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---
title: Cursory Math-Support
published: 2015-11-05
tags: Blog Software
---
## Demonstration
I added some cursory support for math as shown below:
<div class="theorem">
Formulae are rendered with $\text{\LaTeX}$ and included as [SVG](https://en.wikipedia.org/wiki/SVG).
<div class="proof">
$$e^{ix} =\text{cos}(x) + i \text{sin} (x)$$
</div>
<div class="lemma">
Inline formulae get correctly aligned to match the baseline of the surrounding text.
<div class="proof">
$\text{tan}(\phi) = \frac{\text{sin}(\phi)}{\text{cos}(\phi)}$
</div>
</div>
</div>
## Implementation
Theorem environments are written using [pandoc](http://pandoc.org)s support for block environments:
~~~ {.markdown .numberLines}
<div class="theorem">
Formulae are rendered with $\text{\LaTeX}$ and included as [SVG](https://en.wikipedia.org/wiki/SVG).
<div class="proof">
$$e^{ix} =\text{cos}(x) + i \text{sin} (x)$$
</div>
<div class="lemma">
Inline formulae get correctly aligned to match the baseline of the surrounding text.
<div class="proof">
$\text{tan}(\phi) = \frac{\text{sin}(\phi)}{\text{cos}(\phi)}$
</div>
</div>
</div>
~~~
Combined with a smattering of CSS this works nicely.
$\text{\LaTeX}$ support is, however, lacking as I opted not to patch pandoc ([math.kleen.org](https://math.kleen.org) did).
### `Math.hs`
The actual compilation happens in a new module I named `Math.hs`. We´ll start there.
For your reading pleasure I added some comments to the reproduction below.
~~~ {.haskell .numberLines}
module Math
( compileMath
) where
import System.IO (stdout, stderr, hPutStrLn, writeFile, readFile)
import System.IO.Temp (withSystemTempDirectory)
import System.Process (callProcess, readProcessWithExitCode)
import System.Directory (copyFile, getCurrentDirectory, setCurrentDirectory)
import System.FilePath (takeFileName, FilePath(..), (</>))
import System.Exit (ExitCode(..))
import Control.Monad (when)
import Control.Exception (bracket, throwIO)
import Data.Maybe (fromMaybe, listToMaybe)
import Control.Monad.Writer.Strict (WriterT(..), execWriterT, tell)
import Control.Monad.Trans (liftIO)
import Control.DeepSeq (($!!))
import Text.Regex.TDFA ((=~))
-- We built a monoid instance for `ExitCode` so we can easily collect failure using a `MonadWriter`
instance Monoid ExitCode where
mempty = ExitSuccess
(ExitFailure a) `mappend` _ = ExitFailure a
ExitSuccess `mappend` x@(ExitFailure _) = x
ExitSuccess `mappend` ExitSuccess = ExitSuccess
compileMath :: String -> IO (String, String)
compileMath = withSystemTempDirectory "math" . compileMath' -- Create a temporary directory, run `compileMath'`, and make sure the directory get's deleted
compileMath' :: String -> FilePath -> IO (String, String)
compileMath' input tmpDir = do
mapM_ (copyToTmp . ("tex" </>)) [ "preamble.tex"
, "preview.dtx"
, "preview.ins"
]
(exitCode, out, err) <- withCurrentDirectory tmpDir $ execWriterT $ do -- Collect stdout, stderr, and exitCode of all subprocesses (stdout and stderr simply get appended to one another)
run "latex" [ "-interaction=batchmode"
, "preview.ins"
] ""
liftIO $ writeFile (tmpDir </> "image.tex") input
run "latex" [ "-interaction=batchmode"
, "image.tex"
] ""
run "dvisvgm" [ "--exact"
, "--no-fonts"
, tmpDir </> "image.dvi"
] ""
when (exitCode /= ExitSuccess) $ do -- Fail with maximum noise if any of the latex passes fail -- otherwise be silent
hPutStrLn stdout out
hPutStrLn stderr err
throwIO exitCode
(\x -> return $!! (x, extractAlignment err)) =<< (readFile $ tmpDir </> "image.svg") -- Note the call to `($!!)` -- since we'll be deleting `tmpDir` we need to make sure the entire generated output resides in memory before we leave this block
where
copyToTmp fp = copyFile fp (tmpDir </> takeFileName fp)
run :: String -> [String] -> String -> WriterT (ExitCode, String, String) IO ()
run bin args stdin = tell =<< liftIO (readProcessWithExitCode bin args stdin)
withCurrentDirectory :: FilePath -- ^ Directory to execute in
-> IO a -- ^ Action to be executed
-> IO a
-- ^ This is provided in newer versions of temporary
withCurrentDirectory dir action =
bracket getCurrentDirectory setCurrentDirectory $ \ _ -> do
setCurrentDirectory dir
action
extractAlignment :: String -> String
extractAlignment = fromMaybe "0pt" . extract . (=~ "depth=([^\\s]+)") -- One of the few places where regular expressions really prove usefull
where
extract :: (String, String, String, [String]) -> Maybe String
extract (_, _, _, xs) = listToMaybe xs
~~~
### `Site.hs`
The more trick part proved to be integration into the framework as provided by [Hakyll](http://jaspervdj.be/hakyll/).
~~~ {.haskell .numberLines}
…
import qualified Crypto.Hash.SHA256 as SHA256 (hash)
import qualified Data.ByteString.Char8 as CBS
import Data.Hex (hex)
import Data.Char (toLower)
import Math (compileMath)
import Text.Printf (printf)
main :: IO ()
main = hakyllWith config $ do
…
math <- getMath "posts/*" mathTranslation'
forM_ math $ \(_, mathStr) -> create [mathTranslation' mathStr] $ do
route idRoute
compile $ do
item <- makeItem mathStr
>>= loadAndApplyTemplate "templates/math.tex" defaultContext
>>= withItemBody (unsafeCompiler . compileMath) -- unsafeCompiler :: IO a -> Compiler a
saveSnapshot "alignment" $ fmap snd item
return $ fmap fst item
match "posts/*" $ do
route $ setExtension ".html"
compile $ do
getResourceBody >>= saveSnapshot "content"
pandocCompilerWithTransformM defaultHakyllReaderOptions defaultHakyllWriterOptions mathTransform -- pandocCompilerWithTransformM :: ReaderOptions -> WriterOptions -> (Pandoc -> Compiler Pandoc) -> Item String
>>= loadAndApplyTemplate "templates/default.html" defaultContext
>>= relativizeUrls
…
…
mathTranslation' :: String -> Identifier
-- ^ This generates the filename for a svg file given the TeX-source
mathTranslation' = fromCapture "math/*.svg" . map toLower . CBS.unpack . hex . SHA256.hash . CBS.pack
getMath :: Pattern -> (String -> Identifier) -> Rules [([Identifier], String)]
-- ^ We scrape all posts for math, calls `readPandoc'`
getMath pattern makeId = do
ids <- getMatches pattern
mathStrs <- concat `liftM` mapM (\id -> map ((,) [id]) `liftM` getMath' (toFilePath' id)) ids
return $ mergeGroups $ groupBy ((==) `on` snd) $ mathStrs
where
getMath' :: FilePath -> Rules [String]
getMath' path = preprocess (query extractMath `liftM` readPandoc' path)
extractMath :: Inline -> [String]
extractMath (Math _ str) = [str]
extractMath _ = []
mergeGroups :: [[([Identifier], String)]] -> [([Identifier], String)]
mergeGroups = map mergeGroups' . filter (not . null)
mergeGroups' :: [([Identifier], String)] -> ([Identifier], String)
mergeGroups' xs@((_, str):_) = (concatMap fst xs, str)
readPandoc' :: FilePath -> IO Pandoc
-- ^ This is copied, almost verbatim, from Hakyll source -- Does what it says on the tin
readPandoc' path = readFile path >>= either fail return . result'
where
result' str = case result str of
Left (ParseFailure err) -> Left $
"parse failed: " ++ err
Left (ParsecError _ err) -> Left $
"parse failed: " ++ show err
Right item' -> Right item'
result str = reader defaultHakyllReaderOptions (fileType path) str
reader ro t = case t of
DocBook -> readDocBook ro
Html -> readHtml ro
LaTeX -> readLaTeX ro
LiterateHaskell t' -> reader (addExt ro Ext_literate_haskell) t'
Markdown -> readMarkdown ro
MediaWiki -> readMediaWiki ro
OrgMode -> readOrg ro
Rst -> readRST ro
Textile -> readTextile ro
_ -> error $
"I don't know how to read a file of " ++
"the type " ++ show t ++ " for: " ++ path
addExt ro e = ro {readerExtensions = Set.insert e $ readerExtensions ro}
mathTransform :: Pandoc -> Compiler Pandoc
-- ^ We replace math by raw html includes of the respective svg files here
mathTransform = walkM mathTransform'
where
mathTransform' :: Inline -> Compiler Inline
mathTransform' (Math mathType tex) = do
alignment <- loadSnapshotBody texId "alignment"
let
html = printf "<object data=\"/%s\" type=\"image/svg+xml\" style=\"vertical-align:-%s\">%s</object>"
(toFilePath texId) (alignment :: String) tex
return $ Span ("", [classOf mathType], []) [RawInline (Format "html") html]
where
texId = mathTranslation' tex
classOf DisplayMath = "display-math"
classOf InlineMath = "inline-math"
mathTransform' x = return x
…
~~~
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