Rework module system

Don't require/allow naming a module, instead require that the importer
names it. Allow importing into the local scope with the name !Local.
Simplify namespacing logic. Updates all tests to reflect these changes.

demos/equality.tri

@@ -1,6 +1,4 @@
-!module Equality
-
-!import "lib/base.tri" Lib
+!import "lib/base.tri" !Local
 
 main = lambdaEqualsTC
 
@@ -28,7 +26,7 @@ not_Lambda? = demo_matchBool demo_false demo_true
 -- to different tree representations even if they share extensional behavior.
 
 -- Let's see if these are the same:
-lambdaEqualsTC = Lib.equal? not_TC? not_Lambda?
+lambdaEqualsTC = equal? not_TC? not_Lambda?
 
 -- Here are some checks to verify their extensional behavior is the same:
 true_TC?  = not_TC? demo_false
@@ -37,5 +35,5 @@ false_TC? = not_TC? demo_true
 true_Lambda?  = not_Lambda? demo_false
 false_Lambda? = not_Lambda? demo_true
 
-bothTrueEqual?  = Lib.equal? true_TC?  true_Lambda?
-bothFalseEqual? = Lib.equal? false_TC? false_Lambda?
+bothTrueEqual?  = equal? true_TC?  true_Lambda?
+bothFalseEqual? = equal? false_TC? false_Lambda?

demos/levelOrderTraversal.tri

@@ -1,6 +1,4 @@
-!module LOT
-
-!import "lib/base.tri" Lib
+!import "lib/base.tri" !Local
 
 main = exampleTwo
 -- Level Order Traversal of a labelled binary tree
@@ -19,41 +17,41 @@ main = exampleTwo
 --    /   /  \
 --   4   5    6
 
-label = \node : Lib.head node
+label = \node : head node
 
-left = (\node : Lib.if (Lib.emptyList? node)
+left = (\node : if (emptyList? node)
   [] 
-  (Lib.if (Lib.emptyList? (Lib.tail node)) 
+  (if (emptyList? (tail node)) 
     [] 
-    (Lib.head (Lib.tail node))))
+    (head (tail node))))
 
-right = (\node : Lib.if (Lib.emptyList? node) 
+right = (\node : if (emptyList? node) 
   [] 
-  (Lib.if (Lib.emptyList? (Lib.tail node)) 
+  (if (emptyList? (tail node)) 
     [] 
-    (Lib.if (Lib.emptyList? (Lib.tail (Lib.tail node))) 
+    (if (emptyList? (tail (tail node))) 
       [] 
-      (Lib.head (Lib.tail (Lib.tail node))))))
+      (head (tail (tail node))))))
 
-processLevel = Lib.y (\self queue : Lib.if (Lib.emptyList? queue) 
+processLevel = y (\self queue : if (emptyList? queue) 
   [] 
-  (Lib.pair (Lib.map label queue) (self (Lib.filter 
-    (\node : Lib.not? (Lib.emptyList? node)) 
-      (Lib.lconcat (Lib.map left queue) (Lib.map right queue))))))
+  (pair (map label queue) (self (filter 
+    (\node : not? (emptyList? node)) 
+      (lconcat (map left queue) (map right queue))))))
 
 levelOrderTraversal_ = \a : processLevel (t a t)
 
-toLineString = Lib.y (\self levels : Lib.if (Lib.emptyList? levels) 
+toLineString = y (\self levels : if (emptyList? levels) 
   "" 
-  (Lib.lconcat 
-    (Lib.lconcat (Lib.map (\x : Lib.lconcat x " ") (Lib.head levels)) "") 
-    (Lib.if (Lib.emptyList? (Lib.tail levels)) "" (Lib.lconcat (t (t 10 t) t) (self (Lib.tail levels))))))
+  (lconcat 
+    (lconcat (map (\x : lconcat x " ") (head levels)) "") 
+    (if (emptyList? (tail levels)) "" (lconcat (t (t 10 t) t) (self (tail levels))))))
 
 levelOrderToString = \s : toLineString (levelOrderTraversal_ s)
 
-flatten = Lib.foldl (\acc x : Lib.lconcat acc x) ""
+flatten = foldl (\acc x : lconcat acc x) ""
 
-levelOrderTraversal = \s : Lib.lconcat (t 10 t) (flatten (levelOrderToString s))
+levelOrderTraversal = \s : lconcat (t 10 t) (flatten (levelOrderToString s))
 
 exampleOne = levelOrderTraversal [("1") 
                                  [("2") [("4") t t] t] 

demos/size.tri

@@ -1,24 +1,22 @@
-!module Size
-
-!import "lib/base.tri" Lib
+!import "lib/base.tri" !Local
 
 main = size size
 
 compose = \f g x : f (g x)
 
-succ = Lib.y (\self :
-  Lib.triage
+succ = y (\self :
+  triage
     1
     t
-    (Lib.triage
+    (triage
       (t (t t))
-      (\_ Lib.tail : t t (self Lib.tail))
+      (\_ tail : t t (self tail))
       t))
 
 size = (\x :
-  (Lib.y (\self x :
+  (y (\self x :
     compose succ
-      (Lib.triage
+      (triage
         (\x : x)
         self
         (\x y : compose (self x) (self y))

demos/toSource.tri

@@ -1,8 +1,6 @@
-!module ToSource
+!import "lib/base.tri" !Local
 
-!import "lib/base.tri" Lib
-
-main = toSource Lib.not?
+main = toSource not?
 -- Thanks to intensionality, we can inspect the structure of a given value
 -- even if it's a function. This includes lambdas which are eliminated to
 -- Tree Calculus (TC) terms during evaluation.
@@ -16,29 +14,29 @@ main = toSource Lib.not?
 -- triage = (\leaf stem fork : t (t leaf stem) fork)
 
 -- Base case of a single Leaf
-sourceLeaf = t (Lib.head "t")
+sourceLeaf = t (head "t")
 
 -- Stem case
 sourceStem = (\convert : (\a rest :
-  t (Lib.head "(")                       -- Start with a left parenthesis "(".
-    (t (Lib.head "t")                    -- Add a "t"
-      (t (Lib.head " ")                  -- Add a space.
-        (convert a                       -- Recursively convert the argument.
-          (t (Lib.head ")") rest))))))   -- Close with ")" and append the rest.
+  t (head "(")                       -- Start with a left parenthesis "(".
+    (t (head "t")                    -- Add a "t"
+      (t (head " ")                  -- Add a space.
+        (convert a                   -- Recursively convert the argument.
+          (t (head ")") rest))))))   -- Close with ")" and append the rest.
 
 -- Fork case
 sourceFork = (\convert : (\a b rest :
-  t (Lib.head "(")                           -- Start with a left parenthesis "(".
-    (t (Lib.head "t")                        -- Add a "t"
-      (t (Lib.head " ")                      -- Add a space.
-        (convert a                           -- Recursively convert the first arg.
-          (t (Lib.head " ")                  -- Add another space.
-            (convert b                       -- Recursively convert the second arg.
-              (t (Lib.head ")") rest)))))))) -- Close with ")" and append the rest.
+  t (head "(")                           -- Start with a left parenthesis "(".
+    (t (head "t")                        -- Add a "t"
+      (t (head " ")                      -- Add a space.
+        (convert a                       -- Recursively convert the first arg.
+          (t (head " ")                  -- Add another space.
+            (convert b                   -- Recursively convert the second arg.
+              (t (head ")") rest)))))))) -- Close with ")" and append the rest.
 
 -- Wrapper around triage 
-toSource_ = Lib.y (\self arg :
-  Lib.triage
+toSource_ = y (\self arg :
+  triage
     sourceLeaf        -- `triage` "a" case, Leaf
     (sourceStem self) -- `triage` "b" case, Stem
     (sourceFork self) -- `triage` "c" case, Fork
@@ -47,5 +45,5 @@ toSource_ = Lib.y (\self arg :
 -- toSource takes a single TC term and returns a String
 toSource = \v : toSource_ v ""
 
-exampleOne = toSource Lib.true -- OUT: "(t t)"
-exampleTwo = toSource Lib.not? -- OUT: "(t (t (t t) (t t t)) (t t (t t t)))"
+exampleOne = toSource true -- OUT: "(t t)"
+exampleTwo = toSource not? -- OUT: "(t (t (t t) (t t t)) (t t (t t t)))"

src/Eval.hs

@@ -70,12 +70,12 @@ elimLambda = go
       | body == triageBody         = _TRIAGE
       where
         triageBody =
-          (SApp (SApp TLeaf (SApp (SApp TLeaf (SVar a)) (SVar b))) (SVar c))
+          SApp (SApp TLeaf (SApp (SApp TLeaf (SVar a)) (SVar b))) (SVar c)
     -- Composition optimization
     go (SLambda [f] (SLambda [g] (SLambda [x] body)))
-      | body == composeBody        = _COMPOSE
-      where
-        composeBody = SApp (SVar f) (SApp (SVar g) (SVar x))
+      | body == SApp (SVar f) (SApp (SVar g) (SVar x)) = _B
+    go (SLambda [f] (SLambda [x] (SLambda [y] body)))
+      | body == SApp (SApp (SVar f) (SVar y)) (SVar x) = _C
     -- General elimination
     go (SLambda (v:vs) body)
       | null vs                    = toSKI v (elimLambda body)
@@ -96,8 +96,9 @@ elimLambda = go
     _S       = parseSingle "t (t (t t t)) t"
     _K       = parseSingle "t t"
     _I       = parseSingle "t (t (t t)) t"
+    _B       = parseSingle "t (t (t t (t (t (t t t)) t))) (t t)"
+    _C       = parseSingle "t (t (t (t (t t (t (t (t t t)) t))) (t (t (t t (t t))) (t (t (t t t)) t)))) (t t (t t))"
     _TRIAGE  = parseSingle "t (t (t t (t (t (t t t))))) t"
-    _COMPOSE = parseSingle "t (t (t t (t (t (t t t)) t))) (t t)"
 
 isFree :: String -> TricuAST -> Bool
 isFree x = Set.member x . freeVars
@@ -108,12 +109,12 @@ freeVars (SInt    _    ) = Set.empty
 freeVars (SStr    _    ) = Set.empty
 freeVars (SList   s    ) = foldMap freeVars s
 freeVars (SApp    f a  ) = freeVars f <> freeVars a
-freeVars (TLeaf        ) = Set.empty
+freeVars  TLeaf          = Set.empty
 freeVars (SDef   _ _ b)  = freeVars b
 freeVars (TStem   t    ) = freeVars t
 freeVars (TFork   l r  ) = freeVars l <> freeVars r
 freeVars (SLambda v b  ) = foldr Set.delete (freeVars b) v
-freeVars _               = Set.empty
+freeVars  _              = Set.empty
 
 reorderDefs :: Env -> [TricuAST] -> [TricuAST]
 reorderDefs env defs

src/FileEval.hs

@@ -16,14 +16,11 @@ evaluateFileResult :: FilePath -> IO T
 evaluateFileResult filePath = do
   contents <- readFile filePath
   let tokens = lexTricu contents
-  let moduleName = case parseProgram tokens of
-        Right ((SModule name) : _) -> name
-        _                          -> ""
   case parseProgram tokens of
     Left err -> errorWithoutStackTrace (handleParseError err)
-    Right _ -> do
+    Right ast -> do
       ast <- preprocessFile filePath
-      let finalEnv = mainAlias moduleName $ evalTricu Map.empty ast
+      let finalEnv = evalTricu Map.empty ast
       case Map.lookup "main" finalEnv of
         Just finalResult -> return finalResult
         Nothing -> errorWithoutStackTrace "No `main` function detected"
@@ -32,37 +29,24 @@ evaluateFile :: FilePath -> IO Env
 evaluateFile filePath = do
   contents <- readFile filePath
   let tokens = lexTricu contents
-  let moduleName = case parseProgram tokens of
-        Right ((SModule name) : _) -> name
-        _                          -> ""
   case parseProgram tokens of
     Left err -> errorWithoutStackTrace (handleParseError err)
-    Right _ -> do
+    Right ast -> do
       ast <- preprocessFile filePath
-      pure $ mainAlias moduleName $ evalTricu Map.empty ast
+      pure $ evalTricu Map.empty ast
 
 evaluateFileWithContext :: Env -> FilePath -> IO Env
 evaluateFileWithContext env filePath = do
   contents <- readFile filePath
   let tokens = lexTricu contents
-  let moduleName = case parseProgram tokens of
-        Right ((SModule name) : _) -> name
-        _                          -> ""
   case parseProgram tokens of
     Left err -> errorWithoutStackTrace (handleParseError err)
-    Right _ -> do
+    Right ast -> do
       ast <- preprocessFile filePath
-      pure $ mainAlias moduleName $ evalTricu env ast
-
-mainAlias :: String -> Env -> Env
-mainAlias "" env = env
-mainAlias moduleName env =
-  case Map.lookup (moduleName ++ ".main") env of
-    Just value -> Map.insert "main" value env
-    Nothing    -> env
+      pure $ evalTricu env ast
 
 preprocessFile :: FilePath -> IO [TricuAST]
-preprocessFile filePath = preprocessFile' Set.empty filePath
+preprocessFile = preprocessFile' Set.empty
 
 preprocessFile' :: Set.Set FilePath -> FilePath -> IO [TricuAST]
 preprocessFile' inProgress filePath
@@ -74,77 +58,76 @@ preprocessFile' inProgress filePath
       case parseProgram tokens of
         Left err -> errorWithoutStackTrace (handleParseError err)
         Right asts -> do
-          let (moduleName, restAST) = extractModule asts
-          let (imports, nonImports) = partition isImport restAST
+          let (imports, nonImports) = partition isImport asts
           let newInProgress = Set.insert filePath inProgress
-          importedASTs <- concat <$> mapM (processImport newInProgress) imports
-          let namespacedAST = namespaceDefinitions moduleName nonImports
-          pure $ importedASTs ++ namespacedAST
+          importedASTs <- concat <$> mapM (processImport newInProgress "") imports
+          pure $ importedASTs ++ nonImports
   where
-    extractModule :: [TricuAST] -> (String, [TricuAST])
-    extractModule ((SModule name) : xs) = (name, xs)
-    extractModule xs                    = ("", xs)
-
     isImport :: TricuAST -> Bool
     isImport (SImport _ _) = True
     isImport _             = False
 
-    processImport :: Set.Set FilePath -> TricuAST -> IO [TricuAST]
-    processImport inProgress (SImport filePath moduleName) = do
-      importedAST <- preprocessFile' inProgress filePath
-      pure $ namespaceDefinitions moduleName importedAST
-    processImport _ _ = error "Unexpected non-import in processImport"
+    processImport :: Set.Set FilePath -> String -> TricuAST -> IO [TricuAST]
+    processImport prog currentModule (SImport path "!Local") = do
+      ast <- preprocessFile' prog path
+      let defs = filter (not . isImport) ast
+      pure $ map (nsDefinition currentModule) defs
+    processImport prog _ (SImport path name) = do
+      ast <- preprocessFile' prog path
+      let defs = filter (not . isImport) ast
+      pure $ map (nsDefinition name) defs
+    processImport _ _ _ = error "Unexpected non-import in processImport"
 
-namespaceDefinitions :: String -> [TricuAST] -> [TricuAST]
-namespaceDefinitions moduleName = map (namespaceDefinition moduleName)
+nsDefinitions :: String -> [TricuAST] -> [TricuAST]
+nsDefinitions moduleName = map (nsDefinition moduleName)
 
-namespaceDefinition :: String -> TricuAST -> TricuAST
-namespaceDefinition "" def = def
-namespaceDefinition moduleName (SDef name args body)
-  | isPrefixed name = SDef name args (namespaceBody moduleName body)
-  | otherwise = SDef (namespaceVariable moduleName name) 
-                        args (namespaceBody moduleName body)
-namespaceDefinition moduleName other =
-  namespaceBody moduleName other
+nsDefinition :: String -> TricuAST -> TricuAST
+nsDefinition "" def = def
+nsDefinition moduleName (SDef name args body)
+  | isPrefixed name = SDef name args (nsBody moduleName body)
+  | otherwise = SDef (nsVariable moduleName name) 
+                        args (nsBody moduleName body)
+nsDefinition moduleName other =
+  nsBody moduleName other
 
-namespaceBody :: String -> TricuAST -> TricuAST
-namespaceBody moduleName (SVar name)
+nsBody :: String -> TricuAST -> TricuAST
+nsBody moduleName (SVar name)
   | isPrefixed name = SVar name
-  | otherwise = SVar (namespaceVariable moduleName name)
-namespaceBody moduleName (SApp func arg) =
-  SApp (namespaceBody moduleName func) (namespaceBody moduleName arg)
-namespaceBody moduleName (SLambda args body) =
-  SLambda args (namespaceBodyScoped moduleName args body)
-namespaceBody moduleName (SList items) =
-  SList (map (namespaceBody moduleName) items)
-namespaceBody moduleName (TFork left right) =
-  TFork (namespaceBody moduleName left) (namespaceBody moduleName right)
-namespaceBody moduleName (TStem subtree) =
-  TStem (namespaceBody moduleName subtree)
-namespaceBody moduleName (SDef name args body)
-  | isPrefixed name = SDef name args (namespaceBody moduleName body)
-  | otherwise = SDef (namespaceVariable moduleName name) 
-                        args (namespaceBody moduleName body)
-namespaceBody _ other = other
+  | otherwise = SVar (nsVariable moduleName name)
+nsBody moduleName (SApp func arg) =
+  SApp (nsBody moduleName func) (nsBody moduleName arg)
+nsBody moduleName (SLambda args body) =
+  SLambda args (nsBodyScoped moduleName args body)
+nsBody moduleName (SList items) =
+  SList (map (nsBody moduleName) items)
+nsBody moduleName (TFork left right) =
+  TFork (nsBody moduleName left) (nsBody moduleName right)
+nsBody moduleName (TStem subtree) =
+  TStem (nsBody moduleName subtree)
+nsBody moduleName (SDef name args body)
+  | isPrefixed name = SDef name args (nsBody moduleName body)
+  | otherwise = SDef (nsVariable moduleName name) 
+                        args (nsBody moduleName body)
+nsBody _ other = other
 
-namespaceBodyScoped :: String -> [String] -> TricuAST -> TricuAST
-namespaceBodyScoped moduleName args body = case body of
+nsBodyScoped :: String -> [String] -> TricuAST -> TricuAST
+nsBodyScoped moduleName args body = case body of
   SVar name ->
     if name `elem` args
       then SVar name
-      else namespaceBody moduleName (SVar name)
-  SApp func arg -> SApp (namespaceBodyScoped moduleName args func) (namespaceBodyScoped moduleName args arg)
-  SLambda innerArgs innerBody -> SLambda innerArgs (namespaceBodyScoped moduleName (args ++ innerArgs) innerBody)
-  SList items -> SList (map (namespaceBodyScoped moduleName args) items)
-  TFork left right -> TFork (namespaceBodyScoped moduleName args left) (namespaceBodyScoped moduleName args right)
-  TStem subtree -> TStem (namespaceBodyScoped moduleName args subtree)
+      else nsBody moduleName (SVar name)
+  SApp func arg -> SApp (nsBodyScoped moduleName args func) (nsBodyScoped moduleName args arg)
+  SLambda innerArgs innerBody -> SLambda innerArgs (nsBodyScoped moduleName (args ++ innerArgs) innerBody)
+  SList items -> SList (map (nsBodyScoped moduleName args) items)
+  TFork left right -> TFork (nsBodyScoped moduleName args left) (nsBodyScoped moduleName args right)
+  TStem subtree -> TStem (nsBodyScoped moduleName args subtree)
   SDef name innerArgs innerBody ->
-    SDef (namespaceVariable moduleName name) innerArgs (namespaceBodyScoped moduleName (args ++ innerArgs) innerBody)
+    SDef (nsVariable moduleName name) innerArgs (nsBodyScoped moduleName (args ++ innerArgs) innerBody)
   other -> other
 
 isPrefixed :: String -> Bool
 isPrefixed name = '.' `elem` name
 
-namespaceVariable :: String -> String -> String
-namespaceVariable "" name = name
-namespaceVariable moduleName name = moduleName ++ "." ++ name
+nsVariable :: String -> String -> String
+nsVariable "" name = name
+nsVariable moduleName name = moduleName ++ "." ++ name

src/Lexer.hs

@@ -12,39 +12,71 @@ import qualified Data.Set as Set
 
 type Lexer = Parsec Void String
 
+tricuLexer :: Lexer [LToken]
+tricuLexer = do
+  sc
+  header <- many $ do
+    tok <- choice
+      [ try lImport
+      , lnewline
+      ]
+    sc
+    pure tok
+  tokens <- many $ do
+    tok <- choice tricuLexer'
+    sc
+    pure tok
+  sc
+  eof
+  pure (header ++ tokens)
+  where
+    tricuLexer' =
+      [ try lnewline
+      , try namespace
+      , try dot
+      , try identifier
+      , try keywordT
+      , try integerLiteral
+      , try stringLiteral
+      , assign
+      , colon
+      , backslash
+      , openParen
+      , closeParen
+      , openBracket
+      , closeBracket
+      ]
+
+lexTricu :: String -> [LToken]
+lexTricu input = case runParser tricuLexer "" input of
+  Left err -> errorWithoutStackTrace $ "Lexical error:\n" ++ errorBundlePretty err
+  Right tokens -> tokens
+
+
 keywordT :: Lexer LToken
 keywordT = string "t" *> notFollowedBy alphaNumChar *> pure LKeywordT
 
 identifier :: Lexer LToken
 identifier = do
-  first <- letterChar <|> char '_'
+  first <- lowerChar <|> char '_'
   rest  <- many $ letterChar 
-              <|> digitChar 
-              <|> char '_' <|> char '-' <|> char '?' <|> char '.'
-              <|> char '$' <|> char '#' <|> char '@' <|> char '%'
+              <|> digitChar <|> char '_' <|> char '-' <|> char '?'
+              <|> char '$'  <|> char '#' <|> char '@' <|> char '%'
   let name = first : rest
   if (name == "t" || name == "!result")
     then fail "Keywords (`t`, `!result`) cannot be used as an identifier"
     else return (LIdentifier name)
 
-integerLiteral :: Lexer LToken
-integerLiteral = do
-  num <- some digitChar
-  return (LIntegerLiteral (read num))
+namespace :: Lexer LToken
+namespace = do
+  name <- try (string "!Local") <|> do
+    first <- upperChar
+    rest <- many (letterChar <|> digitChar)
+    return (first:rest)
+  return (LNamespace name)
 
-stringLiteral :: Lexer LToken
-stringLiteral = do
-  char '"'
-  content <- many (noneOf ['"'])
-  char '"' --"
-  return (LStringLiteral content)
-
-lModule :: Lexer LToken
-lModule = do
-  _ <- string "!module"
-  space1
-  LIdentifier moduleName <- identifier
-  return (LModule moduleName)
+dot :: Lexer LToken
+dot = char '.' *> pure LDot
 
 lImport :: Lexer LToken
 lImport = do
@@ -52,7 +84,7 @@ lImport = do
   space1
   LStringLiteral path <- stringLiteral
   space1
-  LIdentifier name <- identifier
+  LNamespace name <- namespace
   return (LImport path name)
 
 assign :: Lexer LToken
@@ -85,41 +117,15 @@ sc = space
   (skipLineComment "--")
   (skipBlockComment "|-" "-|")
 
-tricuLexer :: Lexer [LToken]
-tricuLexer = do
-  sc
-  header <- many $ do
-    tok <- choice
-      [ try lModule
-      , try lImport
-      , lnewline
-      ]
-    sc
-    pure tok
-  tokens <- many $ do
-    tok <- choice tricuLexer'
-    sc
-    pure tok
-  sc
-  eof
-  pure (header ++ tokens)
-  where
-    tricuLexer' =
-      [ try lnewline
-      , try identifier
-      , try keywordT
-      , try integerLiteral
-      , try stringLiteral
-      , assign
-      , colon
-      , backslash
-      , openParen
-      , closeParen
-      , openBracket
-      , closeBracket
-      ]
+integerLiteral :: Lexer LToken
+integerLiteral = do
+  num <- some digitChar
+  return (LIntegerLiteral (read num))
+
+stringLiteral :: Lexer LToken
+stringLiteral = do
+  char '"'
+  content <- many (noneOf ['"'])
+  char '"' --"
+  return (LStringLiteral content)
 
-lexTricu :: String -> [LToken]
-lexTricu input = case runParser tricuLexer "" input of
-  Left err -> errorWithoutStackTrace $ "Lexical error:\n" ++ errorBundlePretty err
-  Right tokens -> tokens

src/Parser.hs

@@ -73,8 +73,6 @@ parseSingle input =
 
 parseProgramM :: ParserM [TricuAST]
 parseProgramM = do
-  skipMany topLevelNewline
-  moduleNode <- optional parseModuleM
   skipMany topLevelNewline
   importNodes <- many (do
     node <- parseImportM
@@ -83,16 +81,7 @@ parseProgramM = do
   skipMany topLevelNewline
   exprs <- sepEndBy parseOneExpression (some topLevelNewline)
   skipMany topLevelNewline
-  return (maybe [] (: []) moduleNode ++ importNodes ++ exprs)
-
-
-parseModuleM :: ParserM TricuAST
-parseModuleM = do
-  LModule moduleName <- satisfyM isModule
-  pure (SModule moduleName)
-  where
-    isModule (LModule _) = True
-    isModule _           = False
+  return (importNodes ++ exprs)
 
 parseImportM :: ParserM TricuAST
 parseImportM = do
@@ -266,12 +255,19 @@ parseSingleItemM = do
 
 parseVarM :: ParserM TricuAST
 parseVarM = do
-  satisfyM (\case LIdentifier _ -> True; _ -> False) >>= \case
+  token <- satisfyM (\case 
+    LNamespace _ -> True
+    LIdentifier _ -> True 
+    _ -> False)
+  case token of
+    LNamespace ns -> do
+      _ <- satisfyM (== LDot)
+      LIdentifier name <- satisfyM (\case LIdentifier _ -> True; _ -> False)
+      pure $ SVar (ns ++ "." ++ name)
     LIdentifier name
       | name == "t" || name == "!result" ->
         fail ("Reserved keyword: " ++ name ++ " cannot be assigned.")
-      | otherwise                         ->
-         pure (SVar name)
+      | otherwise -> pure (SVar name)
     _ -> fail "Unexpected token while parsing variable"
 
 parseIntLiteralM :: ParserM TricuAST

src/Research.hs

@@ -26,7 +26,6 @@ data TricuAST
   | TFork TricuAST TricuAST
   | SLambda [String] TricuAST
   | SEmpty
-  | SModule String
   | SImport String String
   deriving (Show, Eq, Ord)
 
@@ -34,17 +33,18 @@ data TricuAST
 data LToken
   = LKeywordT
   | LIdentifier String
+  | LNamespace String
   | LIntegerLiteral Int
   | LStringLiteral String
   | LAssign
   | LColon
+  | LDot
   | LBackslash
   | LOpenParen
   | LCloseParen
   | LOpenBracket
   | LCloseBracket
   | LNewline
-  | LModule String
   | LImport String String
   deriving (Show, Eq, Ord)
 

test/Spec.hs

@@ -532,6 +532,9 @@ modules = testGroup "Test modules"
   , testCase "Lambda expression namespaces" $ do
       res <- liftIO $ evaluateFileResult "./test/lambda-A.tri"
       res @?= Leaf
+  , testCase "Local namespace import chain" $ do
+      res <- liftIO $ evaluateFileResult "./test/local-ns/1.tri"
+      res @?=  Fork (Stem Leaf) (Fork (Stem Leaf) Leaf)
   ]
 
 

test/ascii.tri

@@ -1 +0,0 @@
-t (t (t (t (t t) (t t t)) t) t t) t

test/assignment.tri

@@ -1 +0,0 @@
-x = t (t t) t

test/cycle-1.tri

@@ -1,4 +1,3 @@
-!module Cycle
 
 !import "test/cycle-2.tri" Cycle2
 

test/cycle-2.tri

@@ -1,4 +1,3 @@
-!module Cycle2
 
 !import "test/cycle-1.tri" Cycle1
 

test/lambda-A.tri

@@ -1,2 +1 @@
-!module A
 main = (\x : x) t

test/local-ns/1.tri

@@ -0,0 +1,4 @@
+
+!import "test/local-ns/2.tri" Two
+
+main = Two.x

test/local-ns/2.tri

@@ -0,0 +1,2 @@
+
+!import "test/local-ns/3.tri" !Local

test/local-ns/3.tri

@@ -0,0 +1,2 @@
+
+x = 3

test/modules-1.tri

@@ -1,5 +0,0 @@
-!module Test
-
-!import "lib/base.tri" Lib
-
-main = Lib.not? t

test/modules-2.tri

@@ -1 +0,0 @@
-n = t t t

test/multi-level-A.tri

@@ -1,3 +1,2 @@
-!module A
 !import "./test/multi-level-B.tri" B
 main = B.main

test/multi-level-B.tri

@@ -1,3 +1,2 @@
-!module B
 !import "./test/multi-level-C.tri" C
 main = C.val

test/multi-level-C.tri

@@ -1,2 +1 @@
-!module C
 val = t

test/named-imports/1.tri

@@ -0,0 +1,7 @@
+
+!import "lib/base.tri"
+
+!import "test/named-imports/2.tri"
+!import "test/named-imports/3.tri" ThreeRenamed
+
+main = equal? (equal? Two.x 2) (equal? ThreeRenamed.x 3)

test/named-imports/2.tri

@@ -0,0 +1,2 @@
+
+x = 2

test/named-imports/3.tri

@@ -0,0 +1,2 @@
+
+x = 3

test/namespace-A.tri

@@ -1,3 +1,2 @@
-!module A
 !import "./test/namespace-B.tri" B
 main = B.x

test/namespace-B.tri

@@ -1,2 +1 @@
-!module B
 x = t

test/undefined.tri

@@ -1 +0,0 @@
-namedTerm = undefinedForTesting

test/unresolved-A.tri

@@ -1,2 +1 @@
-!module A
 main = undefinedVar

test/vars-A.tri

@@ -1,4 +1,3 @@
-!module A
 
 !import "./test/vars-B.tri" B
 

test/vars-B.tri

@@ -1,2 +1 @@
-!module B
 y = \x : x

test/vars-C.tri

@@ -1,2 +1 @@
-!module C
 z = t

tricu.cabal

@@ -1,7 +1,7 @@
 cabal-version: 1.12
 
 name:           tricu
-version:        0.12.0
+version:        0.13.0
 description:    A micro-language for exploring Tree Calculus
 author:         James Eversole
 maintainer:     james@eversole.co