use std::cell::{Ref, RefCell, RefMut}; use crate::error::{Error, Result}; use crate::ffi; use crate::lua::Lua; use crate::types::LuaRef; use crate::util::{assert_stack, get_userdata, StackGuard}; use crate::value::{FromLua, FromLuaMulti, ToLua, ToLuaMulti}; /// Kinds of metamethods that can be overridden. /// /// Currently, this mechanism does not allow overriding the `__gc` metamethod, since there is /// generally no need to do so: [`UserData`] implementors can instead just implement `Drop`. /// /// [`UserData`]: trait.UserData.html #[derive(Debug, Copy, Clone, Eq, PartialEq, Hash)] pub enum MetaMethod { /// The `+` operator. Add, /// The `-` operator. Sub, /// The `*` operator. Mul, /// The `/` operator. Div, /// The `%` operator. Mod, /// The `^` operator. Pow, /// The unary minus (`-`) operator. Unm, /// The floor division (//) operator. IDiv, /// The bitwise AND (&) operator. BAnd, /// The bitwise OR (|) operator. BOr, /// The bitwise XOR (binary ~) operator. BXor, /// The bitwise NOT (unary ~) operator. BNot, /// The bitwise left shift (<<) operator. Shl, /// The bitwise right shift (>>) operator. Shr, /// The string concatenation operator `..`. Concat, /// The length operator `#`. Len, /// The `==` operator. Eq, /// The `<` operator. Lt, /// The `<=` operator. Le, /// Index access `obj[key]`. Index, /// Index write access `obj[key] = value`. NewIndex, /// The call "operator" `obj(arg1, args2, ...)`. Call, /// The `__tostring` metamethod. /// /// This is not an operator, but will be called by methods such as `tostring` and `print`. ToString, } impl MetaMethod { pub(crate) fn name(self) -> &'static [u8] { match self { MetaMethod::Add => b"__add", MetaMethod::Sub => b"__sub", MetaMethod::Mul => b"__mul", MetaMethod::Div => b"__div", MetaMethod::Mod => b"__mod", MetaMethod::Pow => b"__pow", MetaMethod::Unm => b"__unm", MetaMethod::IDiv => b"__idiv", MetaMethod::BAnd => b"__band", MetaMethod::BOr => b"__bor", MetaMethod::BXor => b"__bxor", MetaMethod::BNot => b"__bnot", MetaMethod::Shl => b"__shl", MetaMethod::Shr => b"__shr", MetaMethod::Concat => b"__concat", MetaMethod::Len => b"__len", MetaMethod::Eq => b"__eq", MetaMethod::Lt => b"__lt", MetaMethod::Le => b"__le", MetaMethod::Index => b"__index", MetaMethod::NewIndex => b"__newindex", MetaMethod::Call => b"__call", MetaMethod::ToString => b"__tostring", } } } /// Method registry for [`UserData`] implementors. /// /// [`UserData`]: trait.UserData.html pub trait UserDataMethods<'lua, T: UserData> { /// Add a method which accepts a `&T` as the first parameter. /// /// Regular methods are implemented by overriding the `__index` metamethod and returning the /// accessed method. This allows them to be used with the expected `userdata:method()` syntax. /// /// If `add_meta_method` is used to set the `__index` metamethod, the `__index` metamethod will /// be used as a fall-back if no regular method is found. fn add_method(&mut self, name: &S, method: M) where S: ?Sized + AsRef<[u8]>, A: FromLuaMulti<'lua>, R: ToLuaMulti<'lua>, M: 'static + Send + Fn(&'lua Lua, &T, A) -> Result; /// Add a regular method which accepts a `&mut T` as the first parameter. /// /// Refer to [`add_method`] for more information about the implementation. /// /// [`add_method`]: #method.add_method fn add_method_mut(&mut self, name: &S, method: M) where S: ?Sized + AsRef<[u8]>, A: FromLuaMulti<'lua>, R: ToLuaMulti<'lua>, M: 'static + Send + FnMut(&'lua Lua, &mut T, A) -> Result; /// Add a regular method as a function which accepts generic arguments, the first argument will /// be a `UserData` of type T if the method is called with Lua method syntax: /// `my_userdata:my_method(arg1, arg2)`, or it is passed in as the first argument: /// `my_userdata.my_method(my_userdata, arg1, arg2)`. /// /// Prefer to use [`add_method`] or [`add_method_mut`] as they are easier to use. /// /// [`add_method`]: #method.add_method /// [`add_method_mut`]: #method.add_method_mut fn add_function(&mut self, name: &S, function: F) where S: ?Sized + AsRef<[u8]>, A: FromLuaMulti<'lua>, R: ToLuaMulti<'lua>, F: 'static + Send + Fn(&'lua Lua, A) -> Result; /// Add a regular method as a mutable function which accepts generic arguments. /// /// This is a version of [`add_function`] that accepts a FnMut argument. /// /// [`add_function`]: #method.add_function fn add_function_mut(&mut self, name: &S, function: F) where S: ?Sized + AsRef<[u8]>, A: FromLuaMulti<'lua>, R: ToLuaMulti<'lua>, F: 'static + Send + FnMut(&'lua Lua, A) -> Result; /// Add a metamethod which accepts a `&T` as the first parameter. /// /// # Note /// /// This can cause an error with certain binary metamethods that can trigger if only the right /// side has a metatable. To prevent this, use [`add_meta_function`]. /// /// [`add_meta_function`]: #method.add_meta_function fn add_meta_method(&mut self, meta: MetaMethod, method: M) where A: FromLuaMulti<'lua>, R: ToLuaMulti<'lua>, M: 'static + Send + Fn(&'lua Lua, &T, A) -> Result; /// Add a metamethod as a function which accepts a `&mut T` as the first parameter. /// /// # Note /// /// This can cause an error with certain binary metamethods that can trigger if only the right /// side has a metatable. To prevent this, use [`add_meta_function`]. /// /// [`add_meta_function`]: #method.add_meta_function fn add_meta_method_mut(&mut self, meta: MetaMethod, method: M) where A: FromLuaMulti<'lua>, R: ToLuaMulti<'lua>, M: 'static + Send + FnMut(&'lua Lua, &mut T, A) -> Result; /// Add a metamethod which accepts generic arguments. /// /// Metamethods for binary operators can be triggered if either the left or right argument to /// the binary operator has a metatable, so the first argument here is not necessarily a /// userdata of type `T`. fn add_meta_function(&mut self, meta: MetaMethod, function: F) where A: FromLuaMulti<'lua>, R: ToLuaMulti<'lua>, F: 'static + Send + Fn(&'lua Lua, A) -> Result; /// Add a metamethod as a mutable function which accepts generic arguments. /// /// This is a version of [`add_meta_function`] that accepts a FnMut argument. /// /// [`add_meta_function`]: #method.add_meta_function fn add_meta_function_mut(&mut self, meta: MetaMethod, function: F) where A: FromLuaMulti<'lua>, R: ToLuaMulti<'lua>, F: 'static + Send + FnMut(&'lua Lua, A) -> Result; } /// Trait for custom userdata types. /// /// By implementing this trait, a struct becomes eligible for use inside Lua code. Implementations /// of [`ToLua`] and [`FromLua`] are automatically provided. /// /// # Examples /// /// ``` /// # use mlua::{Lua, Result, UserData}; /// # fn main() -> Result<()> { /// # let lua = Lua::new(); /// struct MyUserData(i32); /// /// impl UserData for MyUserData {} /// /// // `MyUserData` now implements `ToLua`: /// lua.globals().set("myobject", MyUserData(123))?; /// /// lua.load("assert(type(myobject) == 'userdata')").exec()?; /// # Ok(()) /// # } /// ``` /// /// Custom methods and operators can be provided by implementing `add_methods` (refer to /// [`UserDataMethods`] for more information): /// /// ``` /// # use mlua::{Lua, MetaMethod, Result, UserData, UserDataMethods}; /// # fn main() -> Result<()> { /// # let lua = Lua::new(); /// struct MyUserData(i32); /// /// impl UserData for MyUserData { /// fn add_methods<'lua, M: UserDataMethods<'lua, Self>>(methods: &mut M) { /// methods.add_method("get", |_, this, _: ()| { /// Ok(this.0) /// }); /// /// methods.add_method_mut("add", |_, this, value: i32| { /// this.0 += value; /// Ok(()) /// }); /// /// methods.add_meta_method(MetaMethod::Add, |_, this, value: i32| { /// Ok(this.0 + value) /// }); /// } /// } /// /// lua.globals().set("myobject", MyUserData(123))?; /// /// lua.load(r#" /// assert(myobject:get() == 123) /// myobject:add(7) /// assert(myobject:get() == 130) /// assert(myobject + 10 == 140) /// "#).exec()?; /// # Ok(()) /// # } /// ``` /// /// [`ToLua`]: trait.ToLua.html /// [`FromLua`]: trait.FromLua.html /// [`UserDataMethods`]: trait.UserDataMethods.html pub trait UserData: Sized { /// Adds custom methods and operators specific to this userdata. fn add_methods<'lua, T: UserDataMethods<'lua, Self>>(_methods: &mut T) {} } /// Handle to an internal Lua userdata for any type that implements [`UserData`]. /// /// Similar to `std::any::Any`, this provides an interface for dynamic type checking via the [`is`] /// and [`borrow`] methods. /// /// Internally, instances are stored in a `RefCell`, to best match the mutable semantics of the Lua /// language. /// /// # Note /// /// This API should only be used when necessary. Implementing [`UserData`] already allows defining /// methods which check the type and acquire a borrow behind the scenes. /// /// [`UserData`]: trait.UserData.html /// [`is`]: #method.is /// [`borrow`]: #method.borrow #[derive(Clone, Debug)] pub struct AnyUserData<'lua>(pub(crate) LuaRef<'lua>); impl<'lua> AnyUserData<'lua> { /// Checks whether the type of this userdata is `T`. pub fn is(&self) -> bool { match self.inspect(|_: &RefCell| Ok(())) { Ok(()) => true, Err(Error::UserDataTypeMismatch) => false, Err(_) => unreachable!(), } } /// Borrow this userdata immutably if it is of type `T`. /// /// # Errors /// /// Returns a `UserDataBorrowError` if the userdata is already mutably borrowed. Returns a /// `UserDataTypeMismatch` if the userdata is not of type `T`. pub fn borrow(&self) -> Result> { self.inspect(|cell| Ok(cell.try_borrow().map_err(|_| Error::UserDataBorrowError)?)) } /// Borrow this userdata mutably if it is of type `T`. /// /// # Errors /// /// Returns a `UserDataBorrowMutError` if the userdata is already borrowed. Returns a /// `UserDataTypeMismatch` if the userdata is not of type `T`. pub fn borrow_mut(&self) -> Result> { self.inspect(|cell| { Ok(cell .try_borrow_mut() .map_err(|_| Error::UserDataBorrowMutError)?) }) } /// Sets an associated value to this `AnyUserData`. /// /// The value may be any Lua value whatsoever, and can be retrieved with [`get_user_value`]. /// /// [`get_user_value`]: #method.get_user_value pub fn set_user_value>(&self, v: V) -> Result<()> { let lua = self.0.lua; #[cfg(not(feature = "lua53"))] let v = { // Lua 5.1 allows to store only table. Then we will wrap the value. let t = lua.create_table()?; t.raw_set(1, v)?; crate::Value::Table(t) }; #[cfg(feature = "lua53")] let v = v.to_lua(lua)?; unsafe { let _sg = StackGuard::new(lua.state); assert_stack(lua.state, 2); lua.push_ref(&self.0); lua.push_value(v)?; ffi::lua_setuservalue(lua.state, -2); Ok(()) } } /// Returns an associated value set by [`set_user_value`]. /// /// [`set_user_value`]: #method.set_user_value pub fn get_user_value>(&self) -> Result { let lua = self.0.lua; let res = unsafe { let _sg = StackGuard::new(lua.state); assert_stack(lua.state, 3); lua.push_ref(&self.0); ffi::lua_getuservalue(lua.state, -1); lua.pop_value() }; #[cfg(not(feature = "lua53"))] return crate::Table::from_lua(res, lua)?.get(1); #[cfg(feature = "lua53")] V::from_lua(res, lua) } fn inspect<'a, T, R, F>(&'a self, func: F) -> Result where T: 'static + UserData, F: FnOnce(&'a RefCell) -> Result, { unsafe { let lua = self.0.lua; let _sg = StackGuard::new(lua.state); assert_stack(lua.state, 3); lua.push_ref(&self.0); if ffi::lua_getmetatable(lua.state, -1) == 0 { Err(Error::UserDataTypeMismatch) } else { ffi::lua_rawgeti( lua.state, ffi::LUA_REGISTRYINDEX, lua.userdata_metatable::()? as ffi::lua_Integer, ); if ffi::lua_rawequal(lua.state, -1, -2) == 0 { Err(Error::UserDataTypeMismatch) } else { func(&*get_userdata::>(lua.state, -3)) } } } } }