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Add layout grammar

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This commit is contained in:
Martin Fredin 2023-04-03 09:24:13 +02:00
parent bd02f52795
commit cc5755c3a9
5 changed files with 155 additions and 176 deletions
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236
tests/TestTypeCheckerBidir.hs
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@ -10,6 +10,7 @@ import Test.Hspec
import Control.Monad ((<=<))
import Grammar.ErrM (Err, pattern Bad, pattern Ok)
import Grammar.Layout (resolveLayout)
import Grammar.Par (myLexer, pProgram)
import Renamer.Renamer (rename)
import TypeChecker.RemoveTEVar (RemoveTEVar (rmTEVar))
@ -38,52 +39,52 @@ testTypeCheckerBidir = describe "Bidirectional type checker test" $ do
tc_id =
specify "Basic identity function polymorphism" $
run
[ "id : forall a. a -> a;"
, "id x = x;"
, "main = id 4;"
[ "id : forall a. a -> a"
, "id x = x"
, "main = id 4"
]
`shouldSatisfy` ok
tc_double =
specify "Addition inference" $
run
["double x = x + x;"]
["double x = x + x"]
`shouldSatisfy` ok
tc_add_lam =
specify "Addition lambda inference" $
run
["four = (\\x. x + x) 2;"]
["four = (\\x. x + x) 2"]
`shouldSatisfy` ok
tc_const =
specify "Basic polymorphism with multiple type variables" $
run
[ "const : forall a. forall b. a -> b -> a;"
, "const x y = x;"
, "main = const 'a' 65;"
[ "const : forall a. forall b. a -> b -> a"
, "const x y = x"
, "main = const 'a' 65"
]
`shouldSatisfy` ok
tc_simple_rank2 =
specify "Simple rank two polymorphism" $
run
[ "id : forall a. a -> a;"
, "id x = x;"
, "f : forall a. a -> (forall b. b -> b) -> a;"
, "f x g = g x;"
, "main = f 4 id;"
[ "id : forall a. a -> a"
, "id x = x"
, "f : forall a. a -> (forall b. b -> b) -> a"
, "f x g = g x"
, "main = f 4 id"
]
`shouldSatisfy` ok
tc_rank2 =
specify "Rank two polymorphism is ok" $
run
[ "const : forall a. forall b. a -> b -> a;"
, "const x y = x;"
, "rank2 : forall a. forall b. a -> (forall c. c -> Int) -> b -> Int;"
, "rank2 x f y = f x + f y;"
, "main = rank2 3 (\\x. const 5 x : forall a. a -> Int) 'h';"
[ "const : forall a. forall b. a -> b -> a"
, "const x y = x"
, "rank2 : forall a. forall b. a -> (forall c. c -> Int) -> b -> Int"
, "rank2 x f y = f x + f y"
, "main = rank2 3 (\\x. const 5 x : forall a. a -> Int) 'h'"
]
`shouldSatisfy` ok
@ -92,20 +93,20 @@ tc_identity = describe "(∀b. b → b) should only accept the identity function
specify "identity is accepted" $ run (fs ++ id) `shouldSatisfy` ok
where
fs =
[ "f : forall a. a -> (forall b. b -> b) -> a;"
, "f x g = g x;"
, "id : forall a. a -> a;"
, "id x = x;"
, "id_int : Int -> Int;"
, "id_int x = x;"
[ "f : forall a. a -> (forall b. b -> b) -> a"
, "f x g = g x"
, "id : forall a. a -> a"
, "id x = x"
, "id_int : Int -> Int"
, "id_int x = x"
]
id =
[ "main : Int;"
, "main = f 4 id;"
[ "main : Int"
, "main = f 4 id"
]
id_int =
[ "main : Int;"
, "main = f 4 id_int;"
[ "main : Int"
, "main = f 4 id_int"
]
tc_pair = describe "Pair. Type variables in Pair a b typechecked" $ do
@ -113,26 +114,24 @@ tc_pair = describe "Pair. Type variables in Pair a b typechecked" $ do
specify "Correct arguments are accepted" $ run (fs ++ correct) `shouldSatisfy` ok
where
fs =
[ "data forall a. forall b. Pair (a b) where {"
[ "data forall a. forall b. Pair (a b) where"
, " Pair : a -> b -> Pair (a b)"
, "};"
, "main : Pair (Int Char);"
, "main : Pair (Int Char)"
]
wrong = ["main = Pair 'a' 65;"]
correct = ["main = Pair 65 'a';"]
wrong = ["main = Pair 'a' 65"]
correct = ["main = Pair 65 'a'"]
tc_tree = describe "Tree. Recursive data type" $ do
specify "Wrong tree is rejected" $ run (fs ++ wrong) `shouldNotSatisfy` ok
specify "Correct tree is accepted" $ run (fs ++ correct) `shouldSatisfy` ok
where
fs =
[ "data forall a. Tree (a) where {"
[ "data forall a. Tree (a) where"
, " Node : a -> Tree (a) -> Tree (a) -> Tree (a)"
, " Leaf : a -> Tree (a)"
, "};"
]
wrong = ["tree = Node 1 (Node 2 (Node 4) (Leaf 5)) (Leaf 3);"]
correct = ["tree = Node 1 (Node 2 (Leaf 4) (Leaf 5)) (Leaf 3);"]
wrong = ["tree = Node 1 (Node 2 (Node 4) (Leaf 5)) (Leaf 3)"]
correct = ["tree = Node 1 (Node 2 (Leaf 4) (Leaf 5)) (Leaf 3)"]
tc_mono_case = describe "Monomorphic pattern matching" $ do
specify "First wrong case expression rejected" $
@ -147,39 +146,34 @@ tc_mono_case = describe "Monomorphic pattern matching" $ do
run correct2 `shouldSatisfy` ok
where
wrong1 =
[ "simple : Int -> Int;"
, "simple c = case c of {"
, " 'F' => 0;"
, " 'T' => 1;"
, "};"
[ "simple : Int -> Int"
, "simple c = case c of"
, " 'F' => 0"
, " 'T' => 1"
]
wrong2 =
[ "simple : Char -> Int;"
, "simple c = case c of {"
, " 'F' => 0;"
, " 1 => 1;"
, "};"
[ "simple : Char -> Int"
, "simple c = case c of"
, " 'F' => 0"
, " 1 => 1"
]
wrong3 =
[ "simple : Char -> Int;"
, "simple c = case c of {"
, " 'F' => 0;"
, " 'T' => '1';"
, "};"
[ "simple : Char -> Int"
, "simple c = case c of"
, " 'F' => 0"
, " 'T' => '1'"
]
correct1 =
[ "simple : Char -> Int;"
, "simple c = case c of {"
, " 'F' => 0;"
, " 'T' => 1;"
, "};"
[ "simple : Char -> Int"
, "simple c = case c of"
, " 'F' => 0"
, " 'T' => 1"
]
correct2 =
[ "simple : Char -> Int;"
, "simple c = case c of {"
, " 'F' => 0;"
, " _ => 1;"
, "};"
[ "simple : Char -> Int"
, "simple c = case c of"
, " 'F' => 0"
, " _ => 1"
]
tc_pol_case = describe "Polymophic and recursive pattern matching" $ do
@ -201,72 +195,63 @@ tc_pol_case = describe "Polymophic and recursive pattern matching" $ do
run (fs ++ correct4) `shouldSatisfy` ok
where
fs =
[ "data forall a. List (a) where {"
[ "data forall a. List (a) where"
, " Nil : List (a)"
, " Cons : a -> List (a) -> List (a)"
, "};"
]
wrong1 =
[ "length : forall c. List (c) -> Int;"
, "length = \\list. case list of {"
, " Nil => 0;"
, " Cons 6 xs => 1 + length xs;"
, "};"
[ "length : forall c. List (c) -> Int"
, "length = \\list. case list of"
, " Nil => 0"
, " Cons 6 xs => 1 + length xs"
]
wrong2 =
[ "length : forall c. List (c) -> Int;"
, "length = \\list. case list of {"
, " Cons => 0;"
, " Cons x xs => 1 + length xs;"
, "};"
[ "length : forall c. List (c) -> Int"
, "length = \\list. case list of"
, " Cons => 0"
, " Cons x xs => 1 + length xs"
]
wrong3 =
[ "length : forall c. List (c) -> Int;"
, "length = \\list. case list of {"
, " 0 => 0;"
, " Cons x xs => 1 + length xs;"
, "};"
[ "length : forall c. List (c) -> Int"
, "length = \\list. case list of"
, " 0 => 0"
, " Cons x xs => 1 + length xs"
]
wrong4 =
[ "elems : forall c. List (List(c)) -> Int;"
, "elems = \\list. case list of {"
, " Nil => 0;"
, " Cons Nil Nil => 0;"
, " Cons Nil xs => elems xs;"
, " Cons (Cons Nil ys) xs => 1 + elems (Cons ys xs);"
, "};"
[ "elems : forall c. List (List(c)) -> Int"
, "elems = \\list. case list of"
, " Nil => 0"
, " Cons Nil Nil => 0"
, " Cons Nil xs => elems xs"
, " Cons (Cons Nil ys) xs => 1 + elems (Cons ys xs)"
]
correct1 =
[ "length : forall c. List (c) -> Int;"
, "length = \\list. case list of {"
, " Nil => 0;"
, " Cons x xs => 1 + length xs;"
, " Cons x (Cons y Nil) => 2;"
, "};"
[ "length : forall c. List (c) -> Int"
, "length = \\list. case list of"
, " Nil => 0"
, " Cons x xs => 1 + length xs"
, " Cons x (Cons y Nil) => 2"
]
correct2 =
[ "length : forall c. List (c) -> Int;"
, "length = \\list. case list of {"
, " Nil => 0;"
, " non_empty => 1;"
, "};"
[ "length : forall c. List (c) -> Int"
, "length = \\list. case list of"
, " Nil => 0"
, " non_empty => 1"
]
correct3 =
[ "length : List (Int) -> Int;"
, "length = \\list. case list of {"
, " Nil => 0;"
, " Cons 1 Nil => 1;"
, " Cons x (Cons 2 xs) => 2 + length xs;"
, "};"
[ "length : List (Int) -> Int"
, "length = \\list. case list of"
, " Nil => 0"
, " Cons 1 Nil => 1"
, " Cons x (Cons 2 xs) => 2 + length xs"
]
correct4 =
[ "elems : forall c. List (List(c)) -> Int;"
, "elems = \\list. case list of {"
, " Nil => 0;"
, " Cons Nil Nil => 0;"
, " Cons Nil xs => elems xs;"
, " Cons (Cons _ ys) xs => 1 + elems (Cons ys xs);"
, "};"
[ "elems : forall c. List (List(c)) -> Int"
, "elems = \\list. case list of"
, " Nil => 0"
, " Cons Nil Nil => 0"
, " Cons Nil xs => elems xs"
, " Cons (Cons _ ys) xs => 1 + elems (Cons ys xs)"
]
@ -277,44 +262,39 @@ tc_infer_case = describe "Infer case expression" $ do
run (fs ++ correct) `shouldSatisfy` ok
where
fs =
[ "data Bool () where {"
[ "data Bool () where"
, " True : Bool ()"
, " False : Bool ()"
, "};"
]
correct =
[ "toBool = case 0 of {"
, " 0 => False;"
, " _ => True;"
, "};"
[ "toBool = case 0 of"
, " 0 => False"
, " _ => True"
]
wrong =
[ "toBool = case 0 of {"
, " 0 => False;"
, " _ => 1;"
, "};"
[ "toBool = case 0 of"
, " 0 => False"
, " _ => 1"
]
tc_rec1 = specify "Infer simple recursive definition" $
run ["test x = 1 + test (x + 1);"] `shouldSatisfy` ok
run ["test x = 1 + test (x + 1)"] `shouldSatisfy` ok
tc_rec2 = specify "Infer recursive definition with pattern matching" $ run
[ "data Bool () where {"
[ "data Bool () where"
, " False : Bool ()"
, " True : Bool ()"
, "};"
, "test = \\x. case x of {"
, " 10 => True;"
, " _ => test (x+1);"
, "};"
, "test = \\x. case x of"
, " 10 => True"
, " _ => test (x+1)"
] `shouldSatisfy` ok
run :: [String] -> Err T.Program
run = rmTEVar <=< typecheck <=< pProgram . myLexer . unlines
run = rmTEVar <=< typecheck <=< pProgram . resolveLayout True . myLexer . unlines
ok = \case
Ok _ -> True