luau/tests/Lexer.test.cpp
Andy Friesen 0fa6a51c91
Sync to upstream/release/629 (#1290)
### What's new

* Implemented parsing logic for attributes
* Added `lua_setuserdatametatable` and `lua_getuserdatametatable` C API
methods for a faster userdata metatable fetch compared to
`luaL_getmetatable`. Note that metatable reference has to still be
pinned in memory!

### New Solver

* Further improvement to the assignment inference logic
* Fix many bugs surrounding constraint dispatch order

### Native Codegen

* Add IR lowering hooks for custom host userdata types
* Add IR to create new tagged userdata objects
* Remove outdated NativeState

---
### Internal Contributors

Co-authored-by: Aaron Weiss <aaronweiss@roblox.com>
Co-authored-by: Alexander McCord <amccord@roblox.com>
Co-authored-by: Andy Friesen <afriesen@roblox.com>
Co-authored-by: Aviral Goel <agoel@roblox.com>
Co-authored-by: Vighnesh Vijay <vvijay@roblox.com>
Co-authored-by: Vyacheslav Egorov <vegorov@roblox.com>
2024-06-07 10:51:12 -07:00

245 lines
7.7 KiB
C++

// This file is part of the Luau programming language and is licensed under MIT License; see LICENSE.txt for details
#include "Luau/Lexer.h"
#include "Fixture.h"
#include "ScopedFlags.h"
#include "doctest.h"
using namespace Luau;
TEST_SUITE_BEGIN("LexerTests");
TEST_CASE("broken_string_works")
{
const std::string testInput = "[[";
Luau::Allocator alloc;
AstNameTable table(alloc);
Lexer lexer(testInput.c_str(), testInput.size(), table);
Lexeme lexeme = lexer.next();
CHECK_EQ(lexeme.type, Lexeme::Type::BrokenString);
CHECK_EQ(lexeme.location, Luau::Location(Luau::Position(0, 0), Luau::Position(0, 2)));
}
TEST_CASE("broken_comment")
{
const std::string testInput = "--[[ ";
Luau::Allocator alloc;
AstNameTable table(alloc);
Lexer lexer(testInput.c_str(), testInput.size(), table);
Lexeme lexeme = lexer.next();
CHECK_EQ(lexeme.type, Lexeme::Type::BrokenComment);
CHECK_EQ(lexeme.location, Luau::Location(Luau::Position(0, 0), Luau::Position(0, 6)));
}
TEST_CASE("broken_comment_kept")
{
const std::string testInput = "--[[ ";
Luau::Allocator alloc;
AstNameTable table(alloc);
Lexer lexer(testInput.c_str(), testInput.size(), table);
lexer.setSkipComments(true);
CHECK_EQ(lexer.next().type, Lexeme::Type::BrokenComment);
}
TEST_CASE("comment_skipped")
{
const std::string testInput = "-- ";
Luau::Allocator alloc;
AstNameTable table(alloc);
Lexer lexer(testInput.c_str(), testInput.size(), table);
lexer.setSkipComments(true);
CHECK_EQ(lexer.next().type, Lexeme::Type::Eof);
}
TEST_CASE("multilineCommentWithLexemeInAndAfter")
{
const std::string testInput = "--[[ function \n"
"]] end";
Luau::Allocator alloc;
AstNameTable table(alloc);
Lexer lexer(testInput.c_str(), testInput.size(), table);
Lexeme comment = lexer.next();
Lexeme end = lexer.next();
CHECK_EQ(comment.type, Lexeme::Type::BlockComment);
CHECK_EQ(comment.location, Luau::Location(Luau::Position(0, 0), Luau::Position(1, 2)));
CHECK_EQ(end.type, Lexeme::Type::ReservedEnd);
CHECK_EQ(end.location, Luau::Location(Luau::Position(1, 3), Luau::Position(1, 6)));
}
TEST_CASE("testBrokenEscapeTolerant")
{
const std::string testInput = "'\\3729472897292378'";
Luau::Allocator alloc;
AstNameTable table(alloc);
Lexer lexer(testInput.c_str(), testInput.size(), table);
Lexeme item = lexer.next();
CHECK_EQ(item.type, Lexeme::QuotedString);
CHECK_EQ(item.location, Luau::Location(Luau::Position(0, 0), Luau::Position(0, int(testInput.size()))));
}
TEST_CASE("testBigDelimiters")
{
const std::string testInput = "--[===[\n"
"\n"
"\n"
"\n"
"]===]";
Luau::Allocator alloc;
AstNameTable table(alloc);
Lexer lexer(testInput.c_str(), testInput.size(), table);
Lexeme item = lexer.next();
CHECK_EQ(item.type, Lexeme::Type::BlockComment);
CHECK_EQ(item.location, Luau::Location(Luau::Position(0, 0), Luau::Position(4, 5)));
}
TEST_CASE("lookahead")
{
const std::string testInput = "foo --[[ comment ]] bar : nil end";
Luau::Allocator alloc;
AstNameTable table(alloc);
Lexer lexer(testInput.c_str(), testInput.size(), table);
lexer.setSkipComments(true);
lexer.next(); // must call next() before reading data from lexer at least once
CHECK_EQ(lexer.current().type, Lexeme::Name);
CHECK_EQ(lexer.current().name, std::string("foo"));
CHECK_EQ(lexer.lookahead().type, Lexeme::Name);
CHECK_EQ(lexer.lookahead().name, std::string("bar"));
lexer.next();
CHECK_EQ(lexer.current().type, Lexeme::Name);
CHECK_EQ(lexer.current().name, std::string("bar"));
CHECK_EQ(lexer.lookahead().type, ':');
lexer.next();
CHECK_EQ(lexer.current().type, ':');
CHECK_EQ(lexer.lookahead().type, Lexeme::ReservedNil);
lexer.next();
CHECK_EQ(lexer.current().type, Lexeme::ReservedNil);
CHECK_EQ(lexer.lookahead().type, Lexeme::ReservedEnd);
lexer.next();
CHECK_EQ(lexer.current().type, Lexeme::ReservedEnd);
CHECK_EQ(lexer.lookahead().type, Lexeme::Eof);
lexer.next();
CHECK_EQ(lexer.current().type, Lexeme::Eof);
CHECK_EQ(lexer.lookahead().type, Lexeme::Eof);
}
TEST_CASE("string_interpolation_basic")
{
const std::string testInput = R"(`foo {"bar"}`)";
Luau::Allocator alloc;
AstNameTable table(alloc);
Lexer lexer(testInput.c_str(), testInput.size(), table);
Lexeme interpBegin = lexer.next();
CHECK_EQ(interpBegin.type, Lexeme::InterpStringBegin);
Lexeme quote = lexer.next();
CHECK_EQ(quote.type, Lexeme::QuotedString);
Lexeme interpEnd = lexer.next();
CHECK_EQ(interpEnd.type, Lexeme::InterpStringEnd);
}
TEST_CASE("string_interpolation_full")
{
const std::string testInput = R"(`foo {"bar"} {"baz"} end`)";
Luau::Allocator alloc;
AstNameTable table(alloc);
Lexer lexer(testInput.c_str(), testInput.size(), table);
Lexeme interpBegin = lexer.next();
CHECK_EQ(interpBegin.type, Lexeme::InterpStringBegin);
CHECK_EQ(interpBegin.toString(), "`foo {");
Lexeme quote1 = lexer.next();
CHECK_EQ(quote1.type, Lexeme::QuotedString);
CHECK_EQ(quote1.toString(), "\"bar\"");
Lexeme interpMid = lexer.next();
CHECK_EQ(interpMid.type, Lexeme::InterpStringMid);
CHECK_EQ(interpMid.toString(), "} {");
Lexeme quote2 = lexer.next();
CHECK_EQ(quote2.type, Lexeme::QuotedString);
CHECK_EQ(quote2.toString(), "\"baz\"");
Lexeme interpEnd = lexer.next();
CHECK_EQ(interpEnd.type, Lexeme::InterpStringEnd);
CHECK_EQ(interpEnd.toString(), "} end`");
}
TEST_CASE("string_interpolation_double_brace")
{
const std::string testInput = R"(`foo{{bad}}bar`)";
Luau::Allocator alloc;
AstNameTable table(alloc);
Lexer lexer(testInput.c_str(), testInput.size(), table);
auto brokenInterpBegin = lexer.next();
CHECK_EQ(brokenInterpBegin.type, Lexeme::BrokenInterpDoubleBrace);
CHECK_EQ(std::string(brokenInterpBegin.data, brokenInterpBegin.getLength()), std::string("foo"));
CHECK_EQ(lexer.next().type, Lexeme::Name);
auto interpEnd = lexer.next();
CHECK_EQ(interpEnd.type, Lexeme::InterpStringEnd);
CHECK_EQ(std::string(interpEnd.data, interpEnd.getLength()), std::string("}bar"));
}
TEST_CASE("string_interpolation_double_but_unmatched_brace")
{
const std::string testInput = R"(`{{oops}`, 1)";
Luau::Allocator alloc;
AstNameTable table(alloc);
Lexer lexer(testInput.c_str(), testInput.size(), table);
CHECK_EQ(lexer.next().type, Lexeme::BrokenInterpDoubleBrace);
CHECK_EQ(lexer.next().type, Lexeme::Name);
CHECK_EQ(lexer.next().type, Lexeme::InterpStringEnd);
CHECK_EQ(lexer.next().type, ',');
CHECK_EQ(lexer.next().type, Lexeme::Number);
}
TEST_CASE("string_interpolation_unmatched_brace")
{
const std::string testInput = R"({
`hello {"world"}
} -- this might be incorrectly parsed as a string)";
Luau::Allocator alloc;
AstNameTable table(alloc);
Lexer lexer(testInput.c_str(), testInput.size(), table);
CHECK_EQ(lexer.next().type, '{');
CHECK_EQ(lexer.next().type, Lexeme::InterpStringBegin);
CHECK_EQ(lexer.next().type, Lexeme::QuotedString);
CHECK_EQ(lexer.next().type, Lexeme::BrokenString);
CHECK_EQ(lexer.next().type, '}');
}
TEST_CASE("string_interpolation_with_unicode_escape")
{
const std::string testInput = R"(`\u{1F41B}`)";
Luau::Allocator alloc;
AstNameTable table(alloc);
Lexer lexer(testInput.c_str(), testInput.size(), table);
CHECK_EQ(lexer.next().type, Lexeme::InterpStringSimple);
CHECK_EQ(lexer.next().type, Lexeme::Eof);
}
TEST_SUITE_END();