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ba67fb275e
* `table.sort` was improved further. It now guarentees N*log(N) time complexity in the worst case. * Fix https://github.com/Roblox/luau/issues/880 We are also working on fixing final bugs and crashes in the new type solver. On the CodeGen front we have a few things going on: * We have a smarter register allocator for the x86 JIT * We lower more instructions on arm64 * The vector constructor builtin is now translated to IR --------- Co-authored-by: Arseny Kapoulkine <arseny.kapoulkine@gmail.com> Co-authored-by: Vyacheslav Egorov <vegorov@roblox.com>
215 lines
5.3 KiB
C++
215 lines
5.3 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/TypeInfer.h"
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#include "Luau/Type.h"
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#include "Fixture.h"
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#include "doctest.h"
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using namespace Luau;
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namespace
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{
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struct TypePackFixture
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{
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TypePackFixture()
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{
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typeVars.emplace_back(new Type(PrimitiveType(PrimitiveType::NilType)));
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typeVars.emplace_back(new Type(PrimitiveType(PrimitiveType::Boolean)));
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typeVars.emplace_back(new Type(PrimitiveType(PrimitiveType::Number)));
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typeVars.emplace_back(new Type(PrimitiveType(PrimitiveType::String)));
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for (const auto& ptr : typeVars)
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types.push_back(ptr.get());
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}
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TypePackId freshTypePack()
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{
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typePacks.emplace_back(new TypePackVar{FreeTypePack{TypeLevel{}}});
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return typePacks.back().get();
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}
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TypePackId newTypePack(std::initializer_list<TypeId> types, std::optional<TypePackId> tail)
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{
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typePacks.emplace_back(new TypePackVar{TypePack{types, tail}});
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return typePacks.back().get();
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}
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std::vector<std::unique_ptr<TypePackVar>> typePacks;
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std::vector<std::unique_ptr<Type>> typeVars;
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std::vector<TypeId> types;
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};
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} // namespace
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TEST_SUITE_BEGIN("TypePackTests");
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TEST_CASE_FIXTURE(TypePackFixture, "type_pack_hello")
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{
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auto tp = TypePackVar{TypePack{{types[0], types[1]}, std::nullopt}};
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CHECK(tp == tp);
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}
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TEST_CASE_FIXTURE(TypePackFixture, "first_chases_Bound_TypePackVars")
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{
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Type nilType{PrimitiveType{PrimitiveType::NilType}};
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auto tp1 = TypePackVar{TypePack{{&nilType}, std::nullopt}};
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auto tp2 = TypePackVar{BoundTypePack{&tp1}};
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auto tp3 = TypePackVar{TypePack{{}, &tp2}};
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CHECK_EQ(first(&tp3), &nilType);
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}
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TEST_CASE_FIXTURE(TypePackFixture, "iterate_over_TypePack")
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{
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TypePackId typePack = newTypePack({types[0], types[1]}, std::nullopt);
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std::vector<TypeId> res;
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for (TypeId t : typePack)
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res.push_back(t);
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REQUIRE_EQ(2, res.size());
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}
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TEST_CASE_FIXTURE(TypePackFixture, "iterate_over_TypePack_with_2_links")
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{
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auto typePack1 = newTypePack({types[0], types[1]}, std::nullopt);
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auto typePack2 = newTypePack({types[0], types[3]}, typePack1);
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std::vector<TypeId> result;
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for (TypeId ty : typePack2)
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result.push_back(ty);
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REQUIRE_EQ(4, result.size());
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CHECK_EQ(types[0], result[0]);
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CHECK_EQ(types[3], result[1]);
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CHECK_EQ(types[0], result[2]);
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CHECK_EQ(types[1], result[3]);
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}
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TEST_CASE_FIXTURE(TypePackFixture, "get_the_tail")
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{
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TypePackId freeTail = freshTypePack();
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TypePackId typePack = newTypePack({types[0]}, freeTail);
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auto it = begin(typePack);
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auto endIt = end(typePack);
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int count = 0;
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while (it != endIt)
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++count, ++it;
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REQUIRE_EQ(1, count);
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CHECK(it == end(typePack));
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REQUIRE_EQ(it.tail(), freeTail);
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}
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TEST_CASE_FIXTURE(TypePackFixture, "tail_can_be_nullopt")
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{
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TypePackId typePack = newTypePack({types[0], types[0]}, std::nullopt);
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auto it = end(typePack);
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REQUIRE_EQ(std::nullopt, it.tail());
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}
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TEST_CASE_FIXTURE(TypePackFixture, "tail_is_end_for_free_TypePack")
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{
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TypePackId typePack = freshTypePack();
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auto it = begin(typePack);
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auto endIt = end(typePack);
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while (it != endIt)
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++it;
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REQUIRE_EQ(typePack, it.tail());
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}
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TEST_CASE_FIXTURE(TypePackFixture, "skip_over_empty_head_typepack_with_tail")
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{
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TypePackId tailTP = newTypePack({types[2], types[3]}, std::nullopt);
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TypePackId headTP = newTypePack({}, tailTP);
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int count = 0;
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for (TypeId ty : headTP)
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{
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(void)ty;
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++count;
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}
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CHECK_EQ(2, count);
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}
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TEST_CASE_FIXTURE(TypePackFixture, "skip_over_empty_middle_link")
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{
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TypePackId tailTP = newTypePack({types[2], types[3]}, std::nullopt);
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TypePackId middleTP = newTypePack({}, tailTP);
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TypePackId headTP = newTypePack({types[0], types[1]}, middleTP);
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int count = 0;
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for (TypeId ty : headTP)
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{
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(void)ty;
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++count;
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}
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CHECK_EQ(4, count);
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}
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TEST_CASE_FIXTURE(TypePackFixture, "follows_Bound_TypePacks")
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{
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TypePackId tailTP = newTypePack({types[2], types[3]}, std::nullopt);
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TypePackId middleTP = freshTypePack();
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*asMutable(middleTP) = Unifiable::Bound(tailTP);
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TypePackId headTP = newTypePack({}, middleTP);
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int count = 0;
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for (TypeId ty : headTP)
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{
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(void)ty;
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++count;
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}
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CHECK_EQ(2, count);
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}
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TEST_CASE_FIXTURE(TypePackFixture, "post_and_pre_increment")
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{
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TypePackId typePack = newTypePack({types[0], types[1], types[2], types[3]}, std::nullopt);
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auto it1 = begin(typePack);
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auto it2 = it1++;
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auto it3 = ++it2;
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CHECK_EQ(*it2, *it3);
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}
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TEST_CASE_FIXTURE(TypePackFixture, "std_distance")
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{
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TypePackId typePack = newTypePack({types[0], types[1], types[2], types[3]}, std::nullopt);
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auto b = begin(typePack);
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auto e = end(typePack);
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CHECK_EQ(4, std::distance(b, e));
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}
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TEST_CASE("content_reassignment")
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{
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TypePackVar myError{Unifiable::Error{}, /*presistent*/ true};
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TypeArena arena;
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TypePackId futureError = arena.addTypePack(TypePackVar{FreeTypePack{TypeLevel{}}});
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asMutable(futureError)->reassign(myError);
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CHECK(get<ErrorType>(futureError) != nullptr);
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CHECK(!futureError->persistent);
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CHECK(futureError->owningArena == &arena);
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}
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TEST_SUITE_END();
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