tile38/vendor/github.com/yuin/gopher-lua/auxlib.go

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package lua
import (
"bufio"
"fmt"
"io"
"os"
"strings"
)
/* checkType {{{ */
func (ls *LState) CheckAny(n int) LValue {
if n > ls.GetTop() {
ls.ArgError(n, "value expected")
}
return ls.Get(n)
}
func (ls *LState) CheckInt(n int) int {
v := ls.Get(n)
if intv, ok := v.(LNumber); ok {
return int(intv)
}
ls.TypeError(n, LTNumber)
return 0
}
func (ls *LState) CheckInt64(n int) int64 {
v := ls.Get(n)
if intv, ok := v.(LNumber); ok {
return int64(intv)
}
ls.TypeError(n, LTNumber)
return 0
}
func (ls *LState) CheckNumber(n int) LNumber {
v := ls.Get(n)
if lv, ok := v.(LNumber); ok {
return lv
}
ls.TypeError(n, LTNumber)
return 0
}
func (ls *LState) CheckString(n int) string {
v := ls.Get(n)
if lv, ok := v.(LString); ok {
return string(lv)
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} else if LVCanConvToString(v) {
return ls.ToString(n)
}
ls.TypeError(n, LTString)
return ""
}
func (ls *LState) CheckBool(n int) bool {
v := ls.Get(n)
if lv, ok := v.(LBool); ok {
return bool(lv)
}
ls.TypeError(n, LTBool)
return false
}
func (ls *LState) CheckTable(n int) *LTable {
v := ls.Get(n)
if lv, ok := v.(*LTable); ok {
return lv
}
ls.TypeError(n, LTTable)
return nil
}
func (ls *LState) CheckFunction(n int) *LFunction {
v := ls.Get(n)
if lv, ok := v.(*LFunction); ok {
return lv
}
ls.TypeError(n, LTFunction)
return nil
}
func (ls *LState) CheckUserData(n int) *LUserData {
v := ls.Get(n)
if lv, ok := v.(*LUserData); ok {
return lv
}
ls.TypeError(n, LTUserData)
return nil
}
func (ls *LState) CheckThread(n int) *LState {
v := ls.Get(n)
if lv, ok := v.(*LState); ok {
return lv
}
ls.TypeError(n, LTThread)
return nil
}
func (ls *LState) CheckType(n int, typ LValueType) {
v := ls.Get(n)
if v.Type() != typ {
ls.TypeError(n, typ)
}
}
func (ls *LState) CheckTypes(n int, typs ...LValueType) {
vt := ls.Get(n).Type()
for _, typ := range typs {
if vt == typ {
return
}
}
buf := []string{}
for _, typ := range typs {
buf = append(buf, typ.String())
}
ls.ArgError(n, strings.Join(buf, " or ")+" expected, got "+ls.Get(n).Type().String())
}
func (ls *LState) CheckOption(n int, options []string) int {
str := ls.CheckString(n)
for i, v := range options {
if v == str {
return i
}
}
ls.ArgError(n, fmt.Sprintf("invalid option: %s (must be one of %s)", str, strings.Join(options, ",")))
return 0
}
/* }}} */
/* optType {{{ */
func (ls *LState) OptInt(n int, d int) int {
v := ls.Get(n)
if v == LNil {
return d
}
if intv, ok := v.(LNumber); ok {
return int(intv)
}
ls.TypeError(n, LTNumber)
return 0
}
func (ls *LState) OptInt64(n int, d int64) int64 {
v := ls.Get(n)
if v == LNil {
return d
}
if intv, ok := v.(LNumber); ok {
return int64(intv)
}
ls.TypeError(n, LTNumber)
return 0
}
func (ls *LState) OptNumber(n int, d LNumber) LNumber {
v := ls.Get(n)
if v == LNil {
return d
}
if lv, ok := v.(LNumber); ok {
return lv
}
ls.TypeError(n, LTNumber)
return 0
}
func (ls *LState) OptString(n int, d string) string {
v := ls.Get(n)
if v == LNil {
return d
}
if lv, ok := v.(LString); ok {
return string(lv)
}
ls.TypeError(n, LTString)
return ""
}
func (ls *LState) OptBool(n int, d bool) bool {
v := ls.Get(n)
if v == LNil {
return d
}
if lv, ok := v.(LBool); ok {
return bool(lv)
}
ls.TypeError(n, LTBool)
return false
}
func (ls *LState) OptTable(n int, d *LTable) *LTable {
v := ls.Get(n)
if v == LNil {
return d
}
if lv, ok := v.(*LTable); ok {
return lv
}
ls.TypeError(n, LTTable)
return nil
}
func (ls *LState) OptFunction(n int, d *LFunction) *LFunction {
v := ls.Get(n)
if v == LNil {
return d
}
if lv, ok := v.(*LFunction); ok {
return lv
}
ls.TypeError(n, LTFunction)
return nil
}
func (ls *LState) OptUserData(n int, d *LUserData) *LUserData {
v := ls.Get(n)
if v == LNil {
return d
}
if lv, ok := v.(*LUserData); ok {
return lv
}
ls.TypeError(n, LTUserData)
return nil
}
/* }}} */
/* error operations {{{ */
func (ls *LState) ArgError(n int, message string) {
ls.RaiseError("bad argument #%v to %v (%v)", n, ls.rawFrameFuncName(ls.currentFrame), message)
}
func (ls *LState) TypeError(n int, typ LValueType) {
ls.RaiseError("bad argument #%v to %v (%v expected, got %v)", n, ls.rawFrameFuncName(ls.currentFrame), typ.String(), ls.Get(n).Type().String())
}
/* }}} */
/* debug operations {{{ */
func (ls *LState) Where(level int) string {
return ls.where(level, false)
}
/* }}} */
/* table operations {{{ */
func (ls *LState) FindTable(obj *LTable, n string, size int) LValue {
names := strings.Split(n, ".")
curobj := obj
for _, name := range names {
if curobj.Type() != LTTable {
return LNil
}
nextobj := ls.RawGet(curobj, LString(name))
if nextobj == LNil {
tb := ls.CreateTable(0, size)
ls.RawSet(curobj, LString(name), tb)
curobj = tb
} else if nextobj.Type() != LTTable {
return LNil
} else {
curobj = nextobj.(*LTable)
}
}
return curobj
}
/* }}} */
/* register operations {{{ */
func (ls *LState) RegisterModule(name string, funcs map[string]LGFunction) LValue {
tb := ls.FindTable(ls.Get(RegistryIndex).(*LTable), "_LOADED", 1)
mod := ls.GetField(tb, name)
if mod.Type() != LTTable {
newmod := ls.FindTable(ls.Get(GlobalsIndex).(*LTable), name, len(funcs))
if newmodtb, ok := newmod.(*LTable); !ok {
ls.RaiseError("name conflict for module(%v)", name)
} else {
for fname, fn := range funcs {
newmodtb.RawSetString(fname, ls.NewFunction(fn))
}
ls.SetField(tb, name, newmodtb)
return newmodtb
}
}
return mod
}
func (ls *LState) SetFuncs(tb *LTable, funcs map[string]LGFunction, upvalues ...LValue) *LTable {
for fname, fn := range funcs {
tb.RawSetString(fname, ls.NewClosure(fn, upvalues...))
}
return tb
}
/* }}} */
/* metatable operations {{{ */
func (ls *LState) NewTypeMetatable(typ string) *LTable {
regtable := ls.Get(RegistryIndex)
mt := ls.GetField(regtable, typ)
if tb, ok := mt.(*LTable); ok {
return tb
}
mtnew := ls.NewTable()
ls.SetField(regtable, typ, mtnew)
return mtnew
}
func (ls *LState) GetMetaField(obj LValue, event string) LValue {
return ls.metaOp1(obj, event)
}
func (ls *LState) GetTypeMetatable(typ string) LValue {
return ls.GetField(ls.Get(RegistryIndex), typ)
}
func (ls *LState) CallMeta(obj LValue, event string) LValue {
op := ls.metaOp1(obj, event)
if op.Type() == LTFunction {
ls.reg.Push(op)
ls.reg.Push(obj)
ls.Call(1, 1)
return ls.reg.Pop()
}
return LNil
}
/* }}} */
/* load and function call operations {{{ */
func (ls *LState) LoadFile(path string) (*LFunction, error) {
var file *os.File
var err error
if len(path) == 0 {
file = os.Stdin
} else {
file, err = os.Open(path)
defer file.Close()
if err != nil {
return nil, newApiErrorE(ApiErrorFile, err)
}
}
reader := bufio.NewReader(file)
// get the first character.
c, err := reader.ReadByte()
if err != nil && err != io.EOF {
return nil, newApiErrorE(ApiErrorFile, err)
}
if c == byte('#') {
// Unix exec. file?
// skip first line
_, err, _ = readBufioLine(reader)
if err != nil {
return nil, newApiErrorE(ApiErrorFile, err)
}
}
if err != io.EOF {
// if the file is not empty,
// unread the first character of the file or newline character(readBufioLine's last byte).
err = reader.UnreadByte()
if err != nil {
return nil, newApiErrorE(ApiErrorFile, err)
}
}
return ls.Load(reader, path)
}
func (ls *LState) LoadString(source string) (*LFunction, error) {
return ls.Load(strings.NewReader(source), "<string>")
}
func (ls *LState) DoFile(path string) error {
if fn, err := ls.LoadFile(path); err != nil {
return err
} else {
ls.Push(fn)
return ls.PCall(0, MultRet, nil)
}
}
func (ls *LState) DoString(source string) error {
if fn, err := ls.LoadString(source); err != nil {
return err
} else {
ls.Push(fn)
return ls.PCall(0, MultRet, nil)
}
}
/* }}} */
/* GopherLua original APIs {{{ */
// ToStringMeta returns string representation of given LValue.
// This method calls the `__tostring` meta method if defined.
func (ls *LState) ToStringMeta(lv LValue) LValue {
if fn, ok := ls.metaOp1(lv, "__tostring").assertFunction(); ok {
ls.Push(fn)
ls.Push(lv)
ls.Call(1, 1)
return ls.reg.Pop()
} else {
return LString(lv.String())
}
}
// Set a module loader to the package.preload table.
func (ls *LState) PreloadModule(name string, loader LGFunction) {
preload := ls.GetField(ls.GetField(ls.Get(EnvironIndex), "package"), "preload")
if _, ok := preload.(*LTable); !ok {
ls.RaiseError("package.preload must be a table")
}
ls.SetField(preload, name, ls.NewFunction(loader))
}
// Checks whether the given index is an LChannel and returns this channel.
func (ls *LState) CheckChannel(n int) chan LValue {
v := ls.Get(n)
if ch, ok := v.(LChannel); ok {
return (chan LValue)(ch)
}
ls.TypeError(n, LTChannel)
return nil
}
// If the given index is a LChannel, returns this channel. If this argument is absent or is nil, returns ch. Otherwise, raises an error.
func (ls *LState) OptChannel(n int, ch chan LValue) chan LValue {
v := ls.Get(n)
if v == LNil {
return ch
}
if ch, ok := v.(LChannel); ok {
return (chan LValue)(ch)
}
ls.TypeError(n, LTChannel)
return nil
}
/* }}} */
//