luau/tests/Normalize.test.cpp

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// This file is part of the Luau programming language and is licensed under MIT License; see LICENSE.txt for details
#include "Fixture.h"
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#include "Luau/AstQuery.h"
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#include "Luau/Common.h"
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#include "Luau/Type.h"
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#include "doctest.h"
#include "Luau/Normalize.h"
#include "Luau/BuiltinDefinitions.h"
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LUAU_FASTFLAG(LuauSolverV2)
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LUAU_FASTINT(LuauTypeInferRecursionLimit)
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using namespace Luau;
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namespace
{
struct IsSubtypeFixture : Fixture
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{
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bool isSubtype(TypeId a, TypeId b)
{
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ModulePtr module = getMainModule();
REQUIRE(module);
if (!module->hasModuleScope())
FAIL("isSubtype: module scope data is not available");
return ::Luau::isSubtype(a, b, NotNull{module->getModuleScope().get()}, builtinTypes, ice);
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}
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};
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} // namespace
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TEST_SUITE_BEGIN("isSubtype");
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TEST_CASE_FIXTURE(IsSubtypeFixture, "primitives")
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{
check(R"(
local a = 41
local b = 32
local c = "hello"
local d = "world"
)");
TypeId a = requireType("a");
TypeId b = requireType("b");
TypeId c = requireType("c");
TypeId d = requireType("d");
CHECK(isSubtype(b, a));
CHECK(isSubtype(d, c));
CHECK(!isSubtype(d, a));
}
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TEST_CASE_FIXTURE(IsSubtypeFixture, "functions")
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{
check(R"(
function a(x: number): number return x end
function b(x: number): number return x end
function c(x: number?): number return x end
function d(x: number): number? return x end
)");
TypeId a = requireType("a");
TypeId b = requireType("b");
TypeId c = requireType("c");
TypeId d = requireType("d");
CHECK(isSubtype(b, a));
CHECK(isSubtype(c, a));
CHECK(!isSubtype(d, a));
CHECK(isSubtype(a, d));
}
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TEST_CASE_FIXTURE(IsSubtypeFixture, "variadic_functions_with_no_head")
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{
check(R"(
local a: (...number) -> ()
local b: (...number?) -> ()
)");
TypeId a = requireType("a");
TypeId b = requireType("b");
CHECK(isSubtype(b, a));
CHECK(!isSubtype(a, b));
}
#if 0
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TEST_CASE_FIXTURE(IsSubtypeFixture, "variadic_function_with_head")
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{
check(R"(
local a: (...number) -> ()
local b: (number, number) -> ()
)");
TypeId a = requireType("a");
TypeId b = requireType("b");
CHECK(!isSubtype(b, a));
CHECK(isSubtype(a, b));
}
#endif
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TEST_CASE_FIXTURE(IsSubtypeFixture, "union")
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{
check(R"(
local a: number | string
local b: number
local c: string
local d: number?
)");
TypeId a = requireType("a");
TypeId b = requireType("b");
TypeId c = requireType("c");
TypeId d = requireType("d");
CHECK(isSubtype(b, a));
CHECK(!isSubtype(a, b));
CHECK(isSubtype(c, a));
CHECK(!isSubtype(a, c));
CHECK(!isSubtype(d, a));
CHECK(!isSubtype(a, d));
CHECK(isSubtype(b, d));
CHECK(!isSubtype(d, b));
}
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TEST_CASE_FIXTURE(IsSubtypeFixture, "table_with_union_prop")
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{
check(R"(
local a: {x: number}
local b: {x: number?}
)");
TypeId a = requireType("a");
TypeId b = requireType("b");
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if (FFlag::LuauSolverV2)
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CHECK(!isSubtype(a, b)); // table properties are invariant
else
CHECK(isSubtype(a, b));
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CHECK(!isSubtype(b, a));
}
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TEST_CASE_FIXTURE(IsSubtypeFixture, "table_with_any_prop")
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{
check(R"(
local a: {x: number}
local b: {x: any}
)");
TypeId a = requireType("a");
TypeId b = requireType("b");
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if (FFlag::LuauSolverV2)
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CHECK(!isSubtype(a, b)); // table properties are invariant
else
CHECK(isSubtype(a, b));
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CHECK(!isSubtype(b, a));
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}
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TEST_CASE_FIXTURE(IsSubtypeFixture, "intersection")
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{
check(R"(
local a: number & string
local b: number
local c: string
local d: number & nil
)");
TypeId a = requireType("a");
TypeId b = requireType("b");
TypeId c = requireType("c");
TypeId d = requireType("d");
CHECK(!isSubtype(b, a));
CHECK(isSubtype(a, b));
CHECK(!isSubtype(c, a));
CHECK(isSubtype(a, c));
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// These types are both equivalent to never
CHECK(isSubtype(d, a));
CHECK(isSubtype(a, d));
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}
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TEST_CASE_FIXTURE(IsSubtypeFixture, "union_and_intersection")
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{
check(R"(
local a: number & string
local b: number | nil
)");
TypeId a = requireType("a");
TypeId b = requireType("b");
CHECK(!isSubtype(b, a));
CHECK(isSubtype(a, b));
}
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TEST_CASE_FIXTURE(IsSubtypeFixture, "tables")
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{
check(R"(
local a: {x: number}
local b: {x: any}
local c: {y: number}
local d: {x: number, y: number}
)");
TypeId a = requireType("a");
TypeId b = requireType("b");
TypeId c = requireType("c");
TypeId d = requireType("d");
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if (FFlag::LuauSolverV2)
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CHECK(!isSubtype(a, b)); // table properties are invariant
else
CHECK(isSubtype(a, b));
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CHECK(!isSubtype(b, a));
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CHECK(!isSubtype(c, a));
CHECK(!isSubtype(a, c));
CHECK(isSubtype(d, a));
CHECK(!isSubtype(a, d));
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if (FFlag::LuauSolverV2)
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CHECK(!isSubtype(d, b)); // table properties are invariant
else
CHECK(isSubtype(d, b));
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CHECK(!isSubtype(b, d));
}
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#if 0
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TEST_CASE_FIXTURE(IsSubtypeFixture, "table_indexers_are_invariant")
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{
check(R"(
local a: {[string]: number}
local b: {[string]: any}
local c: {[string]: number}
)");
TypeId a = requireType("a");
TypeId b = requireType("b");
TypeId c = requireType("c");
CHECK(!isSubtype(b, a));
CHECK(!isSubtype(a, b));
CHECK(isSubtype(c, a));
CHECK(isSubtype(a, c));
}
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TEST_CASE_FIXTURE(IsSubtypeFixture, "mismatched_indexers")
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{
check(R"(
local a: {x: number}
local b: {[string]: number}
local c: {}
)");
TypeId a = requireType("a");
TypeId b = requireType("b");
TypeId c = requireType("c");
CHECK(isSubtype(b, a));
CHECK(!isSubtype(a, b));
CHECK(!isSubtype(c, b));
CHECK(isSubtype(b, c));
}
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TEST_CASE_FIXTURE(IsSubtypeFixture, "cyclic_table")
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{
check(R"(
type A = {method: (A) -> ()}
local a: A
type B = {method: (any) -> ()}
local b: B
type C = {method: (C) -> ()}
local c: C
type D = {method: (D) -> (), another: (D) -> ()}
local d: D
type E = {method: (A) -> (), another: (E) -> ()}
local e: E
)");
TypeId a = requireType("a");
TypeId b = requireType("b");
TypeId c = requireType("c");
TypeId d = requireType("d");
TypeId e = requireType("e");
CHECK(isSubtype(b, a));
CHECK(!isSubtype(a, b));
CHECK(isSubtype(c, a));
CHECK(isSubtype(a, c));
CHECK(!isSubtype(d, a));
CHECK(!isSubtype(a, d));
CHECK(isSubtype(e, a));
CHECK(!isSubtype(a, e));
}
#endif
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TEST_CASE_FIXTURE(IsSubtypeFixture, "classes")
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{
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createSomeClasses(&frontend);
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check(""); // Ensure that we have a main Module.
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TypeId p = frontend.globals.globalScope->lookupType("Parent")->type;
TypeId c = frontend.globals.globalScope->lookupType("Child")->type;
TypeId u = frontend.globals.globalScope->lookupType("Unrelated")->type;
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CHECK(isSubtype(c, p));
CHECK(!isSubtype(p, c));
CHECK(!isSubtype(u, p));
CHECK(!isSubtype(p, u));
}
#if 0
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TEST_CASE_FIXTURE(IsSubtypeFixture, "metatable" * doctest::expected_failures{1})
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{
check(R"(
local T = {}
T.__index = T
function T.new()
return setmetatable({}, T)
end
function T:method() end
local a: typeof(T.new)
local b: {method: (any) -> ()}
)");
TypeId a = requireType("a");
TypeId b = requireType("b");
CHECK(isSubtype(a, b));
}
#endif
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TEST_CASE_FIXTURE(IsSubtypeFixture, "any_is_unknown_union_error")
{
check(R"(
local err = 5.nope.nope -- err is now an error type
local a : any
local b : (unknown | typeof(err))
)");
TypeId a = requireType("a");
TypeId b = requireType("b");
CHECK(isSubtype(a, b));
CHECK(isSubtype(b, a));
CHECK_EQ("*error-type*", toString(requireType("err")));
}
TEST_CASE_FIXTURE(IsSubtypeFixture, "any_intersect_T_is_T")
{
check(R"(
local a : (any & string)
local b : string
local c : number
)");
TypeId a = requireType("a");
TypeId b = requireType("b");
TypeId c = requireType("c");
CHECK(isSubtype(a, b));
CHECK(isSubtype(b, a));
CHECK(!isSubtype(a, c));
CHECK(!isSubtype(c, a));
}
TEST_CASE_FIXTURE(IsSubtypeFixture, "error_suppression")
{
check("");
TypeId any = builtinTypes->anyType;
TypeId err = builtinTypes->errorType;
TypeId str = builtinTypes->stringType;
TypeId unk = builtinTypes->unknownType;
CHECK(!isSubtype(any, err));
CHECK(isSubtype(err, any));
CHECK(!isSubtype(any, str));
CHECK(isSubtype(str, any));
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// We have added this as an exception - the set of inhabitants of any is exactly the set of inhabitants of unknown (since error has no
// inhabitants). any = err | unknown, so under semantic subtyping, {} U unknown = unknown
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if (FFlag::LuauSolverV2)
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{
CHECK(isSubtype(any, unk));
}
else
{
CHECK(!isSubtype(any, unk));
}
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if (FFlag::LuauSolverV2)
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{
CHECK(isSubtype(err, str));
}
else
{
CHECK(!isSubtype(err, str));
}
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CHECK(!isSubtype(str, err));
CHECK(!isSubtype(err, unk));
CHECK(!isSubtype(unk, err));
CHECK(isSubtype(str, unk));
CHECK(!isSubtype(unk, str));
}
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TEST_SUITE_END();
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struct NormalizeFixture : Fixture
{
TypeArena arena;
InternalErrorReporter iceHandler;
UnifierSharedState unifierState{&iceHandler};
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Normalizer normalizer{&arena, builtinTypes, NotNull{&unifierState}};
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Scope globalScope{builtinTypes->anyTypePack};
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NormalizeFixture()
{
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registerHiddenTypes(&frontend);
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}
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std::shared_ptr<const NormalizedType> toNormalizedType(const std::string& annotation, int expectedErrors = 0)
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{
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normalizer.clearCaches();
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CheckResult result = check("type _Res = " + annotation);
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LUAU_REQUIRE_ERROR_COUNT(expectedErrors, result);
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if (FFlag::LuauSolverV2)
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{
SourceModule* sourceModule = getMainSourceModule();
REQUIRE(sourceModule);
AstNode* node = findNodeAtPosition(*sourceModule, {0, 5});
REQUIRE(node);
AstStatTypeAlias* alias = node->as<AstStatTypeAlias>();
REQUIRE(alias);
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TypeId* originalTy = getMainModule()->astResolvedTypes.find(alias->type);
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REQUIRE(originalTy);
return normalizer.normalize(*originalTy);
}
else
{
std::optional<TypeId> ty = lookupType("_Res");
REQUIRE(ty);
return normalizer.normalize(*ty);
}
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}
TypeId normal(const std::string& annotation)
{
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std::shared_ptr<const NormalizedType> norm = toNormalizedType(annotation);
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REQUIRE(norm);
return normalizer.typeFromNormal(*norm);
}
};
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TEST_SUITE_BEGIN("Normalize");
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TEST_CASE_FIXTURE(NormalizeFixture, "string_intersection_is_commutative")
{
auto c4 = toString(normal(R"(
string & (string & Not<"a"> & Not<"b">)
)"));
auto c4Reverse = toString(normal(R"(
(string & Not<"a"> & Not<"b">) & string
)"));
CHECK(c4 == c4Reverse);
CHECK_EQ("string & ~\"a\" & ~\"b\"", c4);
auto c5 = toString(normal(R"(
(string & Not<"a"> & Not<"b">) & (string & Not<"b"> & Not<"c">)
)"));
auto c5Reverse = toString(normal(R"(
(string & Not<"b"> & Not<"c">) & (string & Not<"a"> & Not<"c">)
)"));
CHECK(c5 == c5Reverse);
CHECK_EQ("string & ~\"a\" & ~\"b\" & ~\"c\"", c5);
auto c6 = toString(normal(R"(
("a" | "b") & (string & Not<"b"> & Not<"c">)
)"));
auto c6Reverse = toString(normal(R"(
(string & Not<"b"> & Not<"c">) & ("a" | "b")
)"));
CHECK(c6 == c6Reverse);
CHECK_EQ("\"a\"", c6);
auto c7 = toString(normal(R"(
string & ("b" | "c")
)"));
auto c7Reverse = toString(normal(R"(
("b" | "c") & string
)"));
CHECK(c7 == c7Reverse);
CHECK_EQ("\"b\" | \"c\"", c7);
auto c8 = toString(normal(R"(
(string & Not<"a"> & Not<"b">) & ("b" | "c")
)"));
auto c8Reverse = toString(normal(R"(
("b" | "c") & (string & Not<"a"> & Not<"b">)
)"));
CHECK(c8 == c8Reverse);
CHECK_EQ("\"c\"", c8);
auto c9 = toString(normal(R"(
("a" | "b") & ("b" | "c")
)"));
auto c9Reverse = toString(normal(R"(
("b" | "c") & ("a" | "b")
)"));
CHECK(c9 == c9Reverse);
CHECK_EQ("\"b\"", c9);
auto l = toString(normal(R"(
(string | number) & ("a" | true)
)"));
auto r = toString(normal(R"(
("a" | true) & (string | number)
)"));
CHECK(l == r);
CHECK_EQ("\"a\"", l);
}
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TEST_CASE_FIXTURE(NormalizeFixture, "negate_string")
{
CHECK("number" == toString(normal(R"(
(number | string) & Not<string>
)")));
}
TEST_CASE_FIXTURE(NormalizeFixture, "negate_string_from_cofinite_string_intersection")
{
CHECK("number" == toString(normal(R"(
(number | (string & Not<"hello"> & Not<"world">)) & Not<string>
)")));
}
TEST_CASE_FIXTURE(NormalizeFixture, "no_op_negation_is_dropped")
{
CHECK("number" == toString(normal(R"(
number & Not<string>
)")));
}
TEST_CASE_FIXTURE(NormalizeFixture, "union_of_negation")
{
CHECK("string" == toString(normal(R"(
(string & Not<"hello">) | "hello"
)")));
}
TEST_CASE_FIXTURE(NormalizeFixture, "intersect_truthy")
{
CHECK("number | string | true" == toString(normal(R"(
(string | number | boolean | nil) & Not<false | nil>
)")));
}
TEST_CASE_FIXTURE(NormalizeFixture, "intersect_truthy_expressed_as_intersection")
{
CHECK("number | string | true" == toString(normal(R"(
(string | number | boolean | nil) & Not<false> & Not<nil>
)")));
}
TEST_CASE_FIXTURE(NormalizeFixture, "union_of_union")
{
CHECK(R"("alpha" | "beta" | "gamma")" == toString(normal(R"(
("alpha" | "beta") | "gamma"
)")));
}
TEST_CASE_FIXTURE(NormalizeFixture, "union_of_negations")
{
CHECK(R"(string & ~"world")" == toString(normal(R"(
(string & Not<"hello"> & Not<"world">) | (string & Not<"goodbye"> & Not<"world">)
)")));
}
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TEST_CASE_FIXTURE(NormalizeFixture, "disjoint_negations_normalize_to_string")
{
CHECK(R"(string)" == toString(normal(R"(
(string & Not<"hello"> & Not<"world">) | (string & Not<"goodbye">)
)")));
}
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TEST_CASE_FIXTURE(NormalizeFixture, "negate_boolean")
{
CHECK("true" == toString(normal(R"(
boolean & Not<false>
)")));
}
TEST_CASE_FIXTURE(NormalizeFixture, "negate_boolean_2")
{
CHECK("never" == toString(normal(R"(
true & Not<true>
)")));
}
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TEST_CASE_FIXTURE(NormalizeFixture, "double_negation")
{
CHECK("number" == toString(normal(R"(
number & Not<Not<any>>
)")));
}
TEST_CASE_FIXTURE(NormalizeFixture, "negate_any")
{
CHECK("number" == toString(normal(R"(
number & Not<any>
)")));
}
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TEST_CASE_FIXTURE(NormalizeFixture, "intersect_function_and_top_function")
{
CHECK("() -> ()" == toString(normal(R"(
fun & (() -> ())
)")));
}
TEST_CASE_FIXTURE(NormalizeFixture, "intersect_function_and_top_function_reverse")
{
CHECK("() -> ()" == toString(normal(R"(
(() -> ()) & fun
)")));
}
TEST_CASE_FIXTURE(NormalizeFixture, "union_function_and_top_function")
{
CHECK("function" == toString(normal(R"(
fun | (() -> ())
)")));
}
TEST_CASE_FIXTURE(NormalizeFixture, "negated_function_is_anything_except_a_function")
{
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CHECK("(boolean | buffer | class | number | string | table | thread)?" == toString(normal(R"(
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Not<fun>
)")));
}
TEST_CASE_FIXTURE(NormalizeFixture, "specific_functions_cannot_be_negated")
{
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CHECK(nullptr == toNormalizedType("Not<(boolean) -> boolean>", FFlag::LuauSolverV2 ? 1 : 0));
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}
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TEST_CASE_FIXTURE(NormalizeFixture, "trivial_intersection_inhabited")
{
// this test was used to fix a bug in normalization when working with intersections/unions of the same type.
TypeId a = arena.addType(FunctionType{builtinTypes->emptyTypePack, builtinTypes->anyTypePack, std::nullopt, false});
TypeId c = arena.addType(IntersectionType{{a, a}});
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std::shared_ptr<const NormalizedType> n = normalizer.normalize(c);
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REQUIRE(n);
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CHECK(normalizer.isInhabited(n.get()) == NormalizationResult::True);
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}
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TEST_CASE_FIXTURE(NormalizeFixture, "bare_negated_boolean")
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{
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CHECK("(buffer | class | function | number | string | table | thread)?" == toString(normal(R"(
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Not<boolean>
)")));
}
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TEST_CASE_FIXTURE(Fixture, "higher_order_function")
{
check(R"(
function apply(f, x)
return f(x)
end
local a = apply(function(x: number) return x + x end, 5)
)");
TypeId aType = requireType("a");
CHECK_MESSAGE(isNumber(follow(aType)), "Expected a number but got ", toString(aType));
}
TEST_CASE_FIXTURE(Fixture, "higher_order_function_with_annotation")
{
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// CLI-117088 - Inferring the type of a higher order function with an annotation sometimes doesn't fully constrain the type (there are free types
// left over).
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if (FFlag::LuauSolverV2)
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return;
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check(R"(
function apply<a, b>(f: (a) -> b, x)
return f(x)
end
)");
CHECK_EQ("<a, b>((a) -> b, a) -> b", toString(requireType("apply")));
}
TEST_CASE_FIXTURE(Fixture, "cyclic_table_normalizes_sensibly")
{
CheckResult result = check(R"(
local Cyclic = {}
function Cyclic.get()
return Cyclic
end
)");
LUAU_REQUIRE_NO_ERRORS(result);
TypeId ty = requireType("Cyclic");
CHECK_EQ("t1 where t1 = { get: () -> t1 }", toString(ty, {true}));
}
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TEST_CASE_FIXTURE(BuiltinsFixture, "skip_force_normal_on_external_types")
{
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createSomeClasses(&frontend);
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CheckResult result = check(R"(
export type t0 = { a: Child }
export type t1 = { a: typeof(string.byte) }
)");
LUAU_REQUIRE_NO_ERRORS(result);
}
TEST_CASE_FIXTURE(Fixture, "intersection_combine_on_bound_self")
{
CheckResult result = check(R"(
export type t0 = (((any)&({_:l0.t0,n0:t0,_G:any,}))&({_:any,}))&(((any)&({_:l0.t0,n0:t0,_G:any,}))&({_:any,}))
)");
LUAU_REQUIRE_ERRORS(result);
}
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TEST_CASE_FIXTURE(NormalizeFixture, "unions_of_classes")
{
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createSomeClasses(&frontend);
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CHECK("Parent | Unrelated" == toString(normal("Parent | Unrelated")));
CHECK("Parent" == toString(normal("Parent | Child")));
CHECK("Parent | Unrelated" == toString(normal("Parent | Child | Unrelated")));
}
TEST_CASE_FIXTURE(NormalizeFixture, "intersections_of_classes")
{
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createSomeClasses(&frontend);
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CHECK("Child" == toString(normal("Parent & Child")));
CHECK("never" == toString(normal("Child & Unrelated")));
}
TEST_CASE_FIXTURE(NormalizeFixture, "narrow_union_of_classes_with_intersection")
{
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createSomeClasses(&frontend);
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CHECK("Child" == toString(normal("(Child | Unrelated) & Child")));
}
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TEST_CASE_FIXTURE(NormalizeFixture, "intersection_of_metatables_where_the_metatable_is_top_or_bottom")
{
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if (FFlag::LuauSolverV2)
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CHECK("{ @metatable *error-type*, { } }" == toString(normal("Mt<{}, any> & Mt<{}, err>")));
else
CHECK("{ @metatable *error-type*, {| |} }" == toString(normal("Mt<{}, any> & Mt<{}, err>")));
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}
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TEST_CASE_FIXTURE(NormalizeFixture, "recurring_intersection")
{
CheckResult result = check(R"(
type A = any?
type B = A & A
)");
std::optional<TypeId> t = lookupType("B");
REQUIRE(t);
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std::shared_ptr<const NormalizedType> nt = normalizer.normalize(*t);
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REQUIRE(nt);
CHECK("any" == toString(normalizer.typeFromNormal(*nt)));
}
TEST_CASE_FIXTURE(NormalizeFixture, "cyclic_union")
{
// T where T = any & (number | T)
TypeId t = arena.addType(BlockedType{});
TypeId u = arena.addType(UnionType{{builtinTypes->numberType, t}});
asMutable(t)->ty.emplace<IntersectionType>(IntersectionType{{builtinTypes->anyType, u}});
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std::shared_ptr<const NormalizedType> nt = normalizer.normalize(t);
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REQUIRE(nt);
CHECK("number" == toString(normalizer.typeFromNormal(*nt)));
}
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TEST_CASE_FIXTURE(NormalizeFixture, "cyclic_union_of_intersection")
{
// t1 where t1 = (string & t1) | string
TypeId boundTy = arena.addType(BlockedType{});
TypeId intersectTy = arena.addType(IntersectionType{{builtinTypes->stringType, boundTy}});
TypeId unionTy = arena.addType(UnionType{{builtinTypes->stringType, intersectTy}});
asMutable(boundTy)->reassign(Type{BoundType{unionTy}});
std::shared_ptr<const NormalizedType> nt = normalizer.normalize(unionTy);
CHECK("string" == toString(normalizer.typeFromNormal(*nt)));
}
TEST_CASE_FIXTURE(NormalizeFixture, "cyclic_intersection_of_unions")
{
// t1 where t1 = (string & t1) | string
TypeId boundTy = arena.addType(BlockedType{});
TypeId unionTy = arena.addType(UnionType{{builtinTypes->stringType, boundTy}});
TypeId intersectionTy = arena.addType(IntersectionType{{builtinTypes->stringType, unionTy}});
asMutable(boundTy)->reassign(Type{BoundType{intersectionTy}});
std::shared_ptr<const NormalizedType> nt = normalizer.normalize(intersectionTy);
CHECK("string" == toString(normalizer.typeFromNormal(*nt)));
}
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TEST_CASE_FIXTURE(NormalizeFixture, "crazy_metatable")
{
CHECK("never" == toString(normal("Mt<{}, number> & Mt<{}, string>")));
}
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TEST_CASE_FIXTURE(NormalizeFixture, "negations_of_classes")
{
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createSomeClasses(&frontend);
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CHECK("(Parent & ~Child) | Unrelated" == toString(normal("(Parent & Not<Child>) | Unrelated")));
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CHECK("((class & ~Child) | boolean | buffer | function | number | string | table | thread)?" == toString(normal("Not<Child>")));
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CHECK("Child" == toString(normal("Not<Parent> & Child")));
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CHECK("((class & ~Parent) | Child | boolean | buffer | function | number | string | table | thread)?" == toString(normal("Not<Parent> | Child")));
CHECK("(boolean | buffer | function | number | string | table | thread)?" == toString(normal("Not<cls>")));
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CHECK(
"(Parent | Unrelated | boolean | buffer | function | number | string | table | thread)?" ==
toString(normal("Not<cls & Not<Parent> & Not<Child> & Not<Unrelated>>"))
);
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CHECK("Child" == toString(normal("(Child | Unrelated) & Not<Unrelated>")));
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}
TEST_CASE_FIXTURE(NormalizeFixture, "classes_and_unknown")
{
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createSomeClasses(&frontend);
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CHECK("Parent" == toString(normal("Parent & unknown")));
}
TEST_CASE_FIXTURE(NormalizeFixture, "classes_and_never")
{
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createSomeClasses(&frontend);
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CHECK("never" == toString(normal("Parent & never")));
}
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TEST_CASE_FIXTURE(NormalizeFixture, "top_table_type")
{
CHECK("table" == toString(normal("{} | tbl")));
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if (FFlag::LuauSolverV2)
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CHECK("{ }" == toString(normal("{} & tbl")));
else
CHECK("{| |}" == toString(normal("{} & tbl")));
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CHECK("never" == toString(normal("number & tbl")));
}
TEST_CASE_FIXTURE(NormalizeFixture, "negations_of_tables")
{
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CHECK(nullptr == toNormalizedType("Not<{}>", FFlag::LuauSolverV2 ? 1 : 0));
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CHECK("(boolean | buffer | class | function | number | string | thread)?" == toString(normal("Not<tbl>")));
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CHECK("table" == toString(normal("Not<Not<tbl>>")));
}
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TEST_CASE_FIXTURE(NormalizeFixture, "normalize_blocked_types")
{
Type blocked{BlockedType{}};
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std::shared_ptr<const NormalizedType> norm = normalizer.normalize(&blocked);
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CHECK_EQ(normalizer.typeFromNormal(*norm), &blocked);
}
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TEST_CASE_FIXTURE(NormalizeFixture, "normalize_is_exactly_number")
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{
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std::shared_ptr<const NormalizedType> number = normalizer.normalize(builtinTypes->numberType);
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// 1. all types for which Types::number say true for, NormalizedType::isExactlyNumber should say true as well
CHECK(Luau::isNumber(builtinTypes->numberType) == number->isExactlyNumber());
// 2. isExactlyNumber should handle cases like `number & number`
TypeId intersection = arena.addType(IntersectionType{{builtinTypes->numberType, builtinTypes->numberType}});
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std::shared_ptr<const NormalizedType> normIntersection = normalizer.normalize(intersection);
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CHECK(normIntersection->isExactlyNumber());
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// 3. isExactlyNumber should reject things that are definitely not precisely numbers `number | any`
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TypeId yoonion = arena.addType(UnionType{{builtinTypes->anyType, builtinTypes->numberType}});
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std::shared_ptr<const NormalizedType> unionIntersection = normalizer.normalize(yoonion);
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CHECK(!unionIntersection->isExactlyNumber());
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}
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TEST_CASE_FIXTURE(NormalizeFixture, "normalize_unknown")
{
auto nt = toNormalizedType("Not<string> | Not<number>");
CHECK(nt);
CHECK(nt->isUnknown());
CHECK(toString(normalizer.typeFromNormal(*nt)) == "unknown");
}
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TEST_CASE_FIXTURE(NormalizeFixture, "read_only_props")
{
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ScopedFastFlag sff{FFlag::LuauSolverV2, true};
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CHECK("{ x: string }" == toString(normal("{ read x: string } & { x: string }"), {true}));
CHECK("{ x: string }" == toString(normal("{ x: string } & { read x: string }"), {true}));
}
TEST_CASE_FIXTURE(NormalizeFixture, "read_only_props_2")
{
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ScopedFastFlag sff{FFlag::LuauSolverV2, true};
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CHECK(R"({ x: "hello" })" == toString(normal(R"({ x: "hello" } & { x: string })"), {true}));
CHECK(R"(never)" == toString(normal(R"({ x: "hello" } & { x: "world" })"), {true}));
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}
TEST_CASE_FIXTURE(NormalizeFixture, "read_only_props_3")
{
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ScopedFastFlag sff{FFlag::LuauSolverV2, true};
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CHECK(R"({ read x: "hello" })" == toString(normal(R"({ read x: "hello" } & { read x: string })"), {true}));
CHECK("never" == toString(normal(R"({ read x: "hello" } & { read x: "world" })"), {true}));
}
TEST_CASE_FIXTURE(NormalizeFixture, "final_types_are_cached")
{
std::shared_ptr<const NormalizedType> na1 = normalizer.normalize(builtinTypes->numberType);
std::shared_ptr<const NormalizedType> na2 = normalizer.normalize(builtinTypes->numberType);
CHECK(na1 == na2);
}
TEST_CASE_FIXTURE(NormalizeFixture, "non_final_types_can_be_normalized_but_are_not_cached")
{
TypeId a = arena.freshType(&globalScope);
std::shared_ptr<const NormalizedType> na1 = normalizer.normalize(a);
std::shared_ptr<const NormalizedType> na2 = normalizer.normalize(a);
CHECK(na1 != na2);
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}
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TEST_CASE_FIXTURE(NormalizeFixture, "intersect_with_not_unknown")
{
TypeId notUnknown = arena.addType(NegationType{builtinTypes->unknownType});
TypeId type = arena.addType(IntersectionType{{builtinTypes->numberType, notUnknown}});
std::shared_ptr<const NormalizedType> normalized = normalizer.normalize(type);
CHECK("never" == toString(normalizer.typeFromNormal(*normalized.get())));
}
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TEST_CASE_FIXTURE(NormalizeFixture, "cyclic_stack_overflow_1")
{
ScopedFastInt sfi{FInt::LuauTypeInferRecursionLimit, 165};
this->unifierState.counters.recursionLimit = FInt::LuauTypeInferRecursionLimit;
TypeId t1 = arena.addType(TableType{});
TypeId t2 = arena.addType(TableType{});
TypeId t3 = arena.addType(IntersectionType{{t1, t2}});
asMutable(t1)->ty.get_if<TableType>()->props = {{"foo", Property::readonly(t2)}};
asMutable(t2)->ty.get_if<TableType>()->props = {{"foo", Property::readonly(t1)}};
std::shared_ptr<const NormalizedType> normalized = normalizer.normalize(t3);
CHECK(normalized);
}
TEST_CASE_FIXTURE(NormalizeFixture, "cyclic_stack_overflow_2")
{
ScopedFastInt sfi{FInt::LuauTypeInferRecursionLimit, 165};
this->unifierState.counters.recursionLimit = FInt::LuauTypeInferRecursionLimit;
TypeId t1 = arena.addType(TableType{});
TypeId t2 = arena.addType(TableType{});
TypeId t3 = arena.addType(IntersectionType{{t1, t2}});
asMutable(t1)->ty.get_if<TableType>()->props = {{"foo", Property::readonly(t3)}};
asMutable(t2)->ty.get_if<TableType>()->props = {{"foo", Property::readonly(t1)}};
std::shared_ptr<const NormalizedType> normalized = normalizer.normalize(t3);
CHECK(normalized);
}
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TEST_CASE_FIXTURE(NormalizeFixture, "truthy_table_property_and_optional_table_with_optional_prop")
{
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ScopedFastFlag sff{FFlag::LuauSolverV2, true};
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// { x: ~(false?) }
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TypeId t1 = arena.addType(TableType{TableType::Props{{"x", builtinTypes->truthyType}}, std::nullopt, TypeLevel{}, TableState::Sealed});
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// { x: number? }?
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TypeId t2 = arena.addType(UnionType{
{arena.addType(TableType{TableType::Props{{"x", builtinTypes->optionalNumberType}}, std::nullopt, TypeLevel{}, TableState::Sealed}),
builtinTypes->nilType}
});
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TypeId intersection = arena.addType(IntersectionType{{t2, t1}});
auto norm = normalizer.normalize(intersection);
REQUIRE(norm);
TypeId ty = normalizer.typeFromNormal(*norm);
CHECK("{ x: number }" == toString(ty));
}
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TEST_SUITE_END();