lei/internal/lua.go

683 lines
14 KiB
Go

package internal
/*
#cgo CFLAGS: -Iluau/VM/include -I/usr/lib/gcc/x86_64-pc-linux-gnu/14.1.1/include
// #cgo LDFLAGS: -L${SRCDIR}/luau/cmake -lLuau.VM -lm -lstdc++
#include <lua.h>
#include <lualib.h>
#include <stdlib.h>
#include "clua.h"
*/
import "C"
import "unsafe"
const (
LUA_OK = iota + 1
LUA_YIELD
LUA_ERRRUN
LUA_ERRSYNTAX
LUA_ERRMEM
LUA_ERRERR
LUA_BREAK
)
const (
LUA_CORUN = iota + 1
LUA_COSUS
LUA_CONOR
LUA_COFIN
LUA_COERR
)
const (
LUA_TNIL = iota
LUA_TBOOLEAN
LUA_TLIGHTUSERDATA
LUA_TNUMBER
LUA_TVECTOR
LUA_TSTRING
LUA_TTABLE
LUA_TFUNCTION
LUA_TUSERDATA
LUA_THREAD
LUA_TBUFFER
LUA_TPROTO
LUA_TUPVAL
LUA_TDEADKEY
LUA_T_COUNT = LUA_TPROTO
)
type LuaNumber float64
type LuaInteger int32
type LuaUnsigned int32
type LuaState = C.lua_State
type LuaCFunction func(L *LuaState) int32
type LuaContinuation func(L *LuaState, status int32) int32
type LuaUDestructor = func(*C.void)
type LuaDestructor = func(L *LuaState, _ unsafe.Pointer)
type LuaAlloc = func(ud, ptr unsafe.Pointer, osize, nsize C.size_t) *C.void
//
// ==================
// VM state
// ==================
//
func NewState(f LuaAlloc, ud unsafe.Pointer) *LuaState {
cf := C.malloc(C.size_t(unsafe.Sizeof(f)))
defer C.free(cf)
*(*LuaAlloc)(cf) = f
cud := C.malloc(C.size_t(unsafe.Sizeof(ud)))
defer C.free(cud)
cud = ud
return C.clua_newstate(cf, cud)
}
func LuaClose(L *LuaState) {
C.lua_close(L)
}
func NewThread(L *LuaState) *LuaState {
return C.lua_newthread(L)
}
func MainThread(L *LuaState) *LuaState {
return C.lua_mainthread(L)
}
func ResetThread(L *LuaState) {
C.lua_resetthread(L)
}
func IsThreadReset(L *LuaState) bool {
return C.lua_isthreadreset(L) != 0
}
//
// ==================
// VM Stack
// ==================
//
func AbsIndex(L *LuaState, idx int32) int32 {
return int32(C.lua_absindex(L, C.int(idx)))
}
func GetTop(L *LuaState) int32 {
return int32(C.lua_gettop(L))
}
func SetTop(L *LuaState, idx int32) {
C.lua_settop(L, C.int(idx))
}
func PushValue(L *LuaState, idx int32) {
C.lua_pushvalue(L, C.int(idx))
}
func Remove(L *LuaState, idx int32) {
C.lua_remove(L, C.int(idx))
}
func Insert(L *LuaState, idx int32) {
C.lua_insert(L, C.int(idx))
}
func Replace(L *LuaState, idx int32) {
C.lua_replace(L, C.int(idx))
}
func CheckStack(L *LuaState, sz int32) bool {
return C.lua_checkstack(L, C.int(sz)) != 0
}
func RawCheckStack(L *LuaState, sz int32) {
C.lua_rawcheckstack(L, C.int(sz))
}
func XMove(from, to *LuaState, n int32) {
C.lua_xmove(from, to, C.int(n))
}
func XPush(from, to *LuaState, idx int32) {
C.lua_xpush(from, to, C.int(idx))
}
//
// ======================
// Stack Values
// ======================
//
func IsNumber(L *LuaState, idx int32) bool {
return C.lua_isnumber(L, C.int(idx)) != 0
}
func IsString(L *LuaState, idx int32) bool {
return C.lua_isstring(L, C.int(idx)) != 0
}
func IsCFunction(L *LuaState, idx int32) bool {
return C.lua_iscfunction(L, C.int(idx)) != 0
}
func IsLFunction(L *LuaState, idx int32) bool {
return C.lua_isLfunction(L, C.int(idx)) != 0
}
func IsUserData(L *LuaState, idx int32) bool {
return C.lua_isuserdata(L, C.int(idx)) != 0
}
func Type(L *LuaState, idx int32) bool {
return C.lua_type(L, C.int(idx)) != 0
}
func TypeName(L *LuaState, tp int32) string {
return C.GoString(C.lua_typename(L, C.int(tp)))
}
func Equal(L *LuaState, idx1, idx2 int32) bool {
return C.lua_equal(L, C.int(idx1), C.int(idx2)) != 0
}
func RawEqual(L *LuaState, idx1, idx2 int32) bool {
return C.lua_rawequal(L, C.int(idx1), C.int(idx2)) != 0
}
func LessThan(L *LuaState, idx1, idx2 int32) bool {
return C.lua_lessthan(L, C.int(idx1), C.int(idx2)) != 0
}
func ToNumberX(L *LuaState, idx int32, isnum bool) LuaNumber {
isnumInner := C.int(0)
if isnum {
isnumInner = C.int(1)
}
return LuaNumber(C.lua_tonumberx(L, C.int(idx), &isnumInner))
}
func ToIntegerX(L *LuaState, idx int32, isnum bool) LuaInteger {
isnumInner := C.int(0)
if isnum {
isnumInner = C.int(1)
}
return LuaInteger(C.lua_tointegerx(L, C.int(idx), &isnumInner))
}
func ToUnsignedX(L *LuaState, idx int32, isnum bool) LuaUnsigned {
isnumInner := C.int(0)
if isnum {
isnumInner = C.int(1)
}
return LuaUnsigned(C.lua_tounsignedx(L, C.int(idx), &isnumInner))
}
func ToVector(L *LuaState, idx int32) {
C.lua_tovector(L, C.int(idx))
}
func ToBoolean(L *LuaState, idx int32) bool {
return C.lua_toboolean(L, C.int(idx)) != 0
}
func ToLString(L *LuaState, idx int32, len *uint64) string {
return C.GoString(C.lua_tolstring(L, C.int(idx), (*C.size_t)(len)))
}
func ToStringAtom(L *LuaState, idx int32, atom *int32) string {
return C.GoString(C.lua_tostringatom(L, C.int(idx), (*C.int)(atom)))
}
func NameCallAtom(L *LuaState, atom *int32) string {
return C.GoString(C.lua_namecallatom(L, (*C.int)(atom)))
}
func ObjLen(L *LuaState, idx int32) uint64 {
return uint64(C.lua_objlen(L, C.int(idx)))
}
func ToCFunction(L *LuaState, idx int32) LuaCFunction {
p := unsafe.Pointer(C.lua_tocfunction(L, C.int(idx)))
if p == C.NULL {
return nil
}
return *(*LuaCFunction)(p)
}
func ToLightUserdata(L *LuaState, idx int32) unsafe.Pointer {
return unsafe.Pointer(C.lua_tolightuserdata(L, C.int(idx)))
}
func ToLightUserdataTagged(L *LuaState, idx int32, tag int32) unsafe.Pointer {
return unsafe.Pointer(C.lua_tolightuserdatatagged(L, C.int(idx), C.int(tag)))
}
func ToUserdata(L *LuaState, idx int32) unsafe.Pointer {
return unsafe.Pointer(C.lua_touserdata(L, C.int(idx)))
}
func ToUserdataTagged(L *LuaState, idx int32, tag int32) unsafe.Pointer {
return unsafe.Pointer(C.lua_touserdatatagged(L, C.int(idx), C.int(tag)))
}
func UserdataTag(L *LuaState, idx int32) int32 {
return int32(C.lua_userdatatag(L, C.int(idx)))
}
func LightUserdataTag(L *LuaState, idx int32) int32 {
return int32(C.lua_lightuserdatatag(L, C.int(idx)))
}
func ToThread(L *LuaState, idx int32) *LuaState {
return C.lua_tothread(L, C.int(idx))
}
func ToBuffer(L *LuaState, idx int32, len *uint64) unsafe.Pointer {
return unsafe.Pointer(C.lua_tobuffer(L, C.int(idx), (*C.size_t)(len)))
}
func ToPointer(L *LuaState, idx int32) unsafe.Pointer {
return unsafe.Pointer(C.lua_topointer(L, C.int(idx)))
}
//
// =======================
// Stack Manipulation
// =======================
//
func PushNil(L *LuaState) {
C.lua_pushnil(L)
}
func PushNumber(L *LuaState, n LuaNumber) {
C.lua_pushnumber(L, C.lua_Number(n))
}
func PushInteger(L *LuaState, n LuaInteger) {
C.lua_pushinteger(L, C.lua_Integer(n))
}
func PushUnsigned(L *LuaState, n LuaUnsigned) {
C.lua_pushunsigned(L, C.lua_Unsigned(n))
}
func PushLString(L *LuaState, s string, l uint64) {
cs := C.CString(s)
defer C.free(unsafe.Pointer(cs))
C.lua_pushlstring(L, cs, C.size_t(l))
}
func PushString(L *LuaState, s string) {
cs := C.CString(s)
defer C.free(unsafe.Pointer(cs))
C.lua_pushstring(L, cs)
}
// NOTE: We can't have lua_pushfstringL, since varadic
// arguments from Go->C isn't something that is possible.
// func PushFStringL(L *lua_State, fmt string) {}
func PushCClosureK(L *LuaState, f LuaCFunction, debugname string, nup int32, cont LuaContinuation) {
cdebugname := C.CString(debugname)
defer C.free(unsafe.Pointer(cdebugname))
ccont := C.malloc(C.size_t(unsafe.Sizeof(cont)))
defer C.free(ccont)
if cont == nil {
ccont = C.NULL
} else {
*(*LuaContinuation)(ccont) = cont
}
cf := C.malloc(C.size_t(unsafe.Sizeof(f)))
defer C.free(cf)
*(*LuaCFunction)(cf) = f
C.clua_pushcclosurek(L, cf, cdebugname, C.int(nup), ccont)
}
func PushBoolean(L *LuaState, b bool) {
cb := C.int(0)
if b {
cb = C.int(1)
}
C.lua_pushboolean(L, cb)
}
func PushThread(L *LuaState) bool {
return C.lua_pushthread(L) != 0
}
func PushLightUserdataTagged(L *LuaState, p unsafe.Pointer, tag int32) {
C.lua_pushlightuserdatatagged(L, p, C.int(tag))
}
func NewUserdataTagged(L *LuaState, sz uint64, tag int32) unsafe.Pointer {
return C.lua_newuserdatatagged(L, C.size_t(sz), C.int(tag))
}
func NewUserdataDtor(L *LuaState, sz uint64, dtor LuaUDestructor) unsafe.Pointer {
cdtor := C.malloc(C.size_t(unsafe.Sizeof(dtor)))
defer C.free(cdtor)
*(*LuaUDestructor)(cdtor) = dtor
return C.clua_newuserdatadtor(L, C.size_t(sz), cdtor)
}
func NewBuffer(L *LuaState, sz uint64) unsafe.Pointer {
return C.lua_newbuffer(L, C.size_t(sz))
}
//
// =====================
// Get Functions
// =====================
//
func GetTable(L *LuaState, idx int32) int32 {
return int32(C.lua_gettable(L, C.int(idx)))
}
func GetField(L *LuaState, idx int32, k string) int32 {
ck := C.CString(k)
defer C.free(unsafe.Pointer(ck))
return int32(C.lua_getfield(L, C.int(idx), ck))
}
func RawGetField(L *LuaState, idx int32, k string) int32 {
ck := C.CString(k)
defer C.free(unsafe.Pointer(ck))
return int32(C.lua_rawgetfield(L, C.int(idx), ck))
}
func RawGet(L *LuaState, idx int32) int32 {
return int32(C.lua_rawget(L, C.int(idx)))
}
func RawGetI(L *LuaState, idx int32, n int32) int32 {
return int32(C.lua_rawgeti(L, C.int(idx), C.int(n)))
}
func CreateTable(L *LuaState, narr int32, nrec int32) {
C.lua_createtable(L, C.int(narr), C.int(nrec))
}
func SetReadonly(L *LuaState, idx int32, enabled bool) {
cenabled := C.int(0)
if enabled {
cenabled = C.int(1)
}
C.lua_setreadonly(L, C.int(idx), cenabled)
}
func GetReadonly(L *LuaState, idx int32) bool {
return C.lua_getreadonly(L, C.int(idx)) != 0
}
func SetSafeEnv(L *LuaState, idx int32, enabled bool) {
cenabled := C.int(0)
if enabled {
cenabled = C.int(1)
}
C.lua_setsafeenv(L, C.int(idx), cenabled)
}
func Getfenv(L *LuaState, idx int32) {
C.lua_getfenv(L, C.int(idx))
}
//
// ===================
// Set Functions
// ===================
//
func SetTable(L *LuaState, idx int32) {
C.lua_settable(L, C.int(idx))
}
func SetField(L *LuaState, idx int32, k string) {
ck := C.CString(k)
defer C.free(unsafe.Pointer(ck))
C.lua_setfield(L, C.int(idx), ck)
}
func RawSetI(L *LuaState, idx int32, n int32) {
C.lua_rawseti(L, C.int(idx), C.int(n))
}
func SetMetatable(L *LuaState, objindex int32) int32 {
return int32(C.lua_setmetatable(L, C.int(objindex)))
}
func Setfenv(L *LuaState, idx int32) int32 {
return int32(C.lua_setfenv(L, C.int(idx)))
}
//
// =========================
// Bytecode Functions
// =========================
//
func LuauLoad(L *LuaState, chunkname string, data string, size uint64, env int32) int32 {
cchunkname := C.CString(chunkname)
defer C.free(unsafe.Pointer(cchunkname))
cdata := C.CString(data)
defer C.free(unsafe.Pointer(cdata))
return int32(C.luau_load(L, cchunkname, cdata, C.size_t(size), C.int(env)))
}
func LuaCall(L *LuaState, nargs int32, nresults int32) {
C.lua_call(L, C.int(nargs), C.int(nresults))
}
func LuaPcall(L *LuaState, nargs int32, nresults int32, errfunc int32) int32 {
return int32(C.lua_pcall(L, C.int(nargs), C.int(nresults), C.int(errfunc)))
}
//
// ========================
// Coroutine Functions
// ========================
//
func LuaYield(L *LuaState, nresults int32) int32 {
return int32(C.lua_yield(L, C.int(nresults)))
}
func LuaBreak(L *LuaState) int32 {
return int32(C.lua_break(L))
}
func LuaResume(L *LuaState, from *LuaState, nargs int32) int32 {
return int32(C.lua_resume(L, from, C.int(nargs)))
}
func LuaResumeError(L *LuaState, from *LuaState) int32 {
return int32(C.lua_resumeerror(L, from))
}
func LuaStatus(L *LuaState) int32 {
return int32(C.lua_status(L))
}
func IsYieldable(L *LuaState) bool {
return C.lua_isyieldable(L) != 0
}
func GetThreadData(L *LuaState) unsafe.Pointer {
return C.lua_getthreaddata(L)
}
func SetThreadData(L *LuaState, data unsafe.Pointer) {
C.lua_setthreaddata(L, data)
}
//
// ======================
// Garbage Collection
// ======================
//
const (
LUA_GCSTOP = iota
LUA_GCRESTART
LUA_GCCOLLECT
LUA_GCCOUNT
LUA_GCCOUNTB
LUA_GCISRUNNING
LUA_GCSTEP
LUA_GCSETGOAL
LUA_GCSETSTEPMUL
LUA_GCSETSTEPSIZE
)
func LuaGc(L *LuaState, what int32, data int32) int32 {
return int32(C.lua_gc(L, C.int(what), C.int(data)))
}
//
// ======================
// Memory Statistics
// ======================
//
func SetMemCat(L *LuaState, category int32) {
C.lua_setmemcat(L, C.int(category))
}
func TotalBytes(L *LuaState, category int32) uint64 {
return uint64(C.lua_totalbytes(L, C.int(category)))
}
//
// ================================
// Miscellaneous Functions
// ================================
//
func Error(L *LuaState) {
C.lua_error(L)
}
func Next(L *LuaState, idx int32) int32 {
return int32(C.lua_next(L, C.int(idx)))
}
func RawIter(L *LuaState, idx int32, iter int32) int32 {
return int32(C.lua_rawiter(L, C.int(idx), C.int(iter)))
}
func Concat(L *LuaState, n int32) {
C.lua_concat(L, C.int(n))
}
func Clock() float64 {
return float64(C.lua_clock())
}
func SetUserdataTag(L *LuaState, idx int32, tag int32) {
C.lua_setuserdatatag(L, C.int(idx), C.int(tag))
}
func SetUserdataDtor(L *LuaState, tag int32, dtor LuaDestructor) {
cdtor := C.malloc(C.size_t(unsafe.Sizeof(dtor)))
defer C.free(cdtor)
if dtor == nil {
cdtor = C.NULL
} else {
*(*LuaDestructor)(cdtor) = dtor
}
C.clua_setuserdatadtor(L, C.int(tag), cdtor)
}
func GetUserdataDtor(L *LuaState, tag int32) LuaDestructor {
return *(*LuaDestructor)(unsafe.Pointer(C.lua_getuserdatadtor(L, C.int(tag))))
}
func SetUserdataMetatable(L *LuaState, tag int32, idx int32) {
C.lua_setuserdatametatable(L, C.int(tag), C.int(idx))
}
func GetUserdataMetatable(L *LuaState, tag int32) {
C.lua_getuserdatametatable(L, C.int(tag))
}
func SetLightUserdataName(L *LuaState, tag int32, name string) {
cname := C.CString(name)
defer C.free(unsafe.Pointer(cname))
C.lua_setlightuserdataname(L, C.int(tag), cname)
}
func GetLightUserdataName(L *LuaState, tag int32) string {
return C.GoString(C.lua_getlightuserdataname(L, C.int(tag)))
}
func CloneFunction(L *LuaState, idx int32) {
C.lua_clonefunction(L, C.int(idx))
}
func ClearTable(L *LuaState, idx int32) {
C.lua_cleartable(L, C.int(idx))
}
func GetAllocF(L *LuaState, ud *unsafe.Pointer) LuaAlloc {
return *(*LuaAlloc)(unsafe.Pointer(C.lua_getallocf(L, ud)))
}
//
// ==========================
// Reference System
// ==========================
//
const (
LUA_NOREF = iota - 1
LUA_REFNIL
)
func Ref(L *LuaState, idx int32) int32 {
return int32(C.lua_ref(L, C.int(idx)))
}
func Unref(L *LuaState, ref int32) {
C.lua_unref(L, C.int(ref))
}
// TODO: Free udtor's after func
// TODO: Rest of it