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Gemini is an application shell similar in concept to the Visual Studio Shell. It uses AvalonDock 2.0 and has an MVVM architecture based on Caliburn Micro.

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Gemini

What is this?

Gemini is a WPF framework designed specifically for building IDE-like applications. It builds on some excellent libraries:

Screenshot

Getting started

If you are creating a new WPF application, follow these steps:

  • Install the Gemini NuGet package.
  • Delete MainWindow.xaml - you don't need it.
  • Open App.xaml and delete the StartupUri="MainWindow.xaml" attribute.
  • Add xmlns:gemini="http://schemas.timjones.tw/gemini" to App.xaml.
  • Add <gemini:AppBootstrapper x:Key="bootstrapper" /> to a ResourceDictionary within <Application.Resources>.

So the whole App.xaml should look something like this:

<Application x:Class="Gemini.Demo.App"
             xmlns="http://schemas.microsoft.com/winfx/2006/xaml/presentation"
             xmlns:x="http://schemas.microsoft.com/winfx/2006/xaml" 
             xmlns:gemini="http://schemas.timjones.tw/gemini">
    <Application.Resources>
        <ResourceDictionary>
            <ResourceDictionary.MergedDictionaries>
                <ResourceDictionary>
                    <gemini:AppBootstrapper x:Key="bootstrapper" />
                </ResourceDictionary>
            </ResourceDictionary.MergedDictionaries>
        </ResourceDictionary>
    </Application.Resources>
</Application>

Now hit F5 and see a very empty application!

By far the easiest way to get started with Gemini is to use the various NuGet packages. First, install the base Gemini package (note that the package ID is GeminiWpf, to distinguish it from another NuGet package with the same name):

Then add any other modules you are interested in (note that some modules have dependencies on other modules, but this is taken care of by the NuGet package dependency system):

What does it do?

Gemini allows you to build your WPF application by composing separate modules. This provides a nice way of separating out the code for each part of your application. For example, here is the (very simple) module used in the demo program:

[Export(typeof(IModule))]
public class Module : ModuleBase
{
	[Import]
	private IPropertyGrid _propertyGrid;

    public override IEnumerable<Type> DefaultTools
    {
        get { yield return typeof(IInspectorTool); }
    }

	public override void Initialize()
	{
		MainMenu.All
			.First(x => x.Name == "View")
			.Add(new MenuItem("Home", OpenHome));

		var homeViewModel = IoC.Get<HomeViewModel>();
		Shell.OpenDocument(homeViewModel);

		_propertyGrid.SelectedObject = homeViewModel;
	}

	private IEnumerable<IResult> OpenHome()
	{
		yield return Show.Document<HomeViewModel>();
	}
}

Documents

Documents are (usually) displayed in the main area in the middle of the window. To create a new document type, simply inherit from the Document class:

public class SceneViewModel : Document
{
	public override string DisplayName
	{
		get { return "3D Scene"; }
	}

	private Vector3 _position;
	public Vector3 Position
	{
        get { return _position; }
        set
        {
            _position = value;
            NotifyOfPropertyChange(() => Position);
        }
	}
}

To open a document, call OpenDocument on the shell (Shell is defined in ModuleBase, but you can also retrieve it from the IoC container with IoC.Get<IShell>()):

Shell.OpenDocument(new SceneViewModel());

You can then create a SceneView view, and Caliburn Micro will use a convention-based lookup to find the correct view.

Tools

Tools are usually docked to the sides of the window, although they can also be dragged free to become floating windows. Most of the modules (ErrorList, Output, Toolbox, etc.) primarily provide tools. For example, here is the property grid tool class:

[Export(typeof(IPropertyGrid))]
public class PropertyGridViewModel : Tool, IPropertyGrid
{
	public override string DisplayName
	{
		get { return "Properties"; }
	}

	public override PaneLocation PreferredLocation
	{
		get { return PaneLocation.Right; }
	}

	private object _selectedObject;
	public object SelectedObject
	{
		get { return _selectedObject; }
		set
		{
			_selectedObject = value;
			NotifyOfPropertyChange(() => SelectedObject);
		}
	}
}

For more details on creating documents and tools, look at the demo program and the source code for the built-in modules.

What modules are built-in?

Gemini itself is built out of six core modules:

  • Shell
  • MainMenu
  • StatusBar
  • ToolBars
  • Toolbox
  • UndoRedo

Several more modules ship with Gemini, and are available as NuGet packages as described above:

  • CodeCompiler
  • CodeEditor
  • ErrorList
  • GraphEditor
  • Inspector
  • Inspector.Xna
  • Output
  • PropertyGrid
  • Xna

For more information about these modules, see below. In general, each module adds some combination of menu items, tool window, document types and services.

Shell module

Screenshot

The shell module:

  • manages the overall window and placement of the document and tool windows
  • persists and loads the size and position of tool windows
  • manages the links between AvalonDock and Caliburn.Micro

Provides

  • IShell interface

NuGet package

Dependencies

  • None

Usage

The IShell interface exposes a number of useful properties and methods. It is the main way to control Gemini's behaviour.

public interface IShell
{
    event EventHandler ActiveDocumentChanging;
    event EventHandler ActiveDocumentChanged;

	WindowState WindowState { get; set; }
	string Title { get; set; }
	ImageSource Icon { get; set; }

	IMenu MainMenu { get; }
    IToolBars ToolBars { get; }
	IStatusBar StatusBar { get; }

	IDocument ActiveItem { get; }

	IObservableCollection<IDocument> Documents { get; }
	IObservableCollection<ITool> Tools { get; }

	void ShowTool(ITool model);

	void OpenDocument(IDocument model);
	void CloseDocument(IDocument document);
	void ActivateDocument(IDocument document);

	void Close();
}

MainMenu module

Screenshot

Adds a main menu to the top of the window.

Provides

  • IMenu interface

NuGet package

Dependencies

  • None

Usage

MainMenu.All.First(x => x.Name == "View")
	.Add(new MenuItem("History", OpenHistory));

// ...

private static IEnumerable<IResult> OpenHistory()
{
    yield return Show.Tool<IHistoryTool>();
}

StatusBar module

Screenshot

Adds a status bar to the bottom of the window.

Provides

  • IStatusBar
  • StatusBarItemViewModel class

NuGet package

Dependencies

  • None

Usage

var statusBar = IoC.Get<IStatusBar>();
statusBar.AddItem("Hello world!", new GridLength(1, GridUnitType.Star));
statusBar.AddItem("Ln 44", new GridLength(100));
statusBar.AddItem("Col 79", new GridLength(100));

ToolBars module

Screenshot

Adds a toolbar tray to the top of the window. By default, the toolbar tray is hidden - use Shell.ToolBars.Visible = true to show it.

Provides

  • IToolBars interface
  • IToolBar interface

NuGet package

Dependencies

  • None

Usage

Shell.ToolBars.Visible = true;
Shell.ToolBars.Items.Add(new ToolBarModel
{
	new ToolBarItem("Open", OpenFile).WithIcon(),
    ToolBarItemBase.Separator,
    new UndoToolBarItem(),
    new RedoToolBarItem()
});

Toolbox module

Screenshot

Reproduces the toolbox tool window from Visual Studio. Use the [ToolboxItem] attribute to provide available items for listing in the toolbox. You specify the document type for each toolbox item. When the user switches to a different document, Gemini manages showing only the toolbox items that are supported for the active document type. Items are listed in categories. The toolbox supports drag and drop.

Provides

  • IToolbox tool window
  • ToolboxItemAttribute attribute
  • ToolboxDragDrop utility class

NuGet package

Dependencies

  • None

Usage

[ToolboxItem(typeof(GraphViewModel), "Image Source", "Generators")]
public class ImageSource : ElementViewModel
{
	// ...
}

Handling dropping onto a document (this code is from GraphView.xaml.cs):

private void OnGraphControlDragEnter(object sender, DragEventArgs e)
{
    if (!e.Data.GetDataPresent(ToolboxDragDrop.DataFormat))
        e.Effects = DragDropEffects.None;
}

private void OnGraphControlDrop(object sender, DragEventArgs e)
{
    if (e.Data.GetDataPresent(ToolboxDragDrop.DataFormat))
    {
        var mousePosition = e.GetPosition(GraphControl);

        var toolboxItem = (ToolboxItem) e.Data.GetData(ToolboxDragDrop.DataFormat);
        var element = (ElementViewModel) Activator.CreateInstance(toolboxItem.ItemType);
        element.X = mousePosition.X;
        element.Y = mousePosition.Y;

        ViewModel.Elements.Add(element);
    }
}

UndoRedo module

Screenshot

Provides a framework for adding undo/redo support to your application. An undo/redo stack is maintained separately for each document. The screenshot above shows the history tool window. You can drag the slider to move forward or backward in the document's history.

Provides

  • IHistoryTool tool window
  • IUndoableAction interface
  • UndoRedoToolbarItems utility class

NuGet package

Dependencies

  • None

Usage

First, define an action. The action needs to implement IUndoableAction:

public class MyAction : IUndoableAction
{
    public string Name
    {
        get { return "My Action"; }
    }

    public void Execute()
    {
        // Do something
    }

    public void Undo()
    {
        // Put it back
    }
}

Then execute the action:

var undoRedoManager = IoC.Get<IShell>().ActiveItem.UndoRedoManager;
undoRedoManager.ExecuteAction(new MyAction());

Now the action will be shown in the history tool window. If you are using the Undo or Redo menu items or toolbar buttons, they will also react appropriately to the action.

CodeCompiler module

Uses Roslyn to compile C# code. Currently, ICodeCompiler exposes a very simple interface:

public interface ICodeCompiler
{
    Assembly Compile(
        IEnumerable<SyntaxTree> syntaxTrees, 
        IEnumerable<MetadataReference> references,
        string outputName);
}

An interesting feature, made possible by Roslyn, is that the compiled assemblies are garbage-collectible. This means that you can compile C# source code, run the resulting assembly in the same AppDomain as your main application, and then unload the assembly from memory. This would be very useful, for example, in a game editor where you want the game preview window to update as soon as the user modifies a script source file.

Provides

  • ICodeCompiler service

NuGet package

Dependencies

Usage

This example is from HelixViewModel in one of the sample applications.

var newAssembly = _codeCompiler.Compile(
    new[] { SyntaxTree.ParseText(_helixView.TextEditor.Text) },
    new[]
    {
        MetadataReference.CreateAssemblyReference("mscorlib"),
        MetadataReference.CreateAssemblyReference("System"),
        MetadataReference.CreateAssemblyReference("PresentationCore"),
        new MetadataFileReference(typeof(IResult).Assembly.Location),
        new MetadataFileReference(typeof(AppBootstrapper).Assembly.Location),
        new MetadataFileReference(GetType().Assembly.Location)
    },
    "GeminiDemoScript");

Once there are no references to newAssembly, it will be eligible for garbage collection.

CodeEditor module

Screenshot

Uses AvalonEdit to provide syntax highlighting and other features for editing C# source files.

Provides

  • EditorProvider for C# source files
  • CodeEditor control

NuGet package

Dependencies

Usage

Opening a file with a .cs extension will automatically use the CodeEditor module to display the document. You can also use the CodeEditor control in your own views:

<codeeditor:CodeEditor SyntaxHighlighting="C#" />

ErrorList module

Screenshot

Reproduces the error list tool window from Visual Studio. Can be used to show errors, warning, or information.

Provides

  • IErrorList tool window

NuGet package

Dependencies

  • None

Usage

var errorList = IoC.Get<IErrorList>();
errorList.Clear();
errorList.AddItem(
	ErrorListItemType.Error,
	"Description of the error",
    @"C:\MyFile.txt",
    1,   // Line
    20); // Column

You can optionally provide a callback that will be executed when the user double-clicks on an item:

errorList.AddItem(
	ErrorListItemType.Error,
	"Description of the error",
    @"C:\MyFile.txt",
    1, // Line
    20, // Character
    () =>
    {
        var openDocumentResult = new OpenDocumentResult(@"C:\MyFile.txt");
        IoC.BuildUp(openDocumentResult);
        openDocumentResult.Execute(null);
    });

GraphEditor module

Screenshot

Implements a general purpose graph / node editing UI. This module provides the UI controls - the logic and view models are usually specific to your application, and are left to you. The FilterDesigner sample application (in the screenshot above) is one example of how it can be used.

Although I implemented it slightly differently, I got a lot of inspiration and some ideas for the code from Ashley Davis's CodeProject article.

Provides

NuGet package

Dependencies

  • None

Usage

You'll need to create view models to represent:

  • the graph itself
  • elements
  • connectors
  • connections.

I suggest looking at the FilterDesigner sample application to get an idea of what's involved.

Inspector module

Screenshot

Similar in purpose to the property grid, but the Inspector module takes a more flexible approach. Instead of the strict "two-column / property per row" layout used in the standard PropertyGrid, the Inspector module allows each editor to customise its own view.

It comes with the following editors:

  • BitmapSource
  • CheckBox
  • CollapsibleGroup
  • Color (WPF)
  • Enum
  • Point3D (WPF)
  • Range
  • TextBox

Provides

  • IInspectorTool tool window
  • InspectableObjectBuilder class

NuGet package

Dependencies

Usage

You can build up the inspector for an object in two ways:

  • Convention-based. The Inspector module can reflect over an object and create editors for the properties whose types it recognises. It comes with built-in editors for int, string, Enum, etc.
  • Manually. Use the fluent interface on InspectableObjectBuilder to create editors.

You can also mix and match these approaches.

var inspectorTool = IoC.Get<IInspectorTool>();
inspectorTool.SelectedObject = new InspectableObjectBuilder()
	.WithCollapsibleGroup("My Group", b => b
		.WithColorEditor(myObject, x => x.Color))
	.WithObjectProperties(Shell.ActiveItem, pd => true) // Automatically adds browsable properties.
	.ToInspectableObject();

Inspector.Xna module

Adds editors for XNA types (Vector3, Color, etc.) to the Inspector module.

Output module

Screenshot

Much like the output tool window from Visual Studio.

Provides

  • IOutput tool window

NuGet package

Dependencies

  • None

Usage

var output = IoC.Get<IOutput>();
output.AppendLine("Started up");

PropertyGrid module

Screenshot

Pretty much does what it says on the tin. It uses the PropertyGrid control from the Extended WPF Toolkit.

Provides

  • IPropertyGrid tool window

NuGet package

Dependencies

Usage

var propertyGrid = IoC.Get<IPropertyGrid>();
propertyGrid.SelectedObject = myObject;

Xna module

Screenshot

Provides a number of utilities and controls for working with XNA content in WPF. In the screenshot above, the document on the left uses DrawingSurface, and the tool window on the right uses GraphicsDeviceControl. Note that the GraphicsDeviceControl is clipped correctly against its parent ScrollViewer bounds.

Provides

  • GraphicsDeviceService service that implements XNA's IGraphicsDeviceService
  • ClippingHwndHost control that clips hosted Win32 content to a WPF control's bounds

The Xna module includes 2 alternatives for hosting XNA content in WPF:

  • DrawingSurface control that uses D3DImage as described here.
  • GraphicsDeviceControl control that implements Nick Gravelyn's technique for hosting WPF content using an HwndHost, described here

NuGet package

Dependencies

Usage

Both DrawingSurface and GraphicsDeviceControl provide similar APIs, but they are subtly different. DrawingSurface works seamlessly with WPF mouse and keyboard input, but GraphicsDeviceControl routes mouse input through its own set of methods (RaiseHwndLButtonDown etc.).

public class MyDrawingSurface : DrawingSurface
{
    protected override RaiseDraw(DrawEventArgs args)
    {
        args.GraphicsDevice.Clear(Color.LightGreen);
        base.RaiseDraw(args);
    }
}
public class MyGraphicsDeviceControl : GraphicsDeviceControl
{
    protected override void RaiseRenderXna(GraphicsDeviceEventArgs args)
    {
        args.GraphicsDevice.Clear(Color.LightGreen);
        base.RaiseRenderXna(args);
    }
}

Sample applications

Gemini includes three sample applications:

Gemini.Demo

Showcases many of the available modules. The screenshot below shows the interactive script editor in action - as you type, the code will be compiled in real-time into a dynamic assembly and then executed in the same AppDomain.

Screenshot

Gemini.Demo.FilterDesigner

Showcases the GraphEditor, Inspector and Toolbox modules.

Screenshot

Gemini.Demo.Xna

Showcases the Xna module.

Screenshot

What projects use Gemini?

I've used Gemini on several of my own projects:

Development dependencies

To build the XNA module and demo on your own machine, you'll need to install XNA 4.0 Game Studio.

Acknowledgements

  • Many of the original ideas, and much of the early code came from Rob Eisenberg, creator of the Caliburn Micro framework. I have extended and modified his code to integrate better with AvalonDock 2.0, which natively supports MVVM-style binding.
  • I used the VS2010 theme from Edi.

Gemini is not the only WPF framework for building IDE-like applications. Here are some others:

About

Gemini is an application shell similar in concept to the Visual Studio Shell. It uses AvalonDock 2.0 and has an MVVM architecture based on Caliburn Micro.

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