Ok. *these* should be safe with just this one extra check...
module PascalParser where
import Text.Parsec
import Text.Parsec.Char
import Text.Parsec.Token
import Text.Parsec.Language
import Text.Parsec.Expr
import Text.Parsec.Prim
import Text.Parsec.Combinator
import Text.Parsec.String
import Control.Monad
import Data.Maybe
import Data.Char
import PascalBasics
import PascalUnitSyntaxTree
knownTypes = ["shortstring", "ansistring", "char", "byte"]
pascalUnit = do
comments
u <- choice [program, unit, systemUnit]
comments
return u
iD = do
i <- liftM (flip Identifier BTUnknown) (identifier pas)
comments
return i
unit = do
string "unit" >> comments
name <- iD
semi pas
comments
int <- interface
impl <- implementation
comments
return $ Unit name int impl Nothing Nothing
reference = buildExpressionParser table term <?> "reference"
where
term = comments >> choice [
parens pas (liftM RefExpression expression >>= postfixes) >>= postfixes
, try $ typeCast >>= postfixes
, char '@' >> liftM Address reference >>= postfixes
, liftM SimpleReference iD >>= postfixes
] <?> "simple reference"
table = [
]
postfixes r = many postfix >>= return . foldl (flip ($)) r
postfix = choice [
parens pas (option [] parameters) >>= return . FunCall
, char '^' >> return Dereference
, (brackets pas) (commaSep1 pas $ expression) >>= return . ArrayElement
, (char '.' >> notFollowedBy (char '.')) >> liftM (flip RecordField) reference
]
typeCast = do
t <- choice $ map (\s -> try $ caseInsensitiveString s >>= \i -> notFollowedBy alphaNum >> return i) knownTypes
e <- parens pas expression
comments
return $ TypeCast (Identifier t BTUnknown) e
varsDecl1 = varsParser sepEndBy1
varsDecl = varsParser sepEndBy
varsParser m endsWithSemi = do
vs <- m (aVarDecl endsWithSemi) (semi pas)
return vs
aVarDecl endsWithSemi = do
isVar <- liftM (== Just "var") $
if not endsWithSemi then
optionMaybe $ choice [
try $ string "var"
, try $ string "const"
, try $ string "out"
]
else
return Nothing
comments
ids <- do
i <- (commaSep1 pas) $ (try iD <?> "variable declaration")
char ':'
return i
comments
t <- typeDecl <?> "variable type declaration"
comments
init <- option Nothing $ do
char '='
comments
e <- initExpression
comments
return (Just e)
return $ VarDeclaration isVar False (ids, t) init
constsDecl = do
vs <- many1 (try (aConstDecl >>= \i -> semi pas >> return i) >>= \i -> comments >> return i)
comments
return vs
where
aConstDecl = do
comments
i <- iD
t <- optionMaybe $ do
char ':'
comments
t <- typeDecl
comments
return t
char '='
comments
e <- initExpression
comments
return $ VarDeclaration False (isNothing t) ([i], fromMaybe (DeriveType e) t) (Just e)
typeDecl = choice [
char '^' >> typeDecl >>= return . PointerTo
, try (string "shortstring") >> return (String 255)
, try (string "string") >> optionMaybe (brackets pas $ integer pas) >>= return . String . fromMaybe 255
, try (string "ansistring") >> optionMaybe (brackets pas $ integer pas) >>= return . String . fromMaybe 255
, arrayDecl
, recordDecl
, setDecl
, functionType
, sequenceDecl >>= return . Sequence
, try iD >>= return . SimpleType
, rangeDecl >>= return . RangeType
] <?> "type declaration"
where
arrayDecl = do
try $ do
optional $ (try $ string "packed") >> comments
string "array"
comments
r <- option [] $ do
char '['
r <- commaSep pas rangeDecl
char ']'
comments
return r
string "of"
comments
t <- typeDecl
if null r then
return $ ArrayDecl Nothing t
else
return $ foldr (\a b -> ArrayDecl (Just a) b) (ArrayDecl (Just $ head r) t) (tail r)
recordDecl = do
try $ do
optional $ (try $ string "packed") >> comments
string "record"
comments
vs <- varsDecl True
union <- optionMaybe $ do
string "case"
comments
iD
comments
string "of"
comments
many unionCase
string "end"
return $ RecordType vs union
setDecl = do
try $ string "set" >> space
comments
string "of"
comments
liftM Set typeDecl
unionCase = do
try $ commaSep pas $ (iD >> return ()) <|> (integer pas >> return ())
char ':'
comments
u <- parens pas $ varsDecl True
char ';'
comments
return u
sequenceDecl = (parens pas) $ (commaSep pas) (iD >>= \i -> optional (spaces >> char '=' >> spaces >> integer pas) >> return i)
functionType = do
fp <- try (string "function") <|> try (string "procedure")
comments
vs <- option [] $ parens pas $ varsDecl False
comments
ret <- if (fp == "function") then do
char ':'
comments
ret <- typeDecl
comments
return ret
else
return VoidType
optional $ try $ char ';' >> comments >> string "cdecl"
comments
return $ FunctionType ret vs
typesDecl = many (aTypeDecl >>= \t -> comments >> return t)
where
aTypeDecl = do
i <- try $ do
i <- iD <?> "type declaration"
comments
char '='
return i
comments
t <- typeDecl
comments
semi pas
comments
return $ TypeDeclaration i t
rangeDecl = choice [
try $ rangeft
, iD >>= return . Range
] <?> "range declaration"
where
rangeft = do
e1 <- initExpression
string ".."
e2 <- initExpression
return $ RangeFromTo e1 e2
typeVarDeclaration isImpl = (liftM concat . many . choice) [
varSection,
constSection,
typeSection,
funcDecl,
operatorDecl
]
where
varSection = do
try $ string "var"
comments
v <- varsDecl1 True <?> "variable declaration"
comments
return v
constSection = do
try $ string "const"
comments
c <- constsDecl <?> "const declaration"
comments
return c
typeSection = do
try $ string "type"
comments
t <- typesDecl <?> "type declaration"
comments
return t
operatorDecl = do
try $ string "operator"
comments
i <- manyTill anyChar space
comments
vs <- parens pas $ varsDecl False
comments
rid <- iD
comments
char ':'
comments
ret <- typeDecl
comments
return ret
char ';'
comments
forward <- liftM isJust $ optionMaybe (try (string "forward;") >> comments)
many functionDecorator
b <- if isImpl && (not forward) then
liftM Just functionBody
else
return Nothing
return $ [OperatorDeclaration i rid ret vs b]
funcDecl = do
fp <- try (string "function") <|> try (string "procedure")
comments
i <- iD
vs <- option [] $ parens pas $ varsDecl False
comments
ret <- if (fp == "function") then do
char ':'
comments
ret <- typeDecl
comments
return ret
else
return VoidType
char ';'
comments
forward <- liftM isJust $ optionMaybe (try (string "forward;") >> comments)
many functionDecorator
b <- if isImpl && (not forward) then
liftM Just functionBody
else
return Nothing
return $ [FunctionDeclaration i ret vs b]
functionDecorator = choice [
try $ string "inline;"
, try $ caseInsensitiveString "cdecl;"
, try $ string "overload;"
, try $ string "export;"
, try $ string "varargs;"
, try (string "external") >> comments >> iD >> optional (string "name" >> comments >> stringLiteral pas)>> string ";"
] >> comments
program = do
string "program"
comments
name <- iD
(char ';')
comments
comments
u <- uses
comments
tv <- typeVarDeclaration True
comments
p <- phrase
comments
char '.'
comments
return $ Program name (Implementation u (TypesAndVars tv)) p
interface = do
string "interface"
comments
u <- uses
comments
tv <- typeVarDeclaration False
comments
return $ Interface u (TypesAndVars tv)
implementation = do
string "implementation"
comments
u <- uses
comments
tv <- typeVarDeclaration True
string "end."
comments
return $ Implementation u (TypesAndVars tv)
expression = buildExpressionParser table term <?> "expression"
where
term = comments >> choice [
builtInFunction expression >>= \(n, e) -> return $ BuiltInFunCall e (SimpleReference (Identifier n BTUnknown))
, try (parens pas $ expression >>= \e -> notFollowedBy (comments >> char '.') >> return e)
, brackets pas (commaSep pas iD) >>= return . SetExpression
, try $ natural pas >>= \i -> notFollowedBy (char '.') >> (return . NumberLiteral . show) i
, float pas >>= return . FloatLiteral . show
, natural pas >>= return . NumberLiteral . show
, try (string "_S" >> stringLiteral pas) >>= return . StringLiteral
, try (string "_P" >> stringLiteral pas) >>= return . PCharLiteral
, stringLiteral pas >>= return . strOrChar
, try (string "#$") >> many hexDigit >>= \c -> comments >> return (HexCharCode c)
, char '#' >> many digit >>= \c -> comments >> return (CharCode c)
, char '$' >> many hexDigit >>= \h -> comments >> return (HexNumber h)
, char '-' >> expression >>= return . PrefixOp "-"
, try $ string "nil" >> return Null
, try $ string "not" >> expression >>= return . PrefixOp "not"
, reference >>= return . Reference
] <?> "simple expression"
table = [
[ Infix (char '*' >> return (BinOp "*")) AssocLeft
, Infix (char '/' >> return (BinOp "/")) AssocLeft
, Infix (try (string "div") >> return (BinOp "div")) AssocLeft
, Infix (try (string "mod") >> return (BinOp "mod")) AssocLeft
, Infix (try (string "in") >> return (BinOp "in")) AssocNone
]
, [ Infix (char '+' >> return (BinOp "+")) AssocLeft
, Infix (char '-' >> return (BinOp "-")) AssocLeft
]
, [ Infix (try (string "<>") >> return (BinOp "<>")) AssocNone
, Infix (try (string "<=") >> return (BinOp "<=")) AssocNone
, Infix (try (string ">=") >> return (BinOp ">=")) AssocNone
, Infix (char '<' >> return (BinOp "<")) AssocNone
, Infix (char '>' >> return (BinOp ">")) AssocNone
]
, [ Infix (try $ string "shl" >> return (BinOp "shl")) AssocNone
, Infix (try $ string "shr" >> return (BinOp "shr")) AssocNone
]
, [ Infix (try $ string "and" >> return (BinOp "and")) AssocLeft
, Infix (try $ string "or" >> return (BinOp "or")) AssocLeft
, Infix (try $ string "xor" >> return (BinOp "xor")) AssocLeft
]
, [
Infix (char '=' >> return (BinOp "=")) AssocNone
]
]
strOrChar [a] = CharCode . show . ord $ a
strOrChar a = StringLiteral a
phrasesBlock = do
try $ string "begin"
comments
p <- manyTill phrase (try $ string "end" >> notFollowedBy alphaNum)
comments
return $ Phrases p
phrase = do
o <- choice [
phrasesBlock
, ifBlock
, whileCycle
, repeatCycle
, switchCase
, withBlock
, forCycle
, (try $ reference >>= \r -> string ":=" >> return r) >>= \r -> expression >>= return . Assignment r
, builtInFunction expression >>= \(n, e) -> return $ BuiltInFunctionCall e (SimpleReference (Identifier n BTUnknown))
, procCall
, char ';' >> comments >> return NOP
]
optional $ char ';'
comments
return o
ifBlock = do
try $ string "if"
comments
e <- expression
comments
string "then"
comments
o1 <- phrase
comments
o2 <- optionMaybe $ do
try $ string "else" >> space
comments
o <- option NOP phrase
comments
return o
return $ IfThenElse e o1 o2
whileCycle = do
try $ string "while"
comments
e <- expression
comments
string "do"
comments
o <- phrase
return $ WhileCycle e o
withBlock = do
try $ string "with" >> space
comments
rs <- (commaSep1 pas) reference
comments
string "do"
comments
o <- phrase
return $ foldr WithBlock o rs
repeatCycle = do
try $ string "repeat" >> space
comments
o <- many phrase
string "until"
comments
e <- expression
comments
return $ RepeatCycle e o
forCycle = do
try $ string "for" >> space
comments
i <- iD
comments
string ":="
comments
e1 <- expression
comments
choice [string "to", string "downto"]
comments
e2 <- expression
comments
string "do"
comments
p <- phrase
comments
return $ ForCycle i e1 e2 p
switchCase = do
try $ string "case"
comments
e <- expression
comments
string "of"
comments
cs <- many1 aCase
o2 <- optionMaybe $ do
try $ string "else" >> notFollowedBy alphaNum
comments
o <- many phrase
comments
return o
string "end"
comments
return $ SwitchCase e cs o2
where
aCase = do
e <- (commaSep pas) $ (liftM InitRange rangeDecl <|> initExpression)
comments
char ':'
comments
p <- phrase
comments
return (e, p)
procCall = do
r <- reference
p <- option [] $ (parens pas) parameters
return $ ProcCall r p
parameters = (commaSep pas) expression <?> "parameters"
functionBody = do
tv <- typeVarDeclaration True
comments
p <- phrasesBlock
char ';'
comments
return (TypesAndVars tv, p)
uses = liftM Uses (option [] u)
where
u = do
string "uses"
comments
u <- (iD >>= \i -> comments >> return i) `sepBy1` (char ',' >> comments)
char ';'
comments
return u
initExpression = buildExpressionParser table term <?> "initialization expression"
where
term = comments >> choice [
liftM (uncurry BuiltInFunction) $ builtInFunction initExpression
, try $ brackets pas (commaSep pas $ initExpression) >>= return . InitSet
, try $ parens pas (commaSep pas $ initExpression) >>= return . InitArray
, parens pas (sepEndBy recField (char ';' >> comments)) >>= return . InitRecord
, try $ integer pas >>= \i -> notFollowedBy (char '.') >> (return . InitNumber . show) i
, try $ float pas >>= return . InitFloat . show
, try $ integer pas >>= return . InitNumber . show
, stringLiteral pas >>= return . InitString
, char '#' >> many digit >>= \c -> comments >> return (InitChar c)
, char '$' >> many hexDigit >>= \h -> comments >> return (InitHexNumber h)
, char '@' >> initExpression >>= \c -> comments >> return (InitAddress c)
, try $ string "nil" >> return InitNull
, itypeCast
, iD >>= return . InitReference
]
recField = do
i <- iD
spaces
char ':'
spaces
e <- initExpression
spaces
return (i ,e)
table = [
[
Prefix (char '-' >> return (InitPrefixOp "-"))
]
, [ Infix (char '*' >> return (InitBinOp "*")) AssocLeft
, Infix (char '/' >> return (InitBinOp "/")) AssocLeft
, Infix (try (string "div") >> return (InitBinOp "div")) AssocLeft
, Infix (try (string "mod") >> return (InitBinOp "mod")) AssocLeft
]
, [ Infix (char '+' >> return (InitBinOp "+")) AssocLeft
, Infix (char '-' >> return (InitBinOp "-")) AssocLeft
]
, [ Infix (try (string "<>") >> return (InitBinOp "<>")) AssocNone
, Infix (try (string "<=") >> return (InitBinOp "<=")) AssocNone
, Infix (try (string ">=") >> return (InitBinOp ">=")) AssocNone
, Infix (char '<' >> return (InitBinOp "<")) AssocNone
, Infix (char '>' >> return (InitBinOp ">")) AssocNone
, Infix (char '=' >> return (InitBinOp "=")) AssocNone
]
, [ Infix (try $ string "and" >> return (InitBinOp "and")) AssocLeft
, Infix (try $ string "or" >> return (InitBinOp "or")) AssocLeft
, Infix (try $ string "xor" >> return (InitBinOp "xor")) AssocLeft
]
, [ Infix (try $ string "shl" >> return (InitBinOp "shl")) AssocNone
, Infix (try $ string "shr" >> return (InitBinOp "shr")) AssocNone
]
, [Prefix (try (string "not") >> return (InitPrefixOp "not"))]
]
itypeCast = do
t <- choice $ map (\s -> try $ caseInsensitiveString s >>= \i -> notFollowedBy alphaNum >> return i) knownTypes
i <- parens pas initExpression
comments
return $ InitTypeCast (Identifier t BTUnknown) i
builtInFunction e = do
name <- choice $ map (\s -> try $ caseInsensitiveString s >>= \i -> notFollowedBy alphaNum >> return i) builtin
spaces
exprs <- option [] $ parens pas $ option [] $ commaSep1 pas $ e
spaces
return (name, exprs)
systemUnit = do
string "system;"
comments
string "type"
comments
t <- typesDecl
string "var"
v <- varsDecl True
return $ System (t ++ v)