[red-knot] Move UnionBuilder tests to Markdown (#15374)

## Summary This moves almost all of our existing `UnionBuilder` tests to a Markdown-based test suite. I see how this could be a more controversial change, since these tests where written specifically for `UnionBuilder`, and by creating the union types using Python type expressions, we add an additional layer on top (parsing and inference of these expressions) that moves these tests away from clean unit tests more in the direction of integration tests. Also, there are probably a few implementation details of `UnionBuilder` hidden in the test assertions (e.g. order of union elements after simplifications). That said, I think we would like to see all those properties that are being tested here from *any* implementation of union types. And the Markdown tests come with the usual advantages: - More consice - Better readability - No re-compiliation when working on tests - Easier to add additional explanations and structure to the test suite This changeset adds a few additional tests, but keeps the logic of the existing tests except for a few minor modifications for consistency. --------- Co-authored-by: Alex Waygood <Alex.Waygood@Gmail.com> Co-authored-by: T-256 <132141463+T-256@users.noreply.github.com>
2025-09-29 21:35:58 +00:00 · 2025-01-09 21:45:06 +01:00 · 2025-01-09 21:45:06 +01:00 · b33cf5baba
commit b33cf5baba
parent b0905c4b04
2 changed files with 132 additions and 98 deletions
--- a/crates/red_knot_python_semantic/resources/mdtest/union_types.md
+++ b/crates/red_knot_python_semantic/resources/mdtest/union_types.md
@ -0,0 +1,125 @@
+# Union types
+
+This test suite covers certain basic properties and simplification strategies for union types.
+
+## Basic unions
+
+```py
+from typing import Literal
+
+def _(u1: int | str, u2: Literal[0] | Literal[1]) -> None:
+    reveal_type(u1)  # revealed: int | str
+    reveal_type(u2)  # revealed: Literal[0, 1]
+```
+
+## Duplicate elements are collapsed
+
+```py
+def _(u1: int | int | str, u2: int | str | int) -> None:
+    reveal_type(u1)  # revealed: int | str
+    reveal_type(u2)  # revealed: int | str
+```
+
+## `Never` is removed
+
+`Never` is an empty set, a type with no inhabitants. Its presence in a union is always redundant,
+and so we eagerly simplify it away. `NoReturn` is equivalent to `Never`.
+
+```py
+from typing_extensions import Never, NoReturn
+
+def never(u1: int | Never, u2: int | Never | str) -> None:
+    reveal_type(u1)  # revealed: int
+    reveal_type(u2)  # revealed:  int | str
+
+def noreturn(u1: int | NoReturn, u2: int | NoReturn | str) -> None:
+    reveal_type(u1)  # revealed: int
+    reveal_type(u2)  # revealed:  int | str
+```
+
+## Flattening of nested unions
+
+```py
+from typing import Literal
+
+def _(
+    u1: (int | str) | bytes,
+    u2: int | (str | bytes),
+    u3: int | (str | (bytes | complex)),
+) -> None:
+    reveal_type(u1)  # revealed: int | str | bytes
+    reveal_type(u2)  # revealed: int | str | bytes
+    reveal_type(u3)  # revealed: int | str | bytes | complex
+```
+
+## Simplification using subtyping
+
+The type `S | T` can be simplified to `T` if `S` is a subtype of `T`:
+
+```py
+from typing_extensions import Literal, LiteralString
+
+def _(
+    u1: str | LiteralString, u2: LiteralString | str, u3: Literal["a"] | str | LiteralString, u4: str | bytes | LiteralString
+) -> None:
+    reveal_type(u1)  # revealed: str
+    reveal_type(u2)  # revealed: str
+    reveal_type(u3)  # revealed: str
+    reveal_type(u4)  # revealed: str | bytes
+```
+
+## Boolean literals
+
+The union `Literal[True] | Literal[False]` is exactly equivalent to `bool`:
+
+```py
+from typing import Literal
+
+def _(
+    u1: Literal[True, False],
+    u2: bool | Literal[True],
+    u3: Literal[True] | bool,
+    u4: Literal[True] | Literal[True, 17],
+    u5: Literal[True, False, True, 17],
+) -> None:
+    reveal_type(u1)  # revealed: bool
+    reveal_type(u2)  # revealed: bool
+    reveal_type(u3)  # revealed: bool
+    reveal_type(u4)  # revealed: Literal[True, 17]
+    reveal_type(u5)  # revealed: bool | Literal[17]
+```
+
+## Do not erase `Unknown`
+
+```py
+from knot_extensions import Unknown
+
+def _(u1: Unknown | str, u2: str | Unknown) -> None:
+    reveal_type(u1)  # revealed: Unknown | str
+    reveal_type(u2)  # revealed: str | Unknown
+```
+
+## Collapse multiple `Unknown`s
+
+Since `Unknown` is a gradual type, it is not a subtype of anything, but multiple `Unknown`s in a
+union are still redundant:
+
+```py
+from knot_extensions import Unknown
+
+def _(u1: Unknown | Unknown | str, u2: Unknown | str | Unknown, u3: str | Unknown | Unknown) -> None:
+    reveal_type(u1)  # revealed: Unknown | str
+    reveal_type(u2)  # revealed: Unknown | str
+    reveal_type(u3)  # revealed: str | Unknown
+```
+
+## Subsume multiple elements
+
+Simplifications still apply when `Unknown` is present.
+
+```py
+from knot_extensions import Unknown
+
+def _(u1: str | Unknown | int | object):
+    reveal_type(u1)  # revealed: Unknown | object
+```
--- a/crates/red_knot_python_semantic/src/types/builder.rs
+++ b/crates/red_knot_python_semantic/src/types/builder.rs
@ -396,17 +396,14 @@ mod tests {
    use test_case::test_case;

    #[test]
-    fn build_union() {
+    fn build_union_no_elements() {
        let db = setup_db();
-        let t0 = Type::IntLiteral(0);
-        let t1 = Type::IntLiteral(1);
-        let union = UnionType::from_elements(&db, [t0, t1]).expect_union();
-
-        assert_eq!(union.elements(&db), &[t0, t1]);
+        let ty = UnionBuilder::new(&db).build();
+        assert_eq!(ty, Type::Never);
    }

    #[test]
-    fn build_union_single() {
+    fn build_union_single_element() {
        let db = setup_db();
        let t0 = Type::IntLiteral(0);
        let ty = UnionType::from_elements(&db, [t0]);
@ -414,101 +411,13 @@ mod tests {
    }

    #[test]
-    fn build_union_empty() {
-        let db = setup_db();
-        let ty = UnionBuilder::new(&db).build();
-        assert_eq!(ty, Type::Never);
-    }
-
-    #[test]
-    fn build_union_never() {
-        let db = setup_db();
-        let t0 = Type::IntLiteral(0);
-        let ty = UnionType::from_elements(&db, [t0, Type::Never]);
-        assert_eq!(ty, t0);
-    }
-
-    #[test]
-    fn build_union_bool() {
-        let db = setup_db();
-        let bool_instance_ty = KnownClass::Bool.to_instance(&db);
-
-        let t0 = Type::BooleanLiteral(true);
-        let t1 = Type::BooleanLiteral(true);
-        let t2 = Type::BooleanLiteral(false);
-        let t3 = Type::IntLiteral(17);
-
-        let union = UnionType::from_elements(&db, [t0, t1, t3]).expect_union();
-        assert_eq!(union.elements(&db), &[t0, t3]);
-
-        let union = UnionType::from_elements(&db, [t0, t1, t2, t3]).expect_union();
-        assert_eq!(union.elements(&db), &[bool_instance_ty, t3]);
-
-        let result_ty = UnionType::from_elements(&db, [bool_instance_ty, t0]);
-        assert_eq!(result_ty, bool_instance_ty);
-
-        let result_ty = UnionType::from_elements(&db, [t0, bool_instance_ty]);
-        assert_eq!(result_ty, bool_instance_ty);
-    }
-
-    #[test]
-    fn build_union_flatten() {
+    fn build_union_two_elements() {
        let db = setup_db();
        let t0 = Type::IntLiteral(0);
        let t1 = Type::IntLiteral(1);
-        let t2 = Type::IntLiteral(2);
-        let u1 = UnionType::from_elements(&db, [t0, t1]);
-        let union = UnionType::from_elements(&db, [u1, t2]).expect_union();
+        let union = UnionType::from_elements(&db, [t0, t1]).expect_union();

-        assert_eq!(union.elements(&db), &[t0, t1, t2]);
-    }
-
-    #[test]
-    fn build_union_simplify_subtype() {
-        let db = setup_db();
-        let t0 = KnownClass::Str.to_instance(&db);
-        let t1 = Type::LiteralString;
-        let u0 = UnionType::from_elements(&db, [t0, t1]);
-        let u1 = UnionType::from_elements(&db, [t1, t0]);
-
-        assert_eq!(u0, t0);
-        assert_eq!(u1, t0);
-    }
-
-    #[test]
-    fn build_union_no_simplify_unknown() {
-        let db = setup_db();
-        let t0 = KnownClass::Str.to_instance(&db);
-        let t1 = Type::Unknown;
-        let u0 = UnionType::from_elements(&db, [t0, t1]);
-        let u1 = UnionType::from_elements(&db, [t1, t0]);
-
-        assert_eq!(u0.expect_union().elements(&db), &[t0, t1]);
-        assert_eq!(u1.expect_union().elements(&db), &[t1, t0]);
-    }
-
-    #[test]
-    fn build_union_simplify_multiple_unknown() {
-        let db = setup_db();
-        let t0 = KnownClass::Str.to_instance(&db);
-        let t1 = Type::Unknown;
-
-        let u = UnionType::from_elements(&db, [t0, t1, t1]);
-
-        assert_eq!(u.expect_union().elements(&db), &[t0, t1]);
-    }
-
-    #[test]
-    fn build_union_subsume_multiple() {
-        let db = setup_db();
-        let str_ty = KnownClass::Str.to_instance(&db);
-        let int_ty = KnownClass::Int.to_instance(&db);
-        let object_ty = KnownClass::Object.to_instance(&db);
-        let unknown_ty = Type::Unknown;
-
-        let u0 = UnionType::from_elements(&db, [str_ty, unknown_ty, int_ty, object_ty]);
-
-        assert_eq!(u0.expect_union().elements(&db), &[unknown_ty, object_ty]);
+        assert_eq!(union.elements(&db), &[t0, t1]);
    }

    impl<'db> IntersectionType<'db> {