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b570ff0a37
luau/tests/TypeInfer.generics.test.cpp
vegorov-rbx b570ff0a37
Sync to upstream/release/564 (#841) 
This week we only have updates to new type solver and JIT. Both projects
are still in the process of being built out. Neither are ready for
general use yet.

In the new solver, we fixed issues with recursive type aliases.
Duplicated type parameters are once again reported, exported types are
being recorder and function argument names are placed inside function
types.
We also made improvements to restore parts of bidirectional type
tracking.

On native code generation side, namecall instruction lowering was fixed,
we fixed inconsistencies in IR command definitions and added utility
function to help with constant folding.
2023-02-17 15:41:51 -08:00

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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 "Luau/Type.h"
#include "Luau/Scope.h"
#include <algorithm>
#include "Fixture.h"
#include "doctest.h"
LUAU_FASTFLAG(LuauInstantiateInSubtyping)
LUAU_FASTFLAG(LuauTypeMismatchInvarianceInError)
using namespace Luau;
TEST_SUITE_BEGIN("GenericsTests");
TEST_CASE_FIXTURE(Fixture, "check_generic_function")
{
CheckResult result = check(R"(
function id<a>(x:a): a
return x
end
local x: string = id("hi")
local y: number = id(37)
)");
LUAU_REQUIRE_NO_ERRORS(result);
}
TEST_CASE_FIXTURE(Fixture, "check_generic_local_function")
{
CheckResult result = check(R"(
local function id<a>(x:a): a
return x
end
local x: string = id("hi")
local y: number = id(37)
)");
LUAU_REQUIRE_NO_ERRORS(result);
}
TEST_CASE_FIXTURE(Fixture, "check_generic_typepack_function")
{
CheckResult result = check(R"(
function id<a...>(...: a...): (a...) return ... end
local x: string, y: boolean = id("hi", true)
local z: number = id(37)
id()
)");
LUAU_REQUIRE_NO_ERRORS(result);
}
TEST_CASE_FIXTURE(Fixture, "types_before_typepacks")
{
CheckResult result = check(R"(
function f<a,b...>() end
)");
LUAU_REQUIRE_NO_ERRORS(result);
}
TEST_CASE_FIXTURE(Fixture, "local_vars_can_be_polytypes")
{
CheckResult result = check(R"(
local function id<a>(x:a):a return x end
local f: <a>(a)->a = id
local x: string = f("hi")
local y: number = f(37)
)");
LUAU_REQUIRE_NO_ERRORS(result);
}
TEST_CASE_FIXTURE(BuiltinsFixture, "inferred_local_vars_can_be_polytypes")
{
CheckResult result = check(R"(
local function id(x) return x end
print("This is bogus") -- TODO: CLI-39916
local f = id
local x: string = f("hi")
local y: number = f(37)
)");
LUAU_REQUIRE_NO_ERRORS(result);
}
TEST_CASE_FIXTURE(BuiltinsFixture, "local_vars_can_be_instantiated_polytypes")
{
CheckResult result = check(R"(
local function id(x) return x end
print("This is bogus") -- TODO: CLI-39916
local f: (number)->number = id
local g: (string)->string = id
)");
LUAU_REQUIRE_NO_ERRORS(result);
}
TEST_CASE_FIXTURE(Fixture, "properties_can_be_polytypes")
{
CheckResult result = check(R"(
local t = {}
t.m = function<a>(x: a):a return x end
local x: string = t.m("hi")
local y: number = t.m(37)
)");
LUAU_REQUIRE_NO_ERRORS(result);
}
TEST_CASE_FIXTURE(Fixture, "properties_can_be_instantiated_polytypes")
{
CheckResult result = check(R"(
local t: { m: (number)->number } = { m = function(x:number) return x+1 end }
local function id<a>(x:a):a return x end
t.m = id
)");
LUAU_REQUIRE_NO_ERRORS(result);
}
TEST_CASE_FIXTURE(Fixture, "check_nested_generic_function")
{
CheckResult result = check(R"(
local function f()
local function id<a>(x:a): a
return x
end
local x: string = id("hi")
local y: number = id(37)
end
)");
LUAU_REQUIRE_NO_ERRORS(result);
}
TEST_CASE_FIXTURE(Fixture, "check_recursive_generic_function")
{
CheckResult result = check(R"(
local function id<a>(x:a):a
local y: string = id("hi")
local z: number = id(37)
return x
end
)");
LUAU_REQUIRE_NO_ERRORS(result);
}
TEST_CASE_FIXTURE(Fixture, "check_mutual_generic_functions")
{
CheckResult result = check(R"(
local id2
local function id1<a>(x:a):a
local y: string = id2("hi")
local z: number = id2(37)
return x
end
function id2<a>(x:a):a
local y: string = id1("hi")
local z: number = id1(37)
return x
end
)");
LUAU_REQUIRE_NO_ERRORS(result);
}
TEST_CASE_FIXTURE(Fixture, "generic_functions_in_types")
{
CheckResult result = check(R"(
type T = { id: <a>(a) -> a }
local x: T = { id = function<a>(x:a):a return x end }
local y: string = x.id("hi")
local z: number = x.id(37)
)");
LUAU_REQUIRE_NO_ERRORS(result);
}
TEST_CASE_FIXTURE(Fixture, "generic_factories")
{
CheckResult result = check(R"(
type T<a> = { id: (a) -> a }
type Factory = { build: <a>() -> T<a> }
local f: Factory = {
build = function<a>(): T<a>
return {
id = function(x:a):a
return x
end
}
end
}
local y: string = f.build().id("hi")
local z: number = f.build().id(37)
)");
LUAU_REQUIRE_NO_ERRORS(result);
}
TEST_CASE_FIXTURE(Fixture, "factories_of_generics")
{
CheckResult result = check(R"(
type T = { id: <a>(a) -> a }
type Factory = { build: () -> T }
local f: Factory = {
build = function(): T
return {
id = function<a>(x:a):a
return x
end
}
end
}
local x: T = f.build()
local y: string = x.id("hi")
local z: number = x.id(37)
)");
LUAU_REQUIRE_NO_ERRORS(result);
}
TEST_CASE_FIXTURE(Fixture, "infer_generic_function")
{
CheckResult result = check(R"(
function id(x)
return x
end
local x: string = id("hi")
local y: number = id(37)
)");
LUAU_REQUIRE_NO_ERRORS(result);
TypeId idType = requireType("id");
const FunctionType* idFun = get<FunctionType>(idType);
REQUIRE(idFun);
auto [args, varargs] = flatten(idFun->argTypes);
auto [rets, varrets] = flatten(idFun->retTypes);
CHECK_EQ(idFun->generics.size(), 1);
CHECK_EQ(idFun->genericPacks.size(), 0);
CHECK_EQ(follow(args[0]), follow(idFun->generics[0]));
CHECK_EQ(follow(rets[0]), follow(idFun->generics[0]));
}
TEST_CASE_FIXTURE(Fixture, "infer_generic_local_function")
{
CheckResult result = check(R"(
local function id(x)
return x
end
local x: string = id("hi")
local y: number = id(37)
)");
LUAU_REQUIRE_NO_ERRORS(result);
TypeId idType = requireType("id");
const FunctionType* idFun = get<FunctionType>(idType);
REQUIRE(idFun);
auto [args, varargs] = flatten(idFun->argTypes);
auto [rets, varrets] = flatten(idFun->retTypes);
CHECK_EQ(idFun->generics.size(), 1);
CHECK_EQ(idFun->genericPacks.size(), 0);
CHECK_EQ(follow(args[0]), follow(idFun->generics[0]));
CHECK_EQ(follow(rets[0]), follow(idFun->generics[0]));
}
TEST_CASE_FIXTURE(Fixture, "infer_nested_generic_function")
{
CheckResult result = check(R"(
local function f()
local function id(x)
return x
end
local x: string = id("hi")
local y: number = id(37)
end
)");
LUAU_REQUIRE_NO_ERRORS(result);
}
TEST_CASE_FIXTURE(Fixture, "infer_generic_methods")
{
ScopedFastFlag sff{"DebugLuauSharedSelf", true};
CheckResult result = check(R"(
local x = {}
function x:id(x) return x end
function x:f(): string return self:id("hello") end
function x:g(): number return self:id(37) end
)");
if (FFlag::DebugLuauDeferredConstraintResolution)
LUAU_REQUIRE_NO_ERRORS(result);
else
{
// TODO: Quantification should be doing the conversion, not normalization.
LUAU_REQUIRE_ERRORS(result);
}
}
TEST_CASE_FIXTURE(Fixture, "calling_self_generic_methods")
{
CheckResult result = check(R"(
local x = {}
function x:id(x) return x end
function x:f()
local x: string = self:id("hi")
local y: number = self:id(37)
end
)");
// TODO: Should typecheck but currently errors CLI-54277
LUAU_REQUIRE_ERRORS(result);
}
TEST_CASE_FIXTURE(Fixture, "infer_generic_property")
{
CheckResult result = check(R"(
local t = {}
t.m = function(x) return x end
local x: string = t.m("hi")
local y: number = t.m(37)
)");
LUAU_REQUIRE_NO_ERRORS(result);
}
TEST_CASE_FIXTURE(Fixture, "function_arguments_can_be_polytypes")
{
CheckResult result = check(R"(
local function f(g: <a>(a)->a)
local x: number = g(37)
local y: string = g("hi")
end
)");
LUAU_REQUIRE_NO_ERRORS(result);
}
TEST_CASE_FIXTURE(Fixture, "function_results_can_be_polytypes")
{
CheckResult result = check(R"(
local function f() : <a>(a)->a
local function id<a>(x:a):a return x end
return id
end
)");
LUAU_REQUIRE_NO_ERRORS(result);
}
TEST_CASE_FIXTURE(Fixture, "type_parameters_can_be_polytypes")
{
CheckResult result = check(R"(
local function id<a>(x:a):a return x end
local f: <a>(a)->a = id(id)
)");
LUAU_REQUIRE_NO_ERRORS(result);
}
TEST_CASE_FIXTURE(Fixture, "dont_leak_generic_types")
{
CheckResult result = check(R"(
local function f(y)
-- this will only typecheck if we infer z: any
-- so f: (any)->(any)
local z = y
local function id(x)
z = x -- this assignment is what forces z: any
return x
end
local x: string = id("hi")
local y: number = id(37)
return z
end
-- so this assignment should fail
local b: boolean = f(true)
)");
LUAU_REQUIRE_ERRORS(result);
}
TEST_CASE_FIXTURE(Fixture, "dont_leak_inferred_generic_types")
{
CheckResult result = check(R"(
local function f(y)
local z = y
local function id(x)
z = x
return x
end
local x: string = id("hi")
local y: number = id(37)
end
)");
LUAU_REQUIRE_ERRORS(result);
}
TEST_CASE_FIXTURE(Fixture, "dont_substitute_bound_types")
{
CheckResult result = check(R"(
type T = { m: <a>(a) -> T }
function f(t : T)
local x: T = t.m(37)
end
)");
LUAU_REQUIRE_NO_ERRORS(result);
}
TEST_CASE_FIXTURE(Fixture, "dont_unify_bound_types")
{
CheckResult result = check(R"(
type F = <a>() -> <b>(a, b) -> a
type G = <b>(b, b) -> b
local f: F = function<a>()
local x
return function<b>(y: a, z: b): a
if not(x) then x = y end
return x
end
end
-- This assignment shouldn't typecheck
-- If it does, it means we instantiated
-- f as () -> <b>(X, b) -> X, then unified X to be b
local g: G = f()
-- Oh dear, if that works then the type system is unsound
local a : string = g("not a number", "hi")
local b : number = g(5, 37)
)");
LUAU_REQUIRE_ERRORS(result);
}
TEST_CASE_FIXTURE(Fixture, "mutable_state_polymorphism")
{
// Replaying the classic problem with polymorphism and mutable state in Luau
// See, e.g. Tofte (1990)
// https://www.sciencedirect.com/science/article/pii/089054019090018D.
CheckResult result = check(R"(
--!strict
-- Our old friend the polymorphic identity function
local function id(x) return x end
local a: string = id("hi")
local b: number = id(37)
-- This allows <a>(a)->a to be expressed without generic function syntax
type Id = typeof(id)
-- This function should have type
-- <a>() -> (a) -> a
-- not type
-- () -> <a>(a) -> a
local function ohDear(): Id
local y
function oh(x)
-- Returns the same x every time it's called
if not(y) then y = x end
return y
end
return oh
end
-- oh dear, f claims to polymorphic which it shouldn't be
local f: Id = ohDear()
-- the first call sets y
local a: string = f("not a number")
-- so b has value "not a number" at run time
local b: number = f(37)
)");
LUAU_REQUIRE_ERRORS(result);
}
TEST_CASE_FIXTURE(Fixture, "rank_N_types_via_typeof")
{
CheckResult result = check(R"(
--!strict
local function id(x) return x end
local x: string = id("hi")
local y: number = id(37)
-- This allows <a>(a)->a to be expressed without generic function syntax
type Id = typeof(id)
-- The rank 1 restriction causes this not to typecheck, since it's
-- declared as returning a polytype.
local function returnsId(): Id
return id
end
-- So this won't typecheck
local f: Id = returnsId()
local a: string = f("hi")
local b: number = f(37)
)");
LUAU_REQUIRE_NO_ERRORS(result);
}
TEST_CASE_FIXTURE(Fixture, "duplicate_generic_types")
{
CheckResult result = check(R"(
function f<a,a>(x:a):a return x end
)");
LUAU_REQUIRE_ERROR_COUNT(1, result);
}
TEST_CASE_FIXTURE(Fixture, "duplicate_generic_type_packs")
{
CheckResult result = check(R"(
function f<a...,a...>() end
)");
LUAU_REQUIRE_ERROR_COUNT(1, result);
}
TEST_CASE_FIXTURE(Fixture, "typepacks_before_types")
{
CheckResult result = check(R"(
function f<a...,b>() end
)");
LUAU_REQUIRE_ERROR_COUNT(1, result);
}
TEST_CASE_FIXTURE(Fixture, "variadic_generics")
{
CheckResult result = check(R"(
function f<a>(...: a) end
type F<a> = (...a) -> ...a
)");
LUAU_REQUIRE_NO_ERRORS(result);
}
TEST_CASE_FIXTURE(Fixture, "generic_type_pack_syntax")
{
CheckResult result = check(R"(
function f<a...>(...: a...): (a...) return ... end
)");
LUAU_REQUIRE_NO_ERRORS(result);
CHECK_EQ(toString(requireType("f")), "<a...>(a...) -> (a...)");
}
TEST_CASE_FIXTURE(Fixture, "generic_type_pack_parentheses")
{
CheckResult result = check(R"(
function f<a...>(...: a...): any return (...) end
)");
LUAU_REQUIRE_ERROR_COUNT(1, result);
}
TEST_CASE_FIXTURE(Fixture, "better_mismatch_error_messages")
{
CheckResult result = check(R"(
function f<T>(...: T...)
return ...
end
function g<T...>(a: T)
return a
end
)");
LUAU_REQUIRE_ERROR_COUNT(2, result);
SwappedGenericTypeParameter* fErr = get<SwappedGenericTypeParameter>(result.errors[0]);
REQUIRE(fErr);
CHECK_EQ(fErr->name, "T");
CHECK_EQ(fErr->kind, SwappedGenericTypeParameter::Pack);
SwappedGenericTypeParameter* gErr = get<SwappedGenericTypeParameter>(result.errors[1]);
REQUIRE(gErr);
CHECK_EQ(gErr->name, "T");
CHECK_EQ(gErr->kind, SwappedGenericTypeParameter::Type);
}
TEST_CASE_FIXTURE(Fixture, "reject_clashing_generic_and_pack_names")
{
CheckResult result = check(R"(
function f<a, a...>() end
)");
LUAU_REQUIRE_ERROR_COUNT(1, result);
DuplicateGenericParameter* err = get<DuplicateGenericParameter>(result.errors[0]);
REQUIRE(err != nullptr);
CHECK_EQ(err->parameterName, "a");
}
TEST_CASE_FIXTURE(Fixture, "instantiation_sharing_types")
{
CheckResult result = check(R"(
function f(z)
local o = {}
o.x = o
o.y = {5}
o.z = z
return o
end
local o1 = f(true)
local x1, y1, z1 = o1.x, o1.y, o1.z
local o2 = f("hi")
local x2, y2, z2 = o2.x, o2.y, o2.z
)");
LUAU_REQUIRE_NO_ERRORS(result);
CHECK(requireType("x1") != requireType("x2"));
CHECK(requireType("y1") == requireType("y2"));
CHECK(requireType("z1") != requireType("z2"));
}
TEST_CASE_FIXTURE(Fixture, "quantification_sharing_types")
{
CheckResult result = check(R"(
function f(x) return {5} end
function g(x, y) return f(x) end
local z1 = f(5)
local z2 = g(true, "hi")
)");
LUAU_REQUIRE_NO_ERRORS(result);
CHECK(requireType("z1") == requireType("z2"));
}
TEST_CASE_FIXTURE(Fixture, "typefuns_sharing_types")
{
CheckResult result = check(R"(
type T<a> = { x: {a}, y: {number} }
local o1: T<boolean> = { x = {true}, y = {5} }
local x1, y1 = o1.x, o1.y
local o2: T<string> = { x = {"hi"}, y = {37} }
local x2, y2 = o2.x, o2.y
)");
LUAU_REQUIRE_NO_ERRORS(result);
CHECK(requireType("x1") != requireType("x2"));
CHECK(requireType("y1") == requireType("y2"));
}
TEST_CASE_FIXTURE(BuiltinsFixture, "bound_tables_do_not_clone_original_fields")
{
CheckResult result = check(R"(
local exports = {}
local nested = {}
nested.name = function(t, k)
local a = t.x.y
return rawget(t, k)
end
exports.nested = nested
return exports
)");
LUAU_REQUIRE_NO_ERRORS(result);
}
TEST_CASE_FIXTURE(Fixture, "instantiated_function_argument_names")
{
CheckResult result = check(R"(
local function f<T, U...>(a: T, ...: U...) end
f(1, 2, 3)
)");
LUAU_REQUIRE_NO_ERRORS(result);
auto ty = findTypeAtPosition(Position(3, 0));
REQUIRE(ty);
ToStringOptions opts;
opts.functionTypeArguments = true;
CHECK_EQ(toString(*ty, opts), "(a: number, number, number) -> ()");
}
TEST_CASE_FIXTURE(Fixture, "error_detailed_function_mismatch_generic_types")
{
CheckResult result = check(R"(
type C = () -> ()
type D = <T>() -> ()
local c: C
local d: D = c
)");
LUAU_REQUIRE_ERROR_COUNT(1, result);
CHECK_EQ(toString(result.errors[0]), R"(Type '() -> ()' could not be converted into '<T>() -> ()'; different number of generic type parameters)");
}
TEST_CASE_FIXTURE(Fixture, "error_detailed_function_mismatch_generic_pack")
{
CheckResult result = check(R"(
type C = () -> ()
type D = <T...>() -> ()
local c: C
local d: D = c
)");
LUAU_REQUIRE_ERROR_COUNT(1, result);
CHECK_EQ(toString(result.errors[0]),
R"(Type '() -> ()' could not be converted into '<T...>() -> ()'; different number of generic type pack parameters)");
}
TEST_CASE_FIXTURE(BuiltinsFixture, "generic_functions_dont_cache_type_parameters")
{
CheckResult result = check(R"(
-- See https://github.com/Roblox/luau/issues/332
-- This function has a type parameter with the same name as clones,
-- so if we cache type parameter names for functions these get confused.
-- function id<Z>(x : Z) : Z
function id<X>(x : X) : X
return x
end
function clone<X, Y>(dict: {[X]:Y}): {[X]:Y}
local copy = {}
for k, v in pairs(dict) do
copy[k] = v
end
return copy
end
)");
LUAU_REQUIRE_NO_ERRORS(result);
}
TEST_CASE_FIXTURE(Fixture, "generic_functions_should_be_memory_safe")
{
CheckResult result = check(R"(
--!strict
-- At one point this produced a UAF
type T<a> = { a: U<a>, b: a }
type U<a> = { c: T<a>?, d : a }
local x: T<number> = { a = { c = nil, d = 5 }, b = 37 }
x.a.c = x
local y: T<string> = { a = { c = nil, d = 5 }, b = 37 }
y.a.c = y
)");
LUAU_REQUIRE_ERRORS(result);
if (FFlag::LuauTypeMismatchInvarianceInError)
{
CHECK_EQ(toString(result.errors[0]),
R"(Type 'y' could not be converted into 'T<string>'
caused by:
Property 'a' is not compatible. Type '{ c: T<string>?, d: number }' could not be converted into 'U<string>'
caused by:
Property 'd' is not compatible. Type 'number' could not be converted into 'string' in an invariant context)");
}
else
{
CHECK_EQ(toString(result.errors[0]),
R"(Type 'y' could not be converted into 'T<string>'
caused by:
Property 'a' is not compatible. Type '{ c: T<string>?, d: number }' could not be converted into 'U<string>'
caused by:
Property 'd' is not compatible. Type 'number' could not be converted into 'string')");
}
}
TEST_CASE_FIXTURE(Fixture, "generic_type_pack_unification1")
{
CheckResult result = check(R"(
--!strict
type Dispatcher = {
useMemo: <T...>(create: () -> T...) -> T...
}
local TheDispatcher: Dispatcher = {
useMemo = function<U...>(create: () -> U...): U...
return create()
end
}
)");
LUAU_REQUIRE_NO_ERRORS(result);
}
TEST_CASE_FIXTURE(Fixture, "generic_type_pack_unification2")
{
CheckResult result = check(R"(
--!strict
type Dispatcher = {
useMemo: <T...>(create: () -> T...) -> T...
}
local TheDispatcher: Dispatcher = {
useMemo = function(create)
return create()
end
}
)");
LUAU_REQUIRE_NO_ERRORS(result);
}
TEST_CASE_FIXTURE(Fixture, "generic_type_pack_unification3")
{
CheckResult result = check(R"(
--!strict
type Dispatcher = {
useMemo: <S,T...>(arg: S, create: (S) -> T...) -> T...
}
local TheDispatcher: Dispatcher = {
useMemo = function<T,U...>(arg: T, create: (T) -> U...): U...
return create(arg)
end
}
)");
LUAU_REQUIRE_NO_ERRORS(result);
}
TEST_CASE_FIXTURE(Fixture, "generic_argument_count_too_few")
{
CheckResult result = check(R"(
function test(a: number)
return 1
end
function wrapper<A...>(f: (A...) -> number, ...: A...)
end
wrapper(test)
)");
LUAU_REQUIRE_ERROR_COUNT(1, result);
CHECK_EQ(toString(result.errors[0]), R"(Argument count mismatch. Function 'wrapper' expects 2 arguments, but only 1 is specified)");
}
TEST_CASE_FIXTURE(Fixture, "generic_argument_count_too_many")
{
CheckResult result = check(R"(
function test2(a: number, b: string)
return 1
end
function wrapper<A...>(f: (A...) -> number, ...: A...)
end
wrapper(test2, 1, "", 3)
)");
LUAU_REQUIRE_ERROR_COUNT(1, result);
CHECK_EQ(toString(result.errors[0]), R"(Argument count mismatch. Function 'wrapper' expects 3 arguments, but 4 are specified)");
}
TEST_CASE_FIXTURE(Fixture, "generic_function")
{
CheckResult result = check(R"(
function id(x) return x end
local a = id(55)
local b = id(nil)
)");
LUAU_REQUIRE_NO_ERRORS(result);
CHECK_EQ("<a>(a) -> a", toString(requireType("id")));
CHECK_EQ(*typeChecker.numberType, *requireType("a"));
CHECK_EQ(*typeChecker.nilType, *requireType("b"));
}
TEST_CASE_FIXTURE(Fixture, "generic_table_method")
{
CheckResult result = check(R"(
local T = {}
function T:bar(i)
return i
end
)");
LUAU_REQUIRE_NO_ERRORS(result);
TypeId tType = requireType("T");
TableType* tTable = getMutable<TableType>(tType);
REQUIRE(tTable != nullptr);
REQUIRE(tTable->props.count("bar"));
TypeId barType = tTable->props["bar"].type;
REQUIRE(barType != nullptr);
const FunctionType* ftv = get<FunctionType>(follow(barType));
REQUIRE_MESSAGE(ftv != nullptr, "Should be a function: " << *barType);
std::vector<TypeId> args = flatten(ftv->argTypes).first;
TypeId argType = args.at(1);
CHECK_MESSAGE(get<Unifiable::Generic>(argType), "Should be generic: " << *barType);
}
TEST_CASE_FIXTURE(Fixture, "correctly_instantiate_polymorphic_member_functions")
{
CheckResult result = check(R"(
local T = {}
function T:foo()
return T:bar(5)
end
function T:bar(i)
return i
end
)");
LUAU_REQUIRE_NO_ERRORS(result);
dumpErrors(result);
const TableType* t = get<TableType>(requireType("T"));
REQUIRE(t != nullptr);
std::optional<Property> fooProp = get(t->props, "foo");
REQUIRE(bool(fooProp));
const FunctionType* foo = get<FunctionType>(follow(fooProp->type));
REQUIRE(bool(foo));
std::optional<TypeId> ret_ = first(foo->retTypes);
REQUIRE(bool(ret_));
TypeId ret = follow(*ret_);
REQUIRE_EQ(getPrimitiveType(ret), PrimitiveType::Number);
}
/*
* We had a bug in instantiation where the argument types of 'f' and 'g' would be inferred as
* f {+ method: function(<CYCLE>): (t2, T3...) +}
* g {+ method: function({+ method: function(<CYCLE>): (t2, T3...) +}): (t5, T6...) +}
*
* The type of 'g' is totally wrong as t2 and t5 should be unified, as should T3 with T6.
*
* The correct unification of the argument to 'g' is
*
* {+ method: function(<CYCLE>): (t5, T6...) +}
*/
TEST_CASE_FIXTURE(Fixture, "instantiate_cyclic_generic_function")
{
auto result = check(R"(
function f(o)
o:method()
end
function g(o)
f(o)
end
)");
TypeId g = requireType("g");
const FunctionType* gFun = get<FunctionType>(g);
REQUIRE(gFun != nullptr);
auto optionArg = first(gFun->argTypes);
REQUIRE(bool(optionArg));
TypeId arg = follow(*optionArg);
const TableType* argTable = get<TableType>(arg);
REQUIRE(argTable != nullptr);
std::optional<Property> methodProp = get(argTable->props, "method");
REQUIRE(bool(methodProp));
const FunctionType* methodFunction = get<FunctionType>(methodProp->type);
REQUIRE(methodFunction != nullptr);
std::optional<TypeId> methodArg = first(methodFunction->argTypes);
REQUIRE(bool(methodArg));
REQUIRE_EQ(follow(*methodArg), follow(arg));
}
TEST_CASE_FIXTURE(Fixture, "instantiate_generic_function_in_assignments")
{
CheckResult result = check(R"(
function foo(a, b)
return a(b)
end
function bar()
local c: ((number)->number, number)->number = foo -- no error
c = foo -- no error
local d: ((number)->number, string)->number = foo -- error from arg 2 (string) not being convertable to number from the call a(b)
end
)");
LUAU_REQUIRE_ERROR_COUNT(1, result);
TypeMismatch* tm = get<TypeMismatch>(result.errors[0]);
REQUIRE(tm);
CHECK_EQ("((number) -> number, string) -> number", toString(tm->wantedType));
if (FFlag::LuauInstantiateInSubtyping)
CHECK_EQ("<a, b...>((a) -> (b...), a) -> (b...)", toString(tm->givenType));
else
CHECK_EQ("((number) -> number, number) -> number", toString(tm->givenType));
}
TEST_CASE_FIXTURE(Fixture, "instantiate_generic_function_in_assignments2")
{
CheckResult result = check(R"(
function foo(a, b)
return a(b)
end
function bar()
local _: (string, string)->number = foo -- string cannot be converted to (string)->number
end
)");
LUAU_REQUIRE_ERROR_COUNT(1, result);
TypeMismatch* tm = get<TypeMismatch>(result.errors[0]);
REQUIRE(tm);
CHECK_EQ("(string, string) -> number", toString(tm->wantedType));
if (FFlag::LuauInstantiateInSubtyping)
CHECK_EQ("<a, b...>((a) -> (b...), a) -> (b...)", toString(tm->givenType));
else
CHECK_EQ("((string) -> number, string) -> number", toString(*tm->givenType));
}
TEST_CASE_FIXTURE(Fixture, "self_recursive_instantiated_param")
{
// Mutability in type function application right now can create strange recursive types
CheckResult result = check(R"(
type Table = { a: number }
type Self<T> = T
local a: Self<Table>
)");
LUAU_REQUIRE_NO_ERRORS(result);
CHECK_EQ(toString(requireType("a")), "Table");
}
TEST_CASE_FIXTURE(Fixture, "no_stack_overflow_from_quantifying")
{
CheckResult result = check(R"(
function _(l0:t0): (any, ()->())
end
type t0 = t0 | {}
)");
LUAU_REQUIRE_ERRORS(result);
std::optional<TypeId> t0 = lookupType("t0");
REQUIRE(t0);
CHECK_EQ("*error-type*", toString(*t0));
auto it = std::find_if(result.errors.begin(), result.errors.end(), [](TypeError& err) {
return get<OccursCheckFailed>(err);
});
CHECK(it != result.errors.end());
}
TEST_CASE_FIXTURE(BuiltinsFixture, "infer_generic_function_function_argument")
{
CheckResult result = check(R"(
local function sum<a>(x: a, y: a, f: (a, a) -> a)
return f(x, y)
end
return sum(2, 3, function(a, b) return a + b end)
)");
LUAU_REQUIRE_NO_ERRORS(result);
}
TEST_CASE_FIXTURE(BuiltinsFixture, "infer_generic_function_function_argument_2")
{
CheckResult result = check(R"(
local function map<a, b>(arr: {a}, f: (a) -> b)
local r = {}
for i,v in ipairs(arr) do
table.insert(r, f(v))
end
return r
end
local a = {1, 2, 3}
local r = map(a, function(a) return a + a > 100 end)
)");
LUAU_REQUIRE_NO_ERRORS(result);
REQUIRE_EQ("{boolean}", toString(requireType("r")));
}
TEST_CASE_FIXTURE(BuiltinsFixture, "infer_generic_function_function_argument_3")
{
CheckResult result = check(R"(
local function foldl<a, b>(arr: {a}, init: b, f: (b, a) -> b)
local r = init
for i,v in ipairs(arr) do
r = f(r, v)
end
return r
end
local a = {1, 2, 3}
local r = foldl(a, {s=0,c=0}, function(a, b) return {s = a.s + b, c = a.c + 1} end)
)");
LUAU_REQUIRE_NO_ERRORS(result);
REQUIRE_EQ("{ c: number, s: number }", toString(requireType("r")));
}
TEST_CASE_FIXTURE(Fixture, "infer_generic_function_function_argument_overloaded")
{
CheckResult result = check(R"(
local g12: (<T>(T, (T) -> T) -> T) & (<T>(T, T, (T, T) -> T) -> T)
g12(1, function(x) return x + x end)
g12(1, 2, function(x, y) return x + y end)
)");
LUAU_REQUIRE_NO_ERRORS(result);
result = check(R"(
local g12: (<T>(T, (T) -> T) -> T) & (<T>(T, T, (T, T) -> T) -> T)
g12({x=1}, function(x) return {x=-x.x} end)
g12({x=1}, {x=2}, function(x, y) return {x=x.x + y.x} end)
)");
LUAU_REQUIRE_NO_ERRORS(result);
}
TEST_CASE_FIXTURE(BuiltinsFixture, "infer_generic_lib_function_function_argument")
{
CheckResult result = check(R"(
local a = {{x=4}, {x=7}, {x=1}}
table.sort(a, function(x, y) return x.x < y.x end)
)");
LUAU_REQUIRE_NO_ERRORS(result);
}
TEST_CASE_FIXTURE(Fixture, "do_not_infer_generic_functions")
{
CheckResult result = check(R"(
local function sum<a>(x: a, y: a, f: (a, a) -> a) return f(x, y) end
local function sumrec(f: typeof(sum))
return sum(2, 3, function(a, b) return a + b end)
end
local b = sumrec(sum) -- ok
local c = sumrec(function(x, y, f) return f(x, y) end) -- type binders are not inferred
)");
LUAU_REQUIRE_NO_ERRORS(result);
}
TEST_CASE_FIXTURE(Fixture, "substitution_with_bound_table")
{
CheckResult result = check(R"(
type A = { x: number }
local a: A = { x = 1 }
local b = a
type B = typeof(b)
type X<T> = T
local c: X<B>
)");
LUAU_REQUIRE_NO_ERRORS(result);
}
TEST_CASE_FIXTURE(Fixture, "apply_type_function_nested_generics1")
{
// https://github.com/Roblox/luau/issues/484
CheckResult result = check(R"(
--!strict
type MyObject = {
getReturnValue: <V>(cb: () -> V) -> V
}
local object: MyObject = {
getReturnValue = function<U>(cb: () -> U): U
return cb()
end,
}
type ComplexObject<T> = {
id: T,
nested: MyObject
}
local complex: ComplexObject<string> = {
id = "Foo",
nested = object,
}
)");
LUAU_REQUIRE_NO_ERRORS(result);
}
TEST_CASE_FIXTURE(Fixture, "apply_type_function_nested_generics2")
{
// https://github.com/Roblox/luau/issues/484
CheckResult result = check(R"(
--!strict
type MyObject = {
getReturnValue: <V>(cb: () -> V) -> V
}
type ComplexObject<T> = {
id: T,
nested: MyObject
}
local complex2: ComplexObject<string> = nil
local x = complex2.nested.getReturnValue(function(): string
return ""
end)
local y = complex2.nested.getReturnValue(function()
return 3
end)
)");
LUAU_REQUIRE_NO_ERRORS(result);
}
TEST_CASE_FIXTURE(Fixture, "quantify_functions_even_if_they_have_an_explicit_generic")
{
CheckResult result = check(R"(
function foo<X>(f, x: X)
return f(x)
end
)");
CHECK("<X, a...>((X) -> (a...), X) -> (a...)" == toString(requireType("foo")));
}
TEST_CASE_FIXTURE(Fixture, "do_not_always_instantiate_generic_intersection_types")
{
CheckResult result = check(R"(
--!strict
type Array<T> = { [number]: T }
type Array_Statics = {
new: <T>() -> Array<T>,
}
local _Arr : Array<any> & Array_Statics = {} :: Array_Statics
)");
LUAU_REQUIRE_NO_ERRORS(result);
}
TEST_CASE_FIXTURE(BuiltinsFixture, "hof_subtype_instantiation_regression")
{
CheckResult result = check(R"(
--!strict
local function defaultSort<T>(a: T, b: T)
return true
end
type A = any
return function<T>(array: {T}): {T}
table.sort(array, defaultSort)
return array
end
)");
LUAU_REQUIRE_NO_ERRORS(result);
}
TEST_CASE_FIXTURE(BuiltinsFixture, "higher_rank_polymorphism_should_not_accept_instantiated_arguments")
{
ScopedFastFlag sffs[] = {
{"LuauInstantiateInSubtyping", true},
};
CheckResult result = check(R"(
--!strict
local function instantiate(f: <a>(a) -> a): (number) -> number
return f
end
instantiate(function(x: string) return "foo" end)
)");
LUAU_REQUIRE_ERROR_COUNT(1, result);
auto tm1 = get<TypeMismatch>(result.errors[0]);
REQUIRE(tm1);
CHECK_EQ("<a>(a) -> a", toString(tm1->wantedType));
CHECK_EQ("<a>(string) -> string", toString(tm1->givenType));
}
TEST_CASE_FIXTURE(Fixture, "bidirectional_checking_and_generalization_play_nice")
{
CheckResult result = check(R"(
local foo = function(a)
return a()
end
local a = foo(function() return 1 end)
local b = foo(function() return "bar" end)
)");
LUAU_REQUIRE_NO_ERRORS(result);
CHECK("number" == toString(requireType("a")));
CHECK("string" == toString(requireType("b")));
}
TEST_SUITE_END();
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