luau/tests/Parser.test.cpp
Arseny Kapoulkine ae35ada579
Sync to upstream/release/543 (#657)
- Improve ComparisonPrecedence lint suggestions for three-way comparisons (X < Y < Z)
- Improve type checking stability
- Improve location information for errors when parsing invalid type annotations
- Compiler now generates bytecode version 3 in all configurations
- Improve performance of comparisons against numeric constants on AArch64
2022-09-01 16:14:03 -07:00

2728 lines
81 KiB
C++
Raw Blame History

This file contains ambiguous Unicode characters

This file contains Unicode characters that might be confused with other characters. If you think that this is intentional, you can safely ignore this warning. Use the Escape button to reveal them.

// 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 "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_cannot_have_annotation_with_extensions_disabled")
{
Luau::ParseOptions options;
options.allowTypeAnnotations = false;
CHECK_THROWS_AS(parse("local foo: string = \"Hello Types!\"", options), std::exception);
}
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_cannot_have_return_annotations_if_extensions_are_disabled")
{
Luau::ParseOptions options;
options.allowTypeAnnotations = false;
CHECK_THROWS_AS(parse("function foo(): number return 55 end", options), std::exception);
}
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, "illegal_type_alias_if_extensions_are_disabled")
{
Luau::ParseOptions options;
options.allowTypeAnnotations = false;
CHECK_THROWS_AS(parse("type A = number", options), std::exception);
}
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, "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")
{
ScopedFastFlag luauLintParseIntegerIssues{"LuauLintParseIntegerIssues", true};
ScopedFastFlag luauErrorDoubleHexPrefix{"LuauErrorDoubleHexPrefix", true};
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, "parse_numbers_error_soft")
{
ScopedFastFlag luauLintParseIntegerIssues{"LuauLintParseIntegerIssues", true};
ScopedFastFlag luauErrorDoubleHexPrefix{"LuauErrorDoubleHexPrefix", false};
CHECK_EQ(getParseError("return 0x0x0x0x0x0x0x0"), "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")
{
ScopedFastFlag sff{"LuauInterpolatedStringBaseSupport", true};
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")
{
ScopedFastFlag sff{"LuauInterpolatedStringBaseSupport", true};
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")
{
ScopedFastFlag sff{"LuauInterpolatedStringBaseSupport", true};
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")
{
ScopedFastFlag sff{"LuauInterpolatedStringBaseSupport", true};
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")
{
ScopedFastFlag sff{"LuauInterpolatedStringBaseSupport", true};
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")
{
ScopedFastFlag sff{"LuauInterpolatedStringBaseSupport", true};
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")
{
ScopedFastFlag sff{"LuauInterpolatedStringBaseSupport", true};
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_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")
{
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")
{
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", 20};
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: {}}}}}}}", "Exceeded allowed recursion depth; 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");
matchParseError("return \"\\", "Malformed string");
matchParseError("return \"\r\r", "Malformed string");
}
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")
{
ScopedFastFlag LuauTypeAnnotationLocationChange{"LuauTypeAnnotationLocationChange", true};
{
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, "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")
{
ScopedFastFlag luauFixNamedFunctionParse{"LuauFixNamedFunctionParse", true};
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);
}
};
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")
{
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_SUITE_END();