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4b68791b2c
luau/tests/Parser.test.cpp
Alexander McCord 4b68791b2c Sync to upstream/release/603
2023-11-10 10:05:48 -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/Parser.h"
#include "AstQueryDsl.h"
#include "Fixture.h"
#include "ScopedFlags.h"
#include "doctest.h"
#include <limits.h>
using namespace Luau;
namespace
{
struct Counter
{
static int instanceCount;
int id;
Counter()
{
++instanceCount;
id = instanceCount;
}
};
int Counter::instanceCount = 0;
// TODO: delete this and replace all other use of this function with matchParseError
std::string getParseError(const std::string& code)
{
Fixture f;
try
{
f.parse(code);
}
catch (const Luau::ParseErrors& e)
{
// in general, tests check only the first error
return e.getErrors().front().getMessage();
}
throw std::runtime_error("Expected a parse error in '" + code + "'");
}
} // namespace
TEST_SUITE_BEGIN("AllocatorTests");
TEST_CASE("allocator_can_be_moved")
{
Counter* c = nullptr;
auto inner = [&]() {
Luau::Allocator allocator;
c = allocator.alloc<Counter>();
Luau::Allocator moved{std::move(allocator)};
return moved;
};
Counter::instanceCount = 0;
Luau::Allocator a{inner()};
CHECK_EQ(1, c->id);
}
TEST_CASE("moved_out_Allocator_can_still_be_used")
{
Luau::Allocator outer;
Luau::Allocator inner{std::move(outer)};
int* i = outer.alloc<int>();
REQUIRE(i != nullptr);
*i = 55;
REQUIRE_EQ(*i, 55);
}
TEST_CASE("aligns_things")
{
Luau::Allocator alloc;
char* one = alloc.alloc<char>();
double* two = alloc.alloc<double>();
(void)one;
CHECK_EQ(0, reinterpret_cast<intptr_t>(two) & (alignof(double) - 1));
}
TEST_CASE("initial_double_is_aligned")
{
Luau::Allocator alloc;
double* one = alloc.alloc<double>();
CHECK_EQ(0, reinterpret_cast<intptr_t>(one) & (alignof(double) - 1));
}
TEST_SUITE_END();
TEST_SUITE_BEGIN("ParserTests");
TEST_CASE_FIXTURE(Fixture, "basic_parse")
{
AstStat* stat = parse("print(\"Hello World!\")");
REQUIRE(stat != nullptr);
}
TEST_CASE_FIXTURE(Fixture, "can_haz_annotations")
{
AstStatBlock* block = parse("local foo: string = \"Hello Types!\"");
REQUIRE(block != nullptr);
}
TEST_CASE_FIXTURE(Fixture, "local_with_annotation")
{
AstStatBlock* block = parse(R"(
local foo: string = "Hello Types!"
)");
REQUIRE(block != nullptr);
REQUIRE(block->body.size > 0);
AstStatLocal* local = block->body.data[0]->as<AstStatLocal>();
REQUIRE(local != nullptr);
REQUIRE_EQ(1, local->vars.size);
AstLocal* l = local->vars.data[0];
REQUIRE(l->annotation != nullptr);
REQUIRE_EQ(1, local->values.size);
}
TEST_CASE_FIXTURE(Fixture, "type_names_can_contain_dots")
{
AstStatBlock* block = parse(R"(
local foo: SomeModule.CoolType
)");
REQUIRE(block != nullptr);
}
TEST_CASE_FIXTURE(Fixture, "functions_can_have_return_annotations")
{
AstStatBlock* block = parse(R"(
function foo(): number return 55 end
)");
REQUIRE(block != nullptr);
REQUIRE(block->body.size > 0);
AstStatFunction* statFunction = block->body.data[0]->as<AstStatFunction>();
REQUIRE(statFunction != nullptr);
REQUIRE(statFunction->func->returnAnnotation.has_value());
CHECK_EQ(statFunction->func->returnAnnotation->types.size, 1);
CHECK(statFunction->func->returnAnnotation->tailType == nullptr);
}
TEST_CASE_FIXTURE(Fixture, "functions_can_have_a_function_type_annotation")
{
AstStatBlock* block = parse(R"(
function f(): (number) -> nil return nil end
)");
REQUIRE(block != nullptr);
REQUIRE(block->body.size > 0);
AstStatFunction* statFunc = block->body.data[0]->as<AstStatFunction>();
REQUIRE(statFunc != nullptr);
REQUIRE(statFunc->func->returnAnnotation.has_value());
CHECK(statFunc->func->returnAnnotation->tailType == nullptr);
AstArray<AstType*>& retTypes = statFunc->func->returnAnnotation->types;
REQUIRE(retTypes.size == 1);
AstTypeFunction* funTy = retTypes.data[0]->as<AstTypeFunction>();
REQUIRE(funTy != nullptr);
}
TEST_CASE_FIXTURE(Fixture, "function_return_type_should_disambiguate_from_function_type_and_multiple_returns")
{
AstStatBlock* block = parse(R"(
function f(): (number, string) return 1, "foo" end
)");
REQUIRE(block != nullptr);
REQUIRE(block->body.size > 0);
AstStatFunction* statFunc = block->body.data[0]->as<AstStatFunction>();
REQUIRE(statFunc != nullptr);
REQUIRE(statFunc->func->returnAnnotation.has_value());
CHECK(statFunc->func->returnAnnotation->tailType == nullptr);
AstArray<AstType*>& retTypes = statFunc->func->returnAnnotation->types;
REQUIRE(retTypes.size == 2);
AstTypeReference* ty0 = retTypes.data[0]->as<AstTypeReference>();
REQUIRE(ty0 != nullptr);
REQUIRE(ty0->name == "number");
AstTypeReference* ty1 = retTypes.data[1]->as<AstTypeReference>();
REQUIRE(ty1 != nullptr);
REQUIRE(ty1->name == "string");
}
TEST_CASE_FIXTURE(Fixture, "function_return_type_should_parse_as_function_type_annotation_with_no_args")
{
AstStatBlock* block = parse(R"(
function f(): () -> nil return nil end
)");
REQUIRE(block != nullptr);
REQUIRE(block->body.size > 0);
AstStatFunction* statFunc = block->body.data[0]->as<AstStatFunction>();
REQUIRE(statFunc != nullptr);
REQUIRE(statFunc->func->returnAnnotation.has_value());
CHECK(statFunc->func->returnAnnotation->tailType == nullptr);
AstArray<AstType*>& retTypes = statFunc->func->returnAnnotation->types;
REQUIRE(retTypes.size == 1);
AstTypeFunction* funTy = retTypes.data[0]->as<AstTypeFunction>();
REQUIRE(funTy != nullptr);
REQUIRE(funTy->argTypes.types.size == 0);
CHECK(funTy->argTypes.tailType == nullptr);
CHECK(funTy->returnTypes.tailType == nullptr);
AstTypeReference* ty = funTy->returnTypes.types.data[0]->as<AstTypeReference>();
REQUIRE(ty != nullptr);
REQUIRE(ty->name == "nil");
}
TEST_CASE_FIXTURE(Fixture, "annotations_can_be_tables")
{
AstStatBlock* stat = parse(R"(
local zero: number
local one: {x: number, y: string}
)");
REQUIRE(stat != nullptr);
}
TEST_CASE_FIXTURE(Fixture, "tables_should_have_an_indexer_and_keys")
{
AstStatBlock* stat = parse(R"(
local t: {
[string]: number,
f: () -> nil
}
)");
REQUIRE(stat != nullptr);
}
TEST_CASE_FIXTURE(Fixture, "tables_can_have_trailing_separator")
{
AstStatBlock* stat = parse(R"(
local zero: number
local one: {x: number, y: string, }
)");
REQUIRE(stat != nullptr);
}
TEST_CASE_FIXTURE(Fixture, "tables_can_use_semicolons")
{
AstStatBlock* stat = parse(R"(
local zero: number
local one: {x: number; y: string; }
)");
REQUIRE(stat != nullptr);
}
TEST_CASE_FIXTURE(Fixture, "other_places_where_type_annotations_are_allowed")
{
AstStatBlock* stat = parse(R"(
for i: number = 0, 50 do end
for i: number, s: string in expr() do end
)");
REQUIRE(stat != nullptr);
}
TEST_CASE_FIXTURE(Fixture, "nil_is_a_valid_type_name")
{
AstStatBlock* stat = parse(R"(
local n: nil
)");
REQUIRE(stat != nullptr);
}
TEST_CASE_FIXTURE(Fixture, "function_type_annotation")
{
AstStatBlock* stat = parse(R"(
local f: (number, string) -> nil
)");
REQUIRE(stat != nullptr);
}
TEST_CASE_FIXTURE(Fixture, "functions_can_return_multiple_values")
{
AstStatBlock* stat = parse(R"(
local f: (number) -> (number, number)
)");
REQUIRE(stat != nullptr);
}
TEST_CASE_FIXTURE(Fixture, "functions_can_have_0_arguments")
{
AstStatBlock* stat = parse(R"(
local f: () -> number
)");
REQUIRE(stat != nullptr);
}
TEST_CASE_FIXTURE(Fixture, "functions_can_return_0_values")
{
AstStatBlock* block = parse(R"(
local f: (number) -> ()
)");
REQUIRE(block != nullptr);
}
TEST_CASE_FIXTURE(Fixture, "intersection_of_two_function_types_if_no_returns")
{
AstStatBlock* block = parse(R"(
local f: (string) -> () & (number) -> ()
)");
REQUIRE(block != nullptr);
AstStatLocal* local = block->body.data[0]->as<AstStatLocal>();
AstTypeIntersection* annotation = local->vars.data[0]->annotation->as<AstTypeIntersection>();
REQUIRE(annotation != nullptr);
CHECK(annotation->types.data[0]->as<AstTypeFunction>());
CHECK(annotation->types.data[1]->as<AstTypeFunction>());
}
TEST_CASE_FIXTURE(Fixture, "intersection_of_two_function_types_if_two_or_more_returns")
{
AstStatBlock* block = parse(R"(
local f: (string) -> (string, number) & (number) -> (number, string)
)");
REQUIRE(block != nullptr);
AstStatLocal* local = block->body.data[0]->as<AstStatLocal>();
AstTypeIntersection* annotation = local->vars.data[0]->annotation->as<AstTypeIntersection>();
REQUIRE(annotation != nullptr);
CHECK(annotation->types.data[0]->as<AstTypeFunction>());
CHECK(annotation->types.data[1]->as<AstTypeFunction>());
}
TEST_CASE_FIXTURE(Fixture, "return_type_is_an_intersection_type_if_led_with_one_parenthesized_type")
{
AstStatBlock* block = parse(R"(
local f: (string) -> (string) & (number) -> (number)
)");
REQUIRE(block != nullptr);
AstStatLocal* local = block->body.data[0]->as<AstStatLocal>();
AstTypeFunction* annotation = local->vars.data[0]->annotation->as<AstTypeFunction>();
REQUIRE(annotation != nullptr);
AstTypeIntersection* returnAnnotation = annotation->returnTypes.types.data[0]->as<AstTypeIntersection>();
REQUIRE(returnAnnotation != nullptr);
CHECK(returnAnnotation->types.data[0]->as<AstTypeReference>());
CHECK(returnAnnotation->types.data[1]->as<AstTypeFunction>());
}
TEST_CASE_FIXTURE(Fixture, "type_alias_to_a_typeof")
{
AstStatBlock* block = parse(R"(
type A = typeof(1)
)");
REQUIRE(block != nullptr);
REQUIRE(block->body.size > 0);
auto typeAliasStat = block->body.data[0]->as<AstStatTypeAlias>();
REQUIRE(typeAliasStat != nullptr);
CHECK_EQ(typeAliasStat->location, (Location{{1, 8}, {1, 26}}));
}
TEST_CASE_FIXTURE(Fixture, "type_alias_should_point_to_string")
{
AstStatBlock* block = parse(R"(
type A = string
)");
REQUIRE(block != nullptr);
REQUIRE(block->body.size > 0);
REQUIRE(block->body.data[0]->is<AstStatTypeAlias>());
}
TEST_CASE_FIXTURE(Fixture, "type_alias_should_not_interfere_with_type_function_call_or_assignment")
{
AstStatBlock* block = parse(R"(
type("a")
type = nil
)");
REQUIRE(block != nullptr);
REQUIRE(block->body.size > 0);
AstStatExpr* stat = block->body.data[0]->as<AstStatExpr>();
REQUIRE(stat != nullptr);
REQUIRE(stat->expr->as<AstExprCall>());
REQUIRE(block->body.data[1]->is<AstStatAssign>());
}
TEST_CASE_FIXTURE(Fixture, "type_alias_should_work_when_name_is_also_local")
{
AstStatBlock* block = parse(R"(
local A = nil
type A = string
)");
REQUIRE(block != nullptr);
REQUIRE(block->body.size == 2);
REQUIRE(block->body.data[0]->is<AstStatLocal>());
REQUIRE(block->body.data[1]->is<AstStatTypeAlias>());
}
TEST_CASE_FIXTURE(Fixture, "type_alias_span_is_correct")
{
AstStatBlock* block = parse(R"(
type Packed1<T...> = (T...) -> (T...)
type Packed2<T...> = (Packed1<T...>, T...) -> (Packed1<T...>, T...)
)");
REQUIRE(block != nullptr);
REQUIRE(2 == block->body.size);
AstStatTypeAlias* t1 = block->body.data[0]->as<AstStatTypeAlias>();
REQUIRE(t1);
REQUIRE(Location{Position{1, 8}, Position{1, 45}} == t1->location);
AstStatTypeAlias* t2 = block->body.data[1]->as<AstStatTypeAlias>();
REQUIRE(t2);
REQUIRE(Location{Position{2, 8}, Position{2, 75}} == t2->location);
}
TEST_CASE_FIXTURE(Fixture, "parse_error_messages")
{
CHECK_EQ(getParseError(R"(
local a: (number, number) -> (string
)"),
"Expected ')' (to close '(' at line 2), got <eof>");
CHECK_EQ(getParseError(R"(
local a: (number, number) -> (
string
)"),
"Expected ')' (to close '(' at line 2), got <eof>");
CHECK_EQ(getParseError(R"(
local a: (number, number)
)"),
"Expected '->' when parsing function type, got <eof>");
CHECK_EQ(getParseError(R"(
local a: (number, number
)"),
"Expected ')' (to close '(' at line 2), got <eof>");
CHECK_EQ(getParseError(R"(
local a: {foo: string,
)"),
"Expected identifier when parsing table field, got <eof>");
CHECK_EQ(getParseError(R"(
local a: {foo: string
)"),
"Expected '}' (to close '{' at line 2), got <eof>");
CHECK_EQ(getParseError(R"(
local a: { [string]: number, [number]: string }
)"),
"Cannot have more than one table indexer");
CHECK_EQ(getParseError(R"(
type T = <a>foo
)"),
"Expected '(' when parsing function parameters, got 'foo'");
}
TEST_CASE_FIXTURE(Fixture, "mixed_intersection_and_union_not_allowed")
{
matchParseError("type A = number & string | boolean", "Mixing union and intersection types is not allowed; consider wrapping in parentheses.");
}
TEST_CASE_FIXTURE(Fixture, "mixed_intersection_and_union_allowed_when_parenthesized")
{
try
{
parse("type A = (number & string) | boolean");
}
catch (const ParseErrors& e)
{
FAIL(e.what());
}
}
TEST_CASE_FIXTURE(Fixture, "cannot_write_multiple_values_in_type_groups")
{
matchParseError("type F = ((string, number))", "Expected '->' when parsing function type, got ')'");
matchParseError("type F = () -> ((string, number))", "Expected '->' when parsing function type, got ')'");
}
TEST_CASE_FIXTURE(Fixture, "type_alias_error_messages")
{
CHECK_EQ(getParseError("type 5 = number"), "Expected identifier when parsing type name, got '5'");
CHECK_EQ(getParseError("type A"), "Expected '=' when parsing type alias, got <eof>");
CHECK_EQ(getParseError("type A<"), "Expected identifier, got <eof>");
CHECK_EQ(getParseError("type A<B"), "Expected '>' (to close '<' at column 7), got <eof>");
}
TEST_CASE_FIXTURE(Fixture, "type_assertion_expression")
{
(void)parse(R"(
local a = something() :: any
)");
}
// The bug that motivated this test was an infinite loop.
// TODO: Set a timer and crash if the timeout is exceeded.
TEST_CASE_FIXTURE(Fixture, "last_line_does_not_have_to_be_blank")
{
(void)parse("-- print('hello')");
}
TEST_CASE_FIXTURE(Fixture, "type_assertion_expression_binds_tightly")
{
AstStatBlock* stat = parse(R"(
local a = one :: any + two :: any
)");
REQUIRE(stat != nullptr);
AstStatBlock* block = stat->as<AstStatBlock>();
REQUIRE(block != nullptr);
REQUIRE_EQ(1, block->body.size);
AstStatLocal* local = block->body.data[0]->as<AstStatLocal>();
REQUIRE(local != nullptr);
REQUIRE_EQ(1, local->values.size);
AstExprBinary* bin = local->values.data[0]->as<AstExprBinary>();
REQUIRE(bin != nullptr);
CHECK(nullptr != bin->left->as<AstExprTypeAssertion>());
CHECK(nullptr != bin->right->as<AstExprTypeAssertion>());
}
TEST_CASE_FIXTURE(Fixture, "mode_is_unset_if_no_hot_comment")
{
ParseResult result = parseEx("print('Hello World!')");
CHECK(result.hotcomments.empty());
}
TEST_CASE_FIXTURE(Fixture, "sense_hot_comment_on_first_line")
{
ParseOptions options;
options.captureComments = true;
ParseResult result = parseEx(" --!strict ", options);
std::optional<Mode> mode = parseMode(result.hotcomments);
REQUIRE(bool(mode));
CHECK_EQ(int(*mode), int(Mode::Strict));
}
TEST_CASE_FIXTURE(Fixture, "non_header_hot_comments")
{
ParseOptions options;
options.captureComments = true;
ParseResult result = parseEx("do end --!strict", options);
std::optional<Mode> mode = parseMode(result.hotcomments);
REQUIRE(!mode);
}
TEST_CASE_FIXTURE(Fixture, "stop_if_line_ends_with_hyphen")
{
CHECK_THROWS_AS(parse(" -"), std::exception);
}
TEST_CASE_FIXTURE(Fixture, "nonstrict_mode")
{
ParseOptions options;
options.captureComments = true;
ParseResult result = parseEx("--!nonstrict", options);
CHECK(result.errors.empty());
std::optional<Mode> mode = parseMode(result.hotcomments);
REQUIRE(bool(mode));
CHECK_EQ(int(*mode), int(Mode::Nonstrict));
}
TEST_CASE_FIXTURE(Fixture, "nocheck_mode")
{
ParseOptions options;
options.captureComments = true;
ParseResult result = parseEx("--!nocheck", options);
CHECK(result.errors.empty());
std::optional<Mode> mode = parseMode(result.hotcomments);
REQUIRE(bool(mode));
CHECK_EQ(int(*mode), int(Mode::NoCheck));
}
TEST_CASE_FIXTURE(Fixture, "vertical_space")
{
ParseResult result = parseEx("a()\vb()");
CHECK(result.errors.empty());
}
TEST_CASE_FIXTURE(Fixture, "parse_error_type_name")
{
CHECK_EQ(getParseError(R"(
local a: Foo.=
)"),
"Expected identifier when parsing field name, got '='");
}
TEST_CASE_FIXTURE(Fixture, "parse_numbers_decimal")
{
AstStat* stat = parse("return 1, .5, 1.5, 1e-5, 1.5e-5, 12_345.1_25");
REQUIRE(stat != nullptr);
AstStatReturn* str = stat->as<AstStatBlock>()->body.data[0]->as<AstStatReturn>();
CHECK(str->list.size == 6);
CHECK_EQ(str->list.data[0]->as<AstExprConstantNumber>()->value, 1.0);
CHECK_EQ(str->list.data[1]->as<AstExprConstantNumber>()->value, 0.5);
CHECK_EQ(str->list.data[2]->as<AstExprConstantNumber>()->value, 1.5);
CHECK_EQ(str->list.data[3]->as<AstExprConstantNumber>()->value, 1.0e-5);
CHECK_EQ(str->list.data[4]->as<AstExprConstantNumber>()->value, 1.5e-5);
CHECK_EQ(str->list.data[5]->as<AstExprConstantNumber>()->value, 12345.125);
}
TEST_CASE_FIXTURE(Fixture, "parse_numbers_hexadecimal")
{
AstStat* stat = parse("return 0xab, 0XAB05, 0xff_ff, 0xffffffffffffffff");
REQUIRE(stat != nullptr);
AstStatReturn* str = stat->as<AstStatBlock>()->body.data[0]->as<AstStatReturn>();
CHECK(str->list.size == 4);
CHECK_EQ(str->list.data[0]->as<AstExprConstantNumber>()->value, 0xab);
CHECK_EQ(str->list.data[1]->as<AstExprConstantNumber>()->value, 0xAB05);
CHECK_EQ(str->list.data[2]->as<AstExprConstantNumber>()->value, 0xFFFF);
CHECK_EQ(str->list.data[3]->as<AstExprConstantNumber>()->value, double(ULLONG_MAX));
}
TEST_CASE_FIXTURE(Fixture, "parse_numbers_binary")
{
AstStat* stat = parse("return 0b1, 0b0, 0b101010, 0b1111111111111111111111111111111111111111111111111111111111111111");
REQUIRE(stat != nullptr);
AstStatReturn* str = stat->as<AstStatBlock>()->body.data[0]->as<AstStatReturn>();
CHECK(str->list.size == 4);
CHECK_EQ(str->list.data[0]->as<AstExprConstantNumber>()->value, 1);
CHECK_EQ(str->list.data[1]->as<AstExprConstantNumber>()->value, 0);
CHECK_EQ(str->list.data[2]->as<AstExprConstantNumber>()->value, 42);
CHECK_EQ(str->list.data[3]->as<AstExprConstantNumber>()->value, double(ULLONG_MAX));
}
TEST_CASE_FIXTURE(Fixture, "parse_numbers_error")
{
CHECK_EQ(getParseError("return 0b123"), "Malformed number");
CHECK_EQ(getParseError("return 123x"), "Malformed number");
CHECK_EQ(getParseError("return 0xg"), "Malformed number");
CHECK_EQ(getParseError("return 0x0x123"), "Malformed number");
CHECK_EQ(getParseError("return 0xffffffffffffffffffffllllllg"), "Malformed number");
CHECK_EQ(getParseError("return 0x0xffffffffffffffffffffffffffff"), "Malformed number");
}
TEST_CASE_FIXTURE(Fixture, "break_return_not_last_error")
{
CHECK_EQ(getParseError("return 0 print(5)"), "Expected <eof>, got 'print'");
CHECK_EQ(getParseError("while true do break print(5) end"), "Expected 'end' (to close 'do' at column 12), got 'print'");
}
TEST_CASE_FIXTURE(Fixture, "error_on_unicode")
{
CHECK_EQ(getParseError(R"(
local = 10
)"),
"Expected identifier when parsing variable name, got Unicode character U+2603");
}
TEST_CASE_FIXTURE(Fixture, "allow_unicode_in_string")
{
ParseResult result = parseEx("local snowman = \"\"");
CHECK(result.errors.empty());
}
TEST_CASE_FIXTURE(Fixture, "error_on_confusable")
{
CHECK_EQ(getParseError(R"(
local pi = 313
)"),
"Expected identifier when parsing expression, got Unicode character U+2024 (did you mean '.'?)");
}
TEST_CASE_FIXTURE(Fixture, "error_on_non_utf8_sequence")
{
const char* expected = "Expected identifier when parsing expression, got invalid UTF-8 sequence";
CHECK_EQ(getParseError("local pi = \xFF!"), expected);
CHECK_EQ(getParseError("local pi = \xE2!"), expected);
}
TEST_CASE_FIXTURE(Fixture, "lex_broken_unicode")
{
const std::string testInput = std::string("\xFF\xFE☃․");
Luau::Allocator alloc;
AstNameTable table(alloc);
Lexer lexer(testInput.c_str(), testInput.size(), table);
Lexeme lexeme = lexer.current();
lexeme = lexer.next();
CHECK_EQ(lexeme.type, Lexeme::BrokenUnicode);
CHECK_EQ(lexeme.codepoint, 0);
CHECK_EQ(lexeme.location, Luau::Location(Luau::Position(0, 0), Luau::Position(0, 1)));
lexeme = lexer.next();
CHECK_EQ(lexeme.type, Lexeme::BrokenUnicode);
CHECK_EQ(lexeme.codepoint, 0);
CHECK_EQ(lexeme.location, Luau::Location(Luau::Position(0, 1), Luau::Position(0, 2)));
lexeme = lexer.next();
CHECK_EQ(lexeme.type, Lexeme::BrokenUnicode);
CHECK_EQ(lexeme.codepoint, 0x2603);
CHECK_EQ(lexeme.location, Luau::Location(Luau::Position(0, 2), Luau::Position(0, 5)));
lexeme = lexer.next();
CHECK_EQ(lexeme.type, Lexeme::BrokenUnicode);
CHECK_EQ(lexeme.codepoint, 0x2024);
CHECK_EQ(lexeme.location, Luau::Location(Luau::Position(0, 5), Luau::Position(0, 8)));
lexeme = lexer.next();
CHECK_EQ(lexeme.type, Lexeme::Eof);
}
TEST_CASE_FIXTURE(Fixture, "parse_continue")
{
AstStatBlock* stat = parse(R"(
while true do
continue()
continue = 5
continue, continue = continue
continue
end
)");
REQUIRE(stat != nullptr);
AstStatBlock* block = stat->as<AstStatBlock>();
REQUIRE(block != nullptr);
REQUIRE_EQ(1, block->body.size);
AstStatWhile* wb = block->body.data[0]->as<AstStatWhile>();
REQUIRE(wb != nullptr);
AstStatBlock* wblock = wb->body->as<AstStatBlock>();
REQUIRE(wblock != nullptr);
REQUIRE_EQ(4, wblock->body.size);
REQUIRE(wblock->body.data[0]->is<AstStatExpr>());
REQUIRE(wblock->body.data[1]->is<AstStatAssign>());
REQUIRE(wblock->body.data[2]->is<AstStatAssign>());
REQUIRE(wblock->body.data[3]->is<AstStatContinue>());
}
TEST_CASE_FIXTURE(Fixture, "continue_not_last_error")
{
CHECK_EQ(getParseError("while true do continue print(5) end"), "Expected 'end' (to close 'do' at column 12), got 'print'");
}
TEST_CASE_FIXTURE(Fixture, "parse_export_type")
{
AstStatBlock* stat = parse(R"(
export()
export = 5
export, export = export
export type A = number
type A = number
)");
REQUIRE(stat != nullptr);
AstStatBlock* block = stat->as<AstStatBlock>();
REQUIRE(block != nullptr);
REQUIRE_EQ(5, block->body.size);
REQUIRE(block->body.data[0]->is<AstStatExpr>());
REQUIRE(block->body.data[1]->is<AstStatAssign>());
REQUIRE(block->body.data[2]->is<AstStatAssign>());
REQUIRE(block->body.data[3]->is<AstStatTypeAlias>());
REQUIRE(block->body.data[4]->is<AstStatTypeAlias>());
}
TEST_CASE_FIXTURE(Fixture, "export_is_an_identifier_only_when_followed_by_type")
{
try
{
parse(R"(
export function a() end
)");
FAIL("Expected ParseErrors to be thrown");
}
catch (const ParseErrors& e)
{
CHECK_EQ("Incomplete statement: expected assignment or a function call", e.getErrors().front().getMessage());
}
}
TEST_CASE_FIXTURE(Fixture, "incomplete_statement_error")
{
CHECK_EQ(getParseError("fiddlesticks"), "Incomplete statement: expected assignment or a function call");
}
TEST_CASE_FIXTURE(Fixture, "parse_compound_assignment")
{
AstStatBlock* block = parse(R"(
a += 5
)");
REQUIRE(block != nullptr);
REQUIRE(block->body.size == 1);
REQUIRE(block->body.data[0]->is<AstStatCompoundAssign>());
REQUIRE(block->body.data[0]->as<AstStatCompoundAssign>()->op == AstExprBinary::Add);
}
TEST_CASE_FIXTURE(Fixture, "parse_compound_assignment_error_call")
{
try
{
parse(R"(
a() += 5
)");
FAIL("Expected ParseErrors to be thrown");
}
catch (const ParseErrors& e)
{
CHECK_EQ("Expected identifier when parsing expression, got '+='", e.getErrors().front().getMessage());
}
}
TEST_CASE_FIXTURE(Fixture, "parse_compound_assignment_error_not_lvalue")
{
try
{
parse(R"(
(a) += 5
)");
FAIL("Expected ParseErrors to be thrown");
}
catch (const ParseErrors& e)
{
CHECK_EQ("Assigned expression must be a variable or a field", e.getErrors().front().getMessage());
}
}
TEST_CASE_FIXTURE(Fixture, "parse_compound_assignment_error_multiple")
{
try
{
parse(R"(
a, b += 5
)");
FAIL("Expected ParseErrors to be thrown");
}
catch (const ParseErrors& e)
{
CHECK_EQ("Expected '=' when parsing assignment, got '+='", e.getErrors().front().getMessage());
}
}
TEST_CASE_FIXTURE(Fixture, "parse_interpolated_string_double_brace_begin")
{
try
{
parse(R"(
_ = `{{oops}}`
)");
FAIL("Expected ParseErrors to be thrown");
}
catch (const ParseErrors& e)
{
CHECK_EQ("Double braces are not permitted within interpolated strings; did you mean '\\{'?", e.getErrors().front().getMessage());
}
}
TEST_CASE_FIXTURE(Fixture, "parse_interpolated_string_double_brace_mid")
{
try
{
parse(R"(
_ = `{nice} {{oops}}`
)");
FAIL("Expected ParseErrors to be thrown");
}
catch (const ParseErrors& e)
{
CHECK_EQ("Double braces are not permitted within interpolated strings; did you mean '\\{'?", e.getErrors().front().getMessage());
}
}
TEST_CASE_FIXTURE(Fixture, "parse_interpolated_string_without_end_brace")
{
auto columnOfEndBraceError = [this](const char* code) {
try
{
parse(code);
FAIL("Expected ParseErrors to be thrown");
return UINT_MAX;
}
catch (const ParseErrors& e)
{
CHECK_EQ(e.getErrors().size(), 1);
auto error = e.getErrors().front();
CHECK_EQ("Malformed interpolated string; did you forget to add a '}'?", error.getMessage());
return error.getLocation().begin.column;
}
};
// This makes sure that the error is coming from the brace itself
CHECK_EQ(columnOfEndBraceError("_ = `{a`"), columnOfEndBraceError("_ = `{abcdefg`"));
CHECK_NE(columnOfEndBraceError("_ = `{a`"), columnOfEndBraceError("_ = `{a`"));
}
TEST_CASE_FIXTURE(Fixture, "parse_interpolated_string_without_end_brace_in_table")
{
try
{
parse(R"(
_ = { `{a` }
)");
FAIL("Expected ParseErrors to be thrown");
}
catch (const ParseErrors& e)
{
CHECK_EQ(e.getErrors().size(), 2);
CHECK_EQ("Malformed interpolated string; did you forget to add a '}'?", e.getErrors().front().getMessage());
CHECK_EQ("Expected '}' (to close '{' at line 2), got <eof>", e.getErrors().back().getMessage());
}
}
TEST_CASE_FIXTURE(Fixture, "parse_interpolated_string_mid_without_end_brace_in_table")
{
try
{
parse(R"(
_ = { `x {"y"} {z` }
)");
FAIL("Expected ParseErrors to be thrown");
}
catch (const ParseErrors& e)
{
CHECK_EQ(e.getErrors().size(), 2);
CHECK_EQ("Malformed interpolated string; did you forget to add a '}'?", e.getErrors().front().getMessage());
CHECK_EQ("Expected '}' (to close '{' at line 2), got <eof>", e.getErrors().back().getMessage());
}
}
TEST_CASE_FIXTURE(Fixture, "parse_interpolated_string_as_type_fail")
{
try
{
parse(R"(
local a: `what` = `???`
local b: `what {"the"}` = `???`
local c: `what {"the"} heck` = `???`
)");
FAIL("Expected ParseErrors to be thrown");
}
catch (const ParseErrors& parseErrors)
{
CHECK_EQ(parseErrors.getErrors().size(), 3);
for (ParseError error : parseErrors.getErrors())
CHECK_EQ(error.getMessage(), "Interpolated string literals cannot be used as types");
}
}
TEST_CASE_FIXTURE(Fixture, "parse_interpolated_string_call_without_parens")
{
try
{
parse(R"(
_ = print `{42}`
)");
FAIL("Expected ParseErrors to be thrown");
}
catch (const ParseErrors& e)
{
CHECK_EQ("Expected identifier when parsing expression, got `{", e.getErrors().front().getMessage());
}
}
TEST_CASE_FIXTURE(Fixture, "parse_interpolated_string_without_expression")
{
try
{
parse(R"(
print(`{}`)
)");
FAIL("Expected ParseErrors to be thrown");
}
catch (const ParseErrors& e)
{
CHECK_EQ("Malformed interpolated string, expected expression inside '{}'", e.getErrors().front().getMessage());
}
try
{
parse(R"(
print(`{}{1}`)
)");
FAIL("Expected ParseErrors to be thrown");
}
catch (const ParseErrors& e)
{
CHECK_EQ("Malformed interpolated string, expected expression inside '{}'", e.getErrors().front().getMessage());
}
}
TEST_CASE_FIXTURE(Fixture, "parse_interpolated_string_malformed_escape")
{
try
{
parse(R"(
local a = `???\xQQ {1}`
)");
FAIL("Expected ParseErrors to be thrown");
}
catch (const ParseErrors& e)
{
CHECK_EQ("Interpolated string literal contains malformed escape sequence", e.getErrors().front().getMessage());
}
}
TEST_CASE_FIXTURE(Fixture, "parse_interpolated_string_weird_token")
{
try
{
parse(R"(
local a = `??? {42 !!}`
)");
FAIL("Expected ParseErrors to be thrown");
}
catch (const ParseErrors& e)
{
CHECK_EQ("Malformed interpolated string, got '!'", e.getErrors().front().getMessage());
}
}
TEST_CASE_FIXTURE(Fixture, "parse_nesting_based_end_detection")
{
try
{
parse(R"(-- i am line 1
function BottomUpTree(item, depth)
if depth > 0 then
local i = item + item
depth = depth - 1
local left, right = BottomUpTree(i-1, depth), BottomUpTree(i, depth)
return { item, left, right }
else
return { item }
end
function ItemCheck(tree)
if tree[2] then
return tree[1] + ItemCheck(tree[2]) - ItemCheck(tree[3])
else
return tree[1]
end
end
)");
FAIL("Expected ParseErrors to be thrown");
}
catch (const ParseErrors& e)
{
CHECK_EQ("Expected 'end' (to close 'function' at line 2), got <eof>; did you forget to close 'else' at line 8?",
e.getErrors().front().getMessage());
}
}
TEST_CASE_FIXTURE(Fixture, "parse_nesting_based_end_detection_single_line")
{
try
{
parse(R"(-- i am line 1
function ItemCheck(tree)
if tree[2] then return tree[1] + ItemCheck(tree[2]) - ItemCheck(tree[3]) else return tree[1]
end
function BottomUpTree(item, depth)
if depth > 0 then
local i = item + item
depth = depth - 1
local left, right = BottomUpTree(i-1, depth), BottomUpTree(i, depth)
return { item, left, right }
else
return { item }
end
end
)");
FAIL("Expected ParseErrors to be thrown");
}
catch (const ParseErrors& e)
{
CHECK_EQ("Expected 'end' (to close 'function' at line 2), got <eof>; did you forget to close 'else' at line 3?",
e.getErrors().front().getMessage());
}
}
TEST_CASE_FIXTURE(Fixture, "parse_nesting_based_end_detection_local_repeat")
{
try
{
parse(R"(-- i am line 1
repeat
print(1)
repeat
print(2)
print(3)
until false
)");
FAIL("Expected ParseErrors to be thrown");
}
catch (const ParseErrors& e)
{
CHECK_EQ("Expected 'until' (to close 'repeat' at line 2), got <eof>; did you forget to close 'repeat' at line 4?",
e.getErrors().front().getMessage());
}
}
TEST_CASE_FIXTURE(Fixture, "parse_nesting_based_end_detection_local_function")
{
ScopedFastFlag sff[] = {
{"DebugLuauDeferredConstraintResolution", false},
};
try
{
parse(R"(-- i am line 1
local function BottomUpTree(item, depth)
if depth > 0 then
local i = item + item
depth = depth - 1
local left, right = BottomUpTree(i-1, depth), BottomUpTree(i, depth)
return { item, left, right }
else
return { item }
end
local function ItemCheck(tree)
if tree[2] then
return tree[1] + ItemCheck(tree[2]) - ItemCheck(tree[3])
else
return tree[1]
end
end
)");
FAIL("Expected ParseErrors to be thrown");
}
catch (const ParseErrors& e)
{
CHECK_EQ("Expected 'end' (to close 'function' at line 2), got <eof>; did you forget to close 'else' at line 8?",
e.getErrors().front().getMessage());
}
}
TEST_CASE_FIXTURE(Fixture, "parse_nesting_based_end_detection_failsafe_earlier")
{
ScopedFastFlag sff[] = {
{"DebugLuauDeferredConstraintResolution", false},
};
try
{
parse(R"(-- i am line 1
local function ItemCheck(tree)
if tree[2] then
return tree[1] + ItemCheck(tree[2]) - ItemCheck(tree[3])
else
return tree[1]
end
end
local function BottomUpTree(item, depth)
if depth > 0 then
local i = item + item
depth = depth - 1
local left, right = BottomUpTree(i-1, depth), BottomUpTree(i, depth)
return { item, left, right }
else
return { item }
end
)");
FAIL("Expected ParseErrors to be thrown");
}
catch (const ParseErrors& e)
{
CHECK_EQ("Expected 'end' (to close 'function' at line 10), got <eof>", e.getErrors().front().getMessage());
}
}
TEST_CASE_FIXTURE(Fixture, "parse_nesting_based_end_detection_nested")
{
try
{
parse(R"(-- i am line 1
function stringifyTable(t)
local entries = {}
for k, v in pairs(t) do
-- if we find a nested table, convert that recursively
if type(v) == "table" then
v = stringifyTable(v)
else
v = tostring(v)
k = tostring(k)
-- add another entry to our stringified table
entries[#entries + 1] = ("s = s"):format(k, v)
end
-- the memory location of the table
local id = tostring(t):sub(8)
return ("{s}@s"):format(table.concat(entries, ", "), id)
end
)");
FAIL("Expected ParseErrors to be thrown");
}
catch (const ParseErrors& e)
{
CHECK_EQ("Expected 'end' (to close 'function' at line 2), got <eof>; did you forget to close 'else' at line 8?",
e.getErrors().front().getMessage());
}
}
TEST_CASE_FIXTURE(Fixture, "parse_error_table_literal")
{
try
{
parse(R"(
function stringifyTable(t)
local foo = (name = t)
return foo
end
)");
FAIL("Expected ParseErrors to be thrown");
}
catch (const ParseErrors& e)
{
CHECK_EQ(
"Expected ')' (to close '(' at column 17), got '='; did you mean to use '{' when defining a table?", e.getErrors().front().getMessage());
}
}
TEST_CASE_FIXTURE(Fixture, "parse_error_function_call")
{
try
{
parse(R"(
function stringifyTable(t)
local foo = t:Parse 2
return foo
end
)");
FAIL("Expected ParseErrors to be thrown");
}
catch (const ParseErrors& e)
{
CHECK_EQ(e.getErrors().front().getLocation().begin.line, 2);
CHECK_EQ("Expected '(', '{' or <string> when parsing function call, got '2'", e.getErrors().front().getMessage());
}
}
TEST_CASE_FIXTURE(Fixture, "parse_error_function_call_newline")
{
try
{
parse(R"(
function stringifyTable(t)
local foo = t:Parse
return foo
end
)");
FAIL("Expected ParseErrors to be thrown");
}
catch (const ParseErrors& e)
{
CHECK_EQ(e.getErrors().front().getLocation().begin.line, 2);
CHECK_EQ("Expected function call arguments after '('", e.getErrors().front().getMessage());
}
}
TEST_CASE_FIXTURE(Fixture, "parse_error_with_too_many_nested_type_group")
{
ScopedFastInt sfis{"LuauRecursionLimit", 10};
matchParseError(
"function f(): ((((((((((Fail)))))))))) end", "Exceeded allowed recursion depth; simplify your type annotation to make the code compile");
matchParseError("function f(): () -> () -> () -> () -> () -> () -> () -> () -> () -> () -> () end",
"Exceeded allowed recursion depth; simplify your type annotation to make the code compile");
matchParseError("local t: {a: {b: {c: {d: {e: {f: {g: {h: {i: {j: {}}}}}}}}}}}",
"Exceeded allowed recursion depth; simplify your type annotation to make the code compile");
matchParseError("local f: ((((((((((Fail))))))))))", "Exceeded allowed recursion depth; simplify your type annotation to make the code compile");
matchParseError("local t: a & (b & (c & (d & (e & (f & (g & (h & (i & (j & nil)))))))))",
"Exceeded allowed recursion depth; simplify your type annotation to make the code compile");
}
TEST_CASE_FIXTURE(Fixture, "can_parse_complex_unions_successfully")
{
ScopedFastInt sfis[] = {{"LuauRecursionLimit", 10}, {"LuauTypeLengthLimit", 10}};
parse(R"(
local f:
() -> ()
|
() -> ()
|
{a: number}
|
{b: number}
|
((number))
|
((number))
|
(a & (b & nil))
|
(a & (b & nil))
)");
parse(R"(
local f: a? | b? | c? | d? | e? | f? | g? | h?
)");
matchParseError("local t: a & b & c & d & e & f & g & h & i & j & nil",
"Exceeded allowed type length; simplify your type annotation to make the code compile");
}
TEST_CASE_FIXTURE(Fixture, "parse_error_with_too_many_nested_if_statements")
{
ScopedFastInt sfis{"LuauRecursionLimit", 10};
matchParseErrorPrefix(
"function f() if true then if true then if true then if true then if true then if true then if true then if true then if true "
"then if true then if true then end end end end end end end end end end end end",
"Exceeded allowed recursion depth;");
}
TEST_CASE_FIXTURE(Fixture, "parse_error_with_too_many_changed_elseif_statements")
{
ScopedFastInt sfis{"LuauRecursionLimit", 10};
matchParseErrorPrefix(
"function f() if false then elseif false then elseif false then elseif false then elseif false then elseif false then elseif "
"false then elseif false then elseif false then elseif false then elseif false then end end",
"Exceeded allowed recursion depth;");
}
TEST_CASE_FIXTURE(Fixture, "parse_error_with_too_many_nested_ifelse_expressions1")
{
ScopedFastInt sfis{"LuauRecursionLimit", 10};
matchParseError("function f() return if true then 1 elseif true then 2 elseif true then 3 elseif true then 4 elseif true then 5 elseif true then "
"6 elseif true then 7 elseif true then 8 elseif true then 9 elseif true then 10 else 11 end",
"Exceeded allowed recursion depth; simplify your expression to make the code compile");
}
TEST_CASE_FIXTURE(Fixture, "parse_error_with_too_many_nested_ifelse_expressions2")
{
ScopedFastInt sfis{"LuauRecursionLimit", 10};
matchParseError(
"function f() return if if if if if if if if if if true then false else true then false else true then false else true then false else true "
"then false else true then false else true then false else true then false else true then false else true then 1 else 2 end",
"Exceeded allowed recursion depth; simplify your expression to make the code compile");
}
TEST_CASE_FIXTURE(Fixture, "unparenthesized_function_return_type_list")
{
matchParseError(
"function foo(): string, number end", "Expected a statement, got ','; did you forget to wrap the list of return types in parentheses?");
matchParseError("function foo(): (number) -> string, string",
"Expected a statement, got ','; did you forget to wrap the list of return types in parentheses?");
// Will throw if the parse fails
parse(R"(
type Vector3MT = {
__add: (Vector3MT, Vector3MT) -> Vector3MT,
__mul: (Vector3MT, Vector3MT|number) -> Vector3MT
}
)");
}
TEST_CASE_FIXTURE(Fixture, "short_array_types")
{
AstStatBlock* stat = parse(R"(
local n: {string}
)");
REQUIRE(stat != nullptr);
AstStatLocal* local = stat->body.data[0]->as<AstStatLocal>();
AstTypeTable* annotation = local->vars.data[0]->annotation->as<AstTypeTable>();
REQUIRE(annotation != nullptr);
CHECK(annotation->props.size == 0);
REQUIRE(annotation->indexer);
REQUIRE(annotation->indexer->indexType->is<AstTypeReference>());
CHECK(annotation->indexer->indexType->as<AstTypeReference>()->name == "number");
REQUIRE(annotation->indexer->resultType->is<AstTypeReference>());
CHECK(annotation->indexer->resultType->as<AstTypeReference>()->name == "string");
}
TEST_CASE_FIXTURE(Fixture, "short_array_types_must_be_alone")
{
matchParseError("local n: {string, number}", "Expected '}' (to close '{' at column 10), got ','");
matchParseError("local n: {[number]: string, number}", "Expected ':' when parsing table field, got '}'");
matchParseError("local n: {x: string, number}", "Expected ':' when parsing table field, got '}'");
matchParseError("local n: {x: string, nil}", "Expected identifier when parsing table field, got 'nil'");
}
TEST_CASE_FIXTURE(Fixture, "short_array_types_do_not_break_field_names")
{
AstStatBlock* stat = parse(R"(
local n: {string: number}
)");
REQUIRE(stat != nullptr);
AstStatLocal* local = stat->body.data[0]->as<AstStatLocal>();
AstTypeTable* annotation = local->vars.data[0]->annotation->as<AstTypeTable>();
REQUIRE(annotation != nullptr);
REQUIRE(annotation->props.size == 1);
CHECK(!annotation->indexer);
REQUIRE(annotation->props.data[0].name == "string");
REQUIRE(annotation->props.data[0].type->is<AstTypeReference>());
REQUIRE(annotation->props.data[0].type->as<AstTypeReference>()->name == "number");
}
TEST_CASE_FIXTURE(Fixture, "short_array_types_are_not_field_names_when_complex")
{
matchParseError("local n: {string | number: number}", "Expected '}' (to close '{' at column 10), got ':'");
}
TEST_CASE_FIXTURE(Fixture, "nil_can_not_be_a_field_name")
{
matchParseError("local n: {nil: number}", "Expected '}' (to close '{' at column 10), got ':'");
}
TEST_CASE_FIXTURE(Fixture, "string_literal_call")
{
AstStatBlock* stat = parse("do foo 'bar' end");
REQUIRE(stat != nullptr);
AstStatBlock* dob = stat->body.data[0]->as<AstStatBlock>();
AstStatExpr* stc = dob->body.data[0]->as<AstStatExpr>();
REQUIRE(stc != nullptr);
AstExprCall* ec = stc->expr->as<AstExprCall>();
CHECK(ec->args.size == 1);
AstExprConstantString* arg = ec->args.data[0]->as<AstExprConstantString>();
REQUIRE(arg != nullptr);
CHECK(std::string(arg->value.data, arg->value.size) == "bar");
}
TEST_CASE_FIXTURE(Fixture, "multiline_strings_newlines")
{
AstStatBlock* stat = parse("return [=[\nfoo\r\nbar\n\nbaz\n]=]");
REQUIRE(stat != nullptr);
AstStatReturn* ret = stat->body.data[0]->as<AstStatReturn>();
REQUIRE(ret != nullptr);
AstExprConstantString* str = ret->list.data[0]->as<AstExprConstantString>();
REQUIRE(str != nullptr);
CHECK(std::string(str->value.data, str->value.size) == "foo\nbar\n\nbaz\n");
}
TEST_CASE_FIXTURE(Fixture, "string_literals_escape")
{
AstStatBlock* stat = parse(R"(
return
"foo\n\r",
"foo\0324",
"foo\x204",
"foo\u{20}",
"foo\u{0451}"
)");
REQUIRE(stat != nullptr);
AstStatReturn* ret = stat->body.data[0]->as<AstStatReturn>();
REQUIRE(ret != nullptr);
CHECK(ret->list.size == 5);
AstExprConstantString* str;
str = ret->list.data[0]->as<AstExprConstantString>();
REQUIRE(str != nullptr);
CHECK_EQ(std::string(str->value.data, str->value.size), "foo\n\r");
str = ret->list.data[1]->as<AstExprConstantString>();
REQUIRE(str != nullptr);
CHECK_EQ(std::string(str->value.data, str->value.size), "foo 4");
str = ret->list.data[2]->as<AstExprConstantString>();
REQUIRE(str != nullptr);
CHECK_EQ(std::string(str->value.data, str->value.size), "foo 4");
str = ret->list.data[3]->as<AstExprConstantString>();
REQUIRE(str != nullptr);
CHECK_EQ(std::string(str->value.data, str->value.size), "foo ");
str = ret->list.data[4]->as<AstExprConstantString>();
REQUIRE(str != nullptr);
CHECK_EQ(std::string(str->value.data, str->value.size), "foo\xd1\x91");
}
TEST_CASE_FIXTURE(Fixture, "string_literals_escape_newline")
{
AstStatBlock* stat = parse("return \"foo\\z\n bar\", \"foo\\\n bar\", \"foo\\\r\nbar\"");
REQUIRE(stat != nullptr);
AstStatReturn* ret = stat->body.data[0]->as<AstStatReturn>();
REQUIRE(ret != nullptr);
CHECK(ret->list.size == 3);
AstExprConstantString* str;
str = ret->list.data[0]->as<AstExprConstantString>();
REQUIRE(str != nullptr);
CHECK_EQ(std::string(str->value.data, str->value.size), "foobar");
str = ret->list.data[1]->as<AstExprConstantString>();
REQUIRE(str != nullptr);
CHECK_EQ(std::string(str->value.data, str->value.size), "foo\n bar");
str = ret->list.data[2]->as<AstExprConstantString>();
REQUIRE(str != nullptr);
CHECK_EQ(std::string(str->value.data, str->value.size), "foo\nbar");
}
TEST_CASE_FIXTURE(Fixture, "string_literals_escapes")
{
AstStatBlock* stat = parse(R"(
return
"\xAB",
"\u{2024}",
"\121",
"\1x",
"\t",
"\n"
)");
REQUIRE(stat != nullptr);
AstStatReturn* ret = stat->body.data[0]->as<AstStatReturn>();
REQUIRE(ret != nullptr);
CHECK(ret->list.size == 6);
AstExprConstantString* str;
str = ret->list.data[0]->as<AstExprConstantString>();
REQUIRE(str != nullptr);
CHECK_EQ(std::string(str->value.data, str->value.size), "\xAB");
str = ret->list.data[1]->as<AstExprConstantString>();
REQUIRE(str != nullptr);
CHECK_EQ(std::string(str->value.data, str->value.size), "\xE2\x80\xA4");
str = ret->list.data[2]->as<AstExprConstantString>();
REQUIRE(str != nullptr);
CHECK_EQ(std::string(str->value.data, str->value.size), "\x79");
str = ret->list.data[3]->as<AstExprConstantString>();
REQUIRE(str != nullptr);
CHECK_EQ(std::string(str->value.data, str->value.size), "\x01x");
str = ret->list.data[4]->as<AstExprConstantString>();
REQUIRE(str != nullptr);
CHECK_EQ(std::string(str->value.data, str->value.size), "\t");
str = ret->list.data[5]->as<AstExprConstantString>();
REQUIRE(str != nullptr);
CHECK_EQ(std::string(str->value.data, str->value.size), "\n");
}
TEST_CASE_FIXTURE(Fixture, "parse_error_broken_comment")
{
const char* expected = "Expected identifier when parsing expression, got unfinished comment";
matchParseError("--[[unfinished work", expected);
matchParseError("--!strict\n--[[unfinished work", expected);
matchParseError("local x = 1 --[[unfinished work", expected);
}
TEST_CASE_FIXTURE(Fixture, "string_literals_escapes_broken")
{
const char* expected = "String literal contains malformed escape sequence";
matchParseError("return \"\\u{\"", expected);
matchParseError("return \"\\u{FO}\"", expected);
matchParseError("return \"\\u{123456789}\"", expected);
matchParseError("return \"\\359\"", expected);
matchParseError("return \"\\xFO\"", expected);
matchParseError("return \"\\xF\"", expected);
matchParseError("return \"\\x\"", expected);
}
TEST_CASE_FIXTURE(Fixture, "string_literals_broken")
{
matchParseError("return \"", "Malformed string; did you forget to finish it?");
matchParseError("return \"\\", "Malformed string; did you forget to finish it?");
matchParseError("return \"\r\r", "Malformed string; did you forget to finish it?");
}
TEST_CASE_FIXTURE(Fixture, "number_literals")
{
AstStatBlock* stat = parse(R"(
return
1,
1.5,
.5,
12_34_56,
0x1234,
0b010101
)");
REQUIRE(stat != nullptr);
AstStatReturn* ret = stat->body.data[0]->as<AstStatReturn>();
REQUIRE(ret != nullptr);
CHECK(ret->list.size == 6);
AstExprConstantNumber* num;
num = ret->list.data[0]->as<AstExprConstantNumber>();
REQUIRE(num != nullptr);
CHECK_EQ(num->value, 1.0);
num = ret->list.data[1]->as<AstExprConstantNumber>();
REQUIRE(num != nullptr);
CHECK_EQ(num->value, 1.5);
num = ret->list.data[2]->as<AstExprConstantNumber>();
REQUIRE(num != nullptr);
CHECK_EQ(num->value, 0.5);
num = ret->list.data[3]->as<AstExprConstantNumber>();
REQUIRE(num != nullptr);
CHECK_EQ(num->value, 123456);
num = ret->list.data[4]->as<AstExprConstantNumber>();
REQUIRE(num != nullptr);
CHECK_EQ(num->value, 0x1234);
num = ret->list.data[5]->as<AstExprConstantNumber>();
REQUIRE(num != nullptr);
CHECK_EQ(num->value, 0x15);
}
TEST_CASE_FIXTURE(Fixture, "end_extent_of_functions_unions_and_intersections")
{
AstStatBlock* block = parse(R"(
type F = (string) -> string
type G = string | number | boolean
type H = string & number & boolean
print('hello')
)");
REQUIRE_EQ(4, block->body.size);
CHECK_EQ((Position{1, 35}), block->body.data[0]->location.end);
CHECK_EQ((Position{2, 42}), block->body.data[1]->location.end);
CHECK_EQ((Position{3, 42}), block->body.data[2]->location.end);
}
TEST_CASE_FIXTURE(Fixture, "end_extent_doesnt_consume_comments")
{
AstStatBlock* block = parse(R"(
type F = number
--comment
print('hello')
)");
REQUIRE_EQ(2, block->body.size);
CHECK_EQ((Position{1, 23}), block->body.data[0]->location.end);
}
TEST_CASE_FIXTURE(Fixture, "end_extent_doesnt_consume_comments_even_with_capture")
{
// Same should hold when comments are captured
ParseOptions opts;
opts.captureComments = true;
AstStatBlock* block = parse(R"(
type F = number
--comment
print('hello')
)",
opts);
REQUIRE_EQ(2, block->body.size);
CHECK_EQ((Position{1, 23}), block->body.data[0]->location.end);
}
TEST_CASE_FIXTURE(Fixture, "parse_error_loop_control")
{
matchParseError("break", "break statement must be inside a loop");
matchParseError("repeat local function a() break end until false", "break statement must be inside a loop");
matchParseError("continue", "continue statement must be inside a loop");
matchParseError("repeat local function a() continue end until false", "continue statement must be inside a loop");
}
TEST_CASE_FIXTURE(Fixture, "parse_error_confusing_function_call")
{
auto result1 = matchParseError(R"(
function add(x, y) return x + y end
add
(4, 7)
)",
"Ambiguous syntax: this looks like an argument list for a function call, but could also be a start of new statement; use ';' to separate "
"statements");
CHECK(result1.errors.size() == 1);
auto result2 = matchParseError(R"(
function add(x, y) return x + y end
local f = add
(f :: any)['x'] = 2
)",
"Ambiguous syntax: this looks like an argument list for a function call, but could also be a start of new statement; use ';' to separate "
"statements");
CHECK(result2.errors.size() == 1);
auto result3 = matchParseError(R"(
local x = {}
function x:add(a, b) return a + b end
x:add
(1, 2)
)",
"Ambiguous syntax: this looks like an argument list for a function call, but could also be a start of new statement; use ';' to separate "
"statements");
CHECK(result3.errors.size() == 1);
auto result4 = matchParseError(R"(
local t = {}
function f() return t end
t.x, (f)
().y = 5, 6
)",
"Ambiguous syntax: this looks like an argument list for a function call, but could also be a start of new statement; use ';' to separate "
"statements");
CHECK(result4.errors.size() == 1);
}
TEST_CASE_FIXTURE(Fixture, "parse_error_varargs")
{
matchParseError("function add(x, y) return ... end", "Cannot use '...' outside of a vararg function");
}
TEST_CASE_FIXTURE(Fixture, "parse_error_assignment_lvalue")
{
matchParseError(R"(
local a, b
(2), b = b, a
)",
"Assigned expression must be a variable or a field");
matchParseError(R"(
local a, b
a, (3) = b, a
)",
"Assigned expression must be a variable or a field");
}
TEST_CASE_FIXTURE(Fixture, "parse_error_type_annotation")
{
matchParseError("local a : 2 = 2", "Expected type, got '2'");
}
TEST_CASE_FIXTURE(Fixture, "parse_error_missing_type_annotation")
{
{
ParseResult result = tryParse("local x:");
CHECK(result.errors.size() == 1);
Position begin = result.errors[0].getLocation().begin;
Position end = result.errors[0].getLocation().end;
CHECK(begin.line == end.line);
int width = end.column - begin.column;
CHECK(width == 0);
CHECK(result.errors[0].getMessage() == "Expected type, got <eof>");
}
{
ParseResult result = tryParse(R"(
local x:=42
)");
CHECK(result.errors.size() == 1);
Position begin = result.errors[0].getLocation().begin;
Position end = result.errors[0].getLocation().end;
CHECK(begin.line == end.line);
int width = end.column - begin.column;
CHECK(width == 1); // Length of `=`
CHECK(result.errors[0].getMessage() == "Expected type, got '='");
}
{
ParseResult result = tryParse(R"(
function func():end
)");
CHECK(result.errors.size() == 1);
Position begin = result.errors[0].getLocation().begin;
Position end = result.errors[0].getLocation().end;
CHECK(begin.line == end.line);
int width = end.column - begin.column;
CHECK(width == 3); // Length of `end`
CHECK(result.errors[0].getMessage() == "Expected type, got 'end'");
}
}
TEST_CASE_FIXTURE(Fixture, "parse_declarations")
{
AstStatBlock* stat = parseEx(R"(
declare foo: number
declare function bar(x: number): string
declare function var(...: any)
)")
.root;
REQUIRE(stat);
REQUIRE_EQ(stat->body.size, 3);
AstStatDeclareGlobal* global = stat->body.data[0]->as<AstStatDeclareGlobal>();
REQUIRE(global);
CHECK(global->name == "foo");
CHECK(global->type);
AstStatDeclareFunction* func = stat->body.data[1]->as<AstStatDeclareFunction>();
REQUIRE(func);
CHECK(func->name == "bar");
REQUIRE_EQ(func->params.types.size, 1);
REQUIRE_EQ(func->retTypes.types.size, 1);
AstStatDeclareFunction* varFunc = stat->body.data[2]->as<AstStatDeclareFunction>();
REQUIRE(varFunc);
CHECK(varFunc->name == "var");
CHECK(varFunc->params.tailType);
matchParseError("declare function foo(x)", "All declaration parameters must be annotated");
matchParseError("declare foo", "Expected ':' when parsing global variable declaration, got <eof>");
}
TEST_CASE_FIXTURE(Fixture, "parse_class_declarations")
{
AstStatBlock* stat = parseEx(R"(
declare class Foo
prop: number
function method(self, foo: number): string
end
declare class Bar extends Foo
prop2: string
end
)")
.root;
REQUIRE_EQ(stat->body.size, 2);
AstStatDeclareClass* declaredClass = stat->body.data[0]->as<AstStatDeclareClass>();
REQUIRE(declaredClass);
CHECK(declaredClass->name == "Foo");
CHECK(!declaredClass->superName);
REQUIRE_EQ(declaredClass->props.size, 2);
AstDeclaredClassProp& prop = declaredClass->props.data[0];
CHECK(prop.name == "prop");
CHECK(prop.ty->is<AstTypeReference>());
AstDeclaredClassProp& method = declaredClass->props.data[1];
CHECK(method.name == "method");
CHECK(method.ty->is<AstTypeFunction>());
AstStatDeclareClass* subclass = stat->body.data[1]->as<AstStatDeclareClass>();
REQUIRE(subclass);
REQUIRE(subclass->superName);
CHECK(subclass->name == "Bar");
CHECK(*subclass->superName == "Foo");
REQUIRE_EQ(subclass->props.size, 1);
AstDeclaredClassProp& prop2 = subclass->props.data[0];
CHECK(prop2.name == "prop2");
CHECK(prop2.ty->is<AstTypeReference>());
}
TEST_CASE_FIXTURE(Fixture, "class_method_properties")
{
const ParseResult p1 = matchParseError(R"(
declare class Foo
-- method's first parameter must be 'self'
function method(foo: number)
function method2(self)
end
)",
"'self' must be present as the unannotated first parameter");
REQUIRE_EQ(1, p1.root->body.size);
AstStatDeclareClass* klass = p1.root->body.data[0]->as<AstStatDeclareClass>();
REQUIRE(klass != nullptr);
CHECK_EQ(2, klass->props.size);
const ParseResult p2 = matchParseError(R"(
declare class Foo
function method(self, foo)
function method2()
end
)",
"All declaration parameters aside from 'self' must be annotated");
REQUIRE_EQ(1, p2.root->body.size);
AstStatDeclareClass* klass2 = p2.root->body.data[0]->as<AstStatDeclareClass>();
REQUIRE(klass2 != nullptr);
CHECK_EQ(2, klass2->props.size);
}
TEST_CASE_FIXTURE(Fixture, "class_indexer")
{
AstStatBlock* stat = parseEx(R"(
declare class Foo
prop: boolean
[string]: number
end
)")
.root;
REQUIRE_EQ(stat->body.size, 1);
AstStatDeclareClass* declaredClass = stat->body.data[0]->as<AstStatDeclareClass>();
REQUIRE(declaredClass);
REQUIRE(declaredClass->indexer);
REQUIRE(declaredClass->indexer->indexType->is<AstTypeReference>());
CHECK(declaredClass->indexer->indexType->as<AstTypeReference>()->name == "string");
REQUIRE(declaredClass->indexer->resultType->is<AstTypeReference>());
CHECK(declaredClass->indexer->resultType->as<AstTypeReference>()->name == "number");
const ParseResult p1 = matchParseError(R"(
declare class Foo
[string]: number
-- can only have one indexer
[number]: number
end
)",
"Cannot have more than one class indexer");
REQUIRE_EQ(1, p1.root->body.size);
AstStatDeclareClass* klass = p1.root->body.data[0]->as<AstStatDeclareClass>();
REQUIRE(klass != nullptr);
CHECK(klass->indexer);
}
TEST_CASE_FIXTURE(Fixture, "parse_variadics")
{
//clang-format off
AstStatBlock* stat = parseEx(R"(
function foo(bar, ...: number): ...string
end
type Foo = (string, number, ...number) -> ...boolean
type Bar = () -> (number, ...boolean)
)")
.root;
//clang-format on
REQUIRE(stat);
REQUIRE_EQ(stat->body.size, 3);
AstStatFunction* fn = stat->body.data[0]->as<AstStatFunction>();
REQUIRE(fn);
CHECK(fn->func->vararg);
CHECK(fn->func->varargAnnotation);
AstStatTypeAlias* foo = stat->body.data[1]->as<AstStatTypeAlias>();
REQUIRE(foo);
AstTypeFunction* fnFoo = foo->type->as<AstTypeFunction>();
REQUIRE(fnFoo);
CHECK_EQ(fnFoo->argTypes.types.size, 2);
CHECK(fnFoo->argTypes.tailType);
CHECK_EQ(fnFoo->returnTypes.types.size, 0);
CHECK(fnFoo->returnTypes.tailType);
AstStatTypeAlias* bar = stat->body.data[2]->as<AstStatTypeAlias>();
REQUIRE(bar);
AstTypeFunction* fnBar = bar->type->as<AstTypeFunction>();
REQUIRE(fnBar);
CHECK_EQ(fnBar->argTypes.types.size, 0);
CHECK(!fnBar->argTypes.tailType);
CHECK_EQ(fnBar->returnTypes.types.size, 1);
CHECK(fnBar->returnTypes.tailType);
}
TEST_CASE_FIXTURE(Fixture, "variadics_must_be_last")
{
matchParseError("function foo(): (...number, string) end", "Expected ')' (to close '(' at column 17), got ','");
matchParseError("type Foo = (...number, string) -> (...string, number)", "Expected ')' (to close '(' at column 12), got ','");
}
TEST_CASE_FIXTURE(Fixture, "variadic_definition_parsing")
{
AstStatBlock* stat = parseEx(R"(
declare function foo(...: string): ...string
declare class Foo
function a(self, ...: string): ...string
end
)")
.root;
REQUIRE(stat != nullptr);
matchParseError("declare function foo(...)", "All declaration parameters must be annotated");
matchParseError("declare class Foo function a(self, ...) end", "All declaration parameters aside from 'self' must be annotated");
}
TEST_CASE_FIXTURE(Fixture, "generic_pack_parsing")
{
ParseResult result = parseEx(R"(
function f<a...>(...: a...)
end
type A = (a...) -> b...
)");
AstStatBlock* stat = result.root;
REQUIRE(stat != nullptr);
AstStatFunction* fn = stat->body.data[0]->as<AstStatFunction>();
REQUIRE(fn != nullptr);
REQUIRE(fn->func->varargAnnotation != nullptr);
AstTypePackGeneric* annot = fn->func->varargAnnotation->as<AstTypePackGeneric>();
REQUIRE(annot != nullptr);
CHECK(annot->genericName == "a");
AstStatTypeAlias* alias = stat->body.data[1]->as<AstStatTypeAlias>();
REQUIRE(alias != nullptr);
AstTypeFunction* fnTy = alias->type->as<AstTypeFunction>();
REQUIRE(fnTy != nullptr);
AstTypePackGeneric* argAnnot = fnTy->argTypes.tailType->as<AstTypePackGeneric>();
REQUIRE(argAnnot != nullptr);
CHECK(argAnnot->genericName == "a");
AstTypePackGeneric* retAnnot = fnTy->returnTypes.tailType->as<AstTypePackGeneric>();
REQUIRE(retAnnot != nullptr);
CHECK(retAnnot->genericName == "b");
}
TEST_CASE_FIXTURE(Fixture, "generic_function_declaration_parsing")
{
ParseResult result = parseEx(R"(
declare function f<a, b, c...>()
)");
AstStatBlock* stat = result.root;
REQUIRE(stat != nullptr);
AstStatDeclareFunction* decl = stat->body.data[0]->as<AstStatDeclareFunction>();
REQUIRE(decl != nullptr);
REQUIRE_EQ(decl->generics.size, 2);
REQUIRE_EQ(decl->genericPacks.size, 1);
}
TEST_CASE_FIXTURE(Fixture, "function_type_named_arguments")
{
{
ParseResult result = parseEx("type MyFunc = (a: number, b: string, c: number) -> string");
AstStatBlock* stat = result.root;
REQUIRE(stat != nullptr);
AstStatTypeAlias* decl = stat->body.data[0]->as<AstStatTypeAlias>();
REQUIRE(decl != nullptr);
AstTypeFunction* func = decl->type->as<AstTypeFunction>();
REQUIRE(func != nullptr);
REQUIRE_EQ(func->argTypes.types.size, 3);
REQUIRE_EQ(func->argNames.size, 3);
REQUIRE(func->argNames.data[2]);
CHECK_EQ(func->argNames.data[2]->first, "c");
}
{
ParseResult result = parseEx("type MyFunc = (a: number, string, c: number) -> string");
AstStatBlock* stat = result.root;
REQUIRE(stat != nullptr);
AstStatTypeAlias* decl = stat->body.data[0]->as<AstStatTypeAlias>();
REQUIRE(decl != nullptr);
AstTypeFunction* func = decl->type->as<AstTypeFunction>();
REQUIRE(func != nullptr);
REQUIRE_EQ(func->argTypes.types.size, 3);
REQUIRE_EQ(func->argNames.size, 3);
REQUIRE(!func->argNames.data[1]);
REQUIRE(func->argNames.data[2]);
CHECK_EQ(func->argNames.data[2]->first, "c");
}
{
ParseResult result = parseEx("type MyFunc = (a: number, string, number) -> string");
AstStatBlock* stat = result.root;
REQUIRE(stat != nullptr);
AstStatTypeAlias* decl = stat->body.data[0]->as<AstStatTypeAlias>();
REQUIRE(decl != nullptr);
AstTypeFunction* func = decl->type->as<AstTypeFunction>();
REQUIRE(func != nullptr);
REQUIRE_EQ(func->argTypes.types.size, 3);
REQUIRE_EQ(func->argNames.size, 3);
REQUIRE(!func->argNames.data[1]);
REQUIRE(!func->argNames.data[2]);
}
{
ParseResult result = parseEx("type MyFunc = (a: number, b: string, c: number) -> (d: number, e: string, f: number) -> string");
AstStatBlock* stat = result.root;
REQUIRE(stat != nullptr);
AstStatTypeAlias* decl = stat->body.data[0]->as<AstStatTypeAlias>();
REQUIRE(decl != nullptr);
AstTypeFunction* func = decl->type->as<AstTypeFunction>();
REQUIRE(func != nullptr);
REQUIRE_EQ(func->argTypes.types.size, 3);
REQUIRE_EQ(func->argNames.size, 3);
REQUIRE(func->argNames.data[2]);
CHECK_EQ(func->argNames.data[2]->first, "c");
AstTypeFunction* funcRet = func->returnTypes.types.data[0]->as<AstTypeFunction>();
REQUIRE(funcRet != nullptr);
REQUIRE_EQ(funcRet->argTypes.types.size, 3);
REQUIRE_EQ(funcRet->argNames.size, 3);
REQUIRE(func->argNames.data[2]);
CHECK_EQ(funcRet->argNames.data[2]->first, "f");
}
matchParseError("type MyFunc = (a: number, b: string, c: number) -> (d: number, e: string, f: number)",
"Expected '->' when parsing function type, got <eof>");
matchParseError("type MyFunc = (number) -> (d: number) <a, b, c> -> number", "Expected '->' when parsing function type, got '<'");
}
TEST_CASE_FIXTURE(Fixture, "function_type_matching_parenthesis")
{
matchParseError("local a: <T>(number -> string", "Expected ')' (to close '(' at column 13), got '->'");
}
TEST_CASE_FIXTURE(Fixture, "parse_type_alias_default_type")
{
AstStat* stat = parse(R"(
type A<T = string> = {}
type B<T... = ...number> = {}
type C<T..., U... = T...> = {}
type D<T..., U... = ()> = {}
type E<T... = (), U... = ()> = {}
type F<T... = (string), U... = ()> = (T...) -> U...
type G<T... = ...number, U... = (string, number, boolean)> = (U...) -> T...
)");
REQUIRE(stat != nullptr);
}
TEST_CASE_FIXTURE(Fixture, "parse_type_alias_default_type_errors")
{
matchParseError("type Y<T = number, U> = {}", "Expected default type after type name", Location{{0, 20}, {0, 21}});
matchParseError("type Y<T... = ...number, U...> = {}", "Expected default type pack after type pack name", Location{{0, 29}, {0, 30}});
matchParseError("type Y<T... = (string) -> number> = {}", "Expected type pack after '=', got type", Location{{0, 14}, {0, 32}});
}
TEST_CASE_FIXTURE(Fixture, "parse_type_pack_errors")
{
matchParseError("type Y<T...> = {a: T..., b: number}", "Unexpected '...' after type name; type pack is not allowed in this context",
Location{{0, 20}, {0, 23}});
matchParseError("type Y<T...> = {a: (number | string)...", "Unexpected '...' after type annotation", Location{{0, 36}, {0, 39}});
}
TEST_CASE_FIXTURE(Fixture, "parse_if_else_expression")
{
{
AstStat* stat = parse("return if true then 1 else 2");
REQUIRE(stat != nullptr);
AstStatReturn* str = stat->as<AstStatBlock>()->body.data[0]->as<AstStatReturn>();
REQUIRE(str != nullptr);
CHECK(str->list.size == 1);
auto* ifElseExpr = str->list.data[0]->as<AstExprIfElse>();
REQUIRE(ifElseExpr != nullptr);
}
{
AstStat* stat = parse("return if true then 1 elseif true then 2 else 3");
REQUIRE(stat != nullptr);
AstStatReturn* str = stat->as<AstStatBlock>()->body.data[0]->as<AstStatReturn>();
REQUIRE(str != nullptr);
CHECK(str->list.size == 1);
auto* ifElseExpr1 = str->list.data[0]->as<AstExprIfElse>();
REQUIRE(ifElseExpr1 != nullptr);
auto* ifElseExpr2 = ifElseExpr1->falseExpr->as<AstExprIfElse>();
REQUIRE(ifElseExpr2 != nullptr);
}
// Use "else if" as opposed to elseif
{
AstStat* stat = parse("return if true then 1 else if true then 2 else 3");
REQUIRE(stat != nullptr);
AstStatReturn* str = stat->as<AstStatBlock>()->body.data[0]->as<AstStatReturn>();
REQUIRE(str != nullptr);
CHECK(str->list.size == 1);
auto* ifElseExpr1 = str->list.data[0]->as<AstExprIfElse>();
REQUIRE(ifElseExpr1 != nullptr);
auto* ifElseExpr2 = ifElseExpr1->falseExpr->as<AstExprIfElse>();
REQUIRE(ifElseExpr2 != nullptr);
}
// Use an if-else expression as the conditional expression of an if-else expression
{
AstStat* stat = parse("return if if true then false else true then 1 else 2");
REQUIRE(stat != nullptr);
AstStatReturn* str = stat->as<AstStatBlock>()->body.data[0]->as<AstStatReturn>();
REQUIRE(str != nullptr);
CHECK(str->list.size == 1);
auto* ifElseExpr = str->list.data[0]->as<AstExprIfElse>();
REQUIRE(ifElseExpr != nullptr);
auto* nestedIfElseExpr = ifElseExpr->condition->as<AstExprIfElse>();
REQUIRE(nestedIfElseExpr != nullptr);
}
}
TEST_CASE_FIXTURE(Fixture, "parse_type_pack_type_parameters")
{
AstStat* stat = parse(R"(
type Packed<T...> = () -> T...
type A<X...> = Packed<X...>
type B<X...> = Packed<...number>
type C<X...> = Packed<(number, X...)>
)");
REQUIRE(stat != nullptr);
}
TEST_CASE_FIXTURE(Fixture, "invalid_type_forms")
{
matchParseError("type A = (b: number)", "Expected '->' when parsing function type, got <eof>");
matchParseError("type P<T...> = () -> T... type B = P<(x: number, y: string)>", "Expected '->' when parsing function type, got '>'");
matchParseError("type F<T... = (a: string)> = (T...) -> ()", "Expected '->' when parsing function type, got '>'");
}
TEST_SUITE_END();
TEST_SUITE_BEGIN("ParseErrorRecovery");
TEST_CASE_FIXTURE(Fixture, "multiple_parse_errors")
{
try
{
parse(R"(
local a = 3 * (
return a +
)");
FAIL("Expected ParseErrors to be thrown");
}
catch (const Luau::ParseErrors& e)
{
CHECK_EQ(2, e.getErrors().size());
}
}
// check that we are not skipping tokens that weren't processed at all
TEST_CASE_FIXTURE(Fixture, "statement_error_recovery_expected")
{
try
{
parse(R"(
function a(a, b) return a + b end
some
a(2, 5)
)");
FAIL("Expected ParseErrors to be thrown");
}
catch (const Luau::ParseErrors& e)
{
CHECK_EQ(1, e.getErrors().size());
}
}
TEST_CASE_FIXTURE(Fixture, "statement_error_recovery_unexpected")
{
try
{
parse(R"(+)");
FAIL("Expected ParseErrors to be thrown");
}
catch (const Luau::ParseErrors& e)
{
CHECK_EQ(1, e.getErrors().size());
}
}
TEST_CASE_FIXTURE(Fixture, "extra_token_in_consume")
{
try
{
parse(R"(
function test + (a, f) return a + f end
return test(2, 3)
)");
FAIL("Expected ParseErrors to be thrown");
}
catch (const Luau::ParseErrors& e)
{
CHECK_EQ(1, e.getErrors().size());
CHECK_EQ("Expected '(' when parsing function, got '+'", e.getErrors().front().getMessage());
}
}
TEST_CASE_FIXTURE(Fixture, "extra_token_in_consume_match")
{
try
{
parse(R"(
function test(a, f+) return a + f end
return test(2, 3)
)");
FAIL("Expected ParseErrors to be thrown");
}
catch (const Luau::ParseErrors& e)
{
CHECK_EQ(1, e.getErrors().size());
CHECK_EQ("Expected ')' (to close '(' at column 14), got '+'", e.getErrors().front().getMessage());
}
}
TEST_CASE_FIXTURE(Fixture, "extra_token_in_consume_match_end")
{
try
{
parse(R"(
if true then
return 12
then
end
)");
FAIL("Expected ParseErrors to be thrown");
}
catch (const Luau::ParseErrors& e)
{
CHECK_EQ(1, e.getErrors().size());
CHECK_EQ("Expected 'end' (to close 'then' at line 2), got 'then'", e.getErrors().front().getMessage());
}
}
TEST_CASE_FIXTURE(Fixture, "extra_table_indexer_recovery")
{
try
{
parse(R"(
local a : { [string] : number, [number] : string, count: number }
)");
FAIL("Expected ParseErrors to be thrown");
}
catch (const Luau::ParseErrors& e)
{
CHECK_EQ(1, e.getErrors().size());
}
}
TEST_CASE_FIXTURE(Fixture, "recovery_error_limit_1")
{
ScopedFastInt luauParseErrorLimit("LuauParseErrorLimit", 1);
try
{
parse("local a = ");
FAIL("Expected ParseErrors to be thrown");
}
catch (const Luau::ParseErrors& e)
{
CHECK_EQ(1, e.getErrors().size());
CHECK_EQ(e.getErrors().front().getMessage(), e.what());
}
}
TEST_CASE_FIXTURE(Fixture, "recovery_error_limit_2")
{
ScopedFastInt luauParseErrorLimit("LuauParseErrorLimit", 2);
try
{
parse("escape escape escape");
FAIL("Expected ParseErrors to be thrown");
}
catch (const Luau::ParseErrors& e)
{
CHECK_EQ(3, e.getErrors().size());
CHECK_EQ("3 parse errors", std::string(e.what()));
CHECK_EQ("Reached error limit (2)", e.getErrors().back().getMessage());
}
}
class CountAstNodes : public AstVisitor
{
public:
bool visit(AstNode* node) override
{
count++;
return true;
}
unsigned count = 0;
};
TEST_CASE_FIXTURE(Fixture, "recovery_of_parenthesized_expressions")
{
auto checkAstEquivalence = [this](const char* codeWithErrors, const char* code) {
try
{
parse(codeWithErrors);
}
catch (const Luau::ParseErrors&)
{
}
CountAstNodes counterWithErrors;
sourceModule->root->visit(&counterWithErrors);
parse(code);
CountAstNodes counter;
sourceModule->root->visit(&counter);
CHECK_EQ(counterWithErrors.count, counter.count);
};
auto checkRecovery = [this, checkAstEquivalence](const char* codeWithErrors, const char* code, unsigned expectedErrorCount) {
try
{
parse(codeWithErrors);
FAIL("Expected ParseErrors to be thrown");
}
catch (const Luau::ParseErrors& e)
{
CHECK_EQ(expectedErrorCount, e.getErrors().size());
checkAstEquivalence(codeWithErrors, code);
}
};
ScopedFastFlag sff[] = {
{"DebugLuauDeferredConstraintResolution", false},
};
checkRecovery("function foo(a, b. c) return a + b end", "function foo(a, b) return a + b end", 1);
checkRecovery("function foo(a, b: { a: number, b: number. c:number }) return a + b end",
"function foo(a, b: { a: number, b: number }) return a + b end", 1);
checkRecovery("function foo(a, b): (number -> number return a + b end", "function foo(a, b): (number) -> number return a + b end", 1);
checkRecovery("function foo(a, b): (number, number -> number return a + b end", "function foo(a, b): (number) -> number return a + b end", 1);
checkRecovery("function foo(a, b): (number; number) -> number return a + b end", "function foo(a, b): (number) -> number return a + b end", 1);
checkRecovery("function foo(a, b): (number, number return a + b end", "function foo(a, b): (number, number) end", 1);
checkRecovery("local function foo(a, b): (number, number return a + b end", "local function foo(a, b): (number, number) end", 1);
// These tests correctly recovered before the changes and we test that new recovery didn't make them worse
// (by skipping more tokens necessary)
checkRecovery("type F = (number, number -> number", "type F = (number, number) -> number", 1);
checkRecovery("function foo(a, b: { a: number, b: number) return a + b end", "function foo(a, b: { a: number, b: number }) return a + b end", 1);
checkRecovery("function foo(a, b: { [number: number}) return a + b end", "function foo(a, b: { [number]: number}) return a + b end", 1);
checkRecovery("local n: (string | number = 2", "local n: (string | number) = 2", 1);
// Check that we correctly stop at the end of a line
checkRecovery(R"(
function foo(a, b
return a + b
end
)",
"function foo(a, b) return a + b end", 1);
}
TEST_CASE_FIXTURE(Fixture, "incomplete_method_call")
{
const std::string_view source = R"(
function howdy()
return game:
end
)";
SourceModule sourceModule;
ParseResult result = Parser::parse(source.data(), source.size(), *sourceModule.names, *sourceModule.allocator, {});
REQUIRE_EQ(1, result.root->body.size);
AstStatFunction* howdyFunction = result.root->body.data[0]->as<AstStatFunction>();
REQUIRE(howdyFunction != nullptr);
AstStatBlock* body = howdyFunction->func->body;
REQUIRE_EQ(1, body->body.size);
AstStatReturn* ret = body->body.data[0]->as<AstStatReturn>();
REQUIRE(ret != nullptr);
REQUIRE_GT(howdyFunction->location.end, body->location.end);
}
TEST_CASE_FIXTURE(Fixture, "incomplete_method_call_2")
{
const std::string_view source = R"(
local game = { GetService=function(s) return 'hello' end }
function a()
game:a
end
)";
SourceModule sourceModule;
ParseResult result = Parser::parse(source.data(), source.size(), *sourceModule.names, *sourceModule.allocator, {});
REQUIRE_EQ(2, result.root->body.size);
AstStatFunction* howdyFunction = result.root->body.data[1]->as<AstStatFunction>();
REQUIRE(howdyFunction != nullptr);
AstStatBlock* body = howdyFunction->func->body;
REQUIRE_EQ(1, body->body.size);
AstStatError* ret = body->body.data[0]->as<AstStatError>();
REQUIRE(ret != nullptr);
REQUIRE_GT(howdyFunction->location.end, body->location.end);
}
TEST_CASE_FIXTURE(Fixture, "incomplete_method_call_still_yields_an_AstExprIndexName")
{
ParseResult result = tryParse(R"(
game:
)");
REQUIRE_EQ(1, result.root->body.size);
AstStatError* stat = result.root->body.data[0]->as<AstStatError>();
REQUIRE(stat);
AstExprError* expr = stat->expressions.data[0]->as<AstExprError>();
REQUIRE(expr);
AstExprIndexName* indexName = expr->expressions.data[0]->as<AstExprIndexName>();
REQUIRE(indexName);
}
TEST_CASE_FIXTURE(Fixture, "recover_confusables")
{
// Binary
matchParseError("local a = 4 != 10", "Unexpected '!='; did you mean '~='?");
matchParseError("local a = true && false", "Unexpected '&&'; did you mean 'and'?");
matchParseError("local a = false || true", "Unexpected '||'; did you mean 'or'?");
// Unary
matchParseError("local a = !false", "Unexpected '!'; did you mean 'not'?");
// Check that separate tokens are not considered as a single one
matchParseError("local a = 4 ! = 10", "Expected identifier when parsing expression, got '!'");
matchParseError("local a = true & & false", "Expected identifier when parsing expression, got '&'");
matchParseError("local a = false | | true", "Expected identifier when parsing expression, got '|'");
}
TEST_CASE_FIXTURE(Fixture, "capture_comments")
{
ParseOptions options;
options.captureComments = true;
ParseResult result = parseEx(R"(
--!strict
local a = 5 -- comment one
local b = 8 -- comment two
--[[
Multi line comment
]]
local c = 'see'
)",
options);
CHECK(result.errors.empty());
CHECK_EQ(4, result.commentLocations.size());
CHECK_EQ((Location{{1, 8}, {1, 17}}), result.commentLocations[0].location);
CHECK_EQ((Location{{3, 20}, {3, 34}}), result.commentLocations[1].location);
CHECK_EQ((Location{{4, 20}, {4, 34}}), result.commentLocations[2].location);
CHECK_EQ((Location{{5, 8}, {7, 10}}), result.commentLocations[3].location);
}
TEST_CASE_FIXTURE(Fixture, "capture_broken_comment_at_the_start_of_the_file")
{
ParseOptions options;
options.captureComments = true;
ParseResult result = tryParse(R"(
--[[
)",
options);
CHECK_EQ(1, result.commentLocations.size());
CHECK_EQ((Location{{1, 8}, {2, 4}}), result.commentLocations[0].location);
}
TEST_CASE_FIXTURE(Fixture, "capture_broken_comment")
{
ParseOptions options;
options.captureComments = true;
ParseResult result = tryParse(R"(
local a = "test"
--[[broken!
)",
options);
CHECK_EQ(1, result.commentLocations.size());
CHECK_EQ((Location{{3, 8}, {4, 4}}), result.commentLocations[0].location);
}
TEST_CASE_FIXTURE(Fixture, "empty_function_type_error_recovery")
{
try
{
parse(R"(
type Fn = (
any,
string | number | ()
) -> any
)");
FAIL("Expected ParseErrors to be thrown");
}
catch (const Luau::ParseErrors& e)
{
CHECK_EQ("Expected '->' after '()' when parsing function type; did you mean 'nil'?", e.getErrors().front().getMessage());
}
// If we have arguments or generics, don't use special case
try
{
parse(R"(type Fn = (any, string | number | (number, number)) -> any)");
FAIL("Expected ParseErrors to be thrown");
}
catch (const Luau::ParseErrors& e)
{
CHECK_EQ("Expected '->' when parsing function type, got ')'", e.getErrors().front().getMessage());
}
try
{
parse(R"(type Fn = (any, string | number | <a>()) -> any)");
FAIL("Expected ParseErrors to be thrown");
}
catch (const Luau::ParseErrors& e)
{
CHECK_EQ("Expected '->' when parsing function type, got ')'", e.getErrors().front().getMessage());
}
try
{
parse(R"(type Fn = (any, string | number | <a...>()) -> any)");
FAIL("Expected ParseErrors to be thrown");
}
catch (const Luau::ParseErrors& e)
{
CHECK_EQ("Expected '->' when parsing function type, got ')'", e.getErrors().front().getMessage());
}
}
TEST_CASE_FIXTURE(Fixture, "AstName_comparison")
{
CHECK(!(AstName() < AstName()));
AstName one{"one"};
AstName two{"two"};
CHECK_NE((one < two), (two < one));
}
TEST_CASE_FIXTURE(Fixture, "generic_type_list_recovery")
{
ScopedFastFlag sff[] = {
{"DebugLuauDeferredConstraintResolution", false},
};
try
{
parse(R"(
local function foo<T..., U>(a: U, ...: T...): (U, ...T) return a, ... end
return foo(1, 2 -- to check for a second error after recovery
)");
FAIL("Expected ParseErrors to be thrown");
}
catch (const Luau::ParseErrors& e)
{
CHECK_EQ(2, e.getErrors().size());
CHECK_EQ("Generic types come before generic type packs", e.getErrors().front().getMessage());
}
}
TEST_CASE_FIXTURE(Fixture, "recover_index_name_keyword")
{
ParseResult result = tryParse(R"(
local b
local a = b.do
)");
CHECK_EQ(1, result.errors.size());
result = tryParse(R"(
local b
local a = b.
do end
)");
CHECK_EQ(1, result.errors.size());
}
TEST_CASE_FIXTURE(Fixture, "recover_self_call_keyword")
{
ParseResult result = tryParse(R"(
local b
local a = b:do
)");
CHECK_EQ(2, result.errors.size());
result = tryParse(R"(
local b
local a = b:
do end
)");
CHECK_EQ(2, result.errors.size());
}
TEST_CASE_FIXTURE(Fixture, "recover_type_index_name_keyword")
{
ParseResult result = tryParse(R"(
local A
local b : A.do
)");
CHECK_EQ(1, result.errors.size());
result = tryParse(R"(
local A
local b : A.do
do end
)");
CHECK_EQ(1, result.errors.size());
}
TEST_CASE_FIXTURE(Fixture, "recover_expected_type_pack")
{
ParseResult result = tryParse(R"(
type Y<T..., U = T...> = (T...) -> U...
)");
CHECK_EQ(1, result.errors.size());
}
TEST_CASE_FIXTURE(Fixture, "recover_unexpected_type_pack")
{
ParseResult result = tryParse(R"(
type X<T...> = { a: T..., b: number }
type Y<T> = { a: T..., b: number }
type Z<T> = { a: string | T..., b: number }
)");
REQUIRE_EQ(3, result.errors.size());
}
TEST_CASE_FIXTURE(Fixture, "recover_function_return_type_annotations")
{
ParseResult result = tryParse(R"(
type Custom<A, B, C> = { x: A, y: B, z: C }
type Packed<A...> = { x: (A...) -> () }
type F = (number): Custom<boolean, number, string>
type G = Packed<(number): (string, number, boolean)>
local function f(x: number) -> Custom<string, boolean, number>
end
)");
REQUIRE_EQ(3, result.errors.size());
CHECK_EQ(result.errors[0].getMessage(), "Return types in function type annotations are written after '->' instead of ':'");
CHECK_EQ(result.errors[1].getMessage(), "Return types in function type annotations are written after '->' instead of ':'");
CHECK_EQ(result.errors[2].getMessage(), "Function return type annotations are written after ':' instead of '->'");
}
TEST_CASE_FIXTURE(Fixture, "error_message_for_using_function_as_type_annotation")
{
ParseResult result = tryParse(R"(
type Foo = function
)");
REQUIRE_EQ(1, result.errors.size());
CHECK_EQ("Using 'function' as a type annotation is not supported, consider replacing with a function type annotation e.g. '(...any) -> ...any'",
result.errors[0].getMessage());
}
TEST_CASE_FIXTURE(Fixture, "get_a_nice_error_when_there_is_an_extra_comma_at_the_end_of_a_function_argument_list")
{
ParseResult result = tryParse(R"(
foo(a, b, c,)
)");
REQUIRE(1 == result.errors.size());
CHECK(Location({1, 20}, {1, 21}) == result.errors[0].getLocation());
CHECK("Expected expression after ',' but got ')' instead" == result.errors[0].getMessage());
}
TEST_CASE_FIXTURE(Fixture, "get_a_nice_error_when_there_is_an_extra_comma_at_the_end_of_a_function_parameter_list")
{
ParseResult result = tryParse(R"(
export type VisitFn = (
any,
Array<TAnyNode | Array<TAnyNode>>, -- extra comma here
) -> any
)");
REQUIRE(1 == result.errors.size());
CHECK(Location({4, 8}, {4, 9}) == result.errors[0].getLocation());
CHECK("Expected type after ',' but got ')' instead" == result.errors[0].getMessage());
}
TEST_CASE_FIXTURE(Fixture, "get_a_nice_error_when_there_is_an_extra_comma_at_the_end_of_a_generic_parameter_list")
{
ParseResult result = tryParse(R"(
export type VisitFn = <A, B,>(a: A, b: B) -> ()
)");
REQUIRE(1 == result.errors.size());
CHECK(Location({1, 36}, {1, 37}) == result.errors[0].getLocation());
CHECK("Expected type after ',' but got '>' instead" == result.errors[0].getMessage());
REQUIRE(1 == result.root->body.size);
AstStatTypeAlias* t = result.root->body.data[0]->as<AstStatTypeAlias>();
REQUIRE(t != nullptr);
AstTypeFunction* f = t->type->as<AstTypeFunction>();
REQUIRE(f != nullptr);
CHECK(2 == f->generics.size);
}
TEST_CASE_FIXTURE(Fixture, "get_a_nice_error_when_there_is_no_comma_between_table_members")
{
ParseResult result = tryParse(R"(
local t = {
first = 1
second = 2,
third = 3,
fouth = 4,
}
)");
REQUIRE(1 == result.errors.size());
CHECK(Location({3, 12}, {3, 18}) == result.errors[0].getLocation());
CHECK("Expected ',' after table constructor element" == result.errors[0].getMessage());
REQUIRE(1 == result.root->body.size);
AstExprTable* table = Luau::query<AstExprTable>(result.root);
REQUIRE(table);
CHECK(table->items.size == 4);
}
TEST_CASE_FIXTURE(Fixture, "get_a_nice_error_when_there_is_no_comma_after_last_table_member")
{
ParseResult result = tryParse(R"(
local t = {
first = 1
local ok = true
local good = ok == true
)");
REQUIRE(1 == result.errors.size());
CHECK(Location({4, 8}, {4, 13}) == result.errors[0].getLocation());
CHECK("Expected '}' (to close '{' at line 2), got 'local'" == result.errors[0].getMessage());
REQUIRE(3 == result.root->body.size);
AstExprTable* table = Luau::query<AstExprTable>(result.root);
REQUIRE(table);
CHECK(table->items.size == 1);
}
TEST_CASE_FIXTURE(Fixture, "missing_default_type_pack_argument_after_variadic_type_parameter")
{
ParseResult result = tryParse(R"(
type Foo<T... = > = nil
)");
REQUIRE_EQ(2, result.errors.size());
CHECK_EQ(Location{{1, 23}, {1, 25}}, result.errors[0].getLocation());
CHECK_EQ("Expected type, got '>'", result.errors[0].getMessage());
CHECK_EQ(Location{{1, 23}, {1, 24}}, result.errors[1].getLocation());
CHECK_EQ("Expected type pack after '=', got type", result.errors[1].getMessage());
}
TEST_CASE_FIXTURE(Fixture, "table_type_keys_cant_contain_nul")
{
ParseResult result = tryParse(R"(
type Foo = { ["\0"]: number }
)");
REQUIRE_EQ(1, result.errors.size());
CHECK_EQ(Location{{1, 21}, {1, 22}}, result.errors[0].getLocation());
CHECK_EQ("String literal contains malformed escape sequence or \\0", result.errors[0].getMessage());
}
TEST_CASE_FIXTURE(Fixture, "invalid_escape_literals_get_reported_but_parsing_continues")
{
ParseResult result = tryParse(R"(
local foo = "\xQQ"
print(foo)
)");
REQUIRE_EQ(1, result.errors.size());
CHECK_EQ(Location{{1, 20}, {1, 26}}, result.errors[0].getLocation());
CHECK_EQ("String literal contains malformed escape sequence", result.errors[0].getMessage());
REQUIRE(result.root);
CHECK_EQ(result.root->body.size, 2);
}
TEST_CASE_FIXTURE(Fixture, "unfinished_string_literals_get_reported_but_parsing_continues")
{
ParseResult result = tryParse(R"(
local foo = "hi
print(foo)
)");
REQUIRE_EQ(1, result.errors.size());
CHECK_EQ(Location{{1, 20}, {1, 23}}, result.errors[0].getLocation());
CHECK_EQ("Malformed string; did you forget to finish it?", result.errors[0].getMessage());
REQUIRE(result.root);
CHECK_EQ(result.root->body.size, 2);
}
TEST_CASE_FIXTURE(Fixture, "unfinished_string_literal_types_get_reported_but_parsing_continues")
{
ParseResult result = tryParse(R"(
type Foo = "hi
print(foo)
)");
REQUIRE_EQ(1, result.errors.size());
CHECK_EQ(Location{{1, 19}, {1, 22}}, result.errors[0].getLocation());
CHECK_EQ("Malformed string; did you forget to finish it?", result.errors[0].getMessage());
REQUIRE(result.root);
CHECK_EQ(result.root->body.size, 2);
}
TEST_CASE_FIXTURE(Fixture, "do_block_with_no_end")
{
ParseResult result = tryParse(R"(
do
)");
REQUIRE_EQ(1, result.errors.size());
AstStatBlock* stat0 = result.root->body.data[0]->as<AstStatBlock>();
REQUIRE(stat0);
CHECK(!stat0->hasEnd);
}
TEST_CASE_FIXTURE(Fixture, "parse_interpolated_string_with_lookahead_involved")
{
ScopedFastFlag sff{"LuauLexerLookaheadRemembersBraceType", true};
ParseResult result = tryParse(R"(
local x = `{ {y} }`
)");
REQUIRE_MESSAGE(result.errors.empty(), result.errors[0].getMessage());
}
TEST_CASE_FIXTURE(Fixture, "parse_interpolated_string_with_lookahead_involved2")
{
ScopedFastFlag sff{"LuauLexerLookaheadRemembersBraceType", true};
ParseResult result = tryParse(R"(
local x = `{ { y{} } }`
)");
REQUIRE_MESSAGE(result.errors.empty(), result.errors[0].getMessage());
}
TEST_CASE_FIXTURE(Fixture, "parse_top_level_checked_fn")
{
ParseOptions opts;
opts.allowDeclarationSyntax = true;
ScopedFastFlag sff{"LuauCheckedFunctionSyntax", true};
std::string src = R"BUILTIN_SRC(
declare function @checked abs(n: number): number
)BUILTIN_SRC";
ParseResult pr = tryParse(src, opts);
LUAU_ASSERT(pr.errors.size() == 0);
LUAU_ASSERT(pr.root->body.size == 1);
AstStat* root = *(pr.root->body.data);
auto func = root->as<AstStatDeclareFunction>();
LUAU_ASSERT(func);
LUAU_ASSERT(func->checkedFunction);
}
TEST_CASE_FIXTURE(Fixture, "parse_declared_table_checked_member")
{
ParseOptions opts;
opts.allowDeclarationSyntax = true;
ScopedFastFlag sff{"LuauCheckedFunctionSyntax", true};
const std::string src = R"BUILTIN_SRC(
declare math : {
abs : @checked (number) -> number
}
)BUILTIN_SRC";
ParseResult pr = tryParse(src, opts);
LUAU_ASSERT(pr.errors.size() == 0);
LUAU_ASSERT(pr.root->body.size == 1);
AstStat* root = *(pr.root->body.data);
auto glob = root->as<AstStatDeclareGlobal>();
LUAU_ASSERT(glob);
auto tbl = glob->type->as<AstTypeTable>();
LUAU_ASSERT(tbl);
LUAU_ASSERT(tbl->props.size == 1);
auto prop = *tbl->props.data;
auto func = prop.type->as<AstTypeFunction>();
LUAU_ASSERT(func);
LUAU_ASSERT(func->checkedFunction);
}
TEST_CASE_FIXTURE(Fixture, "parse_checked_outside_decl_fails")
{
ParseOptions opts;
opts.allowDeclarationSyntax = true;
ScopedFastFlag sff{"LuauCheckedFunctionSyntax", true};
ParseResult pr = tryParse(R"(
local @checked = 3
)",
opts);
LUAU_ASSERT(pr.errors.size() > 0);
auto ts = pr.errors[1].getMessage();
}
TEST_CASE_FIXTURE(Fixture, "parse_checked_in_and_out_of_decl_fails")
{
ParseOptions opts;
opts.allowDeclarationSyntax = true;
ScopedFastFlag sff{"LuauCheckedFunctionSyntax", true};
auto pr = tryParse(R"(
local @checked = 3
declare function @checked abs(n: number): number
)",
opts);
LUAU_ASSERT(pr.errors.size() == 2);
LUAU_ASSERT(pr.errors[0].getLocation().begin.line == 1);
LUAU_ASSERT(pr.errors[1].getLocation().begin.line == 1);
}
TEST_CASE_FIXTURE(Fixture, "parse_checked_as_function_name_fails")
{
ParseOptions opts;
opts.allowDeclarationSyntax = true;
ScopedFastFlag sff{"LuauCheckedFunctionSyntax", true};
auto pr = tryParse(R"(
function @checked(x: number) : number
end
)",
opts);
LUAU_ASSERT(pr.errors.size() > 0);
}
TEST_CASE_FIXTURE(Fixture, "cannot_use_@_as_variable_name")
{
ParseOptions opts;
opts.allowDeclarationSyntax = true;
ScopedFastFlag sff{"LuauCheckedFunctionSyntax", true};
auto pr = tryParse(R"(
local @blah = 3
)",
opts);
LUAU_ASSERT(pr.errors.size() > 0);
}
TEST_SUITE_END();
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