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Author SHA1 Message Date
James Eversole
33c2119708 Don't require available library to run REPL or decoder
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2025-01-27 16:28:40 -06:00
James Eversole
3b833ca75b Gracefully ignore no-op redefs
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2025-01-27 16:19:59 -06:00
James Eversole
203bc1898d README typo 2025-01-27 16:07:32 -06:00
James Eversole
87aed72ab2 # Modules
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Basic implementation of a module system including tests.
 2025-01-27 16:04:04 -06:00
James Eversole
f71f88dce3 Small dependency ordering optimizations 2025-01-26 16:08:34 -06:00
James Eversole
918d929c09 # File eval mode now relies on main function
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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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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
James Eversole
e2621bc09d Allow lambda expressions without explicit paren
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2025-01-26 08:52:28 -06:00
James Eversole
ea128929da Add optimization cases for triage and composition 2025-01-25 15:12:28 -06:00
James Eversole
2bd388c871 Eval optimization! Tests for demos
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2025-01-25 09:18:13 -06:00
35 changed files with 706 additions and 354 deletions
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12
.gitea/workflows/test-and-build.yml
View File

@ -55,15 +55,11 @@ jobs:
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: '${{ secrets.RELEASE_TOKEN }}'
pre_release: true
token: '${{ secrets.RELEASE_TOKEN }}'
body: '${{ gitea.event.head_commit.message }}'
prerelease: true

9
README.md
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@ -2,7 +2,7 @@
## 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 (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 is the word for "tree" in Lojban: `(x1) is a tree of species/cultivar (x2)`.
@ -10,12 +10,13 @@ tricu is the word for "tree" in Lojban: `(x1) is a tree of species/cultivar (x2)
- Tree Calculus operator: `t`
- Assignments: `x = t t`
- Immutable definitions
- 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")]`
- Intensionality blurs the distinction between functions and data (see REPL examples)
- Immutability
- Simple module system for code organization
## REPL examples
@ -44,7 +45,7 @@ tricu > 12
[Releases are available for Linux.](https://git.eversole.co/James/tricu/releases)
Or you can easily build and/or run this project using [Nix](https://nixos.org/download/).
Or you can easily build and run this project using [Nix](https://nixos.org/download/).
- Quick Start (REPL):
- `nix run git+https://git.eversole.co/James/tricu`
@ -71,7 +72,7 @@ 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]

30
demos/equality.tri
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@ -1,19 +1,25 @@
!module Equality
!import "lib/base.tri" Lib
main = lambdaEqualsTC
-- We represent `false` with a Leaf and `true` with a Stem Leaf
false = t
true = t t
demo_false = t
demo_true = t t
-- Tree Calculus representation of the Boolean `not` function
not_TC? = t (t (t t) (t t t)) (t t (t t t))
-- /demos/toSource.tri contains an explanation of `triage`
triage = (\a b c : t (t a b) c)
matchBool = (\ot of : triage
demo_triage = \a b c : t (t a b) c
demo_matchBool = (\ot of : demo_triage
of
(\_ : ot)
(\_ _ : ot)
)
-- Lambda representation of the Boolean `not` function
not_Lambda? = matchBool false true
not_Lambda? = demo_matchBool demo_false demo_true
-- Since tricu eliminates Lambda terms to SKI combinators, the tree form of many
-- functions defined via Lambda terms are larger than the most efficient TC
@ -22,14 +28,14 @@ not_Lambda? = matchBool false true
-- to different tree representations even if they share extensional behavior.
-- Let's see if these are the same:
lambdaEqualsTC = equal? not_TC? not_Lambda?
lambdaEqualsTC = Lib.equal? not_TC? not_Lambda?
-- Here are some checks to verify their extensional behavior is the same:
true_TC? = not_TC? false
false_TC? = not_TC? true
true_TC? = not_TC? demo_false
false_TC? = not_TC? demo_true
true_Lambda? = not_Lambda? false
false_Lambda? = not_Lambda? true
true_Lambda? = not_Lambda? demo_false
false_Lambda? = not_Lambda? demo_true
bothTrueEqual? = equal? true_TC? true_Lambda?
bothFalseEqual? = equal? false_TC? false_Lambda?
bothTrueEqual? = Lib.equal? true_TC? true_Lambda?
bothFalseEqual? = Lib.equal? false_TC? false_Lambda?

54
demos/levelOrderTraversal.tri
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@ -1,11 +1,14 @@
!module LOT
!import "lib/base.tri" Lib
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
-- 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 is equivalent to a single node `t`.
-- 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]]]]
@ -15,43 +18,42 @@
-- 2 3
-- / / \
-- 4 5 6
--
label = (\node : head node)
label = \node : Lib.head node
left = (\node : if (emptyList node)
left = (\node : Lib.if (Lib.emptyList? node)
[]
(if (emptyList (tail node))
(Lib.if (Lib.emptyList? (Lib.tail node))
[]
(head (tail node))))
(Lib.head (Lib.tail node))))
right = (\node : if (emptyList node)
right = (\node : Lib.if (Lib.emptyList? node)
[]
(if (emptyList (tail node))
(Lib.if (Lib.emptyList? (Lib.tail node))
[]
(if (emptyList (tail (tail node)))
(Lib.if (Lib.emptyList? (Lib.tail (Lib.tail node)))
[]
(head (tail (tail node))))))
(Lib.head (Lib.tail (Lib.tail node))))))
processLevel = y (\self queue : if (emptyList queue)
processLevel = Lib.y (\self queue : Lib.if (Lib.emptyList? queue)
[]
(pair (map label queue) (self (filter
(\node : not (emptyList node))
(lconcat (map left queue) (map right 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))))))
levelOrderTraversal_ = (\a : processLevel (t a t))
levelOrderTraversal_ = \a : processLevel (t a t)
toLineString = y (\self levels : if (emptyList levels)
toLineString = Lib.y (\self levels : Lib.if (Lib.emptyList? levels)
""
(lconcat
(lconcat (map (\x : lconcat x " ") (head levels)) "")
(if (emptyList (tail levels)) "" (lconcat (t (t 10 t) t) (self (tail 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))))))
levelOrderToString = (\s : toLineString (levelOrderTraversal_ s))
levelOrderToString = \s : toLineString (levelOrderTraversal_ s)
flatten = foldl (\acc x : lconcat acc x) ""
flatten = Lib.foldl (\acc x : Lib.lconcat acc x) ""
levelOrderTraversal = (\s : lconcat (t 10 t) (flatten (levelOrderToString s)))
levelOrderTraversal = \s : Lib.lconcat (t 10 t) (flatten (levelOrderToString s))
exampleOne = levelOrderTraversal [("1")
[("2") [("4") t t] t]
@ -61,5 +63,3 @@ 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

20
demos/size.tri
View File

@ -1,18 +1,24 @@
compose = (\f g x : f (g x))
!module Size
succ = y (\self :
triage
!import "lib/base.tri" Lib
main = size size
compose = \f g x : f (g x)
succ = Lib.y (\self :
Lib.triage
1
t
(triage
(Lib.triage
(t (t t))
(\_ tail : t t (self tail))
(\_ Lib.tail : t t (self Lib.tail))
t))
size = (\x :
(y (\self x :
(Lib.y (\self x :
compose succ
(triage
(Lib.triage
(\x : x)
self
(\x y : compose (self x) (self y))

43
demos/toSource.tri
View File

@ -1,3 +1,8 @@
!module ToSource
!import "lib/base.tri" Lib
main = toSource Lib.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.
@ -8,39 +13,39 @@
-- the Tree Calculus term, `triage` enables branching logic based on the term's
-- shape, making it possible to perform structure-specific operations such as
-- reconstructing the terms' source code representation.
triage = (\leaf stem fork : t (t leaf stem) fork)
-- triage = (\leaf stem fork : t (t leaf stem) fork)
-- Base case of a single Leaf
sourceLeaf = t (head "t")
sourceLeaf = t (Lib.head "t")
-- Stem case
sourceStem = (\convert : (\a 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.
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.
-- Fork case
sourceFork = (\convert : (\a b 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.
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.
-- Wrapper around triage
toSource_ = y (\self arg :
triage
toSource_ = Lib.y (\self arg :
Lib.triage
sourceLeaf -- `triage` "a" case, Leaf
(sourceStem self) -- `triage` "b" case, Stem
(sourceFork self) -- `triage` "c" case, Fork
arg) -- The term to be inspected
-- toSource takes a single TC term and returns a String
toSource = (\v : toSource_ v "")
toSource = \v : toSource_ v ""
exampleOne = toSource true -- OUT: "(t t)"
exampleTwo = toSource not? -- OUT: "(t (t (t t) (t t t)) (t t (t t t)))"
exampleOne = toSource Lib.true -- OUT: "(t t)"
exampleTwo = toSource Lib.not? -- OUT: "(t (t (t t) (t t t)) (t t (t t t)))"

43
lib/base.tri
View File

@ -7,18 +7,15 @@ 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)
iD = b (b iC) iC
iE = b (b iD) iC
yi = (\i : b m (c b (i m)))
y = yi iC
yC = yi iD
yD = yi iE
id = (\a : a)
id = \a : a
pair = t
if = (\cond then else : t (t else (t t then)) t cond)
if = \cond then else : t (t else (t t then)) t cond
triage = (\leaf stem fork : t (t leaf stem) fork)
y = ((\mut wait fun : wait mut (\x : fun (wait mut x)))
(\x : x x)
(\a0 a1 a2 : t (t a0) (t t a2) a1))
triage = \leaf stem fork : t (t leaf stem) fork
test = triage "Leaf" (\_ : "Stem") (\_ _ : "Fork")
matchBool = (\ot of : triage
@ -27,17 +24,9 @@ matchBool = (\ot of : triage
(\_ _ : ot)
)
matchList = (\oe oc : triage
oe
_
oc
)
matchList = \a b : triage a _ b
matchPair = (\op : triage
_
_
op
)
matchPair = \a : triage _ _ a
not? = matchBool false true
and? = matchBool id (\_ : false)
@ -53,20 +42,18 @@ lconcat = y (\self : matchList
lAnd = (triage
(\_ : false)
(\_ x : x)
(\_ _ x : x)
)
(\_ _ x : x))
lOr = (triage
(\x : x)
(\_ _ : true)
(\_ _ _ : true)
)
(\_ _ _ : true))
map_ = y (\self :
matchList
(\_ : t)
(\head tail f : pair (f head) (self tail f)))
map = (\f l : map_ l f)
map = \f l : map_ l f
equal? = y (\self : triage
(triage
@ -87,10 +74,10 @@ equal? = y (\self : triage
filter_ = y (\self : matchList
(\_ : t)
(\head tail f : matchBool (t head) i (f head) (self tail f)))
filter = (\f l : filter_ l 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)
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)
foldr = \f x l : foldr_ x f l

188
src/Eval.hs
View File

@ -3,38 +3,43 @@ 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 =
if
| Map.member name env ->
errorWithoutStackTrace $
"Error: Identifier '" ++ name ++ "' is already defined."
| otherwise ->
let res = evalAST env body
in Map.insert "__result" res (Map.insert name res env)
| SApp func arg <- term =
let res = apply (evalAST env func) (evalAST env arg)
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"
| otherwise =
Map.insert "__result" (evalAST env term) env
| SDef name [] body <- term
= case Map.lookup name env of
Just existingValue
| existingValue == evalAST env body -> env
| otherwise -> errorWithoutStackTrace $
"Unable to rebind immutable identifier: '" ++ name
Nothing ->
let res = evalAST env body
in Map.insert "!result" res (Map.insert name res env)
| SApp func arg <- term
= let res = apply (evalAST env func) (evalAST env arg)
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\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
@ -54,16 +59,29 @@ evalAST env term
(errorWithoutStackTrace $ "Variable " ++ name ++ " not defined")
name env
-- https://github.com/barry-jay-personal/typed_tree_calculus/blob/main/typed_program_analysis.pdf
-- Chapter 4: Lambda-Abstraction
elimLambda :: TricuAST -> TricuAST
elimLambda = go
where
-- η-reduction
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)))
| 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)))
| body == composeBody = _COMPOSE
where
composeBody = SApp (SVar f) (SApp (SVar g) (SVar x))
-- General elimination
go (SLambda (v:vs) body)
| null vs = toSKI v (elimLambda body)
| otherwise = elimLambda (SLambda [v] (SLambda vs body))
go (SApp f g) = SApp (elimLambda f) (elimLambda g)
go x = x
| null vs = toSKI v (elimLambda body)
| otherwise = elimLambda (SLambda [v] (SLambda vs body))
go (SApp f g) = SApp (elimLambda f) (elimLambda g)
go x = x
toSKI x (SVar y)
| x == y = _I
@ -73,25 +91,101 @@ elimLambda = go
| otherwise = SApp (SApp _S (toSKI x n)) (toSKI x u)
toSKI x t
| not (isFree x t) = SApp _K t
| otherwise = SApp (SApp _S (toSKI x t)) TLeaf
| otherwise = errorWithoutStackTrace "Unhandled toSKI conversion"
_S = parseSingle "t (t (t t t)) t"
_K = parseSingle "t t"
_I = parseSingle "t (t (t t)) t"
_S = parseSingle "t (t (t t t)) t"
_K = parseSingle "t t"
_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
freeVars _ = Set.empty
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
defNames = [ name | SDef name _ _ <- defsOnly ]
defsWithFreeVars = [(def, freeVars body) | def@(SDef _ _ body) <- defsOnly]
graph = buildDepGraph defsOnly
sortedDefs = sortDeps graph
defMap = Map.fromList [(name, def) | def@(SDef name _ _) <- defsOnly]
orderedDefs = map (\name -> defMap Map.! name) sortedDefs
freeVarsDefs = foldMap snd defsWithFreeVars
freeVarsOthers = foldMap freeVars others
allFreeVars = freeVarsDefs <> freeVarsOthers
validNames = Set.fromList defNames `Set.union` Set.fromList (Map.keys env)
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 [] Set.empty (Map.keys graph)
where
go sorted sortedSet [] = sorted
go sorted sortedSet remaining =
let ready = [ name | name <- remaining
, let deps = Map.findWithDefault Set.empty name graph
, Set.isSubsetOf deps sortedSet ]
notReady = remaining \\ ready
in if null ready
then errorWithoutStackTrace
"ERROR: Cyclic dependency detected and prohibited.\n\
\RESOLVE: Use nested lambdas."
else go (sorted ++ ready)
(Set.union sortedSet (Set.fromList ready))
notReady
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
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."

138
src/FileEval.hs
View File

@ -1,30 +1,150 @@
module FileEval where
import Eval
import Lexer
import Parser
import Research
import Data.List (partition)
import Control.Monad (foldM)
import System.IO
import qualified Data.Map as Map
import qualified Data.Set as Set
evaluateFileResult :: FilePath -> IO T
evaluateFileResult filePath = do
contents <- readFile filePath
let asts = parseTricu contents
let finalEnv = evalTricu Map.empty asts
case Map.lookup "__result" finalEnv of
Just finalResult -> return finalResult
Nothing -> errorWithoutStackTrace "No expressions to evaluate found"
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
ast <- preprocessFile filePath
let finalEnv = mainAlias moduleName $ evalTricu Map.empty ast
case Map.lookup "main" finalEnv of
Just finalResult -> return finalResult
Nothing -> errorWithoutStackTrace "No `main` function detected"
evaluateFile :: FilePath -> IO Env
evaluateFile filePath = do
contents <- readFile filePath
let asts = parseTricu contents
pure $ evalTricu Map.empty asts
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
ast <- preprocessFile filePath
pure $ mainAlias moduleName $ evalTricu Map.empty ast
evaluateFileWithContext :: Env -> FilePath -> IO Env
evaluateFileWithContext env filePath = do
contents <- readFile filePath
let asts = parseTricu contents
pure $ evalTricu env asts
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
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
preprocessFile :: FilePath -> IO [TricuAST]
preprocessFile filePath = preprocessFile' Set.empty filePath
preprocessFile' :: Set.Set FilePath -> FilePath -> IO [TricuAST]
preprocessFile' inProgress filePath
| filePath `Set.member` inProgress =
errorWithoutStackTrace $ "Encountered cyclic import: " ++ filePath
| otherwise = do
contents <- readFile filePath
let tokens = lexTricu contents
case parseProgram tokens of
Left err -> errorWithoutStackTrace (handleParseError err)
Right asts -> do
let (moduleName, restAST) = extractModule asts
let (imports, nonImports) = partition isImport restAST
let newInProgress = Set.insert filePath inProgress
importedASTs <- concat <$> mapM (processImport newInProgress) imports
let namespacedAST = namespaceDefinitions moduleName nonImports
pure $ importedASTs ++ namespacedAST
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"
namespaceDefinitions :: String -> [TricuAST] -> [TricuAST]
namespaceDefinitions moduleName = map (namespaceDefinition 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
namespaceBody :: String -> TricuAST -> TricuAST
namespaceBody 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
namespaceBodyScoped :: String -> [String] -> TricuAST -> TricuAST
namespaceBodyScoped 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)
SDef name innerArgs innerBody ->
SDef (namespaceVariable moduleName name) innerArgs (namespaceBodyScoped 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

62
src/Lexer.hs
View File

@ -20,11 +20,11 @@ identifier = do
first <- letterChar <|> char '_'
rest <- many $ letterChar
<|> digitChar
<|> char '_' <|> char '-' <|> char '?' <|> char '!'
<|> char '_' <|> 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"
if (name == "t" || name == "!result")
then fail "Keywords (`t`, `!result`) cannot be used as an identifier"
else return (LIdentifier name)
integerLiteral :: Lexer LToken
@ -39,6 +39,22 @@ stringLiteral = do
char '"' --"
return (LStringLiteral content)
lModule :: Lexer LToken
lModule = do
_ <- string "!module"
space1
LIdentifier moduleName <- identifier
return (LModule moduleName)
lImport :: Lexer LToken
lImport = do
_ <- string "!import"
space1
LStringLiteral path <- stringLiteral
space1
LIdentifier name <- identifier
return (LImport path name)
assign :: Lexer LToken
assign = char '=' *> pure LAssign
@ -72,28 +88,36 @@ sc = space
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 tokens
where
tricuLexer' =
[ try lnewline
, try identifier
, try keywordT
, try integerLiteral
, try stringLiteral
, assign
, colon
, backslash
, openParen
, closeParen
, openBracket
, closeBracket
]
pure (header ++ tokens)
where
tricuLexer' =
[ try lnewline
, 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

18
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."
@ -60,8 +60,7 @@ main = do
Repl -> do
putStrLn "Welcome to the tricu REPL"
putStrLn "You can exit with `CTRL+D` or the `:_exit` command.`"
library <- liftIO $ evaluateFile "./lib/base.tri"
repl $ Map.delete "__result" library
repl Map.empty
Evaluate { file = filePaths, form = form } -> do
result <- case filePaths of
[] -> do
@ -70,15 +69,14 @@ 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
library <- liftIO $ evaluateFile "./lib/base.tri"
putStrLn $ decodeResult $ result $ evalTricu library $ parseTricu value
putStrLn $ decodeResult $ result $ evalTricu Map.empty $ parseTricu value
runTricu :: String -> T
runTricu input =

120
src/Parser.hs
View File

@ -74,9 +74,33 @@ parseSingle input =
parseProgramM :: ParserM [TricuAST]
parseProgramM = do
skipMany topLevelNewline
moduleNode <- optional parseModuleM
skipMany topLevelNewline
importNodes <- many (do
node <- parseImportM
skipMany topLevelNewline
return node)
skipMany topLevelNewline
exprs <- sepEndBy parseOneExpression (some topLevelNewline)
skipMany topLevelNewline
return exprs
return (maybe [] (: []) moduleNode ++ importNodes ++ exprs)
parseModuleM :: ParserM TricuAST
parseModuleM = do
LModule moduleName <- satisfyM isModule
pure (SModule moduleName)
where
isModule (LModule _) = True
isModule _ = False
parseImportM :: ParserM TricuAST
parseImportM = do
LImport filePath moduleName <- satisfyM isImport
pure (SImport filePath moduleName)
where
isImport (LImport _ _) = True
isImport _ = False
parseOneExpression :: ParserM TricuAST
parseOneExpression = scnParserM *> parseExpressionM
@ -85,13 +109,10 @@ scnParserM :: ParserM ()
scnParserM = skipMany $ do
t <- lookAhead anySingle
st <- get
if | (parenDepth st > 0 || bracketDepth st > 0) && case t of
LNewline -> True
_ -> False -> void $ satisfyM $ \case
LNewline -> True
_ -> False
| otherwise -> fail "In nested context or no space token" <|> empty
if | (parenDepth st > 0 || bracketDepth st > 0) && (t == LNewline) ->
void $ satisfyM (== LNewline)
| otherwise ->
fail "In nested context or no space token" <|> empty
eofM :: ParserM ()
eofM = lift eof
@ -109,32 +130,23 @@ parseExpressionM = choice
parseFunctionM :: ParserM TricuAST
parseFunctionM = do
LIdentifier name <- satisfyM $ \case
LIdentifier _ -> True
_ -> False
args <- many $ satisfyM $ \case
LIdentifier _ -> True
_ -> False
let ident = (\case LIdentifier _ -> True; _ -> False)
LIdentifier name <- satisfyM ident
args <- many $ satisfyM ident
_ <- satisfyM (== LAssign)
scnParserM
body <- parseExpressionM
pure (SFunc name (map getIdentifier args) body)
pure (SDef name (map getIdentifier args) body)
parseLambdaM :: ParserM TricuAST
parseLambdaM =
between (satisfyM (== LOpenParen)) (satisfyM (== LCloseParen)) $ do
_ <- satisfyM (== LBackslash)
param <- satisfyM $ \case
LIdentifier _ -> True
_ -> False
rest <- many $ satisfyM $ \case
LIdentifier _ -> True
_ -> False
_ <- satisfyM (== LColon)
scnParserM
body <- parseLambdaExpressionM
let nested = foldr (\v acc -> SLambda [getIdentifier v] acc) body rest
pure (SLambda [getIdentifier param] nested)
parseLambdaM = do
let ident = (\case LIdentifier _ -> True; _ -> False)
_ <- satisfyM (== LBackslash)
params <- some (satisfyM ident)
_ <- satisfyM (== LColon)
scnParserM
body <- parseLambdaExpressionM
pure $ foldr (\param acc -> SLambda [getIdentifier param] acc) body params
parseLambdaExpressionM :: ParserM TricuAST
parseLambdaExpressionM = choice
@ -180,9 +192,8 @@ parseAtomicBaseM = choice
parseTreeLeafM :: ParserM TricuAST
parseTreeLeafM = do
_ <- satisfyM $ \case
LKeywordT -> True
_ -> False
let keyword = (\case LKeywordT -> True; _ -> False)
_ <- satisfyM keyword
notFollowedBy $ lift $ satisfy (== LAssign)
pure TLeaf
@ -248,37 +259,38 @@ parseGroupedItemM = do
parseSingleItemM :: ParserM TricuAST
parseSingleItemM = do
token <- satisfyM $ \case
LIdentifier _ -> True
LKeywordT -> True
_ -> False
case token of
LIdentifier name -> pure (SVar name)
LKeywordT -> pure TLeaf
_ -> fail "Unexpected token in list item"
token <- satisfyM (\case LIdentifier _ -> True; LKeywordT -> True; _ -> False)
if | LIdentifier name <- token -> pure (SVar name)
| token == LKeywordT -> pure TLeaf
| otherwise -> fail "Unexpected token in list item"
parseVarM :: ParserM TricuAST
parseVarM = do
LIdentifier name <- satisfyM $ \case
LIdentifier _ -> True
_ -> False
if name == "t" || name == "__result"
then fail ("Reserved keyword: " ++ name ++ " cannot be assigned.")
else pure (SVar name)
satisfyM (\case LIdentifier _ -> True; _ -> False) >>= \case
LIdentifier name
| name == "t" || name == "!result" ->
fail ("Reserved keyword: " ++ name ++ " cannot be assigned.")
| otherwise ->
pure (SVar name)
_ -> fail "Unexpected token while parsing variable"
parseIntLiteralM :: ParserM TricuAST
parseIntLiteralM = do
LIntegerLiteral value <- satisfyM $ \case
LIntegerLiteral _ -> True
_ -> False
pure (SInt value)
let intL = (\case LIntegerLiteral _ -> True; _ -> False)
token <- satisfyM intL
if | LIntegerLiteral value <- token ->
pure (SInt value)
| otherwise ->
fail "Unexpected token while parsing integer literal"
parseStrLiteralM :: ParserM TricuAST
parseStrLiteralM = do
LStringLiteral value <- satisfyM $ \case
LStringLiteral _ -> True
_ -> False
pure (SStr value)
let strL = (\case LStringLiteral _ -> True; _ -> False)
token <- satisfyM strL
if | LStringLiteral value <- token ->
pure (SStr value)
| otherwise ->
fail "Unexpected token while parsing string literal"
getIdentifier :: LToken -> String
getIdentifier (LIdentifier name) = name

13
src/REPL.hs
View File

@ -26,7 +26,7 @@ repl env = runInputT defaultSettings (loop env)
| Just s <- minput, strip s == "" -> do
outputStrLn ""
loop env
| Just s <- minput, strip s == "!load" -> do
| Just s <- minput, strip s == "!import" -> do
path <- getInputLine "File path to load < "
if
| Nothing <- path -> do
@ -34,7 +34,7 @@ repl env = runInputT defaultSettings (loop env)
loop env
| Just p <- path -> do
loadedEnv <- liftIO $ evaluateFileWithContext env (strip p) `catch` \e -> errorHandler env e
loop $ Map.delete "__result" (Map.union loadedEnv env)
loop $ Map.delete "!result" (Map.union loadedEnv env)
| Just s <- minput -> do
if
| take 2 s == "--" -> loop env
@ -47,7 +47,7 @@ repl env = runInputT defaultSettings (loop env)
let asts = parseTricu input
newEnv = evalTricu env asts
if
| Just r <- Map.lookup "__result" newEnv -> do
| Just r <- Map.lookup "!result" newEnv -> do
putStrLn $ "tricu > " ++ decodeResult r
| otherwise -> return ()
return newEnv
@ -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

16
src/Research.hs
View File

@ -19,13 +19,15 @@ data TricuAST
| SInt Int
| SStr String
| SList [TricuAST]
| SFunc String [String] TricuAST
| SDef String [String] TricuAST
| SApp TricuAST TricuAST
| TLeaf
| TStem TricuAST
| TFork TricuAST TricuAST
| SLambda [String] TricuAST
| SEmpty
| SModule String
| SImport String String
deriving (Show, Eq, Ord)
-- Lexer Tokens
@ -42,10 +44,12 @@ data LToken
| LOpenBracket
| LCloseBracket
| LNewline
| LModule String
| LImport String String
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 +119,7 @@ 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 +152,9 @@ 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

116
test/Spec.hs
View File

@ -7,12 +7,13 @@ import Parser
import REPL
import Research
import Control.Exception (evaluate, try, SomeException)
import Control.Exception (evaluate, try, SomeException)
import Control.Monad.IO.Class (liftIO)
import Data.List (isInfixOf)
import Test.Tasty
import Test.Tasty.HUnit
import Test.Tasty.QuickCheck
import Text.Megaparsec (runParser)
import Text.Megaparsec (runParser)
import qualified Data.Map as Map
import qualified Data.Set as Set
@ -25,16 +26,18 @@ runTricu s = show $ result (evalTricu Map.empty $ parseTricu s)
tests :: TestTree
tests = testGroup "Tricu Tests"
[ lexerTests
, parserTests
, evaluationTests
, lambdaEvalTests
, libraryTests
, fileEvaluationTests
[ lexer
, parser
, simpleEvaluation
, lambdas
, baseLibrary
, fileEval
, modules
, demos
]
lexerTests :: TestTree
lexerTests = testGroup "Lexer Tests"
lexer :: TestTree
lexer = testGroup "Lexer Tests"
[ testCase "Lex simple identifiers" $ do
let input = "x a b = a"
expect = Right [LIdentifier "x", LIdentifier "a", LIdentifier "b", LAssign, LIdentifier "a"]
@ -69,13 +72,13 @@ lexerTests = testGroup "Lexer Tests"
Right i -> i @?= expect
, testCase "Error when using invalid characters in identifiers" $ do
case (runParser tricuLexer "" "__result = 5") of
case (runParser tricuLexer "" "!result = 5") of
Left _ -> return ()
Right _ -> assertFailure "Expected failure when trying to assign the value of __result"
Right _ -> assertFailure "Expected failure when trying to assign the value of !result"
]
parserTests :: TestTree
parserTests = testGroup "Parser Tests"
parser :: TestTree
parser = testGroup "Parser Tests"
[ testCase "Error when assigning a value to T" $ do
let tokens = lexTricu "t = x"
case parseSingleExpr tokens of
@ -84,7 +87,7 @@ parserTests = 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
@ -104,7 +107,7 @@ parserTests = 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
@ -146,7 +149,7 @@ parserTests = 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
@ -156,12 +159,12 @@ parserTests = 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
@ -175,8 +178,8 @@ parserTests = testGroup "Parser Tests"
parseTricu input @?= expect
]
evaluationTests :: TestTree
evaluationTests = testGroup "Evaluation Tests"
simpleEvaluation :: TestTree
simpleEvaluation = testGroup "Evaluation Tests"
[ testCase "Evaluate single Leaf" $ do
let input = "t"
let ast = parseSingle input
@ -244,7 +247,7 @@ evaluationTests = testGroup "Evaluation Tests"
(result env) @?= (Stem (Stem Leaf))
, testCase "Evaluate variable shadowing" $ do
, testCase "Immutable definitions" $ do
let input = "x = t t\nx = t\nx"
env = evalTricu Map.empty (parseTricu input)
result <- try (evaluate (runTricu input)) :: IO (Either SomeException String)
@ -260,8 +263,8 @@ evaluationTests = testGroup "Evaluation Tests"
result env @?= Fork (Fork (Stem Leaf) (Fork Leaf Leaf)) Leaf
]
lambdaEvalTests :: TestTree
lambdaEvalTests = testGroup "Lambda Evaluation Tests"
lambdas :: TestTree
lambdas = testGroup "Lambda Evaluation Tests"
[ testCase "Lambda Identity Function" $ do
let input = "id = (\\x : x)\nid t"
runTricu input @?= "Leaf"
@ -340,8 +343,8 @@ lambdaEvalTests = testGroup "Lambda Evaluation Tests"
runTricu input @?= "Fork Leaf (Fork (Stem Leaf) Leaf)"
]
libraryTests :: TestTree
libraryTests = testGroup "Library Tests"
baseLibrary :: TestTree
baseLibrary = testGroup "Library Tests"
[ testCase "K combinator 1" $ do
library <- evaluateFile "./lib/base.tri"
let input = "k (t) (t t)"
@ -476,8 +479,8 @@ libraryTests = testGroup "Library Tests"
result env @?= Stem Leaf
]
fileEvaluationTests :: TestTree
fileEvaluationTests = testGroup "Evaluation tests"
fileEval :: TestTree
fileEval = testGroup "File evaluation tests"
[ testCase "Forks" $ do
res <- liftIO $ evaluateFileResult "./test/fork.tri"
res @?= Fork Leaf Leaf
@ -487,11 +490,64 @@ fileEvaluationTests = testGroup "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"
res <- liftIO $ evaluateFileWithContext library "./test/string.tri"
decodeResult (result res) @?= "\"String test!\""
]
modules :: TestTree
modules = testGroup "Test modules"
[ testCase "Detect cyclic dependencies" $ do
result <- try (liftIO $ evaluateFileResult "./test/cycle-1.tri") :: IO (Either SomeException T)
case result of
Left e -> do
let errorMsg = show e
if "Encountered cyclic import" `isInfixOf` errorMsg
then return ()
else assertFailure $ "Unexpected error: " ++ errorMsg
Right _ -> assertFailure "Expected cyclic dependencies"
, testCase "Module imports and namespacing" $ do
res <- liftIO $ evaluateFileResult "./test/namespace-A.tri"
res @?= Leaf
, testCase "Multiple imports" $ do
res <- liftIO $ evaluateFileResult "./test/vars-A.tri"
res @?= Leaf
, testCase "Error on unresolved variable" $ do
result <- try (liftIO $ evaluateFileResult "./test/unresolved-A.tri") :: IO (Either SomeException T)
case result of
Left e -> do
let errorMsg = show e
if "undefinedVar" `isInfixOf` errorMsg
then return ()
else assertFailure $ "Unexpected error: " ++ errorMsg
Right _ -> assertFailure "Expected unresolved variable error"
, testCase "Multi-level imports" $ do
res <- liftIO $ evaluateFileResult "./test/multi-level-A.tri"
res @?= Leaf
, testCase "Lambda expression namespaces" $ do
res <- liftIO $ evaluateFileResult "./test/lambda-A.tri"
res @?= Leaf
]
-- All of our demo tests are also module tests
demos :: TestTree
demos = testGroup "Test provided demo functionality"
[ testCase "Structural equality demo" $ do
res <- liftIO $ evaluateFileResult "./demos/equality.tri"
decodeResult res @?= "t t"
, testCase "Convert values back to source code demo" $ do
res <- liftIO $ evaluateFileResult "./demos/toSource.tri"
decodeResult res @?= "\"(t (t (t t) (t t t)) (t t (t t t)))\""
, testCase "Determining the size of functions" $ do
res <- liftIO $ evaluateFileResult "./demos/size.tri"
decodeResult res @?= "454"
, testCase "Level Order Traversal demo" $ do
res <- liftIO $ evaluateFileResult "./demos/levelOrderTraversal.tri"
decodeResult res @?= "\"\n1 \n2 3 \n4 5 6 7 \n8 11 10 9 12 \""
]

2
test/comments-1.tri
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@ -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)

5
test/cycle-1.tri Normal file
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@ -0,0 +1,5 @@
!module Cycle
!import "test/cycle-2.tri" Cycle2
cycle1 = t Cycle2.cycle2

5
test/cycle-2.tri Normal file
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@ -0,0 +1,5 @@
!module Cycle2
!import "test/cycle-1.tri" Cycle1
cycle2 = t Cycle1.cycle1

2
test/fork.tri
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@ -1 +1 @@
t t t
main = t t t

2
test/lambda-A.tri Normal file
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@ -0,0 +1,2 @@
!module A
main = (\x : x) t

24
test/map.tri
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@ -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!")]

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

1
test/modules-2.tri Normal file
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@ -0,0 +1 @@
n = t t t

3
test/multi-level-A.tri Normal file
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@ -0,0 +1,3 @@
!module A
!import "./test/multi-level-B.tri" B
main = B.main

3
test/multi-level-B.tri Normal file
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@ -0,0 +1,3 @@
!module B
!import "./test/multi-level-C.tri" C
main = C.val

2
test/multi-level-C.tri Normal file
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@ -0,0 +1,2 @@
!module C
val = t

3
test/namespace-A.tri Normal file
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@ -0,0 +1,3 @@
!module A
!import "./test/namespace-B.tri" B
main = B.x

2
test/namespace-B.tri Normal file
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@ -0,0 +1,2 @@
!module B
x = t

21
test/size.tri Normal file
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@ -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
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@ -0,0 +1 @@
namedTerm = undefinedForTesting

2
test/unresolved-A.tri Normal file
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@ -0,0 +1,2 @@
!module A
main = undefinedVar

7
test/vars-A.tri Normal file
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@ -0,0 +1,7 @@
!module A
!import "./test/vars-B.tri" B
!import "./test/vars-C.tri" C
main = B.y (C.z)

2
test/vars-B.tri Normal file
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@ -0,0 +1,2 @@
!module B
y = \x : x

2
test/vars-C.tri Normal file
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@ -0,0 +1,2 @@
!module C
z = t

2
tricu.cabal
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@ -1,7 +1,7 @@
cabal-version: 1.12
name: tricu
version: 0.7.0
version: 0.12.0
description: A micro-language for exploring Tree Calculus
author: James Eversole
maintainer: james@eversole.co