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|
{-# LANGUAGE FlexibleInstances #-}
{-# LANGUAGE PatternGuards #-}
{-# LANGUAGE OverloadedStrings #-}
{- |
Module : Text.Pandoc.Readers.Docx.Combine
Copyright : © 2014-2020 Jesse Rosenthal <jrosenthal@jhu.edu>,
2014-2020 John MacFarlane <jgm@berkeley.edu>
License : GNU GPL, version 2 or above
Maintainer : Jesse Rosenthal <jrosenthal@jhu.edu>
Stability : alpha
Portability : portable
Flatten sequences of elements.
-}
{-
The purpose of this module is to combine the formatting of separate
runs, which have *non-nesting* formatting. Because the formatting
doesn't nest, you can't actually tell the nesting order until you
combine with the runs that follow.
For example, say you have a something like `<em><strong>foo</strong>
bar</em>`. Then in ooxml, you'll get these two runs:
~~~
<w:r>
<w:rPr>
<w:b />
<w:i />
</w:rPr>
<w:t>Foo</w:t>
</w:r>
<w:r>
<w:rPr>
<w:i />
</w:rPr>
<w:t> Bar</w:t>
</w:r>
~~~
Note that this is an ideal situation. In practice, it will probably be
more---if, for example, the user turned italics
off and then on.
So, when you get the first run, which is marked as both bold and italic,
you have no idea whether it's `Strong [Emph [Str "Foo"]]` or `Emph
[Strong [Str "Foo"]]`.
We combine two runs, then, by taking off the formatting that modifies an
inline, seeing what is shared between them, and rebuilding an inline. We
fold this to combine the inlines.
-}
module Text.Pandoc.Readers.Docx.Combine ( smushInlines
, smushBlocks
)
where
import Data.List
import Data.Sequence (ViewL (..), ViewR (..), viewl, viewr, (><), (|>))
import qualified Data.Sequence as Seq (null)
import Text.Pandoc.Builder
data Modifier a = Modifier (a -> a)
| AttrModifier (Attr -> a -> a) Attr
| NullModifier
spaceOutInlinesL :: Inlines -> (Inlines, Inlines)
spaceOutInlinesL ms = (l, stackInlines fs (m' <> r))
where (l, m, r) = spaceOutInlines ms
(fs, m') = unstackInlines m
spaceOutInlinesR :: Inlines -> (Inlines, Inlines)
spaceOutInlinesR ms = (stackInlines fs (l <> m'), r)
where (l, m, r) = spaceOutInlines ms
(fs, m') = unstackInlines m
spaceOutInlines :: Inlines -> (Inlines, Inlines, Inlines)
spaceOutInlines ils =
let (fs, ils') = unstackInlines ils
contents = unMany ils'
left = case viewl contents of
(Space :< _) -> space
_ -> mempty
right = case viewr contents of
(_ :> Space) -> space
_ -> mempty in
(left, stackInlines fs $ trimInlines . Many $ contents, right)
stackInlines :: [Modifier Inlines] -> Inlines -> Inlines
stackInlines [] ms = ms
stackInlines (NullModifier : fs) ms = stackInlines fs ms
stackInlines (Modifier f : fs) ms =
if isEmpty ms
then stackInlines fs ms
else f $ stackInlines fs ms
stackInlines (AttrModifier f attr : fs) ms = f attr $ stackInlines fs ms
unstackInlines :: Inlines -> ([Modifier Inlines], Inlines)
unstackInlines ms = case ilModifier ms of
NullModifier -> ([], ms)
_ -> (f : fs, ms') where
f = ilModifier ms
(fs, ms') = unstackInlines $ ilInnards ms
ilModifier :: Inlines -> Modifier Inlines
ilModifier ils = case viewl (unMany ils) of
(x :< xs) | Seq.null xs -> case x of
(Emph _) -> Modifier emph
(Strong _) -> Modifier strong
(SmallCaps _) -> Modifier smallcaps
(Strikeout _) -> Modifier strikeout
(Superscript _) -> Modifier superscript
(Subscript _) -> Modifier subscript
(Link attr _ tgt) -> Modifier $ linkWith attr (fst tgt) (snd tgt)
(Span attr _) -> AttrModifier spanWith attr
_ -> NullModifier
_ -> NullModifier
ilInnards :: Inlines -> Inlines
ilInnards ils = case viewl (unMany ils) of
(x :< xs) | Seq.null xs -> case x of
(Emph lst) -> fromList lst
(Strong lst) -> fromList lst
(SmallCaps lst) -> fromList lst
(Strikeout lst) -> fromList lst
(Superscript lst) -> fromList lst
(Subscript lst) -> fromList lst
(Link _ lst _) -> fromList lst
(Span _ lst) -> fromList lst
_ -> ils
_ -> ils
inlinesL :: Inlines -> (Inlines, Inlines)
inlinesL ils = case viewl $ unMany ils of
(s :< sq) -> (singleton s, Many sq)
_ -> (mempty, ils)
inlinesR :: Inlines -> (Inlines, Inlines)
inlinesR ils = case viewr $ unMany ils of
(sq :> s) -> (Many sq, singleton s)
_ -> (ils, mempty)
combineInlines :: Inlines -> Inlines -> Inlines
combineInlines x y =
let (xs', x') = inlinesR x
(y', ys') = inlinesL y
in
xs' <> combineSingletonInlines x' y' <> ys'
combineSingletonInlines :: Inlines -> Inlines -> Inlines
combineSingletonInlines x y =
let (xfs, xs) = unstackInlines x
(yfs, ys) = unstackInlines y
shared = xfs `intersect` yfs
x_remaining = xfs \\ shared
y_remaining = yfs \\ shared
x_rem_attr = filter isAttrModifier x_remaining
y_rem_attr = filter isAttrModifier y_remaining
in
case null shared of
True | isEmpty xs && isEmpty ys ->
stackInlines (x_rem_attr ++ y_rem_attr) mempty
| isEmpty xs ->
let (sp, y') = spaceOutInlinesL y in
stackInlines x_rem_attr mempty <> sp <> y'
| isEmpty ys ->
let (x', sp) = spaceOutInlinesR x in
x' <> sp <> stackInlines y_rem_attr mempty
| otherwise ->
let (x', xsp) = spaceOutInlinesR x
(ysp, y') = spaceOutInlinesL y
in
x' <> xsp <> ysp <> y'
False -> stackInlines shared $
combineInlines
(stackInlines x_remaining xs)
(stackInlines y_remaining ys)
combineBlocks :: Blocks -> Blocks -> Blocks
combineBlocks bs cs
| bs' :> BlockQuote bs'' <- viewr (unMany bs)
, BlockQuote cs'' :< cs' <- viewl (unMany cs) =
Many $ (bs' |> BlockQuote (bs'' <> cs'')) >< cs'
| bs' :> CodeBlock attr codeStr <- viewr (unMany bs)
, CodeBlock attr' codeStr' :< cs' <- viewl (unMany cs)
, attr == attr' =
Many $ (bs' |> CodeBlock attr (codeStr <> "\n" <> codeStr')) >< cs'
combineBlocks bs cs = bs <> cs
instance (Monoid a, Eq a) => Eq (Modifier a) where
(Modifier f) == (Modifier g) = f mempty == g mempty
(AttrModifier f attr) == (AttrModifier g attr') = f attr mempty == g attr' mempty
NullModifier == NullModifier = True
_ == _ = False
isEmpty :: (Monoid a, Eq a) => a -> Bool
isEmpty x = x == mempty
isAttrModifier :: Modifier a -> Bool
isAttrModifier (AttrModifier _ _) = True
isAttrModifier _ = False
smushInlines :: [Inlines] -> Inlines
smushInlines xs = combineInlines xs' mempty
where xs' = foldl combineInlines mempty xs
smushBlocks :: [Blocks] -> Blocks
smushBlocks xs = foldl combineBlocks mempty xs
|
