{-# LANGUAGE LambdaCase        #-}
{-# LANGUAGE OverloadedStrings #-}
{-# LANGUAGE RecordWildCards   #-}

{-# OPTIONS_GHC -Wall #-}

{-| This module provides internal pretty-printing utilities which are used by
    other modules but are not part of the public facing API
-}

module Dhall.Pretty.Internal (
      Ann(..)
    , annToAnsiStyle
    , prettyExpr
    , prettySrcExpr

    , CharacterSet(..)
    , prettyCharacterSet

    , prettyVar
    , pretty_
    , escapeText_
    , escapeEnvironmentVariable
    , prettyEnvironmentVariable

    , prettyConst
    , escapeLabel
    , prettyLabel
    , prettyAnyLabel
    , prettyLabels
    , prettyNatural
    , prettyNumber
    , prettyInt
    , prettyDouble
    , prettyToStrictText
    , prettyToString
    , layout
    , layoutOpts

    , docToStrictText

    , builtin
    , keyword
    , literal
    , operator

    , colon
    , comma
    , dot
    , equals
    , forall
    , label
    , lambda
    , langle
    , lbrace
    , lbracket
    , lparen
    , pipe
    , rangle
    , rarrow
    , rbrace
    , rbracket
    , rparen
    ) where

import Data.Foldable
import Data.List.NonEmpty (NonEmpty)
import Data.Monoid ((<>))
import Data.Text (Text)
import Data.Text.Prettyprint.Doc (Doc, Pretty, space)
import Dhall.Map (Map)
import Dhall.Set (Set)
import Dhall.Src (Src(..))
import Dhall.Syntax
import Numeric.Natural (Natural)
import Prelude hiding (succ)
import qualified Data.Text.Prettyprint.Doc.Render.Terminal as Terminal

import qualified Data.Char
import qualified Data.HashSet
import qualified Data.List
import qualified Data.List.NonEmpty                      as NonEmpty
import qualified Data.Set
import qualified Data.Text                               as Text
import qualified Data.Text.Prettyprint.Doc               as Pretty
import qualified Data.Text.Prettyprint.Doc.Render.Text   as Pretty
import qualified Data.Text.Prettyprint.Doc.Render.String as Pretty
import qualified Dhall.Map                               as Map
import qualified Dhall.Set

{-| Annotation type used to tag elements in a pretty-printed document for
    syntax highlighting purposes
-}
data Ann
  = Keyword     -- ^ Used for syntactic keywords
  | Syntax      -- ^ Syntax punctuation such as commas, parenthesis, and braces
  | Label       -- ^ Record labels
  | Literal     -- ^ Literals such as integers and strings
  | Builtin     -- ^ Builtin types and values
  | Operator    -- ^ Operators
  deriving Show

{-| Convert annotations to their corresponding color for syntax highlighting
    purposes
-}
annToAnsiStyle :: Ann -> Terminal.AnsiStyle
annToAnsiStyle Keyword  = Terminal.bold <> Terminal.colorDull Terminal.Green
annToAnsiStyle Syntax   = Terminal.bold <> Terminal.colorDull Terminal.Green
annToAnsiStyle Label    = mempty
annToAnsiStyle Literal  = Terminal.colorDull Terminal.Magenta
annToAnsiStyle Builtin  = Terminal.underlined
annToAnsiStyle Operator = Terminal.bold <> Terminal.colorDull Terminal.Green

-- | This type determines whether to render code as `ASCII` or `Unicode`
data CharacterSet = ASCII | Unicode deriving Show

-- | Pretty print an expression
prettyExpr :: Pretty a => Expr s a -> Doc Ann
prettyExpr = prettySrcExpr . denote

prettySrcExpr :: Pretty a => Expr Src a -> Doc Ann
prettySrcExpr = prettyCharacterSet Unicode

{-| Internal utility for pretty-printing, used when generating element lists
    to supply to `enclose` or `enclose'`.  This utility indicates that the
    compact represent is the same as the multi-line representation for each
    element
-}
duplicate :: a -> (a, a)
duplicate x = (x, x)

isWhitespace :: Char -> Bool
isWhitespace c =
    case c of
        ' '  -> True
        '\n' -> True
        '\t' -> True
        '\r' -> True
        _    -> False

{-| Used to render inline `Src` spans preserved by the syntax tree

    >>> let unusedSourcePos = Text.Megaparsec.SourcePos "" (Text.Megaparsec.mkPos 1) (Text.Megaparsec.mkPos 1)
    >>> let nonEmptySrc = Src unusedSourcePos unusedSourcePos "-- Documentation for x\n"
    >>> "let" <> " " <> renderSrc id (Just nonEmptySrc) <> "x = 1 in x"
    let -- Documentation for x
        x = 1 in x
    >>> let emptySrc = Src unusedSourcePos unusedSourcePos "      "
    >>> "let" <> " " <> renderSrc id (Just emptySrc) <> "x = 1 in x"
    let x = 1 in x
    >>> "let" <> " " <> renderSrc id Nothing <> "x = 1 in x"
    let x = 1 in x
-}
renderSrc
    :: (Text -> Text)
    -- ^ Used to preprocess the comment string (e.g. to strip whitespace)
    -> Maybe Src
    -- ^ Source span to render (if present)
    -> Doc Ann
renderSrc strip (Just (Src {..}))
    | not (Text.all isWhitespace srcText) =
        Pretty.align (Pretty.concatWith f newLines <> suffix)
  where
    horizontalSpace c = c == ' ' || c == '\t'

    strippedText = strip srcText

    suffix =
        if Text.null strippedText
        then mempty
        else if Text.last strippedText == '\n' then mempty else " "

    oldLines = Text.splitOn "\n" strippedText

    spacePrefix = Text.takeWhile horizontalSpace

    commonPrefix a b = case Text.commonPrefixes a b of
        Nothing        -> ""
        Just (c, _, _) -> c

    blank = Text.all horizontalSpace

    newLines =
        case oldLines of
            [] ->
               []
            l0 : [] ->
                Pretty.pretty l0 : []
            l0 : l1 : ls ->
                let sharedPrefix =
                        foldl' commonPrefix (spacePrefix l1) (map spacePrefix (filter (not . blank) ls))

                    perLine l =
                        case Text.stripPrefix sharedPrefix l of
                            Nothing -> Pretty.pretty l
                            Just l' -> Pretty.pretty l'

                in  Pretty.pretty l0 : map perLine (l1 : ls)

    f x y = x <> Pretty.hardline <> y
renderSrc _ _ =
    mempty

-- Annotation helpers
keyword, syntax, label, literal, builtin, operator :: Doc Ann -> Doc Ann
keyword  = Pretty.annotate Keyword
syntax   = Pretty.annotate Syntax
label    = Pretty.annotate Label
literal  = Pretty.annotate Literal
builtin  = Pretty.annotate Builtin
operator = Pretty.annotate Operator

comma, lbracket, rbracket, langle, rangle, lbrace, rbrace, lparen, rparen, pipe, dollar, colon, equals, dot :: Doc Ann
comma    = syntax Pretty.comma
lbracket = syntax Pretty.lbracket
rbracket = syntax Pretty.rbracket
langle   = syntax Pretty.langle
rangle   = syntax Pretty.rangle
lbrace   = syntax Pretty.lbrace
rbrace   = syntax Pretty.rbrace
lparen   = syntax Pretty.lparen
rparen   = syntax Pretty.rparen
pipe     = syntax Pretty.pipe
dollar   = syntax "$"
colon    = syntax ":"
equals   = syntax "="
dot      = syntax "."

lambda :: CharacterSet -> Doc Ann
lambda Unicode = syntax "λ"
lambda ASCII   = syntax "\\"

forall :: CharacterSet -> Doc Ann
forall Unicode = syntax "∀"
forall ASCII   = syntax "forall "

rarrow :: CharacterSet -> Doc Ann
rarrow Unicode = syntax "→"
rarrow ASCII   = syntax "->"

doubleColon :: Doc Ann
doubleColon = syntax "::"

-- | Pretty-print a list
list :: [Doc Ann] -> Doc Ann
list   [] = lbracket <> rbracket
list docs =
    enclose
        (lbracket <> space)
        (lbracket <> space)
        (comma <> space)
        (comma <> space)
        (space <> rbracket)
        rbracket
        (fmap duplicate docs)

-- | Pretty-print union types and literals
angles :: [(Doc Ann, Doc Ann)] -> Doc Ann
angles   [] = langle <> rangle
angles docs =
    enclose
        (langle <> space)
        (langle <> space)
        (space <> pipe <> space)
        (pipe <> space)
        (space <> rangle)
        rangle
        docs

-- | Pretty-print record types and literals
braces :: [(Doc Ann, Doc Ann)] -> Doc Ann
braces   [] = lbrace <> rbrace
braces docs =
    enclose
        (lbrace <> space)
        (lbrace <> space)
        (comma <> space)
        (comma <> space)
        (space <> rbrace)
        rbrace
        docs

hangingBraces :: Int -> [(Doc Ann, Doc Ann)] -> Doc Ann
hangingBraces _ [] =
    lbrace <> rbrace
hangingBraces n docs =
    Pretty.group
        (Pretty.flatAlt
            (  lbrace
            <> Pretty.hardline
            <> Pretty.indent n
               ( mconcat (zipWith combineLong (repeat separator) docsLong)
               <> rbrace
               )
            )
            (mconcat (zipWith (<>) (beginShort : repeat separator) docsShort) <> space <> rbrace)
        )
  where
    separator = comma <> space

    docsShort = fmap fst docs

    docsLong = fmap snd docs

    beginShort = lbrace <> space

    combineLong x y = x <> y <> Pretty.hardline

-- | Pretty-print anonymous functions and function types
arrows :: CharacterSet -> [(Doc Ann, Doc Ann)] -> Doc Ann
arrows ASCII =
    enclose'
        ""
        "    "
        (" " <> rarrow ASCII <> " ")
        (rarrow ASCII <> "  ")
arrows Unicode =
    enclose'
        ""
        "  "
        (" " <> rarrow Unicode <> " ")
        (rarrow Unicode <> " ")

combine :: CharacterSet -> Text
combine ASCII   = "/\\"
combine Unicode = "∧"

combineTypes :: CharacterSet -> Text
combineTypes ASCII   = "//\\\\"
combineTypes Unicode = "⩓"

prefer :: CharacterSet -> Text
prefer ASCII   = "//"
prefer Unicode = "⫽"

equivalent :: CharacterSet -> Text
equivalent ASCII   = "==="
equivalent Unicode = "≡"

{-| Format an expression that holds a variable number of elements, such as a
    list, record, or union
-}
enclose
    :: Doc ann
    -- ^ Beginning document for compact representation
    -> Doc ann
    -- ^ Beginning document for multi-line representation
    -> Doc ann
    -- ^ Separator for compact representation
    -> Doc ann
    -- ^ Separator for multi-line representation
    -> Doc ann
    -- ^ Ending document for compact representation
    -> Doc ann
    -- ^ Ending document for multi-line representation
    -> [(Doc ann, Doc ann)]
    -- ^ Elements to format, each of which is a pair: @(compact, multi-line)@
    -> Doc ann
enclose beginShort _         _        _       endShort _       []   =
    beginShort <> endShort
  where
enclose beginShort beginLong sepShort sepLong endShort endLong docs =
    Pretty.group
        (Pretty.flatAlt
            (Pretty.align
                (mconcat (zipWith combineLong (beginLong : repeat sepLong) docsLong) <> endLong)
            )
            (mconcat (zipWith combineShort (beginShort : repeat sepShort) docsShort) <> endShort)
        )
  where
    docsShort = fmap fst docs

    docsLong = fmap snd docs

    combineLong x y = x <> y <> Pretty.hardline

    combineShort x y = x <> y

{-| Format an expression that holds a variable number of elements without a
    trailing document such as nested `let`, nested lambdas, or nested `forall`s
-}
enclose'
    :: Doc ann
    -- ^ Beginning document for compact representation
    -> Doc ann
    -- ^ Beginning document for multi-line representation
    -> Doc ann
    -- ^ Separator for compact representation
    -> Doc ann
    -- ^ Separator for multi-line representation
    -> [(Doc ann, Doc ann)]
    -- ^ Elements to format, each of which is a pair: @(compact, multi-line)@
    -> Doc ann
enclose' beginShort beginLong sepShort sepLong docs =
    Pretty.group (Pretty.flatAlt long short)
  where
    longLines = zipWith (<>) (beginLong : repeat sepLong) docsLong

    long =
        Pretty.align (mconcat (Data.List.intersperse Pretty.hardline longLines))

    short = mconcat (zipWith (<>) (beginShort : repeat sepShort) docsShort)

    docsShort = fmap fst docs

    docsLong = fmap snd docs

alpha :: Char -> Bool
alpha c = ('\x41' <= c && c <= '\x5A') || ('\x61' <= c && c <= '\x7A')

digit :: Char -> Bool
digit c = '\x30' <= c && c <= '\x39'

alphaNum :: Char -> Bool
alphaNum c = alpha c || digit c

headCharacter :: Char -> Bool
headCharacter c = alpha c || c == '_'

tailCharacter :: Char -> Bool
tailCharacter c = alphaNum c || c == '_' || c == '-' || c == '/'

-- | Escape a label if it is not valid when unquoted
escapeLabel :: Bool -> Text -> Text
escapeLabel allowReserved l =
    case Text.uncons l of
        Just (h, t)
            | headCharacter h && Text.all tailCharacter t && (allowReserved || not (Data.HashSet.member l reservedIdentifiers))
                -> l
        _       -> "`" <> l <> "`"

prettyLabelShared :: Bool -> Text -> Doc Ann
prettyLabelShared b l = label (Pretty.pretty (escapeLabel b l))

prettyLabel :: Text -> Doc Ann
prettyLabel = prettyLabelShared False

prettyAnyLabel :: Text -> Doc Ann
prettyAnyLabel = prettyLabelShared True

prettyAnyLabels :: NonEmpty Text -> Doc Ann
prettyAnyLabels =
    mconcat . Pretty.punctuate dot . fmap prettyAnyLabel . toList

prettyLabels :: Set Text -> Doc Ann
prettyLabels a
    | Data.Set.null (Dhall.Set.toSet a) =
        lbrace <> rbrace
    | otherwise =
        braces (map (duplicate . prettyAnyLabel) (Dhall.Set.toList a))

prettyNumber :: Integer -> Doc Ann
prettyNumber = literal . Pretty.pretty

prettyInt :: Int -> Doc Ann
prettyInt = literal . Pretty.pretty

prettyNatural :: Natural -> Doc Ann
prettyNatural = literal . Pretty.pretty

prettyDouble :: Double -> Doc Ann
prettyDouble = literal . Pretty.pretty

prettyConst :: Const -> Doc Ann
prettyConst Type = builtin "Type"
prettyConst Kind = builtin "Kind"
prettyConst Sort = builtin "Sort"

prettyVar :: Var -> Doc Ann
prettyVar (V x 0) = label (Pretty.unAnnotate (prettyLabel x))
prettyVar (V x n) = label (Pretty.unAnnotate (prettyLabel x <> "@" <> prettyInt n))

prettyEnvironmentVariable :: Text -> Doc ann
prettyEnvironmentVariable t = Pretty.pretty (escapeEnvironmentVariable t)

-- | Escape an environment variable if not a valid Bash environment variable
escapeEnvironmentVariable :: Text -> Text
escapeEnvironmentVariable t
  | validBashEnvVar t = t
  | otherwise         = "\"" <> escapeText_ t <> "\""
  where
    validBashEnvVar v = case Text.uncons v of
        Nothing      -> False
        Just (c, v') ->
                (alpha c || c == '_')
            &&  Text.all (\c' -> alphaNum c' || c' == '_') v'

{-  There is a close correspondence between the pretty-printers in 'prettyCharacterSet'
    and the sub-parsers in 'Dhall.Parser.Expression.parsers'.  Most pretty-printers are
    named after the corresponding parser and the relationship between pretty-printers
    exactly matches the relationship between parsers.  This leads to the nice emergent
    property of automatically getting all the parentheses and precedences right.

    This approach has one major disadvantage: you can get an infinite loop if
    you add a new constructor to the syntax tree without adding a matching
    case the corresponding builder.
-}

{-| Pretty-print an 'Expr' using the given 'CharacterSet'.

'prettyCharacterSet' largely ignores 'Note's. 'Note's do however matter for
the layout of let-blocks:

>>> let inner = Let (Binding Nothing "x" Nothing Nothing Nothing (NaturalLit 1)) (Var (V "x" 0)) :: Expr Src ()
>>> prettyCharacterSet ASCII (Let (Binding Nothing "y" Nothing Nothing Nothing (NaturalLit 2)) inner)
let y = 2 let x = 1 in x
>>> prettyCharacterSet ASCII (Let (Binding Nothing "y" Nothing Nothing Nothing (NaturalLit 2)) (Note (Src unusedSourcePos unusedSourcePos "") inner))
let y = 2 in let x = 1 in x

This means the structure of parsed let-blocks is preserved.
-}
prettyCharacterSet :: Pretty a => CharacterSet -> Expr Src a -> Doc Ann
prettyCharacterSet characterSet expression =
    Pretty.group (prettyExpression expression)
  where
    prettyExpression a0@(Lam _ _ _) =
        arrows characterSet (fmap duplicate (docs a0))
      where
        docs (Lam a b c) = Pretty.group (Pretty.flatAlt long short) : docs c
          where
            long =  (lambda characterSet <> space)
                <>  Pretty.align
                    (   (lparen <> space)
                    <>  prettyLabel a
                    <>  Pretty.hardline
                    <>  (colon <> space)
                    <>  prettyExpression b
                    <>  Pretty.hardline
                    <>  rparen
                    )

            short = (lambda characterSet <> lparen)
                <>  prettyLabel a
                <>  (space <> colon <> space)
                <>  prettyExpression b
                <>  rparen
        docs (Note  _ c) = docs c
        docs          c  = [ prettyExpression c ]
    prettyExpression a0@(BoolIf _ _ _) =
        Pretty.group (Pretty.flatAlt long short)
      where
        prefixesLong =
                "      "
            :   cycle
                    [ Pretty.hardline <> keyword "then" <> "  "
                    , Pretty.hardline <> keyword "else" <> "  "
                    ]

        prefixesShort =
                ""
            :   cycle
                    [ space <> keyword "then" <> space
                    , space <> keyword "else" <> space
                    ]

        longLines = zipWith (<>) prefixesLong (docsLong a0)

        long =
            Pretty.align (mconcat (Data.List.intersperse Pretty.hardline longLines))

        short = mconcat (zipWith (<>) prefixesShort (docsShort a0))

        docsLong (BoolIf a b c) =
            docLong ++ docsLong c
          where
            docLong =
                [   keyword "if" <> " " <> prettyExpression a
                ,   prettyExpression b
                ]
        docsLong (Note  _    c) = docsLong c
        docsLong             c  = [ prettyExpression c ]

        docsShort (BoolIf a b c) =
            docShort ++ docsShort c
          where
            docShort =
                [   keyword "if" <> " " <> prettyExpression a
                ,   prettyExpression b
                ]
        docsShort (Note  _    c) = docsShort c
        docsShort             c  = [ prettyExpression c ]
    prettyExpression (Let a0 b0) =
        enclose' "" "" space Pretty.hardline
            (fmap duplicate (fmap docA (toList as)) ++ [ docB ])
      where
        MultiLet as b = multiLet a0 b0

        stripSpaces = Text.dropAround (\c -> c == ' ' || c == '\t')

        -- Strip a single newline character. Needed to ensure idempotency in
        -- cases where we add hard line breaks.
        stripNewline t =
            case Text.uncons t' of
                Just ('\n', t'') -> stripSpaces t''
                _ -> t'
          where t' = stripSpaces t

        docA (Binding src0 c src1 Nothing src2 e) =
            Pretty.group (Pretty.flatAlt long short)
          where
            long =  keyword "let" <> space
                <>  Pretty.align
                    (   renderSrc stripSpaces src0
                    <>  prettyLabel c <> space <> renderSrc stripSpaces src1
                    <>  equals <> Pretty.hardline <> renderSrc stripNewline src2
                    <>  "  " <> prettyExpression e
                    )

            short = keyword "let" <> space <> renderSrc stripSpaces src0
                <>  prettyLabel c <> space <> renderSrc stripSpaces src1
                <>  equals <> space <> renderSrc stripSpaces src2
                <>  prettyExpression e
        docA (Binding src0 c src1 (Just (src3, d)) src2 e) =
                keyword "let" <> space
            <>  Pretty.align
                (   renderSrc stripSpaces src0
                <>  prettyLabel c <> Pretty.hardline <> renderSrc stripNewline src1
                <>  colon <> space <> renderSrc stripSpaces src3 <> prettyExpression d <> Pretty.hardline
                <>  equals <> space <> renderSrc stripSpaces src2
                <>  prettyExpression e
                )

        docB =
            ( keyword "in" <> " " <> prettyExpression b
            , keyword "in" <> "  "  <> prettyExpression b
            )
    prettyExpression a0@(Pi _ _ _) =
        arrows characterSet (fmap duplicate (docs a0))
      where
        docs (Pi "_" b c) = prettyOperatorExpression b : docs c
        docs (Pi a   b c) = Pretty.group (Pretty.flatAlt long short) : docs c
          where
            long =  forall characterSet <> space
                <>  Pretty.align
                    (   lparen <> space
                    <>  prettyLabel a
                    <>  Pretty.hardline
                    <>  colon <> space
                    <>  prettyExpression b
                    <>  Pretty.hardline
                    <>  rparen
                    )

            short = forall characterSet <> lparen
                <>  prettyLabel a
                <>  space <> colon <> space
                <>  prettyExpression b
                <>  rparen
        docs (Note _   c) = docs c
        docs           c  = [ prettyExpression c ]
    prettyExpression (Assert a) =
        Pretty.group (Pretty.flatAlt long short)
      where
        short = keyword "assert" <> " " <> colon <> " " <> prettyExpression a

        long =
            Pretty.align
            (  "  " <> keyword "assert"
            <> Pretty.hardline <> colon <> " " <> prettyExpression a
            )
    prettyExpression (Note _ a) =
        prettyExpression a
    prettyExpression a0 =
        prettyAnnotatedExpression a0

    prettyAnnotatedExpression :: Pretty a => Expr Src a -> Doc Ann
    prettyAnnotatedExpression (Merge a b (Just c)) =
        Pretty.group (Pretty.flatAlt long short)
      where
        long =
            Pretty.align
                (   keyword "merge"
                <>  Pretty.hardline
                <>  Pretty.indent 2 (prettyImportExpression a)
                <>  Pretty.hardline
                <>  Pretty.indent 2 (prettyImportExpression b)
                <>  Pretty.hardline
                <>  colon <> space
                <>  prettyApplicationExpression c
                )

        short = keyword "merge" <> space
            <>  prettyImportExpression a
            <>  " "
            <>  prettyImportExpression b
            <>  space <> colon <> space
            <>  prettyApplicationExpression c
    prettyAnnotatedExpression (ToMap a (Just b)) =
        Pretty.group (Pretty.flatAlt long short)
      where
        long =
            Pretty.align
                (   keyword "toMap"
                <>  Pretty.hardline
                <>  Pretty.indent 2 (prettyImportExpression a)
                <>  Pretty.hardline
                <>  colon <> space
                <>  prettyApplicationExpression b
                )

        short = keyword "toMap" <> space
            <>  prettyImportExpression a
            <>  space <> colon <> space
            <>  prettyApplicationExpression b
    prettyAnnotatedExpression a0@(Annot _ _) =
        enclose'
            ""
            "  "
            (" " <> colon <> " ")
            (colon <> space)
            (fmap duplicate (docs a0))
      where
        docs (Annot a b) = prettyOperatorExpression a : docs b
        docs (Note  _ b) = docs b
        docs          b  = [ prettyExpression b ]
    prettyAnnotatedExpression (ListLit (Just a) b) =
            list (map prettyExpression (Data.Foldable.toList b))
        <>  " : "
        <>  prettyApplicationExpression a
    prettyAnnotatedExpression (Note _ a) =
        prettyAnnotatedExpression a
    prettyAnnotatedExpression a0 =
        prettyOperatorExpression a0

    prettyOperatorExpression :: Pretty a => Expr Src a -> Doc Ann
    prettyOperatorExpression = prettyImportAltExpression

    prettyOperator :: Text -> [Doc Ann] -> Doc Ann
    prettyOperator op docs =
        enclose'
            ""
            prefix
            (" " <> operator (Pretty.pretty op) <> " ")
            (operator (Pretty.pretty op) <> spacer)
            (reverse (fmap duplicate docs))
      where
        prefix = if Text.length op == 1 then "  " else "    "

        spacer = if Text.length op == 1 then " "  else "  "

    prettyImportAltExpression :: Pretty a => Expr Src a -> Doc Ann
    prettyImportAltExpression a0@(ImportAlt _ _) =
        prettyOperator "?" (docs a0)
      where
        docs (ImportAlt a b) = prettyOrExpression b : docs a
        docs (Note      _ b) = docs b
        docs              b  = [ prettyOrExpression b ]
    prettyImportAltExpression (Note _ a) =
        prettyImportAltExpression a
    prettyImportAltExpression a0 =
        prettyOrExpression a0

    prettyOrExpression :: Pretty a => Expr Src a -> Doc Ann
    prettyOrExpression a0@(BoolOr _ _) =
        prettyOperator "||" (docs a0)
      where
        docs (BoolOr a b) = prettyPlusExpression b : docs a
        docs (Note   _ b) = docs b
        docs           b  = [ prettyPlusExpression b ]
    prettyOrExpression (Note _ a) =
        prettyOrExpression a
    prettyOrExpression a0 =
        prettyPlusExpression a0

    prettyPlusExpression :: Pretty a => Expr Src a -> Doc Ann
    prettyPlusExpression a0@(NaturalPlus _ _) =
        prettyOperator "+" (docs a0)
      where
        docs (NaturalPlus a b) = prettyTextAppendExpression b : docs a
        docs (Note        _ b) = docs b
        docs                b  = [ prettyTextAppendExpression b ]
    prettyPlusExpression (Note _ a) =
        prettyPlusExpression a
    prettyPlusExpression a0 =
        prettyTextAppendExpression a0

    prettyTextAppendExpression :: Pretty a => Expr Src a -> Doc Ann
    prettyTextAppendExpression a0@(TextAppend _ _) =
        prettyOperator "++" (docs a0)
      where
        docs (TextAppend a b) = prettyListAppendExpression b : docs a
        docs (Note       _ b) = docs b
        docs               b  = [ prettyListAppendExpression b ]
    prettyTextAppendExpression (Note _ a) =
        prettyTextAppendExpression a
    prettyTextAppendExpression a0 =
        prettyListAppendExpression a0

    prettyListAppendExpression :: Pretty a => Expr Src a -> Doc Ann
    prettyListAppendExpression a0@(ListAppend _ _) =
        prettyOperator "#" (docs a0)
      where
        docs (ListAppend a b) = prettyAndExpression b : docs a
        docs (Note       _ b) = docs b
        docs               b  = [ prettyAndExpression b ]
    prettyListAppendExpression (Note _ a) =
        prettyListAppendExpression a
    prettyListAppendExpression a0 =
        prettyAndExpression a0

    prettyAndExpression :: Pretty a => Expr Src a -> Doc Ann
    prettyAndExpression a0@(BoolAnd _ _) =
        prettyOperator "&&" (docs a0)
      where
        docs (BoolAnd a b) = prettyCombineExpression b : docs a
        docs (Note    _ b) = docs b
        docs            b  = [ prettyCombineExpression b ]
    prettyAndExpression (Note _ a) =
        prettyAndExpression a
    prettyAndExpression a0 =
       prettyCombineExpression a0

    prettyCombineExpression :: Pretty a => Expr Src a -> Doc Ann
    prettyCombineExpression a0@(Combine _ _ _) =
        prettyOperator (combine characterSet) (docs a0)
      where
        docs (Combine _ a b) = prettyPreferExpression b : docs a
        docs (Note      _ b) = docs b
        docs              b  = [ prettyPreferExpression b ]
    prettyCombineExpression (Note _ a) =
        prettyCombineExpression a
    prettyCombineExpression a0 =
        prettyPreferExpression a0

    prettyPreferExpression :: Pretty a => Expr Src a -> Doc Ann
    prettyPreferExpression a0@(Prefer _ _) =
        prettyOperator (prefer characterSet) (docs a0)
      where
        docs (Prefer a b) = prettyCombineTypesExpression b : docs a
        docs (Note   _ b) = docs b
        docs           b  = [ prettyCombineTypesExpression b ]
    prettyPreferExpression (Note _ a) =
        prettyPreferExpression a
    prettyPreferExpression a0 =
        prettyCombineTypesExpression a0

    prettyCombineTypesExpression :: Pretty a => Expr Src a -> Doc Ann
    prettyCombineTypesExpression a0@(CombineTypes _ _) =
        prettyOperator (combineTypes characterSet) (docs a0)
      where
        docs (CombineTypes a b) = prettyTimesExpression b : docs a
        docs (Note         _ b) = docs b
        docs                 b  = [ prettyTimesExpression b ]
    prettyCombineTypesExpression (Note _ a) =
        prettyCombineTypesExpression a
    prettyCombineTypesExpression a0 =
        prettyTimesExpression a0

    prettyTimesExpression :: Pretty a => Expr Src a -> Doc Ann
    prettyTimesExpression a0@(NaturalTimes _ _) =
        prettyOperator "*" (docs a0)
      where
        docs (NaturalTimes a b) = prettyEqualExpression b : docs a
        docs (Note         _ b) = docs b
        docs                 b  = [ prettyEqualExpression b ]
    prettyTimesExpression (Note _ a) =
        prettyTimesExpression a
    prettyTimesExpression a0 =
        prettyEqualExpression a0

    prettyEqualExpression :: Pretty a => Expr Src a -> Doc Ann
    prettyEqualExpression a0@(BoolEQ _ _) =
        prettyOperator "==" (docs a0)
      where
        docs (BoolEQ a b) = prettyNotEqualExpression b : docs a
        docs (Note   _ b) = docs b
        docs           b  = [ prettyNotEqualExpression b ]
    prettyEqualExpression (Note _ a) =
        prettyEqualExpression a
    prettyEqualExpression a0 =
        prettyNotEqualExpression a0

    prettyNotEqualExpression :: Pretty a => Expr Src a -> Doc Ann
    prettyNotEqualExpression a0@(BoolNE _ _) =
        prettyOperator "!=" (docs a0)
      where
        docs (BoolNE a b) = prettyEquivalentExpression b : docs a
        docs (Note   _ b) = docs b
        docs           b  = [ prettyEquivalentExpression b ]
    prettyNotEqualExpression (Note _ a) =
        prettyNotEqualExpression a
    prettyNotEqualExpression a0 =
        prettyEquivalentExpression a0

    prettyEquivalentExpression :: Pretty a => Expr Src a -> Doc Ann
    prettyEquivalentExpression a0@(Equivalent _ _) =
        prettyOperator (equivalent characterSet) (docs a0)
      where
        docs (Equivalent a b) = prettyApplicationExpression b : docs a
        docs (Note       _ b) = docs b
        docs               b  = [ prettyApplicationExpression b ]
    prettyEquivalentExpression (Note _ a) =
        prettyEquivalentExpression a
    prettyEquivalentExpression a0 =
        prettyApplicationExpression a0

    prettyApplicationExpression :: Pretty a => Expr Src a -> Doc Ann
    prettyApplicationExpression = go []
      where
        go args = \case
            App a b           -> go (b : args) a
            Some a            -> app (builtin "Some") (a : args)
            Merge a b Nothing -> app (keyword "merge") (a : b : args)
            ToMap a Nothing   -> app (keyword "toMap") (a : args)
            Note _ b          -> go args b
            e | null args     -> prettyImportExpression e -- just a performance optimization
              | otherwise     -> app (prettyImportExpression e) args

        app f args =
            enclose'
                "" "" " " ""
                ( duplicate f
                : map (fmap (Pretty.indent 2) . duplicate . prettyImportExpression) args
                )

    prettyImportExpression :: Pretty a => Expr Src a -> Doc Ann
    prettyImportExpression (Embed a) =
        Pretty.pretty a
    prettyImportExpression (Note _ a) =
        prettyImportExpression a
    prettyImportExpression a0 =
        prettyCompletionExpression a0

    prettyCompletionExpression :: Pretty a => Expr Src a -> Doc Ann
    prettyCompletionExpression (RecordCompletion a b) =
        case shallowDenote b of
            RecordLit kvs ->
                Pretty.align
                    (   prettySelectorExpression a
                    <>  doubleColon
                    <>  prettyCompletionLit 0 kvs
                    )
            _ ->    prettySelectorExpression a
                <>  doubleColon
                <>  prettySelectorExpression b

    prettyCompletionExpression (Note _ a) =
        prettyCompletionExpression a
    prettyCompletionExpression a0 =
        prettySelectorExpression a0

    prettySelectorExpression :: Pretty a => Expr Src a -> Doc Ann
    prettySelectorExpression (Field a b) =
        prettySelectorExpression a <> dot <> prettyAnyLabel b
    prettySelectorExpression (Project a (Left b)) =
        prettySelectorExpression a <> dot <> prettyLabels b
    prettySelectorExpression (Project a (Right b)) =
            prettySelectorExpression a
        <>  dot
        <>  lparen
        <>  prettyExpression b
        <>  rparen
    prettySelectorExpression (Note _ b) =
        prettySelectorExpression b
    prettySelectorExpression a0 =
        prettyPrimitiveExpression a0

    prettyPrimitiveExpression :: Pretty a => Expr Src a -> Doc Ann
    prettyPrimitiveExpression (Var a) =
        prettyVar a
    prettyPrimitiveExpression (Const k) =
        prettyConst k
    prettyPrimitiveExpression Bool =
        builtin "Bool"
    prettyPrimitiveExpression Natural =
        builtin "Natural"
    prettyPrimitiveExpression NaturalFold =
        builtin "Natural/fold"
    prettyPrimitiveExpression NaturalBuild =
        builtin "Natural/build"
    prettyPrimitiveExpression NaturalIsZero =
        builtin "Natural/isZero"
    prettyPrimitiveExpression NaturalEven =
        builtin "Natural/even"
    prettyPrimitiveExpression NaturalOdd =
        builtin "Natural/odd"
    prettyPrimitiveExpression NaturalToInteger =
        builtin "Natural/toInteger"
    prettyPrimitiveExpression NaturalShow =
        builtin "Natural/show"
    prettyPrimitiveExpression NaturalSubtract =
        builtin "Natural/subtract"
    prettyPrimitiveExpression Integer =
        builtin "Integer"
    prettyPrimitiveExpression IntegerClamp =
        builtin "Integer/clamp"
    prettyPrimitiveExpression IntegerNegate =
        builtin "Integer/negate"
    prettyPrimitiveExpression IntegerShow =
        builtin "Integer/show"
    prettyPrimitiveExpression IntegerToDouble =
        builtin "Integer/toDouble"
    prettyPrimitiveExpression Double =
        builtin "Double"
    prettyPrimitiveExpression DoubleShow =
        builtin "Double/show"
    prettyPrimitiveExpression Text =
        builtin "Text"
    prettyPrimitiveExpression TextShow =
        builtin "Text/show"
    prettyPrimitiveExpression List =
        builtin "List"
    prettyPrimitiveExpression ListBuild =
        builtin "List/build"
    prettyPrimitiveExpression ListFold =
        builtin "List/fold"
    prettyPrimitiveExpression ListLength =
        builtin "List/length"
    prettyPrimitiveExpression ListHead =
        builtin "List/head"
    prettyPrimitiveExpression ListLast =
        builtin "List/last"
    prettyPrimitiveExpression ListIndexed =
        builtin "List/indexed"
    prettyPrimitiveExpression ListReverse =
        builtin "List/reverse"
    prettyPrimitiveExpression Optional =
        builtin "Optional"
    prettyPrimitiveExpression None =
        builtin "None"
    prettyPrimitiveExpression OptionalFold =
        builtin "Optional/fold"
    prettyPrimitiveExpression OptionalBuild =
        builtin "Optional/build"
    prettyPrimitiveExpression (BoolLit True) =
        builtin "True"
    prettyPrimitiveExpression (BoolLit False) =
        builtin "False"
    prettyPrimitiveExpression (IntegerLit a)
        | 0 <= a    = literal "+" <> prettyNumber a
        | otherwise = prettyNumber a
    prettyPrimitiveExpression (NaturalLit a) =
        prettyNatural a
    prettyPrimitiveExpression (DoubleLit (DhallDouble a)) =
        prettyDouble a
    prettyPrimitiveExpression (TextLit a) =
        prettyChunks a
    prettyPrimitiveExpression (Record a) =
        prettyRecord a
    prettyPrimitiveExpression (RecordLit a) =
        prettyRecordLit a
    prettyPrimitiveExpression (Union a) =
        prettyUnion a
    prettyPrimitiveExpression (ListLit Nothing b) =
        list (map prettyExpression (Data.Foldable.toList b))
    prettyPrimitiveExpression (Note _ b) =
        prettyPrimitiveExpression b
    prettyPrimitiveExpression a =
        Pretty.group (Pretty.flatAlt long short)
      where
        long =
            Pretty.align
                (lparen <> space <> prettyExpression a <> Pretty.hardline <> rparen)

        short = lparen <> prettyExpression a <> rparen

    prettyKeyValue
        :: Pretty a => (k -> Doc Ann) -> Doc Ann -> (k, Expr Src a) -> (Doc Ann, Doc Ann)
    prettyKeyValue prettyKey separator (key, val) =
        duplicate (Pretty.group (Pretty.flatAlt long short))
      where
        completion _T r =
                " "
            <>  prettySelectorExpression _T
            <>  doubleColon
            <>  case shallowDenote r of
                    RecordLit kvs ->
                        prettyCompletionLit 2 kvs
                    _ ->
                        prettySelectorExpression r

        short = prettyKey key
            <>  " "
            <>  separator
            <>  " "
            <>  prettyExpression val

        long =
                prettyKey key
            <>  " "
            <>  separator
            <>  case shallowDenote val of
                    Some val' ->
                            " " <> builtin "Some"
                        <>  case shallowDenote val' of
                                RecordCompletion _T r ->
                                    completion _T r
                                ListLit _ xs
                                    | not (null xs) ->
                                            Pretty.hardline
                                        <>  "  "
                                        <>  prettyExpression val'
                                _ ->    Pretty.hardline
                                    <>  "    "
                                    <>  prettyImportExpression val'
                    ToMap val' Nothing ->
                            " " <> keyword "toMap"
                        <>  case shallowDenote val' of
                                RecordCompletion _T r ->
                                    completion _T r
                                _ ->    Pretty.hardline
                                    <>  "    "
                                    <>  prettyImportExpression val'
                    RecordCompletion _T r ->
                        completion _T r
                    ListLit _ xs
                        | not (null xs) ->
                                Pretty.hardline
                            <>  "  "
                            <>  prettyExpression val
                    _ ->
                            Pretty.hardline
                        <>  "    "
                        <>  prettyExpression val

    prettyRecord :: Pretty a => Map Text (Expr Src a) -> Doc Ann
    prettyRecord =
        braces . map (prettyKeyValue prettyAnyLabel colon) . Map.toList

    prettyRecordLit :: Pretty a => Map Text (Expr Src a) -> Doc Ann
    prettyRecordLit a
        | Data.Foldable.null a =
            lbrace <> equals <> rbrace
        | otherwise =
            braces (map prettyRecordEntry (Map.toList consolidated))
      where
        consolidated = consolidateRecordLiteral a

        prettyRecordEntry = prettyKeyValue prettyAnyLabels equals

    prettyCompletionLit
        :: Pretty a => Int -> Map Text (Expr Src a) -> Doc Ann
    prettyCompletionLit n a
        | Data.Foldable.null a =
            lbrace <> equals <> rbrace
        | otherwise =
            hangingBraces n (map prettyRecordEntry (Map.toList consolidated))
      where
        consolidated = consolidateRecordLiteral a

        prettyRecordEntry = prettyKeyValue prettyAnyLabels equals

    prettyAlternative (key, Just val) = prettyKeyValue prettyAnyLabel colon (key, val)
    prettyAlternative (key, Nothing ) = duplicate (prettyAnyLabel key)

    prettyUnion :: Pretty a => Map Text (Maybe (Expr Src a)) -> Doc Ann
    prettyUnion =
        angles . map prettyAlternative . Map.toList

    prettyChunks :: Pretty a => Chunks Src a -> Doc Ann
    prettyChunks chunks@(Chunks a b)
        | anyText (== '\n') =
            if not (null a) || anyText (/= '\n')
            then long
            else Pretty.group (Pretty.flatAlt long short)
        | otherwise =
            short
      where
        long =
            Pretty.align
            (   literal "''" <> Pretty.hardline
            <>  Pretty.align
                (foldMap prettyMultilineChunk a' <> prettyMultilineText b')
            <>  literal "''"
            )
          where
            Chunks a' b' = multilineChunks chunks

        short =
            literal "\"" <> foldMap prettyChunk a <> literal (prettyText b <> "\"")

        anyText predicate = any (\(text, _) -> Text.any predicate text) a || Text.any predicate b

        prettyMultilineChunk (c, d) =
                prettyMultilineText c
            <>  dollar
            <>  lbrace
            <>  prettyExpression d
            <>  rbrace

        prettyMultilineText text = mconcat docs
          where
            lines_ = Text.splitOn "\n" (escapeSingleQuotedText text)

            -- Annotate only non-empty lines so trailing whitespace can be
            -- removed on empty ones.
            prettyLine line =
                (if Text.null line then id else literal)
                    (Pretty.pretty line)

            docs =
                Data.List.intersperse Pretty.hardline (map prettyLine lines_)

        prettyChunk (c, d) =
                prettyText c
            <>  syntax "${"
            <>  prettyExpression d
            <>  syntax rbrace

        prettyText t = literal (Pretty.pretty (escapeText_ t))


-- | Prepare 'Chunks' for multi-line formatting by escaping problematic
-- character sequences via string interpolations
--
-- >>> multilineChunks (Chunks [] "\n \tx")
-- Chunks [("\n",TextLit (Chunks [] " \t"))] "x"
-- >>> multilineChunks (Chunks [] "\n\NUL\b\f\t")
-- Chunks [("\n",TextLit (Chunks [] "\NUL\b\f"))] "\t"
multilineChunks :: Chunks s a -> Chunks s a
multilineChunks =
     escapeTrailingSingleQuote
   . escapeControlCharacters
   . escapeSharedWhitespacePrefix

-- | Escape any leading whitespace shared by all lines
--
-- This ensures that significant shared leading whitespace is not stripped
--
-- >>> escapeSharedWhitespacePrefix (Chunks [] "\n \tx")
-- Chunks [("\n",TextLit (Chunks [] " \t"))] "x"
-- >>> escapeSharedWhitespacePrefix (Chunks [("\n",Var (V "x" 0))] " ")
-- Chunks [("\n",Var (V "x" 0))] " "
-- >>> escapeSharedWhitespacePrefix (Chunks [("\n ",Var (V "x" 0))] "")
-- Chunks [("\n",TextLit (Chunks [] " ")),("",Var (V "x" 0))] ""
-- >>> escapeSharedWhitespacePrefix (Chunks [("\n ",Var (V "x" 0))] "\n")
-- Chunks [("\n ",Var (V "x" 0))] "\n"
-- >>> escapeSharedWhitespacePrefix (Chunks [] " ")
-- Chunks [("",TextLit (Chunks [] " "))] ""
escapeSharedWhitespacePrefix :: Chunks s a -> Chunks s a
escapeSharedWhitespacePrefix literal_ = unlinesLiteral literals₁
  where
    literals₀ = linesLiteral literal_

    sharedPrefix = longestSharedWhitespacePrefix literals₀

    stripPrefix = Text.drop (Text.length sharedPrefix)

    escapeSharedPrefix (Chunks [] prefix₀)
        | Text.isPrefixOf sharedPrefix prefix₀ =
            Chunks [ ("", TextLit (Chunks [] sharedPrefix)) ] prefix₁
      where
        prefix₁ = stripPrefix prefix₀
    escapeSharedPrefix (Chunks ((prefix₀, y) : xys) z)
        | Text.isPrefixOf sharedPrefix prefix₀ =
            Chunks (("", TextLit (Chunks [] sharedPrefix)) : (prefix₁, y) : xys) z
      where
        prefix₁ = stripPrefix prefix₀
    escapeSharedPrefix line = line

    literals₁
        | not (Text.null sharedPrefix) = fmap escapeSharedPrefix literals₀
        | otherwise = literals₀

-- | Escape control characters by moving them into string interpolations
--
-- >>> escapeControlCharacters (Chunks [] "\n\NUL\b\f\t")
-- Chunks [("\n",TextLit (Chunks [] "\NUL\b\f"))] "\t"
escapeControlCharacters :: Chunks s a -> Chunks s a
escapeControlCharacters (Chunks as0 b0) = Chunks as1 b1
  where
    as1 = foldr f (map toChunk bs) as0

    (bs, b1) = splitOnPredicate predicate b0

    f (t0, e) chunks = map toChunk ts1 ++ (t1, e) : chunks
      where
        (ts1, t1) = splitOnPredicate predicate t0

    predicate c = Data.Char.isControl c && c /= ' ' && c /= '\t' && c /= '\n'

    toChunk (t0, t1) = (t0, TextLit (Chunks [] t1))

-- | Split `Text` on a predicate, preserving all parts of the original string.
--
-- >>> splitOnPredicate (== 'x') ""
-- ([],"")
-- >>> splitOnPredicate (== 'x') " xx "
-- ([(" ","xx")]," ")
-- >>> splitOnPredicate (== 'x') "xx"
-- ([("","xx")],"")
--
-- prop> \(Fun _ p) s -> let {t = Text.pack s; (as, b) = splitOnPredicate p t} in foldMap (uncurry (<>)) as <> b == t
splitOnPredicate :: (Char -> Bool) -> Text -> ([(Text, Text)], Text)
splitOnPredicate p t = case Text.break p t of
    (a, "") -> ([], a)
    (a, b)  -> case Text.span p b of
        (c, d) -> case splitOnPredicate p d of
            (e, f) -> ((a, c) : e, f)

-- | Escape a trailing single quote by moving it into a string interpolation
--
-- Otherwise the multiline-string would end with @'''@, which would be parsed
-- as an escaped @''@.
--
-- >>> escapeTrailingSingleQuote (Chunks [] "\n'")
-- Chunks [("\n",TextLit (Chunks [] "'"))] ""
escapeTrailingSingleQuote :: Chunks s a -> Chunks s a
escapeTrailingSingleQuote chunks@(Chunks as b) =
    case Text.unsnoc b of
        Just (b', '\'') -> Chunks (as ++ [(b', TextLit (Chunks [] "'"))]) ""
        _               -> chunks

-- | Pretty-print a value
pretty_ :: Pretty a => a -> Text
pretty_ = prettyToStrictText

{- This utility function converts
   `{ x = { y = { z = 1 } } }` to `{ x.y.z. = 1 }`
-}
consolidateRecordLiteral
    :: Map Text (Expr s a) -> Map (NonEmpty Text) (Expr s a)
consolidateRecordLiteral = Map.fromList . fmap adapt . Map.toList
  where
    adapt :: (Text, Expr s a) -> (NonEmpty Text, Expr s a)
    adapt (key, expression) =
        case shallowDenote expression of
            RecordLit m ->
                case fmap adapt (Map.toList m) of
                    [ (keys, expression') ] ->
                        (NonEmpty.cons key keys, expression')
                    _ ->
                        (pure key, RecordLit m)
            _ ->
                (pure key, expression)

-- | Escape a `Text` literal using Dhall's escaping rules for single-quoted
--   @Text@
escapeSingleQuotedText :: Text -> Text
escapeSingleQuotedText inputText = outputText
  where
    outputText = substitute "${" "''${" (substitute "''" "'''" inputText)

    substitute before after = Text.intercalate after . Text.splitOn before

{-| Escape a `Text` literal using Dhall's escaping rules

    Note that the result does not include surrounding quotes
-}
escapeText_ :: Text -> Text
escapeText_ text = Text.concatMap adapt text
  where
    adapt c
        | '\x20' <= c && c <= '\x21'     = Text.singleton c
        -- '\x22' == '"'
        | '\x23' == c                    = Text.singleton c
        -- '\x24' == '$'
        | '\x25' <= c && c <= '\x5B'     = Text.singleton c
        -- '\x5C' == '\\'
        | '\x5D' <= c && c <= '\x10FFFF' = Text.singleton c
        | c == '"'                       = "\\\""
        | c == '$'                       = "\\$"
        | c == '\\'                      = "\\\\"
        | c == '\b'                      = "\\b"
        | c == '\f'                      = "\\f"
        | c == '\n'                      = "\\n"
        | c == '\r'                      = "\\r"
        | c == '\t'                      = "\\t"
        | otherwise                      = "\\u" <> showDigits (Data.Char.ord c)

    showDigits r0 = Text.pack (map showDigit [q1, q2, q3, r3])
      where
        (q1, r1) = r0 `quotRem` 4096
        (q2, r2) = r1 `quotRem`  256
        (q3, r3) = r2 `quotRem`   16

    showDigit n
        | n < 10    = Data.Char.chr (Data.Char.ord '0' + n)
        | otherwise = Data.Char.chr (Data.Char.ord 'A' + n - 10)

prettyToString :: Pretty a => a -> String
prettyToString =
    Pretty.renderString . layout . Pretty.pretty

docToStrictText :: Doc ann -> Text.Text
docToStrictText = Pretty.renderStrict . layout

prettyToStrictText :: Pretty a => a -> Text.Text
prettyToStrictText = docToStrictText . Pretty.pretty

-- | Layout using 'layoutOpts'
--
-- Tries hard to fit the document into 80 columns.
--
-- This also removes trailing space characters (@' '@) /unless/
-- they are enclosed in an annotation.
layout :: Pretty.Doc ann -> Pretty.SimpleDocStream ann
layout = Pretty.removeTrailingWhitespace . Pretty.layoutSmart layoutOpts

-- | Default layout options
layoutOpts :: Pretty.LayoutOptions
layoutOpts =
    Pretty.defaultLayoutOptions
        { Pretty.layoutPageWidth = Pretty.AvailablePerLine 80 1.0 }

{- $setup
>>> import Test.QuickCheck (Fun(..))
-}