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c1bbf1ebec
luau/tests/Differ.test.cpp
Vighnesh-V 3b0e93bec9
Sync to upstream/release/614 (#1173) 
# What's changed?
Add program argument passing to scripts run using the Luau REPL! You can
now pass `--program-args` (or shorthand `-a`) to the REPL which will
treat all remaining arguments as arguments to pass to executed scripts.
These values can be accessed through variadic argument expansion. You
can read these values like so:
```
local args = {...} -- gets you an array of all the arguments
```
For example if we run the following script like `luau test.lua -a test1
test2 test3`:
```
-- test.lua
print(...)
```
you should get the output:
```
test1 test2 test3
```

### Native Code Generation

* Improve A64 lowering for vector operations by using vector
instructions
* Fix lowering issue in IR value location tracking! 
- A developer reported a divergence between code run in the VM and
Native Code Generation which we have now fixed

### New Type Solver

* Apply substitution to type families, and emit new constraints to
reduce those further
* More progress on reducing comparison  (`lt/le`)type families
* Resolve two major sources of cyclic types in the new solver

### Miscellaneous
* Turned internal compiler errors (ICE's) into warnings and errors

-------
Co-authored-by: Aaron Weiss <aaronweiss@roblox.com>
Co-authored-by: Alexander McCord <amccord@roblox.com>
Co-authored-by: Andy Friesen <afriesen@roblox.com>
Co-authored-by: Aviral Goel <agoel@roblox.com>
Co-authored-by: Vyacheslav Egorov <vegorov@roblox.com>

---------

Co-authored-by: Aaron Weiss <aaronweiss@roblox.com>
Co-authored-by: Alexander McCord <amccord@roblox.com>
Co-authored-by: Andy Friesen <afriesen@roblox.com>
Co-authored-by: Aviral Goel <agoel@roblox.com>
Co-authored-by: David Cope <dcope@roblox.com>
Co-authored-by: Lily Brown <lbrown@roblox.com>
Co-authored-by: Vyacheslav Egorov <vegorov@roblox.com>
2024-02-23 12:08:34 -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/Differ.h"
#include "Luau/Common.h"
#include "Luau/Error.h"
#include "Luau/Frontend.h"
#include "Fixture.h"
#include "ClassFixture.h"
#include "Luau/Symbol.h"
#include "Luau/Type.h"
#include "ScopedFlags.h"
#include "doctest.h"
#include <iostream>
using namespace Luau;
LUAU_FASTFLAG(DebugLuauDeferredConstraintResolution)
TEST_SUITE_BEGIN("Differ");
TEST_CASE_FIXTURE(DifferFixture, "equal_numbers")
{
CheckResult result = check(R"(
local foo = 5
local almostFoo = 78
)");
LUAU_REQUIRE_NO_ERRORS(result);
compareTypesEq("foo", "almostFoo");
}
TEST_CASE_FIXTURE(DifferFixture, "equal_strings")
{
CheckResult result = check(R"(
local foo = "hello"
local almostFoo = "world"
)");
LUAU_REQUIRE_NO_ERRORS(result);
compareTypesEq("foo", "almostFoo");
}
TEST_CASE_FIXTURE(DifferFixture, "equal_tables")
{
CheckResult result = check(R"(
local foo = { x = 1, y = "where" }
local almostFoo = { x = 5, y = "when" }
)");
LUAU_REQUIRE_NO_ERRORS(result);
compareTypesEq("foo", "almostFoo");
}
TEST_CASE_FIXTURE(DifferFixture, "a_table_missing_property")
{
CheckResult result = check(R"(
local foo = { x = 1, y = 2 }
local almostFoo = { x = 1, z = 3 }
)");
LUAU_REQUIRE_NO_ERRORS(result);
compareTypesNe("foo", "almostFoo",
"DiffError: these two types are not equal because the left type at foo.y has type number, while the right type at almostFoo is missing "
"the property y");
}
TEST_CASE_FIXTURE(DifferFixture, "left_table_missing_property")
{
CheckResult result = check(R"(
local foo = { x = 1 }
local almostFoo = { x = 1, z = 3 }
)");
LUAU_REQUIRE_NO_ERRORS(result);
compareTypesNe("foo", "almostFoo",
"DiffError: these two types are not equal because the left type at foo is missing the property z, while the right type at almostFoo.z "
"has type number");
}
TEST_CASE_FIXTURE(DifferFixture, "a_table_wrong_type")
{
CheckResult result = check(R"(
local foo = { x = 1, y = 2 }
local almostFoo = { x = 1, y = "two" }
)");
LUAU_REQUIRE_NO_ERRORS(result);
compareTypesNe("foo", "almostFoo",
"DiffError: these two types are not equal because the left type at foo.y has type number, while the right type at almostFoo.y has type "
"string");
}
TEST_CASE_FIXTURE(DifferFixture, "a_table_wrong_type")
{
CheckResult result = check(R"(
local foo: string
local almostFoo: number
)");
LUAU_REQUIRE_NO_ERRORS(result);
compareTypesNe("foo", "almostFoo",
"DiffError: these two types are not equal because the left type at <unlabeled-symbol> has type string, while the right type at "
"<unlabeled-symbol> has type number");
}
TEST_CASE_FIXTURE(DifferFixture, "a_nested_table_wrong_type")
{
CheckResult result = check(R"(
local foo = { x = 1, inner = { table = { has = { wrong = { value = 5 } } } } }
local almostFoo = { x = 1, inner = { table = { has = { wrong = { value = "five" } } } } }
)");
LUAU_REQUIRE_NO_ERRORS(result);
compareTypesNe("foo", "almostFoo",
"DiffError: these two types are not equal because the left type at foo.inner.table.has.wrong.value has type number, while the right "
"type at almostFoo.inner.table.has.wrong.value has type string");
}
TEST_CASE_FIXTURE(DifferFixture, "a_nested_table_wrong_match")
{
CheckResult result = check(R"(
local foo = { x = 1, inner = { table = { has = { wrong = { variant = { because = { it = { goes = { on = "five" } } } } } } } } }
local almostFoo = { x = 1, inner = { table = { has = { wrong = { variant = "five" } } } } }
)");
LUAU_REQUIRE_NO_ERRORS(result);
compareTypesNe("foo", "almostFoo",
"DiffError: these two types are not equal because the left type at foo.inner.table.has.wrong.variant has type { because: { it: { goes: "
"{ on: string } } } }, while the right type at almostFoo.inner.table.has.wrong.variant has type string");
}
TEST_CASE_FIXTURE(DifferFixture, "left_cyclic_table_right_table_missing_property")
{
CheckResult result = check(R"(
local function id<a>(x: a): a
return x
end
-- Remove name from cyclic table
local foo = id({})
foo.foo = foo
local almostFoo = { x = 2 }
)");
LUAU_REQUIRE_NO_ERRORS(result);
compareTypesNe("foo", "almostFoo",
R"(DiffError: these two types are not equal because the left type at <unlabeled-symbol>.foo has type t1 where t1 = { foo: t1 }, while the right type at almostFoo is missing the property foo)");
}
TEST_CASE_FIXTURE(DifferFixture, "left_cyclic_table_right_table_property_wrong")
{
CheckResult result = check(R"(
local function id<a>(x: a): a
return x
end
-- Remove name from cyclic table
local foo = id({})
foo.foo = foo
local almostFoo = { foo = 2 }
)");
LUAU_REQUIRE_NO_ERRORS(result);
compareTypesNe("foo", "almostFoo",
R"(DiffError: these two types are not equal because the left type at <unlabeled-symbol>.foo has type t1 where t1 = { foo: t1 }, while the right type at almostFoo.foo has type number)");
}
TEST_CASE_FIXTURE(DifferFixture, "right_cyclic_table_left_table_missing_property")
{
CheckResult result = check(R"(
local function id<a>(x: a): a
return x
end
-- Remove name from cyclic table
local foo = id({})
foo.foo = foo
local almostFoo = { x = 2 }
)");
LUAU_REQUIRE_NO_ERRORS(result);
compareTypesNe("almostFoo", "foo",
R"(DiffError: these two types are not equal because the left type at almostFoo.x has type number, while the right type at <unlabeled-symbol> is missing the property x)");
}
TEST_CASE_FIXTURE(DifferFixture, "right_cyclic_table_left_table_property_wrong")
{
CheckResult result = check(R"(
local function id<a>(x: a): a
return x
end
-- Remove name from cyclic table
local foo = id({})
foo.foo = foo
local almostFoo = { foo = 2 }
)");
LUAU_REQUIRE_NO_ERRORS(result);
compareTypesNe("almostFoo", "foo",
R"(DiffError: these two types are not equal because the left type at almostFoo.foo has type number, while the right type at <unlabeled-symbol>.foo has type t1 where t1 = { foo: t1 })");
}
TEST_CASE_FIXTURE(DifferFixture, "equal_table_two_cyclic_tables_are_not_different")
{
ScopedFastFlag sff{FFlag::DebugLuauDeferredConstraintResolution, false};
CheckResult result = check(R"(
local function id<a>(x: a): a
return x
end
-- Remove name from cyclic table
local foo = id({})
foo.foo = foo
local almostFoo = id({})
almostFoo.foo = almostFoo
)");
LUAU_REQUIRE_NO_ERRORS(result);
compareTypesEq("foo", "almostFoo");
}
TEST_CASE_FIXTURE(DifferFixture, "equal_table_two_shifted_circles_are_not_different")
{
CheckResult result = check(R"(
local function id<a>(x: a): a
return x
end
-- Remove name from cyclic table
local foo = id({})
foo.foo = id({})
foo.foo.foo = id({})
foo.foo.foo.foo = id({})
foo.foo.foo.foo.foo = foo
local builder = id({})
builder.foo = id({})
builder.foo.foo = id({})
builder.foo.foo.foo = id({})
builder.foo.foo.foo.foo = builder
-- Shift
local almostFoo = builder.foo.foo
)");
LUAU_REQUIRE_NO_ERRORS(result);
compareTypesEq("foo", "almostFoo");
}
TEST_CASE_FIXTURE(DifferFixture, "table_left_circle_right_measuring_tape")
{
// Left is a circle, right is a measuring tape
CheckResult result = check(R"(
local function id<a>(x: a): a
return x
end
-- Remove name from cyclic table
local foo = id({})
foo.foo = id({})
foo.foo.foo = id({})
foo.foo.foo.foo = id({})
foo.foo.foo.bar = id({}) -- anchor to pin shape
foo.foo.foo.foo.foo = foo
local almostFoo = id({})
almostFoo.foo = id({})
almostFoo.foo.foo = id({})
almostFoo.foo.foo.foo = id({})
almostFoo.foo.foo.bar = id({}) -- anchor to pin shape
almostFoo.foo.foo.foo.foo = almostFoo.foo
)");
LUAU_REQUIRE_NO_ERRORS(result);
compareTypesNe("foo", "almostFoo",
R"(DiffError: these two types are not equal because the left type at <unlabeled-symbol>.foo.foo.foo.foo.foo is missing the property bar, while the right type at <unlabeled-symbol>.foo.foo.foo.foo.foo.bar has type { })");
}
TEST_CASE_FIXTURE(DifferFixture, "equal_table_measuring_tapes")
{
CheckResult result = check(R"(
local function id<a>(x: a): a
return x
end
-- Remove name from cyclic table
local foo = id({})
foo.foo = id({})
foo.foo.foo = id({})
foo.foo.foo.foo = id({})
foo.foo.foo.foo.foo = foo.foo
local almostFoo = id({})
almostFoo.foo = id({})
almostFoo.foo.foo = id({})
almostFoo.foo.foo.foo = id({})
almostFoo.foo.foo.foo.foo = almostFoo.foo
)");
LUAU_REQUIRE_NO_ERRORS(result);
compareTypesEq("foo", "almostFoo");
}
TEST_CASE_FIXTURE(DifferFixture, "equal_table_A_B_C")
{
CheckResult result = check(R"(
local function id<a>(x: a): a
return x
end
-- Remove name from cyclic table
local foo = id({})
foo.foo = id({})
foo.foo.foo = id({})
foo.foo.foo.foo = id({})
foo.foo.foo.foo.foo = foo.foo
local almostFoo = id({})
almostFoo.foo = id({})
almostFoo.foo.foo = id({})
almostFoo.foo.foo.foo = id({})
almostFoo.foo.foo.foo.foo = almostFoo.foo
)");
LUAU_REQUIRE_NO_ERRORS(result);
compareTypesEq("foo", "almostFoo");
}
TEST_CASE_FIXTURE(DifferFixture, "equal_table_kind_A")
{
CheckResult result = check(R"(
-- Remove name from cyclic table
local function id<a>(x: a): a
return x
end
local foo = id({})
foo.left = id({})
foo.right = id({})
foo.left.left = id({})
foo.left.right = id({})
foo.right.left = id({})
foo.right.right = id({})
foo.right.left.left = id({})
foo.right.left.right = id({})
foo.right.left.left.child = foo.right
local almostFoo = id({})
almostFoo.left = id({})
almostFoo.right = id({})
almostFoo.left.left = id({})
almostFoo.left.right = id({})
almostFoo.right.left = id({})
almostFoo.right.right = id({})
almostFoo.right.left.left = id({})
almostFoo.right.left.right = id({})
almostFoo.right.left.left.child = almostFoo.right
-- Bindings for requireType
local fooLeft = foo.left
local fooRight = foo.left.right
local fooLeftLeft = foo.left.left
local fooLeftRight = foo.left.right
local fooRightLeft = foo.right.left
local fooRightRight = foo.right.right
local fooRightLeftLeft = foo.right.left.left
local fooRightLeftRight = foo.right.left.right
local almostFooLeft = almostFoo.left
local almostFooRight = almostFoo.left.right
local almostFooLeftLeft = almostFoo.left.left
local almostFooLeftRight = almostFoo.left.right
local almostFooRightLeft = almostFoo.right.left
local almostFooRightRight = almostFoo.right.right
local almostFooRightLeftLeft = almostFoo.right.left.left
local almostFooRightLeftRight = almostFoo.right.left.right
)");
LUAU_REQUIRE_NO_ERRORS(result);
compareTypesEq("foo", "almostFoo");
}
TEST_CASE_FIXTURE(DifferFixture, "equal_table_kind_B")
{
CheckResult result = check(R"(
-- Remove name from cyclic table
local function id<a>(x: a): a
return x
end
local foo = id({})
foo.left = id({})
foo.right = id({})
foo.left.left = id({})
foo.left.right = id({})
foo.right.left = id({})
foo.right.right = id({})
foo.right.left.left = id({})
foo.right.left.right = id({})
foo.right.left.left.child = foo.left
local almostFoo = id({})
almostFoo.left = id({})
almostFoo.right = id({})
almostFoo.left.left = id({})
almostFoo.left.right = id({})
almostFoo.right.left = id({})
almostFoo.right.right = id({})
almostFoo.right.left.left = id({})
almostFoo.right.left.right = id({})
almostFoo.right.left.left.child = almostFoo.left
)");
LUAU_REQUIRE_NO_ERRORS(result);
compareTypesEq("foo", "almostFoo");
}
TEST_CASE_FIXTURE(DifferFixture, "equal_table_kind_C")
{
CheckResult result = check(R"(
-- Remove name from cyclic table
local function id<a>(x: a): a
return x
end
local foo = id({})
foo.left = id({})
foo.right = id({})
foo.left.left = id({})
foo.left.right = id({})
foo.right.left = id({})
foo.right.right = id({})
foo.right.left.left = id({})
foo.right.left.right = id({})
foo.right.left.left.child = foo
local almostFoo = id({})
almostFoo.left = id({})
almostFoo.right = id({})
almostFoo.left.left = id({})
almostFoo.left.right = id({})
almostFoo.right.left = id({})
almostFoo.right.right = id({})
almostFoo.right.left.left = id({})
almostFoo.right.left.right = id({})
almostFoo.right.left.left.child = almostFoo
)");
LUAU_REQUIRE_NO_ERRORS(result);
compareTypesEq("foo", "almostFoo");
}
TEST_CASE_FIXTURE(DifferFixture, "equal_table_kind_D")
{
CheckResult result = check(R"(
-- Remove name from cyclic table
local function id<a>(x: a): a
return x
end
local foo = id({})
foo.left = id({})
foo.right = id({})
foo.left.left = id({})
foo.left.right = id({})
foo.right.left = id({})
foo.right.right = id({})
foo.right.left.left = id({})
foo.right.left.right = id({})
foo.right.left.left.child = foo.right.left.left
local almostFoo = id({})
almostFoo.left = id({})
almostFoo.right = id({})
almostFoo.left.left = id({})
almostFoo.left.right = id({})
almostFoo.right.left = id({})
almostFoo.right.right = id({})
almostFoo.right.left.left = id({})
almostFoo.right.left.right = id({})
almostFoo.right.left.left.child = almostFoo.right.left.left
)");
LUAU_REQUIRE_NO_ERRORS(result);
compareTypesEq("foo", "almostFoo");
}
TEST_CASE_FIXTURE(DifferFixture, "equal_table_cyclic_diamonds_unraveled")
{
CheckResult result = check(R"(
-- Remove name from cyclic table
local function id<a>(x: a): a
return x
end
-- Pattern 1
local foo = id({})
foo.child = id({})
foo.child.left = id({})
foo.child.right = id({})
foo.child.left.child = foo
foo.child.right.child = foo
-- Pattern 2
local almostFoo = id({})
almostFoo.child = id({})
almostFoo.child.left = id({})
almostFoo.child.right = id({})
almostFoo.child.left.child = id({}) -- Use a new table
almostFoo.child.right.child = almostFoo.child.left.child -- Refer to the same new table
almostFoo.child.left.child.child = id({})
almostFoo.child.left.child.child.left = id({})
almostFoo.child.left.child.child.right = id({})
almostFoo.child.left.child.child.left.child = almostFoo.child.left.child
almostFoo.child.left.child.child.right.child = almostFoo.child.left.child
-- Pattern 3
local anotherFoo = id({})
anotherFoo.child = id({})
anotherFoo.child.left = id({})
anotherFoo.child.right = id({})
anotherFoo.child.left.child = id({}) -- Use a new table
anotherFoo.child.right.child = id({}) -- Use another new table
anotherFoo.child.left.child.child = id({})
anotherFoo.child.left.child.child.left = id({})
anotherFoo.child.left.child.child.right = id({})
anotherFoo.child.right.child.child = id({})
anotherFoo.child.right.child.child.left = id({})
anotherFoo.child.right.child.child.right = id({})
anotherFoo.child.left.child.child.left.child = anotherFoo.child.left.child
anotherFoo.child.left.child.child.right.child = anotherFoo.child.left.child
anotherFoo.child.right.child.child.left.child = anotherFoo.child.right.child
anotherFoo.child.right.child.child.right.child = anotherFoo.child.right.child
-- Pattern 4
local cleverFoo = id({})
cleverFoo.child = id({})
cleverFoo.child.left = id({})
cleverFoo.child.right = id({})
cleverFoo.child.left.child = id({}) -- Use a new table
cleverFoo.child.right.child = id({}) -- Use another new table
cleverFoo.child.left.child.child = id({})
cleverFoo.child.left.child.child.left = id({})
cleverFoo.child.left.child.child.right = id({})
cleverFoo.child.right.child.child = id({})
cleverFoo.child.right.child.child.left = id({})
cleverFoo.child.right.child.child.right = id({})
-- Same as pattern 3, but swapped here
cleverFoo.child.left.child.child.left.child = cleverFoo.child.right.child -- Swap
cleverFoo.child.left.child.child.right.child = cleverFoo.child.right.child
cleverFoo.child.right.child.child.left.child = cleverFoo.child.left.child
cleverFoo.child.right.child.child.right.child = cleverFoo.child.left.child
-- Pattern 5
local cheekyFoo = id({})
cheekyFoo.child = id({})
cheekyFoo.child.left = id({})
cheekyFoo.child.right = id({})
cheekyFoo.child.left.child = foo -- Use existing pattern
cheekyFoo.child.right.child = foo -- Use existing pattern
)");
LUAU_REQUIRE_NO_ERRORS(result);
std::vector<std::string> symbols{"foo", "almostFoo", "anotherFoo", "cleverFoo", "cheekyFoo"};
for (auto left : symbols)
{
for (auto right : symbols)
{
compareTypesEq(left, right);
}
}
}
TEST_CASE_FIXTURE(DifferFixture, "equal_function_cyclic")
{
// Old solver does not correctly infer function typepacks
ScopedFastFlag sff{FFlag::DebugLuauDeferredConstraintResolution, true};
CheckResult result = check(R"(
function foo()
return foo
end
function almostFoo()
function bar()
return bar
end
return bar
end
)");
LUAU_REQUIRE_NO_ERRORS(result);
compareTypesEq("foo", "almostFoo");
}
TEST_CASE_FIXTURE(DifferFixture, "equal_function_table_cyclic")
{
// Old solver does not correctly infer function typepacks
ScopedFastFlag sff{FFlag::DebugLuauDeferredConstraintResolution, true};
CheckResult result = check(R"(
function foo()
return {
bar = foo
}
end
function almostFoo()
function bar()
return {
bar = bar
}
end
return {
bar = bar
}
end
)");
LUAU_REQUIRE_NO_ERRORS(result);
compareTypesEq("foo", "almostFoo");
}
TEST_CASE_FIXTURE(DifferFixture, "function_table_self_referential_cyclic")
{
// Old solver does not correctly infer function typepacks
// ScopedFastFlag sff{FFlag::DebugLuauDeferredConstraintResolution, true};
CheckResult result = check(R"(
function foo()
return {
bar = foo
}
end
function almostFoo()
function bar()
return bar
end
return {
bar = bar
}
end
)");
LUAU_REQUIRE_NO_ERRORS(result);
if (FFlag::DebugLuauDeferredConstraintResolution)
compareTypesNe("foo", "almostFoo",
R"(DiffError: these two types are not equal because the left type at <unlabeled-symbol>.Ret[1].bar.Ret[1] has type t1 where t1 = { bar: () -> t1 }, while the right type at <unlabeled-symbol>.Ret[1].bar.Ret[1] has type t1 where t1 = () -> t1)");
else
compareTypesNe("foo", "almostFoo",
R"(DiffError: these two types are not equal because the left type at <unlabeled-symbol>.Ret[1].bar.Ret[1] has type t1 where t1 = {| bar: () -> t1 |}, while the right type at <unlabeled-symbol>.Ret[1].bar.Ret[1] has type t1 where t1 = () -> t1)");
}
TEST_CASE_FIXTURE(DifferFixture, "equal_union_cyclic")
{
TypeArena arena;
TypeId number = arena.addType(PrimitiveType{PrimitiveType::Number});
TypeId string = arena.addType(PrimitiveType{PrimitiveType::String});
TypeId foo = arena.addType(UnionType{std::vector<TypeId>{number, string}});
UnionType* unionFoo = getMutable<UnionType>(foo);
unionFoo->options.push_back(foo);
TypeId almostFoo = arena.addType(UnionType{std::vector<TypeId>{number, string}});
UnionType* unionAlmostFoo = getMutable<UnionType>(almostFoo);
unionAlmostFoo->options.push_back(almostFoo);
compareEq(foo, almostFoo);
}
TEST_CASE_FIXTURE(DifferFixture, "equal_intersection_cyclic")
{
// Old solver does not correctly refine test types
ScopedFastFlag sff{FFlag::DebugLuauDeferredConstraintResolution, true};
CheckResult result = check(R"(
function foo1(x: number)
return x
end
function foo2(x: string)
return 0
end
function bar1(x: number)
return x
end
function bar2(x: string)
return 0
end
)");
LUAU_REQUIRE_NO_ERRORS(result);
TypeId foo1 = requireType("foo1");
TypeId foo2 = requireType("foo2");
TypeId bar1 = requireType("bar1");
TypeId bar2 = requireType("bar2");
TypeArena arena;
TypeId foo = arena.addType(IntersectionType{std::vector<TypeId>{foo1, foo2}});
IntersectionType* intersectionFoo = getMutable<IntersectionType>(foo);
intersectionFoo->parts.push_back(foo);
TypeId almostFoo = arena.addType(IntersectionType{std::vector<TypeId>{bar1, bar2}});
IntersectionType* intersectionAlmostFoo = getMutable<IntersectionType>(almostFoo);
intersectionAlmostFoo->parts.push_back(almostFoo);
compareEq(foo, almostFoo);
}
TEST_CASE_FIXTURE(DifferFixture, "singleton")
{
CheckResult result = check(R"(
local foo: "hello" = "hello"
local almostFoo: true = true
)");
LUAU_REQUIRE_NO_ERRORS(result);
compareTypesNe("foo", "almostFoo",
R"(DiffError: these two types are not equal because the left type at <unlabeled-symbol> has type "hello", while the right type at <unlabeled-symbol> has type true)");
}
TEST_CASE_FIXTURE(DifferFixture, "equal_singleton")
{
CheckResult result = check(R"(
local foo: "hello" = "hello"
local almostFoo: "hello"
)");
LUAU_REQUIRE_NO_ERRORS(result);
compareTypesEq("foo", "almostFoo");
}
TEST_CASE_FIXTURE(DifferFixture, "singleton_string")
{
CheckResult result = check(R"(
local foo: "hello" = "hello"
local almostFoo: "world" = "world"
)");
LUAU_REQUIRE_NO_ERRORS(result);
compareTypesNe("foo", "almostFoo",
R"(DiffError: these two types are not equal because the left type at <unlabeled-symbol> has type "hello", while the right type at <unlabeled-symbol> has type "world")");
}
TEST_CASE_FIXTURE(DifferFixtureWithBuiltins, "negation")
{
if (!FFlag::DebugLuauDeferredConstraintResolution)
return;
CheckResult result = check(R"(
local bar: { x: { y: unknown }}
local almostBar: { x: { y: unknown }}
local foo
local almostFoo
if typeof(bar.x.y) ~= "string" then
foo = bar
end
if typeof(almostBar.x.y) ~= "number" then
almostFoo = almostBar
end
)");
LUAU_REQUIRE_NO_ERRORS(result);
compareTypesNe("foo", "almostFoo",
R"(DiffError: these two types are not equal because the left type at <unlabeled-symbol>.x.y.Negation has type string, while the right type at <unlabeled-symbol>.x.y.Negation has type number)");
}
TEST_CASE_FIXTURE(DifferFixture, "union_missing_right")
{
CheckResult result = check(R"(
local foo: string | number
local almostFoo: boolean | string
)");
LUAU_REQUIRE_NO_ERRORS(result);
compareTypesNe("foo", "almostFoo",
R"(DiffError: these two types are not equal because the left type at <unlabeled-symbol> is a union containing type number, while the right type at <unlabeled-symbol> is a union missing type number)");
}
TEST_CASE_FIXTURE(DifferFixture, "union_missing_left")
{
CheckResult result = check(R"(
local foo: string | number
local almostFoo: boolean | string | number
)");
LUAU_REQUIRE_NO_ERRORS(result);
compareTypesNe("foo", "almostFoo",
R"(DiffError: these two types are not equal because the left type at <unlabeled-symbol> is a union missing type boolean, while the right type at <unlabeled-symbol> is a union containing type boolean)");
}
TEST_CASE_FIXTURE(DifferFixture, "union_missing")
{
// TODO: this test case produces an error message that is not the most UX-friendly
CheckResult result = check(R"(
local foo: { bar: number, pan: string } | { baz: boolean, rot: "singleton" }
local almostFoo: { bar: number, pan: string } | { baz: string, rot: "singleton" }
)");
LUAU_REQUIRE_NO_ERRORS(result);
if (FFlag::DebugLuauDeferredConstraintResolution)
compareTypesNe("foo", "almostFoo",
R"(DiffError: these two types are not equal because the left type at <unlabeled-symbol> is a union containing type { baz: boolean, rot: "singleton" }, while the right type at <unlabeled-symbol> is a union missing type { baz: boolean, rot: "singleton" })");
else
compareTypesNe("foo", "almostFoo",
R"(DiffError: these two types are not equal because the left type at <unlabeled-symbol> is a union containing type {| baz: boolean, rot: "singleton" |}, while the right type at <unlabeled-symbol> is a union missing type {| baz: boolean, rot: "singleton" |})");
}
TEST_CASE_FIXTURE(DifferFixture, "intersection_missing_right")
{
CheckResult result = check(R"(
local foo: (number) -> () & (string) -> ()
local almostFoo: (string) -> () & (boolean) -> ()
)");
LUAU_REQUIRE_NO_ERRORS(result);
compareTypesNe("foo", "almostFoo",
R"(DiffError: these two types are not equal because the left type at <unlabeled-symbol> is an intersection containing type (number) -> (), while the right type at <unlabeled-symbol> is an intersection missing type (number) -> ())");
}
TEST_CASE_FIXTURE(DifferFixture, "intersection_missing_left")
{
CheckResult result = check(R"(
local foo: (number) -> () & (string) -> ()
local almostFoo: (string) -> () & (boolean) -> () & (number) -> ()
)");
LUAU_REQUIRE_NO_ERRORS(result);
compareTypesNe("foo", "almostFoo",
R"(DiffError: these two types are not equal because the left type at <unlabeled-symbol> is an intersection missing type (boolean) -> (), while the right type at <unlabeled-symbol> is an intersection containing type (boolean) -> ())");
}
TEST_CASE_FIXTURE(DifferFixture, "intersection_tables_missing_right")
{
CheckResult result = check(R"(
local foo: { x: number } & { y: string }
local almostFoo: { y: string } & { z: boolean }
)");
LUAU_REQUIRE_NO_ERRORS(result);
if (FFlag::DebugLuauDeferredConstraintResolution)
compareTypesNe("foo", "almostFoo",
R"(DiffError: these two types are not equal because the left type at <unlabeled-symbol> is an intersection containing type { x: number }, while the right type at <unlabeled-symbol> is an intersection missing type { x: number })");
else
compareTypesNe("foo", "almostFoo",
R"(DiffError: these two types are not equal because the left type at <unlabeled-symbol> is an intersection containing type {| x: number |}, while the right type at <unlabeled-symbol> is an intersection missing type {| x: number |})");
}
TEST_CASE_FIXTURE(DifferFixture, "intersection_tables_missing_left")
{
CheckResult result = check(R"(
local foo: { x: number } & { y: string }
local almostFoo: { y: string } & { z: boolean } & { x: number }
)");
LUAU_REQUIRE_NO_ERRORS(result);
if (FFlag::DebugLuauDeferredConstraintResolution)
compareTypesNe("foo", "almostFoo",
R"(DiffError: these two types are not equal because the left type at <unlabeled-symbol> is an intersection missing type { z: boolean }, while the right type at <unlabeled-symbol> is an intersection containing type { z: boolean })");
else
compareTypesNe("foo", "almostFoo",
R"(DiffError: these two types are not equal because the left type at <unlabeled-symbol> is an intersection missing type {| z: boolean |}, while the right type at <unlabeled-symbol> is an intersection containing type {| z: boolean |})");
}
TEST_CASE_FIXTURE(DifferFixture, "equal_function")
{
// Old solver does not correctly infer function typepacks
ScopedFastFlag sff{FFlag::DebugLuauDeferredConstraintResolution, true};
CheckResult result = check(R"(
function foo(x: number)
return x
end
function almostFoo(y: number)
return y + 10
end
)");
LUAU_REQUIRE_NO_ERRORS(result);
compareTypesEq("foo", "almostFoo");
}
TEST_CASE_FIXTURE(DifferFixture, "equal_function_inferred_ret_length")
{
// Old solver does not correctly infer function typepacks
ScopedFastFlag sff{FFlag::DebugLuauDeferredConstraintResolution, true};
CheckResult result = check(R"(
function bar(x: number, y: string)
return x, y
end
function almostBar(a: number, b: string)
return a, b
end
function foo(x: number, y: string, z: boolean)
return z, bar(x, y)
end
function almostFoo(a: number, b: string, c: boolean)
return c, almostBar(a, b)
end
)");
LUAU_REQUIRE_NO_ERRORS(result);
compareTypesEq("foo", "almostFoo");
}
TEST_CASE_FIXTURE(DifferFixture, "equal_function_inferred_ret_length_2")
{
// Old solver does not correctly infer function typepacks
ScopedFastFlag sff{FFlag::DebugLuauDeferredConstraintResolution, true};
CheckResult result = check(R"(
function bar(x: number, y: string)
return x, y
end
function foo(x: number, y: string, z: boolean)
return bar(x, y), z
end
function almostFoo(a: number, b: string, c: boolean)
return a, c
end
)");
LUAU_REQUIRE_NO_ERRORS(result);
compareTypesEq("foo", "almostFoo");
}
TEST_CASE_FIXTURE(DifferFixture, "function_arg_normal")
{
// Old solver does not correctly infer function typepacks
ScopedFastFlag sff{FFlag::DebugLuauDeferredConstraintResolution, true};
CheckResult result = check(R"(
function foo(x: number, y: number, z: number)
return x * y * z
end
function almostFoo(a: number, b: number, msg: string)
return a
end
)");
LUAU_REQUIRE_NO_ERRORS(result);
compareTypesNe("foo", "almostFoo",
R"(DiffError: these two types are not equal because the left type at <unlabeled-symbol>.Arg[3] has type number, while the right type at <unlabeled-symbol>.Arg[3] has type string)");
}
TEST_CASE_FIXTURE(DifferFixture, "function_arg_normal_2")
{
// Old solver does not correctly infer function typepacks
ScopedFastFlag sff{FFlag::DebugLuauDeferredConstraintResolution, true};
CheckResult result = check(R"(
function foo(x: number, y: number, z: string)
return x * y
end
function almostFoo(a: number, y: string, msg: string)
return a
end
)");
LUAU_REQUIRE_NO_ERRORS(result);
compareTypesNe("foo", "almostFoo",
R"(DiffError: these two types are not equal because the left type at <unlabeled-symbol>.Arg[2] has type number, while the right type at <unlabeled-symbol>.Arg[2] has type string)");
}
TEST_CASE_FIXTURE(DifferFixture, "function_ret_normal")
{
// Old solver does not correctly infer function typepacks
ScopedFastFlag sff{FFlag::DebugLuauDeferredConstraintResolution, true};
CheckResult result = check(R"(
function foo(x: number, y: number, z: string)
return x
end
function almostFoo(a: number, b: number, msg: string)
return msg
end
)");
LUAU_REQUIRE_NO_ERRORS(result);
compareTypesNe("foo", "almostFoo",
R"(DiffError: these two types are not equal because the left type at <unlabeled-symbol>.Ret[1] has type number, while the right type at <unlabeled-symbol>.Ret[1] has type string)");
}
TEST_CASE_FIXTURE(DifferFixture, "function_arg_length")
{
// Old solver does not correctly infer function typepacks
ScopedFastFlag sff{FFlag::DebugLuauDeferredConstraintResolution, true};
CheckResult result = check(R"(
function foo(x: number, y: number)
return x
end
function almostFoo(x: number, y: number, c: number)
return x
end
)");
LUAU_REQUIRE_NO_ERRORS(result);
compareTypesNe("foo", "almostFoo",
R"(DiffError: these two types are not equal because the left type at <unlabeled-symbol> takes 2 or more arguments, while the right type at <unlabeled-symbol> takes 3 or more arguments)");
}
TEST_CASE_FIXTURE(DifferFixture, "function_arg_length_2")
{
// Old solver does not correctly infer function typepacks
ScopedFastFlag sff{FFlag::DebugLuauDeferredConstraintResolution, true};
CheckResult result = check(R"(
function foo(x: number, y: string, z: number)
return z
end
function almostFoo(x: number, y: string)
return x
end
)");
LUAU_REQUIRE_NO_ERRORS(result);
compareTypesNe("foo", "almostFoo",
R"(DiffError: these two types are not equal because the left type at <unlabeled-symbol> takes 3 or more arguments, while the right type at <unlabeled-symbol> takes 2 or more arguments)");
}
TEST_CASE_FIXTURE(DifferFixture, "function_arg_length_none")
{
// Old solver does not correctly infer function typepacks
ScopedFastFlag sff{FFlag::DebugLuauDeferredConstraintResolution, true};
CheckResult result = check(R"(
function foo()
return 5
end
function almostFoo(x: number, y: string)
return x
end
)");
LUAU_REQUIRE_NO_ERRORS(result);
compareTypesNe("foo", "almostFoo",
R"(DiffError: these two types are not equal because the left type at <unlabeled-symbol> takes 0 or more arguments, while the right type at <unlabeled-symbol> takes 2 or more arguments)");
}
TEST_CASE_FIXTURE(DifferFixture, "function_arg_length_none_2")
{
// Old solver does not correctly infer function typepacks
ScopedFastFlag sff{FFlag::DebugLuauDeferredConstraintResolution, true};
CheckResult result = check(R"(
function foo(x: number)
return x
end
function almostFoo()
return 5
end
)");
LUAU_REQUIRE_NO_ERRORS(result);
compareTypesNe("foo", "almostFoo",
R"(DiffError: these two types are not equal because the left type at <unlabeled-symbol> takes 1 or more arguments, while the right type at <unlabeled-symbol> takes 0 or more arguments)");
}
TEST_CASE_FIXTURE(DifferFixture, "function_ret_length")
{
// Old solver does not correctly infer function typepacks
ScopedFastFlag sff{FFlag::DebugLuauDeferredConstraintResolution, true};
CheckResult result = check(R"(
function foo(x: number, y: number)
return x
end
function almostFoo(x: number, y: number)
return x, y
end
)");
LUAU_REQUIRE_NO_ERRORS(result);
compareTypesNe("foo", "almostFoo",
R"(DiffError: these two types are not equal because the left type at <unlabeled-symbol> returns 1 values, while the right type at <unlabeled-symbol> returns 2 values)");
}
TEST_CASE_FIXTURE(DifferFixture, "function_ret_length_2")
{
// Old solver does not correctly infer function typepacks
ScopedFastFlag sff{FFlag::DebugLuauDeferredConstraintResolution, true};
CheckResult result = check(R"(
function foo(x: number, y: string, z: number)
return y, x, z
end
function almostFoo(x: number, y: string, z: number)
return y, x
end
)");
LUAU_REQUIRE_NO_ERRORS(result);
compareTypesNe("foo", "almostFoo",
R"(DiffError: these two types are not equal because the left type at <unlabeled-symbol> returns 3 values, while the right type at <unlabeled-symbol> returns 2 values)");
}
TEST_CASE_FIXTURE(DifferFixture, "function_ret_length_none")
{
// Old solver does not correctly infer function typepacks
ScopedFastFlag sff{FFlag::DebugLuauDeferredConstraintResolution, true};
CheckResult result = check(R"(
function foo(x: number, y: string)
return
end
function almostFoo(x: number, y: string)
return x
end
)");
LUAU_REQUIRE_NO_ERRORS(result);
compareTypesNe("foo", "almostFoo",
R"(DiffError: these two types are not equal because the left type at <unlabeled-symbol> returns 0 values, while the right type at <unlabeled-symbol> returns 1 values)");
}
TEST_CASE_FIXTURE(DifferFixture, "function_ret_length_none_2")
{
// Old solver does not correctly infer function typepacks
ScopedFastFlag sff{FFlag::DebugLuauDeferredConstraintResolution, true};
CheckResult result = check(R"(
function foo()
return 5
end
function almostFoo()
return
end
)");
LUAU_REQUIRE_NO_ERRORS(result);
compareTypesNe("foo", "almostFoo",
R"(DiffError: these two types are not equal because the left type at <unlabeled-symbol> returns 1 values, while the right type at <unlabeled-symbol> returns 0 values)");
}
TEST_CASE_FIXTURE(DifferFixture, "function_variadic_arg_normal")
{
// Old solver does not correctly infer function typepacks
ScopedFastFlag sff{FFlag::DebugLuauDeferredConstraintResolution, true};
CheckResult result = check(R"(
function foo(x: number, y: string, ...: number)
return x, y
end
function almostFoo(a: number, b: string, ...: string)
return a, b
end
)");
LUAU_REQUIRE_NO_ERRORS(result);
compareTypesNe("foo", "almostFoo",
R"(DiffError: these two types are not equal because the left type at <unlabeled-symbol>.Arg[Variadic] has type number, while the right type at <unlabeled-symbol>.Arg[Variadic] has type string)");
}
TEST_CASE_FIXTURE(DifferFixture, "function_variadic_arg_missing")
{
// Old solver does not correctly infer function typepacks
ScopedFastFlag sff{FFlag::DebugLuauDeferredConstraintResolution, true};
CheckResult result = check(R"(
function foo(x: number, y: string, ...: number)
return x, y
end
function almostFoo(a: number, b: string)
return a, b
end
)");
LUAU_REQUIRE_NO_ERRORS(result);
compareTypesNe("foo", "almostFoo",
R"(DiffError: these two types are not equal because the left type at <unlabeled-symbol>.Arg[Variadic] has type number, while the right type at <unlabeled-symbol>.Arg[Variadic] has type any)");
}
TEST_CASE_FIXTURE(DifferFixture, "function_variadic_arg_missing_2")
{
// Old solver does not correctly infer function typepacks
ScopedFastFlag sff{FFlag::DebugLuauDeferredConstraintResolution, true};
CheckResult result = check(R"(
function foo(x: number, y: string)
return x, y
end
function almostFoo(a: number, b: string, ...: string)
return a, b
end
)");
LUAU_REQUIRE_NO_ERRORS(result);
compareTypesNe("foo", "almostFoo",
R"(DiffError: these two types are not equal because the left type at <unlabeled-symbol>.Arg[Variadic] has type any, while the right type at <unlabeled-symbol>.Arg[Variadic] has type string)");
}
TEST_CASE_FIXTURE(DifferFixture, "function_variadic_oversaturation")
{
// Old solver does not correctly infer function typepacks
ScopedFastFlag sff{FFlag::DebugLuauDeferredConstraintResolution, true};
CheckResult result = check(R"(
-- allowed to be oversaturated
function foo(x: number, y: string)
return x, y
end
-- must not be oversaturated
local almostFoo: (number, string) -> (number, string) = foo
)");
LUAU_REQUIRE_NO_ERRORS(result);
compareTypesNe("foo", "almostFoo",
R"(DiffError: these two types are not equal because the left type at <unlabeled-symbol> takes 2 or more arguments, while the right type at <unlabeled-symbol> takes 2 arguments)");
}
TEST_CASE_FIXTURE(DifferFixture, "function_variadic_oversaturation_2")
{
// Old solver does not correctly infer function typepacks
ScopedFastFlag sff{FFlag::DebugLuauDeferredConstraintResolution, true};
CheckResult result = check(R"(
-- must not be oversaturated
local foo: (number, string) -> (number, string)
-- allowed to be oversaturated
function almostFoo(x: number, y: string)
return x, y
end
)");
LUAU_REQUIRE_NO_ERRORS(result);
compareTypesNe("foo", "almostFoo",
R"(DiffError: these two types are not equal because the left type at <unlabeled-symbol> takes 2 arguments, while the right type at <unlabeled-symbol> takes 2 or more arguments)");
}
TEST_CASE_FIXTURE(DifferFixture, "generic")
{
// Old solver does not correctly infer function typepacks
ScopedFastFlag sff{FFlag::DebugLuauDeferredConstraintResolution, true};
CheckResult result = check(R"(
function foo(x, y)
return x, y
end
function almostFoo(x, y)
return y, x
end
)");
LUAU_REQUIRE_NO_ERRORS(result);
compareTypesNe("foo", "almostFoo",
R"(DiffError: these two types are not equal because the left generic at <unlabeled-symbol>.Ret[1] cannot be the same type parameter as the right generic at <unlabeled-symbol>.Ret[1])");
}
TEST_CASE_FIXTURE(DifferFixture, "generic_one_vs_two")
{
// Old solver does not correctly infer function typepacks
ScopedFastFlag sff{FFlag::DebugLuauDeferredConstraintResolution, true};
CheckResult result = check(R"(
function foo<X>(x: X, y: X)
return
end
function almostFoo<T, U>(x: T, y: U)
return
end
)");
LUAU_REQUIRE_NO_ERRORS(result);
compareTypesNe("foo", "almostFoo",
R"(DiffError: these two types are not equal because the left generic at <unlabeled-symbol>.Arg[2] cannot be the same type parameter as the right generic at <unlabeled-symbol>.Arg[2])");
}
TEST_CASE_FIXTURE(DifferFixture, "generic_three_or_three")
{
// Old solver does not correctly infer function typepacks
ScopedFastFlag sff{FFlag::DebugLuauDeferredConstraintResolution, true};
CheckResult result = check(R"(
function foo<X, Y>(x: X, y: X, z: Y)
return
end
function almostFoo<T, U>(x: T, y: U, z: U)
return
end
)");
LUAU_REQUIRE_NO_ERRORS(result);
compareTypesNe("foo", "almostFoo",
R"(DiffError: these two types are not equal because the left generic at <unlabeled-symbol>.Arg[2] cannot be the same type parameter as the right generic at <unlabeled-symbol>.Arg[2])");
}
TEST_CASE_FIXTURE(DifferFixtureWithBuiltins, "equal_metatable")
{
CheckResult result = check(R"(
local metaFoo = {
metaBar = 5
}
local metaAlmostFoo = {
metaBar = 1
}
local foo = {
bar = 3
}
setmetatable(foo, metaFoo)
local almostFoo = {
bar = 4
}
setmetatable(almostFoo, metaAlmostFoo)
)");
LUAU_REQUIRE_NO_ERRORS(result);
compareTypesEq("foo", "almostFoo");
}
TEST_CASE_FIXTURE(DifferFixtureWithBuiltins, "metatable_normal")
{
ScopedFastFlag sff{FFlag::DebugLuauDeferredConstraintResolution, false};
CheckResult result = check(R"(
local metaFoo = {
metaBar = 5
}
local metaAlmostFoo = {
metaBar = 1
}
local foo = {
bar = 3
}
setmetatable(foo, metaFoo)
local almostFoo = {
bar = "hello"
}
setmetatable(almostFoo, metaAlmostFoo)
)");
LUAU_REQUIRE_NO_ERRORS(result);
compareTypesNe("foo", "almostFoo",
R"(DiffError: these two types are not equal because the left type at <unlabeled-symbol>.bar has type number, while the right type at <unlabeled-symbol>.bar has type string)");
}
TEST_CASE_FIXTURE(DifferFixtureWithBuiltins, "metatable_metanormal")
{
CheckResult result = check(R"(
local metaFoo = {
metaBar = "world"
}
local metaAlmostFoo = {
metaBar = 1
}
local foo = {
bar = "amazing"
}
setmetatable(foo, metaFoo)
local almostFoo = {
bar = "hello"
}
setmetatable(almostFoo, metaAlmostFoo)
)");
LUAU_REQUIRE_NO_ERRORS(result);
compareTypesNe("foo", "almostFoo",
R"(DiffError: these two types are not equal because the left type at <unlabeled-symbol>.__metatable.metaBar has type string, while the right type at <unlabeled-symbol>.__metatable.metaBar has type number)");
}
TEST_CASE_FIXTURE(DifferFixtureWithBuiltins, "metatable_metamissing_left")
{
CheckResult result = check(R"(
local metaFoo = {
metaBar = "world"
}
local metaAlmostFoo = {
metaBar = 1,
thisIsOnlyInRight = 2,
}
local foo = {
bar = "amazing"
}
setmetatable(foo, metaFoo)
local almostFoo = {
bar = "hello"
}
setmetatable(almostFoo, metaAlmostFoo)
)");
LUAU_REQUIRE_NO_ERRORS(result);
compareTypesNe("foo", "almostFoo",
R"(DiffError: these two types are not equal because the left type at <unlabeled-symbol>.__metatable is missing the property thisIsOnlyInRight, while the right type at <unlabeled-symbol>.__metatable.thisIsOnlyInRight has type number)");
}
TEST_CASE_FIXTURE(DifferFixtureWithBuiltins, "metatable_metamissing_right")
{
CheckResult result = check(R"(
local metaFoo = {
metaBar = "world",
thisIsOnlyInLeft = 2,
}
local metaAlmostFoo = {
metaBar = 1,
}
local foo = {
bar = "amazing"
}
setmetatable(foo, metaFoo)
local almostFoo = {
bar = "hello"
}
setmetatable(almostFoo, metaAlmostFoo)
)");
LUAU_REQUIRE_NO_ERRORS(result);
compareTypesNe("foo", "almostFoo",
R"(DiffError: these two types are not equal because the left type at <unlabeled-symbol>.__metatable.thisIsOnlyInLeft has type number, while the right type at <unlabeled-symbol>.__metatable is missing the property thisIsOnlyInLeft)");
}
TEST_CASE_FIXTURE(DifferFixtureGeneric<ClassFixture>, "equal_class")
{
CheckResult result = check(R"(
local foo = BaseClass
local almostFoo = BaseClass
)");
LUAU_REQUIRE_NO_ERRORS(result);
compareTypesEq("foo", "almostFoo");
}
TEST_CASE_FIXTURE(DifferFixtureGeneric<ClassFixture>, "class_normal")
{
CheckResult result = check(R"(
local foo = BaseClass
local almostFoo = ChildClass
)");
LUAU_REQUIRE_NO_ERRORS(result);
compareTypesNe("foo", "almostFoo",
R"(DiffError: these two types are not equal because the left type at <unlabeled-symbol> has type BaseClass, while the right type at <unlabeled-symbol> has type ChildClass)");
}
TEST_CASE_FIXTURE(DifferFixture, "equal_generictp")
{
CheckResult result = check(R"(
local foo: <T...>() -> T...
local almostFoo: <U...>() -> U...
)");
LUAU_REQUIRE_NO_ERRORS(result);
compareTypesEq("foo", "almostFoo");
}
TEST_CASE_FIXTURE(DifferFixture, "generictp_ne_fn")
{
CheckResult result = check(R"(
local foo: <T, U...>(...T) -> U...
local almostFoo: <U...>(U...) -> U...
)");
LUAU_REQUIRE_NO_ERRORS(result);
compareTypesNe("foo", "almostFoo",
R"(DiffError: these two types are not equal because the left type at <unlabeled-symbol> has type <T, U...>(...T) -> (U...), while the right type at <unlabeled-symbol> has type <U...>(U...) -> (U...))");
}
TEST_CASE_FIXTURE(DifferFixture, "generictp_normal")
{
CheckResult result = check(R"(
-- trN should be X... -> Y...
-- s should be X -> Y...
-- x should be X
-- bij should be X... -> X...
-- Intended signature: <X..., Y..., Z>(X... -> Y..., Z -> X..., X... -> Y..., Z, Y... -> Y...) -> ()
function foo(tr, s, tr2, x, bij)
bij(bij(tr(s(x))))
bij(bij(tr2(s(x))))
end
-- Intended signature: <X..., Y..., Z>(X... -> X..., Z -> X..., X... -> Y..., Z, Y... -> Y...) -> ()
function almostFoo(bij, s, tr, x, bij2)
bij(bij(s(x)))
bij2(bij2(tr(s(x))))
end
)");
LUAU_REQUIRE_NO_ERRORS(result);
INFO(Luau::toString(requireType("foo")));
INFO(Luau::toString(requireType("almostFoo")));
compareTypesNe("foo", "almostFoo",
R"(DiffError: these two types are not equal because the left generic at <unlabeled-symbol>.Arg[1].Ret[Variadic] cannot be the same type parameter as the right generic at <unlabeled-symbol>.Arg[1].Ret[Variadic])");
}
TEST_CASE_FIXTURE(DifferFixture, "generictp_normal_2")
{
CheckResult result = check(R"(
-- trN should be X... -> Y...
-- s should be X -> Y...
-- x should be X
-- bij should be X... -> X...
function foo(s, tr, tr2, x, bij)
bij(bij(tr(s(x))))
bij(bij(tr2(s(x))))
end
function almostFoo(s, bij, tr, x, bij2)
bij2(bij2(bij(bij(tr(s(x))))))
end
)");
LUAU_REQUIRE_NO_ERRORS(result);
INFO(Luau::toString(requireType("foo")));
INFO(Luau::toString(requireType("almostFoo")));
compareTypesNe("foo", "almostFoo",
R"(DiffError: these two types are not equal because the left generic at <unlabeled-symbol>.Arg[2].Arg[Variadic] cannot be the same type parameter as the right generic at <unlabeled-symbol>.Arg[2].Arg[Variadic])");
}
TEST_CASE_FIXTURE(DifferFixture, "equal_generictp_cyclic")
{
CheckResult result = check(R"(
function foo(f, g, s, x)
f(f(g(g(s(x)))))
return foo
end
function almostFoo(f, g, s, x)
g(g(f(f(s(x)))))
return almostFoo
end
)");
LUAU_REQUIRE_NO_ERRORS(result);
INFO(Luau::toString(requireType("foo")));
INFO(Luau::toString(requireType("almostFoo")));
compareTypesEq("foo", "almostFoo");
}
TEST_CASE_FIXTURE(DifferFixture, "symbol_forward")
{
CheckResult result = check(R"(
local foo = 5
local almostFoo = "five"
)");
LUAU_REQUIRE_NO_ERRORS(result);
INFO(Luau::toString(requireType("foo")));
INFO(Luau::toString(requireType("almostFoo")));
compareTypesNe("foo", "almostFoo",
R"(DiffError: these two types are not equal because the left type at foo has type number, while the right type at almostFoo has type string)",
true);
}
TEST_CASE_FIXTURE(DifferFixture, "newlines")
{
CheckResult result = check(R"(
local foo = 5
local almostFoo = "five"
)");
LUAU_REQUIRE_NO_ERRORS(result);
INFO(Luau::toString(requireType("foo")));
INFO(Luau::toString(requireType("almostFoo")));
compareTypesNe("foo", "almostFoo",
R"(DiffError: these two types are not equal because the left type at
foo
has type
number,
while the right type at
almostFoo
has type
string)",
true, true);
}
TEST_SUITE_END();
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