135 lines
4.6 KiB
Rust
135 lines
4.6 KiB
Rust
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#[macro_use]
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extern crate rlua;
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use rlua::*;
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fn examples() -> LuaResult<()> {
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// Create a Lua context with Lua::new(). Eventually, this will allow further control on the
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// lua std library, and will specifically allow limiting Lua to a subset of "safe"
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// functionality.
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let lua = Lua::new();
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// You can get and set global variables
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lua.set("string_var", "hello")?;
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lua.set("int_var", 42)?;
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assert_eq!(lua.get::<_, String>("string_var")?, "hello");
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assert_eq!(lua.get::<_, i64>("int_var")?, 42);
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// You can load and evaluate lua code. The second parameter here gives the chunk a better name
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// when lua error messages are printed.
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lua.load(r#"
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global = 'foo'..'bar'
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"#,
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Some("example code"))?;
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assert_eq!(lua.get::<_, String>("global")?, "foobar");
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assert_eq!(lua.eval::<i32>("1 + 1")?, 2);
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assert_eq!(lua.eval::<bool>("false == false")?, true);
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assert_eq!(lua.eval::<i32>("return 1 + 2")?, 3);
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// You can create and manage lua tables
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let array_table = lua.create_empty_table()?;
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array_table.set(1, "one")?;
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array_table.set(2, "two")?;
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array_table.set(3, "three")?;
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assert_eq!(array_table.length()?, 3);
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let map_table = lua.create_empty_table()?;
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map_table.set("one", 1)?;
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map_table.set("two", 2)?;
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map_table.set("three", 3)?;
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let v: i64 = map_table.get("two")?;
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assert_eq!(v, 2);
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// You can pass values like LuaTable back into Lua
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lua.set("array_table", array_table)?;
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lua.set("map_table", map_table)?;
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lua.eval::<()>(r#"
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for k, v in pairs(array_table) do
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print(k, v)
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end
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for k, v in pairs(map_table) do
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print(k, v)
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end
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"#)?;
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// You can load lua functions
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let print: LuaFunction = lua.get("print")?;
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print.call::<_, ()>("hello from rust")?;
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// There is a specific method for handling variadics that involves Heterogeneous Lists. This
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// is one way to call a function with multiple parameters:
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print
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.call::<_, ()>(lua_multi!["hello", "again", "from", "rust"])?;
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// You can bind rust functions to lua as well
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let check_equal = lua.create_function(|lua, args| {
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// Functions wrapped in lua receive their arguments packed together as LuaMultiValue. The
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// first thing that most wrapped functions will do is "unpack" this LuaMultiValue into its
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// parts. Due to lifetime type signature limitations, this cannot be done automatically from the
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// function signature, but this will be fixed with ATCs. Notice the use of the hlist
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// macros again.
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let lua_multi_pat![list1, list2] = lua.unpack::<LuaMulti![Vec<String>, Vec<String>]>(args)?;
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// This function just checks whether two string lists are equal, and in an inefficient way.
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// Results are returned with lua.pack, which takes any number of values and turns them back
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// into LuaMultiValue. In this way, multiple values can also be returned to Lua. Again,
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// this cannot be inferred as part of the function signature due to the same lifetime type
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// signature limitations.
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lua.pack(list1 == list2)
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})?;
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lua.set("check_equal", check_equal)?;
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assert_eq!(lua.eval::<bool>(r#"check_equal({"a", "b", "c"}, {"a", "b", "c"})"#)?,
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true);
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assert_eq!(lua.eval::<bool>(r#"check_equal({"a", "b", "c"}, {"d", "e", "f"})"#)?,
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false);
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// You can create userdata with methods and metamethods defined on them. Here's a more
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// complete example that shows all of the features of this API together
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#[derive(Copy, Clone)]
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struct Vec2(f32, f32);
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impl LuaUserDataType for Vec2 {
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fn add_methods(methods: &mut LuaUserDataMethods<Self>) {
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methods.add_method("magnitude", |lua, vec, _| {
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let mag_squared = vec.0 * vec.0 + vec.1 * vec.1;
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lua.pack(mag_squared.sqrt())
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});
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methods.add_meta_function(LuaMetaMethod::Add, |lua, params| {
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let lua_multi_pat![vec1, vec2] = lua.unpack::<LuaMulti![Vec2, Vec2]>(params)?;
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lua.pack(Vec2(vec1.0 + vec2.0, vec1.1 + vec2.1))
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});
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}
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}
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let vec2_constructor = lua.create_function(|lua, args| {
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let lua_multi_pat![x, y] = lua.unpack::<LuaMulti![f32, f32]>(args)?;
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lua.pack(Vec2(x, y))
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})?;
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lua.set("vec2", vec2_constructor)?;
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assert_eq!(lua.eval::<f32>("(vec2(1, 2) + vec2(2, 2)):magnitude()")?,
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5.0);
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Ok(())
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}
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fn main() {
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examples().unwrap();
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}
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