module Idris.Parser.Data where
import Idris.AbsSyntax
import Idris.Core.TT
import Idris.Docstrings
import Idris.Options
import Idris.Parser.Expr
import Idris.Parser.Helpers
import Idris.Parser.Ops
import Prelude hiding (pi)
import Control.Applicative
import Control.Monad.State.Strict
import Data.List
import Data.Maybe
import Text.Megaparsec ((<?>))
import qualified Text.Megaparsec as P
record :: SyntaxInfo -> IdrisParser PDecl
record syn = (appExtent $ do
(doc, paramDocs, acc, opts) <- P.try (do
(doc, paramDocs) <- P.option noDocs docComment
ist <- get
let doc' = annotCode (tryFullExpr syn ist) doc
paramDocs' = [ (n, annotCode (tryFullExpr syn ist) d)
| (n, d) <- paramDocs ]
acc <- accessibility
opts <- dataOpts []
co <- recordI
return (doc', paramDocs', acc, opts ++ co))
(tyn_in, nfc) <- withExtent fnName
let tyn = expandNS syn tyn_in
let rsyn = syn { syn_namespace = show (nsroot tyn) :
syn_namespace syn }
params <- P.manyTill (recordParameter rsyn) (keyword "where")
(fields, cname, cdoc) <- indentedBlockS $ recordBody rsyn tyn
let fnames = map (expandNS rsyn) (mapMaybe getName fields)
case cname of
Just cn' -> accData acc tyn (fst cn' : fnames)
Nothing -> return ()
return $ \fc -> PRecord doc rsyn fc opts tyn nfc params paramDocs fields cname cdoc syn)
<?> "record type declaration"
where
getName (Just (n, _), _, _, _) = Just n
getName _ = Nothing
recordBody :: SyntaxInfo -> Name -> IdrisParser ([((Maybe (Name, FC)), Plicity, PTerm, Maybe (Docstring (Either Err PTerm)))], Maybe (Name, FC), Docstring (Either Err PTerm))
recordBody syn tyn = do
ist <- get
(constructorName, constructorDoc) <- P.option (Nothing, emptyDocstring)
(do (doc, _) <- P.option noDocs docComment
n <- withExtent constructor
return (Just n, doc))
let constructorDoc' = annotate syn ist constructorDoc
fields <- many . indented $ fieldLine syn
return (concat fields, constructorName, constructorDoc')
where
fieldLine :: SyntaxInfo -> IdrisParser [(Maybe (Name, FC), Plicity, PTerm, Maybe (Docstring (Either Err PTerm)))]
fieldLine syn = do
doc <- optional docComment
c <- optional $ lchar '{'
let oneName = (do (n, nfc) <- withExtent fnName
return $ Just (expandNS syn n, nfc))
<|> (symbol "_" >> return Nothing)
ns <- commaSeparated oneName
lchar ':'
t <- typeExpr (scopedImp syn)
p <- endPlicity c
ist <- get
let doc' = case doc of
Just (d,_) -> Just $ annotate syn ist d
Nothing -> Nothing
return $ map (\n -> (n, p, t, doc')) ns
constructor :: (Parsing m, MonadState IState m) => m Name
constructor = keyword "constructor" *> fnName
endPlicity :: Maybe Char -> IdrisParser Plicity
endPlicity (Just _) = do lchar '}'
return impl
endPlicity Nothing = return expl
annotate :: SyntaxInfo -> IState -> Docstring () -> Docstring (Either Err PTerm)
annotate syn ist = annotCode $ tryFullExpr syn ist
recordParameter :: SyntaxInfo -> IdrisParser (Name, FC, Plicity, PTerm)
recordParameter syn =
(do lchar '('
(n, nfc, pt) <- (namedTy syn <|> onlyName syn)
lchar ')'
return (n, nfc, expl, pt))
<|>
(do (n, nfc, pt) <- onlyName syn
return (n, nfc, expl, pt))
where
namedTy :: SyntaxInfo -> IdrisParser (Name, FC, PTerm)
namedTy syn =
do (n, nfc) <- withExtent fnName
lchar ':'
ty <- typeExpr (allowImp syn)
return (expandNS syn n, nfc, ty)
onlyName :: SyntaxInfo -> IdrisParser (Name, FC, PTerm)
onlyName syn =
do (n, nfc) <- withExtent fnName
return (expandNS syn n, nfc, PType nfc)
dataI :: IdrisParser DataOpts
dataI = do keyword "data"; return []
<|> do keyword "codata"; return [Codata]
recordI :: IdrisParser DataOpts
recordI = do keyword "record"; return []
<|> do keyword "corecord"; return [Codata]
dataOpts :: DataOpts -> IdrisParser DataOpts
dataOpts opts =
do reserved "%error_reverse"; dataOpts (DataErrRev : opts)
<|> return opts
<?> "data options"
data_ :: SyntaxInfo -> IdrisParser PDecl
data_ syn = (checkDeclFixity $
do (doc, argDocs, acc, dataOpts) <- P.try (do
(doc, argDocs) <- P.option noDocs docComment
pushIndent
acc <- accessibility
errRev <- dataOpts []
co <- dataI
ist <- get
let dataOpts = errRev ++ co
doc' = annotCode (tryFullExpr syn ist) doc
argDocs' = [ (n, annotCode (tryFullExpr syn ist) d)
| (n, d) <- argDocs ]
return (doc', argDocs', acc, dataOpts))
(tyn_in, nfc) <- withExtent fnName
(do P.try (lchar ':')
ty <- typeExpr (allowImp syn)
let tyn = expandNS syn tyn_in
d <- P.option (PData doc argDocs syn nfc dataOpts (PLaterdecl tyn nfc ty)) (do
keyword "where"
cons <- indentedBlock (constructor syn)
accData acc tyn (map (\ (_, _, n, _, _, _, _) -> n) cons)
return $ PData doc argDocs syn nfc dataOpts (PDatadecl tyn nfc ty cons))
terminator
return d) <|> (do
args <- many (do notEndApp
x <- name
return x)
let ty = bindArgs (map (const (PType nfc)) args) (PType nfc)
let tyn = expandNS syn tyn_in
d <- P.option (PData doc argDocs syn nfc dataOpts (PLaterdecl tyn nfc ty)) (do
P.try (lchar '=') <|> do keyword "where"
let kw = (if Codata `elem` dataOpts then "co" else "") ++ "data "
let n = show tyn_in ++ " "
let s = kw ++ n
let as = unwords (map show args) ++ " "
let ns = concat (intersperse " -> " $ map ((\x -> "(" ++ x ++ " : Type)") . show) args)
let ss = concat (intersperse " -> " $ map (const "Type") args)
let fix1 = s ++ as ++ " = ..."
let fix2 = s ++ ": " ++ ns ++ " -> Type where\n ..."
let fix3 = s ++ ": " ++ ss ++ " -> Type where\n ..."
fail $ fixErrorMsg "unexpected \"where\"" [fix1, fix2, fix3]
cons <- P.sepBy1 (simpleConstructor (syn { withAppAllowed = False })) (reservedOp "|")
let conty = mkPApp nfc (PRef nfc [] tyn) (map (PRef nfc []) args)
cons' <- mapM (\ (doc, argDocs, x, xfc, cargs, cfc, fs) ->
do let cty = bindArgs cargs conty
return (doc, argDocs, x, xfc, cty, cfc, fs)) cons
accData acc tyn (map (\ (_, _, n, _, _, _, _) -> n) cons')
return $ PData doc argDocs syn nfc dataOpts (PDatadecl tyn nfc ty cons'))
terminator
return d))
<?> "data type declaration"
where
mkPApp :: FC -> PTerm -> [PTerm] -> PTerm
mkPApp fc t [] = t
mkPApp fc t xs = PApp fc t (map pexp xs)
bindArgs :: [PTerm] -> PTerm -> PTerm
bindArgs xs t = foldr (PPi expl (sMN 0 "_t") NoFC) t xs
constructor :: SyntaxInfo -> IdrisParser (Docstring (Either Err PTerm), [(Name, Docstring (Either Err PTerm))], Name, FC, PTerm, FC, [Name])
constructor syn
= do (doc, argDocs) <- P.option noDocs docComment
(cn_in, nfc) <- withExtent fnName
let cn = expandNS syn cn_in
lchar ':'
fs <- P.option [] (do lchar '%'; reserved "erase"
P.sepBy1 name (lchar ','))
(ty, fc) <- withExtent $ typeExpr (allowImp syn)
ist <- get
let doc' = annotCode (tryFullExpr syn ist) doc
argDocs' = [ (n, annotCode (tryFullExpr syn ist) d)
| (n, d) <- argDocs ]
checkNameFixity cn
return (doc', argDocs', cn, nfc, ty, fc, fs)
<?> "constructor"
simpleConstructor :: SyntaxInfo -> IdrisParser (Docstring (Either Err PTerm), [(Name, Docstring (Either Err PTerm))], Name, FC, [PTerm], FC, [Name])
simpleConstructor syn
= (appExtent $ do
(doc, _) <- P.option noDocs (P.try docComment)
ist <- get
let doc' = annotCode (tryFullExpr syn ist) doc
(cn_in, nfc) <- withExtent fnName
let cn = expandNS syn cn_in
args <- many (do notEndApp
simpleExpr syn)
checkNameFixity cn
return $ \fc -> (doc', [], cn, nfc, args, fc, []))
<?> "constructor"
dsl :: SyntaxInfo -> IdrisParser PDecl
dsl syn = do keyword "dsl"
n <- fnName
bs <- indentedBlock (overload syn)
let dsl = mkDSL bs (dsl_info syn)
checkDSL dsl
i <- get
put (i { idris_dsls = addDef n dsl (idris_dsls i) })
return (PDSL n dsl)
<?> "dsl block declaration"
where mkDSL :: [(String, PTerm)] -> DSL -> DSL
mkDSL bs dsl = let var = lookup "variable" bs
first = lookup "index_first" bs
next = lookup "index_next" bs
leto = lookup "let" bs
lambda = lookup "lambda" bs
pi = lookup "pi" bs in
initDSL { dsl_var = var,
index_first = first,
index_next = next,
dsl_lambda = lambda,
dsl_let = leto,
dsl_pi = pi }
checkDSL :: DSL -> IdrisParser ()
checkDSL dsl = return ()
overload :: SyntaxInfo -> IdrisParser (String, PTerm)
overload syn = do o <- highlight AnnKeyword $ identifier <|> "let" <$ reserved "let"
if o `notElem` overloadable
then fail $ show o ++ " is not an overloading"
else do
lchar '='
t <- expr syn
return (o, t)
<?> "dsl overload declaratioN"
where overloadable = ["let","lambda","pi","index_first","index_next","variable"]