use std::iter::{self, FromIterator}; use std::{slice, str, vec}; use crate::error::{Error, Result}; use crate::function::Function; use crate::lua::Lua; use crate::string::String; use crate::table::Table; use crate::thread::Thread; use crate::types::{Integer, LightUserData, Number}; use crate::userdata::AnyUserData; /// A dynamically typed Lua value. The `String`, `Table`, `Function`, `Thread`, and `UserData` /// variants contain handle types into the internal Lua state. It is a logic error to mix handle /// types between separate `Lua` instances, or between a parent `Lua` instance and one received as a /// parameter in a Rust callback, and doing so will result in a panic. #[derive(Debug, Clone)] pub enum Value<'lua> { /// The Lua value `nil`. Nil, /// The Lua value `true` or `false`. Boolean(bool), /// A "light userdata" object, equivalent to a raw pointer. LightUserData(LightUserData), /// An integer number. /// /// Any Lua number convertible to a `Integer` will be represented as this variant. Integer(Integer), /// A floating point number. Number(Number), /// An interned string, managed by Lua. /// /// Unlike Rust strings, Lua strings may not be valid UTF-8. String(String<'lua>), /// Reference to a Lua table. Table(Table<'lua>), /// Reference to a Lua function (or closure). Function(Function<'lua>), /// Reference to a Lua thread (or coroutine). Thread(Thread<'lua>), /// Reference to a userdata object that holds a custom type which implements `UserData`. /// Special builtin userdata types will be represented as other `Value` variants. UserData(AnyUserData<'lua>), /// `Error` is a special builtin userdata type. When received from Lua it is implicitly cloned. Error(Error), } pub use self::Value::Nil; impl<'lua> Value<'lua> { pub(crate) fn type_name(&self) -> &'static str { match *self { Value::Nil => "nil", Value::Boolean(_) => "boolean", Value::LightUserData(_) => "light userdata", Value::Integer(_) => "integer", Value::Number(_) => "number", Value::String(_) => "string", Value::Table(_) => "table", Value::Function(_) => "function", Value::Thread(_) => "thread", Value::UserData(_) | Value::Error(_) => "userdata", } } } /// Trait for types convertible to `Value`. pub trait ToLua<'lua> { /// Performs the conversion. fn to_lua(self, lua: &'lua Lua) -> Result>; } /// Trait for types convertible from `Value`. pub trait FromLua<'lua>: Sized { /// Performs the conversion. fn from_lua(lua_value: Value<'lua>, lua: &'lua Lua) -> Result; } /// Multiple Lua values used for both argument passing and also for multiple return values. #[derive(Debug, Clone)] pub struct MultiValue<'lua>(Vec>); impl<'lua> MultiValue<'lua> { /// Creates an empty `MultiValue` containing no values. pub fn new() -> MultiValue<'lua> { MultiValue(Vec::new()) } } impl<'lua> Default for MultiValue<'lua> { fn default() -> MultiValue<'lua> { MultiValue::new() } } impl<'lua> FromIterator> for MultiValue<'lua> { fn from_iter>>(iter: I) -> Self { MultiValue::from_vec(Vec::from_iter(iter)) } } impl<'lua> IntoIterator for MultiValue<'lua> { type Item = Value<'lua>; type IntoIter = iter::Rev>>; fn into_iter(self) -> Self::IntoIter { self.0.into_iter().rev() } } impl<'a, 'lua> IntoIterator for &'a MultiValue<'lua> { type Item = &'a Value<'lua>; type IntoIter = iter::Rev>>; fn into_iter(self) -> Self::IntoIter { (&self.0).into_iter().rev() } } impl<'lua> MultiValue<'lua> { pub fn from_vec(mut v: Vec>) -> MultiValue<'lua> { v.reverse(); MultiValue(v) } pub fn into_vec(self) -> Vec> { let mut v = self.0; v.reverse(); v } pub(crate) fn reserve(&mut self, size: usize) { self.0.reserve(size); } pub(crate) fn push_front(&mut self, value: Value<'lua>) { self.0.push(value); } pub(crate) fn pop_front(&mut self) -> Option> { self.0.pop() } pub fn len(&self) -> usize { self.0.len() } pub fn is_empty(&self) -> bool { self.0.len() == 0 } pub fn iter(&self) -> iter::Rev>> { self.0.iter().rev() } } /// Trait for types convertible to any number of Lua values. /// /// This is a generalization of `ToLua`, allowing any number of resulting Lua values instead of just /// one. Any type that implements `ToLua` will automatically implement this trait. pub trait ToLuaMulti<'lua> { /// Performs the conversion. fn to_lua_multi(self, lua: &'lua Lua) -> Result>; } /// Trait for types that can be created from an arbitrary number of Lua values. /// /// This is a generalization of `FromLua`, allowing an arbitrary number of Lua values to participate /// in the conversion. Any type that implements `FromLua` will automatically implement this trait. pub trait FromLuaMulti<'lua>: Sized { /// Performs the conversion. /// /// In case `values` contains more values than needed to perform the conversion, the excess /// values should be ignored. This reflects the semantics of Lua when calling a function or /// assigning values. Similarly, if not enough values are given, conversions should assume that /// any missing values are nil. fn from_lua_multi(values: MultiValue<'lua>, lua: &'lua Lua) -> Result; }