luau/tests/TypeInfer.provisional.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 "Luau/TypeInfer.h"
#include "Fixture.h"
#include "doctest.h"
#include <algorithm>
using namespace Luau;
LUAU_FASTFLAG(LuauTypeMismatchInvarianceInError)
TEST_SUITE_BEGIN("ProvisionalTests");
// These tests check for behavior that differs from the final behavior we'd
// like to have. They serve to document the current state of the typechecker.
// When making future improvements, its very likely these tests will break and
// will need to be replaced.
/*
* This test falls into a sort of "do as I say" pit of consequences:
* Technically, the type of the type() function is <T>(T) -> string
*
* We thus infer that the argument to f is a free type.
* While we can still learn something about this argument, we can't seem to infer a union for it.
*
* Is this good? Maybe not, but I'm not sure what else we should do.
*/
TEST_CASE_FIXTURE(Fixture, "typeguard_inference_incomplete")
{
const std::string code = R"(
function f(a)
if type(a) == "boolean" then
local a1 = a
elseif a.fn() then
local a2 = a
end
end
)";
const std::string expected = R"(
function f(a:{fn:()->(a,b...)}): ()
if type(a) == 'boolean'then
local a1:boolean=a
elseif a.fn()then
local a2:{fn:()->(a,b...)}=a
end
end
)";
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CHECK_EQ(expected, decorateWithTypes(code));
}
TEST_CASE_FIXTURE(BuiltinsFixture, "luau-polyfill.Array.filter")
{
// This test exercises the fact that we should reduce sealed/unsealed/free tables
// res is a unsealed table with type {((T & ~nil)?) & any}
// Because we do not reduce it fully, we cannot unify it with `Array<T> = { [number] : T}
// TLDR; reduction needs to reduce the indexer on res so it unifies with Array<T>
CheckResult result = check(R"(
--!strict
-- Implements Javascript's `Array.prototype.filter` as defined below
-- https://developer.cmozilla.org/en-US/docs/Web/JavaScript/Reference/Global_Objects/Array/filter
type Array<T> = { [number]: T }
type callbackFn<T> = (element: T, index: number, array: Array<T>) -> boolean
type callbackFnWithThisArg<T, U> = (thisArg: U, element: T, index: number, array: Array<T>) -> boolean
type Object = { [string]: any }
return function<T, U>(t: Array<T>, callback: callbackFn<T> | callbackFnWithThisArg<T, U>, thisArg: U?): Array<T>
local len = #t
local res = {}
if thisArg == nil then
for i = 1, len do
local kValue = t[i]
if kValue ~= nil then
if (callback :: callbackFn<T>)(kValue, i, t) then
res[i] = kValue
end
end
end
else
end
return res
end
)");
LUAU_REQUIRE_NO_ERRORS(result);
}
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TEST_CASE_FIXTURE(BuiltinsFixture, "xpcall_returns_what_f_returns")
{
const std::string code = R"(
local a, b, c = xpcall(function() return 1, "foo" end, function() return "foo", 1 end)
)";
const std::string expected = R"(
local a:boolean,b:number,c:string=xpcall(function(): (number,string)return 1,'foo'end,function(): (string,number)return'foo',1 end)
)";
CheckResult result = check(code);
CHECK("boolean" == toString(requireType("a")));
CHECK("number" == toString(requireType("b")));
CHECK("string" == toString(requireType("c")));
CHECK(expected == decorateWithTypes(code));
LUAU_REQUIRE_NO_ERRORS(result);
}
// We had a bug where if you have two type packs that looks like:
// { x, y }, ...
// { x }, ...
// It would infinitely grow the type pack because one WeirdIter is trying to catch up, but can't.
// However, the following snippet is supposed to generate an OccursCheckFailed, but it doesn't.
TEST_CASE_FIXTURE(Fixture, "weirditer_should_not_loop_forever")
{
// this flag is intentionally here doing nothing to demonstrate that we exit early via case detection
ScopedFastInt sfis{"LuauTypeInferTypePackLoopLimit", 50};
CheckResult result = check(R"(
local function toVertexList(vertices, x, y, ...)
if not (x and y) then return vertices end -- no more arguments
vertices[#vertices + 1] = {x = x, y = y} -- set vertex
return toVertexList(vertices, ...) -- recurse
end
)");
LUAU_REQUIRE_NO_ERRORS(result);
}
// This should also generate an OccursCheckFailed error too, like the above toVertexList snippet.
// at least up until we can get Luau to recognize this code as a valid function that iterates over a list of values in the pack.
TEST_CASE_FIXTURE(Fixture, "it_should_be_agnostic_of_actual_size")
{
CheckResult result = check(R"(
local function f(x, y, ...)
if not y then return x end
return f(x, ...)
end
f(3, 2, 1, 0)
)");
LUAU_REQUIRE_NO_ERRORS(result);
}
// Ideally setmetatable's second argument would be an optional free table.
// For now, infer it as just a free table.
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TEST_CASE_FIXTURE(BuiltinsFixture, "setmetatable_constrains_free_type_into_free_table")
{
CheckResult result = check(R"(
local a = {}
local b
setmetatable(a, b)
b = 1
)");
LUAU_REQUIRE_ERROR_COUNT(1, result);
TypeMismatch* tm = get<TypeMismatch>(result.errors[0]);
REQUIRE(tm);
CHECK_EQ("{- -}", toString(tm->wantedType));
CHECK_EQ("number", toString(tm->givenType));
}
// Luau currently doesn't yet know how to allow assignments when the binding was refined.
TEST_CASE_FIXTURE(Fixture, "while_body_are_also_refined")
{
CheckResult result = check(R"(
type Node<T> = { value: T, child: Node<T>? }
local function visitor<T>(node: Node<T>, f: (T) -> ())
local current = node
while current do
f(current.value)
current = current.child -- TODO: Can't work just yet. It thinks 'current' can never be nil. :(
end
end
)");
LUAU_REQUIRE_ERROR_COUNT(1, result);
CHECK_EQ("Type 'Node<T>?' could not be converted into 'Node<T>'", toString(result.errors[0]));
}
// Originally from TypeInfer.test.cpp.
// I dont think type checking the metamethod at every site of == is the correct thing to do.
// We should be type checking the metamethod at the call site of setmetatable.
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TEST_CASE_FIXTURE(BuiltinsFixture, "error_on_eq_metamethod_returning_a_type_other_than_boolean")
{
CheckResult result = check(R"(
local tab = {a = 1}
setmetatable(tab, {__eq = function(a, b): number
return 1
end})
local tab2 = tab
local a = tab2 == tab
)");
LUAU_REQUIRE_ERROR_COUNT(1, result);
GenericError* ge = get<GenericError>(result.errors[0]);
REQUIRE(ge);
CHECK_EQ("Metamethod '__eq' must return type 'boolean'", ge->message);
}
// Belongs in TypeInfer.refinements.test.cpp.
// We need refine both operands as `never` in the `==` branch.
TEST_CASE_FIXTURE(Fixture, "lvalue_equals_another_lvalue_with_no_overlap")
{
CheckResult result = check(R"(
local function f(a: string, b: boolean?)
if a == b then
local foo, bar = a, b
else
local foo, bar = a, b
end
end
)");
LUAU_REQUIRE_ERROR_COUNT(1, result);
CHECK_EQ(toString(requireTypeAtPosition({3, 33})), "string"); // a == b
CHECK_EQ(toString(requireTypeAtPosition({3, 36})), "boolean?"); // a == b
CHECK_EQ(toString(requireTypeAtPosition({5, 33})), "string"); // a ~= b
CHECK_EQ(toString(requireTypeAtPosition({5, 36})), "boolean?"); // a ~= b
}
// Also belongs in TypeInfer.refinements.test.cpp.
// Just needs to fully support equality refinement. Which is annoying without type states.
TEST_CASE_FIXTURE(Fixture, "discriminate_from_x_not_equal_to_nil")
{
CheckResult result = check(R"(
type T = {x: string, y: number} | {x: nil, y: nil}
local function f(t: T)
if t.x ~= nil then
local foo = t
else
local bar = t
end
end
)");
LUAU_REQUIRE_NO_ERRORS(result);
CHECK_EQ("{| x: string, y: number |}", toString(requireTypeAtPosition({5, 28})));
// Should be {| x: nil, y: nil |}
CHECK_EQ("{| x: nil, y: nil |} | {| x: string, y: number |}", toString(requireTypeAtPosition({7, 28})));
}
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TEST_CASE_FIXTURE(BuiltinsFixture, "bail_early_if_unification_is_too_complicated" * doctest::timeout(0.5))
{
ScopedFastInt sffi{"LuauTarjanChildLimit", 1};
ScopedFastInt sffi2{"LuauTypeInferIterationLimit", 1};
CheckResult result = check(R"LUA(
local Result
Result = setmetatable({}, {})
Result.__index = Result
function Result.new(okValue)
local self = setmetatable({}, Result)
self:constructor(okValue)
return self
end
function Result:constructor(okValue)
self.okValue = okValue
end
function Result:ok(val) return Result.new(val) end
function Result:a(p0, p1, p2, p3, p4) return Result.new((self.okValue)) or p0 or p1 or p2 or p3 or p4 end
function Result:b(p0, p1, p2, p3, p4) return Result:ok((self.okValue)) or p0 or p1 or p2 or p3 or p4 end
function Result:c(p0, p1, p2, p3, p4) return Result:ok((self.okValue)) or p0 or p1 or p2 or p3 or p4 end
function Result:transpose(a)
return a and self.okValue:z(function(some)
return Result:ok(some)
end) or Result:ok(self.okValue)
end
)LUA");
auto it = std::find_if(result.errors.begin(), result.errors.end(), [](TypeError& a) {
return nullptr != get<UnificationTooComplex>(a);
});
if (it == result.errors.end())
{
dumpErrors(result);
FAIL("Expected a UnificationTooComplex error");
}
}
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// FIXME: Move this test to another source file when removing FFlag::LuauLowerBoundsCalculation
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TEST_CASE_FIXTURE(Fixture, "do_not_ice_when_trying_to_pick_first_of_generic_type_pack")
{
// In-place quantification causes these types to have the wrong types but only because of nasty interaction with prototyping.
// The type of f is initially () -> free1...
// Then the prototype iterator advances, and checks the function expression assigned to g, which has the type () -> free2...
// In the body it calls f and returns what f() returns. This binds free2... with free1..., causing f and g to have same types.
// We then quantify g, leaving it with the final type <a...>() -> a...
// Because free1... and free2... were bound, in combination with in-place quantification, f's return type was also turned into a...
// Then the check iterator catches up, and checks the body of f, and attempts to quantify it too.
// Alas, one of the requirements for quantification is that a type must contain free types. () -> a... has no free types.
// Thus the quantification for f was no-op, which explains why f does not have any type parameters.
// Calling f() will attempt to instantiate the function type, which turns generics in type binders into to free types.
// However, instantiations only converts generics contained within the type binders of a function, so instantiation was also no-op.
// Which means that calling f() simply returned a... rather than an instantiation of it. And since the call site was not in tail position,
// picking first element in a... triggers an ICE because calls returning generic packs are unexpected.
CheckResult result = check(R"(
local function f() end
local g = function() return f() end
local x = (f()) -- should error: no return values to assign from the call to f
)");
LUAU_REQUIRE_NO_ERRORS(result);
// f and g should have the type () -> ()
CHECK_EQ("() -> (a...)", toString(requireType("f")));
CHECK_EQ("<a...>() -> (a...)", toString(requireType("g")));
CHECK_EQ("any", toString(requireType("x"))); // any is returned instead of ICE for now
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}
TEST_CASE_FIXTURE(Fixture, "specialization_binds_with_prototypes_too_early")
{
CheckResult result = check(R"(
local function id(x) return x end
local n2n: (number) -> number = id
local s2s: (string) -> string = id
)");
LUAU_REQUIRE_ERRORS(result); // Should not have any errors.
}
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TEST_CASE_FIXTURE(Fixture, "weird_fail_to_unify_type_pack")
{
ScopedFastFlag sff[] = {
// I'm not sure why this is broken without DCR, but it seems to be fixed
// when DCR is enabled.
{"DebugLuauDeferredConstraintResolution", false},
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};
CheckResult result = check(R"(
local function f() return end
local g = function() return f() end
)");
LUAU_REQUIRE_ERRORS(result); // Should not have any errors.
}
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// Belongs in TypeInfer.builtins.test.cpp.
TEST_CASE_FIXTURE(BuiltinsFixture, "pcall_returns_at_least_two_value_but_function_returns_nothing")
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{
CheckResult result = check(R"(
local function f(): () end
local ok, res = pcall(f)
)");
LUAU_REQUIRE_ERROR_COUNT(1, result);
CHECK_EQ("Function only returns 1 value, but 2 are required here", toString(result.errors[0]));
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// LUAU_REQUIRE_NO_ERRORS(result);
// CHECK_EQ("boolean", toString(requireType("ok")));
// CHECK_EQ("any", toString(requireType("res")));
}
// Belongs in TypeInfer.builtins.test.cpp.
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TEST_CASE_FIXTURE(BuiltinsFixture, "choose_the_right_overload_for_pcall")
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{
CheckResult result = check(R"(
local function f(): number
if math.random() > 0.5 then
return 5
else
error("something")
end
end
local ok, res = pcall(f)
)");
LUAU_REQUIRE_NO_ERRORS(result);
CHECK_EQ("boolean", toString(requireType("ok")));
CHECK_EQ("number", toString(requireType("res")));
// CHECK_EQ("any", toString(requireType("res")));
}
// Belongs in TypeInfer.builtins.test.cpp.
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TEST_CASE_FIXTURE(BuiltinsFixture, "function_returns_many_things_but_first_of_it_is_forgotten")
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{
CheckResult result = check(R"(
local function f(): (number, string, boolean)
if math.random() > 0.5 then
return 5, "hello", true
else
error("something")
end
end
local ok, res, s, b = pcall(f)
)");
LUAU_REQUIRE_NO_ERRORS(result);
CHECK_EQ("boolean", toString(requireType("ok")));
CHECK_EQ("number", toString(requireType("res")));
// CHECK_EQ("any", toString(requireType("res")));
CHECK_EQ("string", toString(requireType("s")));
CHECK_EQ("boolean", toString(requireType("b")));
}
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TEST_CASE_FIXTURE(Fixture, "free_is_not_bound_to_any")
{
CheckResult result = check(R"(
local function foo(f: (any) -> (), x)
f(x)
end
)");
CHECK_EQ("((any) -> (), any) -> ()", toString(requireType("foo")));
}
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TEST_CASE_FIXTURE(BuiltinsFixture, "greedy_inference_with_shared_self_triggers_function_with_no_returns")
{
ScopedFastFlag sff{"DebugLuauSharedSelf", true};
CheckResult result = check(R"(
local T = {}
T.__index = T
function T.new()
local self = setmetatable({}, T)
return self:ctor() or self
end
function T:ctor()
-- oops, no return!
end
)");
LUAU_REQUIRE_ERROR_COUNT(1, result);
CHECK_EQ("Not all codepaths in this function return 'self, a...'.", toString(result.errors[0]));
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}
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TEST_CASE_FIXTURE(Fixture, "dcr_can_partially_dispatch_a_constraint")
{
ScopedFastFlag sff[] = {
{"DebugLuauDeferredConstraintResolution", true},
};
CheckResult result = check(R"(
local function hasDivisors(value: number)
end
function prime_iter(state, index)
hasDivisors(index)
index += 1
end
)");
LUAU_REQUIRE_NO_ERRORS(result);
// Solving this requires recognizing that we can't dispatch a constraint
// like this without doing further work:
//
// (*blocked*) -> () <: (number) -> (b...)
//
// We solve this by searching both types for BlockedTypes and block the
// constraint on any we find. It also gets the job done, but I'm worried
// about the efficiency of doing so many deep type traversals and it may
// make us more prone to getting stuck on constraint cycles.
//
// If this doesn't pan out, a possible solution is to go further down the
// path of supporting partial constraint dispatch. The way it would work is
// that we'd dispatch the above constraint by binding b... to (), but we
// would append a new constraint number <: *blocked* to the constraint set
// to be solved later. This should be faster and theoretically less prone
// to cyclic constraint dependencies.
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CHECK("<a>(a, number) -> ()" == toString(requireType("prime_iter")));
}
TEST_CASE_FIXTURE(Fixture, "free_options_cannot_be_unified_together")
{
Sync to upstream/release/568 (#865) * A small subset of control-flow refinements have been added to recognize type options that are unreachable after a conditional/unconditional code block. (Fixes https://github.com/Roblox/luau/issues/356). Some examples: ```lua local function f(x: string?) if not x then return end -- x is 'string' here end ``` Throwing calls like `error` or `assert(false)` instead of 'return' are also recognized. Existing complex refinements like type/typeof and tagged union checks are expected to work, among others. To enable this feature, `LuauTinyControlFlowAnalysis` exclusion has to be removed from `ExperimentalFlags.h`. If will become enabled unconditionally in the near future. * Linter has been integrated into the typechecker analysis so that type-aware lint warnings can work in any mode `Frontend::lint` methods were deprecated, `Frontend::check` has to be used instead with `runLintChecks` option set. Resulting lint warning are located inside `CheckResult`. * Fixed large performance drop and increased memory consumption when array is filled at an offset (Fixes https://github.com/Roblox/luau/issues/590) * Part of [Type error suppression RFC](https://github.com/Roblox/luau/blob/master/rfcs/type-error-suppression.md) was implemented making subtyping checks with `any` type transitive. --- In our work on the new type-solver: * `--!nocheck` mode no longer reports type errors * New solver will not be used for `--!nonstrict` modules until all issues with strict mode typechecking are fixed * Added control-flow aware type refinements mentioned earlier In native code generation: * `LOP_NAMECALL` has been translated to IR * `type` and `typeof` builtin fastcalls have been translated to IR/assembly * Additional steps were taken towards arm64 support
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ScopedFastFlag sff[] = {
{"LuauTransitiveSubtyping", true},
};
TypeArena arena;
TypeId nilType = builtinTypes->nilType;
std::unique_ptr scope = std::make_unique<Scope>(builtinTypes->anyTypePack);
TypeId free1 = arena.addType(FreeType{scope.get()});
TypeId option1 = arena.addType(UnionType{{nilType, free1}});
TypeId free2 = arena.addType(FreeType{scope.get()});
TypeId option2 = arena.addType(UnionType{{nilType, free2}});
InternalErrorReporter iceHandler;
UnifierSharedState sharedState{&iceHandler};
Normalizer normalizer{&arena, builtinTypes, NotNull{&sharedState}};
Unifier u{NotNull{&normalizer}, Mode::Strict, NotNull{scope.get()}, Location{}, Variance::Covariant};
u.tryUnify(option1, option2);
Sync to upstream/release/568 (#865) * A small subset of control-flow refinements have been added to recognize type options that are unreachable after a conditional/unconditional code block. (Fixes https://github.com/Roblox/luau/issues/356). Some examples: ```lua local function f(x: string?) if not x then return end -- x is 'string' here end ``` Throwing calls like `error` or `assert(false)` instead of 'return' are also recognized. Existing complex refinements like type/typeof and tagged union checks are expected to work, among others. To enable this feature, `LuauTinyControlFlowAnalysis` exclusion has to be removed from `ExperimentalFlags.h`. If will become enabled unconditionally in the near future. * Linter has been integrated into the typechecker analysis so that type-aware lint warnings can work in any mode `Frontend::lint` methods were deprecated, `Frontend::check` has to be used instead with `runLintChecks` option set. Resulting lint warning are located inside `CheckResult`. * Fixed large performance drop and increased memory consumption when array is filled at an offset (Fixes https://github.com/Roblox/luau/issues/590) * Part of [Type error suppression RFC](https://github.com/Roblox/luau/blob/master/rfcs/type-error-suppression.md) was implemented making subtyping checks with `any` type transitive. --- In our work on the new type-solver: * `--!nocheck` mode no longer reports type errors * New solver will not be used for `--!nonstrict` modules until all issues with strict mode typechecking are fixed * Added control-flow aware type refinements mentioned earlier In native code generation: * `LOP_NAMECALL` has been translated to IR * `type` and `typeof` builtin fastcalls have been translated to IR/assembly * Additional steps were taken towards arm64 support
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CHECK(!u.failure);
u.log.commit();
ToStringOptions opts;
CHECK("a?" == toString(option1, opts));
// CHECK("a?" == toString(option2, opts)); // This should hold, but does not.
CHECK("b?" == toString(option2, opts)); // This should not hold.
}
TEST_CASE_FIXTURE(BuiltinsFixture, "for_in_loop_with_zero_iterators")
{
ScopedFastFlag sff{"DebugLuauDeferredConstraintResolution", false};
CheckResult result = check(R"(
function no_iter() end
for key in no_iter() do end -- This should not be ok
)");
LUAU_REQUIRE_NO_ERRORS(result);
}
// Ideally, we would not try to export a function type with generic types from incorrect scope
TEST_CASE_FIXTURE(BuiltinsFixture, "generic_type_leak_to_module_interface")
{
fileResolver.source["game/A"] = R"(
local wrapStrictTable
local metatable = {
__index = function(self, key)
local value = self.__tbl[key]
if type(value) == "table" then
-- unification of the free 'wrapStrictTable' with this function type causes generics of this function to leak out of scope
return wrapStrictTable(value, self.__name .. "." .. key)
end
return value
end,
}
return wrapStrictTable
)";
frontend.check("game/A");
fileResolver.source["game/B"] = R"(
local wrapStrictTable = require(game.A)
local Constants = {}
return wrapStrictTable(Constants, "Constants")
)";
frontend.check("game/B");
ModulePtr m = frontend.moduleResolver.getModule("game/B");
REQUIRE(m);
std::optional<TypeId> result = first(m->returnType);
REQUIRE(result);
Sync to upstream/release/568 (#865) * A small subset of control-flow refinements have been added to recognize type options that are unreachable after a conditional/unconditional code block. (Fixes https://github.com/Roblox/luau/issues/356). Some examples: ```lua local function f(x: string?) if not x then return end -- x is 'string' here end ``` Throwing calls like `error` or `assert(false)` instead of 'return' are also recognized. Existing complex refinements like type/typeof and tagged union checks are expected to work, among others. To enable this feature, `LuauTinyControlFlowAnalysis` exclusion has to be removed from `ExperimentalFlags.h`. If will become enabled unconditionally in the near future. * Linter has been integrated into the typechecker analysis so that type-aware lint warnings can work in any mode `Frontend::lint` methods were deprecated, `Frontend::check` has to be used instead with `runLintChecks` option set. Resulting lint warning are located inside `CheckResult`. * Fixed large performance drop and increased memory consumption when array is filled at an offset (Fixes https://github.com/Roblox/luau/issues/590) * Part of [Type error suppression RFC](https://github.com/Roblox/luau/blob/master/rfcs/type-error-suppression.md) was implemented making subtyping checks with `any` type transitive. --- In our work on the new type-solver: * `--!nocheck` mode no longer reports type errors * New solver will not be used for `--!nonstrict` modules until all issues with strict mode typechecking are fixed * Added control-flow aware type refinements mentioned earlier In native code generation: * `LOP_NAMECALL` has been translated to IR * `type` and `typeof` builtin fastcalls have been translated to IR/assembly * Additional steps were taken towards arm64 support
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if (FFlag::DebugLuauDeferredConstraintResolution)
CHECK_EQ("(any?) & ~table", toString(*result));
else
CHECK_MESSAGE(get<AnyType>(*result), *result);
}
TEST_CASE_FIXTURE(BuiltinsFixture, "generic_type_leak_to_module_interface_variadic")
{
fileResolver.source["game/A"] = R"(
local wrapStrictTable
local metatable = {
__index = function<T>(self, key, ...: T)
local value = self.__tbl[key]
if type(value) == "table" then
-- unification of the free 'wrapStrictTable' with this function type causes generics of this function to leak out of scope
return wrapStrictTable(value, self.__name .. "." .. key)
end
return ...
end,
}
return wrapStrictTable
)";
frontend.check("game/A");
fileResolver.source["game/B"] = R"(
local wrapStrictTable = require(game.A)
local Constants = {}
return wrapStrictTable(Constants, "Constants")
)";
frontend.check("game/B");
ModulePtr m = frontend.moduleResolver.getModule("game/B");
REQUIRE(m);
std::optional<TypeId> result = first(m->returnType);
REQUIRE(result);
CHECK(get<AnyType>(*result));
}
namespace
{
struct IsSubtypeFixture : Fixture
{
bool isSubtype(TypeId a, TypeId b)
{
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);
}
};
} // namespace
TEST_CASE_FIXTURE(IsSubtypeFixture, "intersection_of_functions_of_different_arities")
{
check(R"(
type A = (any) -> ()
type B = (any, any) -> ()
type T = A & B
local a: A
local b: B
local t: T
)");
[[maybe_unused]] TypeId a = requireType("a");
[[maybe_unused]] TypeId b = requireType("b");
// CHECK(!isSubtype(a, b)); // !!
// CHECK(!isSubtype(b, a));
CHECK("((any) -> ()) & ((any, any) -> ())" == toString(requireType("t")));
}
TEST_CASE_FIXTURE(IsSubtypeFixture, "functions_with_mismatching_arity")
{
check(R"(
local a: (number) -> ()
local b: () -> ()
local c: () -> number
)");
TypeId a = requireType("a");
TypeId b = requireType("b");
TypeId c = requireType("c");
// CHECK(!isSubtype(b, a));
// CHECK(!isSubtype(c, a));
CHECK(!isSubtype(a, b));
// CHECK(!isSubtype(c, b));
CHECK(!isSubtype(a, c));
CHECK(!isSubtype(b, c));
}
TEST_CASE_FIXTURE(IsSubtypeFixture, "functions_with_mismatching_arity_but_optional_parameters")
{
/*
* (T0..TN) <: (T0..TN, A?)
* (T0..TN) <: (T0..TN, any)
* (T0..TN, A?) </: (T0..TN) We don't technically need to spell this out, but it's quite important.
* T <: T
* if A <: B and B <: C then A <: C
* T -> R <: U -> S if U <: T and R <: S
* A | B <: T if A <: T and B <: T
* T <: A | B if T <: A or T <: B
*/
check(R"(
local a: (number?) -> ()
local b: (number) -> ()
local c: (number, number?) -> ()
)");
TypeId a = requireType("a");
TypeId b = requireType("b");
TypeId c = requireType("c");
/*
* (number) -> () </: (number?) -> ()
* because number? </: number (because number <: number, but nil </: number)
*/
CHECK(!isSubtype(b, a));
/*
* (number, number?) </: (number?) -> ()
* because number? </: number (as above)
*/
CHECK(!isSubtype(c, a));
/*
* (number?) -> () <: (number) -> ()
* because number <: number? (because number <: number)
*/
CHECK(isSubtype(a, b));
/*
* (number, number?) -> () <: (number) -> (number)
* The packs have inequal lengths, but (number) <: (number, number?)
* and number <: number
*/
// CHECK(!isSubtype(c, b));
/*
* (number?) -> () </: (number, number?) -> ()
* because (number, number?) </: (number)
*/
// CHECK(!isSubtype(a, c));
/*
* (number) -> () </: (number, number?) -> ()
* because (number, number?) </: (number)
*/
// CHECK(!isSubtype(b, c));
}
TEST_CASE_FIXTURE(IsSubtypeFixture, "functions_with_mismatching_arity_but_any_is_an_optional_param")
{
check(R"(
local a: (number?) -> ()
local b: (number) -> ()
local c: (number, any) -> ()
)");
TypeId a = requireType("a");
TypeId b = requireType("b");
TypeId c = requireType("c");
/*
* (number) -> () </: (number?) -> ()
* because number? </: number (because number <: number, but nil </: number)
*/
CHECK(!isSubtype(b, a));
/*
* (number, any) </: (number?) -> ()
* because number? </: number (as above)
*/
CHECK(!isSubtype(c, a));
/*
* (number?) -> () <: (number) -> ()
* because number <: number? (because number <: number)
*/
CHECK(isSubtype(a, b));
/*
* (number, any) -> () </: (number) -> (number)
* The packs have inequal lengths
*/
// CHECK(!isSubtype(c, b));
/*
* (number?) -> () </: (number, any) -> ()
* The packs have inequal lengths
*/
// CHECK(!isSubtype(a, c));
/*
* (number) -> () </: (number, any) -> ()
* The packs have inequal lengths
*/
// CHECK(!isSubtype(b, c));
}
TEST_CASE_FIXTURE(Fixture, "assign_table_with_refined_property_with_a_similar_type_is_illegal")
{
CheckResult result = check(R"(
local t: {x: number?} = {x = nil}
if t.x then
local u: {x: number} = t
end
)");
LUAU_REQUIRE_ERROR_COUNT(1, result);
if (FFlag::LuauTypeMismatchInvarianceInError)
{
CHECK_EQ(R"(Type '{| x: number? |}' could not be converted into '{| x: number |}'
caused by:
Property 'x' is not compatible. Type 'number?' could not be converted into 'number' in an invariant context)",
toString(result.errors[0]));
}
else
{
CHECK_EQ(R"(Type '{| x: number? |}' could not be converted into '{| x: number |}'
caused by:
Property 'x' is not compatible. Type 'number?' could not be converted into 'number')",
toString(result.errors[0]));
}
}
Sync to upstream/release/562 (#828) * Fixed rare use-after-free in analysis during table unification A lot of work these past months went into two new Luau components: * A near full rewrite of the typechecker using a new deferred constraint resolution system * Native code generation for AoT/JiT compilation of VM bytecode into x64 (avx)/arm64 instructions Both of these components are far from finished and we don't provide documentation on building and using them at this point. However, curious community members expressed interest in learning about changes that go into these components each week, so we are now listing them here in the 'sync' pull request descriptions. --- New typechecker can be enabled by setting DebugLuauDeferredConstraintResolution flag to 'true'. It is considered unstable right now, so try it at your own risk. Even though it already provides better type inference than the current one in some cases, our main goal right now is to reach feature parity with current typechecker. Features which improve over the capabilities of the current typechecker are marked as '(NEW)'. Changes to new typechecker: * Regular for loop index and parameters are now typechecked * Invalid type annotations on local variables are ignored to improve autocomplete * Fixed missing autocomplete type suggestions for function arguments * Type reduction is now performed to produce simpler types to be presented to the user (error messages, custom LSPs) * Internally, complex types like '((number | string) & ~(false?)) | string' can be produced, which is just 'string | number' when simplified * Fixed spots where support for unknown and never types was missing * (NEW) Length operator '#' is now valid to use on top table type, this type comes up when doing typeof(x) == "table" guards and isn't available in current typechecker --- Changes to native code generation: * Additional math library fast calls are now lowered to x64: math.ldexp, math.round, math.frexp, math.modf, math.sign and math.clamp
2023-02-04 03:26:13 +08:00
TEST_CASE_FIXTURE(BuiltinsFixture, "table_insert_with_a_singleton_argument")
{
CheckResult result = check(R"(
local function foo(t, x)
if x == "hi" or x == "bye" then
table.insert(t, x)
end
return t
end
local t = foo({}, "hi")
table.insert(t, "totally_unrelated_type" :: "totally_unrelated_type")
)");
LUAU_REQUIRE_NO_ERRORS(result);
if (FFlag::DebugLuauDeferredConstraintResolution)
CHECK_EQ("{string}", toString(requireType("t")));
else
{
// We'd really like for this to be {string}
CHECK_EQ("{string | string}", toString(requireType("t")));
}
}
Sync to upstream/release/572 (#899) * Fixed exported types not being suggested in autocomplete * `T...` is now convertible to `...any` (Fixes https://github.com/Roblox/luau/issues/767) * Fixed issue with `T?` not being convertible to `T | T` or `T?` (sometimes when internal pointer identity is different) * Fixed potential crash in missing table key error suggestion to use a similar existing key * `lua_topointer` now returns a pointer for strings C++ API Changes: * `prepareModuleScope` callback has moved from TypeChecker to Frontend * For LSPs, AstQuery functions (and `isWithinComment`) can be used without full Frontend data A lot of changes in our two experimental components as well. In our work on the new type-solver, the following issues were fixed: * Fixed table union and intersection indexing * Correct custom type environments are now used * Fixed issue with values of `free & number` type not accepted in numeric operations And these are the changes in native code generation (JIT): * arm64 lowering is almost complete with support for 99% of IR commands and all fastcalls * Fixed x64 assembly encoding for extended byte registers * More external x64 calls are aware of register allocator * `math.min`/`math.max` with more than 2 arguments are now lowered to IR as well * Fixed correctness issues with `math` library calls with multiple results in variadic context and with x64 register conflicts * x64 register allocator learnt to restore values from VM memory instead of always using stack spills * x64 exception unwind information now supports multiple functions and fixes function start offset in Dwarf2 info
2023-04-15 02:06:22 +08:00
// We really should be warning on this. We have no guarantee that T has any properties.
TEST_CASE_FIXTURE(Fixture, "lookup_prop_of_intersection_containing_unions_of_tables_that_have_the_prop")
{
CheckResult result = check(R"(
local function mergeOptions<T>(options: T & ({variable: string} | {variable: number}))
return options.variable
end
)");
LUAU_REQUIRE_NO_ERRORS(result);
// LUAU_REQUIRE_ERROR_COUNT(1, result);
// const UnknownProperty* unknownProp = get<UnknownProperty>(result.errors[0]);
// REQUIRE(unknownProp);
// CHECK("variable" == unknownProp->key);
}
TEST_SUITE_END();