{-# LANGUAGE RecordWildCards #-}
{-# LANGUAGE StandaloneDeriving #-}
{-# LANGUAGE UndecidableInstances #-}
{-# LANGUAGE PackageImports #-}
{-# OPTIONS_GHC -Wno-orphans #-}
{-# OPTIONS_GHC -Wno-type-defaults #-}
--------------------------------------------------------------------------------
module Xanthous.Orphans
( ppTemplate
) where
--------------------------------------------------------------------------------
import Xanthous.Prelude hiding (elements, (.=))
--------------------------------------------------------------------------------
import Data.Aeson hiding (Key)
import qualified Data.Aeson.KeyMap as KM
import Data.Aeson.Types (typeMismatch)
import Data.List.NonEmpty (NonEmpty(..))
import Graphics.Vty.Attributes
import Brick.Widgets.Edit
import Data.Text.Zipper.Generic (GenericTextZipper)
import Brick.Widgets.Core (getName)
import System.Random.Internal (StdGen (..))
import System.Random.SplitMix (SMGen ())
import Test.QuickCheck
import "quickcheck-instances" Test.QuickCheck.Instances ()
import Text.Megaparsec (errorBundlePretty)
import Text.Megaparsec.Pos
import Text.Mustache
import Text.Mustache.Type ( showKey )
import Control.Monad.State
import Linear
import qualified Data.Interval as Interval
import Data.Interval ( Interval, Extended (..), Boundary (..)
, lowerBound', upperBound', (<=..<), (<=..<=)
, interval)
import Test.QuickCheck.Checkers (EqProp ((=-=)))
--------------------------------------------------------------------------------
import Xanthous.Util.JSON
import Xanthous.Util.QuickCheck
import Xanthous.Util (EqEqProp(EqEqProp))
--------------------------------------------------------------------------------
instance forall s a.
( Cons s s a a
, IsSequence s
, Element s ~ a
) => Cons (NonNull s) (NonNull s) a a where
_Cons = prism hither yon
where
hither :: (a, NonNull s) -> NonNull s
hither (a, ns) =
let s = toNullable ns
in impureNonNull $ a <| s
yon :: NonNull s -> Either (NonNull s) (a, NonNull s)
yon ns = case nuncons ns of
(_, Nothing) -> Left ns
(x, Just xs) -> Right (x, xs)
instance forall a. Cons (NonEmpty a) (NonEmpty a) a a where
_Cons = prism hither yon
where
hither :: (a, NonEmpty a) -> NonEmpty a
hither (a, x :| xs) = a :| (x : xs)
yon :: NonEmpty a -> Either (NonEmpty a) (a, NonEmpty a)
yon ns@(x :| xs) = case xs of
(y : ys) -> Right (x, y :| ys)
[] -> Left ns
instance Arbitrary PName where
arbitrary = PName . pack <$> listOf1 (elements ['a'..'z'])
instance Arbitrary Key where
arbitrary = Key <$> listOf1 arbSafeText
where arbSafeText = pack <$> listOf1 (elements ['a'..'z'])
shrink (Key []) = error "unreachable"
shrink k@(Key [_]) = pure k
shrink (Key (p:ps)) = Key . (p :) <$> shrink ps
instance Arbitrary Pos where
arbitrary = mkPos . succ . abs <$> arbitrary
shrink (unPos -> 1) = []
shrink (unPos -> x) = mkPos <$> [x..1]
instance Arbitrary Node where
arbitrary = scale (`div` 10) $ sized node
where
node n | n > 0 = oneof $ leaves ++ branches (n `div` 4)
node _ = oneof leaves
branches n =
[ Section <$> arbitrary <*> subnodes n
, InvertedSection <$> arbitrary <*> subnodes n
]
subnodes = fmap concatTextBlocks . listOf . node
leaves =
[ TextBlock . pack <$> listOf1 (elements ['a'..'z'])
, EscapedVar <$> arbitrary
, UnescapedVar <$> arbitrary
-- TODO fix pretty-printing of mustache partials
-- , Partial <$> arbitrary <*> arbitrary
]
shrink = genericShrink
concatTextBlocks :: [Node] -> [Node]
concatTextBlocks [] = []
concatTextBlocks [x] = [x]
concatTextBlocks (TextBlock txt₁ : TextBlock txt₂ : xs)
= concatTextBlocks $ TextBlock (txt₁ <> txt₂) : concatTextBlocks xs
concatTextBlocks (x : xs) = x : concatTextBlocks xs
instance Arbitrary Template where
arbitrary = scale (`div` 8) $ do
template <- concatTextBlocks <$> arbitrary
-- templateName <- arbitrary
-- rest <- arbitrary
let templateName = "template"
rest = mempty
pure $ Template
{ templateActual = templateName
, templateCache = rest & at templateName ?~ template
}
shrink (Template actual cache) =
let Just tpl = cache ^. at actual
in do
cache' <- shrink cache
tpl' <- shrink tpl
actual' <- shrink actual
pure $ Template
{ templateActual = actual'
, templateCache = cache' & at actual' ?~ tpl'
}
instance CoArbitrary Template where
coarbitrary = coarbitrary . ppTemplate
instance Function Template where
function = functionMap ppTemplate parseTemplatePartial
where
parseTemplatePartial txt
= compileMustacheText "template" txt ^?! _Right
ppNode :: Map PName [Node] -> Node -> Text
ppNode _ (TextBlock txt) = txt
ppNode _ (EscapedVar k) = "{{" <> showKey k <> "}}"
ppNode ctx (Section k body) =
let sk = showKey k
in "{{#" <> sk <> "}}" <> foldMap (ppNode ctx) body <> "{{/" <> sk <> "}}"
ppNode _ (UnescapedVar k) = "{{{" <> showKey k <> "}}}"
ppNode ctx (InvertedSection k body) =
let sk = showKey k
in "{{^" <> sk <> "}}" <> foldMap (ppNode ctx) body <> "{{/" <> sk <> "}}"
ppNode _ (Partial n _) = "{{> " <> unPName n <> "}}"
ppTemplate :: Template -> Text
ppTemplate (Template actual cache) =
case cache ^. at actual of
Nothing -> error "Template not found?"
Just nodes -> foldMap (ppNode cache) nodes
instance ToJSON Template where
toJSON = String . ppTemplate
instance FromJSON Template where
parseJSON
= withText "Template"
$ either (fail . errorBundlePretty) pure
. compileMustacheText "template"
deriving anyclass instance NFData Node
deriving anyclass instance NFData Template
instance FromJSON Color where
parseJSON (String "black") = pure black
parseJSON (String "red") = pure red
parseJSON (String "green") = pure green
parseJSON (String "yellow") = pure yellow
parseJSON (String "blue") = pure blue
parseJSON (String "magenta") = pure magenta
parseJSON (String "cyan") = pure cyan
parseJSON (String "white") = pure white
parseJSON (String "brightBlack") = pure brightBlack
parseJSON (String "brightRed") = pure brightRed
parseJSON (String "brightGreen") = pure brightGreen
parseJSON (String "brightYellow") = pure brightYellow
parseJSON (String "brightBlue") = pure brightBlue
parseJSON (String "brightMagenta") = pure brightMagenta
parseJSON (String "brightCyan") = pure brightCyan
parseJSON (String "brightWhite") = pure brightWhite
parseJSON n@(Number _) = Color240 <$> parseJSON n
parseJSON x = typeMismatch "Color" x
instance ToJSON Color where
toJSON color
| color == black = "black"
| color == red = "red"
| color == green = "green"
| color == yellow = "yellow"
| color == blue = "blue"
| color == magenta = "magenta"
| color == cyan = "cyan"
| color == white = "white"
| color == brightBlack = "brightBlack"
| color == brightRed = "brightRed"
| color == brightGreen = "brightGreen"
| color == brightYellow = "brightYellow"
| color == brightBlue = "brightBlue"
| color == brightMagenta = "brightMagenta"
| color == brightCyan = "brightCyan"
| color == brightWhite = "brightWhite"
| Color240 num <- color = toJSON num
| otherwise = error $ "unimplemented: " <> show color
instance (Eq a, Show a, Read a, FromJSON a) => FromJSON (MaybeDefault a) where
parseJSON Null = pure Default
parseJSON (String "keepCurrent") = pure KeepCurrent
parseJSON x = SetTo <$> parseJSON x
instance ToJSON a => ToJSON (MaybeDefault a) where
toJSON Default = Null
toJSON KeepCurrent = String "keepCurrent"
toJSON (SetTo x) = toJSON x
--------------------------------------------------------------------------------
instance Arbitrary Color where
arbitrary = oneof [ Color240 <$> choose (0, 239)
, ISOColor <$> choose (0, 15)
]
deriving anyclass instance CoArbitrary Color
deriving anyclass instance Function Color
instance (Eq a, Show a, Read a, Arbitrary a) => Arbitrary (MaybeDefault a) where
arbitrary = oneof [ pure Default
, pure KeepCurrent
, SetTo <$> arbitrary
]
instance CoArbitrary a => CoArbitrary (MaybeDefault a) where
coarbitrary Default = variant @Int 1
coarbitrary KeepCurrent = variant @Int 2
coarbitrary (SetTo x) = variant @Int 3 . coarbitrary x
instance (Eq a, Show a, Read a, Function a) => Function (MaybeDefault a) where
function = functionShow
deriving via (EqEqProp Attr) instance EqProp Attr
instance Arbitrary Attr where
arbitrary = do
attrStyle <- arbitrary
attrForeColor <- arbitrary
attrBackColor <- arbitrary
attrURL <- arbitrary
pure Attr {..}
deriving anyclass instance CoArbitrary Attr
deriving anyclass instance Function Attr
instance ToJSON Attr where
toJSON Attr{..} = object
[ "style" .= maybeDefaultToJSONWith styleToJSON attrStyle
, "foreground" .= attrForeColor
, "background" .= attrBackColor
, "url" .= attrURL
]
where
maybeDefaultToJSONWith _ Default = Null
maybeDefaultToJSONWith _ KeepCurrent = String "keepCurrent"
maybeDefaultToJSONWith tj (SetTo x) = tj x
styleToJSON style
| style == standout = "standout"
| style == underline = "underline"
| style == reverseVideo = "reverseVideo"
| style == blink = "blink"
| style == dim = "dim"
| style == bold = "bold"
| style == italic = "italic"
| otherwise = toJSON style
instance FromJSON Attr where
parseJSON = withObject "Attr" $ \obj -> do
attrStyle <- parseStyle =<< obj .:? "style" .!= Default
attrForeColor <- obj .:? "foreground" .!= Default
attrBackColor <- obj .:? "background" .!= Default
attrURL <- obj .:? "url" .!= Default
pure Attr{..}
where
parseStyle (SetTo (String "standout")) = pure (SetTo standout)
parseStyle (SetTo (String "underline")) = pure (SetTo underline)
parseStyle (SetTo (String "reverseVideo")) = pure (SetTo reverseVideo)
parseStyle (SetTo (String "blink")) = pure (SetTo blink)
parseStyle (SetTo (String "dim")) = pure (SetTo dim)
parseStyle (SetTo (String "bold")) = pure (SetTo bold)
parseStyle (SetTo (String "italic")) = pure (SetTo italic)
parseStyle (SetTo n@(Number _)) = SetTo <$> parseJSON n
parseStyle (SetTo v) = typeMismatch "Style" v
parseStyle Default = pure Default
parseStyle KeepCurrent = pure KeepCurrent
deriving stock instance Ord Color
deriving stock instance Ord a => Ord (MaybeDefault a)
deriving stock instance Ord Attr
--------------------------------------------------------------------------------
instance (SemiSequence a, Arbitrary (Element a), Arbitrary a)
=> Arbitrary (NonNull a) where
arbitrary = ncons <$> arbitrary <*> arbitrary
instance ToJSON a => ToJSON (NonNull a) where
toJSON = toJSON . toNullable
instance (FromJSON a, MonoFoldable a) => FromJSON (NonNull a) where
parseJSON = maybe (fail "Found empty list") pure . fromNullable <=< parseJSON
instance NFData a => NFData (NonNull a) where
rnf xs = xs `seq` toNullable xs `deepseq` ()
--------------------------------------------------------------------------------
instance forall t name. (NFData t, Monoid t, NFData name)
=> NFData (Editor t name) where
rnf ed = getName @_ @name ed `deepseq` getEditContents ed `deepseq` ()
deriving via (ReadShowJSON SMGen) instance ToJSON SMGen
deriving via (ReadShowJSON SMGen) instance FromJSON SMGen
instance ToJSON StdGen where
toJSON = toJSON . unStdGen
toEncoding = toEncoding . unStdGen
instance FromJSON StdGen where
parseJSON = fmap StdGen . parseJSON
--------------------------------------------------------------------------------
instance CoArbitrary a => CoArbitrary (NonNull a) where
coarbitrary = coarbitrary . toNullable
instance (MonoFoldable a, Function a) => Function (NonNull a) where
function = functionMap toNullable $ fromMaybe (error "null") . fromNullable
instance (Arbitrary t, Arbitrary n, GenericTextZipper t)
=> Arbitrary (Editor t n) where
arbitrary = editor <$> arbitrary <*> arbitrary <*> arbitrary
instance forall t n. (CoArbitrary t, CoArbitrary n, Monoid t)
=> CoArbitrary (Editor t n) where
coarbitrary ed = coarbitrary (getName @_ @n ed, getEditContents ed)
instance CoArbitrary StdGen where
coarbitrary = coarbitrary . show
instance Function StdGen where
function = functionMap unStdGen StdGen
instance Function SMGen where
function = functionShow
--------------------------------------------------------------------------------
deriving newtype instance (Arbitrary s, CoArbitrary (m (a, s)))
=> CoArbitrary (StateT s m a)
--------------------------------------------------------------------------------
deriving via (GenericArbitrary (V2 a)) instance Arbitrary a => Arbitrary (V2 a)
instance CoArbitrary a => CoArbitrary (V2 a)
instance Function a => Function (V2 a)
--------------------------------------------------------------------------------
instance CoArbitrary Boundary
instance Function Boundary
instance Arbitrary a => Arbitrary (Extended a) where
arbitrary = oneof [ pure NegInf
, pure PosInf
, Finite <$> arbitrary
]
instance CoArbitrary a => CoArbitrary (Extended a) where
coarbitrary NegInf = variant 1
coarbitrary PosInf = variant 2
coarbitrary (Finite x) = variant 3 . coarbitrary x
instance (Function a) => Function (Extended a) where
function = functionMap g h
where
g NegInf = Left True
g (Finite a) = Right a
g PosInf = Left False
h (Left False) = PosInf
h (Left True) = NegInf
h (Right a) = Finite a
instance ToJSON a => ToJSON (Extended a) where
toJSON NegInf = String "NegInf"
toJSON PosInf = String "PosInf"
toJSON (Finite x) = toJSON x
instance FromJSON a => FromJSON (Extended a) where
parseJSON (String "NegInf") = pure NegInf
parseJSON (String "PosInf") = pure PosInf
parseJSON val = Finite <$> parseJSON val
instance (EqProp a, Show a) => EqProp (Extended a) where
NegInf =-= NegInf = property True
PosInf =-= PosInf = property True
(Finite x) =-= (Finite y) = x =-= y
x =-= y = counterexample (show x <> " /= " <> show y) False
instance Arbitrary Interval.Boundary where
arbitrary = elements [ Interval.Open , Interval.Closed ]
instance (Ord r, Arbitrary r) => Arbitrary (Interval r) where
arbitrary = do
lower <- arbitrary
upper <- arbitrary
pure $ (if upper < lower then flip else id)
Interval.interval
lower
upper
instance CoArbitrary a => CoArbitrary (Interval a) where
coarbitrary int = coarbitrary (lowerBound' int) . coarbitrary (upperBound' int)
instance (Function a, Ord a) => Function (Interval a) where
function = functionMap g h
where
g = lowerBound' &&& upperBound'
h = uncurry interval
deriving via (EqEqProp (Interval a)) instance Eq a => (EqProp (Interval a))
instance ToJSON a => ToJSON (Interval a) where
toJSON x = Array . fromList $
[ object [ lowerKey .= lowerVal ]
, object [ upperKey .= upperVal ]
]
where
(lowerVal, lowerBoundary) = lowerBound' x
(upperVal, upperBoundary) = upperBound' x
upperKey = boundaryToKey upperBoundary
lowerKey = boundaryToKey lowerBoundary
boundaryToKey Open = "Excluded"
boundaryToKey Closed = "Included"
instance forall a. (FromJSON a, Ord a) => FromJSON (Interval a) where
parseJSON x =
boundPairWithBoundary x
<|> boundPairWithoutBoundary x
<|> singleVal x
where
boundPairWithBoundary = withArray "Bound pair" $ \arr -> do
checkLength arr
lower <- parseBound $ arr ^?! ix 0
upper <- parseBound $ arr ^?! ix 1
pure $ interval lower upper
parseBound = withObject "Bound" $ \obj -> do
when (KM.size obj /= 1) $ fail "Expected an object with a single key"
let [(k, v)] = obj ^@.. ifolded
boundary <- case k of
"Excluded" -> pure Open
"Open" -> pure Open
"Included" -> pure Closed
"Closed" -> pure Closed
_ -> fail "Invalid boundary specification"
val <- parseJSON v
pure (val, boundary)
boundPairWithoutBoundary = withArray "Bound pair" $ \arr -> do
checkLength arr
lower <- parseJSON $ arr ^?! ix 0
upper <- parseJSON $ arr ^?! ix 1
pure $ lower <=..< upper
singleVal v = do
val <- parseJSON v
pure $ val <=..<= val
checkLength arr =
when (length arr /= 2) $ fail "Expected array of length 2"