12 releases (5 stable)
new 4.0.0 | Nov 20, 2024 |
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3.2.0 |
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3.1.0 | Aug 7, 2024 |
3.0.0 | Jan 15, 2024 |
0.5.1 | Dec 24, 2021 |
#18 in FFI
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Used in 11 crates
(via tarantool)
275KB
5K
SLoC
tlua
This library is a high-level binding for Tarantool LuaJIT. It is fork of hlua library improved and modified to work with Tarantool LuaJIT ABI.
How to use it?
use tlua::Lua;
The Lua
struct is the main element of this library. It represents a context in which you can execute Lua code.
let lua = Lua::new();
You can check the documentation here.
Reading and writing variables
lua.set("x", 2);
lua.exec("x = x + 1").unwrap();
let x: i32 = lua.get("x").unwrap(); // x is equal to 3
Reading and writing global variables of the Lua context can be done with set
and get
.
The get
function returns an Option<T>
and does a copy of the value.
The base types that can be read and written are: i8
, i16
, i32
, u8
, u16
, u32
, f32
, f64
, bool
, String
. &str
can be written but not read.
If you wish so, you can also add other types by implementing the Push
and LuaRead
traits.
Executing Lua
lua.exec("a = 2");
let x: u32 = lua.eval("return 6 * a;").unwrap(); // equals 12
The exec
function takes a &str
and returns Result<(), LuaError>
.
The eval
function takes a &str
and returns a Result<T, LuaError>
where T: LuaRead
.
You can also call exec_from
/eval_from
which take a std::io::Read
as
parameter.
For example you can easily execute the content of a file like this:
lua.exec_from(File::open(&Path::new("script.lua")).unwrap())
Writing functions
In order to write a function, you must wrap it around tlua::functionX
where X
is the number of parameters. This is for the moment a limitation of Rust's inferrence system.
fn add(a: i32, b: i32) -> i32 {
a + b
}
lua.set("add", tlua::function2(add));
lua.exec("local c = add(2, 4)"); // calls the `add` function above
let c: i32 = lua.get("c").unwrap(); // returns 6
In Lua, functions are exactly like regular variables.
You can write regular functions as well as closures:
lua.set("mul", tlua::function2(|a: i32, b: i32| a * b));
Note that the lifetime of the Lua context must be equal to or shorter than the lifetime of closures. This is enforced at compile-time.
let mut a = 5i;
{
let lua = Lua::new();
lua.set("inc", || a += 1); // borrows 'a'
for i in (0 .. 15) {
lua.exec("inc()").unwrap();
}
} // unborrows `a`
assert_eq!(a, 20)
Error handling
If your Rust function returns a Result
object which contains an error, then a Lua error will be triggered.
Manipulating Lua tables
Manipulating a Lua table can be done by reading a LuaTable
object. This can be achieved easily by reading a LuaTable
object.
let table: tlua::LuaTable<_> = lua.get("a").unwrap();
You can then iterate through the table with the .iter()
function. Note that the value returned by the iterator is an Option<(Key, Value)>
, the Option
being empty when either the key or the value is not convertible to the requested type. The filter_map
function (provided by the standard Iterator
trait) is very useful when dealing with this.
for (key, value) in table.iter().filter_map(|e| e) {
...
}
You can also retreive and modify individual indices:
let x = table.get("a").unwrap();
table.set("b", "hello");
Calling Lua functions
You can call Lua functions by reading a functions_read::LuaFunction
.
lua.exec("
function get_five()
return 5
end");
let get_five: tlua::LuaFunction<_> = lua.get("get_five").unwrap();
let value: i32 = get_five.call().unwrap();
assert_eq!(value, 5);
This object holds a mutable reference of Lua
, so you can't read or modify anything in the Lua context while the get_five
variable exists.
It is not possible to store the function for the moment, but it may be in the future.
Reading and writing Rust containers
(note: not yet possible to read all containers, see below)
It is possible to read and write whole Rust containers at once:
lua.set("a", [ 12, 13, 14, 15 ]);
let hashmap: HashMap<i32, f64> = [1., 2., 3.].into_iter().enumerate().map(|(k, v)| (k as i32, *v as f64)).collect();
lua.set("v", hashmap);
If the container has single elements, then the indices will be numerical. For example in the code above, the 12
will be at index 1
, the 13
at index 2
, etc.
If the container has tuples of two elements, then the first one will be considered as the key and the second one as the value.
This can be useful to create APIs:
fn foo() { }
fn bar() { }
lua.set("mylib", [
("foo", tlua::function0(foo)),
("bar", tlua::function0(bar))
]);
lua.exec("mylib.foo()");
It is possible to read a Vec<AnyLuaValue>
:
let lua = Lua::new();
lua.exec(r#"v = { 1, 2, 3 }"#).unwrap();
let read: Vec<_> = lua.get("v").unwrap();
assert_eq!(
read,
[1., 2., 3.].iter()
.map(|x| AnyLuaValue::LuaNumber(*x)).collect::<Vec<_>>());
In case table represents sparse array, has non-numeric keys, or
indices not starting at 1, .get()
will return None
, as Rust's
Vec
doesn't support these features.
It is possible to read a HashMap<AnyHashableLuaValue, AnyLuaValue>
:
let lua = Lua::new();
lua.exec(r#"v = { [-1] = -1, ["foo"] = 2, [2.] = 42 }"#).unwrap();
let read: HashMap<_, _> = lua.get("v").unwrap();
assert_eq!(read[&AnyHashableLuaValue::LuaNumber(-1)], AnyLuaValue::LuaNumber(-1.));
assert_eq!(read[&AnyHashableLuaValue::LuaString("foo".to_owned())], AnyLuaValue::LuaNumber(2.));
assert_eq!(read[&AnyHashableLuaValue::LuaNumber(2)], AnyLuaValue::LuaNumber(42.));
assert_eq!(read.len(), 3);
User data
(note: the API here is very unstable for the moment)
When you expose functions to Lua, you may wish to read or write more elaborate objects. This is called a user data.
To do so, you should implement the Push
, CopyRead
and ConsumeRead
for your types.
This is usually done by redirecting the call to userdata::push_userdata
.
struct Foo;
impl<L> tlua::Push<L> for Foo where L: tlua::AsLua {
fn push_to_lua(&self, lua: L) -> tlua::PushGuard<L> {
lua::userdata::push_userdata(self, lua,
|metatable| {
// you can define all the member functions of Foo here
// see the official Lua documentation for metatables
metatable.set("__call", tlua::function0(|| println!("hello from foo")))
})
}
}
fn main() {
let lua = lua::Lua::new();
lua.set("foo", Foo);
lua.exec("foo()"); // prints "hello from foo"
}
Dependencies
~0.4–1.6MB
~30K SLoC