module Text.Highlighting.Kate.Syntax.Erlang ( highlight, parseExpression, syntaxName, syntaxExtensions ) where
import Text.Highlighting.Kate.Definitions
import Text.Highlighting.Kate.Common
import qualified Text.Highlighting.Kate.Syntax.Alert
import Text.ParserCombinators.Parsec
import Data.List (nub)
import qualified Data.Set as Set
import Data.Map (fromList)
import Data.Maybe (fromMaybe)
syntaxName :: String
syntaxName = "Erlang"
syntaxExtensions :: String
syntaxExtensions = "*.erl"
highlight :: String -> Either String [SourceLine]
highlight input =
case runParser parseSource startingState "source" input of
Left err -> Left $ show err
Right result -> Right result
parseExpression :: GenParser Char SyntaxState LabeledSource
parseExpression = do
st <- getState
let oldLang = synStLanguage st
setState $ st { synStLanguage = "Erlang" }
context <- currentContext <|> (pushContext "Normal Text" >> currentContext)
result <- parseRules context
updateState $ \st -> st { synStLanguage = oldLang }
return result
parseSource = do
lineContents <- lookAhead wholeLine
updateState $ \st -> st { synStCurrentLine = lineContents }
result <- manyTill parseSourceLine eof
return $ map normalizeHighlighting result
startingState = SyntaxState {synStContexts = fromList [("Erlang",["Normal Text"])], synStLanguage = "Erlang", synStCurrentLine = "", synStCharsParsedInLine = 0, synStPrevChar = '\n', synStCaseSensitive = True, synStKeywordCaseSensitive = True, synStCaptures = []}
parseSourceLine = manyTill parseExpressionInternal pEndLine
pEndLine = do
newline <|> (eof >> return '\n')
context <- currentContext
case context of
"Normal Text" -> (popContext >> return ())
"isfunction" -> (popContext >> return ())
"atomquote" -> (popContext >> return ())
"stringquote" -> (popContext >> return ())
"comment" -> (popContext >> return ())
_ -> return ()
lineContents <- lookAhead wholeLine
updateState $ \st -> st { synStCurrentLine = lineContents, synStCharsParsedInLine = 0, synStPrevChar = '\n' }
withAttribute attr txt = do
if null txt
then fail "Parser matched no text"
else return ()
let style = fromMaybe "" $ lookup attr styles
st <- getState
let oldCharsParsed = synStCharsParsedInLine st
let prevchar = if null txt then '\n' else last txt
updateState $ \st -> st { synStCharsParsedInLine = oldCharsParsed + length txt, synStPrevChar = prevchar }
return (nub [style, attr], txt)
styles = [("Normal Text","Normal"),("Keyword","Keyword"),("Pragma","Keyword"),("Function","Function"),("Separator","Function"),("Operator","Keyword"),("Variable","DataType"),("Integer","DecVal"),("Number","BaseN"),("Float","Float"),("Atom","Char"),("String","String"),("Comment","Comment")]
parseExpressionInternal = do
context <- currentContext
parseRules context <|> (pDefault >>= withAttribute (fromMaybe "" $ lookup context defaultAttributes))
liste99dcbc4890f8fa829f8c819a17ef4b49c4120bb = Set.fromList $ words $ "after begin case catch cond end fun if let of query receive all_true some_true"
listb8845496fbe5bb8e05726acfd34fdbe1d5201529 = Set.fromList $ words $ "div rem or xor bor bxor bsl bsr and band not bnot"
listb23500cf0bef745827f51366c6410cc1d39edd45 = Set.fromList $ words $ "abs accept alarm apply atom_to_list binary_to_list binary_to_term check_process_code concat_binary date delete_module disconnect_node element erase exit float float_to_list garbage_collect get get_keys group_leader halt hd integer_to_list is_alive is_atom is_binary is_boolean is_float is_function is_integer is_list is_number is_pid is_port is_process_alive is_record is_reference is_tuple length link list_to_atom list_to_binary list_to_float list_to_integer list_to_pid list_to_tuple load_module loaded localtime make_ref module_loaded node nodes now open_port pid_to_list port_close port_command port_connect port_control ports pre_loaded process_flag process_info processes purge_module put register registered round self setelement size spawn spawn_link spawn_opt split_binary statistics term_to_binary throw time tl trunc tuple_to_list unlink unregister whereis"
defaultAttributes = [("Normal Text","Normal Text"),("isfunction","Function"),("atomquote","Atom"),("stringquote","String"),("comment","Comment")]
parseRules "Normal Text" =
do (attr, result) <- (((pColumn 0 >> pRegExpr (compileRegex "(?:-module|-export|-define|-undef|-ifdef|-ifndef|-else|-endif|-include|-include_lib)") >>= withAttribute "Pragma"))
<|>
((pKeyword " \n\t.():!+,-<=>%&*/;?[]^{|}~\\" liste99dcbc4890f8fa829f8c819a17ef4b49c4120bb >>= withAttribute "Keyword"))
<|>
((pKeyword " \n\t.():!+,-<=>%&*/;?[]^{|}~\\" listb8845496fbe5bb8e05726acfd34fdbe1d5201529 >>= withAttribute "Operator"))
<|>
((pRegExpr (compileRegex "(?:\\+|-|\\*|\\/|==|\\/=|=:=|=\\/=|<|=<|>|>=|\\+\\+|--|=|!|<-)") >>= withAttribute "Operator"))
<|>
((pKeyword " \n\t.():!+,-<=>%&*/;?[]^{|}~\\" listb23500cf0bef745827f51366c6410cc1d39edd45 >>= withAttribute "Function"))
<|>
((pRegExpr (compileRegex "(?:\\(|\\)|\\{|\\}|\\[|\\]|\\.|\\:|\\||\\|\\||;|\\,|\\?|->|\\#)") >>= withAttribute "Separator"))
<|>
((pDetectSpaces >>= withAttribute "Normal Text"))
<|>
((pDetectChar False '%' >>= withAttribute "Comment") >>~ pushContext "comment")
<|>
((pRegExpr (compileRegex "\\b[a-z][_a-z@-Z0-9]*(?:(?=[^_a-z@-Z0-9])|$):\\b[a-z][_a-z@-Z0-9]*(?:(?=[^_a-z@-Z0-9])|$)") >>= withAttribute "Function") >>~ (popContext >> return ()))
<|>
((lookAhead (pRegExpr (compileRegex "\\b[a-z][_a-z@-Z0-9]*(?:(?=[^_a-z@-Z0-9])|$)\\(")) >> return ([],"") ) >>~ pushContext "isfunction")
<|>
((pRegExpr (compileRegex "\\b[_A-Z][_a-z@-Z0-9]*(?:(?=[^_a-z@-Z0-9])|$)") >>= withAttribute "Variable") >>~ (popContext >> return ()))
<|>
((pDetectChar False '\'' >>= withAttribute "Atom") >>~ pushContext "atomquote")
<|>
((pRegExpr (compileRegex "\\b[a-z][_a-z@-Z0-9]*(?:(?=[^_a-z@-Z0-9])|$)") >>= withAttribute "Atom") >>~ (popContext >> return ()))
<|>
((pDetectChar False '"' >>= withAttribute "String") >>~ pushContext "stringquote")
<|>
((pRegExpr (compileRegex "[0-9]+\\.[0-9]+(?:[eE][+-]?[0-9]+)?") >>= withAttribute "Float") >>~ (popContext >> return ()))
<|>
((pRegExpr (compileRegex "\\d+#[a-zA-Z0-9]+") >>= withAttribute "Number") >>~ (popContext >> return ()))
<|>
((pRegExpr (compileRegex "\\$\\S") >>= withAttribute "Integer") >>~ (popContext >> return ()))
<|>
((pRegExpr (compileRegex "[0-9]+") >>= withAttribute "Integer") >>~ (popContext >> return ())))
return (attr, result)
parseRules "isfunction" =
do (attr, result) <- ((pRegExpr (compileRegex "\\b[a-z][_a-z@-Z0-9]*(?:(?=[^_a-z@-Z0-9])|$)") >>= withAttribute "Function") >>~ (popContext >> return ()))
return (attr, result)
parseRules "atomquote" =
do (attr, result) <- ((pRegExpr (compileRegex "(?:(?:\\\\')?[^']*)*'") >>= withAttribute "Atom") >>~ (popContext >> return ()))
return (attr, result)
parseRules "stringquote" =
do (attr, result) <- ((pRegExpr (compileRegex "(?:(?:\\\\\")?[^\"]*)*\"") >>= withAttribute "String") >>~ (popContext >> return ()))
return (attr, result)
parseRules "comment" =
do (attr, result) <- (((pDetectSpaces >>= withAttribute "Comment"))
<|>
((Text.Highlighting.Kate.Syntax.Alert.parseExpression >>= ((withAttribute "") . snd)))
<|>
((pDetectIdentifier >>= withAttribute "Comment")))
return (attr, result)
parseRules x = fail $ "Unknown context" ++ x