I have a parser which parses to an ast which contains Text values. I
am trying to use this parser with quasiquoting, but the implementation
of Data for Text is incomplete. I’ve attached a smallish test case, when I try to compile Text.hs I get:
Text.hs:17:9:
Exception when trying to run compile-time code:
Data.Text.Text.toConstr
Code: Language.Haskell.TH.Quote.quoteExp expr ” test “
Is there a way to get this working?
I read through the discussion here: http://www.haskell.org/pipermail/haskell-cafe/2010-January/072379.html
It seems that no-one has found a proper solution to this issue? Also, I tried the Data instance given there and it didn’t work, I have no idea how to fix it (or how to use it since the text package already has a Data instance for Text). I don’t really understand a lot of the generics stuff and how it works.
The only solution I have so far is to give up using Text in the ast and go back to using String.
{-# LANGUAGE DeriveDataTypeable #-}
module Syntax where
import Data.Data
import Data.Text
data Expr = Iden Text
| Num Integer
| AntiIden Text
deriving (Eq,Show,Data,Typeable)
---------------------
module Parser where
import Control.Applicative
import Control.Monad.Identity
import qualified Data.Text as T
import Text.Parsec hiding (many, optional, (<|>), string, label)
import Text.Parsec.Language
import qualified Text.Parsec.Token as P
import Text.Parsec.Text ()
import Syntax
parseExpr :: T.Text -> Either ParseError Expr
parseExpr s =
runParser expr () "" s
expr :: ParsecT T.Text () Identity Expr
expr =
whiteSpace >> choice
[do
_ <- char '$'
AntiIden <$> identifier
,Num <$> natural
,Iden <$> identifier
]
identifier :: ParsecT T.Text () Identity T.Text
identifier = T.pack <$> P.identifier lexer
natural :: ParsecT T.Text () Identity Integer
natural = P.natural lexer
lexer :: P.GenTokenParser T.Text () Identity
lexer = P.makeTokenParser langDef
whiteSpace :: ParsecT T.Text () Identity ()
whiteSpace = P.whiteSpace lexer
langDef :: GenLanguageDef T.Text st Identity
langDef = P.LanguageDef
{ P.commentStart = "{-"
, P.commentEnd = "-}"
, P.commentLine = "--"
, P.nestedComments = True
, P.identStart = letter <|> char '_'
, P.identLetter = alphaNum <|> oneOf "_"
, P.opStart = P.opLetter langDef
, P.opLetter = oneOf "+-*/<>="
, P.reservedOpNames= []
, P.reservedNames = []
, P.caseSensitive = False
}
-------------------
module Quasi where
import Language.Haskell.TH.Quote
import Language.Haskell.TH
import Data.Generics
import qualified Data.Text as T
import Syntax
import Parser (parseExpr)
expr :: QuasiQuoter
expr = QuasiQuoter {quoteExp = prs
,quotePat = undefined
,quoteType = undefined
,quoteDec = undefined}
where
prs :: String -> Q Exp
prs s = p s
>>= dataToExpQ (const Nothing
`extQ` antiExpE
)
p s = either (fail . show) return (parseExpr $ T.pack s)
antiExpE :: Expr -> Maybe ExpQ
antiExpE v = fmap varE (antiExp v)
antiExp :: Expr -> Maybe Name
antiExp (AntiIden v) = Just $ mkName $ T.unpack v
antiExp _ = Nothing
----------------------------
-- test.hs:
{-# LANGUAGE QuasiQuotes #-}
import Syntax
import Quasi
test,test1,test2 :: Expr
-- works
test = [expr| 1234 |]
-- works
test1 = let stuff = Num 42
in [expr| $stuff |]
-- doesn't work
test2 = [expr| test |]
main :: IO ()
main = putStrLn $ show test2
Solution: add this function using extQ to the dataToExpQ call:
handleText :: T.Text -> Maybe ExpQ
handleText x =
-- convert the text to a string literal
-- and wrap it with T.pack
Just $ appE (varE 'T.pack) $ litE $ StringL $ T.unpack x
Add an
extQforhandleTextwherehandleTextexplicitly takes Text to an ExpQ, rather than going through generic machinery.Here’s one for Strings, for example, that renders them more efficiently than as explicit cons cells: