module TreeSitter where import Diff import Range import Parser import Term import qualified Data.Set as Set import Foreign import Foreign.C import Foreign.C.Types data TSLanguage = TsLanguage deriving (Show, Eq) foreign import ccall "prototype/doubt-difftool/doubt-difftool-Bridging-Header.h ts_language_c" ts_language_c :: Ptr TSLanguage foreign import ccall "prototype/doubt-difftool/doubt-difftool-Bridging-Header.h ts_language_javascript" ts_language_javascript :: Ptr TSLanguage data TSDocument = TsDocument deriving (Show, Eq) foreign import ccall "prototype/External/tree-sitter/include/tree_sitter/runtime.h ts_document_make" ts_document_make :: IO (Ptr TSDocument) foreign import ccall "prototype/External/tree-sitter/include/tree_sitter/runtime.h ts_document_set_language" ts_document_set_language :: Ptr TSDocument -> Ptr TSLanguage -> IO () foreign import ccall "prototype/External/tree-sitter/include/tree_sitter/runtime.h ts_document_set_input_string" ts_document_set_input_string :: Ptr TSDocument -> CString -> IO () foreign import ccall "prototype/External/tree-sitter/include/tree_sitter/runtime.h ts_document_parse" ts_document_parse :: Ptr TSDocument -> IO () foreign import ccall "prototype/External/tree-sitter/include/tree_sitter/runtime.h ts_document_free" ts_document_free :: Ptr TSDocument -> IO () data TSLength = TsLength { bytes :: CSize, chars :: CSize } deriving (Show, Eq) data TSNode = TsNode { _data :: Ptr (), offset :: TSLength } deriving (Show, Eq) instance Storable TSNode where alignment _ = 24 sizeOf _ = 24 peek _ = error "Haskell code should never read TSNode values directly." poke _ _ = error "Haskell code should never write TSNode values directly." foreign import ccall "app/bridge.h ts_document_root_node_p" ts_document_root_node_p :: Ptr TSDocument -> Ptr TSNode -> IO () foreign import ccall "app/bridge.h ts_node_p_name" ts_node_p_name :: Ptr TSNode -> Ptr TSDocument -> IO CString foreign import ccall "app/bridge.h ts_node_p_named_child_count" ts_node_p_named_child_count :: Ptr TSNode -> IO CSize foreign import ccall "app/bridge.h ts_node_p_named_child" ts_node_p_named_child :: Ptr TSNode -> CSize -> Ptr TSNode -> IO CSize foreign import ccall "app/bridge.h ts_node_p_start_char" ts_node_p_start_char :: Ptr TSNode -> CSize foreign import ccall "app/bridge.h ts_node_p_end_char" ts_node_p_end_char :: Ptr TSNode -> CSize data Language = Language { getTsLanguage :: Ptr TSLanguage, getConstructor :: Constructor } languageForType :: String -> Maybe Language languageForType mediaType = case mediaType of ".h" -> c ".c" -> c ".js" -> Just . Language ts_language_javascript $ constructorForProductions (Set.fromList [ "object" ]) (Set.fromList [ "pair", "rel_op", "math_op", "bool_op", "bitwise_op", "type_op", "math_assignment", "assignment", "subscript_access", "member_access", "new_expression", "function_call", "function", "ternary" ]) _ -> Nothing where c = Just . Language ts_language_c $ constructorForProductions mempty (Set.fromList [ "assignment_expression", "logical_expression", "pointer_expression", "field_expression", "relational_expression", "designator", "call_expression", "math_expression" ]) parseTreeSitterFile :: Language -> Parser parseTreeSitterFile (Language language constructor) contents = do document <- ts_document_make ts_document_set_language document language withCString contents (\source -> do ts_document_set_input_string document source ts_document_parse document term <- documentToTerm constructor document contents ts_document_free document return term) documentToTerm :: Constructor -> Ptr TSDocument -> Parser documentToTerm constructor document contents = alloca $ \root -> do ts_document_root_node_p document root snd <$> toTerm root where toTerm :: Ptr TSNode -> IO (String, Term String Info) toTerm node = do name <- ts_node_p_name node document name <- peekCString name children <- withNamedChildren node toTerm return (name, constructor contents (Info (range node) $ Set.singleton name) children) withNamedChildren :: Ptr TSNode -> (Ptr TSNode -> IO (String, a)) -> IO [(String, a)] withNamedChildren node transformNode = do count <- ts_node_p_named_child_count node if count == 0 then return [] else mapM (alloca . getChild) [0..pred count] where getChild n out = do _ <- ts_node_p_named_child node n out transformNode out range :: Ptr TSNode -> Range range node = Range { start = fromIntegral $ ts_node_p_start_char node, end = fromIntegral $ ts_node_p_end_char node }