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|
#![cfg(feature = "serialize")]
use std::collections::HashMap;
use mlua::{
DeserializeOptions, Error, Lua, LuaSerdeExt, Result as LuaResult, SerializeOptions, UserData,
Value,
};
use serde::{Deserialize, Serialize};
#[test]
fn test_serialize() -> Result<(), Box<dyn std::error::Error>> {
#[derive(Serialize)]
struct MyUserData(i64, String);
impl UserData for MyUserData {}
let lua = Lua::new();
let globals = lua.globals();
let ud = lua.create_ser_userdata(MyUserData(123, "test userdata".into()))?;
globals.set("ud", ud)?;
globals.set("null", lua.null())?;
let empty_array = lua.create_table()?;
empty_array.set_metatable(Some(lua.array_metatable()));
globals.set("empty_array", empty_array)?;
let val = lua
.load(
r#"
{
_bool = true,
_integer = 123,
_number = 321.99,
_string = "test string serialization",
_table_arr = {nil, "value 1", nil, "value 2", {}},
_table_map = {["table"] = "map", ["null"] = null},
_bytes = "\240\040\140\040",
_userdata = ud,
_null = null,
_empty_map = {},
_empty_array = empty_array,
}
"#,
)
.eval::<Value>()?;
let json = serde_json::json!({
"_bool": true,
"_integer": 123,
"_number": 321.99,
"_string": "test string serialization",
"_table_arr": [null, "value 1", null, "value 2", {}],
"_table_map": {"table": "map", "null": null},
"_bytes": [240, 40, 140, 40],
"_userdata": [123, "test userdata"],
"_null": null,
"_empty_map": {},
"_empty_array": [],
});
assert_eq!(serde_json::to_value(&val)?, json);
// Test to-from loop
let val = lua.to_value(&json)?;
let expected_json = lua.from_value::<serde_json::Value>(val)?;
assert_eq!(expected_json, json);
Ok(())
}
#[test]
fn test_serialize_in_scope() -> LuaResult<()> {
#[derive(Serialize, Clone)]
struct MyUserData(i64, String);
impl UserData for MyUserData {}
let lua = Lua::new();
lua.scope(|scope| {
let ud = scope.create_ser_userdata(MyUserData(-5, "test userdata".into()))?;
assert_eq!(
serde_json::to_value(&ud).unwrap(),
serde_json::json!((-5, "test userdata"))
);
Ok(())
})?;
lua.scope(|scope| {
let ud = scope.create_ser_userdata(MyUserData(-5, "test userdata".into()))?;
lua.globals().set("ud", ud)
})?;
let val = lua.load("ud").eval::<Value>()?;
match serde_json::to_value(&val) {
Ok(v) => panic!("expected destructed error, got {}", v),
Err(e) if e.to_string().contains("destructed") => {}
Err(e) => panic!("expected destructed error, got {}", e),
}
struct MyUserDataRef<'a>(&'a ());
impl<'a> UserData for MyUserDataRef<'a> {}
lua.scope(|scope| {
let ud = scope.create_nonstatic_userdata(MyUserDataRef(&()))?;
match serde_json::to_value(&ud) {
Ok(v) => panic!("expected serialization error, got {}", v),
Err(serde_json::Error { .. }) => {}
};
Ok(())
})?;
Ok(())
}
#[test]
fn test_serialize_failure() -> Result<(), Box<dyn std::error::Error>> {
#[derive(Serialize)]
struct MyUserData(i64);
impl UserData for MyUserData {}
let lua = Lua::new();
let ud = Value::UserData(lua.create_userdata(MyUserData(123))?);
match serde_json::to_value(&ud) {
Ok(v) => panic!("expected serialization error, got {}", v),
Err(serde_json::Error { .. }) => {}
}
let func = lua.create_function(|_, _: ()| Ok(()))?;
match serde_json::to_value(&Value::Function(func.clone())) {
Ok(v) => panic!("expected serialization error, got {}", v),
Err(serde_json::Error { .. }) => {}
}
let thr = lua.create_thread(func)?;
match serde_json::to_value(&Value::Thread(thr)) {
Ok(v) => panic!("expected serialization error, got {}", v),
Err(serde_json::Error { .. }) => {}
}
Ok(())
}
#[test]
fn test_to_value_struct() -> LuaResult<()> {
let lua = Lua::new();
let globals = lua.globals();
globals.set("null", lua.null())?;
#[derive(Serialize)]
struct Test {
name: String,
key: i64,
data: Option<bool>,
}
let test = Test {
name: "alex".to_string(),
key: -16,
data: None,
};
globals.set("value", lua.to_value(&test)?)?;
lua.load(
r#"
assert(value["name"] == "alex")
assert(value["key"] == -16)
assert(value["data"] == null)
"#,
)
.exec()
}
#[test]
fn test_to_value_enum() -> LuaResult<()> {
let lua = Lua::new();
let globals = lua.globals();
#[derive(Serialize)]
enum E {
Unit,
Integer(u32),
Tuple(u32, u32),
Struct { a: u32 },
}
let u = E::Unit;
globals.set("value", lua.to_value(&u)?)?;
lua.load(r#"assert(value == "Unit")"#).exec()?;
let n = E::Integer(1);
globals.set("value", lua.to_value(&n)?)?;
lua.load(r#"assert(value["Integer"] == 1)"#).exec()?;
let t = E::Tuple(1, 2);
globals.set("value", lua.to_value(&t)?)?;
lua.load(
r#"
assert(value["Tuple"][1] == 1)
assert(value["Tuple"][2] == 2)
"#,
)
.exec()?;
let s = E::Struct { a: 1 };
globals.set("value", lua.to_value(&s)?)?;
lua.load(r#"assert(value["Struct"]["a"] == 1)"#).exec()?;
Ok(())
}
#[test]
fn test_to_value_with_options() -> Result<(), Box<dyn std::error::Error>> {
let lua = Lua::new();
let globals = lua.globals();
globals.set("null", lua.null())?;
// set_array_metatable
let data = lua.to_value_with(
&Vec::<i32>::new(),
SerializeOptions::new().set_array_metatable(false),
)?;
globals.set("data", data)?;
lua.load(
r#"
assert(type(data) == "table" and #data == 0)
assert(getmetatable(data) == nil)
"#,
)
.exec()?;
#[derive(Serialize)]
struct UnitStruct;
#[derive(Serialize)]
struct MyData {
map: HashMap<&'static str, Option<i32>>,
unit: (),
unitstruct: UnitStruct,
}
// serialize_none_to_null
let mut map = HashMap::new();
map.insert("key", None);
let mydata = MyData {
map,
unit: (),
unitstruct: UnitStruct,
};
let data2 = lua.to_value_with(
&mydata,
SerializeOptions::new().serialize_none_to_null(false),
)?;
globals.set("data2", data2)?;
lua.load(
r#"
assert(data2.map.key == nil)
assert(data2.unit == null)
assert(data2.unitstruct == null)
"#,
)
.exec()?;
// serialize_unit_to_null
let data3 = lua.to_value_with(
&mydata,
SerializeOptions::new().serialize_unit_to_null(false),
)?;
globals.set("data3", data3)?;
lua.load(
r#"
assert(data3.map.key == null)
assert(data3.unit == nil)
assert(data3.unitstruct == nil)
"#,
)
.exec()?;
Ok(())
}
#[test]
fn test_from_value_nested_tables() -> Result<(), Box<dyn std::error::Error>> {
let lua = Lua::new();
let value = lua
.load(
r#"
local table_a = {a = "a"}
local table_b = {"b"}
return {
a = table_a,
b = {table_b, table_b},
ab = {a = table_a, b = table_b}
}
"#,
)
.eval::<Value>()?;
let got = lua.from_value::<serde_json::Value>(value)?;
assert_eq!(
got,
serde_json::json!({
"a": {"a": "a"},
"b": [["b"], ["b"]],
"ab": {"a": {"a": "a"}, "b": ["b"]},
})
);
Ok(())
}
#[test]
fn test_from_value_struct() -> Result<(), Box<dyn std::error::Error>> {
let lua = Lua::new();
#[derive(Deserialize, PartialEq, Debug)]
struct Test {
int: u32,
seq: Vec<String>,
map: HashMap<i32, i32>,
empty: Vec<()>,
tuple: (u8, u8, u8),
}
let value = lua
.load(
r#"
{
int = 1,
seq = {"a", "b"},
map = {2, [4] = 1},
empty = {},
tuple = {10, 20, 30},
}
"#,
)
.eval::<Value>()?;
let got = lua.from_value(value)?;
assert_eq!(
Test {
int: 1,
seq: vec!["a".into(), "b".into()],
map: vec![(1, 2), (4, 1)].into_iter().collect(),
empty: vec![],
tuple: (10, 20, 30),
},
got
);
Ok(())
}
#[test]
fn test_from_value_enum() -> Result<(), Box<dyn std::error::Error>> {
let lua = Lua::new();
#[derive(Deserialize, PartialEq, Debug)]
enum E {
Unit,
Integer(u32),
Tuple(u32, u32),
Struct { a: u32 },
}
let value = lua.load(r#""Unit""#).eval()?;
let got = lua.from_value(value)?;
assert_eq!(E::Unit, got);
let value = lua.load(r#"{Integer = 1}"#).eval()?;
let got = lua.from_value(value)?;
assert_eq!(E::Integer(1), got);
let value = lua.load(r#"{Tuple = {1, 2}}"#).eval()?;
let got = lua.from_value(value)?;
assert_eq!(E::Tuple(1, 2), got);
let value = lua.load(r#"{Struct = {a = 3}}"#).eval()?;
let got = lua.from_value(value)?;
assert_eq!(E::Struct { a: 3 }, got);
Ok(())
}
#[test]
fn test_from_value_enum_untagged() -> Result<(), Box<dyn std::error::Error>> {
let lua = Lua::new();
lua.globals().set("null", lua.null())?;
#[derive(Deserialize, PartialEq, Debug)]
#[serde(untagged)]
enum Eut {
Unit,
Integer(u64),
Tuple(u32, u32),
Struct { a: u32 },
}
let value = lua.load(r#"null"#).eval()?;
let got = lua.from_value(value)?;
assert_eq!(Eut::Unit, got);
let value = lua.load(r#"1"#).eval()?;
let got = lua.from_value(value)?;
assert_eq!(Eut::Integer(1), got);
let value = lua.load(r#"{3, 1}"#).eval()?;
let got = lua.from_value(value)?;
assert_eq!(Eut::Tuple(3, 1), got);
let value = lua.load(r#"{a = 10}"#).eval()?;
let got = lua.from_value(value)?;
assert_eq!(Eut::Struct { a: 10 }, got);
let value = lua.load(r#"{b = 12}"#).eval()?;
match lua.from_value::<Eut>(value) {
Ok(v) => panic!("expected Error::DeserializeError, got {:?}", v),
Err(Error::DeserializeError(_)) => {}
Err(e) => panic!("expected Error::DeserializeError, got {}", e),
}
Ok(())
}
#[test]
fn test_from_value_with_options() -> Result<(), Box<dyn std::error::Error>> {
let lua = Lua::new();
// Deny unsupported types by default
let value = Value::Function(lua.create_function(|_, ()| Ok(()))?);
match lua.from_value::<Option<String>>(value) {
Ok(v) => panic!("expected deserialization error, got {:?}", v),
Err(Error::DeserializeError(err)) => {
assert!(err.contains("unsupported value type"))
}
Err(err) => panic!("expected `DeserializeError` error, got {:?}", err),
};
// Allow unsupported types
let value = Value::Function(lua.create_function(|_, ()| Ok(()))?);
let options = DeserializeOptions::new().deny_unsupported_types(false);
assert_eq!(lua.from_value_with::<()>(value, options)?, ());
// Allow unsupported types (in a table seq)
let value = lua.load(r#"{"a", "b", function() end, "c"}"#).eval()?;
let options = DeserializeOptions::new().deny_unsupported_types(false);
assert_eq!(
lua.from_value_with::<Vec<String>>(value, options)?,
vec!["a".to_string(), "b".to_string(), "c".to_string()]
);
// Deny recursive tables by default
let value = lua.load(r#"local t = {}; t.t = t; return t"#).eval()?;
match lua.from_value::<HashMap<String, Option<String>>>(value) {
Ok(v) => panic!("expected deserialization error, got {:?}", v),
Err(Error::DeserializeError(err)) => {
assert!(err.contains("recursive table detected"))
}
Err(err) => panic!("expected `DeserializeError` error, got {:?}", err),
};
// Check recursion when using `Serialize` impl
let t = lua.create_table()?;
t.set("t", t.clone())?;
assert!(serde_json::to_string(&t).is_err());
// Serialize Lua globals table
#[derive(Debug, Deserialize)]
struct Globals {
hello: String,
}
let options = DeserializeOptions::new()
.deny_unsupported_types(false)
.deny_recursive_tables(false);
lua.load(r#"hello = "world""#).exec()?;
let globals: Globals = lua.from_value_with(Value::Table(lua.globals()), options)?;
assert_eq!(globals.hello, "world");
Ok(())
}
|