Micro-framework for .NET Core console application. Cocona makes it easy and fast to build console applications on .NET.🚀
CoconaApp.Run((string? name, bool hey) =>
Console.WriteLine("{(hey ? "Hey" :"Hello")} {(name ?? "Guest")}!"));
- 🚀 Make it easy to build console applications on .NET.
- ASP.NET Core-like Minimal API
public
method as a command- Provides ASP.NET Core MVC-like development experience to console application development.
- ✨ Command-line option semantics like UNIX tools standard. (
getopt
/getopt_long
like options)- Your app can handle both
-rf /
and-r -f /
:-) - Support single command and multiple commands style
myapp --foo --bar -n arg0 "arg1"
(e.g.dir
,cp
,ls
...)myapp server -m "Hello world!"
(e.g.dotnet
,git
,kubectl
...)
- Your app can handle both
- ❓ Built-in help documentation support.
- You want to see a help message; you type
-h
or--help
. - Built-in similar commands suggestion
- Shell command-line completion support for
bash
andzsh
- You want to see a help message; you type
- 🛠 Highly modulable/customizable CLI framework.
- Cocona built on top of
Microsoft.Extensions.*
framework. Cocona natively supports Logging, DI, Configuration and ConsoleLifetime. - Don't you need
Microsoft.Extensions.*
? then you can use a lightweight version of Cocona (named Cocona.Lite).
- Cocona built on top of
You can find sample code for various features.
- Installing
- Requirements
- Getting Started
- Command-line handling basics
- Cocona in action
- Performance & Cocona.Lite
- Advanced
- Related projects
- License
Install NuGet package from NuGet.org
$ dotnet add package Cocona
# A lightweight version is also available if you prefer less dependency.
$ dotnet add package Cocona.Lite
- .NET 6 (Required to use Minimal API)
- .NET 5
- .NET Standard 2.0, 2.1
using Cocona;
CoconaApp.Run((string name) =>
{
Console.WriteLine($"Hello {name}");
})
Class-based style (for .NET Standard / .NET 5)
using Cocona;
class Program
{
static void Main(string[] args)
{
// Cocona parses command-line and executes a command.
CoconaApp.Run<Program>(args);
}
// public method as a command ™
public void Hello(string name)
{
Console.WriteLine($"Hello {name}");
}
}
$ dotnet run
Usage: ConsoleAppSample [--name <String>]
Options:
--name <String> (Required)
-h, --help Show help message
--version Show version
$ dotnet run -- --name Cocona
Hello Cocona
If your application runs on .NET Core 3.0 or later, you can publish the app as a single-file executable. (see. What's new in .NET Core 3.0)
PS> dotnet publish -r win-x64 -p:PublishSingleFile=true
PS> app.exe --name Cocona
$ dotnet publish -r linux-x64 -p:PublishSingleFile=true
$ ./app --name Cocona
If your application has a single command, you can easily define and run it with CoconaApp.Run
.
CoconaApp.Run((string name, int age) => { ... });
This is equivalent to the following code using the Minimal API Builder.
var builder = CoconaApp.CreateBuilder();
var app = builder.Build();
app.AddCommand((string name, int age) => { ... });
app.Run();
If you want your application to have more than one command, you can add named commands. See Sub commands for details.
var app = CoconaApp.Create(); // is a shorthand for `CoconaApp.CreateBuilder().Build()`
app.AddCommand("list", () => { ... });
app.AddCommand("add", () => { ... });
app.AddCommand("delete", () => { ... });
app.Run();
You can add (classic) Class-based style commands with the AddCommand<T>
method.
app.AddCommand<MyCommand>();
By default, Cocona treats public
methods as commands.
If an application has one public method, Cocona calls it on startup. If there are more than one, they are treated as sub-commands. (see also Sub commands)
// Treats a method name as a command name. (Below method is named `command`)
public void Command() { ... }
// Specify a command name using CommandAttribute.
[Command("commandname")]
public void Command() { ... }
// Cocona will ignore this method.
[Ignore]
public void Ignored() { ... }
If you want to specify a method as a command manually, set false
to TreatPublicMethodsAsCommands
option at startup. All command methods require CommandAttribute
.
CoconaApp.Run<Program>(args, options =>
{
// If the option value is `false`, All command methods require `CommandAttribute`.
options.TreatPublicMethodsAsCommands = false;
});
Cocona exposes method parameters as command-line options (also known as flags).
// This command accepts `--name <string>` and `--hey` options.
app.AddCommand((string name, bool hey) => { ... });
Class-based style (for .NET Standard / .NET 5)
// This command accepts `--name <string>` and `--hey` options.
public void Hello(string name, bool hey) { ... }
If the parameter of a method is defined as nullable, Cocona will treat them as non-mandatory option for a command. (That is, the parameters are treated as required option by default excepts boolean).
If a parameter is boolean, it's assumed that false
default value is specified.
// `--name` is non-mandatory option.
// If the user runs the application without this option, the parameter will be `null`.
app.AddCommand((string? name) => { ... });
Optional with default value (Class-based style)
If method parameters are optional argument, Cocona treats those as optional command options. (That is, the parameters are treated as required option by default excepts boolean).
If a parameter is boolean, it's assumed that false
default value is specified.
// `--name "default user"` is specified implicity.
public void Hello(string name = "default user") { ... }
Do you want to use short-name option -f
instead of --force
?
You can specify short-name to an option using OptionAttribute
.
// The command accepts `-f` or `--force` option.
// Cocona's command-line parser accepts getopt-like styles. See below.
// $ remove --force --recursive
// $ remove -r -f
// $ remove -rf
app.AddCommand(([Option('f')]bool force, [Option('r')]bool recursive) => { ... });
Class-based style (for .NET Standard / .NET 5))
// The command accepts `-f` or `--force` option.
// Cocona's command-line parser accepts getopt-like styles. See below.
// $ remove --force --recursive
// $ remove -r -f
// $ remove -rf
public void Remove([Option('f')]bool force, [Option('r')]bool recursive) { ... }
If a parameter is T[]
or IEnumerable<T>
, a command accepts one or more options by the same name.
// $ compile -I../path/to/foo.h -I/usr/include/bar.h -I/usr/include/baz.h nantoka.c
// include = new [] { "../path/to/foo.h", "/usr/include/bar.h", "/usr/include/baz.h" };
app.AddCommand(([Option('I')]string[] include, [Argument]string file) => { ... });
Class-based style (for .NET Standard / .NET 5))
// $ compile -I../path/to/foo.h -I/usr/include/bar.h -I/usr/include/baz.h nantoka.c
// include = new [] { "../path/to/foo.h", "/usr/include/bar.h", "/usr/include/baz.h" };
public void Compile([Option('I')]string[] include, [Argument]string file) { ... }
You can also specify a description for options that appear in the help.
app.AddCommand((
[Option(Description = "Description of the option")] int value,
[Argument(Description = "Description of the argument")]string arg
) => { ... });
Class-based style (for .NET Standard / .NET 5))
public void HasDescription([Option(Description = "Description of the option")] int value, [Argument(Description = "Description of the argument")]string arg) { ... }
Usage: CoconaSample.InAction.CommandOptions has-description [--value <Int32>] [--help] arg
Arguments:
0: arg Description of the argument (Required)
Options:
--value <Int32> Description of the option (Required)
-h, --help Show help message
- See also: CoconaSample.InAction.CommandOptions
Command-line arguments are defined as method parameters as same as options.
// ./app alice karen
app.AddCommand(([Argument]string from, [Argument]string to) => { ... });
Class-based style (for .NET Standard / .NET 5)
// ./app alice karen
public void Hello([Argument]string from, [Argument]string to) { ... }
You can define a parameter as T[]
. It allows defining cp
-like command which accepts many file paths and one destination path (cp file1 file2 file3 dest
).
// ./copy file1 file2 file3 dest
app.AddCommand(([Argument]string[] src, [Argument]string dest) => { ... });
Class-based style (for .NET Standard / .NET 5)
// ./copy file1 file2 file3 dest
public void Copy([Argument]string[] src, [Argument]string dest) { ... }
- See also: CoconaSample.InAction.ManyArguments
You can add multiple commands with names and expose them as sub-commands. You can implement an application that has sub-commands similar to dotnet
, git
, kubectl
etc...
var app = CoconaApp.Create();
app.AddCommand("hello", ([Argument]string name) => Console.WriteLine($"Hello {name}!"))
.WithDescription("Say hello");
app.AddCommand("bye", ([Argument]string name) => Console.WriteLine($"Goodbye {name}!"))
.WithDescription("Say goodbye");
app.Run();
Class-based style (for .NET Standard / .NET 5)
If a command type has more than one public method or [Command]
, those commands are exposed as sub-commands. You can implement an application that has sub-commands similar to dotnet
, git
, kubectl
etc...
static void Main(string[] args)
{
CoconaApp.Run<Program>(args);
}
[Command(Description = "Say hello")]
public void Hello([Argument]string name)
{
Console.WriteLine($"Hello {name}!");
}
[Command(Description = "Say goodbye")]
public void Bye([Argument]string name)
{
Console.WriteLine($"Goodbye {name}!");
}
$ ./SubCommandApp
Usage: SubCommandApp [command]
Usage: SubCommandApp [--help] [--version]
SubCommandApp
Commands:
hello Say hello
bye Say goodbye
Options:
-h, --help Show help message
--version Show version
When a user mistypes a command, Cocona prints command autogenerated suggestions.
$ ./SubCommandApp hell
Error: 'hell' is not a command. See '--help' for usage.
Similar commands:
hello
Cocona also supports nested sub-commands. Specify the class that has nested sub-commands using AddSubCommand
method.
var app = CoconaApp.Create();
// ./myapp info
app.AddCommand("info", () => Console.WriteLine("Show information"));
// ./myapp server [command]
app.AddSubCommand("server", x =>
{
x.AddCommand("start", () => Console.WriteLine("Start"));
x.AddCommand("stop", () => Console.WriteLine("Stop"));
})
.WithDescription("Server commands");
// ./myapp client [command]
app.AddSubCommand("client", x =>
{
x.AddCommand("connect", () => Console.WriteLine("Connect"));
x.AddCommand("disconnect", () => Console.WriteLine("Disconnect"));
})
.WithDescription("Client commands");
app.Run();
Class-based style (for .NET Standard / .NET 5)
Cocona also supports nested sub-commands. Specify the class that has nested sub-commands using HasSubCommands
attribute.
[HasSubCommands(typeof(Server), Description = "Server commands")]
[HasSubCommands(typeof(Client), Description = "Client commands")]
class Program
{
static void Main(string[] args) => CoconaApp.Run<Program>(args);
// ./myapp info
public void Info() => Console.WriteLine("Show information");
}
// ./myapp server [command]
class Server
{
public void Start() => Console.WriteLine("Start");
public void Stop() => Console.WriteLine("Stop");
}
// ./myapp client [command]
class Client
{
public void Connect() => Console.WriteLine("Connect");
public void Disconnect() => Console.WriteLine("Disconnect");
}
$ ./SubCommandApp
Usage: SubCommandApp [command]
Usage: SubCommandApp [--help] [--version]
SubCommandApp
Commands:
info
server Server commands
client Client commands
Options:
-h, --help Show help message
--version Show version
$ ./SubCommandApp server
Usage: SubCommandApp server [command]
Usage: SubCommandApp server [--help]
SubCommandApp
Commands:
start
stop
Options:
-h, --help Show help message
var app = CoconaApp.Create();
app.AddCommand((bool foo, string bar) => { ... }); // Primary command
app.AddCommand("hello", () => { ... });
app.AddCommand("goodbye", () => { ... });
app.Run();
Class-based style (for .NET Standard / .NET 5)
[PrimaryCommand]
public void Primary(bool foo, string bar) { ... }
[Command]
public void Hello() { ... }
[Command]
public void Goodbye() { ... }
The option-like command is a way to achieve an independent command that at first glance, looks like an option in a command.
For example, easy to understand examples like --version
and --help
.
These are the options of a command, but they behave as a command when specified.
var app = CoconaApp.Create();
app.AddCommand(() => Console.WriteLine("Execute"))
.OptionLikeCommand(x =>
{
x.AddCommand("hello", ([Argument]string name) => Console.WriteLine($"Hello {name}!"))
.WithAliases('f');
});
app.Run();
Class-based style (for .NET Standard / .NET 5)
[OptionLikeCommand("hello", new[] {'f'}, typeof(Program), nameof(Hello))]
public void Execute()
=> Console.WriteLine("Execute");
private void Hello([Argument]string name)
=> Console.WriteLine($"Hello {name}!");
$ ./myapp
Execute
$ ./myapp --hello Alice
Hello Alice!
- Any previous options or arguments specified by OptionLikeCommand will be ignored.
- Example: If
--foo --bar --optionlikecommand --baz arg0
and--optionlikecommand
is an Option-like command, the command will be passed--baz arg0
.
- Example: If
- Arguments are not displayed in help.
Cocona has a mechanism called Parameter set that defines common parameters for multiple commands. For example, if every command receives a user name, host name, etc., it would be annoying to define them in a method for each command.
A class or record
implements the ICommandParameterSet
interface and treats it as a Parameter set.
If a class (or record class) has a parameterized constructor, it is treated as part of the definition of a command method.
public record CommonParameters(
[Option('t', Description = "Specifies the remote host to connect.")]
string Host,
[Option('p', Description = "Port to connect to on the remote host.")]
int Port,
[Option('u', Description = "Specifies the user to log in as on the remote host.")]
string User = "root",
[Option('f', Description = "Perform without user confirmation.")]
bool Force = false
) : ICommandParameterSet;
public void Add(CommonParameters commonParams, [Argument] string from, [Argument] string to)
=> Console.WriteLine($"Add: {commonParams.User}@{commonParams.Host}:{commonParams.Port} {(commonParams.Force ? " (Force)" : "")}");
public void Update(CommonParameters commonParams, [Option('r', Description = "Traverse recursively to perform.")] bool recursive, [Argument] string path)
=> Console.WriteLine($"Update: {commonParams.User}@{commonParams.Host}:{commonParams.Port} {(commonParams.Force ? " (Force)" : "")}");
If a class has a parameter-less constructor, you can mark the public property as Option
or Argument
.
NOTE: Option defined as a property is treated as required by default. If you want a non-required Option to have a default value, mark it with HasDefaultValue
attribute.
public class CommonParameters : ICommandParameterSet
{
[Option('t', Description = "Specifies the remote host to connect.")]
public string Host { get; set; }
[Option('p', Description = "Port to connect to on the remote host.")]
public int Port { get; set; }
[Option('u', Description = "Specifies the user to log in as on the remote host.")]
[HasDefaultValue]
public string User { get; set; } = "root";
[Option('f', Description = "Perform without user confirmation.")]
public bool Force { get; set; } = false;
}
public void Add(CommonParameters commonParams, [Argument] string from, [Argument] string to)
=> Console.WriteLine($"Add: {commonParams.User}@{commonParams.Host}:{commonParams.Port} {(commonParams.Force ? " (Force)" : "")}");
public void Update(CommonParameters commonParams, [Option('r', Description = "Traverse recursively to perform.")] bool recursive, [Argument] string path)
=> Console.WriteLine($"Update: {commonParams.User}@{commonParams.Host}:{commonParams.Port} {(commonParams.Force ? " (Force)" : "")}");
// Exit Code: 0
public void NoReturn() { }
// Exit Code: 123
public int Return() { return 123; }
// Exit Code: 255
public async Task<int> ReturnAsync() { return 255; }
// Exit Code: -1
public async ValueTask<int> ReturnValueTaskAsync() { return -1; }
// Exit Code: 128
public void Throw() { throw new CommandExitedException(128); }
- See also: CoconaSample.InAction.ExitCode
Cocona can use attributes to validate options and arguments. It is similar to ASP.NET Core MVC.
.NET BCL (System.ComponentModel.DataAnnotations
) has some pre-defined attributes:
RangeAttribute
MaxLangeAttribute
MinLengthAttribute
- ...
If you want to implement custom validation attribute, it should inherit System.ComponentModel.DataAnnotations.ValidationAttribute
attribute.
class Program
{
static void Main(string[] args)
{
CoconaApp.Run<Program>(args);
}
public void Run([Range(1, 128)]int width, [Range(1, 128)]int height, [Argument][PathExists]string filePath)
{
Console.WriteLine($"Size: {width}x{height}");
Console.WriteLine($"Path: {filePath}");
}
}
class PathExistsAttribute : ValidationAttribute
{
protected override ValidationResult IsValid(object value, ValidationContext validationContext)
{
if (value is string path && (Directory.Exists(path) || Directory.Exists(path)))
{
return ValidationResult.Success;
}
return new ValidationResult($"The path '{value}' is not found.");
}
}
- See also: CoconaSample.InAction.Validation
app.AddCommand(async (CoconaAppContext ctx) =>
{
while (!ctx.CancellationToken.IsCancellationRequested)
{
await Task.Delay(100);
}
});
Class-based style (for .NET Standard / .NET 5)
class Program : CoconaConsoleAppBase
{
...
public async Task RunAsync()
{
while (!Context.CancellationToken.IsCancellationRequested)
{
await Task.Delay(100);
}
}
}
Alternatively, you can use ICoconaAppContextAccessor
and CoconaAppContext
to access CancellationToken
.
public async Task RunAsync([FromService]ICoconaAppContextAccessor contextAccessor)
{
var ctx = contextAccessor.Current ?? throw new InvalidOperationException();
while (!ctx.CancellationToken.IsCancellationRequested)
{
await Task.Delay(100);
}
}
Cocona has filter mechanism like ASP.NET Core's action filter. Filters allow custom processing before or after you run a command.
ICommandFilter
interfaceCommandFilterAttribute
attributeIFilterProvider
interfaceIFilterMetadata
interface
var app = CoconaApp.Create();
// Add a command with command filters.
app.AddCommand(() =>
{
Console.WriteLine($"Hello Konnichiwa");
})
.WithFilter(new SampleCommandFilter())
.WithFilter(async (ctx, next) =>
{
// You can declare and apply a filter using a delegate.
return await next(ctx);
});
// Add a command filter and apply it to commands after this call.
app.UseFilter(new MyFilter());
class SampleCommandFilterAttribute : CommandFilterAttribute
{
public override async ValueTask<int> OnCommandExecutionAsync(CoconaCommandExecutingContext ctx, CommandExecutionDelegate next)
{
Console.WriteLine($"Before Command: {ctx.Command.Name}");
try
{
return await next(ctx);
}
finally
{
Console.WriteLine($"End Command: {ctx.Command.Name}");
}
}
}
Class-based style (for .NET Standard / .NET 5)
class Program
{
static void Main(string[] args)
{
CoconaApp.Run<Program>(args);
}
[SampleCommandFilter]
public void Hello()
{
Console.WriteLine($"Hello Konnichiwa");
}
}
class SampleCommandFilterAttribute : CommandFilterAttribute
{
public override async ValueTask<int> OnCommandExecutionAsync(CoconaCommandExecutingContext ctx, CommandExecutionDelegate next)
{
Console.WriteLine($"Before Command: {ctx.Command.Name}");
try
{
return await next(ctx);
}
finally
{
Console.WriteLine($"End Command: {ctx.Command.Name}");
}
}
}
- See also: CoconaSample.InAction.CommandFilter
If a constructor has parameters, Cocona injects an instance obtained from IServiceProvider into the parameter.
var builder = CoconaApp.CreateBuilder();
builder.Services.AddTransient<MyService>();
var app = builder.Build();
app.AddCommand((MyService myService) =>
{
myService.Hello("Hello Konnichiwa!");
});
app.Run();
class MyService
{
private readonly ILogger _logger;
public MyService(ILogger<MyService> logger)
{
_logger = logger;
}
public void Hello(string message)
{
_logger.LogInformation(message);
}
}
Class-based style (for .NET Standard / .NET 5)
If a constructor has parameters, Cocona injects an instance obtained from IServiceProvider into the parameter. Cocona will also inject an instance into the parameter if a command method parameter is marked as [FromService]
.
class Program
{
public Program(ILogger<Program> logger)
{
logger.LogInformation("Create Instance");
}
static void Main(string[] args)
{
CoconaApp.Create()
.ConfigureServices(services =>
{
services.AddTransient<MyService>();
})
.Run<Program>(args);
}
public void Hello([FromService]MyService myService)
{
myService.Hello("Hello Konnichiwa!");
}
}
class MyService
{
private readonly ILogger _logger;
public MyService(ILogger<MyService> logger)
{
_logger = logger;
}
public void Hello(string message)
{
_logger.LogInformation(message);
}
}
- See also: CoconaSample.InAction.AppConfiguration
var builder = CoconaApp.CreateBuilder();
builder.Logging.AddDebug();
app.AddCommand((ILogger<Program> logger) => logger.LogInformation("Hello Konnichiwa!")));
var app = builder.Build();
app.Run();
Class-based style (for .NET Standard / .NET 5)
class Program : CoconaConsoleAppBase
{
static void Main(string[] args)
{
CoconaApp.Create()
.ConfigureLogging(logging =>
{
logging.AddDebug();
})
.Run<Program>(args);
}
public async Task RunAsync()
{
Context.Logger.LogInformation("Hello Konnichiwa!");
}
}
Cocona provides support for shell command-line completion (also known as tab completion).
Cocona generates a shell script for command-line completion from a command definition and allows users to use command-line completion by loading it. The --completion
built-in option is used to specify the name of a shell to generate a script.
$ source <(./myapp --completion bash)
or
% ./myapp --completion zsh > ~/.zsh/functions
Currently, The supported shells are bash
and zsh
.
This feature is disabled by default, or you can set the EnableShellCompletionSupport
option to true
if you need it.
It is also possible to dynamically generate command-line completion candidates and to prepare candidates at script generation time. Please see the sample below for more details.
Microsoft.Extensions.*
are powerful but little heavy libraries. If you don't needMicrosoft.Extensions.*
, you can use a lightweight version of Cocona. (named Cocona.Lite)
- Almost the same features and APIs as Cocona (command-line, help, etc.)
- No
Microsoft.Extensions.*
dependencies- No Logging, DI, Configuration are provided
- Fewer overheads
- The minimal Dependency Injection function
Just install NuGet package Cocona.Lite
instead of Cocona
.
$ dotnet add package Cocona.Lite
Then in your source code, use CoconaLiteApp
class instead of CoconaApp
class.
CoconaLiteApp.Run(() => { ... });
var app = CoconaLiteApp.Create();
app.AddCommand(() => { ... });
app.Run();
static void Main(string[] args)
{
CoconaLiteApp.Run<Program>(args);
}
Microsoft.Extensions.Localization can be used to localize your application. Please refer to the sample code for details.
// Register Microsoft.Extensions.Localization and ICoconaLocalizer services
// Cocona uses `ICoconaLocalizer` to localize command descriptions.
var builder = CoconaApp.CreateBuilder();
builder.Services.AddLocalization(options =>
{
options.ResourcesPath = "Resources";
});
// `MicrosoftExtensionLocalizationCoconaLocalizer` is not included in Cocona core library.
builder.Services.TryAddTransient<ICoconaLocalizer, MicrosoftExtensionLocalizationCoconaLocalizer>();
var app = builder.Build();
app.AddCommand("hello", ([Argument(Description = "Name")]string name, IStringLocalizer<Program> localizer) =>
{
// Get a localized text from Microsoft.Extensions.Localization.IStringLocalizer (same as ASP.NET Core)
Console.WriteLine(localizer.GetString("Hello {0}!", name));
})
.WithDescription("Say Hello");
app.Run();
- See also: CoconaSample.Advanced.Localization
var app = CoconaApp.Create();
app.AddCommand("hello", (string name) =>
{
Console.WriteLine("Hello {0}!", name);
});
app.AddCommand("secret-command", (string name) =>
{
Console.WriteLine("🙊");
})
.WithMetadata(new HiddenAttribute());
app.Run();
- See also: CoconaSample.Advanced.HelpTransformer
The CommandMethodForwardedTo
attribute allows you to specify that the substance of the specified command method is a different method and that the operation should be forwarded.
If this attribute is given to a command method, the destination's attribute and its implementation are used. Excepts for the Command
and Hidden
attributes specified by the method.
For example, it can be used if the command implementation is defined in an external assembly or to call a built-in command (such as help) or compatibility purposes.
[CommandMethodForwardedTo(typeof(BuiltInOptionLikeCommands), nameof(BuiltInOptionLikeCommands.ShowHelp))]
public void MyHelp()
=> throw new NotSupportedException(); // NOTE: The method body and parameters used is BuiltInOptionLikeCommands.ShowHelp.
Cocona treats unknown options as errors by default. Now, you can set the IgnoreUnknownOptions attribute to ignore unknown options.
Cocona can be integrated with GenericHost of Microsoft.Extensions.Hosting.
You can register the services with UseCocona
extension method.
class Program
{
static async Task Main(string[] args)
{
await Host.CreateDefaultBuilder()
.UseCocona(args, new[] { typeof(Program) })
.Build()
.RunAsync();
}
public void Hello()
{
Console.WriteLine($"Hello Konnichiwa!");
}
}
- Cysharp/ConsoleAppFramework: ConsoleAppFramework heavily inspired Cocona.
MIT License
Copyright © 2020-present Mayuki Sawatari <[email protected]>