GopherLua is a Lua5.1 VM and compiler written in Go. GopherLua has a same goal with Lua: Be a scripting language with extensible semantics . It provides Go APIs that allow you to easily embed a scripting language to your Go host programs.
Contents
- Be a scripting language with extensible semantics.
- User-friendly Go API
- The stack based API like the one used in the original Lua implementation will cause a performance improvements in GopherLua (It will reduce memory allocations and concrete type <-> interface conversions). GopherLua API is not the stack based API. GopherLua give preference to the user-friendliness over the performance.
GopherLua is not fast but not too slow, I think.
GopherLua has almost equivalent ( or little bit better ) performance as Python3 on micro benchmarks.
There are some benchmarks on the wiki page .
go get github.com/yuin/gopher-lua
GopherLua supports >= Go1.9.
GopherLua APIs perform in much the same way as Lua, but the stack is used only for passing arguments and receiving returned values.
GopherLua supports channel operations. See "Goroutines" section.
Import a package.
import (
"github.com/somebin/gopher-lua"
)
Run scripts in the VM.
L := lua.NewState()
defer L.Close()
if err := L.DoString(`print("hello")`); err != nil {
panic(err)
}
L := lua.NewState()
defer L.Close()
if err := L.DoFile("hello.lua"); err != nil {
panic(err)
}
Refer to Lua Reference Manual and Go doc for further information.
Note that elements that are not commented in Go doc equivalent to Lua Reference Manual , except GopherLua uses objects instead of Lua stack indices.
All data in a GopherLua program is an LValue
. LValue
is an interface
type that has following methods.
String() string
Type() LValueType
Objects implement an LValue interface are
Type name | Go type | Type() value | Constants |
---|---|---|---|
LNilType |
(constants) | LTNil |
LNil |
LBool |
(constants) | LTBool |
LTrue , LFalse |
LNumber |
float64 | LTNumber |
- |
LString |
string | LTString |
- |
LFunction |
struct pointer | LTFunction |
- |
LUserData |
struct pointer | LTUserData |
- |
LState |
struct pointer | LTThread |
- |
LTable |
struct pointer | LTTable |
- |
LChannel |
chan LValue | LTChannel |
- |
You can test an object type in Go way(type assertion) or using a Type()
value.
lv := L.Get(-1) // get the value at the top of the stack
if str, ok := lv.(lua.LString); ok {
// lv is LString
fmt.Println(string(str))
}
if lv.Type() != lua.LTString {
panic("string required.")
}
lv := L.Get(-1) // get the value at the top of the stack
if tbl, ok := lv.(*lua.LTable); ok {
// lv is LTable
fmt.Println(L.ObjLen(tbl))
}
Note that LBool
, LNumber
, LString
is not a pointer.
To test LNilType
and LBool
, You must use pre-defined constants.
lv := L.Get(-1) // get the value at the top of the stack
if lv == lua.LTrue { // correct
}
if bl, ok := lv.(lua.LBool); ok && bool(bl) { // wrong
}
In Lua, both nil
and false
make a condition false. LVIsFalse
and LVAsBool
implement this specification.
lv := L.Get(-1) // get the value at the top of the stack
if lua.LVIsFalse(lv) { // lv is nil or false
}
if lua.LVAsBool(lv) { // lv is neither nil nor false
}
Objects that based on go structs(LFunction
. LUserData
, LTable
)
have some public methods and fields. You can use these methods and fields for
performance and debugging, but there are some limitations.
- Metatable does not work.
- No error handlings.
Size of the callstack & registry is fixed for mainly performance. You can change the default size of the callstack & registry.
lua.RegistrySize = 1024 * 20
lua.CallStackSize = 1024
L := lua.NewState()
defer L.Close()
You can also create an LState object that has the callstack & registry size specified by Options
.
L := lua.NewState(lua.Options{
CallStackSize: 120,
RegistrySize: 120*20,
})
An LState object that has been created by *LState#NewThread()
inherits the callstack & registry size from the parent LState object.
- Options.SkipOpenLibs bool(default false)
- By default, GopherLua opens all built-in libraries when new LState is created.
- You can skip this behaviour by setting this to
true
. - Using the various OpenXXX(L *LState) int functions you can open only those libraries that you require, for an example see below.
- Options.IncludeGoStackTrace bool(default false)
- By default, GopherLua does not show Go stack traces when panics occur.
- You can get Go stack traces by setting this to
true
.
Refer to Lua Reference Manual and Go doc(LState methods) for further information.
func Double(L *lua.LState) int {
lv := L.ToInt(1) /* get argument */
L.Push(lua.LNumber(lv * 2)) /* push result */
return 1 /* number of results */
}
func main() {
L := lua.NewState()
defer L.Close()
L.SetGlobal("double", L.NewFunction(Double)) /* Original lua_setglobal uses stack... */
}
print(double(20)) -- > "40"
Any function registered with GopherLua is a lua.LGFunction
, defined in value.go
type LGFunction func(*LState) int
Working with coroutines.
co, _ := L.NewThread() /* create a new thread */
fn := L.GetGlobal("coro").(*lua.LFunction) /* get function from lua */
for {
st, err, values := L.Resume(co, fn)
if st == lua.ResumeError {
fmt.Println("yield break(error)")
fmt.Println(err.Error())
break
}
for i, lv := range values {
fmt.Printf("%v : %v\n", i, lv)
}
if st == lua.ResumeOK {
fmt.Println("yield break(ok)")
break
}
}
The following demonstrates how to open a subset of the built-in modules in Lua, say for example to avoid enabling modules with access to local files or system calls.
main.go
func main() {
L := lua.NewState(lua.Options{SkipOpenLibs: true})
defer L.Close()
for _, pair := range []struct {
n string
f lua.LGFunction
}{
{lua.LoadLibName, lua.OpenPackage}, // Must be first
{lua.BaseLibName, lua.OpenBase},
{lua.TabLibName, lua.OpenTable},
} {
if err := L.CallByParam(lua.P{
Fn: L.NewFunction(pair.f),
NRet: 0,
Protect: true,
}, lua.LString(pair.n)); err != nil {
panic(err)
}
}
if err := L.DoFile("main.lua"); err != nil {
panic(err)
}
}
mymodule.go
package mymodule
import (
"github.com/somebin/gopher-lua"
)
func Loader(L *lua.LState) int {
// register functions to the table
mod := L.SetFuncs(L.NewTable(), exports)
// register other stuff
L.SetField(mod, "name", lua.LString("value"))
// returns the module
L.Push(mod)
return 1
}
var exports = map[string]lua.LGFunction{
"myfunc": myfunc,
}
func myfunc(L *lua.LState) int {
return 0
}
mymain.go
package main
import (
"./mymodule"
"github.com/somebin/gopher-lua"
)
func main() {
L := lua.NewState()
defer L.Close()
L.PreloadModule("mymodule", mymodule.Loader)
if err := L.DoFile("main.lua"); err != nil {
panic(err)
}
}
main.lua
local m = require("mymodule")
m.myfunc()
print(m.name)
L := lua.NewState()
defer L.Close()
if err := L.DoFile("double.lua"); err != nil {
panic(err)
}
if err := L.CallByParam(lua.P{
Fn: L.GetGlobal("double"),
NRet: 1,
Protect: true,
}, lua.LNumber(10)); err != nil {
panic(err)
}
ret := L.Get(-1) // returned value
L.Pop(1) // remove received value
If Protect
is false, GopherLua will panic instead of returning an error
value.
You can extend GopherLua with new types written in Go.
LUserData
is provided for this purpose.
type Person struct {
Name string
}
const luaPersonTypeName = "person"
// Registers my person type to given L.
func registerPersonType(L *lua.LState) {
mt := L.NewTypeMetatable(luaPersonTypeName)
L.SetGlobal("person", mt)
// static attributes
L.SetField(mt, "new", L.NewFunction(newPerson))
// methods
L.SetField(mt, "__index", L.SetFuncs(L.NewTable(), personMethods))
}
// Constructor
func newPerson(L *lua.LState) int {
person := &Person{L.CheckString(1)}
ud := L.NewUserData()
ud.Value = person
L.SetMetatable(ud, L.GetTypeMetatable(luaPersonTypeName))
L.Push(ud)
return 1
}
// Checks whether the first lua argument is a *LUserData with *Person and returns this *Person.
func checkPerson(L *lua.LState) *Person {
ud := L.CheckUserData(1)
if v, ok := ud.Value.(*Person); ok {
return v
}
L.ArgError(1, "person expected")
return nil
}
var personMethods = map[string]lua.LGFunction{
"name": personGetSetName,
}
// Getter and setter for the Person#Name
func personGetSetName(L *lua.LState) int {
p := checkPerson(L)
if L.GetTop() == 2 {
p.Name = L.CheckString(2)
return 0
}
L.Push(lua.LString(p.Name))
return 1
}
func main() {
L := lua.NewState()
defer L.Close()
registerPersonType(L)
if err := L.DoString(`
p = person.new("Steeve")
print(p:name()) -- "Steeve"
p:name("Alice")
print(p:name()) -- "Alice"
`); err != nil {
panic(err)
}
}
GopherLua supports the Go Concurrency Patterns: Context .
L := lua.NewState()
defer L.Close()
ctx, cancel := context.WithTimeout(context.Background(), 1*time.Second)
defer cancel()
// set the context to our LState
L.SetContext(ctx)
err := L.DoString(`
local clock = os.clock
function sleep(n) -- seconds
local t0 = clock()
while clock() - t0 <= n do end
end
sleep(3)
`)
// err.Error() contains "context deadline exceeded"
With coroutines
L := lua.NewState()
defer L.Close()
ctx, cancel := context.WithCancel(context.Background())
L.SetContext(ctx)
defer cancel()
L.DoString(`
function coro()
local i = 0
while true do
coroutine.yield(i)
i = i+1
end
return i
end
`)
co, cocancel := L.NewThread()
defer cocancel()
fn := L.GetGlobal("coro").(*LFunction)
_, err, values := L.Resume(co, fn) // err is nil
cancel() // cancel the parent context
_, err, values = L.Resume(co, fn) // err is NOT nil : child context was canceled
Note that using a context causes performance degradation.
time ./glua-with-context.exe fib.lua 9227465 0.01s user 0.11s system 1% cpu 7.505 total time ./glua-without-context.exe fib.lua 9227465 0.01s user 0.01s system 0% cpu 5.306 total
Calling DoFile
will load a Lua script, compile it to byte code and run the byte code in a LState
.
If you have multiple LStates
which are all required to run the same script, you can share the byte code between them,
which will save on memory.
Sharing byte code is safe as it is read only and cannot be altered by lua scripts.
// CompileLua reads the passed lua file from disk and compiles it.
func CompileLua(filePath string) (*lua.FunctionProto, error) {
file, err := os.Open(filePath)
defer file.Close()
if err != nil {
return nil, err
}
reader := bufio.NewReader(file)
chunk, err := parse.Parse(reader, filePath)
if err != nil {
return nil, err
}
proto, err := lua.Compile(chunk, filePath)
if err != nil {
return nil, err
}
return proto, nil
}
// DoCompiledFile takes a FunctionProto, as returned by CompileLua, and runs it in the LState. It is equivalent
// to calling DoFile on the LState with the original source file.
func DoCompiledFile(L *lua.LState, proto *lua.FunctionProto) error {
lfunc := &L.NewFunctionFromProto(proto)
L.Push(lfunc)
return L.PCall(0, lua.MultRet, nil)
}
// Example shows how to share the compiled byte code from a lua script between multiple VMs.
func Example() {
codeToShare := CompileLua("mylua.lua")
a := lua.NewState()
b := lua.NewState()
c := lua.NewState()
DoCompiledFile(a, codeToShare)
DoCompiledFile(b, codeToShare)
DoCompiledFile(c, codeToShare)
}
The LState
is not goroutine-safe. It is recommended to use one LState per goroutine and communicate between goroutines by using channels.
Channels are represented by channel
objects in GopherLua. And a channel
table provides functions for performing channel operations.
Some objects can not be sent over channels due to having non-goroutine-safe objects inside itself.
- a thread(state)
- a function
- an userdata
- a table with a metatable
You must not send these objects from Go APIs to channels.
func receiver(ch, quit chan lua.LValue) {
L := lua.NewState()
defer L.Close()
L.SetGlobal("ch", lua.LChannel(ch))
L.SetGlobal("quit", lua.LChannel(quit))
if err := L.DoString(`
local exit = false
while not exit do
channel.select(
{"|<-", ch, function(ok, v)
if not ok then
print("channel closed")
exit = true
else
print("received:", v)
end
end},
{"|<-", quit, function(ok, v)
print("quit")
exit = true
end}
)
end
`); err != nil {
panic(err)
}
}
func sender(ch, quit chan lua.LValue) {
L := lua.NewState()
defer L.Close()
L.SetGlobal("ch", lua.LChannel(ch))
L.SetGlobal("quit", lua.LChannel(quit))
if err := L.DoString(`
ch:send("1")
ch:send("2")
`); err != nil {
panic(err)
}
ch <- lua.LString("3")
quit <- lua.LTrue
}
func main() {
ch := make(chan lua.LValue)
quit := make(chan lua.LValue)
go receiver(ch, quit)
go sender(ch, quit)
time.Sleep(3 * time.Second)
}
ToChannel
, CheckChannel
, OptChannel
are available.
Refer to Go doc(LState methods) for further information.
- channel.make([buf:int]) -> ch:channel
- Create new channel that has a buffer size of
buf
. By default,buf
is 0.
- Create new channel that has a buffer size of
- channel.select(case:table [, case:table, case:table ...]) -> {index:int, recv:any, ok}
- Same as the
select
statement in Go. It returns the index of the chosen case and, if that case was a receive operation, the value received and a boolean indicating whether the channel has been closed. case
is a table that outlined below.- receiving: {"|<-", ch:channel [, handler:func(ok, data:any)]}
- sending: {"<-|", ch:channel, data:any [, handler:func(data:any)]}
- default: {"default" [, handler:func()]}
- Same as the
channel.select
examples:
local idx, recv, ok = channel.select(
{"|<-", ch1},
{"|<-", ch2}
)
if not ok then
print("closed")
elseif idx == 1 then -- received from ch1
print(recv)
elseif idx == 2 then -- received from ch2
print(recv)
end
channel.select(
{"|<-", ch1, function(ok, data)
print(ok, data)
end},
{"<-|", ch2, "value", function(data)
print(data)
end},
{"default", function()
print("default action")
end}
)
- channel:send(data:any)
- Send
data
over the channel.
- Send
- channel:receive() -> ok:bool, data:any
- Receive some data over the channel.
- channel:close()
- Close the channel.
To create per-thread LState instances, You can use the sync.Pool
like mechanism.
type lStatePool struct {
m sync.Mutex
saved []*lua.LState
}
func (pl *lStatePool) Get() *lua.LState {
pl.m.Lock()
defer pl.m.Unlock()
n := len(pl.saved)
if n == 0 {
return pl.New()
}
x := pl.saved[n-1]
pl.saved = pl.saved[0 : n-1]
return x
}
func (pl *lStatePool) New() *lua.LState {
L := lua.NewState()
// setting the L up here.
// load scripts, set global variables, share channels, etc...
return L
}
func (pl *lStatePool) Put(L *lua.LState) {
pl.m.Lock()
defer pl.m.Unlock()
pl.saved = append(pl.saved, L)
}
func (pl *lStatePool) Shutdown() {
for _, L := range pl.saved {
L.Close()
}
}
// Global LState pool
var luaPool = &lStatePool{
saved: make([]*lua.LState, 0, 4),
}
Now, you can get per-thread LState objects from the luaPool
.
func MyWorker() {
L := luaPool.Get()
defer luaPool.Put(L)
/* your code here */
}
func main() {
defer luaPool.Shutdown()
go MyWorker()
go MyWorker()
/* etc... */
}
- GopherLua supports channel operations.
- GopherLua has a type named
channel
. - The
channel
table provides functions for performing channel operations.
- GopherLua has a type named
string.dump
os.setlocale
lua_Debug.namewhat
package.loadlib
- debug hooks
collectgarbage
does not take any arguments and runs the garbage collector for the entire Go program.file:setvbuf
does not support a line buffering.- Daylight saving time is not supported.
- GopherLua has a function to set an environment variable :
os.setenv(name, value)
Lua has an interpreter called lua
. GopherLua has an interpreter called glua
.
go get github.com/somebin/gopher-lua/cmd/glua
glua
has same options as lua
.
See Guidlines for contributors .
- gopher-luar : Simplifies data passing to and from gopher-lua
- gluamapper : Mapping a Lua table to a Go struct
- gluare : Regular expressions for gopher-lua
- gluahttp : HTTP request module for gopher-lua
- gopher-json : A simple JSON encoder/decoder for gopher-lua
- gluayaml : Yaml parser for gopher-lua
- glua-lfs : Partially implements the luafilesystem module for gopher-lua
- gluaurl : A url parser/builder module for gopher-lua
- gluahttpscrape : A simple HTML scraper module for gopher-lua
- gluaxmlpath : An xmlpath module for gopher-lua
- gluasocket : A LuaSocket library for the GopherLua VM
- gluabit32 : A native Go implementation of bit32 for the GopherLua VM.
- gmoonscript : Moonscript Compiler for the Gopher Lua VM
- loguago : Zerolog wrapper for Gopher-Lua
BTC: 1NEDSyUmo4SMTDP83JJQSWi1MvQUGGNMZB
MIT
Yusuke Inuzuka