func (state State) goToLuaValue(value reflect.Value) bool { L := state.L gkind := value.Kind() switch gkind { case reflect.Bool: v := value.Bool() if v { C.lua_pushboolean(L, 1) } else { C.lua_pushboolean(L, 0) } return true case reflect.Int, reflect.Int8, reflect.Int16, reflect.Int32, reflect.Int64: v := value.Int() C.lua_pushinteger(L, C.lua_Integer(v)) return true case reflect.Uint, reflect.Uint8, reflect.Uint16, reflect.Uint32, reflect.Uint64: v := value.Uint() C.lua_pushinteger(L, C.lua_Integer(v)) return true // case reflect.Uintptr: case reflect.Float32, reflect.Float64: v := value.Float() C.lua_pushnumber(L, C.lua_Number(v)) return true // case reflect.Array: // case reflect.Complex64, reflect.Complex128: // case reflect.Chan // case reflect.Interface case reflect.Ptr: iv := value.Interface() if v, ok := iv.(ILuaRef); ok { v.PushValue(state) return true } state.pushObjToLua(value.Interface()) return true case reflect.Func, reflect.Map, reflect.Slice: state.pushObjToLua(value.Interface()) return true case reflect.String: v := value.String() pushStringToLua(L, v) return true case reflect.Struct: objPtr := reflect.New(value.Type()) objPtr.Elem().Set(value) state.pushObjToLua(objPtr.Interface()) return true //case reflect.UnsafePointer case reflect.Interface: return state.goToLuaValue(value.Elem()) } C.lua_pushnil(L) return false }
func UnpackToLua(in io.Reader, state State) int { L := state.L var n int = 0 var unpack P.Unpacker msg, err := unpack.Unpack(in) if err != nil { C.lua_pushinteger(L, C.lua_Integer(n)) pushStringToLua(L, fmt.Sprintf("unpack error: %v", err)) return 2 } n = len(msg.Elems) C.lua_pushinteger(L, C.lua_Integer(n)) for _, elem := range msg.Elems { UnpackObjectToLua(state, elem) } return n + 1 }
//export GO_getObjectLength func GO_getObjectLength(_L unsafe.Pointer, ref unsafe.Pointer) (ret int) { L := (*C.lua_State)(_L) node := (*refGo)(ref) // vm := node.vm // state := State{vm, L} v := reflect.ValueOf(node.obj) defer func() { if r := recover(); r != nil { pushStringToLua(L, fmt.Sprintf("%v", r)) ret = -1 } }() n := v.Len() C.lua_pushinteger(L, C.lua_Integer(n)) return 1 }
// luaL_optinteger func (L *State) OptInteger(narg int, d int) int { return int(C.luaL_optinteger(L.s, C.int(narg), C.lua_Integer(d))) }
// lua_pushinteger func (L *State) PushInteger(n int64) { C.lua_pushinteger(L.s, C.lua_Integer(n)) }
// Pushes a number with value n onto the stack. func (s *State) Pushinteger(n int) { C.lua_pushinteger(s.l, C.lua_Integer(n)) }
func (L *State) pushInt(i int64) { C.lua_pushinteger(L.s, C.lua_Integer(i)) }