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620 lines
20 KiB
C++
620 lines
20 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/Parser.h"
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#include "Luau/TypeInfer.h"
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#include "Fixture.h"
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#include "doctest.h"
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#include <algorithm>
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LUAU_FASTFLAG(LuauEqConstraint)
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LUAU_FASTFLAG(LuauQuantifyInPlace2)
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using namespace Luau;
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TEST_SUITE_BEGIN("ProvisionalTests");
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// These tests check for behavior that differs from the final behavior we'd
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// like to have. They serve to document the current state of the typechecker.
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// When making future improvements, its very likely these tests will break and
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// will need to be replaced.
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/*
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* This test falls into a sort of "do as I say" pit of consequences:
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* Technically, the type of the type() function is <T>(T) -> string
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*
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* We thus infer that the argument to f is a free type.
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* While we can still learn something about this argument, we can't seem to infer a union for it.
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*
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* Is this good? Maybe not, but I'm not sure what else we should do.
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*/
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TEST_CASE_FIXTURE(Fixture, "typeguard_inference_incomplete")
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{
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const std::string code = R"(
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function f(a)
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if type(a) == "boolean" then
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local a1 = a
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elseif a.fn() then
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local a2 = a
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end
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end
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)";
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const std::string old_expected = R"(
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function f(a:{fn:()->(free,free...)}): ()
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if type(a) == 'boolean'then
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local a1:boolean=a
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elseif a.fn()then
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local a2:{fn:()->(free,free...)}=a
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end
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end
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)";
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const std::string expected = R"(
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function f(a:{fn:()->(a,b...)}): ()
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if type(a) == 'boolean'then
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local a1:boolean=a
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elseif a.fn()then
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local a2:{fn:()->(a,b...)}=a
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end
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end
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)";
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if (FFlag::LuauQuantifyInPlace2)
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CHECK_EQ(expected, decorateWithTypes(code));
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else
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CHECK_EQ(old_expected, decorateWithTypes(code));
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}
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TEST_CASE_FIXTURE(Fixture, "xpcall_returns_what_f_returns")
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{
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const std::string code = R"(
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local a, b, c = xpcall(function() return 1, "foo" end, function() return "foo", 1 end)
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)";
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const std::string expected = R"(
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local a:boolean,b:number,c:string=xpcall(function(): (number,string)return 1,'foo'end,function(): (string,number)return'foo',1 end)
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)";
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CHECK_EQ(expected, decorateWithTypes(code));
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}
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// We had a bug where if you have two type packs that looks like:
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// { x, y }, ...
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// { x }, ...
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// It would infinitely grow the type pack because one WeirdIter is trying to catch up, but can't.
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// However, the following snippet is supposed to generate an OccursCheckFailed, but it doesn't.
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TEST_CASE_FIXTURE(Fixture, "weirditer_should_not_loop_forever")
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{
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// this flag is intentionally here doing nothing to demonstrate that we exit early via case detection
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ScopedFastInt sfis{"LuauTypeInferTypePackLoopLimit", 50};
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CheckResult result = check(R"(
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local function toVertexList(vertices, x, y, ...)
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if not (x and y) then return vertices end -- no more arguments
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vertices[#vertices + 1] = {x = x, y = y} -- set vertex
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return toVertexList(vertices, ...) -- recurse
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end
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)");
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LUAU_REQUIRE_NO_ERRORS(result);
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}
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// This should also generate an OccursCheckFailed error too, like the above toVertexList snippet.
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// 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.
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TEST_CASE_FIXTURE(Fixture, "it_should_be_agnostic_of_actual_size")
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{
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CheckResult result = check(R"(
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local function f(x, y, ...)
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if not y then return x end
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return f(x, ...)
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end
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f(3, 2, 1, 0)
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)");
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LUAU_REQUIRE_NO_ERRORS(result);
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}
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// Ideally setmetatable's second argument would be an optional free table.
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// For now, infer it as just a free table.
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TEST_CASE_FIXTURE(Fixture, "setmetatable_constrains_free_type_into_free_table")
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{
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CheckResult result = check(R"(
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local a = {}
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local b
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setmetatable(a, b)
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b = 1
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)");
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LUAU_REQUIRE_ERROR_COUNT(1, result);
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TypeMismatch* tm = get<TypeMismatch>(result.errors[0]);
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REQUIRE(tm);
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CHECK_EQ("{- -}", toString(tm->wantedType));
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CHECK_EQ("number", toString(tm->givenType));
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}
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TEST_CASE_FIXTURE(Fixture, "pass_a_union_of_tables_to_a_function_that_requires_a_table")
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{
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CheckResult result = check(R"(
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local a: {x: number, y: number, [any]: any} | {y: number}
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function f(t)
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t.y = 1
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return t
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end
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local b = f(a)
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)");
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LUAU_REQUIRE_NO_ERRORS(result);
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// :(
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// Should be the same as the type of a
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REQUIRE_EQ("{| y: number |}", toString(requireType("b")));
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}
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TEST_CASE_FIXTURE(Fixture, "pass_a_union_of_tables_to_a_function_that_requires_a_table_2")
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{
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CheckResult result = check(R"(
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local a: {y: number} | {x: number, y: number, [any]: any}
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function f(t)
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t.y = 1
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return t
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end
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local b = f(a)
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)");
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LUAU_REQUIRE_NO_ERRORS(result);
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// :(
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// Should be the same as the type of a
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REQUIRE_EQ("{| [any]: any, x: number, y: number |}", toString(requireType("b")));
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}
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// Luau currently doesn't yet know how to allow assignments when the binding was refined.
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TEST_CASE_FIXTURE(Fixture, "while_body_are_also_refined")
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{
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CheckResult result = check(R"(
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type Node<T> = { value: T, child: Node<T>? }
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local function visitor<T>(node: Node<T>, f: (T) -> ())
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local current = node
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while current do
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f(current.value)
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current = current.child -- TODO: Can't work just yet. It thinks 'current' can never be nil. :(
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end
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end
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)");
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LUAU_REQUIRE_ERROR_COUNT(1, result);
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CHECK_EQ("Type 'Node<T>?' could not be converted into 'Node<T>'", toString(result.errors[0]));
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}
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// Originally from TypeInfer.test.cpp.
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// I dont think type checking the metamethod at every site of == is the correct thing to do.
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// We should be type checking the metamethod at the call site of setmetatable.
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TEST_CASE_FIXTURE(Fixture, "error_on_eq_metamethod_returning_a_type_other_than_boolean")
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{
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CheckResult result = check(R"(
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local tab = {a = 1}
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setmetatable(tab, {__eq = function(a, b): number
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return 1
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end})
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local tab2 = tab
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local a = tab2 == tab
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)");
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LUAU_REQUIRE_ERROR_COUNT(1, result);
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GenericError* ge = get<GenericError>(result.errors[0]);
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REQUIRE(ge);
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CHECK_EQ("Metamethod '__eq' must return type 'boolean'", ge->message);
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}
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// Requires success typing to confidently determine that this expression has no overlap.
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TEST_CASE_FIXTURE(Fixture, "operator_eq_completely_incompatible")
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{
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CheckResult result = check(R"(
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local a: string | number = "hi"
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local b: {x: string}? = {x = "bye"}
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local r1 = a == b
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local r2 = b == a
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)");
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LUAU_REQUIRE_NO_ERRORS(result);
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}
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// Belongs in TypeInfer.refinements.test.cpp.
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// We'll need to not only report an error on `a == b`, but also to refine both operands as `never` in the `==` branch.
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TEST_CASE_FIXTURE(Fixture, "lvalue_equals_another_lvalue_with_no_overlap")
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{
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ScopedFastFlag sff1{"LuauEqConstraint", true};
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CheckResult result = check(R"(
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local function f(a: string, b: boolean?)
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if a == b then
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local foo, bar = a, b
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else
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local foo, bar = a, b
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end
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end
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)");
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LUAU_REQUIRE_NO_ERRORS(result);
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CHECK_EQ(toString(requireTypeAtPosition({3, 33})), "string"); // a == b
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CHECK_EQ(toString(requireTypeAtPosition({3, 36})), "boolean?"); // a == b
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CHECK_EQ(toString(requireTypeAtPosition({5, 33})), "string"); // a ~= b
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CHECK_EQ(toString(requireTypeAtPosition({5, 36})), "boolean?"); // a ~= b
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}
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// Also belongs in TypeInfer.refinements.test.cpp.
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// Just needs to fully support equality refinement. Which is annoying without type states.
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TEST_CASE_FIXTURE(Fixture, "discriminate_from_x_not_equal_to_nil")
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{
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ScopedFastFlag sff{"LuauDiscriminableUnions", true};
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CheckResult result = check(R"(
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type T = {x: string, y: number} | {x: nil, y: nil}
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local function f(t: T)
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if t.x ~= nil then
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local foo = t
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else
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local bar = t
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end
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end
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)");
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LUAU_REQUIRE_NO_ERRORS(result);
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CHECK_EQ("{| x: string, y: number |}", toString(requireTypeAtPosition({5, 28})));
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// Should be {| x: nil, y: nil |}
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CHECK_EQ("{| x: nil, y: nil |} | {| x: string, y: number |}", toString(requireTypeAtPosition({7, 28})));
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}
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TEST_CASE_FIXTURE(Fixture, "bail_early_if_unification_is_too_complicated" * doctest::timeout(0.5))
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{
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ScopedFastInt sffi{"LuauTarjanChildLimit", 1};
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ScopedFastInt sffi2{"LuauTypeInferIterationLimit", 1};
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CheckResult result = check(R"LUA(
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local Result
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Result = setmetatable({}, {})
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Result.__index = Result
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function Result.new(okValue)
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local self = setmetatable({}, Result)
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self:constructor(okValue)
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return self
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end
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function Result:constructor(okValue)
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self.okValue = okValue
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end
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function Result:ok(val) return Result.new(val) end
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function Result:a(p0, p1, p2, p3, p4) return Result.new((self.okValue)) or p0 or p1 or p2 or p3 or p4 end
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function Result:b(p0, p1, p2, p3, p4) return Result:ok((self.okValue)) or p0 or p1 or p2 or p3 or p4 end
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function Result:c(p0, p1, p2, p3, p4) return Result:ok((self.okValue)) or p0 or p1 or p2 or p3 or p4 end
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function Result:transpose(a)
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return a and self.okValue:z(function(some)
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return Result:ok(some)
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end) or Result:ok(self.okValue)
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end
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)LUA");
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auto it = std::find_if(result.errors.begin(), result.errors.end(), [](TypeError& a) {
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return nullptr != get<UnificationTooComplex>(a);
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});
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if (it == result.errors.end())
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{
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dumpErrors(result);
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FAIL("Expected a UnificationTooComplex error");
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}
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}
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TEST_CASE_FIXTURE(Fixture, "bail_early_on_typescript_port_of_Result_type" * doctest::timeout(1.0))
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{
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ScopedFastInt sffi{"LuauTarjanChildLimit", 400};
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CheckResult result = check(R"LUA(
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--!strict
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local TS = _G[script]
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local lazyGet = TS.import(script, script.Parent.Parent, "util", "lazyLoad").lazyGet
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local unit = TS.import(script, script.Parent.Parent, "util", "Unit").unit
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local Iterator
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lazyGet("Iterator", function(c)
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Iterator = c
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end)
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local Option
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lazyGet("Option", function(c)
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Option = c
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end)
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local Vec
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lazyGet("Vec", function(c)
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Vec = c
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end)
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local Result
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do
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Result = setmetatable({}, {
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__tostring = function()
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return "Result"
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end,
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})
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Result.__index = Result
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function Result.new(...)
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local self = setmetatable({}, Result)
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self:constructor(...)
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return self
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end
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function Result:constructor(okValue, errValue)
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self.okValue = okValue
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self.errValue = errValue
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end
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function Result:ok(val)
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return Result.new(val, nil)
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end
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function Result:err(val)
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return Result.new(nil, val)
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end
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function Result:fromCallback(c)
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local _0 = c
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local _1, _2 = pcall(_0)
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local result = _1 and {
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success = true,
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value = _2,
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} or {
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success = false,
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error = _2,
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}
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return result.success and Result:ok(result.value) or Result:err(Option:wrap(result.error))
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end
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function Result:fromVoidCallback(c)
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local _0 = c
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local _1, _2 = pcall(_0)
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local result = _1 and {
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success = true,
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value = _2,
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} or {
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success = false,
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error = _2,
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}
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return result.success and Result:ok(unit()) or Result:err(Option:wrap(result.error))
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end
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Result.fromPromise = TS.async(function(self, p)
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local _0, _1 = TS.try(function()
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return TS.TRY_RETURN, { Result:ok(TS.await(p)) }
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end, function(e)
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return TS.TRY_RETURN, { Result:err(Option:wrap(e)) }
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end)
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if _0 then
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return unpack(_1)
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end
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end)
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Result.fromVoidPromise = TS.async(function(self, p)
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local _0, _1 = TS.try(function()
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TS.await(p)
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return TS.TRY_RETURN, { Result:ok(unit()) }
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end, function(e)
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return TS.TRY_RETURN, { Result:err(Option:wrap(e)) }
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end)
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if _0 then
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return unpack(_1)
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end
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end)
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function Result:isOk()
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return self.okValue ~= nil
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end
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function Result:isErr()
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return self.errValue ~= nil
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end
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function Result:contains(x)
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return self.okValue == x
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end
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function Result:containsErr(x)
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return self.errValue == x
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end
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function Result:okOption()
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return Option:wrap(self.okValue)
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end
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function Result:errOption()
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return Option:wrap(self.errValue)
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end
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function Result:map(func)
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return self:isOk() and Result:ok(func(self.okValue)) or Result:err(self.errValue)
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end
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function Result:mapOr(def, func)
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local _0
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if self:isOk() then
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_0 = func(self.okValue)
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else
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_0 = def
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end
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return _0
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end
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function Result:mapOrElse(def, func)
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local _0
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if self:isOk() then
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_0 = func(self.okValue)
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else
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_0 = def(self.errValue)
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end
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return _0
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end
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function Result:mapErr(func)
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return self:isErr() and Result:err(func(self.errValue)) or Result:ok(self.okValue)
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end
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Result["and"] = function(self, other)
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return self:isErr() and Result:err(self.errValue) or other
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end
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function Result:andThen(func)
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return self:isErr() and Result:err(self.errValue) or func(self.okValue)
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end
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Result["or"] = function(self, other)
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return self:isOk() and Result:ok(self.okValue) or other
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end
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function Result:orElse(other)
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return self:isOk() and Result:ok(self.okValue) or other(self.errValue)
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end
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function Result:expect(msg)
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if self:isOk() then
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return self.okValue
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else
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error(msg)
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end
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end
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function Result:unwrap()
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return self:expect("called `Result.unwrap()` on an `Err` value: " .. tostring(self.errValue))
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end
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function Result:unwrapOr(def)
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local _0
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if self:isOk() then
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_0 = self.okValue
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else
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_0 = def
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end
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return _0
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end
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function Result:unwrapOrElse(gen)
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local _0
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if self:isOk() then
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_0 = self.okValue
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else
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_0 = gen(self.errValue)
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end
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return _0
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end
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function Result:expectErr(msg)
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if self:isErr() then
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return self.errValue
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else
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error(msg)
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end
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end
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function Result:unwrapErr()
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return self:expectErr("called `Result.unwrapErr()` on an `Ok` value: " .. tostring(self.okValue))
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end
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function Result:transpose()
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return self:isOk() and self.okValue:map(function(some)
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return Result:ok(some)
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end) or Option:some(Result:err(self.errValue))
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end
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function Result:flatten()
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return self:isOk() and Result.new(self.okValue.okValue, self.okValue.errValue) or Result:err(self.errValue)
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end
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function Result:match(ifOk, ifErr)
|
|
local _0
|
|
if self:isOk() then
|
|
_0 = ifOk(self.okValue)
|
|
else
|
|
_0 = ifErr(self.errValue)
|
|
end
|
|
return _0
|
|
end
|
|
function Result:asPtr()
|
|
local _0 = (self.okValue)
|
|
if _0 == nil then
|
|
_0 = (self.errValue)
|
|
end
|
|
return _0
|
|
end
|
|
end
|
|
local resultMeta = Result
|
|
resultMeta.__eq = function(a, b)
|
|
return b:match(function(ok)
|
|
return a:contains(ok)
|
|
end, function(err)
|
|
return a:containsErr(err)
|
|
end)
|
|
end
|
|
resultMeta.__tostring = function(result)
|
|
return result:match(function(ok)
|
|
return "Result.ok(" .. tostring(ok) .. ")"
|
|
end, function(err)
|
|
return "Result.err(" .. tostring(err) .. ")"
|
|
end)
|
|
end
|
|
return {
|
|
Result = Result,
|
|
}
|
|
)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");
|
|
}
|
|
}
|
|
|
|
TEST_CASE_FIXTURE(Fixture, "table_subtyping_shouldn't_add_optional_properties_to_sealed_tables")
|
|
{
|
|
CheckResult result = check(R"(
|
|
--!strict
|
|
local function setNumber(t: { p: number? }, x:number) t.p = x end
|
|
local function getString(t: { p: string? }):string return t.p or "" end
|
|
-- This shouldn't type-check!
|
|
local function oh(x:number): string
|
|
local t: {} = {}
|
|
setNumber(t, x)
|
|
return getString(t)
|
|
end
|
|
local s: string = oh(37)
|
|
)");
|
|
|
|
// Really this should return an error, but it doesn't
|
|
LUAU_REQUIRE_NO_ERRORS(result);
|
|
}
|
|
|
|
// Should be in TypeInfer.tables.test.cpp
|
|
// It's unsound to instantiate tables containing generic methods,
|
|
// since mutating properties means table properties should be invariant.
|
|
// We currently allow this but we shouldn't!
|
|
TEST_CASE_FIXTURE(Fixture, "invariant_table_properties_means_instantiating_tables_in_call_is_unsound")
|
|
{
|
|
CheckResult result = check(R"(
|
|
--!strict
|
|
local t = {}
|
|
function t.m(x) return x end
|
|
local a : string = t.m("hi")
|
|
local b : number = t.m(5)
|
|
function f(x : { m : (number)->number })
|
|
x.m = function(x) return 1+x end
|
|
end
|
|
f(t) -- This shouldn't typecheck
|
|
local c : string = t.m("hi")
|
|
)");
|
|
|
|
// TODO: this should error!
|
|
// This should be fixed by replacing generic tables by generics with type bounds.
|
|
LUAU_REQUIRE_NO_ERRORS(result);
|
|
}
|
|
|
|
TEST_CASE_FIXTURE(Fixture, "self_recursive_instantiated_param")
|
|
{
|
|
// Mutability in type function application right now can create strange recursive types
|
|
// TODO: instantiation right now is problematic, in this example should either leave the Table type alone
|
|
// or it should rename the type to 'Self' so that the result will be 'Self<Table>'
|
|
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<Table>");
|
|
}
|
|
|
|
TEST_SUITE_END();
|