idris-0.9.2.1: src/Idris/Parser.hs
{-# LANGUAGE PatternGuards #-}
module Idris.Parser where
import Idris.AbsSyntax
import Idris.DSL
import Idris.Imports
import Idris.Error
import Idris.ElabDecls
import Idris.ElabTerm
import Idris.Coverage
import Idris.IBC
import Idris.Unlit
import Paths_idris
import Core.CoreParser
import Core.TT
import Core.Evaluate
import Text.ParserCombinators.Parsec
import Text.ParserCombinators.Parsec.Error
import Text.ParserCombinators.Parsec.Expr
import Text.ParserCombinators.Parsec.Language
import qualified Text.ParserCombinators.Parsec.Token as PTok
import Data.List
import Control.Monad.State
import Debug.Trace
import Data.Maybe
import System.FilePath
type TokenParser a = PTok.TokenParser a
type IParser = GenParser Char IState
lexer :: TokenParser IState
lexer = PTok.makeTokenParser idrisDef
whiteSpace= PTok.whiteSpace lexer
lexeme = PTok.lexeme lexer
symbol = PTok.symbol lexer
natural = PTok.natural lexer
parens = PTok.parens lexer
semi = PTok.semi lexer
comma = PTok.comma lexer
identifier= PTok.identifier lexer
reserved = PTok.reserved lexer
operator = PTok.operator lexer
reservedOp= PTok.reservedOp lexer
integer = PTok.integer lexer
float = PTok.float lexer
strlit = PTok.stringLiteral lexer
chlit = PTok.charLiteral lexer
lchar = lexeme.char
-- Loading modules
loadModule :: FilePath -> Idris String
loadModule f
= idrisCatch (do datadir <- liftIO $ getDataDir
fp <- liftIO $ findImport [".", datadir] f
i <- getIState
if (f `elem` imported i)
then iLOG $ "Already read " ++ f
else do putIState (i { imported = f : imported i })
case fp of
IDR fn -> loadSource False fn
LIDR fn -> loadSource True fn
IBC fn src ->
idrisCatch (loadIBC fn)
(\c -> do iLOG $ fn ++ " failed " ++ show c
case src of
IDR sfn -> loadSource False sfn
LIDR sfn -> loadSource True sfn)
let (dir, fh) = splitFileName f
return (dropExtension fh))
(\e -> do let msg = show e
setErrLine (getErrLine msg)
iputStrLn msg
return "")
loadSource :: Bool -> FilePath -> Idris ()
loadSource lidr f
= do iLOG ("Reading " ++ f)
file_in <- liftIO $ readFile f
file <- if lidr then tclift $ unlit f file_in else return file_in
(mname, modules, rest, pos) <- parseImports f file
i <- getIState
putIState (i { default_access = Hidden })
mapM_ loadModule modules
clearIBC -- start a new .ibc file
mapM_ (\m -> addIBC (IBCImport m)) modules
ds' <- parseProg (defaultSyntax {syn_namespace = reverse mname })
f rest pos
let ds = namespaces mname ds'
logLvl 3 (dumpDecls ds)
i <- getIState
logLvl 10 (show (toAlist (idris_implicits i)))
logLvl 3 (show (idris_infixes i))
-- Now add all the declarations to the context
v <- verbose
when v $ iputStrLn $ "Type checking " ++ f
mapM_ (elabDecl toplevel) ds
i <- get
mapM_ checkDeclTotality (idris_totcheck i)
iLOG ("Finished " ++ f)
let ibc = dropExtension f ++ ".ibc"
iucheck
i <- getIState
addHides (hide_list i)
ok <- noErrors
when ok $
idrisCatch (do writeIBC f ibc; clearIBC)
(\c -> return ()) -- failure is harmless
i <- getIState
putIState (i { hide_list = [] })
return ()
where
namespaces [] ds = ds
namespaces (x:xs) ds = [PNamespace x (namespaces xs ds)]
addHides :: [(Name, Maybe Accessibility)] -> Idris ()
addHides xs = do i <- getIState
let defh = default_access i
let (hs, as) = partition isNothing xs
if null as then return ()
else mapM_ doHide
(map (\ (n, _) -> (n, defh)) hs ++
map (\ (n, Just a) -> (n, a)) as)
where isNothing (_, Nothing) = True
isNothing _ = False
doHide (n, a) = do setAccessibility n a
addIBC (IBCAccess n a)
parseExpr i = runParser (pFullExpr defaultSyntax) i "(input)"
parseTac i = runParser (do t <- pTactic defaultSyntax
eof
return t) i "(proof)"
parseImports :: FilePath -> String -> Idris ([String], [String], String, SourcePos)
parseImports fname input
= do i <- get
case (runParser (do whiteSpace
mname <- pHeader
ps <- many pImport
rest <- getInput
pos <- getPosition
return ((mname, ps, rest, pos), i)) i fname input) of
Left err -> fail (show err)
Right (x, i) -> do put i
return x
where ishow err = let ln = sourceLine (errorPos err) in
fname ++ ":" ++ show ln ++ ":parse error"
-- ++ show (map messageString (errorMessages err))
pHeader :: IParser [String]
pHeader = try (do reserved "module"; i <- identifier; option ';' (lchar ';')
return (parseName i))
<|> return []
where parseName x = case span (/='.') x of
(x, "") -> [x]
(x, '.':y) -> x : parseName y
push_indent :: IParser ()
push_indent = do pos <- getPosition
ist <- getState
setState (ist { indent_stack = sourceColumn pos :
indent_stack ist })
last_indent :: IParser Int
last_indent = do ist <- getState
case indent_stack ist of
(x : xs) -> return x
_ -> return 1
indent :: IParser Int
indent = do pos <- getPosition
return (sourceColumn pos)
pop_indent :: IParser ()
pop_indent = do ist <- getState
let (x : xs) = indent_stack ist
setState (ist { indent_stack = xs })
open_block :: IParser ()
open_block = do lchar '{'
ist <- getState
setState (ist { brace_stack = Nothing : brace_stack ist })
<|> do ist <- getState
lvl <- indent
setState (ist { brace_stack = Just lvl : brace_stack ist })
close_block :: IParser ()
close_block = do ist <- getState
bs <- case brace_stack ist of
Nothing : xs -> do lchar '}'
return xs
Just lvl : xs -> do i <- indent
inp <- getInput
-- trace (show (take 10 inp, i, lvl)) $
if (i >= lvl && take 1 inp /= ")")
then fail "Not end of block"
else return xs
setState (ist { brace_stack = bs })
pTerminator = do lchar ';'; pop_indent
<|> do c <- indent; l <- last_indent
if (c <= l) then pop_indent
else fail "Not a terminator"
<|> do i <- getInput; if (take 1 i == "}" || take 1 i == ")") then pop_indent
else fail "Not a terminator"
<|> lookAhead eof
pBarTerminator
= do lchar '|'; return ()
<|> do c <- indent; l <- last_indent
if (c <= l) then return ()
else fail "Not a terminator"
<|> lookAhead eof
pKeepTerminator
= do lchar ';'; return ()
<|> do c <- indent; l <- last_indent
if (c <= l) then return ()
else fail "Not a terminator"
<|> do i <- getInput; let h = take 1 i
if (h == "}" || h == ")" || h == "|") then return ()
else fail "Not a terminator"
<|> lookAhead eof
notEndApp = do c <- indent; l <- last_indent
i <- getInput
if (c <= l) then fail "Terminator"
else return ()
notEndBlock = do ist <- getState
case brace_stack ist of
Just lvl : xs -> do i <- indent
inp <- getInput
if (i < lvl || take 1 inp == ")")
then fail "End of block"
else return ()
_ -> return ()
pfc :: IParser FC
pfc = do s <- getPosition
let (dir, file) = splitFileName (sourceName s)
let f = case dir of
"./" -> file
_ -> sourceName s
return $ FC f (sourceLine s)
pImport :: IParser String
pImport = do reserved "import"
f <- identifier
option ';' (lchar ';')
return (map dot f)
where dot '.' = '/'
dot c = c
parseProg :: SyntaxInfo -> FilePath -> String -> SourcePos -> Idris [PDecl]
parseProg syn fname input pos
= do i <- get
case (runParser (do setPosition pos
whiteSpace
ps <- many (pDecl syn)
eof
i' <- getState
return (concat ps, i')) i fname input) of
Left err -> fail (ishow err)
Right (x, i) -> do put i
return (collect x)
where ishow err = let ln = sourceLine (errorPos err) in
fname ++ ":" ++ show ln ++ ":parse error"
++ " at column " ++ show (sourceColumn (errorPos err))
-- show (map messageString (errorMessages err))
-- Collect PClauses with the same function name
collect :: [PDecl] -> [PDecl]
collect (c@(PClauses _ o _ _) : ds)
= clauses (cname c) [] (c : ds)
where clauses n acc (PClauses fc _ _ [PClause fc' n' l ws r w] : ds)
| n == n' = clauses n (PClause fc' n' l ws r (collect w) : acc) ds
clauses n acc (PClauses fc _ _ [PWith fc' n' l ws r w] : ds)
| n == n' = clauses n (PWith fc' n' l ws r (collect w) : acc) ds
clauses n acc xs = PClauses (getfc c) o n (reverse acc) : collect xs
cname (PClauses fc _ _ [PClause _ n _ _ _ _]) = n
cname (PClauses fc _ _ [PWith _ n _ _ _ _]) = n
getfc (PClauses fc _ _ _) = fc
collect (PParams f ns ps : ds) = PParams f ns (collect ps) : collect ds
collect (PNamespace ns ps : ds) = PNamespace ns (collect ps) : collect ds
collect (PClass f s cs n ps ds : ds') = PClass f s cs n ps (collect ds) : collect ds'
collect (PInstance f s cs n ps t ds : ds')
= PInstance f s cs n ps t (collect ds) : collect ds'
collect (d : ds) = d : collect ds
collect [] = []
pFullExpr :: SyntaxInfo -> IParser PTerm
pFullExpr syn
= do x <- pExpr syn; eof;
i <- getState
return $ desugar syn i x
pDecl :: SyntaxInfo -> IParser [PDecl]
pDecl syn = do notEndBlock
pDeclBody where
pDeclBody
= do d <- pDecl' syn
i <- getState
let d' = fmap (desugar syn i) d
return [d']
<|> pUsing syn
<|> pParams syn
<|> pNamespace syn
<|> pClass syn
<|> pInstance syn
<|> do d <- pDSL syn; return [d]
<|> pDirective
<|> try (do reserved "import"
fp <- identifier
fail "imports must be at the top of file")
pFunDecl :: SyntaxInfo -> IParser [PDecl]
pFunDecl syn
= try (do notEndBlock
d <- pFunDecl' syn
i <- getState
let d' = fmap (desugar syn i) d
return [d'])
--------- Top Level Declarations ---------
pDecl' :: SyntaxInfo -> IParser PDecl
pDecl' syn
= try pFixity
<|> pFunDecl' syn
<|> try (pData syn)
<|> try (pRecord syn)
<|> pSyntaxDecl syn
pSyntaxDecl :: SyntaxInfo -> IParser PDecl
pSyntaxDecl syn
= do s <- pSyntaxRule syn
i <- getState
let rs = syntax_rules i
let ns = syntax_keywords i
let ibc = ibc_write i
let ks = map show (names s)
setState (i { syntax_rules = s : rs,
syntax_keywords = ks ++ ns,
ibc_write = IBCSyntax s : map IBCKeyword ks ++ ibc
})
fc <- pfc
return (PSyntax fc s)
where
names (Rule syms _ _) = mapMaybe ename syms
ename (Keyword n) = Just n
ename _ = Nothing
pSyntaxRule :: SyntaxInfo -> IParser Syntax
pSyntaxRule syn
= do push_indent
sty <- option AnySyntax (do reserved "term"; return TermSyntax
<|> do reserved "pattern"; return PatternSyntax)
reserved "syntax"
syms <- many1 pSynSym
when (all expr syms) $ fail "No keywords in syntax rule"
let ns = mapMaybe name syms
when (length ns /= length (nub ns))
$ fail "Repeated variable in syntax rule"
lchar '='
tm <- pExpr syn
pTerminator
return (Rule (mkSimple syms) tm sty)
where
expr (Expr _) = True
expr _ = False
name (Expr n) = Just n
name _ = Nothing
-- Can't parse two full expressions (i.e. expressions with application) in a row
-- so change the first to a simple expression
mkSimple (Expr e : es) = SimpleExpr e : mkSimple' es
mkSimple xs = mkSimple' xs
mkSimple' (Expr e : Expr e1 : es) = SimpleExpr e : mkSimple' (Expr e1 : es)
mkSimple' (e : es) = e : mkSimple' es
mkSimple' [] = []
pSynSym :: IParser SSymbol
pSynSym = try (do lchar '['; n <- pName; lchar ']'
return (Expr n))
<|> do n <- iName []
return (Keyword n)
<|> do sym <- strlit
return (Symbol sym)
pFunDecl' :: SyntaxInfo -> IParser PDecl
pFunDecl' syn = try (do push_indent
opts <- pFnOpts
acc <- pAccessibility
opts' <- pFnOpts
n_in <- pfName
let n = expandNS syn n_in
ty <- pTSig syn
fc <- pfc
pTerminator
-- ty' <- implicit syn n ty
addAcc n acc
return (PTy syn fc (opts ++ opts') n ty))
<|> try (pPattern syn)
pUsing :: SyntaxInfo -> IParser [PDecl]
pUsing syn =
do reserved "using";
lchar '('
ns <- tyDeclList syn
lchar ')'
open_block
let uvars = using syn
ds <- many1 (pDecl (syn { using = uvars ++ ns }))
close_block
return (concat ds)
pParams :: SyntaxInfo -> IParser [PDecl]
pParams syn =
do reserved "params";
lchar '('
ns <- tyDeclList syn
lchar ')'
lchar '{'
let pvars = syn_params syn
ds <- many1 (pDecl syn { syn_params = pvars ++ ns })
lchar '}'
fc <- pfc
return [PParams fc ns (concat ds)]
pNamespace :: SyntaxInfo -> IParser [PDecl]
pNamespace syn =
do reserved "namespace";
n <- identifier
open_block
ds <- many1 (pDecl syn { syn_namespace = n : syn_namespace syn })
close_block
return [PNamespace n (concat ds)]
--------- Fixity ---------
pFixity :: IParser PDecl
pFixity = do push_indent
f <- fixity; i <- natural; ops <- sepBy1 operator (lchar ',')
pTerminator
let prec = fromInteger i
istate <- getState
let fs = map (Fix (f prec)) ops
setState (istate {
idris_infixes = nub $ sort (fs ++ idris_infixes istate),
ibc_write = map IBCFix fs ++ ibc_write istate })
fc <- pfc
return (PFix fc (f prec) ops)
fixity :: IParser (Int -> Fixity)
fixity = try (do reserved "infixl"; return Infixl)
<|> try (do reserved "infixr"; return Infixr)
<|> try (do reserved "infix"; return InfixN)
<|> try (do reserved "prefix"; return PrefixN)
--------- Tyoe classes ---------
pClass :: SyntaxInfo -> IParser [PDecl]
pClass syn = do acc <- pAccessibility
reserved "class"
fc <- pfc
cons <- pConstList syn
n_in <- pName; let n = expandNS syn n_in
cs <- many1 carg
reserved "where"; open_block
ds <- many $ pFunDecl syn
close_block
let allDs = concat ds
accData acc n (concatMap declared allDs)
return [PClass syn fc cons n cs allDs]
where
carg = do lchar '('; i <- pName; lchar ':'; ty <- pExpr syn; lchar ')'
return (i, ty)
<|> do i <- pName;
return (i, PSet)
pInstance :: SyntaxInfo -> IParser [PDecl]
pInstance syn = do reserved "instance"
fc <- pfc
cs <- pConstList syn
cn <- pName
args <- many1 (pSimpleExpr syn)
let sc = PApp fc (PRef fc cn) (map pexp args)
let t = bindList (PPi constraint) (map (\x -> (MN 0 "c", x)) cs) sc
reserved "where"; open_block
ds <- many $ pFunDecl syn
close_block
return [PInstance syn fc cs cn args t (concat ds)]
--------- Expressions ---------
pExpr syn = do i <- getState
buildExpressionParser (table (idris_infixes i)) (pExpr' syn)
pExpr' :: SyntaxInfo -> IParser PTerm
pExpr' syn
= try (pExtExpr syn)
<|> pNoExtExpr syn
pExtExpr :: SyntaxInfo -> IParser PTerm
pExtExpr syn = do i <- getState
pExtensions syn (syntax_rules i)
pSimpleExtExpr :: SyntaxInfo -> IParser PTerm
pSimpleExtExpr syn = do i <- getState
pExtensions syn (filter simple (syntax_rules i))
where
simple (Rule (Expr x:xs) _ _) = False
simple (Rule (SimpleExpr x:xs) _ _) = False
simple (Rule [Keyword _] _ _) = True
simple (Rule [Symbol _] _ _) = True
simple (Rule (_:xs) _ _) = case (last xs) of
Keyword _ -> True
Symbol _ -> True
_ -> False
simple _ = False
pNoExtExpr syn =
try (pApp syn)
<|> pRecordSet syn
<|> try (pSimpleExpr syn)
<|> pLambda syn
<|> pLet syn
<|> pPi syn
<|> pDoBlock syn
<|> pComprehension syn
pExtensions :: SyntaxInfo -> [Syntax] -> IParser PTerm
pExtensions syn rules = choice (map (\x -> try (pExt syn x)) (filter valid rules))
where
valid (Rule _ _ AnySyntax) = True
valid (Rule _ _ PatternSyntax) = inPattern syn
valid (Rule _ _ TermSyntax) = not (inPattern syn)
pExt :: SyntaxInfo -> Syntax -> IParser PTerm
pExt syn (Rule ssym ptm _)
= do smap <- mapM pSymbol ssym
let ns = mapMaybe id smap
return (update ns ptm) -- updated with smap
where
pSymbol (Keyword n) = do reserved (show n); return Nothing
pSymbol (Expr n) = do tm <- pExpr syn
return $ Just (n, tm)
pSymbol (SimpleExpr n) = do tm <- pSimpleExpr syn
return $ Just (n, tm)
pSymbol (Symbol s) = do symbol s
return Nothing
dropn n [] = []
dropn n ((x,t) : xs) | n == x = xs
| otherwise = (x,t):dropn n xs
update ns (PRef fc n) = case lookup n ns of
Just t -> t
_ -> PRef fc n
update ns (PLam n ty sc) = PLam n (update ns ty) (update (dropn n ns) sc)
update ns (PPi p n ty sc) = PPi p n (update ns ty) (update (dropn n ns) sc)
update ns (PLet n ty val sc) = PLet n (update ns ty) (update ns val)
(update (dropn n ns) sc)
update ns (PApp fc t args) = PApp fc (update ns t) (map (fmap (update ns)) args)
update ns (PCase fc c opts) = PCase fc (update ns c) (map (pmap (update ns)) opts)
update ns (PPair fc l r) = PPair fc (update ns l) (update ns r)
update ns (PDPair fc l t r) = PDPair fc (update ns l) (update ns t) (update ns r)
update ns (PAlternative as) = PAlternative (map (update ns) as)
update ns (PHidden t) = PHidden (update ns t)
update ns (PDoBlock ds) = PDoBlock $ upd ns ds
where upd ns (DoExp fc t : ds) = DoExp fc (update ns t) : upd ns ds
upd ns (DoBind fc n t : ds) = DoBind fc n (update ns t) : upd (dropn n ns) ds
upd ns (DoLet fc n ty t : ds) = DoLet fc n (update ns ty) (update ns t)
: upd (dropn n ns) ds
upd ns (DoBindP fc i t : ds) = DoBindP fc (update ns i) (update ns t)
: upd ns ds
upd ns (DoLetP fc i t : ds) = DoLetP fc (update ns i) (update ns t)
: upd ns ds
update ns t = t
pName = do i <- getState
iName (syntax_keywords i)
<|> do reserved "instance"
i <- getState
UN n <- iName (syntax_keywords i)
return (UN ('@':n))
pfName = try pName
<|> do lchar '('; o <- operator; lchar ')'; return (UN o)
pAccessibility' :: IParser Accessibility
pAccessibility'
= do reserved "public"; return Public
<|> do reserved "abstract"; return Frozen
<|> do reserved "private"; return Hidden
pAccessibility :: IParser (Maybe Accessibility)
pAccessibility
= do acc <- pAccessibility'; return (Just acc)
<|> return Nothing
pFnOpts :: IParser [FnOpt]
pFnOpts = do reserved "total"; xs <- pFnOpts; return (TotalFn : xs)
<|> do lchar '%'; reserved "assert_total"; xs <- pFnOpts; return (AssertTotal : xs)
<|> do lchar '%'; reserved "specialise";
lchar '['; ns <- sepBy pfName (lchar ','); lchar ']'
xs <- pFnOpts
return (Specialise ns : xs)
<|> return []
addAcc :: Name -> Maybe Accessibility -> IParser ()
addAcc n a = do i <- getState
setState (i { hide_list = (n, a) : hide_list i })
pSimpleExpr syn =
try (do symbol "!["; t <- pTerm; lchar ']'
return $ PQuote t)
<|> do lchar '?'; x <- pName; return (PMetavar x)
<|> do reserved "refl"; fc <- pfc; return (PRefl fc)
-- <|> do reserved "return"; fc <- pfc; return (PReturn fc)
<|> do reserved "proof"; lchar '{';
ts <- endBy (pTactic syn) (lchar ';')
lchar '}'
return (PProof ts)
<|> do reserved "tactics"; lchar '{';
ts <- endBy (pTactic syn) (lchar ';')
lchar '}'
return (PTactics ts)
<|> do reserved "case"; fc <- pfc; scr <- pExpr syn; reserved "of";
open_block
push_indent
opts <- many1 (do notEndBlock
x <- pCaseOpt syn
pKeepTerminator
return x) -- sepBy1 (pCaseOpt syn) (lchar '|')
pop_indent
close_block
return (PCase fc scr opts)
<|> try (do x <- pfName; fc <- pfc; return (PRef fc x))
<|> try (pList syn)
<|> try (pAlt syn)
<|> try (pIdiom syn)
<|> try (do lchar '('; bracketed syn)
<|> try (do c <- pConstant; fc <- pfc
return (modifyConst syn fc (PConstant c)))
<|> do reserved "Set"; return PSet
<|> try (do symbol "()"; fc <- pfc; return (PTrue fc))
<|> try (do symbol "_|_"; fc <- pfc; return (PFalse fc))
<|> do lchar '_'; return Placeholder
<|> pSimpleExtExpr syn
bracketed syn =
try (pPair syn)
<|> try (do e <- pExpr syn; lchar ')'; return e)
-- <|> try (do reserved "typed"
-- e <- pExpr syn; symbol ":"; t <- pExpr syn; lchar ')'
-- return (PTyped e t))
<|> try (do fc <- pfc; o <- operator; e <- pExpr syn; lchar ')'
return $ PLam (MN 0 "x") Placeholder
(PApp fc (PRef fc (UN o)) [pexp (PRef fc (MN 0 "x")),
pexp e]))
<|> try (do fc <- pfc; e <- pSimpleExpr syn; o <- operator; lchar ')'
return $ PLam (MN 0 "x") Placeholder
(PApp fc (PRef fc (UN o)) [pexp e,
pexp (PRef fc (MN 0 "x"))]))
pCaseOpt :: SyntaxInfo -> IParser (PTerm, PTerm)
pCaseOpt syn = do lhs <- pExpr syn; symbol "=>";
rhs <- pExpr syn
return (lhs, rhs)
modifyConst :: SyntaxInfo -> FC -> PTerm -> PTerm
modifyConst syn fc (PConstant (I x))
| not (inPattern syn)
= PApp fc (PRef fc (UN "fromInteger")) [pexp (PConstant (I x))]
| otherwise = PConstant (I x)
modifyConst syn fc x = x
pList syn = do lchar '['; fc <- pfc
xs <- sepBy (pExpr syn) (lchar ','); lchar ']'
return (mkList fc xs)
where
mkList fc [] = PRef fc (UN "Nil")
mkList fc (x : xs) = PApp fc (PRef fc (UN "::")) [pexp x, pexp (mkList fc xs)]
pPair syn = try (do l <- pExpr syn
fc <- pfc
rest <- restTuple
case rest of
[] -> return l
[Left r] -> return (PPair fc l r)
[Right r] -> return (PDPair fc l Placeholder r))
<|> try (do x <- ntuple
lchar ')'
return x)
<|> do ln <- pName; lchar ':'; lty <- pExpr syn;
reservedOp "**";
fc <- pfc
r <- pExpr syn; lchar ')';
return (PDPair fc (PRef fc ln) lty r)
where
restTuple = do lchar ')'; return []
<|> do lchar ','
r <- pExpr syn
lchar ')'
return [Left r]
<|> do reservedOp "**"
r <- pExpr syn
lchar ')'
return [Right r]
ntuple = try (do l <- pExpr syn; fc <- pfc; lchar ','
rest <- ntuple
return (PPair fc l rest))
<|> (do l <- pExpr syn; fc <- pfc; lchar ','
r <- pExpr syn
return (PPair fc l r))
pAlt syn = do symbol "(|";
alts <- sepBy1 (pExpr' syn) (lchar ',')
symbol "|)"
return (PAlternative alts)
pHSimpleExpr syn
= do lchar '.'
e <- pSimpleExpr syn
return $ PHidden e
<|> pSimpleExpr syn
pApp syn = do f <- pSimpleExpr syn
fc <- pfc
args <- many1 (do notEndApp
pArg syn)
i <- getState
return (dslify i $ PApp fc f args)
where
dslify i (PApp fc (PRef _ f) [a])
| [d] <- lookupCtxt Nothing f (idris_dsls i)
= desugar (syn { dsl_info = d }) i (getTm a)
dslify i t = t
pArg :: SyntaxInfo -> IParser PArg
pArg syn = try (pImplicitArg syn)
<|> try (pConstraintArg syn)
<|> do e <- pSimpleExpr syn
return (pexp e)
pImplicitArg syn = do lchar '{'; n <- pName
fc <- pfc
v <- option (PRef fc n) (do lchar '='; pExpr syn)
lchar '}'
return (pimp n v)
pConstraintArg syn = do symbol "@{"; e <- pExpr syn; symbol "}"
return (pconst e)
pRecordSet syn
= do reserved "record"
lchar '{'
fields <- sepBy1 pFieldSet (lchar ',')
lchar '}'
fc <- pfc
rec <- option Nothing (do e <- pSimpleExpr syn; return (Just e))
case rec of
Nothing ->
return (PLam (MN 0 "fldx") Placeholder
(applyAll fc fields (PRef fc (MN 0 "fldx"))))
Just v -> return (applyAll fc fields v)
where pFieldSet = do n <- pfName; lchar '='
e <- pExpr syn
return (n, e)
applyAll fc [] x = x
applyAll fc ((n, e) : es) x
= applyAll fc es (PApp fc (PRef fc (mkSet n)) [pexp e, pexp x])
mkSet (UN n) = UN ("set_" ++ n)
mkSet (MN 0 n) = MN 0 ("set_" ++ n)
mkSet (NS n s) = NS (mkSet n) s
pTSig syn = do lchar ':'
cs <- pConstList syn
sc <- pExpr syn
return (bindList (PPi constraint) (map (\x -> (MN 0 "c", x)) cs) sc)
pLambda syn = do lchar '\\'
(try (do xt <- tyOptDeclList syn
symbol "=>"
sc <- pExpr syn
return (bindList PLam xt sc))
<|> (do ps <- sepBy (do fc <- pfc
e <- pSimpleExpr syn
return (fc, e)) (lchar ',')
symbol "=>"
sc <- pExpr syn
return (pmList (zip [0..] ps) sc)))
where pmList [] sc = sc
pmList ((i, (fc, x)) : xs) sc
= PLam (MN i "lamp") Placeholder
(PCase fc (PRef fc (MN i "lamp"))
[(x, (pmList xs sc))])
pLet syn = try (do reserved "let"; n <- pName;
ty <- option Placeholder (do lchar ':'; pExpr' syn)
lchar '='; v <- pExpr syn
reserved "in"; sc <- pExpr syn
return (PLet n ty v sc))
<|> (do reserved "let"; fc <- pfc; pat <- pExpr' syn
symbol "="; v <- pExpr syn
reserved "in"; sc <- pExpr syn
return (PCase fc v [(pat, sc)]))
pPi syn =
try (do lazy <- option False (do lchar '|'; return True)
st <- pStatic
lchar '('; xt <- tyDeclList syn; lchar ')'
symbol "->"
sc <- pExpr syn
return (bindList (PPi (Exp lazy st)) xt sc))
<|> try (do lazy <- option False (do lchar '|'; return True)
st <- pStatic
lchar '{'; xt <- tyDeclList syn; lchar '}'
symbol "->"
sc <- pExpr syn
return (bindList (PPi (Imp lazy st)) xt sc))
<|> try (do lchar '{'; reserved "auto"
xt <- tyDeclList syn; lchar '}'
symbol "->"
sc <- pExpr syn
return (bindList (PPi (TacImp False Dynamic (PTactics [Trivial]))) xt sc))
<|> try (do lchar '{'; reserved "default"
script <- pSimpleExpr syn
xt <- tyDeclList syn; lchar '}'
symbol "->"
sc <- pExpr syn
return (bindList (PPi (TacImp False Dynamic script)) xt sc))
<|> do --lazy <- option False (do lchar '|'; return True)
lchar '{'; reserved "static"; lchar '}'
t <- pExpr' syn
symbol "->"
sc <- pExpr syn
return (PPi (Exp False Static) (MN 42 "__pi_arg") t sc)
pConstList :: SyntaxInfo -> IParser [PTerm]
pConstList syn = try (do lchar '('
tys <- sepBy1 (pExpr' syn) (lchar ',')
lchar ')'
reservedOp "=>"
return tys)
<|> try (do t <- pExpr syn
reservedOp "=>"
return [t])
<|> return []
tyDeclList syn = try (sepBy1 (do x <- pfName; t <- pTSig syn; return (x,t))
(lchar ','))
<|> do ns <- sepBy1 pName (lchar ',')
t <- pTSig syn
return (map (\x -> (x, t)) ns)
tyOptDeclList syn = sepBy1 (do x <- pfName;
t <- option Placeholder (do lchar ':'
pExpr syn)
return (x,t))
(lchar ',')
bindList b [] sc = sc
bindList b ((n, t):bs) sc = b n t (bindList b bs sc)
pComprehension syn
= do lchar '['; fc <- pfc; pat <- pExpr syn; lchar '|';
qs <- sepBy1 (pDo syn) (lchar ','); lchar ']';
return (PDoBlock (map addGuard qs ++
[DoExp fc (PApp fc (PRef fc (UN "return"))
[pexp pat])]))
where addGuard (DoExp fc e) = DoExp fc (PApp fc (PRef fc (UN "guard"))
[pexp e])
addGuard x = x
pDoBlock syn
= do reserved "do"; open_block
push_indent
ds <- many1 (do notEndBlock
x <- pDo syn; pKeepTerminator; return x)
pop_indent
close_block
return (PDoBlock ds)
pDo syn
= try (do reserved "let"; i <- pName;
ty <- option Placeholder (do lchar ':'; pExpr' syn)
reservedOp "="; fc <- pfc
e <- pExpr syn
return (DoLet fc i ty e))
<|> try (do reserved "let"; i <- pExpr' syn; reservedOp "="; fc <- pfc
sc <- pExpr syn
return (DoLetP fc i sc))
<|> try (do i <- pName; symbol "<-"; fc <- pfc
e <- pExpr syn;
return (DoBind fc i e))
<|> try (do i <- pExpr' syn; symbol "<-"; fc <- pfc
e <- pExpr syn;
return (DoBindP fc i e))
<|> try (do e <- pExpr syn; fc <- pfc
return (DoExp fc e))
pIdiom syn
= do symbol "[|"; fc <- pfc; e <- pExpr syn; symbol "|]"
return (PIdiom fc e)
pConstant :: IParser Const
pConstant = do reserved "Integer";return BIType
<|> do reserved "Int"; return IType
<|> do reserved "Char"; return ChType
<|> do reserved "Float"; return FlType
<|> do reserved "String"; return StrType
<|> do reserved "Ptr"; return PtrType
<|> try (do f <- float; return $ Fl f)
-- <|> try (do i <- natural; lchar 'L'; return $ BI i)
<|> try (do i <- natural; return $ I (fromInteger i))
<|> try (do s <- strlit; return $ Str s)
<|> try (do c <- chlit; return $ Ch c)
pStatic :: IParser Static
pStatic = do lchar '['; reserved "static"; lchar ']';
return Static
<|> return Dynamic
table fixes
= [[prefix "-" (\fc x -> PApp fc (PRef fc (UN "-"))
[pexp (PApp fc (PRef fc (UN "fromInteger")) [pexp (PConstant (I 0))]), pexp x])]]
++ toTable (reverse fixes) ++
[[backtick],
[binary "=" (\fc x y -> PEq fc x y) AssocLeft],
[binary "->" (\fc x y -> PPi expl (MN 42 "__pi_arg") x y) AssocRight]]
toTable fs = map (map toBin)
(groupBy (\ (Fix x _) (Fix y _) -> prec x == prec y) fs)
where toBin (Fix (PrefixN _) op) = prefix op
(\fc x -> PApp fc (PRef fc (UN op)) [pexp x])
toBin (Fix f op)
= binary op (\fc x y -> PApp fc (PRef fc (UN op)) [pexp x,pexp y]) (assoc f)
assoc (Infixl _) = AssocLeft
assoc (Infixr _) = AssocRight
assoc (InfixN _) = AssocNone
binary name f assoc = Infix (do reservedOp name; fc <- pfc;
return (f fc)) assoc
prefix name f = Prefix (do reservedOp name; fc <- pfc;
return (f fc))
backtick = Infix (do lchar '`'; n <- pfName; lchar '`'
fc <- pfc
return (\x y -> PApp fc (PRef fc n) [pexp x, pexp y])) AssocNone
--------- Data declarations ---------
-- (works for classes too - 'abstract' means the data/class is visible but members not)
accData :: Maybe Accessibility -> Name -> [Name] -> IParser ()
accData (Just Frozen) n ns = do addAcc n (Just Frozen)
mapM_ (\n -> addAcc n (Just Hidden)) ns
accData a n ns = do addAcc n a; mapM_ (\n -> addAcc n a) ns
pRecord :: SyntaxInfo -> IParser PDecl
pRecord syn = do acc <- pAccessibility
reserved "record"; fc <- pfc
tyn_in <- pfName; ty <- pTSig syn
let tyn = expandNS syn tyn_in
reserved "where"
open_block
push_indent
(cn, cty, _) <- pConstructor syn
pKeepTerminator
pop_indent
close_block
accData acc tyn [cn]
let rsyn = syn { syn_namespace = show (nsroot tyn) :
syn_namespace syn }
let fns = getRecNames rsyn cty
mapM_ (\n -> addAcc n (toFreeze acc)) fns
return $ PRecord rsyn fc tyn ty cn cty
where
getRecNames syn (PPi _ n _ sc) = [expandNS syn n, expandNS syn (mkSet n)]
++ getRecNames syn sc
getRecNames _ _ = []
toFreeze (Just Frozen) = Just Hidden
toFreeze x = x
pData :: SyntaxInfo -> IParser PDecl
pData syn = try (do acc <- pAccessibility
reserved "data"; fc <- pfc
tyn_in <- pfName; ty <- pTSig syn
let tyn = expandNS syn tyn_in
reserved "where"
open_block
push_indent
cons <- many (do notEndBlock
c <- pConstructor syn
pKeepTerminator
return c) -- (lchar '|')
pop_indent
close_block
accData acc tyn (map (\ (n, _, _) -> n) cons)
return $ PData syn fc (PDatadecl tyn ty cons))
<|> try (do push_indent
acc <- pAccessibility
reserved "data"; fc <- pfc
tyn_in <- pfName; args <- many pName
let tyn = expandNS syn tyn_in
lchar '='
cons <- sepBy1 (pSimpleCon syn) (lchar '|')
pTerminator
let conty = mkPApp fc (PRef fc tyn) (map (PRef fc) args)
let ty = bindArgs (map (\a -> PSet) args) PSet
cons' <- mapM (\ (x, cargs, cfc) ->
do let cty = bindArgs cargs conty
return (x, cty, cfc)) cons
accData acc tyn (map (\ (n, _, _) -> n) cons')
return $ PData syn fc (PDatadecl tyn ty cons'))
where
mkPApp fc t [] = t
mkPApp fc t xs = PApp fc t (map pexp xs)
bindArgs :: [PTerm] -> PTerm -> PTerm
bindArgs [] t = t
bindArgs (x:xs) t = PPi expl (MN 0 "t") x (bindArgs xs t)
pConstructor :: SyntaxInfo -> IParser (Name, PTerm, FC)
pConstructor syn
= do cn_in <- pfName; fc <- pfc
let cn = expandNS syn cn_in
ty <- pTSig syn
-- ty' <- implicit syn cn ty
return (cn, ty, fc)
pSimpleCon :: SyntaxInfo -> IParser (Name, [PTerm], FC)
pSimpleCon syn
= do cn_in <- pfName
let cn = expandNS syn cn_in
fc <- pfc
args <- many (do notEndApp
pSimpleExpr syn)
return (cn, args, fc)
--------- DSL syntax overloading ---------
pDSL :: SyntaxInfo -> IParser PDecl
pDSL syn = do reserved "dsl"; n <- pfName
open_block; push_indent
bs <- many1 (do notEndBlock
b <- pOverload syn
pKeepTerminator
return b)
pop_indent; close_block
let dsl = mkDSL bs (dsl_info syn)
checkDSL dsl
i <- getState
setState (i { idris_dsls = addDef n dsl (idris_dsls i) })
return (PDSL n dsl)
where 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 in
initDSL { dsl_var = var,
index_first = first,
index_next = next,
dsl_lambda = lambda,
dsl_let = leto }
checkDSL :: DSL -> IParser ()
checkDSL dsl = return ()
pOverload :: SyntaxInfo -> IParser (String, PTerm)
pOverload syn = do o <- identifier <|> do reserved "let"; return "let"
if (not (o `elem` overloadable))
then fail $ show o ++ " is not an overloading"
else do
lchar '='
t <- pExpr syn
return (o, t)
where overloadable = ["let","lambda","index_first","index_next","variable"]
--------- Pattern match clauses ---------
pPattern :: SyntaxInfo -> IParser PDecl
pPattern syn = do fc <- pfc
clause <- pClause syn
return (PClauses fc [] (MN 2 "_") [clause]) -- collect together later
pArgExpr syn = let syn' = syn { inPattern = True } in
try (pHSimpleExpr syn') <|> pSimpleExtExpr syn'
pRHS :: SyntaxInfo -> Name -> IParser PTerm
pRHS syn n = do lchar '='; pExpr syn
<|> do symbol "?="; rhs <- pExpr syn;
return (PLet (UN "value") Placeholder rhs (PMetavar n'))
<|> do reserved "impossible"; return PImpossible
where mkN (UN x) = UN (x++"_lemma_1")
mkN (NS x n) = NS (mkN x) n
n' = mkN n
pClause :: SyntaxInfo -> IParser PClause
pClause syn
= try (do push_indent
n_in <- pfName; let n = expandNS syn n_in
cargs <- many (pConstraintArg syn)
iargs <- many (pImplicitArg syn)
fc <- pfc
args <- many (pArgExpr syn)
wargs <- many (pWExpr syn)
rhs <- pRHS syn n
ist <- getState
let ctxt = tt_ctxt ist
let wsyn = syn { syn_namespace = [] }
(wheres, nmap) <- choice [do x <- pWhereblock n wsyn
pop_indent
return x,
do pTerminator
return ([], [])]
let capp = PApp fc (PRef fc n)
(iargs ++ cargs ++ map pexp args)
ist <- getState
setState (ist { lastParse = Just n })
return $ PClause fc n capp wargs rhs wheres)
<|> try (do push_indent
wargs <- many1 (pWExpr syn)
ist <- getState
n <- case lastParse ist of
Just t -> return t
Nothing -> fail "Invalid clause"
fc <- pfc
rhs <- pRHS syn n
let ctxt = tt_ctxt ist
let wsyn = syn { syn_namespace = [] }
(wheres, nmap) <- choice [do x <- pWhereblock n wsyn
pop_indent
return x,
do pTerminator
return ([], [])]
return $ PClauseR fc wargs rhs wheres)
<|> try (do push_indent
n_in <- pfName; let n = expandNS syn n_in
cargs <- many (pConstraintArg syn)
iargs <- many (pImplicitArg syn)
fc <- pfc
args <- many (pArgExpr syn)
wargs <- many (pWExpr syn)
let capp = PApp fc (PRef fc n)
(iargs ++ cargs ++ map pexp args)
reserved "with"
wval <- pSimpleExpr syn
open_block
ds <- many1 $ pFunDecl syn
let withs = map (fillLHSD n capp wargs) $ concat ds
close_block
ist <- getState
setState (ist { lastParse = Just n })
pop_indent
return $ PWith fc n capp wargs wval withs)
<|> try (do wargs <- many1 (pWExpr syn)
fc <- pfc
reserved "with"
wval <- pSimpleExpr syn
open_block
ds <- many1 $ pFunDecl syn
let withs = concat ds
close_block
return $ PWithR fc wargs wval withs)
<|> do push_indent
l <- pArgExpr syn
op <- operator
let n = expandNS syn (UN op)
r <- pArgExpr syn
fc <- pfc
wargs <- many (pWExpr syn)
rhs <- pRHS syn n
let wsyn = syn { syn_namespace = [] }
(wheres, nmap) <- choice [do x <- pWhereblock n wsyn
pop_indent
return x,
do pTerminator
return ([], [])]
ist <- getState
let capp = PApp fc (PRef fc n) [pexp l, pexp r]
setState (ist { lastParse = Just n })
return $ PClause fc n capp wargs rhs wheres
<|> do l <- pArgExpr syn
op <- operator
let n = expandNS syn (UN op)
r <- pArgExpr syn
fc <- pfc
wargs <- many (pWExpr syn)
reserved "with"
wval <- pSimpleExpr syn
open_block
ds <- many1 $ pFunDecl syn
close_block
ist <- getState
let capp = PApp fc (PRef fc n) [pexp l, pexp r]
let withs = map (fillLHSD n capp wargs) $ concat ds
setState (ist { lastParse = Just n })
return $ PWith fc n capp wargs wval withs
where
fillLHS n capp owargs (PClauseR fc wargs v ws)
= PClause fc n capp (owargs ++ wargs) v ws
fillLHS n capp owargs (PWithR fc wargs v ws)
= PWith fc n capp (owargs ++ wargs) v
(map (fillLHSD n capp (owargs ++ wargs)) ws)
fillLHS _ _ _ c = c
fillLHSD n c a (PClauses fc o fn cs) = PClauses fc o fn (map (fillLHS n c a) cs)
fillLHSD n c a x = x
pWExpr :: SyntaxInfo -> IParser PTerm
pWExpr syn = do lchar '|'; pExpr' syn
pWhereblock :: Name -> SyntaxInfo -> IParser ([PDecl], [(Name, Name)])
pWhereblock n syn
= do reserved "where"; open_block
ds <- many1 $ pFunDecl syn
let dns = concatMap (concatMap declared) ds
close_block
return (concat ds, map (\x -> (x, decoration syn x)) dns)
pDirective :: IParser [PDecl]
pDirective = try (do lchar '%'; reserved "lib"; lib <- strlit;
return [PDirective (do addLib lib
addIBC (IBCLib lib))])
<|> try (do lchar '%'; reserved "link"; obj <- strlit;
return [PDirective (do datadir <- liftIO $ getDataDir
o <- liftIO $ findInPath [".", datadir] obj
addIBC (IBCObj o)
addObjectFile o)])
<|> try (do lchar '%'; reserved "include"; hdr <- strlit;
return [PDirective (do addHdr hdr
addIBC (IBCHeader hdr))])
<|> try (do lchar '%'; reserved "hide"; n <- iName []
return [PDirective (do setAccessibility n Hidden
addIBC (IBCAccess n Hidden))])
<|> try (do lchar '%'; reserved "freeze"; n <- iName []
return [PDirective (do setAccessibility n Frozen
addIBC (IBCAccess n Frozen))])
<|> try (do lchar '%'; reserved "access"; acc <- pAccessibility'
return [PDirective (do i <- getIState
putIState (i { default_access = acc }))])
<|> try (do lchar '%'; reserved "logging"; i <- natural;
return [PDirective (setLogLevel (fromInteger i))])
pTactic :: SyntaxInfo -> IParser PTactic
pTactic syn = do reserved "intro"; ns <- sepBy pName (lchar ',')
return $ Intro ns
<|> do reserved "intros"; return Intros
<|> try (do reserved "refine"; n <- pName
imps <- many1 imp
return $ Refine n imps)
<|> do reserved "refine"; n <- pName
i <- getState
return $ Refine n []
<|> do reserved "rewrite"; t <- pExpr syn;
i <- getState
return $ Rewrite (desugar syn i t)
<|> do reserved "let"; n <- pName; lchar '=';
t <- pExpr syn;
i <- getState
return $ LetTac n (desugar syn i t)
<|> do reserved "focus"; n <- pName
return $ Focus n
<|> do reserved "exact"; t <- pExpr syn;
i <- getState
return $ Exact (desugar syn i t)
<|> do reserved "try"; t <- pTactic syn;
lchar '|';
t1 <- pTactic syn
return $ Try t t1
<|> do lchar '{'
t <- pTactic syn;
lchar ';';
t1 <- pTactic syn;
lchar '}'
return $ TSeq t t1
<|> do reserved "compute"; return Compute
<|> do reserved "trivial"; return Trivial
<|> do reserved "solve"; return Solve
<|> do reserved "attack"; return Attack
<|> do reserved "state"; return ProofState
<|> do reserved "term"; return ProofTerm
<|> do reserved "undo"; return Undo
<|> do reserved "qed"; return Qed
<|> do reserved "abandon"; return Abandon
<|> do lchar ':'; reserved "q"; return Abandon
where
imp = do lchar '?'; return False
<|> do lchar '_'; return True