{-# LANGUAGE GeneralizedNewtypeDeriving, ConstraintKinds, PatternGuards #-} {-# OPTIONS_GHC -O0 #-} module Idris.ParseExpr where import Prelude hiding (pi) import Text.Trifecta.Delta import Text.Trifecta hiding (span, stringLiteral, charLiteral, natural, symbol, char, string, whiteSpace, Err) import Text.Parser.LookAhead import Text.Parser.Expression import qualified Text.Parser.Token as Tok import qualified Text.Parser.Char as Chr import qualified Text.Parser.Token.Highlight as Hi import Idris.AbsSyntax import Idris.ParseHelpers import Idris.ParseOps import Idris.DSL import Idris.Core.TT import Control.Applicative import Control.Monad import Control.Monad.State.Strict import Data.Maybe import qualified Data.List.Split as Spl import Data.List import Data.Monoid import Data.Char import qualified Data.HashSet as HS import qualified Data.Text as T import qualified Data.ByteString.UTF8 as UTF8 import Debug.Trace -- | Allow implicit type declarations allowImp :: SyntaxInfo -> SyntaxInfo allowImp syn = syn { implicitAllowed = True } -- | Disallow implicit type declarations disallowImp :: SyntaxInfo -> SyntaxInfo disallowImp syn = syn { implicitAllowed = False } {-| Parses an expression as a whole @ FullExpr ::= Expr EOF_t; @ -} fullExpr :: SyntaxInfo -> IdrisParser PTerm fullExpr syn = do x <- expr syn eof i <- get return $ debindApp syn (desugar syn i x) tryFullExpr :: SyntaxInfo -> IState -> String -> Either Err PTerm tryFullExpr syn st input = case runparser (fullExpr syn) st "" input of Success tm -> Right tm Failure e -> Left (Msg (show e)) {- | Parses an expression @ Expr ::= Pi @ -} expr :: SyntaxInfo -> IdrisParser PTerm expr = pi {- | Parses an expression with possible operator applied @ OpExpr ::= {- Expression Parser with Operators based on Expr' -}; @ -} opExpr :: SyntaxInfo -> IdrisParser PTerm opExpr syn = do i <- get buildExpressionParser (table (idris_infixes i)) (expr' syn) {- | Parses either an internally defined expression or a user-defined one @ Expr' ::= "External (User-defined) Syntax" | InternalExpr; @ -} expr' :: SyntaxInfo -> IdrisParser PTerm expr' syn = try (externalExpr syn) <|> internalExpr syn "expression" {- | Parses a user-defined expression -} externalExpr :: SyntaxInfo -> IdrisParser PTerm externalExpr syn = do i <- get extensions syn (syntax_rules i) "user-defined expression" {- | Parses a simple user-defined expression -} simpleExternalExpr :: SyntaxInfo -> IdrisParser PTerm simpleExternalExpr syn = do i <- get extensions syn (filter isSimple (syntax_rules i)) where isSimple (Rule (Expr x:xs) _ _) = False isSimple (Rule (SimpleExpr x:xs) _ _) = False isSimple (Rule [Keyword _] _ _) = True isSimple (Rule [Symbol _] _ _) = True isSimple (Rule (_:xs) _ _) = case last xs of Keyword _ -> True Symbol _ -> True _ -> False isSimple _ = False {- | Tries to parse a user-defined expression given a list of syntactic extensions -} extensions :: SyntaxInfo -> [Syntax] -> IdrisParser PTerm extensions syn rules = choice (map (try . extension syn) (filter isValid rules)) "user-defined expression" where isValid :: Syntax -> Bool isValid (Rule _ _ AnySyntax) = True isValid (Rule _ _ PatternSyntax) = inPattern syn isValid (Rule _ _ TermSyntax) = not (inPattern syn) data SynMatch = SynTm PTerm | SynBind Name {- | Tries to parse an expression given a user-defined rule -} extension :: SyntaxInfo -> Syntax -> IdrisParser PTerm extension syn (Rule ssym ptm _) = do smap <- mapM extensionSymbol ssym let ns = mapMaybe id smap return (flatten (update ns ptm)) -- updated with smap where extensionSymbol :: SSymbol -> IdrisParser (Maybe (Name, SynMatch)) extensionSymbol (Keyword n) = do reserved (show n); return Nothing extensionSymbol (Expr n) = do tm <- expr syn return $ Just (n, SynTm tm) extensionSymbol (SimpleExpr n) = do tm <- simpleExpr syn return $ Just (n, SynTm tm) extensionSymbol (Binding n) = do b <- name return $ Just (n, SynBind b) extensionSymbol (Symbol s) = do symbol s return Nothing dropn :: Name -> [(Name, a)] -> [(Name, a)] dropn n [] = [] dropn n ((x,t) : xs) | n == x = xs | otherwise = (x,t):dropn n xs flatten :: PTerm -> PTerm -- flatten application flatten (PApp fc (PApp _ f as) bs) = flatten (PApp fc f (as ++ bs)) flatten t = t updateB :: [(Name, SynMatch)] -> Name -> Name updateB ns n = case lookup n ns of Just (SynBind t) -> t _ -> n update :: [(Name, SynMatch)] -> PTerm -> PTerm update ns (PRef fc n) = case lookup n ns of Just (SynTm t) -> t _ -> PRef fc n update ns (PLam n ty sc) = PLam (updateB ns n) (update ns ty) (update (dropn n ns) sc) update ns (PPi p n ty sc) = PPi (updTacImp ns p) (updateB ns n) (update ns ty) (update (dropn n ns) sc) update ns (PLet n ty val sc) = PLet (updateB ns 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 (PAppBind fc t args) = PAppBind 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 p l r) = PPair fc p (update ns l) (update ns r) update ns (PDPair fc p l t r) = PDPair fc p (update ns l) (update ns t) (update ns r) update ns (PAlternative a as) = PAlternative a (map (update ns) as) update ns (PHidden t) = PHidden (update ns t) update ns (PDoBlock ds) = PDoBlock $ upd ns ds where upd :: [(Name, SynMatch)] -> [PDo] -> [PDo] 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 ts : ds) = DoBindP fc (update ns i) (update ns t) (map (\(l,r) -> (update ns l, update ns r)) ts) : upd ns ds upd ns (DoLetP fc i t : ds) = DoLetP fc (update ns i) (update ns t) : upd ns ds update ns (PGoal fc r n sc) = PGoal fc (update ns r) n (update ns sc) update ns t = t updTacImp ns (TacImp o st scr) = TacImp o st (update ns scr) updTacImp _ x = x {- | Parses a (normal) built-in expression @ InternalExpr ::= UnifyLog | RecordType | SimpleExpr | Lambda | QuoteGoal | Let | RewriteTerm | CaseExpr | DoBlock | App ; @ -} internalExpr :: SyntaxInfo -> IdrisParser PTerm internalExpr syn = unifyLog syn <|> disamb syn <|> noImplicits syn <|> recordType syn <|> lambda syn <|> quoteGoal syn <|> let_ syn <|> rewriteTerm syn <|> doBlock syn <|> caseExpr syn <|> app syn "expression" {- | Parses a case expression @ CaseExpr ::= 'case' Expr 'of' OpenBlock CaseOption+ CloseBlock; @ -} caseExpr :: SyntaxInfo -> IdrisParser PTerm caseExpr syn = do reserved "case"; fc <- getFC scr <- expr syn; reserved "of"; opts <- indentedBlock1 (caseOption syn) return (PCase fc scr opts) "case expression" {- | Parses a case in a case expression @ CaseOption ::= Expr '=>' Expr Terminator ; @ -} caseOption :: SyntaxInfo -> IdrisParser (PTerm, PTerm) caseOption syn = do lhs <- expr (syn { inPattern = True }) symbol "=>"; r <- expr syn return (lhs, r) "case option" {- | Parses a proof block @ ProofExpr ::= 'proof' OpenBlock Tactic'* CloseBlock ; @ -} proofExpr :: SyntaxInfo -> IdrisParser PTerm proofExpr syn = do reserved "proof" ts <- indentedBlock1 (tactic syn) return $ PProof ts "proof block" {- | Parses a tactics block @ TacticsExpr := 'tactics' OpenBlock Tactic'* CloseBlock ; @ -} tacticsExpr :: SyntaxInfo -> IdrisParser PTerm tacticsExpr syn = do reserved "tactics" ts <- indentedBlock1 (tactic syn) return $ PTactics ts "tactics block" {- | Parses a simple expression @ SimpleExpr ::= {- External (User-defined) Simple Expression -} | '?' Name | % 'instance' | 'Refl' ('{' Expr '}')? | ProofExpr | TacticsExpr | FnName | Idiom | List | Alt | Bracketed | Constant | Type | 'Void' | Quasiquote | Unquote | '_' ; @ -} simpleExpr :: SyntaxInfo -> IdrisParser PTerm simpleExpr syn = try (simpleExternalExpr syn) <|> do x <- try (lchar '?' *> name); return (PMetavar x) <|> do lchar '%'; fc <- getFC; reserved "instance"; return (PResolveTC fc) <|> do reserved "Refl"; fc <- getFC; tm <- option Placeholder (do lchar '{'; t <- expr syn; lchar '}'; return t) return (PRefl fc tm) <|> do reserved "elim_for"; fc <- getFC; t <- fnName; return (PRef fc (SN $ ElimN t)) <|> proofExpr syn <|> tacticsExpr syn <|> try (do reserved "Type"; symbol "*"; return $ PUniverse AllTypes) <|> do reserved "Type"; return PType <|> do reserved "UniqueType"; return $ PUniverse UniqueType <|> do reserved "NullType"; return $ PUniverse NullType <|> do c <- constant fc <- getFC return (modifyConst syn fc (PConstant c)) <|> do symbol "'"; fc <- getFC; str <- name return (PApp fc (PRef fc (sUN "Symbol_")) [pexp (PConstant (Str (show str)))]) <|> do fc <- getFC x <- fnName return (PRef fc x) <|> idiom syn <|> listExpr syn <|> alt syn <|> do reservedOp "!" s <- simpleExpr syn fc <- getFC return (PAppBind fc s []) <|> bracketed (disallowImp syn) <|> quasiquote syn <|> unquote syn <|> do lchar '_'; return Placeholder "expression" {- |Parses an expression in braces @ Bracketed ::= '(' Bracketed' @ -} bracketed :: SyntaxInfo -> IdrisParser PTerm bracketed syn = do lchar '(' "parenthesized expression" bracketed' syn {- |Parses the rest of an expression in braces @ Bracketed' ::= ')' | Expr ')' | ExprList ')' | Expr '**' Expr ')' | Operator Expr ')' | Expr Operator ')' | Name ':' Expr '**' Expr ')' ; @ -} bracketed' :: SyntaxInfo -> IdrisParser PTerm bracketed' syn = do lchar ')' fc <- getFC return $ PTrue fc TypeOrTerm <|> try (do ln <- name; lchar ':'; lty <- expr syn reservedOp "**" fc <- getFC r <- expr syn lchar ')' return (PDPair fc TypeOrTerm (PRef fc ln) lty r)) <|> try (do fc <- getFC; o <- operator; e <- expr syn; lchar ')' -- No prefix operators! (bit of a hack here...) if (o == "-" || o == "!") then fail "minus not allowed in section" else return $ PLam (sMN 1000 "ARG") Placeholder (PApp fc (PRef fc (sUN o)) [pexp (PRef fc (sMN 1000 "ARG")), pexp e])) <|> try (do l <- simpleExpr syn op <- option Nothing (do o <- operator lchar ')' return (Just o)) fc0 <- getFC case op of Nothing -> bracketedExpr syn l Just o -> return $ PLam (sMN 1000 "ARG") Placeholder (PApp fc0 (PRef fc0 (sUN o)) [pexp l, pexp (PRef fc0 (sMN 1000 "ARG"))])) <|> do l <- expr syn bracketedExpr syn l bracketedExpr :: SyntaxInfo -> PTerm -> IdrisParser PTerm bracketedExpr syn e = do lchar ')'; return e <|> do fc <- do fc <- getFC lchar ',' return fc rs <- sepBy1 (do fc' <- getFC; r <- expr syn; return (r, fc')) (lchar ',') lchar ')' return $ PPair fc TypeOrTerm e (mergePairs rs) <|> do fc <- do fc <- getFC reservedOp "**" return fc r <- expr syn lchar ')' return (PDPair fc TypeOrTerm e Placeholder r) "end of bracketed expression" where mergePairs :: [(PTerm, FC)] -> PTerm mergePairs [(t, fc)] = t mergePairs ((t, fc):rs) = PPair fc TypeOrTerm t (mergePairs rs) -- bit of a hack here. If the integer doesn't fit in an Int, treat it as a -- big integer, otherwise try fromInteger and the constants as alternatives. -- a better solution would be to fix fromInteger to work with Integer, as the -- name suggests, rather than Int {-| Finds optimal type for integer constant -} modifyConst :: SyntaxInfo -> FC -> PTerm -> PTerm modifyConst syn fc (PConstant (BI x)) | not (inPattern syn) = PAlternative False (PApp fc (PRef fc (sUN "fromInteger")) [pexp (PConstant (BI (fromInteger x)))] : consts) | otherwise = PAlternative False consts where consts = [ PConstant (BI x) , PConstant (I (fromInteger x)) , PConstant (B8 (fromInteger x)) , PConstant (B16 (fromInteger x)) , PConstant (B32 (fromInteger x)) , PConstant (B64 (fromInteger x)) ] modifyConst syn fc x = x {- | Parses an alternative expression @ Alt ::= '(|' Expr_List '|)'; Expr_List ::= Expr' | Expr' ',' Expr_List ; @ -} alt :: SyntaxInfo -> IdrisParser PTerm alt syn = do symbol "(|"; alts <- sepBy1 (expr' syn) (lchar ','); symbol "|)" return (PAlternative False alts) {- | Parses a possibly hidden simple expression @ HSimpleExpr ::= '.' SimpleExpr | SimpleExpr ; @ -} hsimpleExpr :: SyntaxInfo -> IdrisParser PTerm hsimpleExpr syn = do lchar '.' e <- simpleExpr syn return $ PHidden e <|> simpleExpr syn "expression" {- | Parses a unification log expression UnifyLog ::= '%' 'unifyLog' SimpleExpr ; -} unifyLog :: SyntaxInfo -> IdrisParser PTerm unifyLog syn = do try (lchar '%' *> reserved "unifyLog") tm <- simpleExpr syn return (PUnifyLog tm) "unification log expression" {- | Parses a disambiguation expression Disamb ::= '%' 'disamb' NameList Expr ; -} disamb :: SyntaxInfo -> IdrisParser PTerm disamb syn = do reserved "with"; ns <- sepBy1 name (lchar ',') tm <- expr' syn return (PDisamb (map tons ns) tm) "unification log expression" where tons (NS n s) = txt (show n) : s tons n = [txt (show n)] {- | Parses a no implicits expression @ NoImplicits ::= '%' 'noImplicits' SimpleExpr ; @ -} noImplicits :: SyntaxInfo -> IdrisParser PTerm noImplicits syn = do try (lchar '%' *> reserved "noImplicits") tm <- simpleExpr syn return (PNoImplicits tm) "no implicits expression" {- | Parses a function application expression @ App ::= 'mkForeign' Arg Arg* | MatchApp | SimpleExpr Arg* ; MatchApp ::= SimpleExpr '<==' FnName ; @ -} app :: SyntaxInfo -> IdrisParser PTerm app syn = do f <- reserved "mkForeign" fc <- getFC fn <- arg syn args <- many (do notEndApp; arg syn) i <- get let ap = PApp fc (PRef fc (sUN "liftPrimIO")) [pexp (PLam (sMN 0 "w") Placeholder (PApp fc (PRef fc (sUN "mkForeignPrim")) (fn : args ++ [pexp (PRef fc (sMN 0 "w"))])))] return (dslify i ap) <|> do f <- simpleExpr syn (do try $ reservedOp "<==" fc <- getFC ff <- fnName return (PLet (sMN 0 "match") f (PMatchApp fc ff) (PRef fc (sMN 0 "match"))) "matching application expression") <|> (do fc <- getFC i <- get args <- many (do notEndApp; arg syn) case args of [] -> return f _ -> return (dslify i (PApp fc f args))) "function application" where dslify :: IState -> PTerm -> PTerm dslify i (PApp fc (PRef _ f) [a]) | [d] <- lookupCtxt f (idris_dsls i) = desugar (syn { dsl_info = d }) i (getTm a) dslify i t = t {-| Parses a function argument @ Arg ::= ImplicitArg | ConstraintArg | SimpleExpr ; @ -} arg :: SyntaxInfo -> IdrisParser PArg arg syn = implicitArg syn <|> constraintArg syn <|> do e <- simpleExpr syn return (pexp e) "function argument" {-| Parses an implicit function argument @ ImplicitArg ::= '{' Name ('=' Expr)? '}' ; @ -} implicitArg :: SyntaxInfo -> IdrisParser PArg implicitArg syn = do lchar '{' n <- name fc <- getFC v <- option (PRef fc n) (do lchar '=' expr syn) lchar '}' return (pimp n v True) "implicit function argument" {-| Parses a constraint argument (for selecting a named type class instance) > ConstraintArg ::= > '@{' Expr '}' > ; -} constraintArg :: SyntaxInfo -> IdrisParser PArg constraintArg syn = do symbol "@{" e <- expr syn symbol "}" return (pconst e) "constraint argument" {-| Parses a quasiquote expression (for building reflected terms using the elaborator) > Quasiquote ::= '`(' Expr ')' -} quasiquote :: SyntaxInfo -> IdrisParser PTerm quasiquote syn = do symbol "`(" e <- expr syn { syn_in_quasiquote = (syn_in_quasiquote syn) + 1 , inPattern = False } g <- optional $ do symbol ":" expr syn { inPattern = False } -- don't allow antiquotes symbol ")" return $ PQuasiquote e g "quasiquotation" {-| Parses an unquoting inside a quasiquotation (for building reflected terms using the elaborator) > Unquote ::= ',' Expr -} unquote :: SyntaxInfo -> IdrisParser PTerm unquote syn = do guard (syn_in_quasiquote syn > 0) symbol "~" e <- simpleExpr syn { syn_in_quasiquote = syn_in_quasiquote syn - 1 } return $ PUnquote e "unquotation" {-| Parses a record field setter expression @ RecordType ::= 'record' '{' FieldTypeList '}'; @ @ FieldTypeList ::= FieldType | FieldType ',' FieldTypeList ; @ @ FieldType ::= FnName '=' Expr ; @ -} recordType :: SyntaxInfo -> IdrisParser PTerm recordType syn = do reserved "record" lchar '{' fgs <- fieldGetOrSet lchar '}' fc <- getFC rec <- optional (simpleExpr syn) case fgs of Left fields -> case rec of Nothing -> return (PLam (sMN 0 "fldx") Placeholder (applyAll fc fields (PRef fc (sMN 0 "fldx")))) Just v -> return (applyAll fc fields v) Right fields -> case rec of Nothing -> return (PLam (sMN 0 "fldx") Placeholder (getAll fc (reverse fields) (PRef fc (sMN 0 "fldx")))) Just v -> return (getAll fc (reverse fields) v) "record setting expression" where fieldSet :: IdrisParser ([Name], PTerm) fieldSet = do ns <- fieldGet lchar '=' e <- expr syn return (ns, e) "field setter" fieldGet :: IdrisParser [Name] fieldGet = sepBy1 fnName (symbol "->") fieldGetOrSet :: IdrisParser (Either [([Name], PTerm)] [Name]) fieldGetOrSet = try (do fs <- sepBy1 fieldSet (lchar ',') return (Left fs)) <|> do f <- fieldGet return (Right f) applyAll :: FC -> [([Name], PTerm)] -> PTerm -> PTerm applyAll fc [] x = x applyAll fc ((ns, e) : es) x = applyAll fc es (doUpdate fc ns e x) doUpdate fc [n] e get = PApp fc (PRef fc (mkType n)) [pexp e, pexp get] doUpdate fc (n : ns) e get = PApp fc (PRef fc (mkType n)) [pexp (doUpdate fc ns e (PApp fc (PRef fc n) [pexp get])), pexp get] getAll :: FC -> [Name] -> PTerm -> PTerm getAll fc [n] e = PApp fc (PRef fc n) [pexp e] getAll fc (n:ns) e = PApp fc (PRef fc n) [pexp (getAll fc ns e)] -- | Creates setters for record types on necessary functions mkType :: Name -> Name mkType (UN n) = sUN ("set_" ++ str n) mkType (MN 0 n) = sMN 0 ("set_" ++ str n) mkType (NS n s) = NS (mkType n) s {- | Parses a type signature @ TypeSig ::= ':' Expr ; @ @ TypeExpr ::= ConstraintList? Expr; @ -} typeExpr :: SyntaxInfo -> IdrisParser PTerm typeExpr syn = do cs <- if implicitAllowed syn then constraintList syn else return [] sc <- expr syn return (bindList (PPi constraint) (map (\x -> (sMN 0 "constrarg", x)) cs) sc) "type signature" {- | Parses a lambda expression @ Lambda ::= '\\' TypeOptDeclList '=>' Expr | '\\' SimpleExprList '=>' Expr ; @ @ SimpleExprList ::= SimpleExpr | SimpleExpr ',' SimpleExprList ; @ -} lambda :: SyntaxInfo -> IdrisParser PTerm lambda syn = do lchar '\\' "lambda expression" (do xt <- try $ tyOptDeclList syn symbol "=>" sc <- expr syn return (bindList PLam xt sc)) <|> do ps <- sepBy (do fc <- getFC e <- simpleExpr syn return (fc, e)) (lchar ',') symbol "=>" sc <- expr syn return (pmList (zip [0..] ps) sc) "lambda expression" where pmList :: [(Int, (FC, PTerm))] -> PTerm -> PTerm pmList [] sc = sc pmList ((i, (fc, x)) : xs) sc = PLam (sMN i "lamp") Placeholder (PCase fc (PRef fc (sMN i "lamp")) [(x, pmList xs sc)]) {- | Parses a term rewrite expression @ RewriteTerm ::= 'rewrite' Expr ('==>' Expr)? 'in' Expr ; @ -} rewriteTerm :: SyntaxInfo -> IdrisParser PTerm rewriteTerm syn = do reserved "rewrite" fc <- getFC prf <- expr syn giving <- optional (do symbol "==>"; expr' syn) reserved "in"; sc <- expr syn return (PRewrite fc (PApp fc (PRef fc (sUN "sym")) [pexp prf]) sc giving) "term rewrite expression" {- |Parses a let binding @ Let ::= 'let' Name TypeSig'? '=' Expr 'in' Expr | 'let' Expr' '=' Expr' 'in' Expr TypeSig' ::= ':' Expr' ; @ -} let_ :: SyntaxInfo -> IdrisParser PTerm let_ syn = try (do reserved "let" ls <- indentedBlock (let_binding syn) reserved "in"; sc <- expr syn return (buildLets ls sc)) "let binding" where buildLets [] sc = sc buildLets ((fc,PRef _ n,ty,v,[]):ls) sc = PLet n ty v (buildLets ls sc) buildLets ((fc,pat,ty,v,alts):ls) sc = PCase fc v ((pat, buildLets ls sc) : alts) let_binding syn = do fc <- getFC; pat <- expr' (syn { inPattern = True }) ty <- option Placeholder (do lchar ':'; expr' syn) lchar '=' v <- expr syn ts <- option [] (do lchar '|' sepBy1 (do_alt syn) (lchar '|')) return (fc,pat,ty,v,ts) {- | Parses a quote goal @ QuoteGoal ::= 'quoteGoal' Name 'by' Expr 'in' Expr ; @ -} quoteGoal :: SyntaxInfo -> IdrisParser PTerm quoteGoal syn = do reserved "quoteGoal"; n <- name; reserved "by" r <- expr syn reserved "in" fc <- getFC sc <- expr syn return (PGoal fc r n sc) "quote goal expression" {- | Parses a dependent type signature @ Pi ::= PiOpts Static? Pi' @ @ Pi' ::= OpExpr ('->' Pi)? | '(' TypeDeclList ')' '->' Pi | '{' TypeDeclList '}' '->' Pi | '{' 'auto' TypeDeclList '}' '->' Pi | '{' 'default' SimpleExpr TypeDeclList '}' '->' Pi ; @ -} pi :: SyntaxInfo -> IdrisParser PTerm pi syn = do opts <- piOpts syn st <- static (do xt <- try (lchar '(' *> typeDeclList syn <* lchar ')') symbol "->" sc <- expr syn return (bindList (PPi (Exp opts st False)) xt sc)) <|> (do (do try (lchar '{' *> reserved "auto") when (st == Static) $ fail "auto type constraints can not be lazy or static" xt <- typeDeclList syn lchar '}' symbol "->" sc <- expr syn return (bindList (PPi (TacImp [] Dynamic (PTactics [ProofSearch True True 100 Nothing []]))) xt sc)) <|> (do try (lchar '{' *> reserved "default") when (st == Static) $ fail "default tactic constraints can not be lazy or static" script <- simpleExpr syn xt <- typeDeclList syn lchar '}' symbol "->" sc <- expr syn return (bindList (PPi (TacImp [] Dynamic script)) xt sc)) <|> (if implicitAllowed syn then do xt <- try (lchar '{' *> typeDeclList syn <* lchar '}') symbol "->" sc <- expr syn return (bindList (PPi (Imp opts st False)) xt sc) else do fail "no implicit arguments allowed here")) <|> (do x <- opExpr syn (do symbol "->" sc <- expr syn return (PPi (Exp opts st False) (sUN "__pi_arg") x sc)) <|> return x) "dependent type signature" {- | Parses Possible Options for Pi Expressions @ PiOpts ::= '.'? @ -} piOpts :: SyntaxInfo -> IdrisParser [ArgOpt] piOpts syn | implicitAllowed syn = lchar '.' *> return [InaccessibleArg] <|> return [] piOpts syn = return [] {- | Parses a type constraint list @ ConstraintList ::= '(' Expr_List ')' '=>' | Expr '=>' ; @ -} constraintList :: SyntaxInfo -> IdrisParser [PTerm] constraintList syn = try (do lchar '(' tys <- sepBy1 (expr' (disallowImp syn)) (lchar ',') lchar ')' reservedOp "=>" return tys) <|> try (do t <- expr (disallowImp syn) reservedOp "=>" return [t]) <|> return [] "type constraint list" {- | Parses a type declaration list @ TypeDeclList ::= FunctionSignatureList | NameList TypeSig ; @ @ FunctionSignatureList ::= Name TypeSig | Name TypeSig ',' FunctionSignatureList ; @ -} typeDeclList :: SyntaxInfo -> IdrisParser [(Name, PTerm)] typeDeclList syn = try (sepBy1 (do x <- fnName lchar ':' t <- typeExpr (disallowImp syn) return (x,t)) (lchar ',')) <|> do ns <- sepBy1 name (lchar ',') lchar ':' t <- typeExpr (disallowImp syn) return (map (\x -> (x, t)) ns) "type declaration list" {- | Parses a type declaration list with optional parameters @ TypeOptDeclList ::= NameOrPlaceholder TypeSig? | NameOrPlaceholder TypeSig? ',' TypeOptDeclList ; @ @ NameOrPlaceHolder ::= Name | '_'; @ -} tyOptDeclList :: SyntaxInfo -> IdrisParser [(Name, PTerm)] tyOptDeclList syn = sepBy1 (do x <- nameOrPlaceholder t <- option Placeholder (do lchar ':' expr syn) return (x,t)) (lchar ',') "type declaration list" where nameOrPlaceholder :: IdrisParser Name nameOrPlaceholder = fnName <|> do symbol "_" return (sMN 0 "underscore") "name or placeholder" {- | Parses a list literal expression e.g. [1,2,3] or a comprehension [ (x, y) | x <- xs , y <- ys ] @ ListExpr ::= '[' ']' | '[' Expr '|' DoList ']' | '[' ExprList ']' ; @ @ DoList ::= Do | Do ',' DoList ; @ @ ExprList ::= Expr | Expr ',' ExprList ; @ -} listExpr :: SyntaxInfo -> IdrisParser PTerm listExpr syn = do lchar '['; fc <- getFC; try ((lchar ']' "end of list expression") *> return (mkList fc [])) <|> (do x <- expr syn "expression" (do try (lchar '|') "list comprehension" qs <- sepBy1 (do_ syn) (lchar ',') lchar ']' return (PDoBlock (map addGuard qs ++ [DoExp fc (PApp fc (PRef fc (sUN "return")) [pexp x])]))) <|> (do xs <- many ((lchar ',' "list element") *> expr syn) lchar ']' "end of list expression" return (mkList fc (x:xs)))) "list expression" where mkList :: FC -> [PTerm] -> PTerm mkList fc [] = PRef fc (sUN "Nil") mkList fc (x : xs) = PApp fc (PRef fc (sUN "::")) [pexp x, pexp (mkList fc xs)] addGuard :: PDo -> PDo addGuard (DoExp fc e) = DoExp fc (PApp fc (PRef fc (sUN "guard")) [pexp e]) addGuard x = x {- | Parses a do-block @ Do' ::= Do KeepTerminator; @ @ DoBlock ::= 'do' OpenBlock Do'+ CloseBlock ; @ -} doBlock :: SyntaxInfo -> IdrisParser PTerm doBlock syn = do reserved "do" ds <- indentedBlock1 (do_ syn) return (PDoBlock ds) "do block" {- | Parses an expression inside a do block @ Do ::= 'let' Name TypeSig'? '=' Expr | 'let' Expr' '=' Expr | Name '<-' Expr | Expr' '<-' Expr | Expr ; @ -} do_ :: SyntaxInfo -> IdrisParser PDo do_ syn = try (do reserved "let" i <- name ty <- option Placeholder (do lchar ':' expr' syn) reservedOp "=" fc <- getFC e <- expr syn return (DoLet fc i ty e)) <|> try (do reserved "let" i <- expr' syn reservedOp "=" fc <- getFC sc <- expr syn return (DoLetP fc i sc)) <|> try (do i <- name symbol "<-" fc <- getFC e <- expr syn; option (DoBind fc i e) (do lchar '|' ts <- sepBy1 (do_alt syn) (lchar '|') return (DoBindP fc (PRef fc i) e ts))) <|> try (do i <- expr' syn symbol "<-" fc <- getFC e <- expr syn; option (DoBindP fc i e []) (do lchar '|' ts <- sepBy1 (do_alt syn) (lchar '|') return (DoBindP fc i e ts))) <|> do e <- expr syn fc <- getFC return (DoExp fc e) "do block expression" do_alt syn = do l <- expr' syn option (Placeholder, l) (do symbol "=>" r <- expr' syn return (l, r)) {- | Parses an expression in idiom brackets @ Idiom ::= '[|' Expr '|]'; @ -} idiom :: SyntaxInfo -> IdrisParser PTerm idiom syn = do symbol "[|" fc <- getFC e <- expr syn symbol "|]" return (PIdiom fc e) "expression in idiom brackets" {- |Parses a constant or literal expression @ Constant ::= 'Integer' | 'Int' | 'Char' | 'Float' | 'String' | 'Ptr' | 'ManagedPtr' | 'prim__UnsafeBuffer' | 'Bits8' | 'Bits16' | 'Bits32' | 'Bits64' | 'Bits8x16' | 'Bits16x8' | 'Bits32x4' | 'Bits64x2' | Float_t | Natural_t | VerbatimString_t | String_t | Char_t ; @ -} constant :: IdrisParser Idris.Core.TT.Const constant = do reserved "Integer"; return (AType (ATInt ITBig)) <|> do reserved "Int"; return (AType (ATInt ITNative)) <|> do reserved "Char"; return (AType (ATInt ITChar)) <|> do reserved "Float"; return (AType ATFloat) <|> do reserved "String"; return StrType <|> do reserved "Ptr"; return PtrType <|> do reserved "ManagedPtr"; return ManagedPtrType <|> do reserved "prim__UnsafeBuffer"; return BufferType <|> do reserved "Bits8"; return (AType (ATInt (ITFixed IT8))) <|> do reserved "Bits16"; return (AType (ATInt (ITFixed IT16))) <|> do reserved "Bits32"; return (AType (ATInt (ITFixed IT32))) <|> do reserved "Bits64"; return (AType (ATInt (ITFixed IT64))) <|> do reserved "Bits8x16"; return (AType (ATInt (ITVec IT8 16))) <|> do reserved "Bits16x8"; return (AType (ATInt (ITVec IT16 8))) <|> do reserved "Bits32x4"; return (AType (ATInt (ITVec IT32 4))) <|> do reserved "Bits64x2"; return (AType (ATInt (ITVec IT64 2))) <|> do f <- try float; return $ Fl f <|> do i <- natural; return $ BI i <|> do s <- verbatimStringLiteral; return $ Str s <|> do s <- stringLiteral; return $ Str s <|> do c <- try charLiteral; return $ Ch c --Currently ambigous with symbols "constant or literal" {- | Parses a verbatim multi-line string literal (triple-quoted) @ VerbatimString_t ::= '\"\"\"' ~'\"\"\"' '\"\"\"' ; @ -} verbatimStringLiteral :: MonadicParsing m => m String verbatimStringLiteral = token $ do try $ string "\"\"\"" manyTill anyChar $ try (string "\"\"\"") {- | Parses a static modifier @ Static ::= '[' static ']' ; @ -} static :: IdrisParser Static static = do reserved "[static]"; return Static <|> return Dynamic "static modifier" {- | Parses a tactic script @ Tactic ::= 'intro' NameList? | 'intros' | 'refine' Name Imp+ | 'mrefine' Name | 'rewrite' Expr | 'induction' Expr | 'equiv' Expr | 'let' Name ':' Expr' '=' Expr | 'let' Name '=' Expr | 'focus' Name | 'exact' Expr | 'applyTactic' Expr | 'reflect' Expr | 'fill' Expr | 'try' Tactic '|' Tactic | '{' TacticSeq '}' | 'compute' | 'trivial' | 'solve' | 'attack' | 'state' | 'term' | 'undo' | 'qed' | 'abandon' | ':' 'q' ; Imp ::= '?' | '_'; TacticSeq ::= Tactic ';' Tactic | Tactic ';' TacticSeq ; @ -} tactic :: SyntaxInfo -> IdrisParser PTactic tactic syn = do reserved "intro"; ns <- sepBy (indentPropHolds gtProp *> name) (lchar ',') return $ Intro ns <|> do reserved "intros"; return Intros <|> try (do reserved "refine"; n <- (indentPropHolds gtProp *> fnName) imps <- some imp return $ Refine n imps) <|> do reserved "refine"; n <- (indentPropHolds gtProp *> fnName) i <- get return $ Refine n [] <|> do reserved "mrefine"; n <- (indentPropHolds gtProp *> fnName) i <- get return $ MatchRefine n <|> do reserved "rewrite"; t <- (indentPropHolds gtProp *> expr syn); i <- get return $ Rewrite (desugar syn i t) <|> do reserved "case"; t <- (indentPropHolds gtProp *> expr syn); i <- get return $ CaseTac (desugar syn i t) <|> do reserved "induction"; t <- (indentPropHolds gtProp *> expr syn); i <- get return $ Induction (desugar syn i t) <|> do reserved "equiv"; t <- (indentPropHolds gtProp *> expr syn); i <- get return $ Equiv (desugar syn i t) <|> try (do reserved "let"; n <- (indentPropHolds gtProp *> name); (indentPropHolds gtProp *> lchar ':'); ty <- (indentPropHolds gtProp *> expr' syn); (indentPropHolds gtProp *> lchar '='); t <- (indentPropHolds gtProp *> expr syn); i <- get return $ LetTacTy n (desugar syn i ty) (desugar syn i t)) <|> try (do reserved "let"; n <- (indentPropHolds gtProp *> name); (indentPropHolds gtProp *> lchar '='); t <- (indentPropHolds gtProp *> expr syn); i <- get return $ LetTac n (desugar syn i t)) <|> do reserved "focus"; n <- (indentPropHolds gtProp *> name) return $ Focus n <|> do reserved "exact"; t <- (indentPropHolds gtProp *> expr syn); i <- get return $ Exact (desugar syn i t) <|> do reserved "applyTactic"; t <- (indentPropHolds gtProp *> expr syn); i <- get return $ ApplyTactic (desugar syn i t) <|> do reserved "byReflection"; t <- (indentPropHolds gtProp *> expr syn); i <- get return $ ByReflection (desugar syn i t) <|> do reserved "reflect"; t <- (indentPropHolds gtProp *> expr syn); i <- get return $ Reflect (desugar syn i t) <|> do reserved "fill"; t <- (indentPropHolds gtProp *> expr syn); i <- get return $ Fill (desugar syn i t) <|> do reserved "try"; t <- (indentPropHolds gtProp *> tactic syn); lchar '|'; t1 <- (indentPropHolds gtProp *> tactic syn) return $ Try t t1 <|> do lchar '{' t <- tactic syn; lchar ';'; ts <- sepBy1 (tactic syn) (lchar ';') lchar '}' return $ TSeq t (mergeSeq ts) <|> do reserved "compute"; return Compute <|> do reserved "trivial"; return Trivial <|> do reserved "unify"; return DoUnify <|> do reserved "search" depth <- option 10 natural return (ProofSearch True True (fromInteger depth) Nothing []) <|> do reserved "instance"; return TCInstance <|> 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 reserved "skip"; return Skip <|> do reserved "fail" msg <- stringLiteral return $ TFail [Idris.Core.TT.TextPart msg] <|> do lchar ':'; ( (do reserved "q"; return Abandon) <|> (do (reserved "e" <|> reserved "eval"); t <- (indentPropHolds gtProp *> expr syn); i <- get return $ TEval (desugar syn i t)) <|> (do (reserved "t" <|> reserved "type"); t <- (indentPropHolds gtProp *> expr syn); i <- get return $ TCheck (desugar syn i t)) <|> try (do reserved "doc" whiteSpace c <- constant eof return (TDocStr (Right c))) <|> try (do reserved "doc" whiteSpace n <- fnName eof return (TDocStr (Left n))) <|> try (do reserved "search" whiteSpace t <- (indentPropHolds gtProp *> expr syn); i <- get return $ TSearch (desugar syn i t)) "prover command") "tactic" where imp :: IdrisParser Bool imp = do lchar '?'; return False <|> do lchar '_'; return True mergeSeq :: [PTactic] -> PTactic mergeSeq [t] = t mergeSeq (t:ts) = TSeq t (mergeSeq ts) -- | Parses a tactic as a whole fullTactic :: SyntaxInfo -> IdrisParser PTactic fullTactic syn = do t <- tactic syn eof return t