTurtle (straight $ r2 (x,0)) -- | Move the turtle backward by @x@ units backward :: (Floating n, Ord n) => n -- ^ Distance to move -> TurtleState n -- ^ Turtle to move -> TurtleState n -- ^ Resulting turtle backward x = moveTurtle (straight $ r2 (negate x, 0)) -- | Turn the turtle by applying the given function to its current orientation -- (in degrees) turnTurtle :: (Floating n, Ord n) => (Angle n -> Angle n) -- ^ Transformation to apply on current orientation -> TurtleState n -- ^ Turtle to turn -> TurtleState n -- ^ Resulting turtle turnTurtle f t@(TurtleState _ _ h _ _ _) = t { heading = f h } -- | Turn the turtle anti-clockwise (left) left :: (Floating n, Ord n) => n -- ^ Degree of turn -> TurtleState n -- ^ Turtle to turn -> TurtleState n -- ^ Resulting turtle left d = turnTurtle (^+^ (d @@ deg)) -- | Turn the turtle clockwise (right) right :: (Floating n, Ord n) => n -- ^ Degree of turn -> TurtleState n -- ^ Turtle to turn -> TurtleState n -- ^ Resulting turtle right d = turnTurtle (^-^ (d @@ deg)) -- | Turn the turtle to the given orientation, in degrees setHeading :: (Floating n, Ord n) => n -- ^ Degree of orientation -> TurtleState n -- ^ Turtle to orient -> TurtleState n -- ^ Resulting turtle setHeading d = turnTurtle (const $ d @@ deg) -- | Sets the turtle orientation towards a given location. towards :: RealFloat n => P2 n -- ^ Point to orient turtle towards -> TurtleState n -- ^ Turtle to orient -> TurtleState n -- ^ Resulting turtle towards p = setHeading =<< (360 *) . (/ tau) . uncurry atan2 . unr2 . (p .-.) . penPos -- | Puts the turtle pen in “Up” mode. Turtle movements will not draw anything -- -- Does nothing if the pen was already up. Otherwise, it creates a turtle with -- the current trail added to @paths@. penUp :: (Ord n, Floating n) => TurtleState n -- ^ Turtle to modify -> TurtleState n -- ^ Resulting turtle penUp t | isPenDown t = t # makeNewTrail # \t' -> t' { isPenDown = False } | otherwise = t -- | Puts the turtle pen in “Down” mode. Turtle movements will cause drawing to -- happen -- -- Does nothing if the pen was already down. Otherwise, starts a new trail -- starting at the current position. penDown :: (Ord n, Floating n) => TurtleState n -- ^ Turtle to modify -> TurtleState n -- ^ Resulting turtle penDown t | isPenDown t = t | otherwise = t # makeNewTrail # \t' -> t' { isPenDown = True } -- Start a new trail at current position penHop :: (Ord n, Floating n) => TurtleState n -> TurtleState n penHop t = t # makeNewTrail -- Closes the current path, to the starting position of the current -- trail. Has no effect when the pen is up. closeCurrent :: (Floating n, Ord n) => TurtleState n -> TurtleState n closeCurrent t | isPenDown t = t # closeTTrail | otherwise = t where startPos = loc . currTrail $ t closeTTrail t' = t' { penPos = startPos , currTrail = mempty `at` startPos , paths = addTrailToPath t' (mapLoc (wrapTrail . closeLine) $ currTrail t) } -- | Set the turtle X/Y position. -- -- If pen is down and the current trail is non-empty, this will also add the -- current trail to the @paths@ field. setPenPos :: (Ord n, Floating n) => P2 n -- ^ Position to place true -> TurtleState n -- ^ Turtle to position -> TurtleState n -- ^ Resulting turtle setPenPos newPos t = t {penPos = newPos } # makeNewTrail -- | Set a new pen width for turtle. -- -- If pen is down, this adds the current trail to @paths@ and starts a new empty -- trail. setPenWidth :: (Ord n, Floating n) => n -- ^ Width of Pen -> TurtleState n -- ^ Turtle to change -> TurtleState n -- ^ Resulting Turtle setPenWidth w = modifyCurrStyle (\s -> s { penWidth = w }) -- | Set a new pen color for turtle. -- -- If pen is down, this adds the current trail to @paths@ and starts a new empty -- trail. setPenColour :: (Ord n, Floating n) => Colour Double -- ^ Width of Pen -> TurtleState n -- ^ Turtle to change -> TurtleState n -- ^ Resulting Turtle setPenColour c = modifyCurrStyle (\s -> s { penColor = c }) -- | alias of @setPenColour@ setPenColor :: (Ord n, Floating n) => Colour Double -- ^ Width of Pen -> TurtleState n -- ^ Turtle to change -> TurtleState n -- ^ Resulting Turtle setPenColor = setPenColour -- | Creates a diagram from a turtle -- -- Applies the styles to each trails in @paths@ separately and combines them -- into a single diagram getTurtleDiagram :: (Renderable (Path V2 n) b, TypeableFloat n) => TurtleState n -> QDiagram b V2 n Any getTurtleDiagram t = mconcat . map turtlePathToStroke . paths $ t # penUp -- Do a penUp to add @currTrail@ to @paths@ -- | Creates a path from a turtle, ignoring the styles. getTurtlePath :: (Floating n, Ord n) => TurtleState n -> Path V2 n getTurtlePath = mconcat . map turtlePathToTrailLike . paths . penUp -- * Helper functions -- Makes a "TurtlePath" from a "Turtle"’s @currTrail@ field makeTurtlePath :: TurtleState n -> Located (Trail V2 n) -> TurtlePath n makeTurtlePath t tr = TurtlePath (currPenStyle t) tr -- Returns a list of paths, with current trail added to a "Turtle"’s @paths@ field addTrailToPath :: (Ord n, Floating n) => TurtleState n -> Located (Trail V2 n) -> [TurtlePath n] addTrailToPath t tr | isTrailEmpty (unLoc tr) = paths t | otherwise = makeTurtlePath t tr : paths t -- Starts a new trail and adds current trail to path makeNewTrail :: (Ord n, Floating n) => TurtleState n -> TurtleState n makeNewTrail t = t { currTrail = mempty `at` penPos t , paths = addTrailToPath t (mapLoc wrapTrail (currTrail t)) } -- Modifies the current style after starting a new trail modifyCurrStyle :: (Floating n, Ord n) => (PenStyle n -> PenStyle n) -> TurtleState n -> TurtleState n modifyCurrStyle f t = t # makeNewTrail # \t' -> t' { currPenStyle = (f . currPenStyle) t' } -- Creates any TrailLike from a TurtlePath. turtlePathToTrailLike :: (V t ~ V2, N t ~ n, TrailLike t) => TurtlePath n -> t turtlePathToTrailLike (TurtlePath _ t) = trailLike t -- Creates a diagram from a TurtlePath using the provided styles turtlePathToStroke :: (Renderable (Path V2 n) b, TypeableFloat n) => TurtlePath n -> QDiagram b V2 n Any turtlePathToStroke t@(TurtlePath (PenStyle lineWidth_ lineColor_) _) = d where d = lc lineColor_ . lwG lineWidth_ . strokeLocTrail $ turtlePathToTrailLike t -- | Prints out turtle representation and returns it. Use for debugging traceTurtle :: Show n => TurtleState n -> TurtleState n traceTurtle t = traceShow t t