luau-lang/luau
1
0
Fork 0
mirror of https://github.com/luau-lang/luau.git synced 2025-03-05 11:41:40 +00:00
Code Issues Projects Releases Packages Wiki Activity
luau/tests/Transpiler.test.cpp
ariel 640ebbc0a5
Sync to upstream/release/663 (#1699) 
Hey folks, another week means another Luau release! This one features a
number of bug fixes in the New Type Solver including improvements to
user-defined type functions and a bunch of work to untangle some of the
outstanding issues we've been seeing with constraint solving not
completing in real world use. We're also continuing to make progress on
crashes and other problems that affect the stability of fragment
autocomplete, as we work towards delivering consistent, low-latency
autocomplete for any editor environment.

## New Type Solver

- Fix a bug in user-defined type functions where `print` would
incorrectly insert `\1` a number of times.
- Fix a bug where attempting to refine an optional generic with a type
test will cause a false positive type error (fixes #1666)
- Fix a bug where the `refine` type family would not skip over
`*no-refine*` discriminants (partial resolution for #1424)
- Fix a constraint solving bug where recursive function calls would
consistently produce cyclic constraints leading to incomplete or
inaccurate type inference.
- Implement `readparent` and `writeparent` for class types in
user-defined type functions, replacing the incorrectly included `parent`
method.
- Add initial groundwork (under a debug flag) for eager free type
generalization, moving us towards further improvements to constraint
solving incomplete errors.

## Fragment Autocomplete

- Ease up some assertions to improve stability of mixed-mode use of the
two type solvers (i.e. using Fragment Autocomplete on a type graph
originally produced by the old type solver)
- Resolve a bug with type compatibility checks causing internal compiler
errors in autocomplete.

## Lexer and Parser

- Improve the accuracy of the roundtrippable AST parsing mode by
correctly placing closing parentheses on type groupings.
- Add a getter for `offset` in the Lexer by @aduermael in #1688
- Add a second entry point to the parser to parse an expression,
`parseExpr`

## Internal Contributors

Co-authored-by: Andy Friesen <afriesen@roblox.com>
Co-authored-by: Ariel Weiss <aaronweiss@roblox.com>
Co-authored-by: Aviral Goel <agoel@roblox.com>
Co-authored-by: Hunter Goldstein <hgoldstein@roblox.com>
Co-authored-by: James McNellis <jmcnellis@roblox.com>
Co-authored-by: Talha Pathan <tpathan@roblox.com>
Co-authored-by: Vighnesh Vijay <vvijay@roblox.com>
Co-authored-by: Vyacheslav Egorov <vegorov@roblox.com>

---------

Co-authored-by: Hunter Goldstein <hgoldstein@roblox.com>
Co-authored-by: Varun Saini <61795485+vrn-sn@users.noreply.github.com>
Co-authored-by: Alexander Youngblood <ayoungblood@roblox.com>
Co-authored-by: Menarul Alam <malam@roblox.com>
Co-authored-by: Aviral Goel <agoel@roblox.com>
Co-authored-by: Vighnesh <vvijay@roblox.com>
Co-authored-by: Vyacheslav Egorov <vegorov@roblox.com>
2025-02-28 14:42:30 -08:00

1755 lines
46 KiB
C++
Raw Blame History

// This file is part of the Luau programming language and is licensed under MIT License; see LICENSE.txt for details
#include "Luau/Parser.h"
#include "Luau/TypeAttach.h"
#include "Luau/TypeInfer.h"
#include "Luau/Type.h"
#include "Luau/Transpiler.h"
#include "Fixture.h"
#include "ScopedFlags.h"
#include "doctest.h"
using namespace Luau;
LUAU_FASTFLAG(LuauStoreCSTData)
LUAU_FASTFLAG(LuauExtendStatEndPosWithSemicolon)
LUAU_FASTFLAG(LuauAstTypeGroup2);
LUAU_FASTFLAG(LexerFixInterpStringStart)
TEST_SUITE_BEGIN("TranspilerTests");
TEST_CASE("test_1")
{
const std::string example = R"(
local function isPortal(element)
if type(element)~='table'then
return false
end
return element.component == Core.Portal
end
)";
CHECK_EQ(example, transpile(example).code);
}
TEST_CASE("string_literals")
{
const std::string code = R"( local S='abcdef\n\f\a\020' )";
CHECK_EQ(code, transpile(code).code);
}
TEST_CASE("string_literals_containing_utf8")
{
const std::string code = R"( local S='lalala こんにちは' )"; // Konichiwa!
CHECK_EQ(code, transpile(code).code);
}
TEST_CASE("if_stmt_spaces_around_tokens")
{
ScopedFastFlag _{FFlag::LuauStoreCSTData, true};
const std::string one = R"( if This then Once() end)";
CHECK_EQ(one, transpile(one).code);
const std::string two = R"( if This then Once() end)";
CHECK_EQ(two, transpile(two).code);
const std::string three = R"( if This then Once() end)";
CHECK_EQ(three, transpile(three).code);
const std::string four = R"( if This then Once() end)";
CHECK_EQ(four, transpile(four).code);
const std::string five = R"( if This then Once() else Other() end)";
CHECK_EQ(five, transpile(five).code);
const std::string six = R"( if This then Once() else Other() end)";
CHECK_EQ(six, transpile(six).code);
const std::string seven = R"( if This then Once() elseif true then Other() end)";
CHECK_EQ(seven, transpile(seven).code);
const std::string eight = R"( if This then Once() elseif true then Other() end)";
CHECK_EQ(eight, transpile(eight).code);
const std::string nine = R"( if This then Once() elseif true then Other() end)";
CHECK_EQ(nine, transpile(nine).code);
}
TEST_CASE("elseif_chains_indent_sensibly")
{
const std::string code = R"(
if This then
Once()
elseif That then
Another()
elseif SecondLast then
Third()
else
IfAllElseFails()
end
)";
CHECK_EQ(code, transpile(code).code);
}
TEST_CASE("strips_type_annotations")
{
const std::string code = R"( local s: string= 'hello there' )";
if (FFlag::LuauStoreCSTData)
{
const std::string expected = R"( local s = 'hello there' )";
CHECK_EQ(expected, transpile(code).code);
}
else
{
const std::string expected = R"( local s = 'hello there' )";
CHECK_EQ(expected, transpile(code).code);
}
}
TEST_CASE("strips_type_assertion_expressions")
{
const std::string code = R"( local s= some_function() :: any+ something_else() :: number )";
if (FFlag::LuauStoreCSTData)
{
const std::string expected = R"( local s= some_function() + something_else() )";
CHECK_EQ(expected, transpile(code).code);
}
else
{
const std::string expected = R"( local s= some_function() + something_else() )";
CHECK_EQ(expected, transpile(code).code);
}
}
TEST_CASE("function_taking_ellipsis")
{
const std::string code = R"( function F(...) end )";
CHECK_EQ(code, transpile(code).code);
}
TEST_CASE("omit_decimal_place_for_integers")
{
const std::string code = R"( local a=5, 6, 7, 3.141, 1.1290000000000002e+45 )";
CHECK_EQ(code, transpile(code).code);
}
TEST_CASE("for_loop")
{
const std::string one = R"( for i=1,10 do end )";
CHECK_EQ(one, transpile(one).code);
const std::string code = R"( for i=5,6,7 do end )";
CHECK_EQ(code, transpile(code).code);
}
TEST_CASE("for_loop_spaces_around_tokens")
{
ScopedFastFlag _{FFlag::LuauStoreCSTData, true};
const std::string one = R"( for index = 1, 10 do call(index) end )";
CHECK_EQ(one, transpile(one).code);
const std::string two = R"( for index = 1 , 10 do call(index) end )";
CHECK_EQ(two, transpile(two).code);
const std::string three = R"( for index = 1, 10 , 3 do call(index) end )";
CHECK_EQ(three, transpile(three).code);
const std::string four = R"( for index = 1, 10 do call(index) end )";
CHECK_EQ(four, transpile(four).code);
const std::string five = R"( for index = 1, 10 do call(index) end )";
CHECK_EQ(five, transpile(five).code);
}
TEST_CASE("for_in_loop")
{
const std::string code = R"( for k, v in ipairs(x)do end )";
CHECK_EQ(code, transpile(code).code);
}
TEST_CASE("for_in_loop_spaces_around_tokens")
{
ScopedFastFlag _{FFlag::LuauStoreCSTData, true};
const std::string one = R"( for k, v in ipairs(x) do end )";
CHECK_EQ(one, transpile(one).code);
const std::string two = R"( for k, v in ipairs(x) do end )";
CHECK_EQ(two, transpile(two).code);
const std::string three = R"( for k , v in ipairs(x) do end )";
CHECK_EQ(three, transpile(three).code);
const std::string four = R"( for k, v in next , t do end )";
CHECK_EQ(four, transpile(four).code);
const std::string five = R"( for k, v in ipairs(x) do end )";
CHECK_EQ(five, transpile(five).code);
}
TEST_CASE("while_loop")
{
const std::string code = R"( while f(x)do print() end )";
CHECK_EQ(code, transpile(code).code);
}
TEST_CASE("while_loop_spaces_around_tokens")
{
ScopedFastFlag _{FFlag::LuauStoreCSTData, true};
const std::string one = R"( while f(x) do print() end )";
CHECK_EQ(one, transpile(one).code);
const std::string two = R"( while f(x) do print() end )";
CHECK_EQ(two, transpile(two).code);
const std::string three = R"( while f(x) do print() end )";
CHECK_EQ(three, transpile(three).code);
const std::string four = R"( while f(x) do print() end )";
CHECK_EQ(four, transpile(four).code);
}
TEST_CASE("repeat_until_loop")
{
const std::string code = R"( repeat print() until f(x) )";
CHECK_EQ(code, transpile(code).code);
}
TEST_CASE("repeat_until_loop_condition_on_new_line")
{
ScopedFastFlag _{FFlag::LuauStoreCSTData, true};
const std::string code = R"(
repeat
print()
until
f(x) )";
CHECK_EQ(code, transpile(code).code);
}
TEST_CASE("lambda")
{
const std::string one = R"( local p=function(o, m, g) return 77 end )";
CHECK_EQ(one, transpile(one).code);
const std::string two = R"( local p=function(o, m, g,...) return 77 end )";
CHECK_EQ(two, transpile(two).code);
}
TEST_CASE("local_assignment")
{
const std::string one = R"( local x = 1 )";
CHECK_EQ(one, transpile(one).code);
const std::string two = R"( local x, y, z = 1, 2, 3 )";
CHECK_EQ(two, transpile(two).code);
const std::string three = R"( local x )";
CHECK_EQ(three, transpile(three).code);
}
TEST_CASE("local_assignment_spaces_around_tokens")
{
ScopedFastFlag _{FFlag::LuauStoreCSTData, true};
const std::string one = R"( local x = 1 )";
CHECK_EQ(one, transpile(one).code);
const std::string two = R"( local x = 1 )";
CHECK_EQ(two, transpile(two).code);
const std::string three = R"( local x = 1 )";
CHECK_EQ(three, transpile(three).code);
const std::string four = R"( local x , y = 1, 2 )";
CHECK_EQ(four, transpile(four).code);
const std::string five = R"( local x, y = 1, 2 )";
CHECK_EQ(five, transpile(five).code);
const std::string six = R"( local x, y = 1 , 2 )";
CHECK_EQ(six, transpile(six).code);
const std::string seven = R"( local x, y = 1, 2 )";
CHECK_EQ(seven, transpile(seven).code);
}
TEST_CASE("local_function")
{
const std::string one = R"( local function p(o, m, g) return 77 end )";
CHECK_EQ(one, transpile(one).code);
const std::string two = R"( local function p(o, m, g,...) return 77 end )";
CHECK_EQ(two, transpile(two).code);
}
TEST_CASE("local_function_spaces_around_tokens")
{
ScopedFastFlag _{FFlag::LuauStoreCSTData, true};
const std::string one = R"( local function p(o, m, ...) end )";
CHECK_EQ(one, transpile(one).code);
const std::string two = R"( local function p(o, m, ...) end )";
CHECK_EQ(two, transpile(two).code);
}
TEST_CASE("function")
{
const std::string one = R"( function p(o, m, g) return 77 end )";
CHECK_EQ(one, transpile(one).code);
const std::string two = R"( function p(o, m, g,...) return 77 end )";
CHECK_EQ(two, transpile(two).code);
}
TEST_CASE("returns_spaces_around_tokens")
{
ScopedFastFlag _{FFlag::LuauStoreCSTData, true};
const std::string one = R"( return 1 )";
CHECK_EQ(one, transpile(one).code);
const std::string two = R"( return 1 , 2 )";
CHECK_EQ(two, transpile(two).code);
const std::string three = R"( return 1, 2 )";
CHECK_EQ(three, transpile(three).code);
}
TEST_CASE_FIXTURE(Fixture, "type_alias_spaces_around_tokens")
{
ScopedFastFlag _{FFlag::LuauStoreCSTData, true};
std::string code = R"( type Foo = string )";
CHECK_EQ(code, transpile(code, {}, true).code);
code = R"( type Foo = string )";
CHECK_EQ(code, transpile(code, {}, true).code);
code = R"( type Foo = string )";
CHECK_EQ(code, transpile(code, {}, true).code);
code = R"( type Foo = string )";
CHECK_EQ(code, transpile(code, {}, true).code);
code = R"( export type Foo = string )";
CHECK_EQ(code, transpile(code, {}, true).code);
code = R"( export type Foo = string )";
CHECK_EQ(code, transpile(code, {}, true).code);
code = R"( type Foo<X, Y, Z...> = string )";
CHECK_EQ(code, transpile(code, {}, true).code);
code = R"( type Foo <X, Y, Z...> = string )";
CHECK_EQ(code, transpile(code, {}, true).code);
code = R"( type Foo< X, Y, Z...> = string )";
CHECK_EQ(code, transpile(code, {}, true).code);
code = R"( type Foo<X , Y, Z...> = string )";
CHECK_EQ(code, transpile(code, {}, true).code);
code = R"( type Foo<X, Y, Z...> = string )";
CHECK_EQ(code, transpile(code, {}, true).code);
code = R"( type Foo<X, Y , Z...> = string )";
CHECK_EQ(code, transpile(code, {}, true).code);
code = R"( type Foo<X, Y, Z...> = string )";
CHECK_EQ(code, transpile(code, {}, true).code);
code = R"( type Foo<X, Y, Z ...> = string )";
CHECK_EQ(code, transpile(code, {}, true).code);
code = R"( type Foo<X, Y, Z... > = string )";
CHECK_EQ(code, transpile(code, {}, true).code);
}
TEST_CASE_FIXTURE(Fixture, "type_alias_with_defaults_spaces_around_tokens")
{
ScopedFastFlag _{FFlag::LuauStoreCSTData, true};
std::string code = R"( type Foo<X = string, Z... = ...any> = string )";
CHECK_EQ(code, transpile(code, {}, true).code);
code = R"( type Foo<X = string, Z... = ...any> = string )";
CHECK_EQ(code, transpile(code, {}, true).code);
code = R"( type Foo<X = string, Z... = ...any> = string )";
CHECK_EQ(code, transpile(code, {}, true).code);
code = R"( type Foo<X = string, Z... = ...any> = string )";
CHECK_EQ(code, transpile(code, {}, true).code);
code = R"( type Foo<X = string, Z... = ...any> = string )";
CHECK_EQ(code, transpile(code, {}, true).code);
}
TEST_CASE("table_literals")
{
const std::string code = R"( local t={1, 2, 3, foo='bar', baz=99,[5.5]='five point five', 'end'} )";
CHECK_EQ(code, transpile(code).code);
}
TEST_CASE("more_table_literals")
{
const std::string code = R"( local t={['Content-Type']='text/plain'} )";
CHECK_EQ(code, transpile(code).code);
}
TEST_CASE("table_literal_preserves_record_vs_general")
{
const std::string code = R"( local t={['foo']='bar',quux=42} )";
CHECK_EQ(code, transpile(code).code);
}
TEST_CASE("table_literal_with_numeric_key")
{
const std::string code = R"( local t={[5]='five',[6]='six'} )";
CHECK_EQ(code, transpile(code).code);
}
TEST_CASE("table_literal_with_keyword_key")
{
const std::string code = R"( local t={['nil']=nil,['true']=true} )";
CHECK_EQ(code, transpile(code).code);
}
TEST_CASE("table_literal_closing_brace_at_correct_position")
{
const std::string code = R"(
local t={
eggs='Tasty',
avocado='more like awesomecavo amirite'
}
)";
CHECK_EQ(code, transpile(code).code);
}
TEST_CASE("table_literal_with_semicolon_separators")
{
ScopedFastFlag _{FFlag::LuauStoreCSTData, true};
const std::string code = R"(
local t = { x = 1; y = 2 }
)";
CHECK_EQ(code, transpile(code).code);
}
TEST_CASE("table_literal_with_trailing_separators")
{
ScopedFastFlag _{FFlag::LuauStoreCSTData, true};
const std::string code = R"(
local t = { x = 1, y = 2, }
)";
CHECK_EQ(code, transpile(code).code);
}
TEST_CASE("table_literal_with_spaces_around_separator")
{
ScopedFastFlag _{FFlag::LuauStoreCSTData, true};
const std::string code = R"(
local t = { x = 1 , y = 2 }
)";
CHECK_EQ(code, transpile(code).code);
}
TEST_CASE("table_literal_with_spaces_around_equals")
{
ScopedFastFlag _{FFlag::LuauStoreCSTData, true};
const std::string code = R"(
local t = { x = 1 }
)";
CHECK_EQ(code, transpile(code).code);
}
TEST_CASE("table_literal_multiline_with_indexers")
{
ScopedFastFlag _{FFlag::LuauStoreCSTData, true};
const std::string code = R"(
local t = {
["my first value"] = "x";
["my second value"] = "y";
}
)";
CHECK_EQ(code, transpile(code).code);
}
TEST_CASE("method_calls")
{
const std::string code = R"( foo.bar.baz:quux() )";
CHECK_EQ(code, transpile(code).code);
}
TEST_CASE("method_definitions")
{
const std::string code = R"( function foo.bar.baz:quux() end )";
CHECK_EQ(code, transpile(code).code);
}
TEST_CASE("spaces_between_keywords_even_if_it_pushes_the_line_estimation_off")
{
// Luau::Parser doesn't exactly preserve the string representation of numbers in Lua, so we can find ourselves
// falling out of sync with the original code. We need to push keywords out so that there's at least one space between them.
const std::string code = R"( if math.abs(raySlope) < .01 then return 0 end )";
if (FFlag::LuauStoreCSTData)
{
CHECK_EQ(code, transpile(code).code);
}
else
{
const std::string expected = R"( if math.abs(raySlope) < 0.01 then return 0 end)";
CHECK_EQ(expected, transpile(code).code);
}
}
TEST_CASE("numbers")
{
const std::string code = R"( local a=2510238627 )";
CHECK_EQ(code, transpile(code).code);
}
TEST_CASE("infinity")
{
const std::string code = R"( local a = 1e500 local b = 1e400 )";
if (FFlag::LuauStoreCSTData)
{
CHECK_EQ(code, transpile(code).code);
}
else
{
const std::string expected = R"( local a = 1e500 local b = 1e500 )";
CHECK_EQ(expected, transpile(code).code);
}
}
TEST_CASE("numbers_with_separators")
{
ScopedFastFlag _{FFlag::LuauStoreCSTData, true};
const std::string code = R"( local a = 123_456_789 )";
CHECK_EQ(code, transpile(code).code);
}
TEST_CASE("hexadecimal_numbers")
{
ScopedFastFlag _{FFlag::LuauStoreCSTData, true};
const std::string code = R"( local a = 0xFFFF )";
CHECK_EQ(code, transpile(code).code);
}
TEST_CASE("binary_numbers")
{
ScopedFastFlag _{FFlag::LuauStoreCSTData, true};
const std::string code = R"( local a = 0b0101 )";
CHECK_EQ(code, transpile(code).code);
}
TEST_CASE("single_quoted_strings")
{
const std::string code = R"( local a = 'hello world' )";
CHECK_EQ(code, transpile(code).code);
}
TEST_CASE("double_quoted_strings")
{
ScopedFastFlag _{FFlag::LuauStoreCSTData, true};
const std::string code = R"( local a = "hello world" )";
CHECK_EQ(code, transpile(code).code);
}
TEST_CASE("simple_interp_string")
{
ScopedFastFlag _{FFlag::LuauStoreCSTData, true};
const std::string code = R"( local a = `hello world` )";
CHECK_EQ(code, transpile(code).code);
}
TEST_CASE("raw_strings")
{
ScopedFastFlag _{FFlag::LuauStoreCSTData, true};
const std::string code = R"( local a = [[ hello world ]] )";
CHECK_EQ(code, transpile(code).code);
}
TEST_CASE("raw_strings_with_blocks")
{
ScopedFastFlag _{FFlag::LuauStoreCSTData, true};
const std::string code = R"( local a = [==[ hello world ]==] )";
CHECK_EQ(code, transpile(code).code);
}
TEST_CASE("escaped_strings")
{
const std::string code = R"( local s='\\b\\t\\n\\\\' )";
CHECK_EQ(code, transpile(code).code);
}
TEST_CASE("escaped_strings_2")
{
const std::string code = R"( local s="\a\b\f\n\r\t\v\'\"\\" )";
CHECK_EQ(code, transpile(code).code);
}
TEST_CASE("escaped_strings_newline")
{
ScopedFastFlag _{FFlag::LuauStoreCSTData, true};
const std::string code = R"(
print("foo \
bar")
)";
CHECK_EQ(code, transpile(code).code);
}
TEST_CASE("escaped_strings_raw")
{
ScopedFastFlag _{FFlag::LuauStoreCSTData, true};
const std::string code = R"( local x = [=[\v<((do|load)file|require)\s*\(?['"]\zs[^'"]+\ze['"]]=] )";
CHECK_EQ(code, transpile(code).code);
}
TEST_CASE("position_correctly_updated_when_writing_multiline_string")
{
ScopedFastFlag _{FFlag::LuauStoreCSTData, true};
const std::string code = R"(
call([[
testing
]]) )";
CHECK_EQ(code, transpile(code).code);
}
TEST_CASE("need_a_space_between_number_literals_and_dots")
{
const std::string code = R"( return point and math.ceil(point* 100000* 100)/ 100000 .. '%'or '' )";
CHECK_EQ(code, transpile(code).code);
}
TEST_CASE("binary_keywords")
{
const std::string code = "local c = a0 ._ or b0 ._";
CHECK_EQ(code, transpile(code).code);
}
TEST_CASE("function_call_parentheses_no_args")
{
const std::string code = R"( call() )";
CHECK_EQ(code, transpile(code).code);
}
TEST_CASE("function_call_parentheses_one_arg")
{
const std::string code = R"( call(arg) )";
CHECK_EQ(code, transpile(code).code);
}
TEST_CASE("function_call_parentheses_multiple_args")
{
const std::string code = R"( call(arg1, arg3, arg3) )";
CHECK_EQ(code, transpile(code).code);
}
TEST_CASE("function_call_parentheses_multiple_args_no_space")
{
const std::string code = R"( call(arg1,arg3,arg3) )";
CHECK_EQ(code, transpile(code).code);
}
TEST_CASE("function_call_parentheses_multiple_args_space_before_commas")
{
ScopedFastFlag _{FFlag::LuauStoreCSTData, true};
const std::string code = R"( call(arg1 ,arg3 ,arg3) )";
CHECK_EQ(code, transpile(code).code);
}
TEST_CASE("function_call_spaces_before_parentheses")
{
ScopedFastFlag _{FFlag::LuauStoreCSTData, true};
const std::string code = R"( call () )";
CHECK_EQ(code, transpile(code).code);
}
TEST_CASE("function_call_spaces_within_parentheses")
{
ScopedFastFlag _{FFlag::LuauStoreCSTData, true};
const std::string code = R"( call( ) )";
CHECK_EQ(code, transpile(code).code);
}
TEST_CASE("function_call_string_double_quotes")
{
ScopedFastFlag _{FFlag::LuauStoreCSTData, true};
const std::string code = R"( call "string" )";
CHECK_EQ(code, transpile(code).code);
}
TEST_CASE("function_call_string_single_quotes")
{
ScopedFastFlag _{FFlag::LuauStoreCSTData, true};
const std::string code = R"( call 'string' )";
CHECK_EQ(code, transpile(code).code);
}
TEST_CASE("function_call_string_no_space")
{
ScopedFastFlag _{FFlag::LuauStoreCSTData, true};
const std::string code = R"( call'string' )";
CHECK_EQ(code, transpile(code).code);
}
TEST_CASE("function_call_table_literal")
{
ScopedFastFlag _{FFlag::LuauStoreCSTData, true};
const std::string code = R"( call { x = 1 } )";
CHECK_EQ(code, transpile(code).code);
}
TEST_CASE("function_call_table_literal_no_space")
{
ScopedFastFlag _{FFlag::LuauStoreCSTData, true};
const std::string code = R"( call{x=1} )";
CHECK_EQ(code, transpile(code).code);
}
TEST_CASE("do_blocks")
{
const std::string code = R"(
foo()
do
local bar=baz()
quux()
end
foo2()
)";
CHECK_EQ(code, transpile(code).code);
}
TEST_CASE("nested_do_block")
{
const std::string code = R"(
do
do
local x = 1
end
end
)";
CHECK_EQ(code, transpile(code).code);
}
TEST_CASE("emit_a_do_block_in_cases_of_potentially_ambiguous_syntax")
{
const std::string code = R"(
f();
(g or f)()
)";
CHECK_EQ(code, transpile(code).code);
}
TEST_CASE_FIXTURE(Fixture, "parentheses_multiline")
{
ScopedFastFlag _{FFlag::LuauStoreCSTData, true};
std::string code = R"(
local test = (
x
)
)";
CHECK_EQ(code, transpile(code, {}, true).code);
}
TEST_CASE_FIXTURE(Fixture, "stmt_semicolon")
{
ScopedFastFlag flags[] = {
{FFlag::LuauStoreCSTData, true},
{FFlag::LuauExtendStatEndPosWithSemicolon, true},
};
std::string code = R"( local test = 1; )";
CHECK_EQ(code, transpile(code, {}, true).code);
code = R"( local test = 1 ; )";
CHECK_EQ(code, transpile(code, {}, true).code);
}
TEST_CASE_FIXTURE(Fixture, "do_block_ending_with_semicolon")
{
std::string code = R"(
do
return;
end;
)";
CHECK_EQ(code, transpile(code, {}, true).code);
}
TEST_CASE_FIXTURE(Fixture, "if_stmt_semicolon")
{
ScopedFastFlag flags[] = {
{FFlag::LuauStoreCSTData, true},
{FFlag::LuauExtendStatEndPosWithSemicolon, true},
};
std::string code = R"(
if init then
x = string.sub(x, utf8.offset(x, init));
end;
)";
CHECK_EQ(code, transpile(code, {}, true).code);
}
TEST_CASE_FIXTURE(Fixture, "if_stmt_semicolon_2")
{
ScopedFastFlag flags[] = {
{FFlag::LuauStoreCSTData, true},
{FFlag::LuauExtendStatEndPosWithSemicolon, true},
};
std::string code = R"(
if (t < 1) then return c/2*t*t + b end;
)";
CHECK_EQ(code, transpile(code, {}, true).code);
}
TEST_CASE_FIXTURE(Fixture, "for_loop_stmt_semicolon")
{
ScopedFastFlag flags[] = {
{FFlag::LuauStoreCSTData, true},
{FFlag::LuauExtendStatEndPosWithSemicolon, true},
};
std::string code = R"(
for i,v in ... do
end;
)";
CHECK_EQ(code, transpile(code, {}, true).code);
}
TEST_CASE_FIXTURE(Fixture, "while_do_semicolon")
{
ScopedFastFlag flags[] = {
{FFlag::LuauStoreCSTData, true},
{FFlag::LuauExtendStatEndPosWithSemicolon, true},
};
std::string code = R"(
while true do
end;
)";
CHECK_EQ(code, transpile(code, {}, true).code);
}
TEST_CASE_FIXTURE(Fixture, "function_definition_semicolon")
{
ScopedFastFlag flags[] = {
{FFlag::LuauStoreCSTData, true},
{FFlag::LuauExtendStatEndPosWithSemicolon, true},
};
std::string code = R"(
function foo()
end;
)";
CHECK_EQ(code, transpile(code, {}, true).code);
}
TEST_CASE("roundtrip_types")
{
const std::string code = R"(
local s:string='str'
local t:{a:string,b:number,[string]:number}
local fn:(string,string)->(number,number)
local s2:typeof(s)='foo'
local os:string?
local sn:string|number
local it:{x:number}&{y:number}
)";
auto allocator = Allocator{};
auto names = AstNameTable{allocator};
ParseOptions options;
ParseResult parseResult = Parser::parse(code.data(), code.size(), names, allocator, options);
REQUIRE(parseResult.errors.empty());
CHECK_EQ(code, transpileWithTypes(*parseResult.root));
}
TEST_CASE("roundtrip_generic_types")
{
const std::string code = R"(
export type A<T> = {v:T, next:A<T>}
)";
auto allocator = Allocator{};
auto names = AstNameTable{allocator};
ParseOptions options;
ParseResult parseResult = Parser::parse(code.data(), code.size(), names, allocator, options);
REQUIRE(parseResult.errors.empty());
CHECK_EQ(code, transpileWithTypes(*parseResult.root));
}
TEST_CASE_FIXTURE(Fixture, "attach_types")
{
const std::string code = R"(
local s='str'
local t={a=1,b=false}
local function fn()
return 10
end
)";
const std::string expected = R"(
local s:string='str'
local t:{a:number,b:boolean}={a=1,b=false}
local function fn(): number
return 10
end
)";
CHECK_EQ(expected, decorateWithTypes(code));
}
TEST_CASE("a_table_key_can_be_the_empty_string")
{
std::string code = "local T = {[''] = true}";
CHECK_EQ(code, transpile(code).code);
}
// There's a bit of login in the transpiler that always adds a space before a dot if the previous symbol ends in a digit.
// This was surfacing an issue where we might not insert a space after the 'local' keyword.
TEST_CASE("always_emit_a_space_after_local_keyword")
{
std::string code = "do local aZZZZ = Workspace.P1.Shape local bZZZZ = Enum.PartType.Cylinder end";
if (FFlag::LuauStoreCSTData)
{
CHECK_EQ(code, transpile(code).code);
}
else
{
std::string expected = "do local aZZZZ = Workspace.P1 .Shape local bZZZZ= Enum.PartType.Cylinder end";
CHECK_EQ(expected, transpile(code).code);
}
}
TEST_CASE_FIXTURE(Fixture, "types_should_not_be_considered_cyclic_if_they_are_not_recursive")
{
std::string code = R"(
local common: {foo:string} = {foo = 'foo'}
local t = {}
t.x = common
t.y = common
)";
std::string expected = R"(
local common: {foo:string} = {foo = 'foo'}
local t:{x:{foo:string},y:{foo:string}}={}
t.x = common
t.y = common
)";
CHECK_EQ(expected, decorateWithTypes(code));
}
TEST_CASE_FIXTURE(Fixture, "type_lists_should_be_emitted_correctly")
{
std::string code = R"(
local a = function(a: string, b: number, ...: string): (string, ...number)
end
local b = function(...: string): ...number
end
local c = function()
end
)";
std::string expected = R"(
local a:(string,number,...string)->(string,...number)=function(a:string,b:number,...:string): (string,...number)
end
local b:(...string)->(...number)=function(...:string): ...number
end
local c:()->()=function(): ()
end
)";
std::string actual = decorateWithTypes(code);
CHECK_EQ(expected, actual);
}
TEST_CASE_FIXTURE(Fixture, "function_type_location")
{
std::string code = R"(
local function foo(x: number): number
return x
end
local g: (number)->number = foo
)";
std::string expected = R"(
local function foo(x: number): number
return x
end
local g: (number)->(number)=foo
)";
std::string actual = decorateWithTypes(code);
CHECK_EQ(expected, actual);
}
TEST_CASE_FIXTURE(Fixture, "transpile_type_assertion")
{
std::string code = "local a = 5 :: number";
CHECK_EQ(code, transpile(code, {}, true).code);
}
TEST_CASE_FIXTURE(Fixture, "type_assertion_spaces_around_tokens")
{
ScopedFastFlag _{FFlag::LuauStoreCSTData, true};
std::string code = "local a = 5 :: number";
CHECK_EQ(code, transpile(code, {}, true).code);
code = "local a = 5 :: number";
CHECK_EQ(code, transpile(code, {}, true).code);
}
TEST_CASE_FIXTURE(Fixture, "transpile_if_then_else")
{
std::string code = "local a = if 1 then 2 else 3";
CHECK_EQ(code, transpile(code).code);
}
TEST_CASE_FIXTURE(Fixture, "transpile_if_then_else_multiple_conditions")
{
ScopedFastFlag _{FFlag::LuauStoreCSTData, true};
std::string code = "local a = if 1 then 2 elseif 3 then 4 else 5";
CHECK_EQ(code, transpile(code).code);
}
TEST_CASE_FIXTURE(Fixture, "transpile_if_then_else_multiple_conditions_2")
{
ScopedFastFlag _{FFlag::LuauStoreCSTData, true};
std::string code = R"(
local x = if yes
then nil
else if no
then if this
then that
else other
else nil
)";
CHECK_EQ(code, transpile(code).code);
}
TEST_CASE_FIXTURE(Fixture, "if_then_else_spaces_around_tokens")
{
ScopedFastFlag _{FFlag::LuauStoreCSTData, true};
std::string code = "local a = if 1 then 2 else 3";
CHECK_EQ(code, transpile(code).code);
code = "local a = if 1 then 2 else 3";
CHECK_EQ(code, transpile(code).code);
code = "local a = if 1 then 2 else 3";
CHECK_EQ(code, transpile(code).code);
code = "local a = if 1 then 2 else 3";
CHECK_EQ(code, transpile(code).code);
code = "local a = if 1 then 2 else 3";
CHECK_EQ(code, transpile(code).code);
code = "local a = if 1 then 2 elseif 3 then 4 else 5";
CHECK_EQ(code, transpile(code).code);
code = "local a = if 1 then 2 elseif 3 then 4 else 5";
CHECK_EQ(code, transpile(code).code);
code = "local a = if 1 then 2 elseif 3 then 4 else 5";
CHECK_EQ(code, transpile(code).code);
code = "local a = if 1 then 2 elseif 3 then 4 else 5";
CHECK_EQ(code, transpile(code).code);
code = "local a = if 1 then 2 elseif 3 then 4 else 5";
CHECK_EQ(code, transpile(code).code);
code = "local a = if 1 then 2 elseif 3 then 4 else 5";
CHECK_EQ(code, transpile(code).code);
}
TEST_CASE_FIXTURE(Fixture, "if_then_else_spaces_between_else_if")
{
ScopedFastFlag _{FFlag::LuauStoreCSTData, true};
std::string code = R"(
return
if a then "was a" else
if b then "was b" else
if c then "was c" else
"was nothing!"
)";
CHECK_EQ(code, transpile(code).code);
}
TEST_CASE_FIXTURE(Fixture, "transpile_type_reference_import")
{
fileResolver.source["game/A"] = R"(
export type Type = { a: number }
return {}
)";
std::string code = R"(
local Import = require(game.A)
local a: Import.Type
)";
CHECK_EQ(code, transpile(code, {}, true).code);
}
TEST_CASE_FIXTURE(Fixture, "transpile_type_reference_spaces_around_tokens")
{
ScopedFastFlag _{FFlag::LuauStoreCSTData, true};
std::string code = R"( local _: Foo.Type )";
CHECK_EQ(code, transpile(code, {}, true).code);
code = R"( local _: Foo .Type )";
CHECK_EQ(code, transpile(code, {}, true).code);
code = R"( local _: Foo. Type )";
CHECK_EQ(code, transpile(code, {}, true).code);
code = R"( local _: Type <> )";
CHECK_EQ(code, transpile(code, {}, true).code);
code = R"( local _: Type< > )";
CHECK_EQ(code, transpile(code, {}, true).code);
code = R"( local _: Type< number> )";
CHECK_EQ(code, transpile(code, {}, true).code);
code = R"( local _: Type<number ,string> )";
CHECK_EQ(code, transpile(code, {}, true).code);
code = R"( local _: Type<number, string > )";
CHECK_EQ(code, transpile(code, {}, true).code);
}
TEST_CASE_FIXTURE(Fixture, "transpile_type_packs")
{
std::string code = R"(
type Packed<T...> = (T...)->(T...)
local a: Packed<>
local b: Packed<(number, string)>
)";
CHECK_EQ(code, transpile(code, {}, true).code);
}
TEST_CASE_FIXTURE(Fixture, "transpile_union_type_nested")
{
std::string code = "local a: ((number)->(string))|((string)->(string))";
CHECK_EQ(code, transpile(code, {}, true).code);
}
TEST_CASE_FIXTURE(Fixture, "transpile_union_type_nested_2")
{
std::string code = "local a: (number&string)|(string&boolean)";
CHECK_EQ(code, transpile(code, {}, true).code);
}
TEST_CASE_FIXTURE(Fixture, "transpile_union_type_nested_3")
{
std::string code = "local a: nil | (string & number)";
if (FFlag::LuauAstTypeGroup2)
CHECK_EQ("local a: (string & number)?", transpile(code, {}, true).code);
else
CHECK_EQ("local a: ( string & number)?", transpile(code, {}, true).code);
}
TEST_CASE_FIXTURE(Fixture, "transpile_intersection_type_nested")
{
std::string code = "local a: ((number)->(string))&((string)->(string))";
CHECK_EQ(code, transpile(code, {}, true).code);
}
TEST_CASE_FIXTURE(Fixture, "transpile_intersection_type_nested_2")
{
std::string code = "local a: (number|string)&(string|boolean)";
CHECK_EQ(code, transpile(code, {}, true).code);
}
TEST_CASE_FIXTURE(Fixture, "transpile_varargs")
{
std::string code = "local function f(...) return ... end";
CHECK_EQ(code, transpile(code, {}, true).code);
}
TEST_CASE_FIXTURE(Fixture, "index_name_spaces_around_tokens")
{
ScopedFastFlag _{FFlag::LuauStoreCSTData, true};
std::string one = "local _ = a.name";
CHECK_EQ(one, transpile(one, {}, true).code);
std::string two = "local _ = a .name";
CHECK_EQ(two, transpile(two, {}, true).code);
std::string three = "local _ = a. name";
CHECK_EQ(three, transpile(three, {}, true).code);
}
TEST_CASE_FIXTURE(Fixture, "index_name_ends_with_digit")
{
ScopedFastFlag _{FFlag::LuauStoreCSTData, true};
std::string code = "sparkles.Color = Color3.new()";
CHECK_EQ(code, transpile(code, {}, true).code);
}
TEST_CASE_FIXTURE(Fixture, "transpile_index_expr")
{
std::string code = "local a = {1, 2, 3} local b = a[2]";
CHECK_EQ(code, transpile(code, {}, true).code);
}
TEST_CASE_FIXTURE(Fixture, "index_expr_spaces_around_tokens")
{
ScopedFastFlag _{FFlag::LuauStoreCSTData, true};
std::string one = "local _ = a[2]";
CHECK_EQ(one, transpile(one, {}, true).code);
std::string two = "local _ = a [2]";
CHECK_EQ(two, transpile(two, {}, true).code);
std::string three = "local _ = a[ 2]";
CHECK_EQ(three, transpile(three, {}, true).code);
std::string four = "local _ = a[2 ]";
CHECK_EQ(four, transpile(four, {}, true).code);
}
TEST_CASE_FIXTURE(Fixture, "transpile_unary")
{
std::string code = R"(
local a = 1
local b = -1
local c = true
local d = not c
local e = 'hello'
local d = #e
)";
CHECK_EQ(code, transpile(code, {}, true).code);
}
TEST_CASE_FIXTURE(Fixture, "unary_spaces_around_tokens")
{
std::string code = R"(
local _ = -1
local _ = - 1
local _ = not true
local _ = not true
local _ = #e
local _ = # e
)";
CHECK_EQ(code, transpile(code, {}, true).code);
}
TEST_CASE_FIXTURE(Fixture, "binary_spaces_around_tokens")
{
ScopedFastFlag _{FFlag::LuauStoreCSTData, true};
std::string code = R"(
local _ = 1+1
local _ = 1 +1
local _ = 1+ 1
)";
CHECK_EQ(code, transpile(code, {}, true).code);
}
TEST_CASE_FIXTURE(Fixture, "transpile_break_continue")
{
std::string code = R"(
local a, b, c
repeat
if a then break end
if b then continue end
until c
)";
CHECK_EQ(code, transpile(code, {}, true).code);
}
TEST_CASE_FIXTURE(Fixture, "transpile_compound_assignment")
{
std::string code = R"(
local a = 1
a += 2
a -= 3
a *= 4
a /= 5
a //= 5
a %= 6
a ^= 7
a ..= ' - result'
)";
CHECK_EQ(code, transpile(code, {}, true).code);
}
TEST_CASE_FIXTURE(Fixture, "compound_assignment_spaces_around_tokens")
{
ScopedFastFlag _{FFlag::LuauStoreCSTData, true};
std::string one = R"( a += 1 )";
CHECK_EQ(one, transpile(one, {}, true).code);
std::string two = R"( a += 1 )";
CHECK_EQ(two, transpile(two, {}, true).code);
}
TEST_CASE_FIXTURE(Fixture, "transpile_assign_multiple")
{
std::string code = "a, b, c = 1, 2, 3";
CHECK_EQ(code, transpile(code, {}, true).code);
}
TEST_CASE_FIXTURE(Fixture, "transpile_assign_spaces_around_tokens")
{
ScopedFastFlag _{FFlag::LuauStoreCSTData, true};
std::string one = "a = 1";
CHECK_EQ(one, transpile(one).code);
std::string two = "a = 1";
CHECK_EQ(two, transpile(two).code);
std::string three = "a = 1";
CHECK_EQ(three, transpile(three).code);
std::string four = "a , b = 1, 2";
CHECK_EQ(four, transpile(four).code);
std::string five = "a, b = 1, 2";
CHECK_EQ(five, transpile(five).code);
std::string six = "a, b = 1 , 2";
CHECK_EQ(six, transpile(six).code);
std::string seven = "a, b = 1, 2";
CHECK_EQ(seven, transpile(seven).code);
}
TEST_CASE_FIXTURE(Fixture, "transpile_generic_function")
{
std::string code = R"(
local function foo<T,S...>(a: T, ...: S...) return 1 end
local f: <T,S...>(T, S...)->(number) = foo
)";
CHECK_EQ(code, transpile(code, {}, true).code);
}
TEST_CASE_FIXTURE(Fixture, "transpile_union_reverse")
{
std::string code = "local a: nil | number";
CHECK_EQ("local a: number?", transpile(code, {}, true).code);
}
TEST_CASE_FIXTURE(Fixture, "transpile_for_in_multiple")
{
std::string code = "for k,v in next,{}do print(k,v) end";
CHECK_EQ(code, transpile(code, {}, true).code);
}
TEST_CASE_FIXTURE(Fixture, "transpile_error_expr")
{
std::string code = "local a = f:-";
auto allocator = Allocator{};
auto names = AstNameTable{allocator};
ParseResult parseResult = Parser::parse(code.data(), code.size(), names, allocator, {});
CHECK_EQ("local a = (error-expr: f:%error-id%)-(error-expr)", transpileWithTypes(*parseResult.root));
}
TEST_CASE_FIXTURE(Fixture, "transpile_error_stat")
{
std::string code = "-";
auto allocator = Allocator{};
auto names = AstNameTable{allocator};
ParseResult parseResult = Parser::parse(code.data(), code.size(), names, allocator, {});
CHECK_EQ("(error-stat: (error-expr))", transpileWithTypes(*parseResult.root));
}
TEST_CASE_FIXTURE(Fixture, "transpile_error_type")
{
std::string code = "local a: ";
auto allocator = Allocator{};
auto names = AstNameTable{allocator};
ParseResult parseResult = Parser::parse(code.data(), code.size(), names, allocator, {});
CHECK_EQ("local a:%error-type%", transpileWithTypes(*parseResult.root));
}
TEST_CASE_FIXTURE(Fixture, "transpile_parse_error")
{
std::string code = "local a = -";
auto result = transpile(code);
CHECK_EQ("", result.code);
CHECK_EQ("Expected identifier when parsing expression, got <eof>", result.parseError);
}
TEST_CASE_FIXTURE(Fixture, "transpile_to_string")
{
std::string code = "local a: string = 'hello'";
auto allocator = Allocator{};
auto names = AstNameTable{allocator};
ParseResult parseResult = Parser::parse(code.data(), code.size(), names, allocator, {});
REQUIRE(parseResult.root);
REQUIRE(parseResult.root->body.size == 1);
AstStatLocal* statLocal = parseResult.root->body.data[0]->as<AstStatLocal>();
REQUIRE(statLocal);
CHECK_EQ("local a: string = 'hello'", toString(statLocal));
REQUIRE(statLocal->vars.size == 1);
AstLocal* local = statLocal->vars.data[0];
REQUIRE(local->annotation);
CHECK_EQ("string", toString(local->annotation));
REQUIRE(statLocal->values.size == 1);
AstExpr* expr = statLocal->values.data[0];
CHECK_EQ("'hello'", toString(expr));
}
TEST_CASE_FIXTURE(Fixture, "transpile_type_alias_default_type_parameters")
{
std::string code = R"(
type Packed<T = string, U = T, V... = ...boolean, W... = (T, U, V...)> = (T, U, V...)->(W...)
local a: Packed<number>
)";
CHECK_EQ(code, transpile(code, {}, true).code);
}
TEST_CASE_FIXTURE(Fixture, "transpile_singleton_types")
{
std::string code = R"(
type t1 = 'hello'
type t2 = true
type t3 = ''
type t4 = false
)";
CHECK_EQ(code, transpile(code, {}, true).code);
}
TEST_CASE_FIXTURE(Fixture, "transpile_array_types")
{
std::string code = R"(
type t1 = {number}
type t2 = {[string]: number}
)";
CHECK_EQ(code, transpile(code, {}, true).code);
}
TEST_CASE_FIXTURE(Fixture, "transpile_for_in_multiple_types")
{
std::string code = "for k:string,v:boolean in next,{}do end";
CHECK_EQ(code, transpile(code, {}, true).code);
}
TEST_CASE_FIXTURE(Fixture, "transpile_string_interp")
{
ScopedFastFlag fflags[] = {
{FFlag::LuauStoreCSTData, true},
{FFlag::LexerFixInterpStringStart, true},
};
std::string code = R"( local _ = `hello {name}` )";
CHECK_EQ(code, transpile(code, {}, true).code);
}
TEST_CASE_FIXTURE(Fixture, "transpile_string_interp_multiline")
{
ScopedFastFlag fflags[] = {
{FFlag::LuauStoreCSTData, true},
{FFlag::LexerFixInterpStringStart, true},
};
std::string code = R"( local _ = `hello {
name
}!` )";
CHECK_EQ(code, transpile(code, {}, true).code);
}
TEST_CASE_FIXTURE(Fixture, "transpile_string_interp_on_new_line")
{
ScopedFastFlag fflags[] = {
{FFlag::LuauStoreCSTData, true},
{FFlag::LexerFixInterpStringStart, true},
};
std::string code = R"(
error(
`a {b} c`
)
)";
CHECK_EQ(code, transpile(code, {}, true).code);
}
TEST_CASE_FIXTURE(Fixture, "transpile_string_interp_multiline_escape")
{
ScopedFastFlag _{FFlag::LuauStoreCSTData, true};
std::string code = R"( local _ = `hello \
world!` )";
CHECK_EQ(code, transpile(code, {}, true).code);
}
TEST_CASE_FIXTURE(Fixture, "transpile_string_literal_escape")
{
ScopedFastFlag fflags[] = {
{FFlag::LuauStoreCSTData, true},
{FFlag::LexerFixInterpStringStart, true},
};
std::string code = R"( local _ = ` bracket = \{, backtick = \` = {'ok'} ` )";
CHECK_EQ(code, transpile(code, {}, true).code);
}
TEST_CASE_FIXTURE(Fixture, "transpile_type_functions")
{
std::string code = R"( type function foo(arg1, arg2) if arg1 == arg2 then return arg1 end return arg2 end )";
CHECK_EQ(code, transpile(code, {}, true).code);
}
TEST_CASE_FIXTURE(Fixture, "transpile_typeof_spaces_around_tokens")
{
ScopedFastFlag _{FFlag::LuauStoreCSTData, true};
std::string code = R"( type X = typeof(x) )";
CHECK_EQ(code, transpile(code, {}, true).code);
code = R"( type X = typeof(x) )";
CHECK_EQ(code, transpile(code, {}, true).code);
code = R"( type X = typeof (x) )";
CHECK_EQ(code, transpile(code, {}, true).code);
code = R"( type X = typeof( x) )";
CHECK_EQ(code, transpile(code, {}, true).code);
code = R"( type X = typeof(x ) )";
CHECK_EQ(code, transpile(code, {}, true).code);
}
TEST_CASE("transpile_single_quoted_string_types")
{
const std::string code = R"( type a = 'hello world' )";
CHECK_EQ(code, transpile(code, {}, true).code);
}
TEST_CASE("transpile_double_quoted_string_types")
{
ScopedFastFlag _{FFlag::LuauStoreCSTData, true};
const std::string code = R"( type a = "hello world" )";
CHECK_EQ(code, transpile(code, {}, true).code);
}
TEST_CASE("transpile_raw_string_types")
{
ScopedFastFlag _{FFlag::LuauStoreCSTData, true};
std::string code = R"( type a = [[ hello world ]] )";
CHECK_EQ(code, transpile(code, {}, true).code);
code = R"( type a = [==[ hello world ]==] )";
CHECK_EQ(code, transpile(code, {}, true).code);
}
TEST_CASE("transpile_escaped_string_types")
{
ScopedFastFlag _{FFlag::LuauStoreCSTData, true};
const std::string code = R"( type a = "\\b\\t\\n\\\\" )";
CHECK_EQ(code, transpile(code, {}, true).code);
}
TEST_CASE("transpile_type_table_semicolon_separators")
{
ScopedFastFlag _{FFlag::LuauStoreCSTData, true};
const std::string code = R"(
type Foo = {
bar: number;
baz: number;
}
)";
CHECK_EQ(code, transpile(code, {}, true).code);
}
TEST_CASE("transpile_type_table_access_modifiers")
{
ScopedFastFlag _{FFlag::LuauStoreCSTData, true};
std::string code = R"(
type Foo = {
read bar: number,
write baz: number,
}
)";
CHECK_EQ(code, transpile(code, {}, true).code);
code = R"( type Foo = { read string } )";
CHECK_EQ(code, transpile(code, {}, true).code);
code = R"( type Foo = {
read [string]: number,
read ["property"]: number
} )";
CHECK_EQ(code, transpile(code, {}, true).code);
}
TEST_CASE("transpile_type_table_spaces_between_tokens")
{
ScopedFastFlag _{FFlag::LuauStoreCSTData, true};
std::string code = R"( type Foo = { bar: number, } )";
CHECK_EQ(code, transpile(code, {}, true).code);
code = R"( type Foo = { bar: number, } )";
CHECK_EQ(code, transpile(code, {}, true).code);
code = R"( type Foo = { bar : number, } )";
CHECK_EQ(code, transpile(code, {}, true).code);
code = R"( type Foo = { bar: number, } )";
CHECK_EQ(code, transpile(code, {}, true).code);
code = R"( type Foo = { bar: number , } )";
CHECK_EQ(code, transpile(code, {}, true).code);
code = R"( type Foo = { bar: number, } )";
CHECK_EQ(code, transpile(code, {}, true).code);
code = R"( type Foo = { bar: number } )";
CHECK_EQ(code, transpile(code, {}, true).code);
code = R"( type Foo = { [string]: number } )";
CHECK_EQ(code, transpile(code, {}, true).code);
code = R"( type Foo = { [string]: number } )";
CHECK_EQ(code, transpile(code, {}, true).code);
code = R"( type Foo = { [ string]: number } )";
CHECK_EQ(code, transpile(code, {}, true).code);
code = R"( type Foo = { [string ]: number } )";
CHECK_EQ(code, transpile(code, {}, true).code);
code = R"( type Foo = { [string] : number } )";
CHECK_EQ(code, transpile(code, {}, true).code);
code = R"( type Foo = { [string]: number } )";
CHECK_EQ(code, transpile(code, {}, true).code);
}
TEST_CASE("transpile_type_table_preserve_original_indexer_style")
{
ScopedFastFlag _{FFlag::LuauStoreCSTData, true};
std::string code = R"(
type Foo = {
[number]: string
}
)";
CHECK_EQ(code, transpile(code, {}, true).code);
code = R"(
type Foo = { { number } }
)";
CHECK_EQ(code, transpile(code, {}, true).code);
}
TEST_CASE("transpile_type_table_preserve_indexer_location")
{
ScopedFastFlag _{FFlag::LuauStoreCSTData, true};
std::string code = R"(
type Foo = {
[number]: string,
property: number,
}
)";
CHECK_EQ(code, transpile(code, {}, true).code);
code = R"(
type Foo = {
property: number,
[number]: string,
}
)";
CHECK_EQ(code, transpile(code, {}, true).code);
code = R"(
type Foo = {
property: number,
[number]: string,
property2: number,
}
)";
CHECK_EQ(code, transpile(code, {}, true).code);
}
TEST_CASE("transpile_type_table_preserve_property_definition_style")
{
ScopedFastFlag _{FFlag::LuauStoreCSTData, true};
std::string code = R"(
type Foo = {
["$$typeof1"]: string,
['$$typeof2']: string,
}
)";
CHECK_EQ(code, transpile(code, {}, true).code);
}
TEST_CASE("transpile_types_preserve_parentheses_style")
{
ScopedFastFlag flags[] = {
{FFlag::LuauStoreCSTData, true},
{FFlag::LuauAstTypeGroup2, true},
};
std::string code = R"( type Foo = number )";
CHECK_EQ(code, transpile(code, {}, true).code);
code = R"( type Foo = (number) )";
CHECK_EQ(code, transpile(code, {}, true).code);
code = R"( type Foo = ((number)) )";
CHECK_EQ(code, transpile(code, {}, true).code);
code = R"( type Foo = ( (number) ) )";
CHECK_EQ(code, transpile(code, {}, true).code);
}
TEST_SUITE_END();
Reference in a new issue View git blame Copy permalink