{-# LANGUAGE DataKinds #-} module TreeSitter (treeSitterParser) where import Prologue hiding (Constructor) import Control.Monad import Category import Data.Record import Language import qualified Language.JavaScript as JS import qualified Language.C as C import Parser import Range import Source import qualified Syntax import Foreign import Foreign.C.String import Text.Parser.TreeSitter hiding (Language(..)) import qualified Text.Parser.TreeSitter as TS import SourceSpan import Info -- | Returns a TreeSitter parser for the given language and TreeSitter grammar. treeSitterParser :: Language -> Ptr TS.Language -> Parser (Syntax.Syntax Text) (Record '[Range, Category]) treeSitterParser language grammar blob = do document <- ts_document_make ts_document_set_language document grammar withCString (toString $ source blob) (\source -> do ts_document_set_input_string document source ts_document_parse document term <- documentToTerm language document blob ts_document_free document pure term) -- | Return a parser for a tree sitter language & document. documentToTerm :: Language -> Ptr Document -> Parser (Syntax.Syntax Text) (Record '[Range, Category]) documentToTerm language document SourceBlob{..} = alloca $ \ root -> do ts_document_root_node_p document root toTerm root where toTerm node = do name <- ts_node_p_name node document name <- peekCString name count <- ts_node_p_named_child_count node children <- traverse (alloca . getChild node) $ take (fromIntegral count) [0..] let range = Range { start = fromIntegral $ ts_node_p_start_char node, end = fromIntegral $ ts_node_p_end_char node } let sourceSpan = SourceSpan { spanName = toS path , spanStart = SourcePos (fromIntegral $! ts_node_p_start_point_row node) (fromIntegral $! ts_node_p_start_point_column node) , spanEnd = SourcePos (fromIntegral $! ts_node_p_end_point_row node) (fromIntegral $! ts_node_p_end_point_column node) } -- Note: The strict application here is semantically important. Without it, we may not evaluate the range until after we’ve exited the scope that `node` was allocated within, meaning `alloca` will free it & other stack data may overwrite it. range `seq` termConstructor source (pure $! sourceSpan) (toS name) range (filter (\child -> category (extract child) /= Empty) children) getChild node n out = ts_node_p_named_child node n out >> toTerm out {-# INLINE getChild #-} termConstructor = case language of JavaScript -> JS.termConstructor C -> C.termConstructor _ -> Language.termConstructor