Make AI use switcher when:
- it is immediately available
- switching gains +20 points score turn
module PascalParser where
import Text.Parsec.Expr
import Text.Parsec.Char
import Text.Parsec.Token
import Text.Parsec.Language
import Text.Parsec.Prim
import Text.Parsec.Combinator
import Text.Parsec.String
import Control.Monad
import Data.Char
data PascalUnit =
Program Identifier Implementation
| Unit Identifier Interface Implementation (Maybe Initialize) (Maybe Finalize)
deriving Show
data Interface = Interface Uses TypesAndVars
deriving Show
data Implementation = Implementation Uses TypesAndVars
deriving Show
data Identifier = Identifier String
deriving Show
data TypesAndVars = TypesAndVars [TypeVarDeclaration]
deriving Show
data TypeVarDeclaration = TypeDeclaration Identifier TypeDecl
| VarDeclaration Bool ([Identifier], TypeDecl) (Maybe InitExpression)
| FunctionDeclaration Identifier TypeDecl (Maybe Phrase)
deriving Show
data TypeDecl = SimpleType Identifier
| RangeType Range
| Sequence [Identifier]
| ArrayDecl Range TypeDecl
| RecordType [TypeVarDeclaration]
| PointerTo TypeDecl
| String
| UnknownType
deriving Show
data Range = Range Identifier
| RangeFromTo InitExpression InitExpression
deriving Show
data Initialize = Initialize String
deriving Show
data Finalize = Finalize String
deriving Show
data Uses = Uses [Identifier]
deriving Show
data Phrase = ProcCall Identifier [Expression]
| IfThenElse Expression Phrase (Maybe Phrase)
| WhileCycle Expression Phrase
| RepeatCycle Expression [Phrase]
| ForCycle Identifier Expression Expression Phrase
| WithBlock Reference Phrase
| Phrases [Phrase]
| SwitchCase Expression [(Expression, Phrase)] (Maybe Phrase)
| Assignment Reference Expression
deriving Show
data Expression = Expression String
| BuiltInFunCall [Expression] Reference
| PrefixOp String Expression
| PostfixOp String Expression
| BinOp String Expression Expression
| StringLiteral String
| CharCode String
| NumberLiteral String
| FloatLiteral String
| HexNumber String
| Reference Reference
| Null
deriving Show
data Reference = ArrayElement [Expression] Reference
| FunCall [Expression] Reference
| SimpleReference Identifier
| Dereference Reference
| RecordField Reference Reference
| Address Reference
deriving Show
data InitExpression = InitBinOp String InitExpression InitExpression
| InitPrefixOp String InitExpression
| InitReference Identifier
| InitArray [InitExpression]
| InitRecord [(Identifier, InitExpression)]
| InitFloat String
| InitNumber String
| InitHexNumber String
| InitString String
| InitChar String
| BuiltInFunction String [InitExpression]
| InitSet [Identifier]
| InitNull
deriving Show
builtin = ["succ", "pred", "low", "high"]
pascalLanguageDef
= emptyDef
{ commentStart = "(*"
, commentEnd = "*)"
, commentLine = "//"
, nestedComments = False
, identStart = letter <|> oneOf "_"
, identLetter = alphaNum <|> oneOf "_."
, reservedNames = [
"begin", "end", "program", "unit", "interface"
, "implementation", "and", "or", "xor", "shl"
, "shr", "while", "do", "repeat", "until", "case", "of"
, "type", "var", "const", "out", "array", "packed"
, "procedure", "function", "with", "for", "to"
, "downto", "div", "mod", "record", "set", "nil"
, "string", "shortstring"
] ++ builtin
, reservedOpNames= []
, caseSensitive = False
}
caseInsensitiveString s = do
mapM_ (\a -> satisfy (\b -> toUpper a == toUpper b)) s <?> s
return s
pas = patch $ makeTokenParser pascalLanguageDef
where
patch tp = tp {stringLiteral = sl}
sl = do
(char '\'')
s <- (many $ noneOf "'")
(char '\'')
ss <- many $ do
(char '\'')
s' <- (many $ noneOf "'")
(char '\'')
return $ '\'' : s'
comments
return $ concat (s:ss)
comments = do
spaces
skipMany $ do
comment
spaces
pascalUnit = do
comments
u <- choice [program, unit]
comments
return u
comment = choice [
char '{' >> manyTill anyChar (try $ char '}')
, (try $ string "(*") >> manyTill anyChar (try $ string "*)")
, (try $ string "//") >> manyTill anyChar (try newline)
]
iD = do
i <- liftM Identifier (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 (reference >>= postfixes) >>= postfixes
, char '@' >> reference >>= postfixes >>= return . Address
, liftM SimpleReference iD >>= postfixes
] <?> "simple reference"
table = [
[Infix (try (char '.' >> notFollowedBy (char '.')) >> return RecordField) AssocLeft]
]
postfixes r = many postfix >>= return . foldl fp r
postfix = choice [
parens pas (option [] parameters) >>= return . FunCall
, char '^' >> return Dereference
, (brackets pas) (commaSep1 pas $ expression) >>= return . ArrayElement
]
fp r f = f r
varsDecl1 = varsParser sepEndBy1
varsDecl = varsParser sepEndBy
varsParser m endsWithSemi = do
vs <- m (aVarDecl endsWithSemi) (semi pas)
return vs
aVarDecl endsWithSemi = do
when (not endsWithSemi) $
optional $ choice [
try $ string "var"
, try $ string "const"
, try $ string "out"
]
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 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 <?> "const declaration"
optional $ do
char ':'
comments
t <- typeDecl
return ()
char '='
comments
e <- initExpression
comments
return $ VarDeclaration False ([i], UnknownType) (Just e)
typeDecl = choice [
char '^' >> typeDecl >>= return . PointerTo
, try (string "shortstring") >> return String
, arrayDecl
, recordDecl
, sequenceDecl >>= return . Sequence
, try (identifier pas) >>= return . SimpleType . Identifier
, rangeDecl >>= return . RangeType
] <?> "type declaration"
where
arrayDecl = do
try $ string "array"
comments
char '['
r <- rangeDecl
char ']'
comments
string "of"
comments
t <- typeDecl
return $ ArrayDecl r t
recordDecl = do
optional $ (try $ string "packed") >> comments
try $ string "record"
comments
vs <- varsDecl True
string "end"
return $ RecordType vs
sequenceDecl = (parens pas) $ (commaSep pas) iD
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,
procDecl
]
where
varSection = do
try $ string "var"
comments
v <- varsDecl1 True
comments
return v
constSection = do
try $ string "const"
comments
c <- constsDecl
comments
return c
typeSection = do
try $ string "type"
comments
t <- typesDecl
comments
return t
procDecl = do
try $ string "procedure"
comments
i <- iD
optional $ do
char '('
varsDecl False
char ')'
comments
char ';'
b <- if isImpl then
do
comments
optional $ typeVarDeclaration True
comments
liftM Just functionBody
else
return Nothing
comments
return $ [FunctionDeclaration i UnknownType b]
funcDecl = do
try $ string "function"
comments
i <- iD
optional $ do
char '('
varsDecl False
char ')'
comments
char ':'
comments
ret <- typeDecl
comments
char ';'
comments
b <- if isImpl then
do
optional $ typeVarDeclaration True
comments
liftM Just functionBody
else
return Nothing
return $ [FunctionDeclaration i ret b]
program = do
string "program"
comments
name <- iD
(char ';')
comments
impl <- implementation
comments
return $ Program name impl
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))
, parens pas $ expression
, try $ integer pas >>= \i -> notFollowedBy (char '.') >> (return . NumberLiteral . show) i
, try $ float pas >>= return . FloatLiteral . show
, try $ integer pas >>= return . NumberLiteral . show
, stringLiteral pas >>= return . StringLiteral
, char '#' >> many digit >>= return . CharCode
, char '$' >> many hexDigit >>= return . HexNumber
, try $ string "nil" >> return Null
, 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 (char '+' >> return (BinOp "+")) AssocLeft
, Infix (char '-' >> return (BinOp "-")) AssocLeft
, Prefix (char '-' >> return (PrefixOp "-"))
]
, [ 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 (char '=' >> return (BinOp "=")) 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 (try $ string "shl" >> return (BinOp "shl")) AssocNone
, Infix (try $ string "shr" >> return (BinOp "shr")) AssocNone
]
, [Prefix (try (string "not") >> return (PrefixOp "not"))]
]
phrasesBlock = do
try $ string "begin"
comments
p <- manyTill phrase (try $ string "end")
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
, procCall
]
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"
comments
o <- 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"
comments
rs <- (commaSep1 pas) reference
comments
string "do"
comments
o <- phrase
return $ foldr WithBlock o rs
repeatCycle = do
try $ string "repeat"
comments
o <- many phrase
string "until"
comments
e <- expression
comments
return $ RepeatCycle e o
forCycle = do
try $ string "for"
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"
comments
o <- phrase
comments
return o
string "end"
return $ SwitchCase e cs o2
where
aCase = do
e <- expression
comments
char ':'
comments
p <- phrase
comments
return (e, p)
procCall = do
i <- iD
p <- option [] $ (parens pas) parameters
return $ ProcCall i p
parameters = (commaSep pas) expression <?> "parameters"
functionBody = do
p <- phrasesBlock
char ';'
comments
return 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 $ iD) >>= return . InitSet
, try $ parens pas (commaSep pas $ initExpression) >>= return . InitArray
, parens pas (semiSep pas $ recField) >>= 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 >>= return . InitChar
, char '$' >> many hexDigit >>= return . InitHexNumber
, try $ string "nil" >> return InitNull
, iD >>= return . InitReference
]
recField = do
i <- iD
spaces
char ':'
spaces
e <- initExpression
spaces
return (i ,e)
table = [
[ 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
, Prefix (char '-' >> return (InitPrefixOp "-"))
]
, [ 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 "and")) AssocNone
, Infix (try $ string "shr" >> return (InitBinOp "or")) AssocNone
]
, [Prefix (try (string "not") >> return (InitPrefixOp "not"))]
]
builtInFunction e = do
name <- choice $ map (\s -> try $ caseInsensitiveString s >>= \i -> notFollowedBy alphaNum >> return i) builtin
spaces
exprs <- many1 e
spaces
return (name, exprs)