luau/tests/Conformance.test.cpp

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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 "lua.h"
#include "lualib.h"
#include "luacode.h"
#include "luacodegen.h"
#include "Luau/BuiltinDefinitions.h"
#include "Luau/ModuleResolver.h"
#include "Luau/TypeInfer.h"
#include "Luau/StringUtils.h"
#include "Luau/BytecodeBuilder.h"
#include "Luau/Frontend.h"
#include "doctest.h"
#include "ScopedFlags.h"
#include <fstream>
#include <vector>
#include <math.h>
extern bool verbose;
extern bool codegen;
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extern int optimizationLevel;
static lua_CompileOptions defaultOptions()
{
lua_CompileOptions copts = {};
copts.optimizationLevel = optimizationLevel;
copts.debugLevel = 1;
return copts;
}
static int lua_collectgarbage(lua_State* L)
{
static const char* const opts[] = {"stop", "restart", "collect", "count", "isrunning", "step", "setgoal", "setstepmul", "setstepsize", nullptr};
static const int optsnum[] = {
LUA_GCSTOP, LUA_GCRESTART, LUA_GCCOLLECT, LUA_GCCOUNT, LUA_GCISRUNNING, LUA_GCSTEP, LUA_GCSETGOAL, LUA_GCSETSTEPMUL, LUA_GCSETSTEPSIZE};
int o = luaL_checkoption(L, 1, "collect", opts);
int ex = luaL_optinteger(L, 2, 0);
int res = lua_gc(L, optsnum[o], ex);
switch (optsnum[o])
{
case LUA_GCSTEP:
case LUA_GCISRUNNING:
{
lua_pushboolean(L, res);
return 1;
}
default:
{
lua_pushnumber(L, res);
return 1;
}
}
}
static int lua_loadstring(lua_State* L)
{
size_t l = 0;
const char* s = luaL_checklstring(L, 1, &l);
const char* chunkname = luaL_optstring(L, 2, s);
lua_setsafeenv(L, LUA_ENVIRONINDEX, false);
size_t bytecodeSize = 0;
char* bytecode = luau_compile(s, l, nullptr, &bytecodeSize);
int result = luau_load(L, chunkname, bytecode, bytecodeSize, 0);
free(bytecode);
if (result == 0)
return 1;
lua_pushnil(L);
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lua_insert(L, -2); // put before error message
return 2; // return nil plus error message
}
static int lua_vector(lua_State* L)
{
double x = luaL_checknumber(L, 1);
double y = luaL_checknumber(L, 2);
double z = luaL_checknumber(L, 3);
#if LUA_VECTOR_SIZE == 4
double w = luaL_optnumber(L, 4, 0.0);
lua_pushvector(L, float(x), float(y), float(z), float(w));
#else
lua_pushvector(L, float(x), float(y), float(z));
#endif
return 1;
}
static int lua_vector_dot(lua_State* L)
{
const float* a = luaL_checkvector(L, 1);
const float* b = luaL_checkvector(L, 2);
lua_pushnumber(L, a[0] * b[0] + a[1] * b[1] + a[2] * b[2]);
return 1;
}
static int lua_vector_index(lua_State* L)
{
const float* v = luaL_checkvector(L, 1);
const char* name = luaL_checkstring(L, 2);
if (strcmp(name, "Magnitude") == 0)
{
lua_pushnumber(L, sqrtf(v[0] * v[0] + v[1] * v[1] + v[2] * v[2]));
return 1;
}
if (strcmp(name, "Dot") == 0)
{
lua_pushcfunction(L, lua_vector_dot, "Dot");
return 1;
}
luaL_error(L, "%s is not a valid member of vector", name);
}
static int lua_vector_namecall(lua_State* L)
{
if (const char* str = lua_namecallatom(L, nullptr))
{
if (strcmp(str, "Dot") == 0)
return lua_vector_dot(L);
}
luaL_error(L, "%s is not a valid method of vector", luaL_checkstring(L, 1));
}
int lua_silence(lua_State* L)
{
return 0;
}
using StateRef = std::unique_ptr<lua_State, void (*)(lua_State*)>;
static StateRef runConformance(const char* name, void (*setup)(lua_State* L) = nullptr, void (*yield)(lua_State* L) = nullptr,
lua_State* initialLuaState = nullptr, lua_CompileOptions* options = nullptr, bool skipCodegen = false)
{
std::string path = __FILE__;
path.erase(path.find_last_of("\\/"));
path += "/conformance/";
path += name;
std::fstream stream(path, std::ios::in | std::ios::binary);
REQUIRE(stream);
std::string source(std::istreambuf_iterator<char>(stream), {});
stream.close();
if (!initialLuaState)
initialLuaState = luaL_newstate();
StateRef globalState(initialLuaState, lua_close);
lua_State* L = globalState.get();
if (codegen && !skipCodegen && luau_codegen_supported())
luau_codegen_create(L);
luaL_openlibs(L);
// Register a few global functions for conformance tests
std::vector<luaL_Reg> funcs = {
{"collectgarbage", lua_collectgarbage},
{"loadstring", lua_loadstring},
};
if (!verbose)
{
funcs.push_back({"print", lua_silence});
}
// "null" terminate the list of functions to register
funcs.push_back({nullptr, nullptr});
lua_pushvalue(L, LUA_GLOBALSINDEX);
luaL_register(L, nullptr, funcs.data());
lua_pop(L, 1);
// In some configurations we have a larger C stack consumption which trips some conformance tests
#if defined(LUAU_ENABLE_ASAN) || defined(_NOOPT) || defined(_DEBUG)
lua_pushboolean(L, true);
lua_setglobal(L, "limitedstack");
#endif
// Extra test-specific setup
if (setup)
setup(L);
// Protect core libraries and metatables from modification
luaL_sandbox(L);
// Create a new writable global table for current thread
luaL_sandboxthread(L);
// Lua conformance tests treat _G synonymously with getfenv(); for now cater to them
lua_pushvalue(L, LUA_GLOBALSINDEX);
lua_pushvalue(L, LUA_GLOBALSINDEX);
lua_setfield(L, -1, "_G");
std::string chunkname = "=" + std::string(name);
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// note: luau_compile supports nullptr options, but we need to customize our defaults to improve test coverage
lua_CompileOptions opts = options ? *options : defaultOptions();
size_t bytecodeSize = 0;
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char* bytecode = luau_compile(source.data(), source.size(), &opts, &bytecodeSize);
int result = luau_load(L, chunkname.c_str(), bytecode, bytecodeSize, 0);
free(bytecode);
if (result == 0 && codegen && !skipCodegen && luau_codegen_supported())
luau_codegen_compile(L, -1);
int status = (result == 0) ? lua_resume(L, nullptr, 0) : LUA_ERRSYNTAX;
while (yield && (status == LUA_YIELD || status == LUA_BREAK))
{
yield(L);
status = lua_resume(L, nullptr, 0);
}
extern void luaC_validate(lua_State * L); // internal function, declared in lgc.h - not exposed via lua.h
luaC_validate(L);
if (status == 0)
{
REQUIRE(lua_isstring(L, -1));
CHECK(std::string(lua_tostring(L, -1)) == "OK");
}
else
{
std::string error = (status == LUA_YIELD) ? "thread yielded unexpectedly" : lua_tostring(L, -1);
error += "\nstacktrace:\n";
error += lua_debugtrace(L);
FAIL(error);
}
return globalState;
}
static void* limitedRealloc(void* ud, void* ptr, size_t osize, size_t nsize)
{
if (nsize == 0)
{
free(ptr);
return nullptr;
}
else if (nsize > 8 * 1024 * 1024)
{
// For testing purposes return null for large allocations so we can generate errors related to memory allocation failures
return nullptr;
}
else
{
return realloc(ptr, nsize);
}
}
TEST_SUITE_BEGIN("Conformance");
TEST_CASE("Assert")
{
runConformance("assert.lua");
}
TEST_CASE("Basic")
{
runConformance("basic.lua");
}
TEST_CASE("Math")
{
runConformance("math.lua");
}
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TEST_CASE("Tables")
{
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runConformance("tables.lua", [](lua_State* L) {
lua_pushcfunction(
L,
[](lua_State* L) {
Sync to upstream/release/572 (#899) * Fixed exported types not being suggested in autocomplete * `T...` is now convertible to `...any` (Fixes https://github.com/Roblox/luau/issues/767) * Fixed issue with `T?` not being convertible to `T | T` or `T?` (sometimes when internal pointer identity is different) * Fixed potential crash in missing table key error suggestion to use a similar existing key * `lua_topointer` now returns a pointer for strings C++ API Changes: * `prepareModuleScope` callback has moved from TypeChecker to Frontend * For LSPs, AstQuery functions (and `isWithinComment`) can be used without full Frontend data A lot of changes in our two experimental components as well. In our work on the new type-solver, the following issues were fixed: * Fixed table union and intersection indexing * Correct custom type environments are now used * Fixed issue with values of `free & number` type not accepted in numeric operations And these are the changes in native code generation (JIT): * arm64 lowering is almost complete with support for 99% of IR commands and all fastcalls * Fixed x64 assembly encoding for extended byte registers * More external x64 calls are aware of register allocator * `math.min`/`math.max` with more than 2 arguments are now lowered to IR as well * Fixed correctness issues with `math` library calls with multiple results in variadic context and with x64 register conflicts * x64 register allocator learnt to restore values from VM memory instead of always using stack spills * x64 exception unwind information now supports multiple functions and fixes function start offset in Dwarf2 info
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if (lua_type(L, 1) == LUA_TNUMBER)
{
unsigned v = luaL_checkunsigned(L, 1);
lua_pushlightuserdata(L, reinterpret_cast<void*>(uintptr_t(v)));
}
else
{
const void* p = lua_topointer(L, 1);
lua_pushlightuserdata(L, const_cast<void*>(p));
}
return 1;
},
"makelud");
lua_setglobal(L, "makelud");
});
}
TEST_CASE("PatternMatch")
{
runConformance("pm.lua");
}
TEST_CASE("Sort")
{
runConformance("sort.lua");
}
TEST_CASE("Move")
{
runConformance("move.lua");
}
TEST_CASE("Clear")
{
runConformance("clear.lua");
}
TEST_CASE("Strings")
{
runConformance("strings.lua");
}
TEST_CASE("StringInterp")
{
runConformance("stringinterp.lua");
}
TEST_CASE("VarArg")
{
runConformance("vararg.lua");
}
TEST_CASE("Locals")
{
runConformance("locals.lua");
}
TEST_CASE("Literals")
{
runConformance("literals.lua");
}
TEST_CASE("Errors")
{
runConformance("errors.lua");
}
TEST_CASE("Events")
{
runConformance("events.lua");
}
TEST_CASE("Constructs")
{
runConformance("constructs.lua");
}
TEST_CASE("Closure")
{
runConformance("closure.lua");
}
TEST_CASE("Calls")
{
runConformance("calls.lua");
}
TEST_CASE("Attrib")
{
runConformance("attrib.lua");
}
TEST_CASE("GC")
{
runConformance("gc.lua");
}
TEST_CASE("Bitwise")
{
runConformance("bitwise.lua");
}
TEST_CASE("UTF8")
{
runConformance("utf8.lua");
}
TEST_CASE("Coroutine")
{
runConformance("coroutine.lua");
}
static int cxxthrow(lua_State* L)
{
#if LUA_USE_LONGJMP
luaL_error(L, "oops");
#else
throw std::runtime_error("oops");
#endif
}
TEST_CASE("PCall")
{
Sync to upstream/release/572 (#899) * Fixed exported types not being suggested in autocomplete * `T...` is now convertible to `...any` (Fixes https://github.com/Roblox/luau/issues/767) * Fixed issue with `T?` not being convertible to `T | T` or `T?` (sometimes when internal pointer identity is different) * Fixed potential crash in missing table key error suggestion to use a similar existing key * `lua_topointer` now returns a pointer for strings C++ API Changes: * `prepareModuleScope` callback has moved from TypeChecker to Frontend * For LSPs, AstQuery functions (and `isWithinComment`) can be used without full Frontend data A lot of changes in our two experimental components as well. In our work on the new type-solver, the following issues were fixed: * Fixed table union and intersection indexing * Correct custom type environments are now used * Fixed issue with values of `free & number` type not accepted in numeric operations And these are the changes in native code generation (JIT): * arm64 lowering is almost complete with support for 99% of IR commands and all fastcalls * Fixed x64 assembly encoding for extended byte registers * More external x64 calls are aware of register allocator * `math.min`/`math.max` with more than 2 arguments are now lowered to IR as well * Fixed correctness issues with `math` library calls with multiple results in variadic context and with x64 register conflicts * x64 register allocator learnt to restore values from VM memory instead of always using stack spills * x64 exception unwind information now supports multiple functions and fixes function start offset in Dwarf2 info
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runConformance(
"pcall.lua",
[](lua_State* L) {
lua_pushcfunction(L, cxxthrow, "cxxthrow");
lua_setglobal(L, "cxxthrow");
lua_pushcfunction(
L,
[](lua_State* L) -> int {
lua_State* co = lua_tothread(L, 1);
lua_xmove(L, co, 1);
lua_resumeerror(co, L);
return 0;
},
"resumeerror");
lua_setglobal(L, "resumeerror");
},
nullptr, lua_newstate(limitedRealloc, nullptr));
}
TEST_CASE("Pack")
{
runConformance("tpack.lua");
}
TEST_CASE("Vector")
{
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lua_CompileOptions copts = defaultOptions();
copts.vectorCtor = "vector";
runConformance(
"vector.lua",
[](lua_State* L) {
lua_pushcfunction(L, lua_vector, "vector");
lua_setglobal(L, "vector");
#if LUA_VECTOR_SIZE == 4
lua_pushvector(L, 0.0f, 0.0f, 0.0f, 0.0f);
#else
lua_pushvector(L, 0.0f, 0.0f, 0.0f);
#endif
luaL_newmetatable(L, "vector");
lua_pushstring(L, "__index");
lua_pushcfunction(L, lua_vector_index, nullptr);
lua_settable(L, -3);
lua_pushstring(L, "__namecall");
lua_pushcfunction(L, lua_vector_namecall, nullptr);
lua_settable(L, -3);
lua_setreadonly(L, -1, true);
lua_setmetatable(L, -2);
lua_pop(L, 1);
},
nullptr, nullptr, &copts);
}
static void populateRTTI(lua_State* L, Luau::TypeId type)
{
if (auto p = Luau::get<Luau::PrimitiveType>(type))
{
switch (p->type)
{
case Luau::PrimitiveType::Boolean:
lua_pushstring(L, "boolean");
break;
case Luau::PrimitiveType::NilType:
lua_pushstring(L, "nil");
break;
case Luau::PrimitiveType::Number:
lua_pushstring(L, "number");
break;
case Luau::PrimitiveType::String:
lua_pushstring(L, "string");
break;
case Luau::PrimitiveType::Thread:
lua_pushstring(L, "thread");
break;
default:
LUAU_ASSERT(!"Unknown primitive type");
}
}
else if (auto t = Luau::get<Luau::TableType>(type))
{
lua_newtable(L);
for (const auto& [name, prop] : t->props)
{
populateRTTI(L, prop.type());
lua_setfield(L, -2, name.c_str());
}
}
else if (Luau::get<Luau::FunctionType>(type))
{
lua_pushstring(L, "function");
}
else if (Luau::get<Luau::AnyType>(type))
{
lua_pushstring(L, "any");
}
else if (auto i = Luau::get<Luau::IntersectionType>(type))
{
for (const auto& part : i->parts)
LUAU_ASSERT(Luau::get<Luau::FunctionType>(part));
lua_pushstring(L, "function");
}
else
{
LUAU_ASSERT(!"Unknown type");
}
}
TEST_CASE("Types")
{
runConformance("types.lua", [](lua_State* L) {
Luau::NullModuleResolver moduleResolver;
Luau::NullFileResolver fileResolver;
Luau::NullConfigResolver configResolver;
Luau::Frontend frontend{&fileResolver, &configResolver};
Luau::registerBuiltinGlobals(frontend, frontend.globals);
Luau::freeze(frontend.globals.globalTypes);
lua_newtable(L);
for (const auto& [name, binding] : frontend.globals.globalScope->bindings)
{
populateRTTI(L, binding.typeId);
lua_setfield(L, -2, toString(name).c_str());
}
lua_setglobal(L, "RTTI");
});
}
TEST_CASE("DateTime")
{
runConformance("datetime.lua");
}
TEST_CASE("Debug")
{
runConformance("debug.lua");
}
TEST_CASE("Debugger")
{
static int breakhits = 0;
static lua_State* interruptedthread = nullptr;
static bool singlestep = false;
static int stephits = 0;
SUBCASE("")
{
singlestep = false;
}
SUBCASE("SingleStep")
{
singlestep = true;
}
breakhits = 0;
interruptedthread = nullptr;
stephits = 0;
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lua_CompileOptions copts = defaultOptions();
copts.debugLevel = 2;
runConformance(
"debugger.lua",
[](lua_State* L) {
lua_Callbacks* cb = lua_callbacks(L);
lua_singlestep(L, singlestep);
// this will only be called in single-step mode
cb->debugstep = [](lua_State* L, lua_Debug* ar) {
stephits++;
};
// for breakpoints to work we should make sure debugbreak is installed
cb->debugbreak = [](lua_State* L, lua_Debug* ar) {
breakhits++;
// make sure we can trace the stack for every breakpoint we hit
lua_debugtrace(L);
// for every breakpoint, we break on the first invocation and continue on second
// this allows us to easily step off breakpoints
// (real implementaiton may require singlestepping)
if (breakhits % 2 == 1)
lua_break(L);
};
// for resuming off a breakpoint inside a coroutine we need to resume the interrupted coroutine
cb->debuginterrupt = [](lua_State* L, lua_Debug* ar) {
CHECK(interruptedthread == nullptr);
CHECK(ar->userdata); // userdata contains the interrupted thread
interruptedthread = static_cast<lua_State*>(ar->userdata);
};
// add breakpoint() function
lua_pushcclosurek(
L,
[](lua_State* L) -> int {
int line = luaL_checkinteger(L, 1);
bool enabled = luaL_optboolean(L, 2, true);
lua_Debug ar = {};
lua_getinfo(L, lua_stackdepth(L) - 1, "f", &ar);
lua_breakpoint(L, -1, line, enabled);
return 0;
},
"breakpoint", 0, nullptr);
lua_setglobal(L, "breakpoint");
},
[](lua_State* L) {
CHECK(breakhits % 2 == 1);
lua_checkstack(L, LUA_MINSTACK);
if (breakhits == 1)
{
// test lua_getargument
int a = lua_getargument(L, 0, 1);
REQUIRE(a);
CHECK(lua_tointeger(L, -1) == 50);
lua_pop(L, 1);
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int v = lua_getargument(L, 0, 2);
REQUIRE(v);
CHECK(lua_tointeger(L, -1) == 42);
lua_pop(L, 1);
// test lua_getlocal
const char* l = lua_getlocal(L, 0, 1);
REQUIRE(l);
CHECK(strcmp(l, "b") == 0);
CHECK(lua_tointeger(L, -1) == 50);
lua_pop(L, 1);
// test lua_getupvalue
lua_Debug ar = {};
lua_getinfo(L, 0, "f", &ar);
const char* u = lua_getupvalue(L, -1, 1);
REQUIRE(u);
CHECK(strcmp(u, "a") == 0);
CHECK(lua_tointeger(L, -1) == 5);
lua_pop(L, 2);
}
else if (breakhits == 3)
{
// validate assignment via lua_getlocal
const char* l = lua_getlocal(L, 0, 1);
REQUIRE(l);
CHECK(strcmp(l, "a") == 0);
CHECK(lua_tointeger(L, -1) == 6);
lua_pop(L, 1);
}
else if (breakhits == 5)
{
// validate assignment via lua_getlocal
const char* l = lua_getlocal(L, 1, 1);
REQUIRE(l);
CHECK(strcmp(l, "a") == 0);
CHECK(lua_tointeger(L, -1) == 7);
lua_pop(L, 1);
}
else if (breakhits == 7)
{
// validate assignment via lua_getlocal
const char* l = lua_getlocal(L, 1, 1);
REQUIRE(l);
CHECK(strcmp(l, "a") == 0);
CHECK(lua_tointeger(L, -1) == 8);
lua_pop(L, 1);
}
else if (breakhits == 9)
{
// validate assignment via lua_getlocal
const char* l = lua_getlocal(L, 1, 1);
REQUIRE(l);
CHECK(strcmp(l, "a") == 0);
CHECK(lua_tointeger(L, -1) == 9);
lua_pop(L, 1);
}
Sync to upstream/release/576 (#928) * `ClassType` can now have an indexer defined on it. This allows custom types to be used in `t[x]` expressions. * Fixed search for closest executable breakpoint line. Previously, breakpoints might have been skipped in `else` blocks at the end of a function * Fixed how unification is performed for two optional types `a? <: b?`, previously it might have unified either 'a' or 'b' with 'nil'. Note that this fix is not enabled by default yet (see the list in `ExperimentalFlags.h`) In the new type solver, a concept of 'Type Families' has been introduced. Type families can be thought of as type aliases with custom type inference/reduction logic included with them. For example, we can have an `Add<T, U>` type family that will resolve the type that is the result of adding two values together. This will help type inference to figure out what 'T' and 'U' might be when explicit type annotations are not provided. In this update we don't define any type families, but they will be added in the near future. It is also possible for Luau embedders to define their own type families in the global/environment scope. Other changes include: * Fixed scope used to find out which generic types should be included in the function generic type list * Fixed a crash after cyclic bound types were created during unification And in native code generation (jit): * Use of arm64 target on M1 now requires macOS 13 * Entry into native code has been optimized. This is especially important for coroutine call/pcall performance as they involve going through a C call frame * LOP_LOADK(X) translation into IR has been improved to enable type tag/constant propagation * arm64 can use integer immediate values to synthesize floating-point values * x64 assembler removes duplicate 64bit numbers from the data section to save space * Linux `perf` can now be used to profile native Luau code (when running with --codegen-perf CLI argument)
2023-05-13 01:50:47 +08:00
else if (breakhits == 13)
{
// validate assignment via lua_getlocal
const char* l = lua_getlocal(L, 0, 1);
REQUIRE(l);
CHECK(strcmp(l, "a") == 0);
CHECK(lua_isnil(L, -1));
lua_pop(L, 1);
}
if (interruptedthread)
{
lua_resume(interruptedthread, nullptr, 0);
interruptedthread = nullptr;
}
},
nullptr, &copts, /* skipCodegen */ true); // Native code doesn't support debugging yet
Sync to upstream/release/576 (#928) * `ClassType` can now have an indexer defined on it. This allows custom types to be used in `t[x]` expressions. * Fixed search for closest executable breakpoint line. Previously, breakpoints might have been skipped in `else` blocks at the end of a function * Fixed how unification is performed for two optional types `a? <: b?`, previously it might have unified either 'a' or 'b' with 'nil'. Note that this fix is not enabled by default yet (see the list in `ExperimentalFlags.h`) In the new type solver, a concept of 'Type Families' has been introduced. Type families can be thought of as type aliases with custom type inference/reduction logic included with them. For example, we can have an `Add<T, U>` type family that will resolve the type that is the result of adding two values together. This will help type inference to figure out what 'T' and 'U' might be when explicit type annotations are not provided. In this update we don't define any type families, but they will be added in the near future. It is also possible for Luau embedders to define their own type families in the global/environment scope. Other changes include: * Fixed scope used to find out which generic types should be included in the function generic type list * Fixed a crash after cyclic bound types were created during unification And in native code generation (jit): * Use of arm64 target on M1 now requires macOS 13 * Entry into native code has been optimized. This is especially important for coroutine call/pcall performance as they involve going through a C call frame * LOP_LOADK(X) translation into IR has been improved to enable type tag/constant propagation * arm64 can use integer immediate values to synthesize floating-point values * x64 assembler removes duplicate 64bit numbers from the data section to save space * Linux `perf` can now be used to profile native Luau code (when running with --codegen-perf CLI argument)
2023-05-13 01:50:47 +08:00
CHECK(breakhits == 14); // 2 hits per breakpoint
if (singlestep)
CHECK(stephits > 100); // note; this will depend on number of instructions which can vary, so we just make sure the callback gets hit often
}
TEST_CASE("NDebugGetUpValue")
{
lua_CompileOptions copts = defaultOptions();
copts.debugLevel = 0;
// Don't optimize away any upvalues
copts.optimizationLevel = 0;
runConformance(
"ndebug_upvalues.lua", nullptr,
[](lua_State* L) {
lua_checkstack(L, LUA_MINSTACK);
// push the second frame's closure to the stack
lua_Debug ar = {};
REQUIRE(lua_getinfo(L, 1, "f", &ar));
// get the first upvalue
const char* u = lua_getupvalue(L, -1, 1);
REQUIRE(u);
// upvalue name is unknown without debug info
CHECK(strcmp(u, "") == 0);
CHECK(lua_tointeger(L, -1) == 5);
lua_pop(L, 2);
},
nullptr, &copts, /* skipCodegen */ false);
}
TEST_CASE("SameHash")
{
extern unsigned int luaS_hash(const char* str, size_t len); // internal function, declared in lstring.h - not exposed via lua.h
// To keep VM and compiler separate, we duplicate the hash function definition
// This test validates that the hash function in question returns the same results on basic inputs
// If this is violated, some code may regress in performance due to hash slot misprediction in inline caches
CHECK(luaS_hash("", 0) == Luau::BytecodeBuilder::getStringHash({"", 0}));
CHECK(luaS_hash("lua", 3) == Luau::BytecodeBuilder::getStringHash({"lua", 3}));
CHECK(luaS_hash("luau", 4) == Luau::BytecodeBuilder::getStringHash({"luau", 4}));
CHECK(luaS_hash("luaubytecode", 12) == Luau::BytecodeBuilder::getStringHash({"luaubytecode", 12}));
CHECK(luaS_hash("luaubytecodehash", 16) == Luau::BytecodeBuilder::getStringHash({"luaubytecodehash", 16}));
// Also hash should work on unaligned source data even when hashing long strings
char buf[128] = {};
CHECK(luaS_hash(buf + 1, 120) == luaS_hash(buf + 2, 120));
}
TEST_CASE("Reference")
{
static int dtorhits = 0;
dtorhits = 0;
StateRef globalState(luaL_newstate(), lua_close);
lua_State* L = globalState.get();
// note, we push two userdata objects but only pin one of them (the first one)
lua_newuserdatadtor(L, 0, [](void*) {
dtorhits++;
});
lua_newuserdatadtor(L, 0, [](void*) {
dtorhits++;
});
lua_gc(L, LUA_GCCOLLECT, 0);
CHECK(dtorhits == 0);
int ref = lua_ref(L, -2);
lua_pop(L, 2);
lua_gc(L, LUA_GCCOLLECT, 0);
CHECK(dtorhits == 1);
lua_getref(L, ref);
CHECK(lua_isuserdata(L, -1));
lua_pop(L, 1);
lua_gc(L, LUA_GCCOLLECT, 0);
CHECK(dtorhits == 1);
lua_unref(L, ref);
lua_gc(L, LUA_GCCOLLECT, 0);
CHECK(dtorhits == 2);
}
TEST_CASE("NewUserdataOverflow")
{
StateRef globalState(luaL_newstate(), lua_close);
lua_State* L = globalState.get();
lua_pushcfunction(
L,
[](lua_State* L1) {
// The following userdata request might cause an overflow.
lua_newuserdatadtor(L1, SIZE_MAX, [](void* d) {});
// The overflow might segfault in the following call.
lua_getmetatable(L1, -1);
return 0;
},
nullptr);
CHECK(lua_pcall(L, 0, 0, 0) == LUA_ERRRUN);
CHECK(strcmp(lua_tostring(L, -1), "memory allocation error: block too big") == 0);
}
TEST_CASE("ApiTables")
{
StateRef globalState(luaL_newstate(), lua_close);
lua_State* L = globalState.get();
lua_newtable(L);
lua_pushnumber(L, 123.0);
lua_setfield(L, -2, "key");
lua_pushnumber(L, 456.0);
lua_rawsetfield(L, -2, "key2");
lua_pushstring(L, "test");
lua_rawseti(L, -2, 5);
// lua_gettable
lua_pushstring(L, "key");
CHECK(lua_gettable(L, -2) == LUA_TNUMBER);
CHECK(lua_tonumber(L, -1) == 123.0);
lua_pop(L, 1);
// lua_getfield
CHECK(lua_getfield(L, -1, "key") == LUA_TNUMBER);
CHECK(lua_tonumber(L, -1) == 123.0);
lua_pop(L, 1);
// lua_rawgetfield
CHECK(lua_rawgetfield(L, -1, "key2") == LUA_TNUMBER);
CHECK(lua_tonumber(L, -1) == 456.0);
lua_pop(L, 1);
// lua_rawget
lua_pushstring(L, "key");
CHECK(lua_rawget(L, -2) == LUA_TNUMBER);
CHECK(lua_tonumber(L, -1) == 123.0);
lua_pop(L, 1);
// lua_rawgeti
CHECK(lua_rawgeti(L, -1, 5) == LUA_TSTRING);
CHECK(strcmp(lua_tostring(L, -1), "test") == 0);
lua_pop(L, 1);
// lua_cleartable
lua_cleartable(L, -1);
lua_pushnil(L);
CHECK(lua_next(L, -2) == 0);
lua_pop(L, 1);
}
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TEST_CASE("ApiIter")
{
StateRef globalState(luaL_newstate(), lua_close);
lua_State* L = globalState.get();
lua_newtable(L);
lua_pushnumber(L, 123.0);
lua_setfield(L, -2, "key");
lua_pushnumber(L, 456.0);
lua_rawsetfield(L, -2, "key2");
lua_pushstring(L, "test");
lua_rawseti(L, -2, 1);
// Lua-compatible iteration interface: lua_next
double sum1 = 0;
lua_pushnil(L);
while (lua_next(L, -2))
{
sum1 += lua_tonumber(L, -2); // key
sum1 += lua_tonumber(L, -1); // value
lua_pop(L, 1); // pop value, key is used by lua_next
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}
CHECK(sum1 == 580);
// Luau iteration interface: lua_rawiter (faster and preferable to lua_next)
double sum2 = 0;
for (int index = 0; index = lua_rawiter(L, -1, index), index >= 0;)
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{
sum2 += lua_tonumber(L, -2); // key
sum2 += lua_tonumber(L, -1); // value
lua_pop(L, 2); // pop both key and value
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}
CHECK(sum2 == 580);
// pop table
lua_pop(L, 1);
}
TEST_CASE("ApiCalls")
{
StateRef globalState = runConformance("apicalls.lua", nullptr, nullptr, lua_newstate(limitedRealloc, nullptr));
lua_State* L = globalState.get();
// lua_call
{
lua_getfield(L, LUA_GLOBALSINDEX, "add");
lua_pushnumber(L, 40);
lua_pushnumber(L, 2);
lua_call(L, 2, 1);
CHECK(lua_isnumber(L, -1));
CHECK(lua_tonumber(L, -1) == 42);
lua_pop(L, 1);
}
// lua_pcall
{
lua_getfield(L, LUA_GLOBALSINDEX, "add");
lua_pushnumber(L, 40);
lua_pushnumber(L, 2);
lua_pcall(L, 2, 1, 0);
CHECK(lua_isnumber(L, -1));
CHECK(lua_tonumber(L, -1) == 42);
lua_pop(L, 1);
}
// lua_equal with a sleeping thread wake up
{
lua_State* L2 = lua_newthread(L);
lua_getfield(L2, LUA_GLOBALSINDEX, "create_with_tm");
lua_pushnumber(L2, 42);
lua_pcall(L2, 1, 1, 0);
lua_getfield(L2, LUA_GLOBALSINDEX, "create_with_tm");
lua_pushnumber(L2, 42);
lua_pcall(L2, 1, 1, 0);
// Reset GC
lua_gc(L2, LUA_GCCOLLECT, 0);
// Try to mark 'L2' as sleeping
// Can't control GC precisely, even in tests
lua_gc(L2, LUA_GCSTEP, 8);
CHECK(lua_equal(L2, -1, -2) == 1);
lua_pop(L2, 2);
}
// lua_clonefunction + fenv
{
lua_getfield(L, LUA_GLOBALSINDEX, "getpi");
lua_call(L, 0, 1);
CHECK(lua_tonumber(L, -1) == 3.1415926);
lua_pop(L, 1);
lua_getfield(L, LUA_GLOBALSINDEX, "getpi");
// clone & override env
lua_clonefunction(L, -1);
lua_newtable(L);
lua_pushnumber(L, 42);
lua_setfield(L, -2, "pi");
lua_setfenv(L, -2);
lua_call(L, 0, 1);
CHECK(lua_tonumber(L, -1) == 42);
lua_pop(L, 1);
// this one calls original function again
lua_call(L, 0, 1);
CHECK(lua_tonumber(L, -1) == 3.1415926);
lua_pop(L, 1);
}
// lua_clonefunction + upvalues
{
lua_getfield(L, LUA_GLOBALSINDEX, "incuv");
lua_call(L, 0, 1);
CHECK(lua_tonumber(L, -1) == 1);
lua_pop(L, 1);
lua_getfield(L, LUA_GLOBALSINDEX, "incuv");
// two clones
lua_clonefunction(L, -1);
lua_clonefunction(L, -2);
lua_call(L, 0, 1);
CHECK(lua_tonumber(L, -1) == 2);
lua_pop(L, 1);
lua_call(L, 0, 1);
CHECK(lua_tonumber(L, -1) == 3);
lua_pop(L, 1);
// this one calls original function again
lua_call(L, 0, 1);
CHECK(lua_tonumber(L, -1) == 4);
lua_pop(L, 1);
}
// lua_pcall on OOM
{
lua_getfield(L, LUA_GLOBALSINDEX, "largealloc");
int res = lua_pcall(L, 0, 0, 0);
CHECK(res == LUA_ERRMEM);
}
// lua_pcall on OOM with an error handler
{
lua_getfield(L, LUA_GLOBALSINDEX, "oops");
lua_getfield(L, LUA_GLOBALSINDEX, "largealloc");
int res = lua_pcall(L, 0, 1, -2);
CHECK(res == LUA_ERRMEM);
CHECK((lua_isstring(L, -1) && strcmp(lua_tostring(L, -1), "oops") == 0));
lua_pop(L, 1);
}
// lua_pcall on OOM with an error handler that errors
{
lua_getfield(L, LUA_GLOBALSINDEX, "error");
lua_getfield(L, LUA_GLOBALSINDEX, "largealloc");
int res = lua_pcall(L, 0, 1, -2);
CHECK(res == LUA_ERRERR);
CHECK((lua_isstring(L, -1) && strcmp(lua_tostring(L, -1), "error in error handling") == 0));
lua_pop(L, 1);
}
// lua_pcall on OOM with an error handler that OOMs
{
lua_getfield(L, LUA_GLOBALSINDEX, "largealloc");
lua_getfield(L, LUA_GLOBALSINDEX, "largealloc");
int res = lua_pcall(L, 0, 1, -2);
CHECK(res == LUA_ERRMEM);
CHECK((lua_isstring(L, -1) && strcmp(lua_tostring(L, -1), "not enough memory") == 0));
lua_pop(L, 1);
}
// lua_pcall on error with an error handler that OOMs
{
lua_getfield(L, LUA_GLOBALSINDEX, "largealloc");
lua_getfield(L, LUA_GLOBALSINDEX, "error");
int res = lua_pcall(L, 0, 1, -2);
CHECK(res == LUA_ERRERR);
CHECK((lua_isstring(L, -1) && strcmp(lua_tostring(L, -1), "error in error handling") == 0));
lua_pop(L, 1);
}
}
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TEST_CASE("ApiAtoms")
{
StateRef globalState(luaL_newstate(), lua_close);
lua_State* L = globalState.get();
lua_callbacks(L)->useratom = [](const char* s, size_t l) -> int16_t {
if (strcmp(s, "string") == 0)
return 0;
if (strcmp(s, "important") == 0)
return 1;
return -1;
};
lua_pushstring(L, "string");
lua_pushstring(L, "import");
lua_pushstring(L, "ant");
lua_concat(L, 2);
lua_pushstring(L, "unimportant");
int a1, a2, a3;
const char* s1 = lua_tostringatom(L, -3, &a1);
const char* s2 = lua_tostringatom(L, -2, &a2);
const char* s3 = lua_tostringatom(L, -1, &a3);
CHECK(strcmp(s1, "string") == 0);
CHECK(a1 == 0);
CHECK(strcmp(s2, "important") == 0);
CHECK(a2 == 1);
CHECK(strcmp(s3, "unimportant") == 0);
CHECK(a3 == -1);
}
static bool endsWith(const std::string& str, const std::string& suffix)
{
if (suffix.length() > str.length())
return false;
return suffix == std::string_view(str.c_str() + str.length() - suffix.length(), suffix.length());
}
#if !LUA_USE_LONGJMP
TEST_CASE("ExceptionObject")
{
struct ExceptionResult
{
bool exceptionGenerated;
std::string description;
};
auto captureException = [](lua_State* L, const char* functionToRun) {
try
{
lua_State* threadState = lua_newthread(L);
lua_getfield(threadState, LUA_GLOBALSINDEX, functionToRun);
CHECK(lua_isLfunction(threadState, -1));
lua_call(threadState, 0, 0);
}
catch (std::exception& e)
{
CHECK(e.what() != nullptr);
return ExceptionResult{true, e.what()};
}
return ExceptionResult{false, ""};
};
StateRef globalState = runConformance("exceptions.lua", nullptr, nullptr, lua_newstate(limitedRealloc, nullptr));
lua_State* L = globalState.get();
{
ExceptionResult result = captureException(L, "infinite_recursion_error");
CHECK(result.exceptionGenerated);
}
{
ExceptionResult result = captureException(L, "empty_function");
CHECK_FALSE(result.exceptionGenerated);
}
{
ExceptionResult result = captureException(L, "pass_number_to_error");
CHECK(result.exceptionGenerated);
CHECK(endsWith(result.description, "42"));
}
{
ExceptionResult result = captureException(L, "pass_string_to_error");
CHECK(result.exceptionGenerated);
CHECK(endsWith(result.description, "string argument"));
}
{
ExceptionResult result = captureException(L, "pass_table_to_error");
CHECK(result.exceptionGenerated);
}
{
ExceptionResult result = captureException(L, "large_allocation_error");
CHECK(result.exceptionGenerated);
}
}
#endif
TEST_CASE("IfElseExpression")
{
runConformance("ifelseexpr.lua");
}
TEST_CASE("TagMethodError")
{
runConformance("tmerror.lua", [](lua_State* L) {
auto* cb = lua_callbacks(L);
cb->debugprotectederror = [](lua_State* L) {
CHECK(lua_isyieldable(L));
};
});
}
TEST_CASE("Coverage")
{
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lua_CompileOptions copts = defaultOptions();
copts.optimizationLevel = 1; // disable inlining to get fixed expected hit results
copts.coverageLevel = 2;
runConformance(
"coverage.lua",
[](lua_State* L) {
lua_pushcfunction(
L,
[](lua_State* L) -> int {
luaL_argexpected(L, lua_isLfunction(L, 1), 1, "function");
lua_newtable(L);
lua_getcoverage(L, 1, L, [](void* context, const char* function, int linedefined, int depth, const int* hits, size_t size) {
lua_State* L = static_cast<lua_State*>(context);
lua_newtable(L);
lua_pushstring(L, function);
lua_setfield(L, -2, "name");
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lua_pushinteger(L, linedefined);
lua_setfield(L, -2, "linedefined");
lua_pushinteger(L, depth);
lua_setfield(L, -2, "depth");
for (size_t i = 0; i < size; ++i)
if (hits[i] != -1)
{
lua_pushinteger(L, hits[i]);
lua_rawseti(L, -2, int(i));
}
lua_rawseti(L, -2, lua_objlen(L, -2) + 1);
});
return 1;
},
"getcoverage");
lua_setglobal(L, "getcoverage");
},
nullptr, nullptr, &copts);
}
TEST_CASE("StringConversion")
{
runConformance("strconv.lua");
}
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TEST_CASE("GCDump")
{
// internal function, declared in lgc.h - not exposed via lua.h
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extern void luaC_dump(lua_State * L, void* file, const char* (*categoryName)(lua_State * L, uint8_t memcat));
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StateRef globalState(luaL_newstate(), lua_close);
lua_State* L = globalState.get();
// push various objects on stack to cover different paths
lua_createtable(L, 1, 2);
lua_pushstring(L, "value");
lua_setfield(L, -2, "key");
lua_pushinteger(L, 42);
lua_rawseti(L, -2, 1000);
lua_pushinteger(L, 42);
lua_rawseti(L, -2, 1);
lua_pushvalue(L, -1);
lua_setmetatable(L, -2);
lua_newuserdata(L, 42);
lua_pushvalue(L, -2);
lua_setmetatable(L, -2);
lua_pushinteger(L, 1);
lua_pushcclosure(L, lua_silence, "test", 1);
lua_State* CL = lua_newthread(L);
lua_pushstring(CL, "local x x = {} local function f() x[1] = math.abs(42) end function foo() coroutine.yield() end foo() return f");
lua_loadstring(CL);
lua_resume(CL, nullptr, 0);
#ifdef _WIN32
const char* path = "NUL";
#else
const char* path = "/dev/null";
#endif
FILE* f = fopen(path, "w");
REQUIRE(f);
luaC_dump(L, f, nullptr);
fclose(f);
}
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TEST_CASE("Interrupt")
{
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lua_CompileOptions copts = defaultOptions();
copts.optimizationLevel = 1; // disable loop unrolling to get fixed expected hit results
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static const int expectedhits[] = {
2,
9,
5,
5,
5,
5,
5,
5,
5,
5,
5,
5,
5,
6,
18,
13,
13,
13,
13,
16,
23,
21,
25,
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};
static int index;
index = 0;
runConformance(
"interrupt.lua",
[](lua_State* L) {
auto* cb = lua_callbacks(L);
// note: for simplicity here we setup the interrupt callback once
// however, this carries a noticeable performance cost. in a real application,
// it's advised to set interrupt callback on a timer from a different thread,
// and set it back to nullptr once the interrupt triggered.
cb->interrupt = [](lua_State* L, int gc) {
if (gc >= 0)
return;
CHECK(index < int(std::size(expectedhits)));
lua_Debug ar = {};
lua_getinfo(L, 0, "l", &ar);
CHECK(ar.currentline == expectedhits[index]);
index++;
// check that we can yield inside an interrupt
if (index == 5)
lua_yield(L, 0);
};
},
[](lua_State* L) {
CHECK(index == 5); // a single yield point
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},
nullptr, &copts);
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CHECK(index == int(std::size(expectedhits)));
}
TEST_CASE("UserdataApi")
{
static int dtorhits = 0;
dtorhits = 0;
StateRef globalState(luaL_newstate(), lua_close);
lua_State* L = globalState.get();
// setup dtor for tag 42 (created later)
auto dtor = [](lua_State* l, void* data) {
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dtorhits += *(int*)data;
};
bool dtorIsNull = lua_getuserdatadtor(L, 42) == nullptr;
CHECK(dtorIsNull);
lua_setuserdatadtor(L, 42, dtor);
bool dtorIsSet = lua_getuserdatadtor(L, 42) == dtor;
CHECK(dtorIsSet);
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// light user data
int lud;
lua_pushlightuserdata(L, &lud);
CHECK(lua_tolightuserdata(L, -1) == &lud);
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CHECK(lua_touserdata(L, -1) == &lud);
CHECK(lua_topointer(L, -1) == &lud);
// regular user data
int* ud1 = (int*)lua_newuserdata(L, 4);
*ud1 = 42;
CHECK(lua_tolightuserdata(L, -1) == nullptr);
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CHECK(lua_touserdata(L, -1) == ud1);
CHECK(lua_topointer(L, -1) == ud1);
// tagged user data
int* ud2 = (int*)lua_newuserdatatagged(L, 4, 42);
*ud2 = -4;
CHECK(lua_touserdatatagged(L, -1, 42) == ud2);
CHECK(lua_touserdatatagged(L, -1, 41) == nullptr);
CHECK(lua_userdatatag(L, -1) == 42);
lua_setuserdatatag(L, -1, 43);
CHECK(lua_userdatatag(L, -1) == 43);
lua_setuserdatatag(L, -1, 42);
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// user data with inline dtor
void* ud3 = lua_newuserdatadtor(L, 4, [](void* data) {
dtorhits += *(int*)data;
});
void* ud4 = lua_newuserdatadtor(L, 1, [](void* data) {
dtorhits += *(char*)data;
});
*(int*)ud3 = 43;
*(char*)ud4 = 3;
// user data with named metatable
luaL_newmetatable(L, "udata1");
luaL_newmetatable(L, "udata2");
void* ud5 = lua_newuserdata(L, 0);
lua_getfield(L, LUA_REGISTRYINDEX, "udata1");
lua_setmetatable(L, -2);
void* ud6 = lua_newuserdata(L, 0);
lua_getfield(L, LUA_REGISTRYINDEX, "udata2");
lua_setmetatable(L, -2);
CHECK(luaL_checkudata(L, -2, "udata1") == ud5);
CHECK(luaL_checkudata(L, -1, "udata2") == ud6);
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globalState.reset();
CHECK(dtorhits == 42);
}
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TEST_CASE("Iter")
{
runConformance("iter.lua");
}
const int kInt64Tag = 1;
static int gInt64MT = -1;
static int64_t getInt64(lua_State* L, int idx)
{
if (void* p = lua_touserdatatagged(L, idx, kInt64Tag))
return *static_cast<int64_t*>(p);
if (lua_isnumber(L, idx))
return lua_tointeger(L, idx);
luaL_typeerror(L, 1, "int64");
}
static void pushInt64(lua_State* L, int64_t value)
{
void* p = lua_newuserdatatagged(L, sizeof(int64_t), kInt64Tag);
lua_getref(L, gInt64MT);
lua_setmetatable(L, -2);
*static_cast<int64_t*>(p) = value;
}
TEST_CASE("Userdata")
{
runConformance("userdata.lua", [](lua_State* L) {
// create metatable with all the metamethods
lua_newtable(L);
gInt64MT = lua_ref(L, -1);
// __index
lua_pushcfunction(
L,
[](lua_State* L) {
void* p = lua_touserdatatagged(L, 1, kInt64Tag);
if (!p)
luaL_typeerror(L, 1, "int64");
const char* name = luaL_checkstring(L, 2);
if (strcmp(name, "value") == 0)
{
lua_pushnumber(L, double(*static_cast<int64_t*>(p)));
return 1;
}
luaL_error(L, "unknown field %s", name);
},
nullptr);
lua_setfield(L, -2, "__index");
// __newindex
lua_pushcfunction(
L,
[](lua_State* L) {
void* p = lua_touserdatatagged(L, 1, kInt64Tag);
if (!p)
luaL_typeerror(L, 1, "int64");
const char* name = luaL_checkstring(L, 2);
if (strcmp(name, "value") == 0)
{
double value = luaL_checknumber(L, 3);
*static_cast<int64_t*>(p) = int64_t(value);
return 0;
}
luaL_error(L, "unknown field %s", name);
},
nullptr);
lua_setfield(L, -2, "__newindex");
// __eq
lua_pushcfunction(
L,
[](lua_State* L) {
lua_pushboolean(L, getInt64(L, 1) == getInt64(L, 2));
return 1;
},
nullptr);
lua_setfield(L, -2, "__eq");
// __lt
lua_pushcfunction(
L,
[](lua_State* L) {
lua_pushboolean(L, getInt64(L, 1) < getInt64(L, 2));
return 1;
},
nullptr);
lua_setfield(L, -2, "__lt");
// __le
lua_pushcfunction(
L,
[](lua_State* L) {
lua_pushboolean(L, getInt64(L, 1) <= getInt64(L, 2));
return 1;
},
nullptr);
lua_setfield(L, -2, "__le");
// __add
lua_pushcfunction(
L,
[](lua_State* L) {
pushInt64(L, getInt64(L, 1) + getInt64(L, 2));
return 1;
},
nullptr);
lua_setfield(L, -2, "__add");
// __sub
lua_pushcfunction(
L,
[](lua_State* L) {
pushInt64(L, getInt64(L, 1) - getInt64(L, 2));
return 1;
},
nullptr);
lua_setfield(L, -2, "__sub");
// __mul
lua_pushcfunction(
L,
[](lua_State* L) {
pushInt64(L, getInt64(L, 1) * getInt64(L, 2));
return 1;
},
nullptr);
lua_setfield(L, -2, "__mul");
// __div
lua_pushcfunction(
L,
[](lua_State* L) {
// ideally we'd guard against 0 but it's a test so eh
pushInt64(L, getInt64(L, 1) / getInt64(L, 2));
return 1;
},
nullptr);
lua_setfield(L, -2, "__div");
// __mod
lua_pushcfunction(
L,
[](lua_State* L) {
// ideally we'd guard against 0 and INT64_MIN but it's a test so eh
pushInt64(L, getInt64(L, 1) % getInt64(L, 2));
return 1;
},
nullptr);
lua_setfield(L, -2, "__mod");
// __pow
lua_pushcfunction(
L,
[](lua_State* L) {
pushInt64(L, int64_t(pow(double(getInt64(L, 1)), double(getInt64(L, 2)))));
return 1;
},
nullptr);
lua_setfield(L, -2, "__pow");
// __unm
lua_pushcfunction(
L,
[](lua_State* L) {
pushInt64(L, -getInt64(L, 1));
return 1;
},
nullptr);
lua_setfield(L, -2, "__unm");
// __tostring
lua_pushcfunction(
L,
[](lua_State* L) {
int64_t value = getInt64(L, 1);
std::string str = std::to_string(value);
lua_pushlstring(L, str.c_str(), str.length());
return 1;
},
nullptr);
lua_setfield(L, -2, "__tostring");
// ctor
lua_pushcfunction(
L,
[](lua_State* L) {
double v = luaL_checknumber(L, 1);
pushInt64(L, int64_t(v));
return 1;
},
"int64");
lua_setglobal(L, "int64");
});
}
TEST_CASE("SafeEnv")
{
runConformance("safeenv.lua");
}
TEST_CASE("Native")
{
runConformance("native.lua");
}
TEST_CASE("HugeFunction")
{
std::string source;
// add non-executed block that requires JUMPKX and generates a lot of constants that take available short (15-bit) constant space
source += "if ... then\n";
source += "local _ = {\n";
for (int i = 0; i < 40000; ++i)
{
source += "0.";
source += std::to_string(i);
source += ",";
}
source += "}\n";
source += "end\n";
// use failed fast-calls with imports and constants to exercise all of the more complex fallback sequences
source += "return bit32.lshift('84', -1)";
StateRef globalState(luaL_newstate(), lua_close);
lua_State* L = globalState.get();
if (codegen && luau_codegen_supported())
luau_codegen_create(L);
luaL_openlibs(L);
luaL_sandbox(L);
luaL_sandboxthread(L);
size_t bytecodeSize = 0;
char* bytecode = luau_compile(source.data(), source.size(), nullptr, &bytecodeSize);
int result = luau_load(L, "=HugeFunction", bytecode, bytecodeSize, 0);
free(bytecode);
REQUIRE(result == 0);
if (codegen && luau_codegen_supported())
luau_codegen_compile(L, -1);
int status = lua_resume(L, nullptr, 0);
REQUIRE(status == 0);
CHECK(lua_tonumber(L, -1) == 42);
}
TEST_SUITE_END();