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https://github.com/luau-lang/luau.git
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540 lines
15 KiB
C++
540 lines
15 KiB
C++
// This file is part of the Luau programming language and is licensed under MIT License; see LICENSE.txt for details
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#include "Luau/TypePath.h"
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#include "Luau/Type.h"
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#include "Luau/TypeArena.h"
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#include "Luau/TypePack.h"
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#include "ClassFixture.h"
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#include "doctest.h"
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#include "Fixture.h"
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#include "ScopedFlags.h"
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#include <optional>
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using namespace Luau;
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using namespace Luau::TypePath;
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TEST_SUITE_BEGIN("TypePathManipulation");
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TEST_CASE("append")
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{
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SUBCASE("empty_paths")
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{
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Path p;
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CHECK(p.append(Path{}).empty());
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}
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SUBCASE("empty_path_with_path")
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{
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Path p1;
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Path p2(TypeField::Metatable);
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Path result = p1.append(p2);
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CHECK(result == Path(TypeField::Metatable));
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}
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SUBCASE("two_paths")
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{
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Path p1(TypeField::IndexLookup);
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Path p2(TypeField::Metatable);
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Path result = p1.append(p2);
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CHECK(result == Path({TypeField::IndexLookup, TypeField::Metatable}));
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}
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SUBCASE("all_components")
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{
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Path p1({TypeField::IndexLookup, TypeField::Metatable});
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Path p2({TypeField::Metatable, PackField::Arguments});
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Path result = p1.append(p2);
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CHECK(result == Path({TypeField::IndexLookup, TypeField::Metatable, TypeField::Metatable, PackField::Arguments}));
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}
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SUBCASE("does_not_mutate")
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{
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Path p1(TypeField::IndexLookup);
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Path p2(TypeField::Metatable);
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p1.append(p2);
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CHECK(p1 == Path(TypeField::IndexLookup));
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CHECK(p2 == Path(TypeField::Metatable));
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}
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}
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TEST_CASE("push")
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{
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Path p;
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Path result = p.push(TypeField::Metatable);
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CHECK(p.empty());
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CHECK(result == Path(TypeField::Metatable));
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}
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TEST_CASE("pop")
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{
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SUBCASE("empty_path")
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{
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Path p;
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CHECK(p.empty());
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CHECK(p.pop().empty());
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}
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}
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TEST_SUITE_END(); // TypePathManipulation
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TEST_SUITE_BEGIN("TypePathTraversal");
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#define TYPESOLVE_CODE(code) \
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do \
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{ \
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CheckResult result = check(code); \
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LUAU_REQUIRE_NO_ERRORS(result); \
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} while (false);
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TEST_CASE_FIXTURE(Fixture, "empty_traversal")
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{
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CHECK(traverseForType(builtinTypes->numberType, kEmpty, builtinTypes) == builtinTypes->numberType);
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}
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TEST_CASE_FIXTURE(Fixture, "table_property")
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{
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TYPESOLVE_CODE(R"(
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local x = { y = 123 }
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)");
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CHECK(traverseForType(requireType("x"), Path(TypePath::Property{"y", true}), builtinTypes) == builtinTypes->numberType);
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}
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TEST_CASE_FIXTURE(ClassFixture, "class_property")
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{
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CHECK(traverseForType(vector2InstanceType, Path(TypePath::Property{"X", true}), builtinTypes) == builtinTypes->numberType);
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}
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TEST_CASE_FIXTURE(Fixture, "index")
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{
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SUBCASE("unions")
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{
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TYPESOLVE_CODE(R"(
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type T = number | string | boolean
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)");
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SUBCASE("in_bounds")
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{
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CHECK(traverseForType(requireTypeAlias("T"), Path(TypePath::Index{1}), builtinTypes) == builtinTypes->stringType);
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}
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SUBCASE("out_of_bounds")
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{
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CHECK(traverseForType(requireTypeAlias("T"), Path(TypePath::Index{97}), builtinTypes) == std::nullopt);
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}
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}
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SUBCASE("intersections")
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{
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// use functions to avoid the intersection being normalized away
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TYPESOLVE_CODE(R"(
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type T = (() -> ()) & ((true) -> false) & ((false) -> true)
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)");
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SUBCASE("in_bounds")
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{
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auto result = traverseForType(requireTypeAlias("T"), Path(TypePath::Index{1}), builtinTypes);
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CHECK(result);
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if (result)
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CHECK(toString(*result) == "(true) -> false");
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}
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SUBCASE("out_of_bounds")
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{
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CHECK(traverseForType(requireTypeAlias("T"), Path(TypePath::Index{97}), builtinTypes) == std::nullopt);
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}
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}
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SUBCASE("type_packs")
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{
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// use functions to avoid the intersection being normalized away
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TYPESOLVE_CODE(R"(
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type T = (number, string, true, false) -> ()
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)");
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SUBCASE("in_bounds")
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{
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Path path = Path({TypePath::PackField::Arguments, TypePath::Index{1}});
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auto result = traverseForType(requireTypeAlias("T"), path, builtinTypes);
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CHECK(result == builtinTypes->stringType);
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}
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SUBCASE("out_of_bounds")
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{
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Path path = Path({TypePath::PackField::Arguments, TypePath::Index{72}});
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auto result = traverseForType(requireTypeAlias("T"), path, builtinTypes);
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CHECK(result == std::nullopt);
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}
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}
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}
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TEST_CASE_FIXTURE(ClassFixture, "metatables")
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{
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SUBCASE("string")
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{
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auto result = traverseForType(builtinTypes->stringType, Path(TypeField::Metatable), builtinTypes);
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CHECK(result == getMetatable(builtinTypes->stringType, builtinTypes));
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}
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SUBCASE("string_singleton")
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{
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TYPESOLVE_CODE(R"(
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type T = "foo"
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)");
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auto result = traverseForType(requireTypeAlias("T"), Path(TypeField::Metatable), builtinTypes);
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CHECK(result == getMetatable(builtinTypes->stringType, builtinTypes));
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}
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SUBCASE("table")
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{
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TYPESOLVE_CODE(R"(
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local mt = { foo = 123 }
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local tbl = setmetatable({}, mt)
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)");
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auto result = traverseForType(requireType("tbl"), Path(TypeField::Metatable), builtinTypes);
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CHECK(result == requireType("mt"));
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}
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SUBCASE("class")
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{
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auto result = traverseForType(vector2InstanceType, Path(TypeField::Metatable), builtinTypes);
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// ClassFixture's Vector2 metatable is just an empty table, but it's there.
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CHECK(result);
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}
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}
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TEST_CASE_FIXTURE(Fixture, "bounds")
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{
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SUBCASE("free_type")
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{
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TypeArena& arena = frontend.globals.globalTypes;
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unfreeze(arena);
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TypeId ty = arena.freshType(frontend.globals.globalScope.get());
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FreeType* ft = getMutable<FreeType>(ty);
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SUBCASE("upper")
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{
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ft->upperBound = builtinTypes->numberType;
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auto result = traverseForType(ty, Path(TypeField::UpperBound), builtinTypes);
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CHECK(result == builtinTypes->numberType);
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}
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SUBCASE("lower")
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{
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ft->lowerBound = builtinTypes->booleanType;
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auto result = traverseForType(ty, Path(TypeField::LowerBound), builtinTypes);
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CHECK(result == builtinTypes->booleanType);
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}
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}
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SUBCASE("unbounded_type")
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{
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CHECK(traverseForType(builtinTypes->numberType, Path(TypeField::UpperBound), builtinTypes) == std::nullopt);
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CHECK(traverseForType(builtinTypes->numberType, Path(TypeField::LowerBound), builtinTypes) == std::nullopt);
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}
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}
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TEST_CASE_FIXTURE(Fixture, "indexers")
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{
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SUBCASE("table")
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{
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SUBCASE("lookup_indexer")
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{
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TYPESOLVE_CODE(R"(
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type T = { [string]: boolean }
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)");
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auto lookupResult = traverseForType(requireTypeAlias("T"), Path(TypeField::IndexLookup), builtinTypes);
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auto resultResult = traverseForType(requireTypeAlias("T"), Path(TypeField::IndexResult), builtinTypes);
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CHECK(lookupResult == builtinTypes->stringType);
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CHECK(resultResult == builtinTypes->booleanType);
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}
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SUBCASE("no_indexer")
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{
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TYPESOLVE_CODE(R"(
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type T = { y: number }
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)");
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auto lookupResult = traverseForType(requireTypeAlias("T"), Path(TypeField::IndexLookup), builtinTypes);
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auto resultResult = traverseForType(requireTypeAlias("T"), Path(TypeField::IndexResult), builtinTypes);
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CHECK(lookupResult == std::nullopt);
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CHECK(resultResult == std::nullopt);
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}
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}
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// TODO: Class types
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}
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TEST_CASE_FIXTURE(Fixture, "negated")
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{
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SUBCASE("valid")
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{
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TypeArena& arena = frontend.globals.globalTypes;
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unfreeze(arena);
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TypeId ty = arena.addType(NegationType{builtinTypes->numberType});
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auto result = traverseForType(ty, Path(TypeField::Negated), builtinTypes);
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CHECK(result == builtinTypes->numberType);
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}
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SUBCASE("not_negation")
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{
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auto result = traverseForType(builtinTypes->numberType, Path(TypeField::Negated), builtinTypes);
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CHECK(result == std::nullopt);
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}
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}
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TEST_CASE_FIXTURE(Fixture, "variadic")
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{
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SUBCASE("valid")
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{
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TypeArena& arena = frontend.globals.globalTypes;
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unfreeze(arena);
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TypePackId tp = arena.addTypePack(VariadicTypePack{builtinTypes->numberType});
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auto result = traverseForType(tp, Path(TypeField::Variadic), builtinTypes);
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CHECK(result == builtinTypes->numberType);
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}
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SUBCASE("not_variadic")
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{
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auto result = traverseForType(builtinTypes->numberType, Path(TypeField::Variadic), builtinTypes);
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CHECK(result == std::nullopt);
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}
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}
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TEST_CASE_FIXTURE(Fixture, "arguments")
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{
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SUBCASE("function")
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{
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TYPESOLVE_CODE(R"(
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function f(x: number, y: string)
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end
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)");
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auto result = traverseForPack(requireType("f"), Path(PackField::Arguments), builtinTypes);
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CHECK(result);
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if (result)
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CHECK(toString(*result) == "number, string");
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}
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SUBCASE("not_function")
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{
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auto result = traverseForPack(builtinTypes->booleanType, Path(PackField::Arguments), builtinTypes);
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CHECK(result == std::nullopt);
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}
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}
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TEST_CASE_FIXTURE(Fixture, "returns")
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{
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SUBCASE("function")
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{
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TYPESOLVE_CODE(R"(
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function f(): (number, string)
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return 123, "foo"
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end
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)");
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auto result = traverseForPack(requireType("f"), Path(PackField::Returns), builtinTypes);
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CHECK(result);
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if (result)
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CHECK(toString(*result) == "number, string");
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}
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SUBCASE("not_function")
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{
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auto result = traverseForPack(builtinTypes->booleanType, Path(PackField::Returns), builtinTypes);
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CHECK(result == std::nullopt);
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}
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}
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TEST_CASE_FIXTURE(Fixture, "tail")
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{
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SUBCASE("has_tail")
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{
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TYPESOLVE_CODE(R"(
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type T = (number, string, ...boolean) -> ()
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)");
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auto result = traverseForPack(requireTypeAlias("T"), Path({PackField::Arguments, PackField::Tail}), builtinTypes);
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CHECK(result);
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if (result)
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CHECK(toString(*result) == "...boolean");
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}
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SUBCASE("finite_pack")
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{
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TYPESOLVE_CODE(R"(
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type T = (number, string) -> ()
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)");
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auto result = traverseForPack(requireTypeAlias("T"), Path({PackField::Arguments, PackField::Tail}), builtinTypes);
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CHECK(result == std::nullopt);
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}
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SUBCASE("type")
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{
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auto result = traverseForPack(builtinTypes->stringType, Path({PackField::Arguments, PackField::Tail}), builtinTypes);
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CHECK(result == std::nullopt);
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}
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}
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TEST_CASE_FIXTURE(Fixture, "cycles" * doctest::timeout(0.5))
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{
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// This will fail an occurs check, but it's a quick example of a cyclic type
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// where there _is_ no traversal.
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SUBCASE("bound_cycle")
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{
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TypeArena& arena = frontend.globals.globalTypes;
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unfreeze(arena);
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TypeId a = arena.addType(BlockedType{});
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TypeId b = arena.addType(BoundType{a});
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asMutable(a)->ty.emplace<BoundType>(b);
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CHECK_THROWS(traverseForType(a, Path(TypeField::IndexResult), builtinTypes));
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}
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SUBCASE("table_contains_itself")
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{
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TypeArena& arena = frontend.globals.globalTypes;
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unfreeze(arena);
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TypeId tbl = arena.addType(TableType{});
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getMutable<TableType>(tbl)->props["a"] = Luau::Property(tbl);
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auto result = traverseForType(tbl, Path(TypePath::Property{"a", true}), builtinTypes);
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CHECK(result == tbl);
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}
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}
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TEST_CASE_FIXTURE(Fixture, "step_limit")
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{
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ScopedFastInt sfi("LuauTypePathMaximumTraverseSteps", 2);
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TYPESOLVE_CODE(R"(
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type T = {
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x: {
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y: {
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z: number
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}
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}
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}
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)");
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TypeId root = requireTypeAlias("T");
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Path path = PathBuilder().prop("x").prop("y").prop("z").build();
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auto result = traverseForType(root, path, builtinTypes);
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CHECK(!result);
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}
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TEST_CASE_FIXTURE(BuiltinsFixture, "complex_chains")
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{
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SUBCASE("add_metamethod_return_type")
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{
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TYPESOLVE_CODE(R"(
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type Meta = {
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__add: (Tab, Tab) -> number,
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}
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type Tab = typeof(setmetatable({}, {} :: Meta))
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)");
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TypeId root = requireTypeAlias("Tab");
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Path path = PathBuilder().mt().prop("__add").rets().index(0).build();
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auto result = traverseForType(root, path, builtinTypes);
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CHECK(result == builtinTypes->numberType);
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}
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SUBCASE("overloaded_fn_overload_one_argument_two")
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{
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TYPESOLVE_CODE(R"(
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type Obj = {
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method: ((true, false) -> string) & ((string) -> number)
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}
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)");
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TypeId root = requireTypeAlias("Obj");
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Path path = PathBuilder().prop("method").index(0).args().index(1).build();
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auto result = traverseForType(root, path, builtinTypes);
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CHECK(*result == builtinTypes->falseType);
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}
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}
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TEST_SUITE_END(); // TypePathTraversal
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TEST_SUITE_BEGIN("TypePathToString");
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TEST_CASE("field")
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{
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CHECK(toString(PathBuilder().prop("foo").build()) == R"(["foo"])");
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}
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TEST_CASE("index")
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{
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CHECK(toString(PathBuilder().index(0).build()) == "[0]");
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}
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TEST_CASE("chain")
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{
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CHECK(toString(PathBuilder().index(0).mt().build()) == "[0].metatable()");
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}
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TEST_SUITE_END(); // TypePathToString
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TEST_SUITE_BEGIN("TypePathBuilder");
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TEST_CASE("empty_path")
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{
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Path p = PathBuilder().build();
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CHECK(p.empty());
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}
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TEST_CASE("prop")
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{
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Path p = PathBuilder().prop("foo").build();
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CHECK(p == Path(TypePath::Property{"foo"}));
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}
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TEST_CASE("index")
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{
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Path p = PathBuilder().index(0).build();
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CHECK(p == Path(TypePath::Index{0}));
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}
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TEST_CASE("fields")
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{
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CHECK(PathBuilder().mt().build() == Path(TypeField::Metatable));
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CHECK(PathBuilder().lb().build() == Path(TypeField::LowerBound));
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CHECK(PathBuilder().ub().build() == Path(TypeField::UpperBound));
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CHECK(PathBuilder().indexKey().build() == Path(TypeField::IndexLookup));
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CHECK(PathBuilder().indexValue().build() == Path(TypeField::IndexResult));
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CHECK(PathBuilder().negated().build() == Path(TypeField::Negated));
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CHECK(PathBuilder().variadic().build() == Path(TypeField::Variadic));
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CHECK(PathBuilder().args().build() == Path(PackField::Arguments));
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CHECK(PathBuilder().rets().build() == Path(PackField::Returns));
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CHECK(PathBuilder().tail().build() == Path(PackField::Tail));
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}
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TEST_CASE("chained")
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{
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CHECK(PathBuilder().index(0).prop("foo").mt().prop("bar").args().index(1).build() ==
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Path({Index{0}, TypePath::Property{"foo"}, TypeField::Metatable, TypePath::Property{"bar"}, PackField::Arguments, Index{1}}));
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}
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TEST_SUITE_END(); // TypePathBuilder
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