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{-# LANGUAGE AllowAmbiguousTypes #-}
{-# LANGUAGE QuasiQuotes #-}

module Json.Enc where

import Data.Aeson (Encoding, Value (..))
import Data.Aeson qualified as Json
import Data.Aeson.Encode.Pretty qualified as Aeson.Pretty
import Data.Aeson.Encoding qualified as AesonEnc
import Data.Aeson.Encoding qualified as Json.Enc
import Data.Aeson.Encoding qualified as Json.Encoding
import Data.Aeson.Key qualified as Key
import Data.Aeson.KeyMap (KeyMap)
import Data.Aeson.KeyMap qualified as KeyMap
import Data.ByteString.Base64 qualified as Base64
import Data.ByteString.Lazy qualified as LazyBytes
import Data.Containers.ListUtils (nubOrdOn)
import Data.Int (Int64)
import Data.List qualified as List
import Data.Map.Strict qualified as Map
import Data.Scientific
import Data.String (IsString (fromString))
import Data.Text.Lazy qualified as Lazy
import Data.Text.Lazy.Builder qualified as Text.Builder
import Data.Time qualified as Time
import Data.Time.Format.ISO8601 qualified as ISO8601
import GHC.TypeLits (KnownSymbol, Symbol, symbolVal)
import PossehlAnalyticsPrelude

-- | A JSON encoder.
--
-- It is faster than going through 'Value', because 'Encoding' is just a wrapper around a @Bytes.Builder@.
-- But the @aeson@ interface for 'Encoding' is extremely bad, so let’s build a better one.
newtype Enc = Enc {unEnc :: Encoding}
  deriving (Num, Fractional) via (NumLiteralOnly "Enc" Enc)

instance Show Enc where
  show e = e.unEnc & Json.Encoding.encodingToLazyByteString & bytesToTextUtf8UnsafeLazy & show

-- | You can create an @Enc any@ that renders a json string value with @OverloadedStrings@.
instance IsString Enc where
  fromString = Enc . AesonEnc.string

-- | You can create an @Enc any@ that renders a json number value with an integer literal.
instance IntegerLiteral Enc where
  integerLiteral = Enc . AesonEnc.integer

-- | You can create an @Enc any@ that renders a json number value with an floating point literal.
--
-- __ATTN__: Bear in mind that this will crash on repeating rationals, so only use for literals in code!
instance RationalLiteral Enc where
  rationalLiteral r = Enc $ AesonEnc.scientific (r & fromRational @Scientific)

-- | Convert an 'Enc' to a strict UTF8-bytestring which is valid JSON (minified).
encToBytesUtf8 :: Enc -> ByteString
encToBytesUtf8 enc = enc & encToBytesUtf8Lazy & toStrictBytes

-- | Convert an 'Enc' to a lazy UTF8-bytestring which is valid JSON (minified).
encToBytesUtf8Lazy :: Enc -> LazyBytes.ByteString
encToBytesUtf8Lazy enc = enc.unEnc & Json.Enc.encodingToLazyByteString

-- | Convert an 'Enc' to a strict Text which is valid JSON (prettyfied).
--
-- __ATTN__: will re-parse the json through 'Json.Value', so only use for user-interactions like pretty-printing.
encToTextPretty :: Enc -> Text
encToTextPretty enc =
  enc
    & encToTextPrettyLazy
    & toStrict

-- | Convert an 'Enc' to a lazy Text which is valid JSON (prettyfied).
--
-- __ATTN__: will re-parse the json through 'Json.Value', so only use for user-interactions like pretty-printing.
encToTextPrettyLazy :: Enc -> Lazy.Text
encToTextPrettyLazy enc =
  enc
    & encToBytesUtf8Lazy
    & Json.decode @Json.Value
    & annotate "the json parser can’t parse json encodings??"
    & unwrapError
    & Aeson.Pretty.encodePrettyToTextBuilder
    & Text.Builder.toLazyText

-- | Embed a 'Json.Encoding' verbatim (it’s a valid JSON value)
encoding :: Encoding -> Enc
encoding = Enc

-- | Encode a 'Json.Value' verbatim (it’s a valid JSON value)
value :: Value -> Enc
value = Enc . AesonEnc.value

-- | Encode an empty json list
emptyArray :: Enc
emptyArray = Enc AesonEnc.emptyArray_

-- | Encode an empty json dict
emptyObject :: Enc
emptyObject = Enc AesonEnc.emptyObject_

-- | Encode a 'Text' as a json string
text :: Text -> Enc
text = Enc . AesonEnc.text

-- | Encode a lazy 'Text' as a json string
lazyText :: Lazy.Text -> Enc
lazyText = Enc . AesonEnc.lazyText

-- | Encode a 'ByteString' as a base64-encoded json string
base64Bytes :: ByteString -> Enc
base64Bytes = Enc . AesonEnc.text . bytesToTextUtf8Unsafe . Base64.encode

-- | Encode a 'Text' as a base64-encoded json string
base64 :: Text -> Enc
base64 = Enc . AesonEnc.text . bytesToTextUtf8Unsafe . Base64.encode . textToBytesUtf8

-- | Encode a 'Prelude.String' as a json string
string :: String -> Enc
string = Enc . AesonEnc.string

-- | Encode as json @null@ if 'Nothing', else use the given encoder for @Just a@
nullOr :: (a -> Enc) -> Maybe a -> Enc
nullOr inner = \case
  Nothing -> Enc AesonEnc.null_
  Just a -> inner a

-- | Encode a list as a json list
list :: (a -> Enc) -> [a] -> Enc
list f = Enc . AesonEnc.list (\a -> (f a).unEnc)

-- | Encode a 'NonEmpty' as a json list.
nonEmpty :: (a -> Enc) -> NonEmpty a -> Enc
nonEmpty f = list f . toList

-- | Encode the given list of keys and their encoders as json dict.
--
-- If the list contains the same key multiple times, the first value in the list is retained:
--
-- @
-- (object [ ("foo", 42), ("foo", 23) ])
-- ~= "{\"foo\":42}"
-- @
object :: (Foldable t) => t (Text, Enc) -> Enc
object m =
  Enc $
    AesonEnc.dict
      AesonEnc.text
      (\recEnc -> recEnc.unEnc)
      (\f -> List.foldr (\(k, v) -> f k v))
      (nubOrdOn fst $ toList m)

-- | A tag/value encoder; See 'choice'
data Choice = Choice Text Enc

-- | Encode a sum type as a @Choice@, an object with a @tag@/@value@ pair,
-- which is the conventional json sum type representation in our codebase.
--
-- @
-- foo :: Maybe Text -> Enc
-- foo = choice $ \case
--   Nothing -> Choice "no" emptyObject ()
--   Just t -> Choice "yes" text t
--
-- ex = foo Nothing == "{\"tag\": \"no\", \"value\": {}}"
-- ex2 = foo (Just "hi") == "{\"tag\": \"yes\", \"value\": \"hi\"}"
-- @
choice :: (from -> Choice) -> from -> Enc
choice f from = case f from of
  Choice key encA -> singleChoice key encA

-- | Like 'choice', but simply encode a single possibility into a @tag/value@ object.
-- This can be useful, but if you want to match on an enum, use 'choice' instead.
singleChoice :: Text -> Enc -> Enc
singleChoice key encA =
  Enc $
    AesonEnc.pairs $
      mconcat
        [ AesonEnc.pair "tag" (AesonEnc.text key),
          AesonEnc.pair "value" encA.unEnc
        ]

-- | Encode a 'Map' as a json dict
--
-- We can’t really set the key to anything but text (We don’t keep the tag of 'Encoding')
-- so instead we allow anything that’s coercible from text as map key (i.e. newtypes).
map :: forall k v. (Coercible k Text) => (v -> Enc) -> Map k v -> Enc
map valEnc m =
  Enc $
    AesonEnc.dict
      (AesonEnc.text . coerce @k @Text)
      (\v -> (valEnc v).unEnc)
      Map.foldrWithKey
      m

-- | Encode a 'KeyMap' as a json dict
keyMap :: (v -> Enc) -> KeyMap v -> Enc
keyMap valEnc m =
  Enc $
    AesonEnc.dict
      (AesonEnc.text . Key.toText)
      (\v -> (valEnc v).unEnc)
      KeyMap.foldrWithKey
      m

-- | Encode 'Json.Null'
null :: Enc
null = Enc AesonEnc.null_

-- | Encode a 'Prelude.Bool' as a json boolean
bool :: Bool -> Enc
bool = Enc . AesonEnc.bool

-- | Encode an 'Integer' as a json number.
-- TODO: is it okay to just encode an arbitrarily-sized integer into json?
integer :: Integer -> Enc
integer = Enc . AesonEnc.integer

-- | Encode a 'Scientific' as a json number.
scientific :: Scientific -> Enc
scientific = Enc . AesonEnc.scientific

-- | Encode a 'Natural' as a json number.
natural :: Natural -> Enc
natural = integer . toInteger @Natural

-- | Encode an 'Int' as a json number.
int :: Int -> Enc
int = Enc . AesonEnc.int

-- | Encode an 'Int64' as a json number.
int64 :: Int64 -> Enc
int64 = Enc . AesonEnc.int64

-- | Encode 'Time.UTCTime' as a json string, as an ISO8601 timestamp with timezone (@yyyy-mm-ddThh:mm:ss[.sss]Z@)
utcTime :: Time.UTCTime -> Enc
utcTime =
  text . stringToText . ISO8601.iso8601Show @Time.UTCTime

-- | Implement this class if you want your type to only implement the part of 'Num'
-- that allows creating them from Integer-literals, then derive Num via 'NumLiteralOnly':
--
-- @
-- data Foo = Foo Integer
--   deriving (Num) via (NumLiteralOnly "Foo" Foo)
--
-- instance IntegerLiteral Foo where
--  integerLiteral i = Foo i
-- @
class IntegerLiteral a where
  integerLiteral :: Integer -> a

-- | The same as 'IntegerLiteral' but for floating point literals.
class RationalLiteral a where
  rationalLiteral :: Rational -> a

-- | Helper class for @deriving (Num) via …@, implements only literal syntax for integer and floating point numbers,
-- and throws descriptive runtime errors for any other methods in 'Num'.
--
-- See 'IntegerLiteral' and 'RationalLiteral' for examples.
newtype NumLiteralOnly (sym :: Symbol) num = NumLiteralOnly num

instance (IntegerLiteral num, KnownSymbol sym) => Num (NumLiteralOnly sym num) where
  fromInteger = NumLiteralOnly . integerLiteral
  (+) = error [fmt|Only use as numeric literal allowed for {symbolVal (Proxy @sym)}, you tried to add (+) (NumLiteralOnly)|]
  (*) = error [fmt|Only use as numeric literal allowed for {symbolVal (Proxy @sym)}, you tried to multiply (*) (NumLiteralOnly)|]
  (-) = error [fmt|Only use as numeric literal allowed for {symbolVal (Proxy @sym)}, you tried to subtract (-) (NumLiteralOnly)|]
  abs = error [fmt|Only use as numeric literal allowed for {symbolVal (Proxy @sym)}, you tried to use `abs` (NumLiteralOnly)|]
  signum = error [fmt|Only use as numeric literal allowed for {symbolVal (Proxy @sym)}, you tried to use `signum` (NumLiteralOnly)|]

instance (IntegerLiteral num, RationalLiteral num, KnownSymbol sym) => Fractional (NumLiteralOnly sym num) where
  fromRational = NumLiteralOnly . rationalLiteral
  recip = error [fmt|Only use as rational literal allowed for {symbolVal (Proxy @sym)}, you tried to use `recip` (NumLiteralOnly)|]
  (/) = error [fmt|Only use as numeric literal allowed for {symbolVal (Proxy @sym)}, you tried to divide (/) (NumLiteralOnly)|]