Caller-relative imports; smart deduping in imports

Adds the ability to toggle result decoding in REPL. Adds several more
useful functions to the base library.

README.md

@@ -2,7 +2,9 @@
 
 ## Introduction
 
-tricu (pronounced "tree-shoe") is a purely functional interpreted language implemented in Haskell. It is fundamentally based on the application of [Tree Calculus](https://github.com/barry-jay-personal/typed_tree_calculus/blob/main/typed_program_analysis.pdf) terms, but minimal syntax sugar is included to provide a useful programming tool. tricu is under active development and you can expect breaking changes with nearly every commit.
+tricu (pronounced "tree-shoe") is a purely functional interpreted language implemented in Haskell. It is fundamentally based on the application of [Tree Calculus](https://github.com/barry-jay-personal/typed_tree_calculus/blob/main/typed_program_analysis.pdf) terms, but minimal syntax sugar is included to provide a useful programming tool. 
+
+*tricu is under active development and you should expect breaking changes with every commit.*
 
 tricu is the word for "tree" in Lojban: `(x1) is a tree of species/cultivar (x2)`.
 
@@ -14,7 +16,7 @@ tricu is the word for "tree" in Lojban: `(x1) is a tree of species/cultivar (x2)
 - Lambda abstraction syntax: `id = (\a : a)`
 - List, Number, and String literals: `[(2) ("Hello")]` 
 - Function application: `not (not false)`
-- Higher order/first-class functions: `map (\a : lconcat a "!") [("Hello")]`
+- Higher order/first-class functions: `map (\a : append a "!") [("Hello")]`
 - Intensionality blurs the distinction between functions and data (see REPL examples)
 - Simple module system for code organization
 
@@ -23,9 +25,9 @@ tricu is the word for "tree" in Lojban: `(x1) is a tree of species/cultivar (x2)
 ```
 tricu < -- Anything after `--` on a single line is a comment
 tricu < id = (\a : a) -- Lambda abstraction is eliminated to tree calculus terms
-tricu < head (map (\i : lconcat i " world!") [("Hello, ")])
+tricu < head (map (\i : append i " world!") [("Hello, ")])
 tricu > "Hello,  world!"
-tricu < id (head (map (\i : lconcat i " world!") [("Hello, ")]))
+tricu < id (head (map (\i : append i " world!") [("Hello, ")]))
 tricu > "Hello,  world!"
 
 tricu < -- Intensionality! We can inspect the structure of a function or data.

demos/equality.tri

@@ -1,4 +1,5 @@
-!import "lib/base.tri" !Local
+!import "../lib/base.tri" !Local
+!import "../lib/list.tri" !Local
 
 main = lambdaEqualsTC
 

demos/levelOrderTraversal.tri

@@ -1,4 +1,5 @@
-!import "lib/base.tri" !Local
+!import "../lib/base.tri" Lib
+!import "../lib/list.tri" !Local
 
 main = exampleTwo
 -- Level Order Traversal of a labelled binary tree
@@ -37,21 +38,21 @@ processLevel = y (\self queue : if (emptyList? queue)
   [] 
   (pair (map label queue) (self (filter 
     (\node : not? (emptyList? node)) 
-      (lconcat (map left queue) (map right queue))))))
+      (append (map left queue) (map right queue))))))
 
 levelOrderTraversal_ = \a : processLevel (t a t)
 
 toLineString = y (\self levels : if (emptyList? levels) 
   "" 
-  (lconcat 
-    (lconcat (map (\x : lconcat x " ") (head levels)) "") 
-    (if (emptyList? (tail levels)) "" (lconcat (t (t 10 t) t) (self (tail levels))))))
+  (append 
+    (append (map (\x : append x " ") (head levels)) "") 
+    (if (emptyList? (tail levels)) "" (append (t (t 10 t) t) (self (tail levels))))))
 
 levelOrderToString = \s : toLineString (levelOrderTraversal_ s)
 
-flatten = foldl (\acc x : lconcat acc x) ""
+flatten = foldl (\acc x : append acc x) ""
 
-levelOrderTraversal = \s : lconcat (t 10 t) (flatten (levelOrderToString s))
+levelOrderTraversal = \s : append (t 10 t) (flatten (levelOrderToString s))
 
 exampleOne = levelOrderTraversal [("1") 
                                  [("2") [("4") t t] t] 

demos/size.tri

@@ -1,18 +1,8 @@
-!import "lib/base.tri" !Local
+!import "../lib/base.tri" !Local
+!import "../lib/list.tri" !Local
 
 main = size size
 
-compose = \f g x : f (g x)
-
-succ = y (\self :
-  triage
-    1
-    t
-    (triage
-      (t (t t))
-      (\_ tail : t t (self tail))
-      t))
-
 size = (\x :
   (y (\self x :
     compose succ

demos/toSource.tri

@@ -1,4 +1,5 @@
-!import "lib/base.tri" !Local
+!import "../lib/base.tri" !Local
+!import "../lib/list.tri" !Local
 
 main = toSource not?
 -- Thanks to intensionality, we can inspect the structure of a given value

lib/base.tri

@@ -1,13 +1,8 @@
 false = t
 _     = t
 true  = t t
-k     = t t
-i     = t (t k) t
-s     = t (t (k t)) t
-m     = s i i
-b     = s (k s) k
-c     = s (s (k s) (s (k k) s)) (k k)
 id    = \a : a
+const = \a b : a
 pair  = t
 if    = \cond then else : t (t else (t t then)) t cond
 
@@ -15,6 +10,8 @@ y = ((\mut wait fun : wait mut (\x : fun (wait mut x)))
      (\x : x x)
      (\a0 a1 a2 : t (t a0) (t t a2) a1))
 
+compose = \f g x : f (g x)
+
 triage = \leaf stem fork : t (t leaf stem) fork
 test   = triage "Leaf" (\_ : "Stem") (\_ _ : "Fork")
 
@@ -24,21 +21,6 @@ matchBool = (\ot of : triage
   (\_ _ : ot)
 )
 
-matchList = \a b : triage a _ b
-
-matchPair = \a   : triage _ _ a
-
-not? = matchBool false true
-and? = matchBool id (\_ : false)
-emptyList? = matchList true (\_ _ : false)
-
-head = matchList t (\head _ : head)
-tail = matchList t (\_ tail : tail)
-
-lconcat = y (\self : matchList
-  (\k : k)
-  (\h r k : pair h (self r k)))
-
 lAnd = (triage
   (\_     : false)
   (\_ x   : x)
@@ -49,11 +31,22 @@ lOr = (triage
   (\_ _   : true)
   (\_ _ _ : true))
 
-map_ = y (\self :
-  matchList
-    (\_ : t)
-    (\head tail f : pair (f head) (self tail f)))
-map = \f l : map_ l f
+matchPair = \a   : triage _ _ a
+
+not? = matchBool false true
+and? = matchBool id (\_ : false)
+
+or? = (\x z : 
+  matchBool 
+    (matchBool true true z)
+    (matchBool true false z)
+    x)
+
+xor? = (\x z : 
+  matchBool 
+    (matchBool false true z)
+    (matchBool true false z)
+    x)
 
 equal? = y (\self : triage
   (triage
@@ -71,13 +64,11 @@ equal? = y (\self : triage
       (\_ : false)
       (\bx by : lAnd (self ax bx) (self ay by))))
 
-filter_ = y (\self : matchList
-  (\_ : t)
-  (\head tail f : matchBool (t head) i (f head) (self tail f)))
-filter  = \f l : filter_ l f
-
-foldl_ = y (\self f l x : matchList (\acc : acc) (\head tail acc : self f tail (f acc head)) l x)
-foldl  = \f x l : foldl_ f l x
-
-foldr_ = y (\self x f l : matchList x (\head tail : f (self x f tail) head) l)
-foldr  = \f x l : foldr_ x f l
+succ = y (\self :
+  triage
+    1
+    t
+    (triage
+      (t (t t))
+      (\_ tail : t t (self tail))
+      t))

lib/list.tri

@@ -0,0 +1,77 @@
+!import "base.tri" !Local
+
+matchList = \a b : triage a _ b
+
+emptyList? = matchList true (\_ _ : false)
+head = matchList t (\head _ : head)
+tail = matchList t (\_ tail : tail)
+
+append = y (\self : matchList
+  (\k : k)
+  (\h r k : pair h (self r k)))
+
+lExist? = y (\self x : matchList
+  false
+  (\h z : or? (equal? x h) (self x z)))
+
+map_ = y (\self :
+  matchList
+    (\_ : t)
+    (\head tail f : pair (f head) (self tail f)))
+map = \f l : map_ l f
+
+filter_ = y (\self : matchList
+  (\_ : t)
+  (\head tail f : matchBool (t head) id (f head) (self tail f)))
+filter  = \f l : filter_ l f
+
+foldl_ = y (\self f l x : matchList (\acc : acc) (\head tail acc : self f tail (f acc head)) l x)
+foldl  = \f x l : foldl_ f l x
+
+foldr_ = y (\self x f l : matchList x (\head tail : f (self x f tail) head) l)
+foldr  = \f x l : foldr_ x f l
+
+length = y (\self : matchList
+  0
+  (\_ tail : succ (self tail)))
+
+reverse = y (\self : matchList
+  t
+  (\head tail : append (self tail) (pair head t)))
+
+snoc = y (\self x : matchList
+  (pair x t)
+  (\h z : pair h (self x z)))
+
+count = y (\self x : matchList
+  0
+  (\h z : matchBool
+    (succ (self x z))
+    (self x z)
+    (equal? x h)))
+
+last = y (\self : matchList
+  t
+  (\hd tl : matchBool
+    hd
+    (self tl)
+    (emptyList? tl)))
+
+all? = y (\self pred : matchList
+  true
+  (\h z : and? (pred h) (self pred z)))
+
+any? = y (\self pred : matchList
+  false
+  (\h z : or? (pred h) (self pred z)))
+
+unique_ = y (\self seen : matchList
+  t
+  (\head rest : matchBool
+    (self seen rest)
+    (pair head (self (pair head seen) rest))
+    (lExist? head seen)))
+unique = \xs : unique_ t xs
+
+intersect = \xs ys : filter (\x : lExist? x ys) xs
+union     = \xs ys : unique (append xs ys)

src/Eval.hs

@@ -74,8 +74,6 @@ elimLambda = go
     -- Composition optimization
     go (SLambda [f] (SLambda [g] (SLambda [x] body)))
       | 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)
@@ -97,7 +95,6 @@ elimLambda = go
     _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"
 
 isFree :: String -> TricuAST -> Bool
@@ -144,18 +141,23 @@ reorderDefs env defs
 
 buildDepGraph :: [TricuAST] -> Map.Map String (Set.Set String)
 buildDepGraph topDefs
-  | not (null duplicateNames) =
+  | not (null conflictingDefs) =
       errorWithoutStackTrace $
-        "Duplicate definitions detected: " ++ show duplicateNames
+        "Conflicting definitions detected: " ++ show conflictingDefs
   | otherwise =
       Map.fromList
         [ (name, depends topDefs (SDef name [] body))
         | SDef name _ body <- topDefs]
   where
-    names = [name | SDef name _ _ <- topDefs]
-    duplicateNames =
-      [ name | (name, count) <- Map.toList (countOccurrences names) , count > 1]
-    countOccurrences = foldr (\x -> Map.insertWith (+) x 1) Map.empty
+    defsMap = Map.fromListWith (++)
+      [(name, [(name, body)]) | SDef name _ body <- topDefs]
+
+    conflictingDefs =
+      [ name
+      | (name, defs) <- Map.toList defsMap
+      , let bodies = map snd defs
+      , not $ all (== head bodies) (tail bodies)
+      ]
 
 sortDeps :: Map.Map String (Set.Set String) -> [String]
 sortDeps graph = go [] Set.empty (Map.keys graph)

src/FileEval.hs

@@ -8,6 +8,7 @@ import Research
 import Data.List       (partition)
 import Control.Monad   (foldM)
 import System.IO
+import System.FilePath (takeDirectory, normalise, (</>))
 
 import qualified Data.Map as Map
 import qualified Data.Set as Set
@@ -46,37 +47,45 @@ evaluateFileWithContext env filePath = do
       pure $ evalTricu env ast
 
 preprocessFile :: FilePath -> IO [TricuAST]
-preprocessFile = preprocessFile' Set.empty
+preprocessFile p = preprocessFile' Set.empty p p
 
-preprocessFile' :: Set.Set FilePath -> FilePath -> IO [TricuAST]
-preprocessFile' inProgress filePath
-  | filePath `Set.member` inProgress = 
-      errorWithoutStackTrace $ "Encountered cyclic import: " ++ filePath
+preprocessFile' :: Set.Set FilePath -> FilePath -> FilePath -> IO [TricuAST]
+preprocessFile' s b p
+  | p `Set.member` s =
+      errorWithoutStackTrace $ "Encountered cyclic import: " ++ p
   | otherwise = do
-      contents <- readFile filePath
-      let tokens = lexTricu contents
-      case parseProgram tokens of
-        Left err -> errorWithoutStackTrace (handleParseError err)
-        Right asts -> do
-          let (imports, nonImports) = partition isImport asts
-          let newInProgress = Set.insert filePath inProgress
-          importedASTs <- concat <$> mapM (processImport newInProgress "") imports
-          pure $ importedASTs ++ nonImports
+      c <- readFile p
+      let t = lexTricu c
+      case parseProgram t of
+        Left e -> errorWithoutStackTrace (handleParseError e)
+        Right a -> do
+          let (i, n) = partition isImp a
+          let s' = Set.insert p s
+          r <- concat <$>
+            mapM (procImp s' "" p) i
+          pure $ r ++ n
   where
-    isImport :: TricuAST -> Bool
-    isImport (SImport _ _) = True
-    isImport _             = False
+    isImp :: TricuAST -> Bool
+    isImp (SImport _ _) = True
+    isImp _             = False
 
-    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"
+    procImp :: Set.Set FilePath -> String -> FilePath -> TricuAST -> IO [TricuAST]
+    procImp s m f (SImport p "!Local") = do
+      let ip = makeRelativeTo f p
+      a <- preprocessFile' s b ip
+      let d = filter (not . isImp) a
+      pure $ map (nsDefinition m) d
+    procImp s _ f (SImport p n) = do
+      let ip = makeRelativeTo f p
+      a <- preprocessFile' s b ip
+      let d = filter (not . isImp) a
+      pure $ map (nsDefinition n) d
+    procImp _ _ _ _ = error "Unexpected non-import in processImport"
+
+makeRelativeTo :: FilePath -> FilePath -> FilePath
+makeRelativeTo f i =
+    let d = takeDirectory f
+    in normalise $ d </> i
 
 nsDefinitions :: String -> [TricuAST] -> [TricuAST]
 nsDefinitions moduleName = map (nsDefinition moduleName)
@@ -116,13 +125,20 @@ nsBodyScoped moduleName args body = case body of
     if name `elem` args
       then SVar name
       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)
+  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 (nsVariable moduleName name) innerArgs (nsBodyScoped moduleName (args ++ innerArgs) innerBody)
+    SDef (nsVariable moduleName name) innerArgs 
+         (nsBodyScoped moduleName (args ++ innerArgs) innerBody)
   other -> other
 
 isPrefixed :: String -> Bool

src/Main.hs

@@ -8,7 +8,9 @@ import Research
 
 import Control.Monad          (foldM)
 import Control.Monad.IO.Class (liftIO)
+import Data.Version           (showVersion)
 import Text.Megaparsec        (runParser)
+import Paths_tricu            (version)
 import System.Console.CmdArgs
 
 import qualified Data.Map as Map
@@ -52,10 +54,12 @@ decodeMode = TDecode
 
 main :: IO ()
 main = do
+  let versionStr = "tricu Evaluator and REPL " ++ showVersion version
   args <- cmdArgs $ modes [replMode, evaluateMode, decodeMode]
     &= help "tricu: Exploring Tree Calculus"
     &= program "tricu"
-    &= summary "tricu Evaluator and REPL"
+    &= summary versionStr
+    &= versionArg [explicit, name "version", summary versionStr]
   case args of
     Repl -> do
       putStrLn "Welcome to the tricu REPL"

src/REPL.hs

@@ -10,51 +10,65 @@ import Control.Exception         (SomeException, catch)
 import Control.Monad.IO.Class (liftIO)
 import Control.Monad.Catch    (handle, MonadCatch)
 import Data.Char              (isSpace)
-import Data.List                 (dropWhile, dropWhileEnd, intercalate)
+import Data.List              ( dropWhile
+                              , dropWhileEnd
+                              , intercalate
+                              , isPrefixOf)
 import System.Console.Haskeline
 
 import qualified Data.Map as Map
 
 repl :: Env -> IO ()
-repl env = runInputT defaultSettings (withInterrupt (loop env))
+repl env = runInputT defaultSettings (withInterrupt (loop env True))
   where
-    loop :: Env -> InputT IO ()
-    loop env = handle (interruptHandler env) $ do
+    loop :: Env -> Bool -> InputT IO ()
+    loop env decode = handle (interruptHandler env decode) $ do
       minput <- getInputLine "tricu < "
       case minput of
         Nothing -> outputStrLn "Exiting tricu"
         Just s
+          | strip s == "" -> loop env decode
           | strip s == "!exit" -> outputStrLn "Exiting tricu"
-          | strip s == "" -> loop env
-          | strip s == "!import" -> do
+          | strip s == "!decode" -> do
+              outputStrLn $ "Decoding " ++ (if decode then "disabled" else "enabled")
+              loop env (not decode)
+          | "!import" `isPrefixOf` strip s -> do
+              let afterImport = dropWhile (== ' ') $ drop (length ("!import" :: String)) (strip s)
+              if not (null afterImport)
+                then outputStrLn "Warning: REPL imports are interactive; \
+                                  \additional arguments are ignored."
+                else pure ()
               path <- getInputLine "File path to load < "
               case path of
                 Nothing -> do
                   outputStrLn "No input received; stopping import."
-                  loop env
+                  loop env decode
                 Just p -> do
                   loadedEnv <- liftIO $ evaluateFileWithContext env
                     (strip p) `catch` \e -> errorHandler env e
-                  loop $ Map.delete "!result" (Map.union loadedEnv env)
-          | take 2 s == "--" -> loop env
+                  loop (Map.delete "!result" (Map.union loadedEnv env)) decode
+          | take 2 s == "--" -> loop env decode
           | otherwise -> do
-              newEnv <- liftIO $ processInput env s `catch` errorHandler env
-              loop newEnv
+              newEnv <- liftIO $ processInput env s decode `catch` errorHandler env
+              loop newEnv decode
 
-    interruptHandler :: Env -> Interrupt -> InputT IO ()
-    interruptHandler env _ = do
+    interruptHandler :: Env -> Bool -> Interrupt -> InputT IO ()
+    interruptHandler env decode _ = do
       outputStrLn "Interrupted with CTRL+C\n\
                   \You can use the !exit command or CTRL+D to exit"
-      loop env
+      loop env decode
 
-    processInput :: Env -> String -> IO Env
-    processInput env input = do
+    processInput :: Env -> String -> Bool -> IO Env
+    processInput env input decode = do
       let asts   = parseTricu input
           newEnv = evalTricu env asts
-      if
-        | Just r <- Map.lookup "!result" newEnv -> do
-          putStrLn $ "tricu > " ++ decodeResult r
-        | otherwise -> return ()
+      case Map.lookup "!result" newEnv of
+        Just r -> do
+          putStrLn $ "tricu > " ++ 
+            if decode 
+              then decodeResult r
+              else show r
+        Nothing -> pure ()
       return newEnv
     
     errorHandler :: Env -> SomeException -> IO (Env)

test/Spec.hs

@@ -30,7 +30,7 @@ tests = testGroup "Tricu Tests"
   , parser
   , simpleEvaluation
   , lambdas
-  , baseLibrary
+  , providedLibraries
   , fileEval
   , modules
   , demos
@@ -343,137 +343,101 @@ lambdas = testGroup "Lambda Evaluation Tests"
         runTricu input @?= "Fork Leaf (Fork (Stem Leaf) Leaf)"
   ]
 
-baseLibrary :: TestTree
-baseLibrary = testGroup "Library Tests"
-  [ testCase "K combinator 1" $ do
-      library <- evaluateFile "./lib/base.tri"
-      let input = "k (t) (t t)"
-          env = evalTricu library (parseTricu input)
-      result env @?= Leaf
-
-  , testCase "K combinator 2" $ do
-      library <- evaluateFile "./lib/base.tri"
-      let input = "k (t t) (t)"
-          env = evalTricu library (parseTricu input)
-      result env @?= Stem Leaf
-
-  , testCase "K combinator 3" $ do
-      library <- evaluateFile "./lib/base.tri"
-      let input = "k (t t t) (t)"
-          env = evalTricu library (parseTricu input)
-      result env @?= Fork Leaf Leaf
-
-  , testCase "S combinator" $ do
-      library <- evaluateFile "./lib/base.tri"
-      let input = "s (t) (t) (t)"
-          env = evalTricu library (parseTricu input)
-      result env @?= Fork Leaf (Stem Leaf)
-
-  , testCase "SKK == I (fully expanded)" $ do
-      library <- evaluateFile "./lib/base.tri"
-      let input = "s k k"
-          env = evalTricu library (parseTricu input)
-      result env @?= Fork (Stem (Stem Leaf)) (Stem Leaf)
-
-  , testCase "I combinator" $ do
-      library <- evaluateFile "./lib/base.tri"
-      let input = "i not?"
-          env = evalTricu library (parseTricu input)
-      result env @?= Fork (Fork (Stem Leaf) (Fork Leaf Leaf)) (Fork Leaf (Fork Leaf Leaf))
-
-  , testCase "Triage test Leaf" $ do
-      library <- evaluateFile "./lib/base.tri"
+providedLibraries :: TestTree
+providedLibraries = testGroup "Library Tests"
+  [ testCase "Triage test Leaf" $ do
+      library <- evaluateFile "./lib/list.tri"
       let input = "test t"
           env = decodeResult $ result $ evalTricu library (parseTricu input)
       env @?= "\"Leaf\""
 
   , testCase "Triage test (Stem Leaf)" $ do
-      library <- evaluateFile "./lib/base.tri"
+      library <- evaluateFile "./lib/list.tri"
       let input = "test (t t)"
           env = decodeResult $ result $ evalTricu library (parseTricu input)
       env @?= "\"Stem\""
 
   , testCase "Triage test (Fork Leaf Leaf)" $ do
-      library <- evaluateFile "./lib/base.tri"
+      library <- evaluateFile "./lib/list.tri"
       let input = "test (t t t)"
           env = decodeResult $ result $ evalTricu library (parseTricu input)
       env @?= "\"Fork\""
 
   , testCase "Boolean NOT: true" $ do
-      library <- evaluateFile "./lib/base.tri"
+      library <- evaluateFile "./lib/list.tri"
       let input = "not? true"
           env = result $ evalTricu library (parseTricu input)
       env @?= Leaf
 
   , testCase "Boolean NOT: false" $ do
-      library <- evaluateFile "./lib/base.tri"
+      library <- evaluateFile "./lib/list.tri"
       let input = "not? false"
           env = result $ evalTricu library (parseTricu input)
       env @?= Stem Leaf
 
 
   , testCase "Boolean AND TF" $ do
-      library <- evaluateFile "./lib/base.tri"
+      library <- evaluateFile "./lib/list.tri"
       let input = "and? (t t) (t)"
           env = evalTricu library (parseTricu input)
       result env @?= Leaf
 
   , testCase "Boolean AND FT" $ do
-      library <- evaluateFile "./lib/base.tri"
+      library <- evaluateFile "./lib/list.tri"
       let input = "and? (t) (t t)"
           env = evalTricu library (parseTricu input)
       result env @?= Leaf
 
   , testCase "Boolean AND FF" $ do
-      library <- evaluateFile "./lib/base.tri"
+      library <- evaluateFile "./lib/list.tri"
       let input = "and? (t) (t)"
           env = evalTricu library (parseTricu input)
       result env @?= Leaf
 
   , testCase "Boolean AND TT" $ do
-      library <- evaluateFile "./lib/base.tri"
+      library <- evaluateFile "./lib/list.tri"
       let input = "and? (t t) (t t)"
           env = evalTricu library (parseTricu input)
       result env @?= Stem Leaf
 
   , testCase "List head" $ do
-      library <- evaluateFile "./lib/base.tri"
+      library <- evaluateFile "./lib/list.tri"
       let input = "head [(t) (t t) (t t t)]"
           env = evalTricu library (parseTricu input)
       result env @?= Leaf
 
   , testCase "List tail" $ do
-      library <- evaluateFile "./lib/base.tri"
+      library <- evaluateFile "./lib/list.tri"
       let input = "head (tail (tail [(t) (t t) (t t t)]))"
           env = evalTricu library (parseTricu input)
       result env @?= Fork Leaf Leaf
 
   , testCase "List map" $ do
-      library <- evaluateFile "./lib/base.tri"
+      library <- evaluateFile "./lib/list.tri"
       let input = "head (tail (map (\\a : (t t t)) [(t) (t) (t)]))"
           env = evalTricu library (parseTricu input)
       result env @?= Fork Leaf Leaf
 
   , testCase "Empty list check" $ do
-      library <- evaluateFile "./lib/base.tri"
+      library <- evaluateFile "./lib/list.tri"
       let input = "emptyList? []"
           env = evalTricu library (parseTricu input)
       result env @?= Stem Leaf
 
   , testCase "Non-empty list check" $ do
-      library <- evaluateFile "./lib/base.tri"
+      library <- evaluateFile "./lib/list.tri"
       let input = "not? (emptyList? [(1) (2) (3)])"
           env = evalTricu library (parseTricu input)
       result env @?= Stem Leaf
 
   , testCase "Concatenate strings" $ do
-      library <- evaluateFile "./lib/base.tri"
-      let input = "lconcat \"Hello, \" \"world!\""
+      library <- evaluateFile "./lib/list.tri"
+      let input = "append \"Hello, \" \"world!\""
           env = decodeResult $ result $ evalTricu library (parseTricu input)
       env @?= "\"Hello, world!\""
 
   , testCase "Verifying Equality" $ do
-      library <- evaluateFile "./lib/base.tri"
+      library <- evaluateFile "./lib/list.tri"
       let input = "equal? (t t t) (t t t)"
           env = evalTricu library (parseTricu input)
       result env @?= Stem Leaf
@@ -490,12 +454,12 @@ fileEval = testGroup "File evaluation tests"
       res @?= Fork (Stem Leaf) Leaf
 
   , testCase "Mapping and Equality" $ do
-      library <- liftIO $ evaluateFile "./lib/base.tri"
+      library <- liftIO $ evaluateFile "./lib/list.tri"
       fEnv    <- liftIO $ evaluateFileWithContext library "./test/map.tri"
       (mainResult fEnv) @?= Stem Leaf
 
   , testCase "Eval and decoding string" $ do
-      library <- liftIO $ evaluateFile "./lib/base.tri"
+      library <- liftIO $ evaluateFile "./lib/list.tri"
       res <- liftIO $ evaluateFileWithContext library "./test/string.tri"
       decodeResult (result res) @?= "\"String test!\""
   ]

test/cycle-1.tri

@@ -1,4 +1,4 @@
 
-!import "test/cycle-2.tri" Cycle2
+!import "cycle-2.tri" Cycle2
 
 cycle1 = t Cycle2.cycle2

test/cycle-2.tri

@@ -1,4 +1,4 @@
 
-!import "test/cycle-1.tri" Cycle1
+!import "cycle-1.tri" Cycle1
 
 cycle2 = t Cycle1.cycle1

test/local-ns/1.tri

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

test/local-ns/2.tri

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

test/local-ns/3.tri

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

test/map.tri

@@ -1,2 +1,2 @@
-x = map (\i : lconcat "Successfully concatenated " i) [("two strings!")]
+x = map (\i : append "Successfully concatenated " i) [("two strings!")]
 main = equal? x [("Successfully concatenated two strings!")]

test/multi-level-A.tri

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

test/multi-level-B.tri

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

test/namespace-A.tri

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

test/string.tri

@@ -1 +1 @@
-head (map (\i : lconcat "String " i) [("test!")])
+head (map (\i : append "String " i) [("test!")])

test/vars-A.tri

@@ -1,6 +1,6 @@
 
-!import "./test/vars-B.tri" B
+!import "vars-B.tri" B
 
-!import "./test/vars-C.tri" C
+!import "vars-C.tri" C
 
 main = B.y (C.z)

tricu.cabal

@@ -1,7 +1,7 @@
 cabal-version: 1.12
 
 name:           tricu
-version:        0.13.0
+version:        0.14.0
 description:    A micro-language for exploring Tree Calculus
 author:         James Eversole
 maintainer:     james@eversole.co
@@ -27,6 +27,7 @@ executable tricu
     , cmdargs
     , containers
     , exceptions
+    , filepath
     , haskeline
     , megaparsec
     , mtl
@@ -54,6 +55,7 @@ test-suite tricu-tests
     , cmdargs
     , containers
     , exceptions
+    , filepath
     , haskeline
     , megaparsec
     , mtl