LuaCSharp 0.2.0
See the version list below for details.
dotnet add package LuaCSharp --version 0.2.0
NuGet\Install-Package LuaCSharp -Version 0.2.0
<PackageReference Include="LuaCSharp" Version="0.2.0" />
paket add LuaCSharp --version 0.2.0
#r "nuget: LuaCSharp, 0.2.0"
// Install LuaCSharp as a Cake Addin #addin nuget:?package=LuaCSharp&version=0.2.0 // Install LuaCSharp as a Cake Tool #tool nuget:?package=LuaCSharp&version=0.2.0
Lua-CSharp
High performance Lua interpreter implemented in C# for .NET and Unity
English | 日本語
Overview
Lua-CSharp is a library that provides a Lua interpreter implemented in C#. By integrating Lua-CSharp, you can easily embed Lua scripts into your .NET applications.
Lua-CSharp leverages the latest C# features, designed with low allocation and high performance in mind. It is optimized to deliver maximum performance when used for interoperation between C# and Lua in C# applications. Below is a benchmark comparison with MoonSharp and NLua:
MoonSharp generally provides good speed but incurs significant allocations due to its design. NLua, being a C-binding implementation, is fast, but introduces substantial overhead when interacting with the C# layer. Lua-CSharp, fully implemented in C#, allows for seamless interaction with C# code without additional overhead. Moreover, it operates reliably in AOT environments since it does not rely on IL generation.
Features
- Lua 5.2 interpreter implemented in C#
- Easy-to-use API integrated with async/await
- Support for exception handling with try-catch
- High-performance implementation utilizing modern C#
- Unity support (works with both Mono and IL2CPP)
Installation
NuGet packages
To use Lua-CSharp, .NET Standard 2.1 or higher is required. The package can be obtained from NuGet.
.NET CLI
dotnet add package LuaCSharp
Package Manager
Install-Package LuaCSharp
Unity
Lua-CSharp can also be used in Unity (works with both Mono and IL2CPP).
Requirements
- Unity 2021.3 or higher
Installation
- Install NugetForUnity.
- Open the NuGet window by going to
NuGet > Manage NuGet Packages
, search for theLuaCSharp
package, and install it.
Quick Start
By using the LuaState
class, you can execute Lua scripts from C#. Below is a sample code that evaluates a simple calculation written in Lua.
using Lua;
// Create a LuaState
var state = LuaState.Create();
// Execute a Lua script string with DoStringAsync
var results = await state.DoStringAsync("return 1 + 1");
// 2
Console.WriteLine(results[0]);
[!WARNING]
LuaState
is not thread-safe. Do not access it from multiple threads simultaneously.
LuaValue
Values in Lua scripts are represented by the LuaValue
type. The value of a LuaValue
can be read using TryRead<T>(out T value)
or Read<T>()
.
var results = await state.DoStringAsync("return 1 + 1");
// double
var value = results[0].Read<double>();
You can also get the type of the value from the Type
property.
var isNil = results[0].Type == LuaValueType.Nil;
Below is a table showing the type mapping between Lua and C#.
Lua | C# |
---|---|
nil |
LuaValue.Nil |
boolean |
bool |
string |
string |
number |
double , float |
table |
LuaTable |
function |
LuaFunction |
userdata |
LuaUserData |
thread |
LuaThread |
When creating a LuaValue
from the C# side, compatible types are implicitly converted into LuaValue
.
LuaValue value;
value = 1.2; // double -> LuaValue
value = "foo"; // string -> LuaValue
value = new LuaTable() // LuaTable -> LuaValue
LuaTable
Lua tables are represented by the LuaTable
type. They can be used similarly to LuaValue[]
or Dictionary<LuaValue, LuaValue>
.
// Create a table in Lua
var results = await state.DoStringAsync("return { a = 1, b = 2, c = 3 }");
var table1 = results[0].Read<LuaTable>();
// 1
Console.WriteLine(table1["a"]);
// Create a table in C#
results = await state.DoStringAsync("return { 1, 2, 3 }");
var table2 = results[0].Read<LuaTable>();
// 1 (Note: Lua arrays are 1-indexed)
Console.WriteLine(table2[1]);
Global Environment
You can access Lua's global environment through state.Environment
. This table allows for easy value exchange between Lua and C#.
// Set a = 10
state.Environment["a"] = 10;
var results = await state.DoStringAsync("return a");
// 10
Console.WriteLine(results[0]);
Standard Libraries
You can use Lua's standard libraries as well. By calling state.OpenStandardLibraries()
, the standard library tables are added to the LuaState
.
using Lua;
using Lua.Standard;
var state = LuaState.Create();
// Add standard libraries
state.OpenStandardLibraries();
var results = await state.DoStringAsync("return math.pi");
Console.WriteLine(results[0]); // 3.141592653589793
For more details on standard libraries, refer to the Lua official manual.
[!WARNING] Lua-CSharp does not support all functions of the standard libraries. For details, refer to the Compatibility section.
Functions
Lua functions are represented by the LuaFunction
type. With LuaFunction
, you can call Lua functions from C#, or define functions in C# that can be called from Lua.
Calling Lua Functions from C#
-- lua2cs.lua
local function add(a, b)
return a + b
end
return add;
var results = await state.DoFileAsync("lua2cs.lua");
var func = results[0].Read<LuaFunction>();
// Execute the function with arguments
var funcResults = await func.InvokeAsync(state, new[] { 1, 2 });
// 3
Console.WriteLine(funcResults[0]);
Calling C# Functions from Lua
It is possible to create a LuaFunction
from a lambda expression.
// Add the function to the global environment
state.Environment["add"] = new LuaFunction((context, buffer, ct) =>
{
// Get the arguments using context.GetArgument<T>()
var arg0 = context.GetArgument<double>(0);
var arg1 = context.GetArgument<double>(1);
// Write the return value to the buffer
buffer.Span[0] = arg0 + arg1;
// Return the number of values
return new(1);
});
// Execute a Lua script
var results = await state.DoFileAsync("cs2lua.lua");
// 3
Console.WriteLine(results[i]);
-- cs2lua.lua
return add(1, 2)
Additionally, LuaFunction
operates asynchronously. Therefore, you can define a function that waits for an operation in Lua, such as the example below:
// Define a function that waits for the given number of seconds using Task.Delay
state.Environment["wait"] = new LuaFunction(async (context, buffer, ct) =>
{
var sec = context.GetArgument<double>(0);
await Task.Delay(TimeSpan.FromSeconds(sec));
return 0;
});
await state.DoFileAsync("sample.lua");
-- sample.lua
-- The incremented value will be printed to the console every second
local i = 0
while true do
i = i + 1
print(i)
wait(1.0)
end
Coroutines
Lua coroutines are represented by the LuaThread
type.
Coroutines can not only be used within Lua scripts, but you can also await Lua-created coroutines from C#.
-- coroutine.lua
local co = coroutine.create(function()
for i = 1, 10 do
print(i)
coroutine.yield()
end
end)
return co
var results = await state.DoFileAsync("coroutine.lua");
var co = results[0].Read<LuaThread>();
for (int i = 0; i < 10; i++)
{
var resumeResults = await co.ResumeAsync(state);
// Similar to coroutine.resume(), returns true on success and the return values afterward
// 1, 2, 3, 4, ...
Console.WriteLine(resumeResults[1]);
}
Module Loading
In Lua, you can load modules using the require
function. In regular Lua, modules are managed by searchers within the package.searchers
function list. In Lua-CSharp, this is replaced by the ILuaModuleLoader
interface.
public interface ILuaModuleLoader
{
bool Exists(string moduleName);
ValueTask<LuaModule> LoadAsync(string moduleName, CancellationToken cancellationToken = default);
}
You can set the LuaState.ModuleLoader
to change how modules are loaded. By default, the FileModuleLoader
is set to load modules from Lua files.
You can also combine multiple loaders using CompositeModuleLoader.Create(loader1, loader2, ...)
.
state.ModuleLoader = CompositeModuleLoader.Create(
new FileModuleLoader(),
new CustomModuleLoader()
);
Loaded modules are cached in the package.loaded
table, just like regular Lua. This can be accessed via LuaState.LoadedModules
.
Exception Handling
Lua script parsing errors and runtime exceptions throw exceptions that inherit from LuaException
. You can catch these to handle errors during execution.
try
{
await state.DoFileAsync("filename.lua");
}
catch (LuaParseException)
{
// Handle parsing errors
}
catch (LuaRuntimeException)
{
// Handle runtime exceptions
}
Compatibility
Lua-CSharp is designed with integration into .NET in mind, so there are several differences from the C implementation.
Binary
Lua-CSharp does not support Lua bytecode (tools like luac
cannot be used). Only Lua source code can be executed.
Character Encoding
The character encoding used in Lua-CSharp is UTF-16. Since standard Lua assumes a single-byte character encoding, string behavior differs significantly.
For example, in regular Lua, the following code outputs 15
, but in Lua-CSharp, it outputs 5
.
local l = string.len("あいうえお")
print(l)
All string library functions handle strings as UTF-16.
Garbage Collection
Since Lua-CSharp is implemented in C#, it relies on .NET's garbage collector. As a result, memory management behavior differs from regular Lua.
While collectgarbage()
is available, it simply calls the corresponding .NET garbage collection method and may not exhibit the same behavior as C's Lua garbage collector.
License
Lua-CSharp is licensed under the MIT License.
Product | Versions Compatible and additional computed target framework versions. |
---|---|
.NET | net5.0 was computed. net5.0-windows was computed. net6.0 is compatible. net6.0-android was computed. net6.0-ios was computed. net6.0-maccatalyst was computed. net6.0-macos was computed. net6.0-tvos was computed. net6.0-windows was computed. net7.0 was computed. net7.0-android was computed. net7.0-ios was computed. net7.0-maccatalyst was computed. net7.0-macos was computed. net7.0-tvos was computed. net7.0-windows was computed. net8.0 is compatible. net8.0-android was computed. net8.0-browser was computed. net8.0-ios was computed. net8.0-maccatalyst was computed. net8.0-macos was computed. net8.0-tvos was computed. net8.0-windows was computed. |
.NET Core | netcoreapp3.0 was computed. netcoreapp3.1 was computed. |
.NET Standard | netstandard2.1 is compatible. |
MonoAndroid | monoandroid was computed. |
MonoMac | monomac was computed. |
MonoTouch | monotouch was computed. |
Tizen | tizen60 was computed. |
Xamarin.iOS | xamarinios was computed. |
Xamarin.Mac | xamarinmac was computed. |
Xamarin.TVOS | xamarintvos was computed. |
Xamarin.WatchOS | xamarinwatchos was computed. |
-
.NETStandard 2.1
- System.Runtime.CompilerServices.Unsafe (>= 6.0.0)
-
net6.0
- No dependencies.
-
net8.0
- No dependencies.
NuGet packages
This package is not used by any NuGet packages.
GitHub repositories
This package is not used by any popular GitHub repositories.