module Idris.Interactive(caseSplitAt, addClauseFrom, addProofClauseFrom,
addMissing, makeWith, makeCase, doProofSearch,
makeLemma) where
import Idris.Core.TT
import Idris.Core.Evaluate
import Idris.CaseSplit
import Idris.AbsSyntax
import Idris.ElabDecls
import Idris.Error
import Idris.Delaborate
import Idris.Output
import Idris.IdeMode hiding (IdeModeCommand(..))
import Idris.Elab.Value
import Idris.Elab.Term
import Util.Pretty
import Util.System
import System.FilePath
import System.Directory
import System.IO
import Data.Char
import Data.Maybe (fromMaybe)
import Data.List (isSuffixOf)
import Debug.Trace
caseSplitAt :: FilePath -> Bool -> Int -> Name -> Idris ()
caseSplitAt fn updatefile l n
= do src <- runIO $ readSource fn
(ok, res) <- splitOnLine l n fn
logLvl 1 (showSep "\n" (map show res))
let (before, (ap : later)) = splitAt (l1) (lines src)
res' <- replaceSplits ap res (not ok)
let new = concat res'
if updatefile
then do let fb = fn ++ "~"
runIO $ writeSource fb (unlines before ++ new ++ unlines later)
runIO $ copyFile fb fn
else
iPrintResult new
addClauseFrom :: FilePath -> Bool -> Int -> Name -> Idris ()
addClauseFrom fn updatefile l n = do
ist <- getIState
cl <- getInternalApp fn l
let fulln = getAppName cl
case lookup fulln (idris_metavars ist) of
Nothing -> addMissing fn updatefile l n
Just _ -> do
src <- runIO $ readSource fn
let (before, tyline : later) = splitAt (l1) (lines src)
let indent = getIndent 0 (show n) tyline
cl <- getClause l fulln n fn
let (nonblank, rest) = span (not . all isSpace) (tyline:later)
if updatefile
then do let fb = fn ++ "~"
runIO $ writeSource fb (unlines (before ++ nonblank) ++
replicate indent ' ' ++
cl ++ "\n" ++
unlines rest)
runIO $ copyFile fb fn
else iPrintResult cl
where
getIndent i n [] = 0
getIndent i n xs | take 9 xs == "instance " = i
getIndent i n xs | take (length n) xs == n = i
getIndent i n (x : xs) = getIndent (i + 1) n xs
getAppName (PApp _ r _) = getAppName r
getAppName (PRef _ _ r) = r
getAppName (PTyped n _) = getAppName n
getAppName _ = n
addProofClauseFrom :: FilePath -> Bool -> Int -> Name -> Idris ()
addProofClauseFrom fn updatefile l n
= do src <- runIO $ readSource fn
let (before, tyline : later) = splitAt (l1) (lines src)
let indent = getIndent 0 (show n) tyline
cl <- getProofClause l n fn
let (nonblank, rest) = span (not . all isSpace) (tyline:later)
if updatefile
then do let fb = fn ++ "~"
runIO $ writeSource fb (unlines (before ++ nonblank) ++
replicate indent ' ' ++
cl ++ "\n" ++
unlines rest)
runIO $ copyFile fb fn
else iPrintResult cl
where
getIndent i n [] = 0
getIndent i n xs | take (length n) xs == n = i
getIndent i n (x : xs) = getIndent (i + 1) n xs
addMissing :: FilePath -> Bool -> Int -> Name -> Idris ()
addMissing fn updatefile l n
= do src <- runIO $ readSource fn
let (before, tyline : later) = splitAt (l1) (lines src)
let indent = getIndent 0 (show n) tyline
i <- getIState
cl <- getInternalApp fn l
let n' = getAppName cl
extras <- case lookupCtxtExact n' (idris_patdefs i) of
Nothing -> return ""
Just (_, tms) -> do tms' <- nameMissing tms
showNew (show n ++ "_rhs") 1 indent tms'
let (nonblank, rest) = span (not . all isSpace) (tyline:later)
if updatefile
then do let fb = fn ++ "~"
runIO $ writeSource fb (unlines (before ++ nonblank)
++ extras ++
(if null extras then ""
else "\n" ++ unlines rest))
runIO $ copyFile fb fn
else iPrintResult extras
where showPat = show . stripNS
stripNS tm = mapPT dens tm where
dens (PRef fc hls n) = PRef fc hls (nsroot n)
dens t = t
nsroot (NS n _) = nsroot n
nsroot (SN (WhereN _ _ n)) = nsroot n
nsroot n = n
getAppName (PApp _ r _) = getAppName r
getAppName (PRef _ _ r) = r
getAppName (PTyped n _) = getAppName n
getAppName _ = n
makeIndent ind | ".lidr" `isSuffixOf` fn = '>' : ' ' : replicate (ind2) ' '
| otherwise = replicate ind ' '
showNew nm i ind (tm : tms)
= do (nm', i') <- getUniq nm i
rest <- showNew nm i' ind tms
return (makeIndent ind ++
showPat tm ++ " = ?" ++ nm' ++
(if null rest then "" else
"\n" ++ rest))
showNew nm i _ [] = return ""
getIndent i n [] = 0
getIndent i n xs | take (length n) xs == n = i
getIndent i n (x : xs) = getIndent (i + 1) n xs
makeWith :: FilePath -> Bool -> Int -> Name -> Idris ()
makeWith fn updatefile l n
= do src <- runIO $ readSource fn
let (before, tyline : later) = splitAt (l1) (lines src)
let ind = getIndent tyline
let with = mkWith tyline n
let (nonblank, rest) = span (\x -> not (all isSpace x) &&
not (ind == getIndent x)) later
if updatefile then
do let fb = fn ++ "~"
runIO $ writeSource fb (unlines (before ++ nonblank)
++ with ++ "\n" ++
unlines rest)
runIO $ copyFile fb fn
else iPrintResult with
where getIndent s = length (takeWhile isSpace s)
makeCase :: FilePath -> Bool -> Int -> Name -> Idris ()
makeCase fn updatefile l n
= do src <- runIO $ readSource fn
let (before, tyline : later) = splitAt (l1) (lines src)
let newcase = addCaseSkel (show n) tyline
if updatefile then
do let fb = fn ++ "~"
runIO $ writeSource fb (unlines (before ++ newcase ++ later))
runIO $ copyFile fb fn
else iPrintResult (showSep "\n" newcase ++"\n")
where addCaseSkel n line =
let b = brackets False line in
case findSubstr ('?':n) line of
Just (before, pos, after) ->
[before ++ (if b then "(" else "") ++ "case _ of",
take (pos + (if b then 6 else 5)) (repeat ' ') ++
"case_val => ?" ++ n ++ (if b then ")" else "")
++ after]
Nothing -> fail "No such metavariable"
brackets eq line | line == '?' : show n = not eq
brackets eq ('=':ls) = brackets True ls
brackets eq (' ':ls) = brackets eq ls
brackets eq (l : ls) = brackets False ls
brackets eq [] = True
findSubstr n xs = findSubstr' [] 0 n xs
findSubstr' acc i n xs | take (length n) xs == n
= Just (reverse acc, i, drop (length n) xs)
findSubstr' acc i n [] = Nothing
findSubstr' acc i n (x : xs) = findSubstr' (x : acc) (i + 1) n xs
doProofSearch :: FilePath -> Bool -> Bool ->
Int -> Name -> [Name] -> Maybe Int -> Idris ()
doProofSearch fn updatefile rec l n hints Nothing
= doProofSearch fn updatefile rec l n hints (Just 20)
doProofSearch fn updatefile rec l n hints (Just depth)
= do src <- runIO $ readSource fn
let (before, tyline : later) = splitAt (l1) (lines src)
ctxt <- getContext
mn <- case lookupNames n ctxt of
[x] -> return x
[] -> return n
ns -> ierror (CantResolveAlts ns)
i <- getIState
let (top, envlen, psnames, _)
= case lookup mn (idris_metavars i) of
Just (t, e, ns, False) -> (t, e, ns, False)
_ -> (Nothing, 0, [], True)
let fc = fileFC fn
let body t = PProof [Try (TSeq Intros (ProofSearch rec False depth t psnames hints))
(ProofSearch rec False depth t psnames hints)]
let def = PClause fc mn (PRef fc [] mn) [] (body top) []
newmv <- idrisCatch
(do elabDecl' EAll recinfo (PClauses fc [] mn [def])
(tm, ty) <- elabVal recinfo ERHS (PRef fc [] mn)
ctxt <- getContext
i <- getIState
return . flip displayS "" . renderPretty 1.0 80 $
pprintPTerm defaultPPOption [] [] (idris_infixes i)
(stripNS
(dropCtxt envlen
(delab i (fst (specialise ctxt [] [(mn, 1)] tm))))))
(\e -> return ("?" ++ show n))
if updatefile then
do let fb = fn ++ "~"
runIO $ writeSource fb (unlines before ++
updateMeta False tyline (show n) newmv ++ "\n"
++ unlines later)
runIO $ copyFile fb fn
else iPrintResult newmv
where dropCtxt 0 sc = sc
dropCtxt i (PPi _ _ _ _ sc) = dropCtxt (i 1) sc
dropCtxt i (PLet _ _ _ _ _ sc) = dropCtxt (i 1) sc
dropCtxt i (PLam _ _ _ _ sc) = dropCtxt (i 1) sc
dropCtxt _ t = t
stripNS tm = mapPT dens tm where
dens (PRef fc hls n) = PRef fc hls (nsroot n)
dens t = t
nsroot (NS n _) = nsroot n
nsroot (SN (WhereN _ _ n)) = nsroot n
nsroot n = n
updateMeta brack ('?':cs) n new
| length cs >= length n
= case splitAt (length n) cs of
(mv, c:cs) ->
if ((isSpace c || c == ')' || c == '}') && mv == n)
then addBracket brack new ++ (c : cs)
else '?' : mv ++ c : updateMeta True cs n new
(mv, []) -> if (mv == n) then addBracket brack new else '?' : mv
updateMeta brack ('=':cs) n new = '=':updateMeta False cs n new
updateMeta brack (c:cs) n new
= c : updateMeta (brack || not (isSpace c)) cs n new
updateMeta brack [] n new = ""
checkProv line n = isProv' False line n
where
isProv' p cs n | take (length n) cs == n = p
isProv' _ ('?':cs) n = isProv' False cs n
isProv' _ ('{':cs) n = isProv' True cs n
isProv' _ ('}':cs) n = isProv' True cs n
isProv' p (_:cs) n = isProv' p cs n
isProv' _ [] n = False
addBracket False new = new
addBracket True new@('(':xs) | last xs == ')' = new
addBracket True new | any isSpace new = '(' : new ++ ")"
| otherwise = new
makeLemma :: FilePath -> Bool -> Int -> Name -> Idris ()
makeLemma fn updatefile l n
= do src <- runIO $ readSource fn
let (before, tyline : later) = splitAt (l1) (lines src)
let isProv = checkProv tyline (show n)
ctxt <- getContext
(fname, mty) <- case lookupTyName n ctxt of
[t] -> return t
[] -> ierror (NoSuchVariable n)
ns -> ierror (CantResolveAlts (map fst ns))
i <- getIState
margs <- case lookup fname (idris_metavars i) of
Just (_, arity, _, _) -> return arity
_ -> return (1)
if (not isProv) then do
let skip = guessImps i (tt_ctxt i) mty
let classes = guessClasses i (tt_ctxt i) mty
let lem = show n ++ " : " ++
constraints i classes mty ++
showTmOpts (defaultPPOption { ppopt_pinames = True })
(stripMNBind skip margs (delab i mty))
let lem_app = show n ++ appArgs skip margs mty
if updatefile then
do let fb = fn ++ "~"
runIO $ writeSource fb (addLem before tyline lem lem_app later)
runIO $ copyFile fb fn
else case idris_outputmode i of
RawOutput _ -> iPrintResult $ lem ++ "\n" ++ lem_app
IdeMode n h ->
let good = SexpList [SymbolAtom "ok",
SexpList [SymbolAtom "metavariable-lemma",
SexpList [SymbolAtom "replace-metavariable",
StringAtom lem_app],
SexpList [SymbolAtom "definition-type",
StringAtom lem]]]
in runIO . hPutStrLn h $ convSExp "return" good n
else do
let lem_app = show n ++ appArgs [] (1) mty ++
" = ?" ++ show n ++ "_rhs"
if updatefile then
do let fb = fn ++ "~"
runIO $ writeSource fb (addProv before tyline lem_app later)
runIO $ copyFile fb fn
else case idris_outputmode i of
RawOutput _ -> iPrintResult $ lem_app
IdeMode n h ->
let good = SexpList [SymbolAtom "ok",
SexpList [SymbolAtom "provisional-definition-lemma",
SexpList [SymbolAtom "definition-clause",
StringAtom lem_app]]]
in runIO . hPutStrLn h $ convSExp "return" good n
where getIndent s = length (takeWhile isSpace s)
appArgs skip 0 _ = ""
appArgs skip i (Bind n@(UN c) (Pi _ _ _) sc)
| (thead c /= '_' && n `notElem` skip)
= " " ++ show n ++ appArgs skip (i 1) sc
appArgs skip i (Bind _ (Pi _ _ _) sc) = appArgs skip (i 1) sc
appArgs skip i _ = ""
stripMNBind _ args t | args <= 0 = t
stripMNBind skip args (PPi b n@(UN c) _ ty sc)
| n `notElem` skip ||
take 4 (str c) == "__pi"
= PPi b n NoFC ty (stripMNBind skip (args 1) sc)
stripMNBind skip args (PPi b _ _ ty sc) = stripMNBind skip (args 1) sc
stripMNBind skip args t = t
constraints :: IState -> [Name] -> Type -> String
constraints i [] ty = ""
constraints i [n] ty = showSep ", " (showConstraints i [n] ty) ++ " => "
constraints i ns ty = "(" ++ showSep ", " (showConstraints i ns ty) ++ ") => "
showConstraints i ns (Bind n (Pi _ ty _) sc)
| n `elem` ns = show (delab i ty) :
showConstraints i ns (substV (P Bound n Erased) sc)
| otherwise = showConstraints i ns (substV (P Bound n Erased) sc)
showConstraints _ _ _ = []
guessImps :: IState -> Context -> Term -> [Name]
guessImps ist ctxt (Bind n@(MN _ _) (Pi _ ty _) sc)
= n : guessImps ist ctxt sc
guessImps ist ctxt (Bind n (Pi _ ty _) sc)
| guarded ctxt n (substV (P Bound n Erased) sc)
= n : guessImps ist ctxt sc
| isClass ist ty
= n : guessImps ist ctxt sc
| TType _ <- ty = n : guessImps ist ctxt sc
| ignoreName n = n : guessImps ist ctxt sc
| otherwise = guessImps ist ctxt sc
guessImps ist ctxt _ = []
ignoreName n = case show n of
"_aX" -> True
_ -> False
guessClasses :: IState -> Context -> Term -> [Name]
guessClasses ist ctxt (Bind n (Pi _ ty _) sc)
| isParamClass ist ty
= n : guessClasses ist ctxt sc
| otherwise = guessClasses ist ctxt sc
guessClasses ist ctxt _ = []
isClass ist t
| (P _ n _, args) <- unApply t
= case lookupCtxtExact n (idris_classes ist) of
Just _ -> True
_ -> False
| otherwise = False
isParamClass ist t
| (P _ n _, args) <- unApply t
= case lookupCtxtExact n (idris_classes ist) of
Just _ -> any isV args
_ -> False
| otherwise = False
where isV (V _) = True
isV _ = False
guarded ctxt n (P _ n' _) | n == n' = True
guarded ctxt n ap@(App _ _ _)
| (P _ f _, args) <- unApply ap,
isConName f ctxt = any (guarded ctxt n) args
guarded ctxt n (Bind _ (Pi _ t _) sc)
= guarded ctxt n t || guarded ctxt n sc
guarded ctxt n _ = False
blank = all isSpace
addLem before tyline lem lem_app later
= let (bef_end, blankline : bef_start)
= case span (not . blank) (reverse before) of
(bef, []) -> (bef, "" : [])
x -> x
mvline = updateMeta False tyline (show n) lem_app in
unlines $ reverse bef_start ++
[blankline, lem, blankline] ++
reverse bef_end ++ mvline : later
addProv before tyline lem_app later
= let (later_bef, blankline : later_end)
= case span (not . blank) later of
(bef, []) -> (bef, "" : [])
x -> x in
unlines $ before ++ tyline :
(later_bef ++ [blankline, lem_app, blankline] ++
later_end)