{-# LANGUAGE ConstraintKinds #-}
{-# LANGUAGE CPP #-}
{-# LANGUAGE DeriveDataTypeable #-}
{-# LANGUAGE FlexibleContexts #-}
{-# LANGUAGE GeneralizedNewtypeDeriving #-}
{-# LANGUAGE MultiParamTypeClasses #-}
{-# LANGUAGE RankNTypes #-}
{-# LANGUAGE ScopedTypeVariables #-}
{-# LANGUAGE TemplateHaskell #-}
{-# LANGUAGE TypeFamilies #-}
{-# LANGUAGE UndecidableInstances #-}
module Diagrams.TwoD.Arrow
(
arrowV
, arrowV'
, arrowAt
, arrowAt'
, arrowBetween
, arrowBetween'
, connect
, connect'
, connectPerim
, connectPerim'
, connectOutside
, connectOutside'
, arrow
, arrow'
, arrowFromLocatedTrail
, arrowFromLocatedTrail'
, ArrowOpts(..)
, arrowHead
, arrowTail
, arrowShaft
, headGap
, tailGap
, gaps, gap
, headTexture
, headStyle
, headLength
, tailTexture
, tailStyle
, tailLength
, lengths
, shaftTexture
, shaftStyle
, straightShaft
, module Diagrams.TwoD.Arrowheads
) where
#if __GLASGOW_HASKELL__ < 710
import Control.Applicative ((<$>), (<*>))
#endif
import Control.Lens (Lens', Traversal',
generateSignatures, lensRules,
makeLensesWith, view, (%~), (&),
(.~), (^.))
import Data.Default.Class
import Data.Maybe (fromMaybe)
import Data.Monoid.Coproduct (untangle)
import Data.Semigroup
import Data.Typeable
import Data.Colour hiding (atop)
import Diagrams.Core
import Diagrams.Core.Style (unmeasureAttrs)
import Diagrams.Core.Types (QDiaLeaf (..), mkQD')
import Diagrams.Angle
import Diagrams.Attributes
import Diagrams.Direction hiding (dir)
import Diagrams.Located (Located (..), unLoc)
import Diagrams.Parametric
import Diagrams.Path
import Diagrams.Solve.Polynomial (quadForm)
import Diagrams.Tangent (tangentAtEnd, tangentAtStart)
import Diagrams.Trail
import Diagrams.TwoD.Arrowheads
import Diagrams.TwoD.Attributes
import Diagrams.TwoD.Path (stroke, strokeT)
import Diagrams.TwoD.Transform (reflectY, translateX)
import Diagrams.TwoD.Types
import Diagrams.TwoD.Vector (unitX, unit_X)
import Diagrams.Util (( # ))
import Linear.Affine
import Linear.Metric
import Linear.Vector
data ArrowOpts n
= ArrowOpts
{ _arrowHead :: ArrowHT n
, _arrowTail :: ArrowHT n
, _arrowShaft :: Trail V2 n
, _headGap :: Measure n
, _tailGap :: Measure n
, _headStyle :: Style V2 n
, _headLength :: Measure n
, _tailStyle :: Style V2 n
, _tailLength :: Measure n
, _shaftStyle :: Style V2 n
}
straightShaft :: OrderedField n => Trail V2 n
straightShaft = trailFromOffsets [unitX]
instance TypeableFloat n => Default (ArrowOpts n) where
def = ArrowOpts
{ _arrowHead = dart
, _arrowTail = noTail
, _arrowShaft = straightShaft
, _headGap = none
, _tailGap = none
, _headStyle = mempty
, _headLength = normal
, _tailStyle = mempty
, _tailLength = normal
, _shaftStyle = mempty
}
makeLensesWith (lensRules & generateSignatures .~ False) ''ArrowOpts
arrowHead :: Lens' (ArrowOpts n) (ArrowHT n)
arrowTail :: Lens' (ArrowOpts n) (ArrowHT n)
arrowShaft :: Lens' (ArrowOpts n) (Trail V2 n)
headGap :: Lens' (ArrowOpts n) (Measure n)
tailGap :: Lens' (ArrowOpts n) (Measure n)
gaps :: Traversal' (ArrowOpts n) (Measure n)
gaps f opts = (\h t -> opts & headGap .~ h & tailGap .~ t)
<$> f (opts ^. headGap)
<*> f (opts ^. tailGap)
gap :: Traversal' (ArrowOpts n) (Measure n)
gap = gaps
headStyle :: Lens' (ArrowOpts n) (Style V2 n)
tailStyle :: Lens' (ArrowOpts n) (Style V2 n)
shaftStyle :: Lens' (ArrowOpts n) (Style V2 n)
headLength :: Lens' (ArrowOpts n) (Measure n)
tailLength :: Lens' (ArrowOpts n) (Measure n)
lengths :: Traversal' (ArrowOpts n) (Measure n)
lengths f opts =
(\h t -> opts & headLength .~ h & tailLength .~ t)
<$> f (opts ^. headLength)
<*> f (opts ^. tailLength)
headTexture :: TypeableFloat n => Lens' (ArrowOpts n) (Texture n)
headTexture = headStyle . _fillTexture
tailTexture :: TypeableFloat n => Lens' (ArrowOpts n) (Texture n)
tailTexture = tailStyle . _fillTexture
shaftTexture :: TypeableFloat n => Lens' (ArrowOpts n) (Texture n)
shaftTexture = shaftStyle . _lineTexture
shaftSty :: ArrowOpts n -> Style V2 n
shaftSty opts = opts^.shaftStyle
headSty :: TypeableFloat n => ArrowOpts n -> Style V2 n
headSty opts = fc black (opts^.headStyle)
tailSty :: TypeableFloat n => ArrowOpts n -> Style V2 n
tailSty opts = fc black (opts^.tailStyle)
xWidth :: Floating n => (Traced t, V t ~ V2, N t ~ n) => t -> n
xWidth p = a + b
where
a = fromMaybe 0 (norm <$> traceV origin unitX p)
b = fromMaybe 0 (norm <$> traceV origin unit_X p)
colorJoint :: TypeableFloat n => Style V2 n -> Style V2 n
colorJoint sStyle =
let c = fmap getLineTexture . getAttr $ sStyle
o = fmap getOpacity . getAttr $ sStyle
in
case (c, o) of
(Nothing, Nothing) -> fillColor black mempty
(Just t, Nothing) -> fillTexture t mempty
(Nothing, Just o') -> opacity o' . fillColor black $ mempty
(Just t, Just o') -> opacity o' . fillTexture t $ mempty
widthOfJoint :: forall n. TypeableFloat n => Style V2 n -> n -> n -> n
widthOfJoint sStyle gToO nToO =
fromMaybe
(fromMeasured gToO nToO medium)
(fmap getLineWidth . getAttr . unmeasureAttrs gToO nToO $ sStyle)
mkHead :: (TypeableFloat n, Renderable (Path V2 n) b) =>
n -> ArrowOpts n -> n -> n -> Bool -> (QDiagram b V2 n Any, n)
mkHead = mkHT unit_X arrowHead headSty
mkTail :: (TypeableFloat n, Renderable (Path V2 n) b) =>
n -> ArrowOpts n -> n -> n -> Bool -> (QDiagram b V2 n Any, n)
mkTail = mkHT unitX arrowTail tailSty
mkHT
:: (TypeableFloat n, Renderable (Path V2 n) b)
=> V2 n -> Lens' (ArrowOpts n) (ArrowHT n) -> (ArrowOpts n -> Style V2 n)
-> n -> ArrowOpts n -> n -> n -> Bool -> (QDiagram b V2 n Any, n)
mkHT xDir htProj styProj sz opts gToO nToO reflect
= ( (j <> ht)
# (if reflect then reflectY else id)
# moveOriginBy (jWidth *^ xDir) # lwO 0
, htWidth + jWidth
)
where
(ht', j') = (opts^.htProj) sz
(widthOfJoint (shaftSty opts) gToO nToO)
htWidth = xWidth ht'
jWidth = xWidth j'
ht = stroke ht' # applyStyle (styProj opts)
j = stroke j' # applyStyle (colorJoint (opts^.shaftStyle))
spine :: TypeableFloat n => Trail V2 n -> n -> n -> n -> Trail V2 n
spine tr tw hw sz = tS <> tr # scale sz <> hS
where
tSpine = trailFromOffsets [signorm . tangentAtStart $ tr] # scale tw
hSpine = trailFromOffsets [signorm . tangentAtEnd $ tr] # scale hw
hS = if hw > 0 then hSpine else mempty
tS = if tw > 0 then tSpine else mempty
scaleFactor :: TypeableFloat n => Trail V2 n -> n -> n -> n -> n
scaleFactor tr tw hw t
= case quadForm
(quadrance v)
(2* (v `dot` (tv ^+^ hv)))
(quadrance (tv ^+^ hv) - t*t)
of
[] -> 1
[s] -> s
ss -> maximum ss
where
tv = tw *^ (tangentAtStart tr # signorm)
hv = hw *^ (tangentAtEnd tr # signorm)
v = trailOffset tr
arrowEnv :: TypeableFloat n => ArrowOpts n -> n -> Envelope V2 n
arrowEnv opts len = getEnvelope horizShaft
where
horizShaft = shaft # rotate (negated (v ^. _theta)) # scale (len / m)
m = norm v
v = trailOffset shaft
shaft = opts ^. arrowShaft
arrow :: (TypeableFloat n, Renderable (Path V2 n) b) => n -> QDiagram b V2 n Any
arrow = arrow' def
arrow' :: (TypeableFloat n, Renderable (Path V2 n) b) => ArrowOpts n -> n -> QDiagram b V2 n Any
arrow' opts len = mkQD' (DelayedLeaf delayedArrow)
(arrowEnv opts len) mempty mempty mempty
where
delayedArrow da g n =
let (trans, globalSty) = option mempty untangle . fst $ da
in dArrow globalSty trans len g n
dArrow sty tr ln gToO nToO = (h' <> t' <> shaft)
# moveOriginBy (tWidth *^ (unit_X # rotate tAngle))
# rotate (((q .-. p)^._theta) ^-^ (dir^._theta))
# moveTo p
where
p = origin # transform tr
q = origin # translateX ln # transform tr
globalLC = getLineTexture <$> getAttr sty
opts' = opts
& headStyle %~ maybe id fillTexture globalLC
& tailStyle %~ maybe id fillTexture globalLC
& shaftStyle %~ applyStyle sty . transform tr
scaleFromMeasure = fromMeasured gToO nToO . scaleLocal (avgScale tr)
hSize = scaleFromMeasure $ opts ^. headLength
tSize = scaleFromMeasure $ opts ^. tailLength
hGap = scaleFromMeasure $ opts ^. headGap
tGap = scaleFromMeasure $ opts ^. tailGap
(h, hWidth') = mkHead hSize opts' gToO nToO (isReflection tr)
(t, tWidth') = mkTail tSize opts' gToO nToO (isReflection tr)
rawShaftTrail = opts^.arrowShaft
shaftTrail
= rawShaftTrail
# rotate (negated . view _theta . trailOffset $ rawShaftTrail)
# transform tr
tWidth = tWidth' + tGap
hWidth = hWidth' + hGap
tAngle = tangentAtStart shaftTrail ^. _theta
hAngle = tangentAtEnd shaftTrail ^. _theta
sf = scaleFactor shaftTrail tWidth hWidth (norm (q .-. p))
shaftTrail' = shaftTrail # scale sf
shaft = strokeT shaftTrail' # applyStyle (shaftSty opts')
h' = h # rotate hAngle
# moveTo (origin .+^ shaftTrail' `atParam` domainUpper shaftTrail')
t' = t # rotate tAngle
dir = direction (trailOffset $ spine shaftTrail tWidth hWidth sf)
arrowBetween :: (TypeableFloat n, Renderable (Path V2 n) b) => Point V2 n -> Point V2 n -> QDiagram b V2 n Any
arrowBetween = arrowBetween' def
arrowBetween'
:: (TypeableFloat n, Renderable (Path V2 n) b) =>
ArrowOpts n -> Point V2 n -> Point V2 n -> QDiagram b V2 n Any
arrowBetween' opts s e = arrowAt' opts s (e .-. s)
arrowAt :: (TypeableFloat n, Renderable (Path V2 n) b) => Point V2 n -> V2 n -> QDiagram b V2 n Any
arrowAt = arrowAt' def
arrowAt'
:: (TypeableFloat n, Renderable (Path V2 n) b) =>
ArrowOpts n -> Point V2 n -> V2 n -> QDiagram b V2 n Any
arrowAt' opts s v = arrow' opts len
# rotate dir # moveTo s
where
len = norm v
dir = v ^. _theta
arrowV :: (TypeableFloat n, Renderable (Path V2 n) b) => V2 n -> QDiagram b V2 n Any
arrowV = arrowV' def
arrowV'
:: (TypeableFloat n, Renderable (Path V2 n) b)
=> ArrowOpts n -> V2 n -> QDiagram b V2 n Any
arrowV' opts = arrowAt' opts origin
arrowFromLocatedTrail
:: (Renderable (Path V2 n) b, RealFloat n, Typeable n)
=> Located (Trail V2 n) -> QDiagram b V2 n Any
arrowFromLocatedTrail = arrowFromLocatedTrail' def
arrowFromLocatedTrail'
:: (Renderable (Path V2 n) b, RealFloat n, Typeable n)
=> ArrowOpts n -> Located (Trail V2 n) -> QDiagram b V2 n Any
arrowFromLocatedTrail' opts trail = arrowBetween' opts' start end
where
opts' = opts & arrowShaft .~ unLoc trail
start = atStart trail
end = atEnd trail
connect
:: (TypeableFloat n, Renderable (Path V2 n) b, IsName n1, IsName n2)
=> n1 -> n2 -> QDiagram b V2 n Any -> QDiagram b V2 n Any
connect = connect' def
connect'
:: (TypeableFloat n, Renderable (Path V2 n) b, IsName n1, IsName n2)
=> ArrowOpts n -> n1 -> n2 -> QDiagram b V2 n Any -> QDiagram b V2 n Any
connect' opts n1 n2 =
withName n1 $ \sub1 ->
withName n2 $ \sub2 ->
let [s,e] = map location [sub1, sub2]
in atop (arrowBetween' opts s e)
connectPerim
:: (TypeableFloat n, Renderable (Path V2 n) b, IsName n1, IsName n2)
=> n1 -> n2 -> Angle n -> Angle n
-> QDiagram b V2 n Any -> QDiagram b V2 n Any
connectPerim = connectPerim' def
connectPerim'
:: (TypeableFloat n, Renderable (Path V2 n) b, IsName n1, IsName n2)
=> ArrowOpts n -> n1 -> n2 -> Angle n -> Angle n
-> QDiagram b V2 n Any -> QDiagram b V2 n Any
connectPerim' opts n1 n2 a1 a2 =
withName n1 $ \sub1 ->
withName n2 $ \sub2 ->
let [os, oe] = map location [sub1, sub2]
s = fromMaybe os (maxTraceP os (unitX # rotate a1) sub1)
e = fromMaybe oe (maxTraceP oe (unitX # rotate a2) sub2)
in atop (arrowBetween' opts s e)
connectOutside
:: (TypeableFloat n, Renderable (Path V2 n) b, IsName n1, IsName n2)
=> n1 -> n2 -> QDiagram b V2 n Any -> QDiagram b V2 n Any
connectOutside = connectOutside' def
connectOutside'
:: (TypeableFloat n, Renderable (Path V2 n) b, IsName n1, IsName n2)
=> ArrowOpts n -> n1 -> n2 -> QDiagram b V2 n Any -> QDiagram b V2 n Any
connectOutside' opts n1 n2 =
withName n1 $ \b1 ->
withName n2 $ \b2 ->
let v = location b2 .-. location b1
midpoint = location b1 .+^ (v ^/ 2)
s' = fromMaybe (location b1) $ traceP midpoint (negated v) b1
e' = fromMaybe (location b2) $ traceP midpoint v b2
in
atop (arrowBetween' opts s' e')