{-# OPTIONS_GHC -fno-warn-name-shadowing #-}
{-# LANGUAGE RecordWildCards #-}
{-# LANGUAGE TypeFamilies #-}
-----------------------------------------------------------------------------
-- |
-- Module : Haddock.Backends.LaTeX
-- Copyright : (c) Simon Marlow 2010,
-- Mateusz Kowalczyk 2013
-- License : BSD-like
--
-- Maintainer : haddock@projects.haskell.org
-- Stability : experimental
-- Portability : portable
-----------------------------------------------------------------------------
module Haddock.Backends.LaTeX (
ppLaTeX,
) where
import Documentation.Haddock.Markup
import Haddock.Types
import Haddock.Utils
import Haddock.GhcUtils
import Pretty hiding (Doc, quote)
import qualified Pretty
import BasicTypes ( PromotionFlag(..) )
import GHC
import OccName
import Name ( nameOccName )
import RdrName ( rdrNameOcc )
import FastString ( unpackFS )
import Outputable ( panic)
import qualified Data.Map as Map
import System.Directory
import System.FilePath
import Data.Char
import Control.Monad
import Data.Maybe
import Data.List
import Prelude hiding ((<>))
import Haddock.Doc (combineDocumentation)
-- import Debug.Trace
{- SAMPLE OUTPUT
\haddockmoduleheading{\texttt{Data.List}}
\hrulefill
{\haddockverb\begin{verbatim}
module Data.List (
(++), head, last, tail, init, null, length, map, reverse,
) where\end{verbatim}}
\hrulefill
\section{Basic functions}
\begin{haddockdesc}
\item[\begin{tabular}{@{}l}
head\ ::\ {\char 91}a{\char 93}\ ->\ a
\end{tabular}]\haddockbegindoc
Extract the first element of a list, which must be non-empty.
\par
\end{haddockdesc}
\begin{haddockdesc}
\item[\begin{tabular}{@{}l}
last\ ::\ {\char 91}a{\char 93}\ ->\ a
\end{tabular}]\haddockbegindoc
Extract the last element of a list, which must be finite and non-empty.
\par
\end{haddockdesc}
-}
{- TODO
* don't forget fixity!!
-}
ppLaTeX :: String -- Title
-> Maybe String -- Package name
-> [Interface]
-> FilePath -- destination directory
-> Maybe (Doc GHC.RdrName) -- prologue text, maybe
-> Maybe String -- style file
-> FilePath
-> IO ()
ppLaTeX title packageStr visible_ifaces odir prologue maybe_style libdir
= do
createDirectoryIfMissing True odir
when (isNothing maybe_style) $
copyFile (libdir </> "latex" </> haddockSty) (odir </> haddockSty)
ppLaTeXTop title packageStr odir prologue maybe_style visible_ifaces
mapM_ (ppLaTeXModule title odir) visible_ifaces
haddockSty :: FilePath
haddockSty = "haddock.sty"
type LaTeX = Pretty.Doc
ppLaTeXTop
:: String
-> Maybe String
-> FilePath
-> Maybe (Doc GHC.RdrName)
-> Maybe String
-> [Interface]
-> IO ()
ppLaTeXTop doctitle packageStr odir prologue maybe_style ifaces = do
let tex = vcat [
text "\\documentclass{book}",
text "\\usepackage" <> braces (maybe (text "haddock") text maybe_style),
text "\\begin{document}",
text "\\begin{titlepage}",
text "\\begin{haddocktitle}",
text doctitle,
text "\\end{haddocktitle}",
case prologue of
Nothing -> empty
Just d -> vcat [text "\\begin{haddockprologue}",
rdrDocToLaTeX d,
text "\\end{haddockprologue}"],
text "\\end{titlepage}",
text "\\tableofcontents",
vcat [ text "\\input" <> braces (text mdl) | mdl <- mods ],
text "\\end{document}"
]
mods = sort (map (moduleBasename.ifaceMod) ifaces)
filename = odir </> (fromMaybe "haddock" packageStr <.> "tex")
writeUtf8File filename (show tex)
ppLaTeXModule :: String -> FilePath -> Interface -> IO ()
ppLaTeXModule _title odir iface = do
createDirectoryIfMissing True odir
let
mdl = ifaceMod iface
mdl_str = moduleString mdl
exports = ifaceRnExportItems iface
tex = vcat [
text "\\haddockmoduleheading" <> braces (text mdl_str),
text "\\label{module:" <> text mdl_str <> char '}',
text "\\haddockbeginheader",
verb $ vcat [
text "module" <+> text mdl_str <+> lparen,
text " " <> fsep (punctuate (text ", ") $
map exportListItem $
filter forSummary exports),
text " ) where"
],
text "\\haddockendheader" $$ text "",
description,
body
]
description
= (fromMaybe empty . documentationToLaTeX . ifaceRnDoc) iface
body = processExports exports
--
writeUtf8File (odir </> moduleLaTeXFile mdl) (fullRender PageMode 80 1 txtPrinter "" tex)
-- | Prints out an entry in a module export list.
exportListItem :: ExportItem DocNameI -> LaTeX
exportListItem ExportDecl { expItemDecl = decl, expItemSubDocs = subdocs }
= let (leader, names) = declNames decl
in sep (punctuate comma [ leader <+> ppDocBinder name | name <- names ]) <>
case subdocs of
[] -> empty
_ -> parens (sep (punctuate comma (map (ppDocBinder . fst) subdocs)))
exportListItem (ExportNoDecl y [])
= ppDocBinder y
exportListItem (ExportNoDecl y subs)
= ppDocBinder y <> parens (sep (punctuate comma (map ppDocBinder subs)))
exportListItem (ExportModule mdl)
= text "module" <+> text (moduleString mdl)
exportListItem _
= error "exportListItem"
-- Deal with a group of undocumented exports together, to avoid lots
-- of blank vertical space between them.
processExports :: [ExportItem DocNameI] -> LaTeX
processExports [] = empty
processExports (decl : es)
| Just sig <- isSimpleSig decl
= multiDecl [ ppTypeSig (map getName names) typ False
| (names,typ) <- sig:sigs ] $$
processExports es'
where (sigs, es') = spanWith isSimpleSig es
processExports (ExportModule mdl : es)
= declWithDoc (vcat [ text "module" <+> text (moduleString m) | m <- mdl:mdls ]) Nothing $$
processExports es'
where (mdls, es') = spanWith isExportModule es
processExports (e : es) =
processExport e $$ processExports es
isSimpleSig :: ExportItem DocNameI -> Maybe ([DocName], HsType DocNameI)
isSimpleSig ExportDecl { expItemDecl = L _ (SigD _ (TypeSig _ lnames t))
, expItemMbDoc = (Documentation Nothing Nothing, argDocs) }
| Map.null argDocs = Just (map unLoc lnames, unLoc (hsSigWcType t))
isSimpleSig _ = Nothing
isExportModule :: ExportItem DocNameI -> Maybe Module
isExportModule (ExportModule m) = Just m
isExportModule _ = Nothing
processExport :: ExportItem DocNameI -> LaTeX
processExport (ExportGroup lev _id0 doc)
= ppDocGroup lev (docToLaTeX doc)
processExport (ExportDecl decl pats doc subdocs insts fixities _splice)
= ppDecl decl pats doc insts subdocs fixities
processExport (ExportNoDecl y [])
= ppDocName y
processExport (ExportNoDecl y subs)
= ppDocName y <> parens (sep (punctuate comma (map ppDocName subs)))
processExport (ExportModule mdl)
= declWithDoc (text "module" <+> text (moduleString mdl)) Nothing
processExport (ExportDoc doc)
= docToLaTeX $ _doc doc
ppDocGroup :: Int -> LaTeX -> LaTeX
ppDocGroup lev doc = sec lev <> braces doc
where sec 1 = text "\\section"
sec 2 = text "\\subsection"
sec 3 = text "\\subsubsection"
sec _ = text "\\paragraph"
-- | Given a declaration, extract out the names being declared
declNames :: LHsDecl DocNameI
-> ( LaTeX -- to print before each name in an export list
, [DocName] -- names being declared
)
declNames (L _ decl) = case decl of
TyClD _ d -> (empty, [tcdName d])
SigD _ (TypeSig _ lnames _ ) -> (empty, map unLoc lnames)
SigD _ (PatSynSig _ lnames _) -> (text "pattern", map unLoc lnames)
ForD _ (ForeignImport _ (L _ n) _ _) -> (empty, [n])
ForD _ (ForeignExport _ (L _ n) _ _) -> (empty, [n])
_ -> error "declaration not supported by declNames"
forSummary :: (ExportItem DocNameI) -> Bool
forSummary (ExportGroup _ _ _) = False
forSummary (ExportDoc _) = False
forSummary _ = True
moduleLaTeXFile :: Module -> FilePath
moduleLaTeXFile mdl = moduleBasename mdl ++ ".tex"
moduleBasename :: Module -> FilePath
moduleBasename mdl = map (\c -> if c == '.' then '-' else c)
(moduleNameString (moduleName mdl))
-------------------------------------------------------------------------------
-- * Decls
-------------------------------------------------------------------------------
-- | Pretty print a declaration
ppDecl :: LHsDecl DocNameI -- ^ decl to print
-> [(HsDecl DocNameI, DocForDecl DocName)] -- ^ all pattern decls
-> DocForDecl DocName -- ^ documentation for decl
-> [DocInstance DocNameI] -- ^ all instances
-> [(DocName, DocForDecl DocName)] -- ^ all subdocs
-> [(DocName, Fixity)] -- ^ all fixities
-> LaTeX
ppDecl decl pats (doc, fnArgsDoc) instances subdocs _fxts = case unLoc decl of
TyClD _ d@FamDecl {} -> ppFamDecl doc instances d unicode
TyClD _ d@DataDecl {} -> ppDataDecl pats instances subdocs (Just doc) d unicode
TyClD _ d@SynDecl {} -> ppTySyn (doc, fnArgsDoc) d unicode
-- Family instances happen via FamInst now
-- TyClD _ d@TySynonym{}
-- | Just _ <- tcdTyPats d -> ppTyInst False loc doc d unicode
-- Family instances happen via FamInst now
TyClD _ d@ClassDecl{} -> ppClassDecl instances doc subdocs d unicode
SigD _ (TypeSig _ lnames ty) -> ppFunSig (doc, fnArgsDoc) (map unLoc lnames) (hsSigWcType ty) unicode
SigD _ (PatSynSig _ lnames ty) -> ppLPatSig (doc, fnArgsDoc) (map unLoc lnames) ty unicode
ForD _ d -> ppFor (doc, fnArgsDoc) d unicode
InstD _ _ -> empty
DerivD _ _ -> empty
_ -> error "declaration not supported by ppDecl"
where
unicode = False
ppFor :: DocForDecl DocName -> ForeignDecl DocNameI -> Bool -> LaTeX
ppFor doc (ForeignImport _ (L _ name) typ _) unicode =
ppFunSig doc [name] (hsSigTypeI typ) unicode
ppFor _ _ _ = error "ppFor error in Haddock.Backends.LaTeX"
-- error "foreign declarations are currently not supported by --latex"
-------------------------------------------------------------------------------
-- * Type families
-------------------------------------------------------------------------------
-- | Pretty-print a data\/type family declaration
ppFamDecl :: Documentation DocName -- ^ this decl's docs
-> [DocInstance DocNameI] -- ^ relevant instances
-> TyClDecl DocNameI -- ^ family to print
-> Bool -- ^ unicode
-> LaTeX
ppFamDecl doc instances decl unicode =
declWithDoc (ppFamHeader (tcdFam decl) unicode <+> whereBit)
(if null body then Nothing else Just (vcat body))
$$ instancesBit
where
body = catMaybes [familyEqns, documentationToLaTeX doc]
whereBit = case fdInfo (tcdFam decl) of
ClosedTypeFamily _ -> keyword "where"
_ -> empty
familyEqns
| FamilyDecl { fdInfo = ClosedTypeFamily (Just eqns) } <- tcdFam decl
= Just (text "\\haddockbeginargs" $$
vcat [ decltt (ppFamDeclEqn eqn) <+> nl | L _ eqn <- eqns ] $$
text "\\end{tabulary}\\par")
| otherwise = Nothing
-- Individual equations of a closed type family
ppFamDeclEqn :: TyFamInstEqn DocNameI -> LaTeX
ppFamDeclEqn (HsIB { hsib_body = FamEqn { feqn_tycon = L _ n
, feqn_rhs = rhs
, feqn_pats = ts } })
= hsep [ ppAppNameTypeArgs n ts unicode
, equals
, ppType unicode (unLoc rhs)
]
ppFamDeclEqn (XHsImplicitBndrs nec) = noExtCon nec
ppFamDeclEqn (HsIB { hsib_body = XFamEqn nec}) = noExtCon nec
instancesBit = ppDocInstances unicode instances
-- | Print the LHS of a type\/data family declaration.
ppFamHeader :: FamilyDecl DocNameI -- ^ family header to print
-> Bool -- ^ unicode
-> LaTeX
ppFamHeader (XFamilyDecl nec) _ = noExtCon nec
ppFamHeader (FamilyDecl { fdLName = L _ name
, fdTyVars = tvs
, fdInfo = info
, fdResultSig = L _ result
, fdInjectivityAnn = injectivity })
unicode =
leader <+> keyword "family" <+> famName <+> famSig <+> injAnn
where
leader = case info of
OpenTypeFamily -> keyword "type"
ClosedTypeFamily _ -> keyword "type"
DataFamily -> keyword "data"
famName = ppAppDocNameTyVarBndrs unicode name (hsq_explicit tvs)
famSig = case result of
NoSig _ -> empty
KindSig _ kind -> dcolon unicode <+> ppLKind unicode kind
TyVarSig _ (L _ bndr) -> equals <+> ppHsTyVarBndr unicode bndr
XFamilyResultSig nec -> noExtCon nec
injAnn = case injectivity of
Nothing -> empty
Just (L _ (InjectivityAnn lhs rhs)) -> hsep ( decltt (text "|")
: ppLDocName lhs
: arrow unicode
: map ppLDocName rhs)
-------------------------------------------------------------------------------
-- * Type Synonyms
-------------------------------------------------------------------------------
-- we skip type patterns for now
ppTySyn :: DocForDecl DocName -> TyClDecl DocNameI -> Bool -> LaTeX
ppTySyn doc (SynDecl { tcdLName = L _ name, tcdTyVars = ltyvars
, tcdRhs = ltype }) unicode
= ppTypeOrFunSig (unLoc ltype) doc (full, hdr, char '=') unicode
where
hdr = hsep (keyword "type"
: ppDocBinder name
: map ppSymName (tyvarNames ltyvars))
full = hdr <+> char '=' <+> ppLType unicode ltype
ppTySyn _ _ _ = error "declaration not supported by ppTySyn"
-------------------------------------------------------------------------------
-- * Function signatures
-------------------------------------------------------------------------------
ppFunSig :: DocForDecl DocName -> [DocName] -> LHsType DocNameI
-> Bool -> LaTeX
ppFunSig doc docnames (L _ typ) unicode =
ppTypeOrFunSig typ doc
( ppTypeSig names typ False
, hsep . punctuate comma $ map ppSymName names
, dcolon unicode
)
unicode
where
names = map getName docnames
-- | Pretty-print a pattern synonym
ppLPatSig :: DocForDecl DocName -- ^ documentation
-> [DocName] -- ^ pattern names in the pattern signature
-> LHsSigType DocNameI -- ^ type of the pattern synonym
-> Bool -- ^ unicode
-> LaTeX
ppLPatSig doc docnames ty unicode
= ppTypeOrFunSig typ doc
( keyword "pattern" <+> ppTypeSig names typ False
, keyword "pattern" <+> (hsep . punctuate comma $ map ppSymName names)
, dcolon unicode
)
unicode
where
typ = unLoc (hsSigTypeI ty)
names = map getName docnames
-- | Pretty-print a type, adding documentation to the whole type and its
-- arguments as needed.
ppTypeOrFunSig :: HsType DocNameI
-> DocForDecl DocName -- ^ documentation
-> ( LaTeX -- first-line (no-argument docs only)
, LaTeX -- first-line (argument docs only)
, LaTeX -- type prefix (argument docs only)
)
-> Bool -- ^ unicode
-> LaTeX
ppTypeOrFunSig typ (doc, argDocs) (pref1, pref2, sep0) unicode
| Map.null argDocs = declWithDoc pref1 (documentationToLaTeX doc)
| otherwise = declWithDoc pref2 $ Just $
text "\\haddockbeginargs" $$
vcat (map (uncurry (<->)) (ppSubSigLike unicode typ argDocs [] sep0)) $$
text "\\end{tabulary}\\par" $$
fromMaybe empty (documentationToLaTeX doc)
-- This splits up a type signature along `->` and adds docs (when they exist)
-- to the arguments. The output is a list of (leader/seperator, argument and
-- its doc)
ppSubSigLike :: Bool -- ^ unicode
-> HsType DocNameI -- ^ type signature
-> FnArgsDoc DocName -- ^ docs to add
-> [(DocName, DocForDecl DocName)] -- ^ all subdocs (useful when we have `HsRecTy`)
-> LaTeX -- ^ seperator (beginning of first line)
-> [(LaTeX, LaTeX)] -- ^ arguments (leader/sep, type)
ppSubSigLike unicode typ argDocs subdocs leader = do_args 0 leader typ
where
do_largs n leader (L _ t) = do_args n leader t
arg_doc n = rDoc . fmap _doc $ Map.lookup n argDocs
do_args :: Int -> LaTeX -> HsType DocNameI -> [(LaTeX, LaTeX)]
do_args _n leader (HsForAllTy _ fvf tvs ltype)
= [ ( decltt leader
, decltt (hsep (forallSymbol unicode : ppTyVars tvs ++
[ppForAllSeparator unicode fvf]))
<+> ppLType unicode ltype
) ]
do_args n leader (HsQualTy _ lctxt ltype)
= (decltt leader, ppLContextNoArrow lctxt unicode <+> nl)
: do_largs n (darrow unicode) ltype
do_args n leader (HsFunTy _ (L _ (HsRecTy _ fields)) r)
= [ (decltt ldr, latex <+> nl)
| (L _ field, ldr) <- zip fields (leader <+> gadtOpen : repeat gadtComma)
, let latex = ppSideBySideField subdocs unicode field
]
++ do_largs (n+1) (gadtEnd <+> arrow unicode) r
do_args n leader (HsFunTy _ lt r)
= (decltt leader, decltt (ppLFunLhType unicode lt) <-> arg_doc n <+> nl)
: do_largs (n+1) (arrow unicode) r
do_args n leader t
= [ (decltt leader, decltt (ppType unicode t) <-> arg_doc n <+> nl) ]
-- FIXME: this should be done more elegantly
--
-- We need 'gadtComma' and 'gadtEnd' to line up with the `{` from
-- 'gadtOpen', so we add 3 spaces to cover for `-> `/`:: ` (3 in unicode
-- mode since `->` and `::` are rendered as single characters.
gadtComma = hcat (replicate (if unicode then 3 else 4) (text "\\ ")) <> text ","
gadtEnd = hcat (replicate (if unicode then 3 else 4) (text "\\ ")) <> text "\\}"
gadtOpen = text "\\{"
ppForAllSeparator :: Bool -> ForallVisFlag -> LaTeX
ppForAllSeparator unicode fvf =
case fvf of
ForallVis -> text "\\ " <> arrow unicode
ForallInvis -> dot
ppTypeSig :: [Name] -> HsType DocNameI -> Bool -> LaTeX
ppTypeSig nms ty unicode =
hsep (punctuate comma $ map ppSymName nms)
<+> dcolon unicode
<+> ppType unicode ty
ppTyVars :: [LHsTyVarBndr DocNameI] -> [LaTeX]
ppTyVars = map (ppSymName . getName . hsLTyVarNameI)
tyvarNames :: LHsQTyVars DocNameI -> [Name]
tyvarNames = map (getName . hsLTyVarNameI) . hsQTvExplicit
declWithDoc :: LaTeX -> Maybe LaTeX -> LaTeX
declWithDoc decl doc =
text "\\begin{haddockdesc}" $$
text "\\item[\\begin{tabular}{@{}l}" $$
text (latexMonoFilter (show decl)) $$
text "\\end{tabular}]" <>
(if isNothing doc then empty else text "\\haddockbegindoc") $$
maybe empty id doc $$
text "\\end{haddockdesc}"
-- in a group of decls, we don't put them all in the same tabular,
-- because that would prevent the group being broken over a page
-- boundary (breaks Foreign.C.Error for example).
multiDecl :: [LaTeX] -> LaTeX
multiDecl decls =
text "\\begin{haddockdesc}" $$
vcat [
text "\\item[" $$
text (latexMonoFilter (show decl)) $$
text "]"
| decl <- decls ] $$
text "\\end{haddockdesc}"
-------------------------------------------------------------------------------
-- * Rendering Doc
-------------------------------------------------------------------------------
maybeDoc :: Maybe (Doc DocName) -> LaTeX
maybeDoc = maybe empty docToLaTeX
-- for table cells, we strip paragraphs out to avoid extra vertical space
-- and don't add a quote environment.
rDoc :: Maybe (Doc DocName) -> LaTeX
rDoc = maybeDoc . fmap latexStripTrailingWhitespace
-------------------------------------------------------------------------------
-- * Class declarations
-------------------------------------------------------------------------------
ppClassHdr :: Bool -> Located [LHsType DocNameI] -> DocName
-> LHsQTyVars DocNameI -> [Located ([Located DocName], [Located DocName])]
-> Bool -> LaTeX
ppClassHdr summ lctxt n tvs fds unicode =
keyword "class"
<+> (if not . null . unLoc $ lctxt then ppLContext lctxt unicode else empty)
<+> ppAppDocNameNames summ n (tyvarNames tvs)
<+> ppFds fds unicode
ppFds :: [Located ([Located DocName], [Located DocName])] -> Bool -> LaTeX
ppFds fds unicode =
if null fds then empty else
char '|' <+> hsep (punctuate comma (map (fundep . unLoc) fds))
where
fundep (vars1,vars2) = hsep (map (ppDocName . unLoc) vars1) <+> arrow unicode <+>
hsep (map (ppDocName . unLoc) vars2)
ppClassDecl :: [DocInstance DocNameI]
-> Documentation DocName -> [(DocName, DocForDecl DocName)]
-> TyClDecl DocNameI -> Bool -> LaTeX
ppClassDecl instances doc subdocs
(ClassDecl { tcdCtxt = lctxt, tcdLName = lname, tcdTyVars = ltyvars, tcdFDs = lfds
, tcdSigs = lsigs, tcdATs = ats, tcdATDefs = at_defs }) unicode
= declWithDoc classheader (if null body then Nothing else Just (vcat body)) $$
instancesBit
where
classheader
| null lsigs = hdr unicode
| otherwise = hdr unicode <+> keyword "where"
hdr = ppClassHdr False lctxt (unLoc lname) ltyvars lfds
body = catMaybes [documentationToLaTeX doc, body_]
body_
| null lsigs, null ats, null at_defs = Nothing
| null ats, null at_defs = Just methodTable
--- | otherwise = atTable $$ methodTable
| otherwise = error "LaTeX.ppClassDecl"
methodTable =
text "\\haddockpremethods{}" <> emph (text "Methods") $$
vcat [ ppFunSig doc names (hsSigWcType typ) unicode
| L _ (TypeSig _ lnames typ) <- lsigs
, let doc = lookupAnySubdoc (head names) subdocs
names = map unLoc lnames ]
-- FIXME: is taking just the first name ok? Is it possible that
-- there are different subdocs for different names in a single
-- type signature?
instancesBit = ppDocInstances unicode instances
ppClassDecl _ _ _ _ _ = error "declaration type not supported by ppShortClassDecl"
ppDocInstances :: Bool -> [DocInstance DocNameI] -> LaTeX
ppDocInstances _unicode [] = empty
ppDocInstances unicode (i : rest)
| Just ihead <- isUndocdInstance i
= declWithDoc (vcat (map (ppInstDecl unicode) (ihead:is))) Nothing $$
ppDocInstances unicode rest'
| otherwise
= ppDocInstance unicode i $$ ppDocInstances unicode rest
where
(is, rest') = spanWith isUndocdInstance rest
isUndocdInstance :: DocInstance a -> Maybe (InstHead a)
isUndocdInstance (i,Nothing,_,_) = Just i
isUndocdInstance _ = Nothing
-- | Print a possibly commented instance. The instance header is printed inside
-- an 'argBox'. The comment is printed to the right of the box in normal comment
-- style.
ppDocInstance :: Bool -> DocInstance DocNameI -> LaTeX
ppDocInstance unicode (instHead, doc, _, _) =
declWithDoc (ppInstDecl unicode instHead) (fmap docToLaTeX $ fmap _doc doc)
ppInstDecl :: Bool -> InstHead DocNameI -> LaTeX
ppInstDecl unicode (InstHead {..}) = case ihdInstType of
ClassInst ctx _ _ _ -> keyword "instance" <+> ppContextNoLocs ctx unicode <+> typ
TypeInst rhs -> keyword "type" <+> keyword "instance" <+> typ <+> tibody rhs
DataInst dd ->
let nd = dd_ND (tcdDataDefn dd)
pref = case nd of { NewType -> keyword "newtype"; DataType -> keyword "data" }
in pref <+> keyword "instance" <+> typ
where
typ = ppAppNameTypes ihdClsName ihdTypes unicode
tibody = maybe empty (\t -> equals <+> ppType unicode t)
lookupAnySubdoc :: (Eq name1) =>
name1 -> [(name1, DocForDecl name2)] -> DocForDecl name2
lookupAnySubdoc n subdocs = case lookup n subdocs of
Nothing -> noDocForDecl
Just docs -> docs
-------------------------------------------------------------------------------
-- * Data & newtype declarations
-------------------------------------------------------------------------------
-- | Pretty-print a data declaration
ppDataDecl :: [(HsDecl DocNameI, DocForDecl DocName)] -- ^ relevant patterns
-> [DocInstance DocNameI] -- ^ relevant instances
-> [(DocName, DocForDecl DocName)] -- ^ relevant decl docs
-> Maybe (Documentation DocName) -- ^ this decl's docs
-> TyClDecl DocNameI -- ^ data decl to print
-> Bool -- ^ unicode
-> LaTeX
ppDataDecl pats instances subdocs doc dataDecl unicode =
declWithDoc (ppDataHeader dataDecl unicode <+> whereBit)
(if null body then Nothing else Just (vcat body))
$$ instancesBit
where
cons = dd_cons (tcdDataDefn dataDecl)
resTy = (unLoc . head) cons
body = catMaybes [doc >>= documentationToLaTeX, constrBit,patternBit]
(whereBit, leaders)
| null cons
, null pats = (empty,[])
| null cons = (text "where", repeat empty)
| otherwise = case resTy of
ConDeclGADT{} -> (text "where", repeat empty)
_ -> (empty, (decltt (text "=") : repeat (decltt (text "|"))))
constrBit
| null cons = Nothing
| otherwise = Just $
text "\\enspace" <+> emph (text "Constructors") <> text "\\par" $$
text "\\haddockbeginconstrs" $$
vcat (zipWith (ppSideBySideConstr subdocs unicode) leaders cons) $$
text "\\end{tabulary}\\par"
patternBit
| null pats = Nothing
| otherwise = Just $
text "\\enspace" <+> emph (text "Bundled Patterns") <> text "\\par" $$
text "\\haddockbeginconstrs" $$
vcat [ empty <-> ppSideBySidePat lnames typ d unicode
| (SigD _ (PatSynSig _ lnames typ), d) <- pats
] $$
text "\\end{tabulary}\\par"
instancesBit = ppDocInstances unicode instances
-- ppConstrHdr is for (non-GADT) existentials constructors' syntax
ppConstrHdr :: Bool -> [Name] -> HsContext DocNameI -> Bool -> LaTeX
ppConstrHdr forall tvs ctxt unicode
= (if null tvs then empty else ppForall)
<+>
(if null ctxt then empty else ppContextNoArrow ctxt unicode <+> darrow unicode <+> text " ")
where
ppForall = case forall of
True -> forallSymbol unicode <+> hsep (map ppName tvs) <+> text ". "
False -> empty
-- | Pretty-print a constructor
ppSideBySideConstr :: [(DocName, DocForDecl DocName)] -- ^ all decl docs
-> Bool -- ^ unicode
-> LaTeX -- ^ prefix to decl
-> LConDecl DocNameI -- ^ constructor decl
-> LaTeX
ppSideBySideConstr subdocs unicode leader (L _ con) =
leader <-> decltt decl <-> rDoc mbDoc <+> nl
$$ fieldPart
where
-- Find the name of a constructors in the decl (`getConName` always returns
-- a non-empty list)
aConName = unLoc (head (getConNamesI con))
occ = map (nameOccName . getName . unLoc) $ getConNamesI con
ppOcc = cat (punctuate comma (map ppBinder occ))
ppOccInfix = cat (punctuate comma (map ppBinderInfix occ))
-- Extract out the map of of docs corresponding to the constructors arguments
argDocs = maybe Map.empty snd (lookup aConName subdocs)
hasArgDocs = not $ Map.null argDocs
-- First line of the constructor (no doc, no fields, single-line)
decl = case con of
ConDeclH98{ con_args = det
, con_ex_tvs = vars
, con_mb_cxt = cxt
} -> let tyVars = map (getName . hsLTyVarNameI) vars
context = unLoc (fromMaybe (noLoc []) cxt)
forall_ = False
header_ = ppConstrHdr forall_ tyVars context unicode
in case det of
-- Prefix constructor, e.g. 'Just a'
PrefixCon args
| hasArgDocs -> header_ <+> ppOcc
| otherwise -> hsep [ header_
, ppOcc
, hsep (map (ppLParendType unicode) args)
]
-- Record constructor, e.g. 'Identity { runIdentity :: a }'
RecCon _ -> header_ <+> ppOcc
-- Infix constructor, e.g. 'a :| [a]'
InfixCon arg1 arg2
| hasArgDocs -> header_ <+> ppOcc
| otherwise -> hsep [ header_
, ppLParendType unicode arg1
, ppOccInfix
, ppLParendType unicode arg2
]
ConDeclGADT{}
| hasArgDocs || not (isEmpty fieldPart) -> ppOcc
| otherwise -> hsep [ ppOcc
, dcolon unicode
-- ++AZ++ make this prepend "{..}" when it is a record style GADT
, ppLType unicode (getGADTConType con)
]
XConDecl nec -> noExtCon nec
fieldPart = case (con, getConArgs con) of
-- Record style GADTs
(ConDeclGADT{}, RecCon _) -> doConstrArgsWithDocs []
-- Regular record declarations
(_, RecCon (L _ fields)) -> doRecordFields fields
-- Any GADT or a regular H98 prefix data constructor
(_, PrefixCon args) | hasArgDocs -> doConstrArgsWithDocs args
-- An infix H98 data constructor
(_, InfixCon arg1 arg2) | hasArgDocs -> doConstrArgsWithDocs [arg1,arg2]
_ -> empty
doRecordFields fields =
vcat [ empty <-> tt (text begin) <+> ppSideBySideField subdocs unicode field <+> nl
| (begin, L _ field) <- zip ("\\qquad \\{" : repeat "\\qquad ,") fields
]
$$
empty <-> tt (text "\\qquad \\}") <+> nl
doConstrArgsWithDocs args = vcat $ map (\l -> empty <-> text "\\qquad" <+> l) $ case con of
ConDeclH98{} ->
[ decltt (ppLParendType unicode arg) <-> rDoc (fmap _doc mdoc) <+> nl
| (i, arg) <- zip [0..] args
, let mdoc = Map.lookup i argDocs
]
ConDeclGADT{} ->
[ l <+> text "\\enspace" <+> r
| (l,r) <- ppSubSigLike unicode (unLoc (getGADTConType con)) argDocs subdocs (dcolon unicode)
]
XConDecl nec -> noExtCon nec
-- don't use "con_doc con", in case it's reconstructed from a .hi file,
-- or also because we want Haddock to do the doc-parsing, not GHC.
mbDoc = case getConNamesI con of
[] -> panic "empty con_names"
(cn:_) -> lookup (unLoc cn) subdocs >>=
fmap _doc . combineDocumentation . fst
-- | Pretty-print a record field
ppSideBySideField :: [(DocName, DocForDecl DocName)] -> Bool -> ConDeclField DocNameI -> LaTeX
ppSideBySideField subdocs unicode (ConDeclField _ names ltype _) =
decltt (cat (punctuate comma (map (ppBinder . rdrNameOcc . unLoc . rdrNameFieldOcc . unLoc) names))
<+> dcolon unicode <+> ppLType unicode ltype) <-> rDoc mbDoc
where
-- don't use cd_fld_doc for same reason we don't use con_doc above
-- Where there is more than one name, they all have the same documentation
mbDoc = lookup (extFieldOcc $ unLoc $ head names) subdocs >>= fmap _doc . combineDocumentation . fst
ppSideBySideField _ _ (XConDeclField nec) = noExtCon nec
-- | Pretty-print a bundled pattern synonym
ppSideBySidePat :: [Located DocName] -- ^ pattern name(s)
-> LHsSigType DocNameI -- ^ type of pattern(s)
-> DocForDecl DocName -- ^ doc map
-> Bool -- ^ unicode
-> LaTeX
ppSideBySidePat lnames typ (doc, argDocs) unicode =
decltt decl <-> rDoc mDoc <+> nl
$$ fieldPart
where
hasArgDocs = not $ Map.null argDocs
ppOcc = hsep (punctuate comma (map (ppDocBinder . unLoc) lnames))
decl | hasArgDocs = keyword "pattern" <+> ppOcc
| otherwise = hsep [ keyword "pattern"
, ppOcc
, dcolon unicode
, ppLType unicode (hsSigTypeI typ)
]
fieldPart
| not hasArgDocs = empty
| otherwise = vcat
[ empty <-> text "\\qquad" <+> l <+> text "\\enspace" <+> r
| (l,r) <- ppSubSigLike unicode (unLoc patTy) argDocs [] (dcolon unicode)
]
patTy = hsSigTypeI typ
mDoc = fmap _doc $ combineDocumentation doc
-- | Print the LHS of a data\/newtype declaration.
-- Currently doesn't handle 'data instance' decls or kind signatures
ppDataHeader :: TyClDecl DocNameI -> Bool -> LaTeX
ppDataHeader (DataDecl { tcdLName = L _ name, tcdTyVars = tyvars
, tcdDataDefn = HsDataDefn { dd_ND = nd, dd_ctxt = ctxt } }) unicode
= -- newtype or data
(case nd of { NewType -> keyword "newtype"; DataType -> keyword "data" }) <+>
-- context
ppLContext ctxt unicode <+>
-- T a b c ..., or a :+: b
ppAppDocNameNames False name (tyvarNames tyvars)
ppDataHeader _ _ = error "ppDataHeader: illegal argument"
--------------------------------------------------------------------------------
-- * Type applications
--------------------------------------------------------------------------------
ppAppDocNameTyVarBndrs :: Bool -> DocName -> [LHsTyVarBndr DocNameI] -> LaTeX
ppAppDocNameTyVarBndrs unicode n vs =
ppTypeApp n vs ppDN (ppHsTyVarBndr unicode . unLoc)
where
ppDN = ppBinder . nameOccName . getName
-- | Print an application of a DocName to its list of HsTypes
ppAppNameTypes :: DocName -> [HsType DocNameI] -> Bool -> LaTeX
ppAppNameTypes n ts unicode = ppTypeApp n ts ppDocName (ppParendType unicode)
ppAppNameTypeArgs :: DocName -> [LHsTypeArg DocNameI] -> Bool -> LaTeX
ppAppNameTypeArgs n args@(HsValArg _:HsValArg _:_) unicode
= ppTypeApp n args ppDocName (ppLHsTypeArg unicode)
ppAppNameTypeArgs n args unicode
= ppDocName n <+> hsep (map (ppLHsTypeArg unicode) args)
-- | Print an application of a DocName and a list of Names
ppAppDocNameNames :: Bool -> DocName -> [Name] -> LaTeX
ppAppDocNameNames _summ n ns =
ppTypeApp n ns (ppBinder . nameOccName . getName) ppSymName
-- | General printing of type applications
ppTypeApp :: DocName -> [a] -> (DocName -> LaTeX) -> (a -> LaTeX) -> LaTeX
ppTypeApp n (t1:t2:rest) ppDN ppT
| operator, not . null $ rest = parens opApp <+> hsep (map ppT rest)
| operator = opApp
where
operator = isNameSym . getName $ n
opApp = ppT t1 <+> ppDN n <+> ppT t2
ppTypeApp n ts ppDN ppT = ppDN n <+> hsep (map ppT ts)
-------------------------------------------------------------------------------
-- * Contexts
-------------------------------------------------------------------------------
ppLContext, ppLContextNoArrow :: Located (HsContext DocNameI) -> Bool -> LaTeX
ppLContext = ppContext . unLoc
ppLContextNoArrow = ppContextNoArrow . unLoc
ppContextNoLocsMaybe :: [HsType DocNameI] -> Bool -> Maybe LaTeX
ppContextNoLocsMaybe [] _ = Nothing
ppContextNoLocsMaybe cxt unicode = Just $ pp_hs_context cxt unicode
ppContextNoArrow :: HsContext DocNameI -> Bool -> LaTeX
ppContextNoArrow cxt unicode = fromMaybe empty $
ppContextNoLocsMaybe (map unLoc cxt) unicode
ppContextNoLocs :: [HsType DocNameI] -> Bool -> LaTeX
ppContextNoLocs cxt unicode = maybe empty (<+> darrow unicode) $
ppContextNoLocsMaybe cxt unicode
ppContext :: HsContext DocNameI -> Bool -> LaTeX
ppContext cxt unicode = ppContextNoLocs (map unLoc cxt) unicode
pp_hs_context :: [HsType DocNameI] -> Bool -> LaTeX
pp_hs_context [] _ = empty
pp_hs_context [p] unicode = ppCtxType unicode p
pp_hs_context cxt unicode = parenList (map (ppType unicode) cxt)
-------------------------------------------------------------------------------
-- * Types and contexts
-------------------------------------------------------------------------------
ppBang :: HsSrcBang -> LaTeX
ppBang (HsSrcBang _ _ SrcStrict) = char '!'
ppBang (HsSrcBang _ _ SrcLazy) = char '~'
ppBang _ = empty
tupleParens :: HsTupleSort -> [LaTeX] -> LaTeX
tupleParens HsUnboxedTuple = ubxParenList
tupleParens _ = parenList
sumParens :: [LaTeX] -> LaTeX
sumParens = ubxparens . hsep . punctuate (text " |")
-------------------------------------------------------------------------------
-- * Rendering of HsType
--
-- Stolen from Html and tweaked for LaTeX generation
-------------------------------------------------------------------------------
ppLType, ppLParendType, ppLFunLhType :: Bool -> Located (HsType DocNameI) -> LaTeX
ppLType unicode y = ppType unicode (unLoc y)
ppLParendType unicode y = ppParendType unicode (unLoc y)
ppLFunLhType unicode y = ppFunLhType unicode (unLoc y)
ppType, ppParendType, ppFunLhType, ppCtxType :: Bool -> HsType DocNameI -> LaTeX
ppType unicode ty = ppr_mono_ty (reparenTypePrec PREC_TOP ty) unicode
ppParendType unicode ty = ppr_mono_ty (reparenTypePrec PREC_TOP ty) unicode
ppFunLhType unicode ty = ppr_mono_ty (reparenTypePrec PREC_FUN ty) unicode
ppCtxType unicode ty = ppr_mono_ty (reparenTypePrec PREC_CTX ty) unicode
ppLHsTypeArg :: Bool -> LHsTypeArg DocNameI -> LaTeX
ppLHsTypeArg unicode (HsValArg ty) = ppLParendType unicode ty
ppLHsTypeArg unicode (HsTypeArg _ ki) = atSign unicode <>
ppLParendType unicode ki
ppLHsTypeArg _ (HsArgPar _) = text ""
ppHsTyVarBndr :: Bool -> HsTyVarBndr DocNameI -> LaTeX
ppHsTyVarBndr _ (UserTyVar _ (L _ name)) = ppDocName name
ppHsTyVarBndr unicode (KindedTyVar _ (L _ name) kind) =
parens (ppDocName name) <+> dcolon unicode <+> ppLKind unicode kind
ppHsTyVarBndr _ (XTyVarBndr nec) = noExtCon nec
ppLKind :: Bool -> LHsKind DocNameI -> LaTeX
ppLKind unicode y = ppKind unicode (unLoc y)
ppKind :: Bool -> HsKind DocNameI -> LaTeX
ppKind unicode ki = ppr_mono_ty (reparenTypePrec PREC_TOP ki) unicode
-- Drop top-level for-all type variables in user style
-- since they are implicit in Haskell
ppr_mono_lty :: LHsType DocNameI -> Bool -> LaTeX
ppr_mono_lty ty unicode = ppr_mono_ty (unLoc ty) unicode
ppr_mono_ty :: HsType DocNameI -> Bool -> LaTeX
ppr_mono_ty (HsForAllTy _ fvf tvs ty) unicode
= sep [ hsep (forallSymbol unicode : ppTyVars tvs) <>
ppForAllSeparator unicode fvf
, ppr_mono_lty ty unicode ]
ppr_mono_ty (HsQualTy _ ctxt ty) unicode
= sep [ ppLContext ctxt unicode
, ppr_mono_lty ty unicode ]
ppr_mono_ty (HsFunTy _ ty1 ty2) u
= sep [ ppr_mono_lty ty1 u
, arrow u <+> ppr_mono_lty ty2 u ]
ppr_mono_ty (HsBangTy _ b ty) u = ppBang b <> ppLParendType u ty
ppr_mono_ty (HsTyVar _ NotPromoted (L _ name)) _ = ppDocName name
ppr_mono_ty (HsTyVar _ IsPromoted (L _ name)) _ = char '\'' <> ppDocName name
ppr_mono_ty (HsTupleTy _ con tys) u = tupleParens con (map (ppLType u) tys)
ppr_mono_ty (HsSumTy _ tys) u = sumParens (map (ppLType u) tys)
ppr_mono_ty (HsKindSig _ ty kind) u = parens (ppr_mono_lty ty u <+> dcolon u <+> ppLKind u kind)
ppr_mono_ty (HsListTy _ ty) u = brackets (ppr_mono_lty ty u)
ppr_mono_ty (HsIParamTy _ (L _ n) ty) u = ppIPName n <+> dcolon u <+> ppr_mono_lty ty u
ppr_mono_ty (HsSpliceTy {}) _ = error "ppr_mono_ty HsSpliceTy"
ppr_mono_ty (HsRecTy {}) _ = text "{..}"
ppr_mono_ty (XHsType (NHsCoreTy {})) _ = error "ppr_mono_ty HsCoreTy"
ppr_mono_ty (HsExplicitListTy _ IsPromoted tys) u = Pretty.quote $ brackets $ hsep $ punctuate comma $ map (ppLType u) tys
ppr_mono_ty (HsExplicitListTy _ NotPromoted tys) u = brackets $ hsep $ punctuate comma $ map (ppLType u) tys
ppr_mono_ty (HsExplicitTupleTy _ tys) u = Pretty.quote $ parenList $ map (ppLType u) tys
ppr_mono_ty (HsAppTy _ fun_ty arg_ty) unicode
= hsep [ppr_mono_lty fun_ty unicode, ppr_mono_lty arg_ty unicode]
ppr_mono_ty (HsAppKindTy _ fun_ty arg_ki) unicode
= hsep [ppr_mono_lty fun_ty unicode, atSign unicode <> ppr_mono_lty arg_ki unicode]
ppr_mono_ty (HsOpTy _ ty1 op ty2) unicode
= ppr_mono_lty ty1 unicode <+> ppr_op <+> ppr_mono_lty ty2 unicode
where
ppr_op | isSymOcc (getOccName op) = ppLDocName op
| otherwise = char '`' <> ppLDocName op <> char '`'
ppr_mono_ty (HsParTy _ ty) unicode
= parens (ppr_mono_lty ty unicode)
-- = ppr_mono_lty ty unicode
ppr_mono_ty (HsDocTy _ ty _) unicode
= ppr_mono_lty ty unicode
ppr_mono_ty (HsWildCardTy _) _ = text "\\_"
ppr_mono_ty (HsTyLit _ t) u = ppr_tylit t u
ppr_mono_ty (HsStarTy _ isUni) unicode = starSymbol (isUni || unicode)
ppr_tylit :: HsTyLit -> Bool -> LaTeX
ppr_tylit (HsNumTy _ n) _ = integer n
ppr_tylit (HsStrTy _ s) _ = text (show s)
-- XXX: Ok in verbatim, but not otherwise
-- XXX: Do something with Unicode parameter?
-------------------------------------------------------------------------------
-- * Names
-------------------------------------------------------------------------------
ppBinder :: OccName -> LaTeX
ppBinder n
| isSymOcc n = parens $ ppOccName n
| otherwise = ppOccName n
ppBinderInfix :: OccName -> LaTeX
ppBinderInfix n
| isSymOcc n = ppOccName n
| otherwise = cat [ char '`', ppOccName n, char '`' ]
ppSymName :: Name -> LaTeX
ppSymName name
| isNameSym name = parens $ ppName name
| otherwise = ppName name
ppVerbOccName :: OccName -> LaTeX
ppVerbOccName = text . latexFilter . occNameString
ppIPName :: HsIPName -> LaTeX
ppIPName = text . ('?':) . unpackFS . hsIPNameFS
ppOccName :: OccName -> LaTeX
ppOccName = text . occNameString
ppVerbDocName :: DocName -> LaTeX
ppVerbDocName = ppVerbOccName . nameOccName . getName
ppVerbRdrName :: RdrName -> LaTeX
ppVerbRdrName = ppVerbOccName . rdrNameOcc
ppDocName :: DocName -> LaTeX
ppDocName = ppOccName . nameOccName . getName
ppLDocName :: Located DocName -> LaTeX
ppLDocName (L _ d) = ppDocName d
ppDocBinder :: DocName -> LaTeX
ppDocBinder = ppBinder . nameOccName . getName
ppName :: Name -> LaTeX
ppName = ppOccName . nameOccName
latexFilter :: String -> String
latexFilter = foldr latexMunge ""
latexMonoFilter :: String -> String
latexMonoFilter = foldr latexMonoMunge ""
latexMunge :: Char -> String -> String
latexMunge '#' s = "{\\char '43}" ++ s
latexMunge '$' s = "{\\char '44}" ++ s
latexMunge '%' s = "{\\char '45}" ++ s
latexMunge '&' s = "{\\char '46}" ++ s
latexMunge '~' s = "{\\char '176}" ++ s
latexMunge '_' s = "{\\char '137}" ++ s
latexMunge '^' s = "{\\char '136}" ++ s
latexMunge '\\' s = "{\\char '134}" ++ s
latexMunge '{' s = "{\\char '173}" ++ s
latexMunge '}' s = "{\\char '175}" ++ s
latexMunge '[' s = "{\\char 91}" ++ s
latexMunge ']' s = "{\\char 93}" ++ s
latexMunge c s = c : s
latexMonoMunge :: Char -> String -> String
latexMonoMunge ' ' s = '\\' : ' ' : s
latexMonoMunge '\n' s = '\\' : '\\' : s
latexMonoMunge c s = latexMunge c s
-------------------------------------------------------------------------------
-- * Doc Markup
-------------------------------------------------------------------------------
parLatexMarkup :: (a -> LaTeX) -> DocMarkup a (StringContext -> LaTeX)
parLatexMarkup ppId = Markup {
markupParagraph = \p v -> p v <> text "\\par" $$ text "",
markupEmpty = \_ -> empty,
markupString = \s v -> text (fixString v s),
markupAppend = \l r v -> l v <> r v,
markupIdentifier = markupId ppId,
markupIdentifierUnchecked = markupId (ppVerbOccName . snd),
markupModule = \m _ -> let (mdl,_ref) = break (=='#') m in tt (text mdl),
markupWarning = \p v -> emph (p v),
markupEmphasis = \p v -> emph (p v),
markupBold = \p v -> bold (p v),
markupMonospaced = \p _ -> tt (p Mono),
markupUnorderedList = \p v -> itemizedList (map ($v) p) $$ text "",
markupPic = \p _ -> markupPic p,
markupMathInline = \p _ -> markupMathInline p,
markupMathDisplay = \p _ -> markupMathDisplay p,
markupOrderedList = \p v -> enumeratedList (map ($v) p) $$ text "",
markupDefList = \l v -> descriptionList (map (\(a,b) -> (a v, b v)) l),
markupCodeBlock = \p _ -> quote (verb (p Verb)) $$ text "",
markupHyperlink = \(Hyperlink u l) p -> markupLink u (fmap ($p) l),
markupAName = \_ _ -> empty,
markupProperty = \p _ -> quote $ verb $ text p,
markupExample = \e _ -> quote $ verb $ text $ unlines $ map exampleToString e,
markupHeader = \(Header l h) p -> header l (h p),
markupTable = \(Table h b) p -> table h b p
}
where
header 1 d = text "\\section*" <> braces d
header 2 d = text "\\subsection*" <> braces d
header l d
| l > 0 && l <= 6 = text "\\subsubsection*" <> braces d
header l _ = error $ "impossible header level in LaTeX generation: " ++ show l
table _ _ _ = text "{TODO: Table}"
fixString Plain s = latexFilter s
fixString Verb s = s
fixString Mono s = latexMonoFilter s
markupLink url mLabel = case mLabel of
Just label -> text "\\href" <> braces (text url) <> braces label
Nothing -> text "\\url" <> braces (text url)
-- Is there a better way of doing this? Just a space is an aribtrary choice.
markupPic (Picture uri title) = parens (imageText title)
where
imageText Nothing = beg
imageText (Just t) = beg <> text " " <> text t
beg = text "image: " <> text uri
markupMathInline mathjax = text "\\(" <> text mathjax <> text "\\)"
markupMathDisplay mathjax = text "\\[" <> text mathjax <> text "\\]"
markupId ppId_ id v =
case v of
Verb -> theid
Mono -> theid
Plain -> text "\\haddockid" <> braces theid
where theid = ppId_ id
latexMarkup :: DocMarkup DocName (StringContext -> LaTeX)
latexMarkup = parLatexMarkup ppVerbDocName
rdrLatexMarkup :: DocMarkup RdrName (StringContext -> LaTeX)
rdrLatexMarkup = parLatexMarkup ppVerbRdrName
docToLaTeX :: Doc DocName -> LaTeX
docToLaTeX doc = markup latexMarkup doc Plain
documentationToLaTeX :: Documentation DocName -> Maybe LaTeX
documentationToLaTeX = fmap docToLaTeX . fmap _doc . combineDocumentation
rdrDocToLaTeX :: Doc RdrName -> LaTeX
rdrDocToLaTeX doc = markup rdrLatexMarkup doc Plain
data StringContext = Plain | Verb | Mono
latexStripTrailingWhitespace :: Doc a -> Doc a
latexStripTrailingWhitespace (DocString s)
| null s' = DocEmpty
| otherwise = DocString s
where s' = reverse (dropWhile isSpace (reverse s))
latexStripTrailingWhitespace (DocAppend l r)
| DocEmpty <- r' = latexStripTrailingWhitespace l
| otherwise = DocAppend l r'
where
r' = latexStripTrailingWhitespace r
latexStripTrailingWhitespace (DocParagraph p) =
latexStripTrailingWhitespace p
latexStripTrailingWhitespace other = other
-------------------------------------------------------------------------------
-- * LaTeX utils
-------------------------------------------------------------------------------
itemizedList :: [LaTeX] -> LaTeX
itemizedList items =
text "\\begin{itemize}" $$
vcat (map (text "\\item" $$) items) $$
text "\\end{itemize}"
enumeratedList :: [LaTeX] -> LaTeX
enumeratedList items =
text "\\begin{enumerate}" $$
vcat (map (text "\\item " $$) items) $$
text "\\end{enumerate}"
descriptionList :: [(LaTeX,LaTeX)] -> LaTeX
descriptionList items =
text "\\begin{description}" $$
vcat (map (\(a,b) -> text "\\item" <> brackets a <+> b) items) $$
text "\\end{description}"
tt :: LaTeX -> LaTeX
tt ltx = text "\\haddocktt" <> braces ltx
decltt :: LaTeX -> LaTeX
decltt ltx = text "\\haddockdecltt" <> braces ltx
emph :: LaTeX -> LaTeX
emph ltx = text "\\emph" <> braces ltx
bold :: LaTeX -> LaTeX
bold ltx = text "\\textbf" <> braces ltx
verb :: LaTeX -> LaTeX
verb doc = text "{\\haddockverb\\begin{verbatim}" $$ doc <> text "\\end{verbatim}}"
-- NB. swallow a trailing \n in the verbatim text by appending the
-- \end{verbatim} directly, otherwise we get spurious blank lines at the
-- end of code blocks.
quote :: LaTeX -> LaTeX
quote doc = text "\\begin{quote}" $$ doc $$ text "\\end{quote}"
dcolon, arrow, darrow, forallSymbol, starSymbol, atSign :: Bool -> LaTeX
dcolon unicode = text (if unicode then "∷" else "::")
arrow unicode = text (if unicode then "→" else "->")
darrow unicode = text (if unicode then "⇒" else "=>")
forallSymbol unicode = text (if unicode then "∀" else "forall")
starSymbol unicode = text (if unicode then "★" else "*")
atSign unicode = text (if unicode then "@" else "@")
dot :: LaTeX
dot = char '.'
parenList :: [LaTeX] -> LaTeX
parenList = parens . hsep . punctuate comma
ubxParenList :: [LaTeX] -> LaTeX
ubxParenList = ubxparens . hsep . punctuate comma
ubxparens :: LaTeX -> LaTeX
ubxparens h = text "(#" <+> h <+> text "#)"
nl :: LaTeX
nl = text "\\\\"
keyword :: String -> LaTeX
keyword = text
infixr 4 <-> -- combining table cells
(<->) :: LaTeX -> LaTeX -> LaTeX
a <-> b = a <+> char '&' <+> b