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|
use std::any::TypeId;
use std::cell::{RefCell, UnsafeCell};
use std::collections::HashMap;
use std::ffi::CString;
use std::marker::PhantomData;
use std::os::raw::{c_char, c_int, c_void};
use std::sync::{Arc, Mutex, Weak};
use std::{mem, ptr, str};
use crate::error::{Error, Result};
use crate::ffi;
use crate::function::Function;
use crate::scope::Scope;
use crate::stdlib::StdLib;
use crate::string::String;
use crate::table::Table;
use crate::thread::Thread;
use crate::types::{
Callback, HookCallback, Integer, LightUserData, LuaRef, MaybeSend, Number, RegistryKey,
};
use crate::userdata::{AnyUserData, MetaMethod, UserData, UserDataMethods};
use crate::util::{
assert_stack, callback_error, check_stack, get_gc_userdata, get_main_state,
get_meta_gc_userdata, get_wrapped_error, init_error_registry, init_gc_metatable_for,
init_userdata_metatable, pop_error, protect_lua, protect_lua_closure, push_gc_userdata,
push_meta_gc_userdata, push_string, push_userdata, push_wrapped_error, StackGuard,
};
use crate::value::{FromLua, FromLuaMulti, MultiValue, Nil, ToLua, ToLuaMulti, Value};
#[cfg(any(
feature = "lua54",
feature = "lua53",
feature = "lua52",
feature = "lua51",
doc
))]
use crate::hook::{hook_proc, Debug, HookTriggers};
#[cfg(feature = "async")]
use {
crate::types::AsyncCallback,
futures_core::{
future::{Future, LocalBoxFuture},
task::{Context, Poll, Waker},
},
futures_task::noop_waker,
futures_util::future::{self, TryFutureExt},
};
/// Top level Lua struct which holds the Lua state itself.
pub struct Lua {
pub(crate) state: *mut ffi::lua_State,
main_state: Option<*mut ffi::lua_State>,
extra: Arc<Mutex<ExtraData>>,
ephemeral: bool,
safe: bool,
// Lua has lots of interior mutability, should not be RefUnwindSafe
_no_ref_unwind_safe: PhantomData<UnsafeCell<()>>,
}
// Data associated with the lua_State.
struct ExtraData {
registered_userdata: HashMap<TypeId, c_int>,
registry_unref_list: Arc<Mutex<Option<Vec<c_int>>>>,
mem_info: *mut MemoryInfo,
ref_thread: *mut ffi::lua_State,
ref_stack_size: c_int,
ref_stack_max: c_int,
ref_free: Vec<c_int>,
hook_callback: Option<HookCallback>,
}
#[cfg_attr(any(feature = "lua51", feature = "luajit"), allow(dead_code))]
struct MemoryInfo {
used_memory: isize,
memory_limit: isize,
}
/// Mode of the Lua garbage collector (GC).
///
/// In Lua 5.4 GC can work in two modes: incremental and generational.
/// Previous Lua versions support only incremental GC.
///
/// More information can be found in the Lua 5.x [documentation][lua_doc].
///
/// [lua_doc]: https://www.lua.org/manual/5.4/manual.html#2.5
pub enum GCMode {
Incremental,
/// Requires `feature = "lua54"`
#[cfg(any(feature = "lua54", doc))]
Generational,
}
#[cfg(feature = "async")]
pub(crate) struct AsyncPollPending;
#[cfg(feature = "async")]
pub(crate) static WAKER_REGISTRY_KEY: u8 = 0;
pub(crate) static EXTRA_REGISTRY_KEY: u8 = 0;
/// Requires `feature = "send"`
#[cfg(feature = "send")]
unsafe impl Send for Lua {}
impl Drop for Lua {
fn drop(&mut self) {
unsafe {
if !self.ephemeral {
let mut extra = mlua_expect!(self.extra.lock(), "extra is poisoned");
mlua_debug_assert!(
ffi::lua_gettop(extra.ref_thread) == extra.ref_stack_max
&& extra.ref_stack_max as usize == extra.ref_free.len(),
"reference leak detected"
);
*mlua_expect!(extra.registry_unref_list.lock(), "unref list poisoned") = None;
ffi::lua_close(self.main_state.expect("main_state is null"));
if !extra.mem_info.is_null() {
Box::from_raw(extra.mem_info);
}
}
}
}
}
impl Lua {
/// Creates a new Lua state and loads the safe subset of the standard libraries.
///
/// # Safety
/// The created Lua state would have _some_ safety guarantees and would not allow to load unsafe
/// standard libraries or C modules.
#[allow(clippy::new_without_default)]
pub fn new() -> Lua {
mlua_expect!(
Self::new_with(StdLib::ALL_SAFE),
"can't create new safe Lua state"
)
}
/// Creates a new Lua state and loads all the standard libraries.
///
/// # Safety
/// The created Lua state would not have safety guarantees and would allow to load C modules.
pub unsafe fn unsafe_new() -> Lua {
Self::unsafe_new_with(StdLib::ALL)
}
/// Creates a new Lua state and loads the specified safe subset of the standard libraries.
///
/// Use the [`StdLib`] flags to specifiy the libraries you want to load.
///
/// # Safety
/// The created Lua state would have _some_ safety guarantees and would not allow to load unsafe
/// standard libraries or C modules.
///
/// [`StdLib`]: struct.StdLib.html
pub fn new_with(libs: StdLib) -> Result<Lua> {
if libs.contains(StdLib::DEBUG) {
return Err(Error::SafetyError(
"the unsafe `debug` module can't be loaded using safe `new_with`".to_string(),
));
}
#[cfg(feature = "luajit")]
{
if libs.contains(StdLib::FFI) {
return Err(Error::SafetyError(
"the unsafe `ffi` module can't be loaded using safe `new_with`".to_string(),
));
}
}
let mut lua = unsafe { Self::unsafe_new_with(libs) };
mlua_expect!(lua.disable_c_modules(), "Error during disabling C modules");
lua.safe = true;
Ok(lua)
}
/// Creates a new Lua state and loads the specified subset of the standard libraries.
///
/// Use the [`StdLib`] flags to specifiy the libraries you want to load.
///
/// # Safety
/// The created Lua state would not have safety guarantees and would allow to load C modules.
///
/// [`StdLib`]: struct.StdLib.html
pub unsafe fn unsafe_new_with(libs: StdLib) -> Lua {
#[cfg_attr(any(feature = "lua51", feature = "luajit"), allow(dead_code))]
unsafe extern "C" fn allocator(
extra_data: *mut c_void,
ptr: *mut c_void,
osize: usize,
nsize: usize,
) -> *mut c_void {
use std::alloc;
let mem_info = &mut *(extra_data as *mut MemoryInfo);
if nsize == 0 {
// Free memory
if !ptr.is_null() {
let layout =
alloc::Layout::from_size_align_unchecked(osize, ffi::SYS_MIN_ALIGN);
alloc::dealloc(ptr as *mut u8, layout);
mem_info.used_memory -= osize as isize;
}
return ptr::null_mut();
}
// Are we fit to the memory limits?
let mut mem_diff = nsize as isize;
if !ptr.is_null() {
mem_diff -= osize as isize;
}
let new_used_memory = mem_info.used_memory + mem_diff;
if mem_info.memory_limit > 0 && new_used_memory > mem_info.memory_limit {
return ptr::null_mut();
}
let new_layout = alloc::Layout::from_size_align_unchecked(nsize, ffi::SYS_MIN_ALIGN);
if ptr.is_null() {
// Allocate new memory
let new_ptr = alloc::alloc(new_layout) as *mut c_void;
if !new_ptr.is_null() {
mem_info.used_memory += mem_diff;
}
return new_ptr;
}
// Reallocate memory
let old_layout = alloc::Layout::from_size_align_unchecked(osize, ffi::SYS_MIN_ALIGN);
let new_ptr = alloc::realloc(ptr as *mut u8, old_layout, nsize) as *mut c_void;
if !new_ptr.is_null() {
mem_info.used_memory += mem_diff;
} else if !ptr.is_null() && nsize < osize {
// Should not happend
alloc::handle_alloc_error(new_layout);
}
new_ptr
}
#[cfg(any(feature = "lua54", feature = "lua53", feature = "lua52"))]
let mem_info = Box::into_raw(Box::new(MemoryInfo {
used_memory: 0,
memory_limit: 0,
}));
#[cfg(any(feature = "lua54", feature = "lua53", feature = "lua52"))]
let state = ffi::lua_newstate(allocator, mem_info as *mut c_void);
#[cfg(any(feature = "lua51", feature = "luajit"))]
let state = ffi::luaL_newstate();
ffi::luaL_requiref(state, cstr!("_G"), ffi::luaopen_base, 1);
ffi::lua_pop(state, 1);
let mut lua = Lua::init_from_ptr(state);
lua.ephemeral = false;
#[cfg(any(feature = "lua54", feature = "lua53", feature = "lua52"))]
{
lua.extra.lock().unwrap().mem_info = mem_info;
}
mlua_expect!(
protect_lua_closure(lua.main_state.expect("main_state is null"), 0, 0, |state| {
load_from_std_lib(state, libs);
}),
"Error during loading standard libraries"
);
lua
}
/// Constructs a new Lua instance from an existing raw state.
#[allow(clippy::missing_safety_doc)]
pub unsafe fn init_from_ptr(state: *mut ffi::lua_State) -> Lua {
let maybe_main_state = get_main_state(state);
let main_state = maybe_main_state.unwrap_or(state);
let main_state_top = ffi::lua_gettop(main_state);
let ref_thread = mlua_expect!(
protect_lua_closure(main_state, 0, 0, |state| {
init_error_registry(state);
// Create the internal metatables and place them in the registry
// to prevent them from being garbage collected.
init_gc_metatable_for::<Callback>(state, None);
init_gc_metatable_for::<Lua>(state, None);
init_gc_metatable_for::<Weak<Mutex<ExtraData>>>(state, None);
#[cfg(feature = "async")]
{
init_gc_metatable_for::<AsyncCallback>(state, None);
init_gc_metatable_for::<LocalBoxFuture<Result<MultiValue>>>(state, None);
init_gc_metatable_for::<AsyncPollPending>(state, None);
init_gc_metatable_for::<Waker>(state, None);
}
// Create ref stack thread and place it in the registry to prevent it from being garbage
// collected.
let _ref_thread = ffi::lua_newthread(state);
ffi::luaL_ref(state, ffi::LUA_REGISTRYINDEX);
_ref_thread
}),
"Error during Lua construction",
);
// Create ExtraData
let extra = Arc::new(Mutex::new(ExtraData {
registered_userdata: HashMap::new(),
registry_unref_list: Arc::new(Mutex::new(Some(Vec::new()))),
ref_thread,
mem_info: ptr::null_mut(),
// We need 1 extra stack space to move values in and out of the ref stack.
ref_stack_size: ffi::LUA_MINSTACK - 1,
ref_stack_max: 0,
ref_free: Vec::new(),
hook_callback: None,
}));
mlua_expect!(
push_gc_userdata(main_state, Arc::downgrade(&extra)),
"Error while storing extra data",
);
mlua_expect!(
protect_lua_closure(main_state, 1, 0, |state| {
ffi::lua_rawsetp(
state,
ffi::LUA_REGISTRYINDEX,
&EXTRA_REGISTRY_KEY as *const u8 as *mut c_void,
);
}),
"Error while storing extra data"
);
mlua_debug_assert!(
ffi::lua_gettop(main_state) == main_state_top,
"stack leak during creation"
);
assert_stack(main_state, ffi::LUA_MINSTACK);
Lua {
state,
main_state: maybe_main_state,
extra,
ephemeral: true,
safe: false,
_no_ref_unwind_safe: PhantomData,
}
}
/// Loads the specified subset of the standard libraries into an existing Lua state.
///
/// Use the [`StdLib`] flags to specifiy the libraries you want to load.
///
/// [`StdLib`]: struct.StdLib.html
pub fn load_from_std_lib(&self, libs: StdLib) -> Result<()> {
if self.safe && libs.contains(StdLib::DEBUG) {
return Err(Error::SafetyError(
"the unsafe `debug` module can't be loaded in safe mode".to_string(),
));
}
#[cfg(feature = "luajit")]
{
if self.safe && libs.contains(StdLib::FFI) {
return Err(Error::SafetyError(
"the unsafe `ffi` module can't be loaded in safe mode".to_string(),
));
}
}
let state = self.main_state.unwrap_or(self.state);
unsafe {
protect_lua_closure(state, 0, 0, |state| {
load_from_std_lib(state, libs);
})
}
}
/// Consumes and leaks `Lua` object, returning a static reference `&'static Lua`.
///
/// This function is useful when the `Lua` object is supposed to live for the remainder
/// of the program's life.
/// In particular in asynchronous context this will allow to spawn Lua tasks to execute
/// in background.
///
/// Dropping the returned reference will cause a memory leak. If this is not acceptable,
/// the reference should first be wrapped with the [`Lua::from_static`] function producing a `Lua`.
/// This `Lua` object can then be dropped which will properly release the allocated memory.
///
/// [`Lua::from_static`]: #method.from_static
pub fn into_static(self) -> &'static Self {
Box::leak(Box::new(self))
}
/// Constructs a `Lua` from a static reference to it.
///
/// # Safety
/// This function is unsafe because improper use may lead to memory problems or undefined behavior.
pub unsafe fn from_static(lua: &'static Lua) -> Self {
*Box::from_raw(lua as *const Lua as *mut Lua)
}
// Executes module entrypoint function, which returns only one Value.
// The returned value then pushed to the Lua stack.
#[doc(hidden)]
pub fn entrypoint1<'lua, 'callback, R, F>(&'lua self, func: F) -> Result<c_int>
where
'lua: 'callback,
R: ToLua<'callback>,
F: 'static + MaybeSend + Fn(&'callback Lua) -> Result<R>,
{
let cb = self.create_callback(Box::new(move |lua, _| func(lua)?.to_lua_multi(lua)))?;
unsafe { self.push_value(cb.call(())?).map(|_| 1) }
}
/// Sets a 'hook' function that will periodically be called as Lua code executes.
///
/// When exactly the hook function is called depends on the contents of the `triggers`
/// parameter, see [`HookTriggers`] for more details.
///
/// The provided hook function can error, and this error will be propagated through the Lua code
/// that was executing at the time the hook was triggered. This can be used to implement a
/// limited form of execution limits by setting [`HookTriggers.every_nth_instruction`] and
/// erroring once an instruction limit has been reached.
///
/// Requires `feature = "lua54/lua53/lua52/lua51"`
///
/// # Example
///
/// Shows each line number of code being executed by the Lua interpreter.
///
/// ```
/// # #[cfg(any(feature = "lua54", feature = "lua53", feature = "lua52", feature = "lua51"))]
/// # use mlua::{Lua, HookTriggers, Result};
/// # #[cfg(any(feature = "lua54", feature = "lua53", feature = "lua52", feature = "lua51"))]
/// # fn main() -> Result<()> {
/// let lua = Lua::new();
/// lua.set_hook(HookTriggers {
/// every_line: true, ..Default::default()
/// }, |_lua, debug| {
/// println!("line {}", debug.curr_line());
/// Ok(())
/// })?;
///
/// lua.load(r#"
/// local x = 2 + 3
/// local y = x * 63
/// local z = string.len(x..", "..y)
/// "#).exec()
/// # }
///
/// # #[cfg(not(any(feature = "lua54", feature = "lua53", feature = "lua52", feature = "lua51")))]
/// # fn main() {}
/// ```
///
/// [`HookTriggers`]: struct.HookTriggers.html
/// [`HookTriggers.every_nth_instruction`]: struct.HookTriggers.html#field.every_nth_instruction
#[cfg(any(
feature = "lua54",
feature = "lua53",
feature = "lua52",
feature = "lua51",
doc
))]
pub fn set_hook<F>(&self, triggers: HookTriggers, callback: F) -> Result<()>
where
F: 'static + MaybeSend + FnMut(&Lua, Debug) -> Result<()>,
{
let state = self.main_state.ok_or(Error::MainThreadNotAvailable)?;
unsafe {
let mut extra = mlua_expect!(self.extra.lock(), "extra is poisoned");
extra.hook_callback = Some(Arc::new(RefCell::new(callback)));
ffi::lua_sethook(state, Some(hook_proc), triggers.mask(), triggers.count());
}
Ok(())
}
/// Remove any hook previously set by `set_hook`. This function has no effect if a hook was not
/// previously set.
///
/// Requires `feature = "lua54/lua53/lua52/lua51"`
#[cfg(any(
feature = "lua54",
feature = "lua53",
feature = "lua52",
feature = "lua51",
doc
))]
pub fn remove_hook(&self) {
// If main_state is not available, then sethook wasn't called.
let state = match self.main_state {
Some(state) => state,
None => return,
};
let mut extra = mlua_expect!(self.extra.lock(), "extra is poisoned");
unsafe {
extra.hook_callback = None;
ffi::lua_sethook(state, None, 0, 0);
}
}
/// Returns the amount of memory (in bytes) currently used inside this Lua state.
pub fn used_memory(&self) -> usize {
let extra = mlua_expect!(self.extra.lock(), "extra is poisoned");
let state = self.main_state.unwrap_or(self.state);
if extra.mem_info.is_null() {
// Get data from the Lua GC
unsafe {
let used_kbytes = ffi::lua_gc(state, ffi::LUA_GCCOUNT, 0);
let used_kbytes_rem = ffi::lua_gc(state, ffi::LUA_GCCOUNTB, 0);
return (used_kbytes as usize) * 1024 + (used_kbytes_rem as usize);
}
}
unsafe { (*extra.mem_info).used_memory as usize }
}
/// Sets a memory limit on this Lua state.
///
/// Once an allocation occurs that would pass this memory limit,
/// a `Error::MemoryError` is generated instead.
/// Returns previous limit (zero means no limit).
///
/// Does not work on module mode where Lua state is managed externally.
///
/// Requires `feature = "lua54/lua53/lua52"`
#[cfg(any(feature = "lua54", feature = "lua53", feature = "lua52", doc))]
pub fn set_memory_limit(&self, memory_limit: usize) -> Result<usize> {
let mut extra = mlua_expect!(self.extra.lock(), "extra is poisoned");
if extra.mem_info.is_null() {
return Err(Error::MemoryLimitNotAvailable);
}
unsafe {
let prev_limit = (*extra.mem_info).memory_limit as usize;
(*extra.mem_info).memory_limit = memory_limit as isize;
Ok(prev_limit)
}
}
/// Returns true if the garbage collector is currently running automatically.
///
/// Requires `feature = "lua54/lua53/lua52"`
#[cfg(any(feature = "lua54", feature = "lua53", feature = "lua52", doc))]
pub fn gc_is_running(&self) -> bool {
let state = self.main_state.unwrap_or(self.state);
unsafe { ffi::lua_gc(state, ffi::LUA_GCISRUNNING, 0) != 0 }
}
/// Stop the Lua GC from running
pub fn gc_stop(&self) {
let state = self.main_state.unwrap_or(self.state);
unsafe { ffi::lua_gc(state, ffi::LUA_GCSTOP, 0) };
}
/// Restarts the Lua GC if it is not running
pub fn gc_restart(&self) {
let state = self.main_state.unwrap_or(self.state);
unsafe { ffi::lua_gc(state, ffi::LUA_GCRESTART, 0) };
}
/// Perform a full garbage-collection cycle.
///
/// It may be necessary to call this function twice to collect all currently unreachable
/// objects. Once to finish the current gc cycle, and once to start and finish the next cycle.
pub fn gc_collect(&self) -> Result<()> {
let state = self.main_state.unwrap_or(self.state);
unsafe {
protect_lua_closure(state, 0, 0, |state| {
ffi::lua_gc(state, ffi::LUA_GCCOLLECT, 0);
})
}
}
/// Steps the garbage collector one indivisible step.
///
/// Returns true if this has finished a collection cycle.
pub fn gc_step(&self) -> Result<bool> {
self.gc_step_kbytes(0)
}
/// Steps the garbage collector as though memory had been allocated.
///
/// if `kbytes` is 0, then this is the same as calling `gc_step`. Returns true if this step has
/// finished a collection cycle.
pub fn gc_step_kbytes(&self, kbytes: c_int) -> Result<bool> {
let state = self.main_state.unwrap_or(self.state);
unsafe {
protect_lua_closure(state, 0, 0, |state| {
ffi::lua_gc(state, ffi::LUA_GCSTEP, kbytes) != 0
})
}
}
/// Sets the 'pause' value of the collector.
///
/// Returns the previous value of 'pause'. More information can be found in the [Lua 5.3
/// documentation][lua_doc].
///
/// [lua_doc]: https://www.lua.org/manual/5.3/manual.html#2.5
pub fn gc_set_pause(&self, pause: c_int) -> c_int {
let state = self.main_state.unwrap_or(self.state);
unsafe { ffi::lua_gc(state, ffi::LUA_GCSETPAUSE, pause) }
}
/// Sets the 'step multiplier' value of the collector.
///
/// Returns the previous value of the 'step multiplier'. More information can be found in the
/// Lua 5.x [documentation][lua_doc].
///
/// [lua_doc]: https://www.lua.org/manual/5.3/manual.html#2.5
pub fn gc_set_step_multiplier(&self, step_multiplier: c_int) -> c_int {
let state = self.main_state.unwrap_or(self.state);
unsafe { ffi::lua_gc(state, ffi::LUA_GCSETSTEPMUL, step_multiplier) }
}
/// Changes the collector to incremental mode with the given parameters.
///
/// Returns the previous mode (always `GCMode::Incremental` in Lua < 5.4).
/// More information can be found in the Lua 5.x [documentation][lua_doc].
///
/// [lua_doc]: https://www.lua.org/manual/5.4/manual.html#2.5.1
pub fn gc_inc(&self, pause: c_int, step_multiplier: c_int, step_size: c_int) -> GCMode {
let state = self.main_state.unwrap_or(self.state);
#[cfg(any(
feature = "lua53",
feature = "lua52",
feature = "lua51",
feature = "luajit"
))]
{
if pause > 0 {
unsafe { ffi::lua_gc(state, ffi::LUA_GCSETPAUSE, pause) };
}
if step_multiplier > 0 {
unsafe { ffi::lua_gc(state, ffi::LUA_GCSETSTEPMUL, step_multiplier) };
}
let _ = step_size; // Ignored
GCMode::Incremental
}
#[cfg(feature = "lua54")]
let prev_mode = unsafe {
ffi::lua_gc(
state,
ffi::LUA_GCSETPAUSE,
pause,
step_multiplier,
step_size,
)
};
#[cfg(feature = "lua54")]
match prev_mode {
ffi::LUA_GCINC => GCMode::Incremental,
ffi::LUA_GCGEN => GCMode::Generational,
_ => unreachable!(),
}
}
/// Changes the collector to generational mode with the given parameters.
///
/// Returns the previous mode. More information about the generational GC
/// can be found in the Lua 5.4 [documentation][lua_doc].
///
/// Requires `feature = "lua54"`
///
/// [lua_doc]: https://www.lua.org/manual/5.4/manual.html#2.5.2
#[cfg(any(feature = "lua54", doc))]
pub fn gc_gen(&self, minor_multiplier: c_int, major_multiplier: c_int) -> GCMode {
let state = self.main_state.unwrap_or(self.state);
let prev_mode =
unsafe { ffi::lua_gc(state, ffi::LUA_GCGEN, minor_multiplier, major_multiplier) };
match prev_mode {
ffi::LUA_GCGEN => GCMode::Generational,
ffi::LUA_GCINC => GCMode::Incremental,
_ => unreachable!(),
}
}
/// Returns Lua source code as a `Chunk` builder type.
///
/// In order to actually compile or run the resulting code, you must call [`Chunk::exec`] or
/// similar on the returned builder. Code is not even parsed until one of these methods is
/// called.
///
/// [`Chunk::exec`]: struct.Chunk.html#method.exec
pub fn load<'lua, 'a, S>(&'lua self, source: &'a S) -> Chunk<'lua, 'a>
where
S: ?Sized + AsRef<[u8]>,
{
Chunk {
lua: self,
source: source.as_ref(),
name: None,
env: None,
}
}
fn load_chunk<'lua>(
&'lua self,
source: &[u8],
name: Option<&CString>,
env: Option<Value<'lua>>,
) -> Result<Function<'lua>> {
unsafe {
let _sg = StackGuard::new(self.state);
assert_stack(self.state, 1);
match if let Some(name) = name {
ffi::luaL_loadbufferx(
self.state,
source.as_ptr() as *const c_char,
source.len(),
name.as_ptr() as *const c_char,
cstr!("t"),
)
} else {
ffi::luaL_loadbufferx(
self.state,
source.as_ptr() as *const c_char,
source.len(),
ptr::null(),
cstr!("t"),
)
} {
ffi::LUA_OK => {
if let Some(env) = env {
self.push_value(env)?;
#[cfg(any(feature = "lua54", feature = "lua53", feature = "lua52"))]
ffi::lua_setupvalue(self.state, -2, 1);
#[cfg(any(feature = "lua51", feature = "luajit"))]
ffi::lua_setfenv(self.state, -2);
}
Ok(Function(self.pop_ref()))
}
err => Err(pop_error(self.state, err)),
}
}
}
/// Create and return an interned Lua string. Lua strings can be arbitrary [u8] data including
/// embedded nulls, so in addition to `&str` and `&String`, you can also pass plain `&[u8]`
/// here.
pub fn create_string<S>(&self, s: &S) -> Result<String>
where
S: ?Sized + AsRef<[u8]>,
{
unsafe {
let _sg = StackGuard::new(self.state);
assert_stack(self.state, 4);
push_string(self.state, s)?;
Ok(String(self.pop_ref()))
}
}
/// Creates and returns a new table.
pub fn create_table(&self) -> Result<Table> {
unsafe {
let _sg = StackGuard::new(self.state);
assert_stack(self.state, 3);
unsafe extern "C" fn new_table(state: *mut ffi::lua_State) -> c_int {
ffi::lua_newtable(state);
1
}
protect_lua(self.state, 0, new_table)?;
Ok(Table(self.pop_ref()))
}
}
/// Creates a table and fills it with values from an iterator.
pub fn create_table_from<'lua, K, V, I>(&'lua self, cont: I) -> Result<Table<'lua>>
where
K: ToLua<'lua>,
V: ToLua<'lua>,
I: IntoIterator<Item = (K, V)>,
{
unsafe {
let _sg = StackGuard::new(self.state);
// `Lua` instance assumes that on any callback, the Lua stack has at least LUA_MINSTACK
// slots available to avoid panics.
check_stack(self.state, 5 + ffi::LUA_MINSTACK)?;
unsafe extern "C" fn new_table(state: *mut ffi::lua_State) -> c_int {
ffi::lua_newtable(state);
1
}
protect_lua(self.state, 0, new_table)?;
for (k, v) in cont {
self.push_value(k.to_lua(self)?)?;
self.push_value(v.to_lua(self)?)?;
unsafe extern "C" fn raw_set(state: *mut ffi::lua_State) -> c_int {
ffi::lua_rawset(state, -3);
1
}
protect_lua(self.state, 3, raw_set)?;
}
Ok(Table(self.pop_ref()))
}
}
/// Creates a table from an iterator of values, using `1..` as the keys.
pub fn create_sequence_from<'lua, T, I>(&'lua self, cont: I) -> Result<Table<'lua>>
where
T: ToLua<'lua>,
I: IntoIterator<Item = T>,
{
self.create_table_from(cont.into_iter().enumerate().map(|(k, v)| (k + 1, v)))
}
/// Wraps a Rust function or closure, creating a callable Lua function handle to it.
///
/// The function's return value is always a `Result`: If the function returns `Err`, the error
/// is raised as a Lua error, which can be caught using `(x)pcall` or bubble up to the Rust code
/// that invoked the Lua code. This allows using the `?` operator to propagate errors through
/// intermediate Lua code.
///
/// If the function returns `Ok`, the contained value will be converted to one or more Lua
/// values. For details on Rust-to-Lua conversions, refer to the [`ToLua`] and [`ToLuaMulti`]
/// traits.
///
/// # Examples
///
/// Create a function which prints its argument:
///
/// ```
/// # use mlua::{Lua, Result};
/// # fn main() -> Result<()> {
/// # let lua = Lua::new();
/// let greet = lua.create_function(|_, name: String| {
/// println!("Hello, {}!", name);
/// Ok(())
/// });
/// # let _ = greet; // used
/// # Ok(())
/// # }
/// ```
///
/// Use tuples to accept multiple arguments:
///
/// ```
/// # use mlua::{Lua, Result};
/// # fn main() -> Result<()> {
/// # let lua = Lua::new();
/// let print_person = lua.create_function(|_, (name, age): (String, u8)| {
/// println!("{} is {} years old!", name, age);
/// Ok(())
/// });
/// # let _ = print_person; // used
/// # Ok(())
/// # }
/// ```
///
/// [`ToLua`]: trait.ToLua.html
/// [`ToLuaMulti`]: trait.ToLuaMulti.html
pub fn create_function<'lua, 'callback, A, R, F>(&'lua self, func: F) -> Result<Function<'lua>>
where
'lua: 'callback,
A: FromLuaMulti<'callback>,
R: ToLuaMulti<'callback>,
F: 'static + MaybeSend + Fn(&'callback Lua, A) -> Result<R>,
{
self.create_callback(Box::new(move |lua, args| {
func(lua, A::from_lua_multi(args, lua)?)?.to_lua_multi(lua)
}))
}
/// Wraps a Rust mutable closure, creating a callable Lua function handle to it.
///
/// This is a version of [`create_function`] that accepts a FnMut argument. Refer to
/// [`create_function`] for more information about the implementation.
///
/// [`create_function`]: #method.create_function
pub fn create_function_mut<'lua, 'callback, A, R, F>(
&'lua self,
func: F,
) -> Result<Function<'lua>>
where
'lua: 'callback,
A: FromLuaMulti<'callback>,
R: ToLuaMulti<'callback>,
F: 'static + MaybeSend + FnMut(&'callback Lua, A) -> Result<R>,
{
let func = RefCell::new(func);
self.create_function(move |lua, args| {
(&mut *func
.try_borrow_mut()
.map_err(|_| Error::RecursiveMutCallback)?)(lua, args)
})
}
/// Wraps a Rust async function or closure, creating a callable Lua function handle to it.
///
/// While executing the function Rust will poll Future and if the result is not ready, call
/// `yield()` passing internal representation of a `Poll::Pending` value.
///
/// The function must be called inside Lua coroutine ([`Thread`]) to be able to suspend its execution.
/// An executor should be used to poll [`AsyncThread`] and mlua will take a provided Waker
/// in that case. Otherwise noop waker will be used if try to call the function outside of Rust
/// executors.
///
/// The family of `call_async()` functions takes care about creating [`Thread`].
///
/// Requires `feature = "async"`
///
/// # Examples
///
/// Non blocking sleep:
///
/// ```
/// use std::time::Duration;
/// use futures_timer::Delay;
/// use mlua::{Lua, Result};
///
/// async fn sleep(_lua: &Lua, n: u64) -> Result<&'static str> {
/// Delay::new(Duration::from_millis(n)).await;
/// Ok("done")
/// }
///
/// #[tokio::main]
/// async fn main() -> Result<()> {
/// let lua = Lua::new();
/// lua.globals().set("sleep", lua.create_async_function(sleep)?)?;
/// let res: String = lua.load("return sleep(...)").call_async(100).await?; // Sleep 100ms
/// assert_eq!(res, "done");
/// Ok(())
/// }
/// ```
///
/// [`Thread`]: struct.Thread.html
/// [`ThreadStream`]: struct.ThreadStream.html
#[cfg(feature = "async")]
pub fn create_async_function<'lua, 'callback, A, R, F, FR>(
&'lua self,
func: F,
) -> Result<Function<'lua>>
where
'lua: 'callback,
A: FromLuaMulti<'callback>,
R: ToLuaMulti<'callback>,
F: 'static + MaybeSend + Fn(&'callback Lua, A) -> FR,
FR: 'lua + Future<Output = Result<R>>,
{
self.create_async_callback(Box::new(move |lua, args| {
let args = match A::from_lua_multi(args, lua) {
Ok(args) => args,
Err(e) => return Box::pin(future::err(e)),
};
Box::pin(func(lua, args).and_then(move |ret| future::ready(ret.to_lua_multi(lua))))
}))
}
/// Wraps a Lua function into a new thread (or coroutine).
///
/// Equivalent to `coroutine.create`.
pub fn create_thread<'lua>(&'lua self, func: Function<'lua>) -> Result<Thread<'lua>> {
unsafe {
let _sg = StackGuard::new(self.state);
assert_stack(self.state, 2);
let thread_state =
protect_lua_closure(self.state, 0, 1, |state| ffi::lua_newthread(state))?;
self.push_ref(&func.0);
ffi::lua_xmove(self.state, thread_state, 1);
Ok(Thread(self.pop_ref()))
}
}
/// Create a Lua userdata object from a custom userdata type.
pub fn create_userdata<T>(&self, data: T) -> Result<AnyUserData>
where
T: 'static + MaybeSend + UserData,
{
unsafe { self.make_userdata(data) }
}
/// Returns a handle to the global environment.
pub fn globals(&self) -> Table {
unsafe {
let _sg = StackGuard::new(self.state);
assert_stack(self.state, 2);
#[cfg(any(feature = "lua54", feature = "lua53", feature = "lua52"))]
ffi::lua_rawgeti(self.state, ffi::LUA_REGISTRYINDEX, ffi::LUA_RIDX_GLOBALS);
#[cfg(any(feature = "lua51", feature = "luajit"))]
ffi::lua_pushvalue(self.state, ffi::LUA_GLOBALSINDEX);
Table(self.pop_ref())
}
}
/// Returns a handle to the active `Thread`. For calls to `Lua` this will be the main Lua thread,
/// for parameters given to a callback, this will be whatever Lua thread called the callback.
pub fn current_thread(&self) -> Thread {
unsafe {
ffi::lua_pushthread(self.state);
Thread(self.pop_ref())
}
}
/// Calls the given function with a `Scope` parameter, giving the function the ability to create
/// userdata and callbacks from rust types that are !Send or non-'static.
///
/// The lifetime of any function or userdata created through `Scope` lasts only until the
/// completion of this method call, on completion all such created values are automatically
/// dropped and Lua references to them are invalidated. If a script accesses a value created
/// through `Scope` outside of this method, a Lua error will result. Since we can ensure the
/// lifetime of values created through `Scope`, and we know that `Lua` cannot be sent to another
/// thread while `Scope` is live, it is safe to allow !Send datatypes and whose lifetimes only
/// outlive the scope lifetime.
///
/// Inside the scope callback, all handles created through Scope will share the same unique 'lua
/// lifetime of the parent `Lua`. This allows scoped and non-scoped values to be mixed in
/// API calls, which is very useful (e.g. passing a scoped userdata to a non-scoped function).
/// However, this also enables handles to scoped values to be trivially leaked from the given
/// callback. This is not dangerous, though! After the callback returns, all scoped values are
/// invalidated, which means that though references may exist, the Rust types backing them have
/// dropped. `Function` types will error when called, and `AnyUserData` will be typeless. It
/// would be impossible to prevent handles to scoped values from escaping anyway, since you
/// would always be able to smuggle them through Lua state.
pub fn scope<'lua, 'scope, R, F>(&'lua self, f: F) -> Result<R>
where
'lua: 'scope,
R: 'static,
F: FnOnce(&Scope<'lua, 'scope>) -> Result<R>,
{
f(&Scope::new(self))
}
/// An asynchronous version of [`scope`] that allows to create scoped async functions and
/// execute them.
///
/// Requires `feature = "async"`
///
/// [`scope`]: #method.scope
#[cfg(feature = "async")]
pub fn async_scope<'lua, 'scope, R, F, FR>(
&'lua self,
f: F,
) -> LocalBoxFuture<'scope, Result<R>>
where
'lua: 'scope,
R: 'static,
F: FnOnce(Scope<'lua, 'scope>) -> FR,
FR: 'scope + Future<Output = Result<R>>,
{
Box::pin(f(Scope::new(self)))
}
/// Attempts to coerce a Lua value into a String in a manner consistent with Lua's internal
/// behavior.
///
/// To succeed, the value must be a string (in which case this is a no-op), an integer, or a
/// number.
pub fn coerce_string<'lua>(&'lua self, v: Value<'lua>) -> Result<Option<String<'lua>>> {
Ok(match v {
Value::String(s) => Some(s),
v => unsafe {
let _sg = StackGuard::new(self.state);
assert_stack(self.state, 4);
self.push_value(v)?;
let ok = protect_lua_closure(self.state, 1, 1, |state| {
!ffi::lua_tostring(state, -1).is_null()
})?;
if ok {
Some(String(self.pop_ref()))
} else {
None
}
},
})
}
/// Attempts to coerce a Lua value into an integer in a manner consistent with Lua's internal
/// behavior.
///
/// To succeed, the value must be an integer, a floating point number that has an exact
/// representation as an integer, or a string that can be converted to an integer. Refer to the
/// Lua manual for details.
pub fn coerce_integer(&self, v: Value) -> Result<Option<Integer>> {
Ok(match v {
Value::Integer(i) => Some(i),
v => unsafe {
let _sg = StackGuard::new(self.state);
assert_stack(self.state, 2);
self.push_value(v)?;
let mut isint = 0;
let i = ffi::lua_tointegerx(self.state, -1, &mut isint);
if isint == 0 {
None
} else {
Some(i)
}
},
})
}
/// Attempts to coerce a Lua value into a Number in a manner consistent with Lua's internal
/// behavior.
///
/// To succeed, the value must be a number or a string that can be converted to a number. Refer
/// to the Lua manual for details.
pub fn coerce_number(&self, v: Value) -> Result<Option<Number>> {
Ok(match v {
Value::Number(n) => Some(n),
v => unsafe {
let _sg = StackGuard::new(self.state);
assert_stack(self.state, 2);
self.push_value(v)?;
let mut isnum = 0;
let n = ffi::lua_tonumberx(self.state, -1, &mut isnum);
if isnum == 0 {
None
} else {
Some(n)
}
},
})
}
/// Converts a value that implements `ToLua` into a `Value` instance.
pub fn pack<'lua, T: ToLua<'lua>>(&'lua self, t: T) -> Result<Value<'lua>> {
t.to_lua(self)
}
/// Converts a `Value` instance into a value that implements `FromLua`.
pub fn unpack<'lua, T: FromLua<'lua>>(&'lua self, value: Value<'lua>) -> Result<T> {
T::from_lua(value, self)
}
/// Converts a value that implements `ToLuaMulti` into a `MultiValue` instance.
pub fn pack_multi<'lua, T: ToLuaMulti<'lua>>(&'lua self, t: T) -> Result<MultiValue<'lua>> {
t.to_lua_multi(self)
}
/// Converts a `MultiValue` instance into a value that implements `FromLuaMulti`.
pub fn unpack_multi<'lua, T: FromLuaMulti<'lua>>(
&'lua self,
value: MultiValue<'lua>,
) -> Result<T> {
T::from_lua_multi(value, self)
}
/// Set a value in the Lua registry based on a string name.
///
/// This value will be available to rust from all `Lua` instances which share the same main
/// state.
pub fn set_named_registry_value<'lua, S, T>(&'lua self, name: &S, t: T) -> Result<()>
where
S: ?Sized + AsRef<[u8]>,
T: ToLua<'lua>,
{
let t = t.to_lua(self)?;
unsafe {
let _sg = StackGuard::new(self.state);
assert_stack(self.state, 5);
push_string(self.state, name)?;
self.push_value(t)?;
unsafe extern "C" fn set_registry(state: *mut ffi::lua_State) -> c_int {
ffi::lua_rawset(state, ffi::LUA_REGISTRYINDEX);
0
}
protect_lua(self.state, 2, set_registry)
}
}
/// Get a value from the Lua registry based on a string name.
///
/// Any Lua instance which shares the underlying main state may call this method to
/// get a value previously set by [`set_named_registry_value`].
///
/// [`set_named_registry_value`]: #method.set_named_registry_value
pub fn named_registry_value<'lua, S, T>(&'lua self, name: &S) -> Result<T>
where
S: ?Sized + AsRef<[u8]>,
T: FromLua<'lua>,
{
let value = unsafe {
let _sg = StackGuard::new(self.state);
assert_stack(self.state, 4);
push_string(self.state, name)?;
unsafe extern "C" fn get_registry(state: *mut ffi::lua_State) -> c_int {
ffi::lua_rawget(state, ffi::LUA_REGISTRYINDEX);
1
}
protect_lua(self.state, 1, get_registry)?;
self.pop_value()
};
T::from_lua(value, self)
}
/// Removes a named value in the Lua registry.
///
/// Equivalent to calling [`set_named_registry_value`] with a value of Nil.
///
/// [`set_named_registry_value`]: #method.set_named_registry_value
pub fn unset_named_registry_value<S>(&self, name: &S) -> Result<()>
where
S: ?Sized + AsRef<[u8]>,
{
self.set_named_registry_value(name, Nil)
}
/// Place a value in the Lua registry with an auto-generated key.
///
/// This value will be available to rust from all `Lua` instances which share the same main
/// state.
///
/// Be warned, garbage collection of values held inside the registry is not automatic, see
/// [`RegistryKey`] for more details.
///
/// [`RegistryKey`]: struct.RegistryKey.html
pub fn create_registry_value<'lua, T: ToLua<'lua>>(&'lua self, t: T) -> Result<RegistryKey> {
let t = t.to_lua(self)?;
unsafe {
let _sg = StackGuard::new(self.state);
assert_stack(self.state, 2);
self.push_value(t)?;
let registry_id = protect_lua_closure(self.state, 1, 0, |state| {
ffi::luaL_ref(state, ffi::LUA_REGISTRYINDEX)
})?;
let extra = mlua_expect!(self.extra.lock(), "extra is poisoned");
Ok(RegistryKey {
registry_id,
unref_list: extra.registry_unref_list.clone(),
})
}
}
/// Get a value from the Lua registry by its `RegistryKey`
///
/// Any Lua instance which shares the underlying main state may call this method to get a value
/// previously placed by [`create_registry_value`].
///
/// [`create_registry_value`]: #method.create_registry_value
pub fn registry_value<'lua, T: FromLua<'lua>>(&'lua self, key: &RegistryKey) -> Result<T> {
let value = unsafe {
if !self.owns_registry_value(key) {
return Err(Error::MismatchedRegistryKey);
}
let _sg = StackGuard::new(self.state);
assert_stack(self.state, 2);
ffi::lua_rawgeti(
self.state,
ffi::LUA_REGISTRYINDEX,
key.registry_id as ffi::lua_Integer,
);
self.pop_value()
};
T::from_lua(value, self)
}
/// Removes a value from the Lua registry.
///
/// You may call this function to manually remove a value placed in the registry with
/// [`create_registry_value`]. In addition to manual `RegistryKey` removal, you can also call
/// [`expire_registry_values`] to automatically remove values from the registry whose
/// `RegistryKey`s have been dropped.
///
/// [`create_registry_value`]: #method.create_registry_value
/// [`expire_registry_values`]: #method.expire_registry_values
pub fn remove_registry_value(&self, key: RegistryKey) -> Result<()> {
unsafe {
if !self.owns_registry_value(&key) {
return Err(Error::MismatchedRegistryKey);
}
ffi::luaL_unref(self.state, ffi::LUA_REGISTRYINDEX, key.take());
Ok(())
}
}
/// Returns true if the given `RegistryKey` was created by a `Lua` which shares the underlying
/// main state with this `Lua` instance.
///
/// Other than this, methods that accept a `RegistryKey` will return
/// `Error::MismatchedRegistryKey` if passed a `RegistryKey` that was not created with a
/// matching `Lua` state.
pub fn owns_registry_value(&self, key: &RegistryKey) -> bool {
let extra = mlua_expect!(self.extra.lock(), "extra is poisoned");
Arc::ptr_eq(&key.unref_list, &extra.registry_unref_list)
}
/// Remove any registry values whose `RegistryKey`s have all been dropped.
///
/// Unlike normal handle values, `RegistryKey`s do not automatically remove themselves on Drop,
/// but you can call this method to remove any unreachable registry values not manually removed
/// by `Lua::remove_registry_value`.
pub fn expire_registry_values(&self) {
unsafe {
let mut extra = mlua_expect!(self.extra.lock(), "extra is poisoned");
let unref_list = mem::replace(
&mut *mlua_expect!(extra.registry_unref_list.lock(), "unref list poisoned"),
Some(Vec::new()),
);
for id in mlua_expect!(unref_list, "unref list not set") {
ffi::luaL_unref(self.state, ffi::LUA_REGISTRYINDEX, id);
}
}
}
// Uses 2 stack spaces, does not call checkstack
pub(crate) unsafe fn push_value(&self, value: Value) -> Result<()> {
match value {
Value::Nil => {
ffi::lua_pushnil(self.state);
}
Value::Boolean(b) => {
ffi::lua_pushboolean(self.state, if b { 1 } else { 0 });
}
Value::LightUserData(ud) => {
ffi::lua_pushlightuserdata(self.state, ud.0);
}
Value::Integer(i) => {
ffi::lua_pushinteger(self.state, i);
}
Value::Number(n) => {
ffi::lua_pushnumber(self.state, n);
}
Value::String(s) => {
self.push_ref(&s.0);
}
Value::Table(t) => {
self.push_ref(&t.0);
}
Value::Function(f) => {
self.push_ref(&f.0);
}
Value::Thread(t) => {
self.push_ref(&t.0);
}
Value::UserData(ud) => {
self.push_ref(&ud.0);
}
Value::Error(e) => {
push_wrapped_error(self.state, e)?;
}
}
Ok(())
}
// Uses 2 stack spaces, does not call checkstack
pub(crate) unsafe fn pop_value(&self) -> Value {
match ffi::lua_type(self.state, -1) {
ffi::LUA_TNIL => {
ffi::lua_pop(self.state, 1);
Nil
}
ffi::LUA_TBOOLEAN => {
let b = Value::Boolean(ffi::lua_toboolean(self.state, -1) != 0);
ffi::lua_pop(self.state, 1);
b
}
ffi::LUA_TLIGHTUSERDATA => {
let ud = Value::LightUserData(LightUserData(ffi::lua_touserdata(self.state, -1)));
ffi::lua_pop(self.state, 1);
ud
}
ffi::LUA_TNUMBER => {
if ffi::lua_isinteger(self.state, -1) != 0 {
let i = Value::Integer(ffi::lua_tointeger(self.state, -1));
ffi::lua_pop(self.state, 1);
i
} else {
let n = Value::Number(ffi::lua_tonumber(self.state, -1));
ffi::lua_pop(self.state, 1);
n
}
}
ffi::LUA_TSTRING => Value::String(String(self.pop_ref())),
ffi::LUA_TTABLE => Value::Table(Table(self.pop_ref())),
ffi::LUA_TFUNCTION => Value::Function(Function(self.pop_ref())),
ffi::LUA_TUSERDATA => {
// It should not be possible to interact with userdata types other than custom
// UserData types OR a WrappedError. WrappedPanic should not be here.
if let Some(err) = get_wrapped_error(self.state, -1).as_ref() {
let err = err.clone();
ffi::lua_pop(self.state, 1);
Value::Error(err)
} else {
Value::UserData(AnyUserData(self.pop_ref()))
}
}
ffi::LUA_TTHREAD => Value::Thread(Thread(self.pop_ref())),
_ => mlua_panic!("LUA_TNONE in pop_value"),
}
}
// Pushes a LuaRef value onto the stack, uses 1 stack space, does not call checkstack
pub(crate) unsafe fn push_ref<'lua>(&'lua self, lref: &LuaRef<'lua>) {
assert!(
Arc::ptr_eq(&lref.lua.extra, &self.extra),
"Lua instance passed Value created from a different main Lua state"
);
let extra = mlua_expect!(self.extra.lock(), "extra is poisoned");
ffi::lua_pushvalue(extra.ref_thread, lref.index);
ffi::lua_xmove(extra.ref_thread, self.state, 1);
}
// Pops the topmost element of the stack and stores a reference to it. This pins the object,
// preventing garbage collection until the returned `LuaRef` is dropped.
//
// References are stored in the stack of a specially created auxiliary thread that exists only
// to store reference values. This is much faster than storing these in the registry, and also
// much more flexible and requires less bookkeeping than storing them directly in the currently
// used stack. The implementation is somewhat biased towards the use case of a relatively small
// number of short term references being created, and `RegistryKey` being used for long term
// references.
pub(crate) unsafe fn pop_ref(&self) -> LuaRef {
let mut extra = mlua_expect!(self.extra.lock(), "extra is poisoned");
ffi::lua_xmove(self.state, extra.ref_thread, 1);
let index = ref_stack_pop(&mut extra);
LuaRef { lua: self, index }
}
pub(crate) fn clone_ref<'lua>(&'lua self, lref: &LuaRef<'lua>) -> LuaRef<'lua> {
unsafe {
let mut extra = mlua_expect!(self.extra.lock(), "extra is poisoned");
ffi::lua_pushvalue(extra.ref_thread, lref.index);
let index = ref_stack_pop(&mut extra);
LuaRef { lua: self, index }
}
}
pub(crate) fn drop_ref<'lua>(&'lua self, lref: &mut LuaRef<'lua>) {
unsafe {
let mut extra = mlua_expect!(self.extra.lock(), "extra is poisoned");
ffi::lua_pushnil(extra.ref_thread);
ffi::lua_replace(extra.ref_thread, lref.index);
extra.ref_free.push(lref.index);
}
}
pub(crate) unsafe fn userdata_metatable<T: 'static + UserData>(&self) -> Result<c_int> {
if let Some(table_id) = mlua_expect!(self.extra.lock(), "extra is poisoned")
.registered_userdata
.get(&TypeId::of::<T>())
{
return Ok(*table_id);
}
let _sg = StackGuard::new(self.state);
assert_stack(self.state, 8);
let mut methods = StaticUserDataMethods::default();
T::add_methods(&mut methods);
protect_lua_closure(self.state, 0, 1, |state| {
ffi::lua_newtable(state);
})?;
for (k, m) in methods.meta_methods {
push_string(self.state, k.name())?;
self.push_value(Value::Function(self.create_callback(m)?))?;
protect_lua_closure(self.state, 3, 1, |state| {
ffi::lua_rawset(state, -3);
})?;
}
#[cfg(feature = "async")]
let no_methods = methods.methods.is_empty() && methods.async_methods.is_empty();
#[cfg(not(feature = "async"))]
let no_methods = methods.methods.is_empty();
if no_methods {
init_userdata_metatable::<RefCell<T>>(self.state, -1, None)?;
} else {
protect_lua_closure(self.state, 0, 1, |state| {
ffi::lua_newtable(state);
})?;
for (k, m) in methods.methods {
push_string(self.state, &k)?;
self.push_value(Value::Function(self.create_callback(m)?))?;
protect_lua_closure(self.state, 3, 1, |state| {
ffi::lua_rawset(state, -3);
})?;
}
#[cfg(feature = "async")]
for (k, m) in methods.async_methods {
push_string(self.state, &k)?;
self.push_value(Value::Function(self.create_async_callback(m)?))?;
protect_lua_closure(self.state, 3, 1, |state| {
ffi::lua_rawset(state, -3);
})?;
}
init_userdata_metatable::<RefCell<T>>(self.state, -2, Some(-1))?;
ffi::lua_pop(self.state, 1);
}
let id = protect_lua_closure(self.state, 1, 0, |state| {
ffi::luaL_ref(state, ffi::LUA_REGISTRYINDEX)
})?;
mlua_expect!(self.extra.lock(), "extra is poisoned")
.registered_userdata
.insert(TypeId::of::<T>(), id);
Ok(id)
}
// Creates a Function out of a Callback containing a 'static Fn. This is safe ONLY because the
// Fn is 'static, otherwise it could capture 'callback arguments improperly. Without ATCs, we
// cannot easily deal with the "correct" callback type of:
//
// Box<for<'lua> Fn(&'lua Lua, MultiValue<'lua>) -> Result<MultiValue<'lua>>)>
//
// So we instead use a caller provided lifetime, which without the 'static requirement would be
// unsafe.
pub(crate) fn create_callback<'lua, 'callback>(
&'lua self,
func: Callback<'callback, 'static>,
) -> Result<Function<'lua>>
where
'lua: 'callback,
{
unsafe extern "C" fn call_callback(state: *mut ffi::lua_State) -> c_int {
callback_error(state, |nargs| {
let func =
get_meta_gc_userdata::<Callback, Callback>(state, ffi::lua_upvalueindex(1));
let lua = get_gc_userdata::<Lua>(state, ffi::lua_upvalueindex(2));
if func.is_null() || lua.is_null() {
return Err(Error::CallbackDestructed);
}
if nargs < ffi::LUA_MINSTACK {
check_stack(state, ffi::LUA_MINSTACK - nargs)?;
}
let lua = &mut *lua;
lua.state = state;
let mut args = MultiValue::new();
args.reserve(nargs as usize);
for _ in 0..nargs {
args.push_front(lua.pop_value());
}
let results = (*func)(lua, args)?;
let nresults = results.len() as c_int;
check_stack(state, nresults)?;
for r in results {
lua.push_value(r)?;
}
Ok(nresults)
})
}
unsafe {
let _sg = StackGuard::new(self.state);
assert_stack(self.state, 6);
push_meta_gc_userdata::<Callback, _>(self.state, func)?;
push_gc_userdata(self.state, self.clone())?;
protect_lua_closure(self.state, 2, 1, |state| {
ffi::lua_pushcclosure(state, call_callback, 2);
})?;
Ok(Function(self.pop_ref()))
}
}
#[cfg(feature = "async")]
pub(crate) fn create_async_callback<'lua, 'callback>(
&'lua self,
func: AsyncCallback<'callback, 'static>,
) -> Result<Function<'lua>>
where
'lua: 'callback,
{
#[cfg(any(feature = "lua54", feature = "lua53", feature = "lua52"))]
self.load_from_std_lib(StdLib::COROUTINE)?;
unsafe extern "C" fn call_callback(state: *mut ffi::lua_State) -> c_int {
callback_error(state, |nargs| {
let func = get_meta_gc_userdata::<AsyncCallback, AsyncCallback>(
state,
ffi::lua_upvalueindex(1),
);
let lua = get_gc_userdata::<Lua>(state, ffi::lua_upvalueindex(2));
if func.is_null() || lua.is_null() {
return Err(Error::CallbackDestructed);
}
if nargs < ffi::LUA_MINSTACK {
check_stack(state, ffi::LUA_MINSTACK - nargs)?;
}
let lua = &mut *lua;
lua.state = state;
let mut args = MultiValue::new();
args.reserve(nargs as usize);
for _ in 0..nargs {
args.push_front(lua.pop_value());
}
let fut = (*func)(lua, args);
push_gc_userdata(state, fut)?;
push_gc_userdata(state, lua.clone())?;
ffi::lua_pushcclosure(state, poll_future, 2);
Ok(1)
})
}
unsafe extern "C" fn poll_future(state: *mut ffi::lua_State) -> c_int {
callback_error(state, |nargs| {
let fut = get_gc_userdata::<LocalBoxFuture<Result<MultiValue>>>(
state,
ffi::lua_upvalueindex(1),
);
let lua = get_gc_userdata::<Lua>(state, ffi::lua_upvalueindex(2));
if fut.is_null() || lua.is_null() {
return Err(Error::CallbackDestructed);
}
if nargs < ffi::LUA_MINSTACK {
check_stack(state, ffi::LUA_MINSTACK - nargs)?;
}
let lua = &mut *lua;
let mut waker = noop_waker();
// Try to get an outer poll waker
ffi::lua_pushlightuserdata(state, &WAKER_REGISTRY_KEY as *const u8 as *mut c_void);
ffi::lua_rawget(state, ffi::LUA_REGISTRYINDEX);
if let Some(w) = get_gc_userdata::<Waker>(state, -1).as_ref() {
waker = (*w).clone();
}
ffi::lua_pop(state, 1);
let mut ctx = Context::from_waker(&waker);
match (*fut).as_mut().poll(&mut ctx) {
Poll::Pending => {
check_stack(state, 6)?;
ffi::lua_pushboolean(state, 0);
push_gc_userdata(state, AsyncPollPending)?;
Ok(2)
}
Poll::Ready(results) => {
let results = lua.create_sequence_from(results?)?;
check_stack(state, 2)?;
ffi::lua_pushboolean(state, 1);
lua.push_value(Value::Table(results))?;
Ok(2)
}
}
})
}
let get_poll = unsafe {
let _sg = StackGuard::new(self.state);
assert_stack(self.state, 6);
push_meta_gc_userdata::<AsyncCallback, _>(self.state, func)?;
push_gc_userdata(self.state, self.clone())?;
protect_lua_closure(self.state, 2, 1, |state| {
ffi::lua_pushcclosure(state, call_callback, 2);
})?;
Function(self.pop_ref())
};
let coroutine = self.globals().get::<_, Table>("coroutine")?;
let env = self.create_table()?;
env.set("get_poll", get_poll)?;
env.set("yield", coroutine.get::<_, Function>("yield")?)?;
env.set(
"unpack",
self.create_function(|_, tbl: Table| {
Ok(MultiValue::from_vec(
tbl.sequence_values().collect::<Result<Vec<Value>>>()?,
))
})?,
)?;
self.load(
r#"
local poll = get_poll(...)
while true do
ready, res = poll()
if ready then
return unpack(res)
end
yield(res)
end
"#,
)
.set_name("_mlua_async_poll")?
.set_environment(env)?
.into_function()
}
pub(crate) unsafe fn make_userdata<T>(&self, data: T) -> Result<AnyUserData>
where
T: 'static + UserData,
{
let _sg = StackGuard::new(self.state);
assert_stack(self.state, 4);
let ud_index = self.userdata_metatable::<T>()?;
push_userdata::<RefCell<T>>(self.state, RefCell::new(data))?;
ffi::lua_rawgeti(
self.state,
ffi::LUA_REGISTRYINDEX,
ud_index as ffi::lua_Integer,
);
ffi::lua_setmetatable(self.state, -2);
Ok(AnyUserData(self.pop_ref()))
}
pub(crate) fn clone(&self) -> Self {
Lua {
state: self.state,
main_state: self.main_state,
extra: self.extra.clone(),
ephemeral: true,
safe: self.safe,
_no_ref_unwind_safe: PhantomData,
}
}
fn disable_c_modules(&self) -> Result<()> {
let package: Table = self.globals().get("package")?;
package.set(
"loadlib",
self.create_function(|_, ()| -> Result<()> {
Err(Error::SafetyError(
"package.loadlib is disabled in safe mode".to_string(),
))
})?,
)?;
#[cfg(any(feature = "lua54", feature = "lua53", feature = "lua52"))]
let searchers: Table = package.get("searchers")?;
#[cfg(any(feature = "lua51", feature = "luajit"))]
let searchers: Table = package.get("loaders")?;
let loader = self.create_function(|_, ()| Ok("\n\tcan't load C modules in safe mode"))?;
// The third and fourth searchers looks for a loader as a C library
searchers.raw_set(3, loader.clone())?;
searchers.raw_remove(4)?;
Ok(())
}
pub(crate) unsafe fn make_from_ptr(state: *mut ffi::lua_State) -> Self {
let _sg = StackGuard::new(state);
assert_stack(state, 3);
ffi::lua_rawgetp(
state,
ffi::LUA_REGISTRYINDEX,
&EXTRA_REGISTRY_KEY as *const u8 as *mut c_void,
);
let extra = mlua_expect!(
(*get_gc_userdata::<Weak<Mutex<ExtraData>>>(state, -1)).upgrade(),
"extra is destroyed"
);
ffi::lua_pop(state, 1);
Lua {
state,
main_state: get_main_state(state),
extra,
ephemeral: true,
safe: true, // TODO: Inherit the attribute
_no_ref_unwind_safe: PhantomData,
}
}
pub(crate) unsafe fn hook_callback(&self) -> Option<HookCallback> {
let extra = mlua_expect!(self.extra.lock(), "extra is poisoned");
extra.hook_callback.clone()
}
}
/// Returned from [`Lua::load`] and is used to finalize loading and executing Lua main chunks.
///
/// [`Lua::load`]: struct.Lua.html#method.load
#[must_use = "`Chunk`s do nothing unless one of `exec`, `eval`, `call`, or `into_function` are called on them"]
pub struct Chunk<'lua, 'a> {
lua: &'lua Lua,
source: &'a [u8],
name: Option<CString>,
env: Option<Value<'lua>>,
}
impl<'lua, 'a> Chunk<'lua, 'a> {
/// Sets the name of this chunk, which results in more informative error traces.
pub fn set_name<S: ?Sized + AsRef<[u8]>>(mut self, name: &S) -> Result<Chunk<'lua, 'a>> {
let name =
CString::new(name.as_ref().to_vec()).map_err(|e| Error::ToLuaConversionError {
from: "&str",
to: "string",
message: Some(e.to_string()),
})?;
self.name = Some(name);
Ok(self)
}
/// Sets the first upvalue (`_ENV`) of the loaded chunk to the given value.
///
/// Lua main chunks always have exactly one upvalue, and this upvalue is used as the `_ENV`
/// variable inside the chunk. By default this value is set to the global environment.
///
/// Calling this method changes the `_ENV` upvalue to the value provided, and variables inside
/// the chunk will refer to the given environment rather than the global one.
///
/// All global variables (including the standard library!) are looked up in `_ENV`, so it may be
/// necessary to populate the environment in order for scripts using custom environments to be
/// useful.
pub fn set_environment<V: ToLua<'lua>>(mut self, env: V) -> Result<Chunk<'lua, 'a>> {
self.env = Some(env.to_lua(self.lua)?);
Ok(self)
}
/// Execute this chunk of code.
///
/// This is equivalent to calling the chunk function with no arguments and no return values.
pub fn exec(self) -> Result<()> {
self.call(())?;
Ok(())
}
/// Asynchronously execute this chunk of code.
///
/// See [`Chunk::exec`] for more details.
///
/// Requires `feature = "async"`
///
/// [`Chunk::exec`]: struct.Chunk.html#method.exec
#[cfg(feature = "async")]
pub fn exec_async<'fut>(self) -> LocalBoxFuture<'fut, Result<()>>
where
'lua: 'fut,
{
self.call_async(())
}
/// Evaluate the chunk as either an expression or block.
///
/// If the chunk can be parsed as an expression, this loads and executes the chunk and returns
/// the value that it evaluates to. Otherwise, the chunk is interpreted as a block as normal,
/// and this is equivalent to calling `exec`.
pub fn eval<R: FromLuaMulti<'lua>>(self) -> Result<R> {
// First, try interpreting the lua as an expression by adding
// "return", then as a statement. This is the same thing the
// actual lua repl does.
if let Ok(function) = self.lua.load_chunk(
&self.expression_source(),
self.name.as_ref(),
self.env.clone(),
) {
function.call(())
} else {
self.call(())
}
}
/// Asynchronously evaluate the chunk as either an expression or block.
///
/// See [`Chunk::eval`] for more details.
///
/// Requires `feature = "async"`
///
/// [`Chunk::eval`]: struct.Chunk.html#method.eval
#[cfg(feature = "async")]
pub fn eval_async<'fut, R>(self) -> LocalBoxFuture<'fut, Result<R>>
where
'lua: 'fut,
R: FromLuaMulti<'lua> + 'fut,
{
if let Ok(function) = self.lua.load_chunk(
&self.expression_source(),
self.name.as_ref(),
self.env.clone(),
) {
function.call_async(())
} else {
self.call_async(())
}
}
/// Load the chunk function and call it with the given arguemnts.
///
/// This is equivalent to `into_function` and calling the resulting function.
pub fn call<A: ToLuaMulti<'lua>, R: FromLuaMulti<'lua>>(self, args: A) -> Result<R> {
self.into_function()?.call(args)
}
/// Load the chunk function and asynchronously call it with the given arguemnts.
///
/// See [`Chunk::call`] for more details.
///
/// Requires `feature = "async"`
///
/// [`Chunk::call`]: struct.Chunk.html#method.call
#[cfg(feature = "async")]
pub fn call_async<'fut, A, R>(self, args: A) -> LocalBoxFuture<'fut, Result<R>>
where
'lua: 'fut,
A: ToLuaMulti<'lua>,
R: FromLuaMulti<'lua> + 'fut,
{
match self.into_function() {
Ok(func) => func.call_async(args),
Err(e) => Box::pin(future::err(e)),
}
}
/// Load this chunk into a regular `Function`.
///
/// This simply compiles the chunk without actually executing it.
pub fn into_function(self) -> Result<Function<'lua>> {
self.lua
.load_chunk(self.source, self.name.as_ref(), self.env)
}
fn expression_source(&self) -> Vec<u8> {
let mut buf = Vec::with_capacity(b"return ".len() + self.source.len());
buf.extend(b"return ");
buf.extend(self.source);
buf
}
}
unsafe fn load_from_std_lib(state: *mut ffi::lua_State, libs: StdLib) {
#[cfg(any(feature = "lua54", feature = "lua53", feature = "lua52"))]
{
if libs.contains(StdLib::COROUTINE) {
let colib_name = CString::new(ffi::LUA_COLIBNAME).unwrap();
ffi::luaL_requiref(state, colib_name.as_ptr(), ffi::luaopen_coroutine, 1);
ffi::lua_pop(state, 1);
}
}
if libs.contains(StdLib::TABLE) {
let tablib_name = CString::new(ffi::LUA_TABLIBNAME).unwrap();
ffi::luaL_requiref(state, tablib_name.as_ptr(), ffi::luaopen_table, 1);
ffi::lua_pop(state, 1);
}
if libs.contains(StdLib::IO) {
let iolib_name = CString::new(ffi::LUA_IOLIBNAME).unwrap();
ffi::luaL_requiref(state, iolib_name.as_ptr(), ffi::luaopen_io, 1);
ffi::lua_pop(state, 1);
}
if libs.contains(StdLib::OS) {
let oslib_name = CString::new(ffi::LUA_OSLIBNAME).unwrap();
ffi::luaL_requiref(state, oslib_name.as_ptr(), ffi::luaopen_os, 1);
ffi::lua_pop(state, 1);
}
if libs.contains(StdLib::STRING) {
let strlib_name = CString::new(ffi::LUA_STRLIBNAME).unwrap();
ffi::luaL_requiref(state, strlib_name.as_ptr(), ffi::luaopen_string, 1);
ffi::lua_pop(state, 1);
}
#[cfg(any(feature = "lua54", feature = "lua53"))]
{
if libs.contains(StdLib::UTF8) {
let utf8lib_name = CString::new(ffi::LUA_UTF8LIBNAME).unwrap();
ffi::luaL_requiref(state, utf8lib_name.as_ptr(), ffi::luaopen_utf8, 1);
ffi::lua_pop(state, 1);
}
}
#[cfg(feature = "lua52")]
{
if libs.contains(StdLib::BIT) {
let bitlib_name = CString::new(ffi::LUA_BITLIBNAME).unwrap();
ffi::luaL_requiref(state, bitlib_name.as_ptr(), ffi::luaopen_bit32, 1);
ffi::lua_pop(state, 1);
}
}
#[cfg(feature = "luajit")]
{
if libs.contains(StdLib::BIT) {
let bitlib_name = CString::new(ffi::LUA_BITLIBNAME).unwrap();
ffi::luaL_requiref(state, bitlib_name.as_ptr(), ffi::luaopen_bit, 1);
ffi::lua_pop(state, 1);
}
}
if libs.contains(StdLib::MATH) {
let mathlib_name = CString::new(ffi::LUA_MATHLIBNAME).unwrap();
ffi::luaL_requiref(state, mathlib_name.as_ptr(), ffi::luaopen_math, 1);
ffi::lua_pop(state, 1);
}
if libs.contains(StdLib::DEBUG) {
let dblib_name = CString::new(ffi::LUA_DBLIBNAME).unwrap();
ffi::luaL_requiref(state, dblib_name.as_ptr(), ffi::luaopen_debug, 1);
ffi::lua_pop(state, 1);
}
if libs.contains(StdLib::PACKAGE) {
let loadlib_name = CString::new(ffi::LUA_LOADLIBNAME).unwrap();
ffi::luaL_requiref(state, loadlib_name.as_ptr(), ffi::luaopen_package, 1);
ffi::lua_pop(state, 1);
}
#[cfg(feature = "luajit")]
{
if libs.contains(StdLib::JIT) {
let jitlib_name = CString::new(ffi::LUA_JITLIBNAME).unwrap();
ffi::luaL_requiref(state, jitlib_name.as_ptr(), ffi::luaopen_jit, 1);
ffi::lua_pop(state, 1);
}
if libs.contains(StdLib::FFI) {
let ffilib_name = CString::new(ffi::LUA_FFILIBNAME).unwrap();
ffi::luaL_requiref(state, ffilib_name.as_ptr(), ffi::luaopen_ffi, 1);
ffi::lua_pop(state, 1);
}
}
}
unsafe fn ref_stack_pop(extra: &mut ExtraData) -> c_int {
if let Some(free) = extra.ref_free.pop() {
ffi::lua_replace(extra.ref_thread, free);
free
} else {
if extra.ref_stack_max >= extra.ref_stack_size {
// It is a user error to create enough references to exhaust the Lua max stack size for
// the ref thread.
if ffi::lua_checkstack(extra.ref_thread, extra.ref_stack_size) == 0 {
mlua_panic!("cannot create a Lua reference, out of auxiliary stack space");
}
extra.ref_stack_size *= 2;
}
extra.ref_stack_max += 1;
extra.ref_stack_max
}
}
struct StaticUserDataMethods<'lua, T: 'static + UserData> {
methods: Vec<(Vec<u8>, Callback<'lua, 'static>)>,
#[cfg(feature = "async")]
async_methods: Vec<(Vec<u8>, AsyncCallback<'lua, 'static>)>,
meta_methods: Vec<(MetaMethod, Callback<'lua, 'static>)>,
_type: PhantomData<T>,
}
impl<'lua, T: 'static + UserData> Default for StaticUserDataMethods<'lua, T> {
fn default() -> StaticUserDataMethods<'lua, T> {
StaticUserDataMethods {
methods: Vec::new(),
#[cfg(feature = "async")]
async_methods: Vec::new(),
meta_methods: Vec::new(),
_type: PhantomData,
}
}
}
impl<'lua, T: 'static + UserData> UserDataMethods<'lua, T> for StaticUserDataMethods<'lua, T> {
fn add_method<S, A, R, M>(&mut self, name: &S, method: M)
where
S: AsRef<[u8]> + ?Sized,
A: FromLuaMulti<'lua>,
R: ToLuaMulti<'lua>,
M: 'static + MaybeSend + Fn(&'lua Lua, &T, A) -> Result<R>,
{
self.methods
.push((name.as_ref().to_vec(), Self::box_method(method)));
}
fn add_method_mut<S, A, R, M>(&mut self, name: &S, method: M)
where
S: AsRef<[u8]> + ?Sized,
A: FromLuaMulti<'lua>,
R: ToLuaMulti<'lua>,
M: 'static + MaybeSend + FnMut(&'lua Lua, &mut T, A) -> Result<R>,
{
self.methods
.push((name.as_ref().to_vec(), Self::box_method_mut(method)));
}
#[cfg(feature = "async")]
fn add_async_method<S, A, R, M, MR>(&mut self, name: &S, method: M)
where
T: Clone,
S: AsRef<[u8]> + ?Sized,
A: FromLuaMulti<'lua>,
R: ToLuaMulti<'lua>,
M: 'static + MaybeSend + Fn(&'lua Lua, T, A) -> MR,
MR: 'lua + Future<Output = Result<R>>,
{
self.async_methods
.push((name.as_ref().to_vec(), Self::box_async_method(method)));
}
fn add_function<S, A, R, F>(&mut self, name: &S, function: F)
where
S: AsRef<[u8]> + ?Sized,
A: FromLuaMulti<'lua>,
R: ToLuaMulti<'lua>,
F: 'static + MaybeSend + Fn(&'lua Lua, A) -> Result<R>,
{
self.methods
.push((name.as_ref().to_vec(), Self::box_function(function)));
}
fn add_function_mut<S, A, R, F>(&mut self, name: &S, function: F)
where
S: AsRef<[u8]> + ?Sized,
A: FromLuaMulti<'lua>,
R: ToLuaMulti<'lua>,
F: 'static + MaybeSend + FnMut(&'lua Lua, A) -> Result<R>,
{
self.methods
.push((name.as_ref().to_vec(), Self::box_function_mut(function)));
}
#[cfg(feature = "async")]
fn add_async_function<S, A, R, F, FR>(&mut self, name: &S, function: F)
where
T: Clone,
S: AsRef<[u8]> + ?Sized,
A: FromLuaMulti<'lua>,
R: ToLuaMulti<'lua>,
F: 'static + MaybeSend + Fn(&'lua Lua, A) -> FR,
FR: 'lua + Future<Output = Result<R>>,
{
self.async_methods
.push((name.as_ref().to_vec(), Self::box_async_function(function)));
}
fn add_meta_method<A, R, M>(&mut self, meta: MetaMethod, method: M)
where
A: FromLuaMulti<'lua>,
R: ToLuaMulti<'lua>,
M: 'static + MaybeSend + Fn(&'lua Lua, &T, A) -> Result<R>,
{
self.meta_methods.push((meta, Self::box_method(method)));
}
fn add_meta_method_mut<A, R, M>(&mut self, meta: MetaMethod, method: M)
where
A: FromLuaMulti<'lua>,
R: ToLuaMulti<'lua>,
M: 'static + MaybeSend + FnMut(&'lua Lua, &mut T, A) -> Result<R>,
{
self.meta_methods.push((meta, Self::box_method_mut(method)));
}
fn add_meta_function<A, R, F>(&mut self, meta: MetaMethod, function: F)
where
A: FromLuaMulti<'lua>,
R: ToLuaMulti<'lua>,
F: 'static + MaybeSend + Fn(&'lua Lua, A) -> Result<R>,
{
self.meta_methods.push((meta, Self::box_function(function)));
}
fn add_meta_function_mut<A, R, F>(&mut self, meta: MetaMethod, function: F)
where
A: FromLuaMulti<'lua>,
R: ToLuaMulti<'lua>,
F: 'static + MaybeSend + FnMut(&'lua Lua, A) -> Result<R>,
{
self.meta_methods
.push((meta, Self::box_function_mut(function)));
}
}
impl<'lua, T: 'static + UserData> StaticUserDataMethods<'lua, T> {
fn box_method<A, R, M>(method: M) -> Callback<'lua, 'static>
where
A: FromLuaMulti<'lua>,
R: ToLuaMulti<'lua>,
M: 'static + MaybeSend + Fn(&'lua Lua, &T, A) -> Result<R>,
{
Box::new(move |lua, mut args| {
if let Some(front) = args.pop_front() {
let userdata = AnyUserData::from_lua(front, lua)?;
let userdata = userdata.borrow::<T>()?;
method(lua, &userdata, A::from_lua_multi(args, lua)?)?.to_lua_multi(lua)
} else {
Err(Error::FromLuaConversionError {
from: "missing argument",
to: "userdata",
message: None,
})
}
})
}
fn box_method_mut<A, R, M>(method: M) -> Callback<'lua, 'static>
where
A: FromLuaMulti<'lua>,
R: ToLuaMulti<'lua>,
M: 'static + MaybeSend + FnMut(&'lua Lua, &mut T, A) -> Result<R>,
{
let method = RefCell::new(method);
Box::new(move |lua, mut args| {
if let Some(front) = args.pop_front() {
let userdata = AnyUserData::from_lua(front, lua)?;
let mut userdata = userdata.borrow_mut::<T>()?;
let mut method = method
.try_borrow_mut()
.map_err(|_| Error::RecursiveMutCallback)?;
(&mut *method)(lua, &mut userdata, A::from_lua_multi(args, lua)?)?.to_lua_multi(lua)
} else {
Err(Error::FromLuaConversionError {
from: "missing argument",
to: "userdata",
message: None,
})
}
})
}
#[cfg(feature = "async")]
fn box_async_method<A, R, M, MR>(method: M) -> AsyncCallback<'lua, 'static>
where
T: Clone,
A: FromLuaMulti<'lua>,
R: ToLuaMulti<'lua>,
M: 'static + MaybeSend + Fn(&'lua Lua, T, A) -> MR,
MR: 'lua + Future<Output = Result<R>>,
{
Box::new(move |lua, mut args| {
let fut_res = || {
if let Some(front) = args.pop_front() {
let userdata = AnyUserData::from_lua(front, lua)?;
let userdata = userdata.borrow::<T>()?.clone();
Ok(method(lua, userdata, A::from_lua_multi(args, lua)?))
} else {
Err(Error::FromLuaConversionError {
from: "missing argument",
to: "userdata",
message: None,
})
}
};
match fut_res() {
Ok(fut) => Box::pin(fut.and_then(move |ret| future::ready(ret.to_lua_multi(lua)))),
Err(e) => Box::pin(future::err(e)),
}
})
}
fn box_function<A, R, F>(function: F) -> Callback<'lua, 'static>
where
A: FromLuaMulti<'lua>,
R: ToLuaMulti<'lua>,
F: 'static + MaybeSend + Fn(&'lua Lua, A) -> Result<R>,
{
Box::new(move |lua, args| function(lua, A::from_lua_multi(args, lua)?)?.to_lua_multi(lua))
}
fn box_function_mut<A, R, F>(function: F) -> Callback<'lua, 'static>
where
A: FromLuaMulti<'lua>,
R: ToLuaMulti<'lua>,
F: 'static + MaybeSend + FnMut(&'lua Lua, A) -> Result<R>,
{
let function = RefCell::new(function);
Box::new(move |lua, args| {
let function = &mut *function
.try_borrow_mut()
.map_err(|_| Error::RecursiveMutCallback)?;
function(lua, A::from_lua_multi(args, lua)?)?.to_lua_multi(lua)
})
}
#[cfg(feature = "async")]
fn box_async_function<A, R, F, FR>(function: F) -> AsyncCallback<'lua, 'static>
where
A: FromLuaMulti<'lua>,
R: ToLuaMulti<'lua>,
F: 'static + MaybeSend + Fn(&'lua Lua, A) -> FR,
FR: 'lua + Future<Output = Result<R>>,
{
Box::new(move |lua, args| {
let args = match A::from_lua_multi(args, lua) {
Ok(args) => args,
Err(e) => return Box::pin(future::err(e)),
};
Box::pin(function(lua, args).and_then(move |ret| future::ready(ret.to_lua_multi(lua))))
})
}
}
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