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2 Commits
0.9.0 ... 0.11.0

Author SHA1 Message Date
James Eversole
918d929c09 # File eval mode now relies on main function
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Details
Test, Build, and Release / build (push) Successful in 1m15s
Details 
To encourage organizing code in a way that helps in understanding, I
have implemented the common idiom of requiring a `main` function. In
tricu and other functional languages, it is usually placed near the top
of the module. The evaluator gracefully handles the situation of passing
multiple files where the intermediary "library" files do not have main functions.
 2025-01-26 15:33:12 -06:00
James Eversole
a64b3f0829 Definition dependency analysis
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Details
Test, Build, and Release / build (push) Successful in 1m21s
Details 
tricu now allows defining terms in any order and will resolve
dependencies to ensure that they're evaluated in the right order.
Undefined terms are detected and throw errors during dependency
ordering.
For now we can't define top-level mutually recursive terms.
 2025-01-26 14:50:39 -06:00
20 changed files with 212 additions and 143 deletions
Expand all files Collapse all files

12
.gitea/workflows/test-and-build.yml
View File

@ -54,16 +54,12 @@ jobs:
cp -L ./result/bin/tricu ./tricu
chmod 755 ./tricu
nix develop --command upx ./tricu
- name: Setup go for release action
uses: actions/setup-go@v5
with:
go-version: '>=1.20.1'
- name: Release binary
uses: https://gitea.com/actions/release-action@main
uses: akkuman/gitea-release-action@v1
with:
files: |-
./tricu
api_key: '${{ secrets.RELEASE_TOKEN }}'
token: '${{ secrets.RELEASE_TOKEN }}'
body: '${{ gitea.event.head_commit.message }}'
pre_release: true

2
README.md
View File

@ -71,7 +71,7 @@ tricu eval [OPTIONS]
-f --file=FILE Input file path(s) for evaluation.
Defaults to stdin.
-t --form=FORM Optional output form: (tree|fsl|ast|ternary|ascii).
-t --form=FORM Optional output form: (tree|fsl|ast|ternary|ascii|decode).
Defaults to tricu-compatible `t` tree form.
tricu decode [OPTIONS]

2
demos/equality.tri
View File

@ -1,3 +1,5 @@
main = lambdaEqualsTC
-- We represent `false` with a Leaf and `true` with a Stem Leaf
demo_false = t
demo_true = t t

12
demos/levelOrderTraversal.tri
View File

@ -1,11 +1,10 @@
main = exampleTwo
-- Level Order Traversal of a labelled binary tree
-- Objective: Print each "level" of the tree on a separate line
--
-- NOTICE: This demo relies on tricu base library functions
--
-- We model labelled binary trees as sublists where values act as labels. We
-- require explicit not?ation of empty nodes. Empty nodes can be represented
-- with an empty list, `[]`, which is equivalent to a single node `t`.
-- We model labelled binary trees as nested lists where values act as labels. We
-- require explicit notation of empty nodes. Empty nodes can be represented
-- with an empty list, `[]`, which evaluates to a single node `t`.
--
-- Example tree inputs:
-- [("1") [("2") [("4") t t] t] [("3") [("5") t t] [("6") t t]]]]
@ -15,7 +14,6 @@
-- 2 3
-- / / \
-- 4 5 6
--
label = \node : head node
@ -61,5 +59,3 @@ exampleTwo = levelOrderTraversal [("1")
[("2") [("4") [("8") t t] [("9") t t]]
[("6") [("10") t t] [("12") t t]]]
[("3") [("5") [("11") t t] t] [("7") t t]]]
exampleTwo

32
demos/size.tri
View File

@ -1,21 +1,21 @@
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))
succ = y (\self :
triage
1
t
(triage
(t (t t))
(\_ tail : t t (self tail))
t))
size = (\x :
(y (\self x :
compose succ
(triage
(\x : x)
self
(\x y : compose (self x) (self y))
size = (\x :
(y (\self x :
compose succ
(triage
(\x : x)
self
(\x y : compose (self x) (self y))
x)) x 0))
size size

1
demos/toSource.tri
View File

@ -1,3 +1,4 @@
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.

60
lib/base.tri
View File

@ -18,9 +18,9 @@ y = ((\mut wait fun : wait mut (\x : fun (wait mut x)))
triage = \leaf stem fork : t (t leaf stem) fork
test = triage "Leaf" (\_ : "Stem") (\_ _ : "Fork")
matchBool = (\ot of : triage
of
(\_ : ot)
matchBool = (\ot of : triage
of
(\_ : ot)
(\_ _ : ot)
)
@ -35,44 +35,44 @@ emptyList? = matchList true (\_ _ : false)
head = matchList t (\head _ : head)
tail = matchList t (\_ tail : tail)
lconcat = y (\self : matchList
(\k : k)
lconcat = y (\self : matchList
(\k : k)
(\h r k : pair h (self r k)))
lAnd = (triage
(\_ : false)
(\_ x : x)
lAnd = (triage
(\_ : false)
(\_ x : x)
(\_ _ x : x))
lOr = (triage
(\x : x)
(\_ _ : true)
lOr = (triage
(\x : x)
(\_ _ : true)
(\_ _ _ : true))
map_ = y (\self :
matchList
(\_ : t)
map_ = y (\self :
matchList
(\_ : t)
(\head tail f : pair (f head) (self tail f)))
map = \f l : map_ l f
equal? = y (\self : triage
(triage
true
(\_ : false)
(\_ _ : false))
(\ax :
triage
false
(self ax)
(\_ _ : false))
(\ax ay :
triage
false
(\_ : false)
equal? = y (\self : triage
(triage
true
(\_ : false)
(\_ _ : false))
(\ax :
triage
false
(self ax)
(\_ _ : false))
(\ax ay :
triage
false
(\_ : false)
(\bx by : lAnd (self ax bx) (self ay by))))
filter_ = y (\self : matchList
(\_ : t)
filter_ = y (\self : matchList
(\_ : t)
(\head tail f : matchBool (t head) i (f head) (self tail f)))
filter = \f l : filter_ l f

130
src/Eval.hs
View File

@ -3,19 +3,19 @@ module Eval where
import Parser
import Research
import Data.List (partition)
import Data.Map (Map)
import qualified Data.Map as Map
import qualified Data.Set as Set
evalSingle :: Env -> TricuAST -> Env
evalSingle env term
| SFunc name [] body <- term =
| SDef name [] body <- term =
if
| Map.member name env ->
errorWithoutStackTrace $
| Map.member name env ->
errorWithoutStackTrace $
"Error: Identifier '" ++ name ++ "' is already defined."
| otherwise ->
| otherwise ->
let res = evalAST env body
in Map.insert "__result" res (Map.insert name res env)
| SApp func arg <- term =
@ -23,18 +23,23 @@ evalSingle env term
in Map.insert "__result" res env
| SVar name <- term =
case Map.lookup name env of
Just v -> Map.insert "__result" v env
Nothing -> errorWithoutStackTrace $ "Variable `" ++ name ++ "` not defined"
Just v ->
Map.insert "__result" v env
Nothing ->
errorWithoutStackTrace $ "Variable `" ++ name ++ "` not defined\n\
\This error should never occur here. Please report this as an issue."
| otherwise =
Map.insert "__result" (evalAST env term) env
evalTricu :: Env -> [TricuAST] -> Env
evalTricu env [] = env
evalTricu env [x] =
let updatedEnv = evalSingle env x
in Map.insert "__result" (result updatedEnv) updatedEnv
evalTricu env (x:xs) =
evalTricu (evalSingle env x) xs
evalTricu env x = go env (reorderDefs env x)
where
go env [] = env
go env [x] =
let updatedEnv = evalSingle env x
in Map.insert "__result" (result updatedEnv) updatedEnv
go env (x:xs) =
evalTricu (evalSingle env x) xs
evalAST :: Env -> TricuAST -> T
evalAST env term
@ -61,13 +66,13 @@ elimLambda = go
go (SLambda [v] (SApp f (SVar x)))
| v == x && not (isFree v f) = elimLambda f
-- Triage optimization
go (SLambda [a] (SLambda [b] (SLambda [c] body)))
go (SLambda [a] (SLambda [b] (SLambda [c] body)))
| body == triageBody = _TRIAGE
where
triageBody =
(SApp (SApp TLeaf (SApp (SApp TLeaf (SVar a)) (SVar b))) (SVar c))
-- Composition optimization
go (SLambda [f] (SLambda [g] (SLambda [x] body)))
go (SLambda [f] (SLambda [g] (SLambda [x] body)))
| body == composeBody = _COMPOSE
where
composeBody = SApp (SVar f) (SApp (SVar g) (SVar x))
@ -93,20 +98,89 @@ elimLambda = go
_I = parseSingle "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 x = Set.member x . freeVars
freeVars (SVar v ) = Set.singleton v
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 (SFunc _ _ 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
isFree :: String -> TricuAST -> Bool
isFree x = Set.member x . freeVars
freeVars :: TricuAST -> Set.Set String
freeVars (SVar v ) = Set.singleton v
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 (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
reorderDefs :: Env -> [TricuAST] -> [TricuAST]
reorderDefs env defs
| not (null missingDeps) =
errorWithoutStackTrace $
"Missing dependencies detected: " ++ show missingDeps
| otherwise = orderedDefs ++ others
where
(defsOnly, others) = partition isDef defs
graph = buildDepGraph defsOnly
sortedDefs = sortDeps graph
defMap = Map.fromList [(name, def) | def@(SDef name _ _) <- defsOnly]
orderedDefs = map (\name -> defMap Map.! name) sortedDefs
topDefNames = Set.fromList (Map.keys defMap)
envNames = Set.fromList (Map.keys env)
freeVarsDefs = foldMap (\(SDef _ _ body) -> freeVars body) defsOnly
freeVarsOthers = foldMap freeVars others
allFreeVars = freeVarsDefs <> freeVarsOthers
validNames = topDefNames `Set.union` envNames
missingDeps = Set.toList (allFreeVars `Set.difference` validNames)
isDef (SDef _ _ _) = True
isDef _ = False
buildDepGraph :: [TricuAST] -> Map.Map String (Set.Set String)
buildDepGraph topDefs
| not (null duplicateNames) =
errorWithoutStackTrace $
"Duplicate definitions detected: " ++ show duplicateNames
| 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
sortDeps :: Map.Map String (Set.Set String) -> [String]
sortDeps graph = go [] (Map.keys graph)
where
go sorted [] = sorted
go sorted remaining
| null ready =
errorWithoutStackTrace
"ERROR: Top-level cyclic dependency detected and prohibited\n\
\RESOLVE: Use nested lambdas"
| otherwise = go (sorted ++ ready) notReady
where
ready = [ name | name <- remaining
, all (`elem` sorted) (Set.toList (graph Map.! name))]
notReady =
[ name | name <- remaining , name `notElem` ready]
depends :: [TricuAST] -> TricuAST -> Set.Set String
depends topDefs (SDef _ _ body) =
Set.intersection
(Set.fromList [n | SDef n _ _ <- topDefs])
(freeVars body)
depends _ _ = Set.empty
result :: Env -> T
result r = case Map.lookup "__result" r of
Just a -> a
Nothing -> errorWithoutStackTrace "No __result field found in provided environment"
Nothing -> errorWithoutStackTrace "No __result field found in provided env"
mainResult :: Env -> T
mainResult r = case Map.lookup "main" r of
Just a -> a
Nothing -> errorWithoutStackTrace "No valid definition for `main` found."

4
src/FileEval.hs
View File

@ -13,9 +13,9 @@ evaluateFileResult filePath = do
contents <- readFile filePath
let asts = parseTricu contents
let finalEnv = evalTricu Map.empty asts
case Map.lookup "__result" finalEnv of
case Map.lookup "main" finalEnv of
Just finalResult -> return finalResult
Nothing -> errorWithoutStackTrace "No expressions to evaluate found"
Nothing -> errorWithoutStackTrace "No `main` function detected"
evaluateFile :: FilePath -> IO Env
evaluateFile filePath = do

12
src/Main.hs
View File

@ -1,6 +1,6 @@
module Main where
import Eval (evalTricu, result)
import Eval (evalTricu, mainResult, result)
import FileEval
import Parser (parseTricu)
import REPL
@ -16,7 +16,7 @@ import qualified Data.Map as Map
data TricuArgs
= Repl
| Evaluate { file :: [FilePath], form :: EvaluatedForm }
| Decode { file :: [FilePath] }
| TDecode { file :: [FilePath] }
deriving (Show, Data, Typeable)
replMode :: TricuArgs
@ -31,7 +31,7 @@ evaluateMode = Evaluate
\ Defaults to stdin."
&= name "f" &= typ "FILE"
, form = TreeCalculus &= typ "FORM"
&= help "Optional output form: (tree|fsl|ast|ternary|ascii).\n \
&= help "Optional output form: (tree|fsl|ast|ternary|ascii|decode).\n \
\ Defaults to tricu-compatible `t` tree form."
&= name "t"
}
@ -40,7 +40,7 @@ evaluateMode = Evaluate
&= name "eval"
decodeMode :: TricuArgs
decodeMode = Decode
decodeMode = TDecode
{ file = def
&= help "Optional input file path to attempt decoding.\n \
\ Defaults to stdin."
@ -70,10 +70,10 @@ main = do
(filePath:restFilePaths) -> do
initialEnv <- evaluateFile filePath
finalEnv <- foldM evaluateFileWithContext initialEnv restFilePaths
pure $ result finalEnv
pure $ mainResult finalEnv
let fRes = formatResult form result
putStr fRes
Decode { file = filePaths } -> do
TDecode { file = filePaths } -> do
value <- case filePaths of
[] -> getContents
(filePath:_) -> readFile filePath

2
src/Parser.hs
View File

@ -112,7 +112,7 @@ parseFunctionM = do
_ <- satisfyM (== LAssign)
scnParserM
body <- parseExpressionM
pure (SFunc name (map getIdentifier args) body)
pure (SDef name (map getIdentifier args) body)
parseLambdaM :: ParserM TricuAST
parseLambdaM = do

7
src/REPL.hs
View File

@ -59,10 +59,3 @@ repl env = runInputT defaultSettings (loop env)
strip :: String -> String
strip = dropWhileEnd isSpace . dropWhile isSpace
decodeResult :: T -> String
decodeResult tc
| Right num <- toNumber tc = show num
| Right str <- toString tc = "\"" ++ str ++ "\""
| Right list <- toList tc = "[" ++ intercalate ", " (map decodeResult list) ++ "]"
| otherwise = formatResult TreeCalculus tc

12
src/Research.hs
View File

@ -19,7 +19,7 @@ data TricuAST
| SInt Int
| SStr String
| SList [TricuAST]
| SFunc String [String] TricuAST
| SDef String [String] TricuAST
| SApp TricuAST TricuAST
| TLeaf
| TStem TricuAST
@ -45,7 +45,7 @@ data LToken
deriving (Show, Eq, Ord)
-- Output formats
data EvaluatedForm = TreeCalculus | FSL | AST | Ternary | Ascii
data EvaluatedForm = TreeCalculus | FSL | AST | Ternary | Ascii | Decode
deriving (Show, Data, Typeable)
-- Environment containing previously evaluated TC terms
@ -115,6 +115,7 @@ formatResult FSL = show
formatResult AST = show . toAST
formatResult Ternary = toTernaryString
formatResult Ascii = toAscii
formatResult Decode = decodeResult
toSimpleT :: String -> String
toSimpleT s = T.unpack
@ -147,4 +148,9 @@ toAscii tree = go tree "" True
++ go left (prefix ++ (if isLast then " " else "| ")) False
++ go right (prefix ++ (if isLast then " " else "| ")) True
-- Utility
decodeResult :: T -> String
decodeResult tc
| Right num <- toNumber tc = show num
| Right str <- toString tc = "\"" ++ str ++ "\""
| Right list <- toList tc = "[" ++ intercalate ", " (map decodeResult list) ++ "]"
| otherwise = formatResult TreeCalculus tc

15
test/Spec.hs
View File

@ -85,7 +85,7 @@ parser = testGroup "Parser Tests"
, testCase "Parse function definitions" $ do
let input = "x = (\\a b c : a)"
expect = SFunc "x" [] (SLambda ["a"] (SLambda ["b"] (SLambda ["c"] (SVar "a"))))
expect = SDef "x" [] (SLambda ["a"] (SLambda ["b"] (SLambda ["c"] (SVar "a"))))
parseSingle input @?= expect
, testCase "Parse nested Tree Calculus terms" $ do
@ -105,7 +105,7 @@ parser = testGroup "Parser Tests"
, testCase "Parse function with applications" $ do
let input = "f = (\\x : t x)"
expect = SFunc "f" [] (SLambda ["x"] (SApp TLeaf (SVar "x")))
expect = SDef "f" [] (SLambda ["x"] (SApp TLeaf (SVar "x")))
parseSingle input @?= expect
, testCase "Parse nested lists" $ do
@ -147,7 +147,7 @@ parser = testGroup "Parser Tests"
, testCase "Parse nested parentheses in function body" $ do
let input = "f = (\\x : t (t (t t)))"
expect = SFunc "f" [] (SLambda ["x"] (SApp TLeaf (SApp TLeaf (SApp TLeaf TLeaf))))
expect = SDef "f" [] (SLambda ["x"] (SApp TLeaf (SApp TLeaf (SApp TLeaf TLeaf))))
parseSingle input @?= expect
, testCase "Parse lambda abstractions" $ do
@ -157,12 +157,12 @@ parser = testGroup "Parser Tests"
, testCase "Parse multiple arguments to lambda abstractions" $ do
let input = "x = (\\a b : a)"
expect = SFunc "x" [] (SLambda ["a"] (SLambda ["b"] (SVar "a")))
expect = SDef "x" [] (SLambda ["a"] (SLambda ["b"] (SVar "a")))
parseSingle input @?= expect
, testCase "Grouping T terms with parentheses in function application" $ do
let input = "x = (\\a : a)\nx (t)"
expect = [SFunc "x" [] (SLambda ["a"] (SVar "a")),SApp (SVar "x") TLeaf]
expect = [SDef "x" [] (SLambda ["a"] (SVar "a")),SApp (SVar "x") TLeaf]
parseTricu input @?= expect
, testCase "Comments 1" $ do
@ -488,8 +488,9 @@ fileEval = testGroup "File evaluation tests"
res @?= Fork (Stem Leaf) Leaf
, testCase "Mapping and Equality" $ do
res <- liftIO $ evaluateFileResult "./test/map.tri"
res @?= Stem Leaf
library <- liftIO $ evaluateFile "./lib/base.tri"
fEnv <- liftIO $ evaluateFileWithContext library "./test/map.tri"
(mainResult fEnv) @?= Stem Leaf
, testCase "Eval and decoding string" $ do
library <- liftIO $ evaluateFile "./lib/base.tri"

2
test/comments-1.tri
View File

@ -2,7 +2,7 @@
-- t (t t) (t (t t t))
-- t (t t t) (t t)
-- x = (\a : a)
t (t t) t -- Fork (Stem Leaf) Leaf
main = t (t t) t -- Fork (Stem Leaf) Leaf
-- t t
-- x
-- x = (\a : a)

2
test/fork.tri
View File

@ -1 +1 @@
t t t
main = t t t

24
test/map.tri
View File

@ -1,24 +1,2 @@
false = t
true = t 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)
iC = (\a b c : s a (k c) b)
yi = (\i : b m (c b (i m)))
y = yi iC
triage = (\a b c : t (t a b) c)
pair = t
matchList = (\oe oc : triage oe _ oc)
lconcat = y (\self : matchList (\k : k) (\h r k : pair h (self r k)))
hmap = y (\self : matchList (\f : t) (\hd tl f : pair (f hd) (self tl f)))
map = (\f l : hmap l f)
lAnd = triage (\x : false) (\_ x : x) (\_ _ x : x)
lOr = triage (\x : x) (\_ _ : true) (\_ _ x : true)
equal = y (\self : triage (triage true (\z : false) (\y z : false)) (\ax : triage false (self ax) (\y z : false)) (\ax ay : triage false (\z : false) (\bx by : lAnd (self ax bx) (self ay by))))
x = map (\i : lconcat "Successfully concatenated " i) [("two strings!")]
equal x [("Successfully concatenated two strings!")]
main = equal? x [("Successfully concatenated two strings!")]

21
test/size.tri Normal file
View File

@ -0,0 +1,21 @@
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
(triage
(\x : x)
self
(\x y : compose (self x) (self y))
x)) x 0))
size size

1
test/undefined.tri Normal file
View File

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

2
tricu.cabal
View File

@ -1,7 +1,7 @@
cabal-version: 1.12
name: tricu
version: 0.9.0
version: 0.11.0
description: A micro-language for exploring Tree Calculus
author: James Eversole
maintainer: james@eversole.co