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A modularised, multi-threaded C# game engine based on the Entity Component System architecture. Uses OpenGL for rendering and contains many optional modules for easier development. Includes a user interface library, networking, a layered rendering solution, dynamic XML content loading, ECS framework and an example programs. Primarilly for 2D games.

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PowerfulBacon/CorgEng

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I am archiving this project either temporarilly or permanently because:

  • Making an engine is extremely time consuming. All the time I spent writing the engine, I am not writing a game which is counter-productive if I want to be developing indie games.
  • I have a lot of university work and don't have time to keep maintaining the code.

In the future if I have time, or the need, to continue working on this then I will unarchive this and keep going.

Feel free to ask me questions on discord @PowerfulBacon#3338

https://discord.gg/6hgfjRrVJP

CorgEng

A modularised, ECS-based game engine with high performance, scalability and collaberation built in mind.

CorgEng Documentation Contents Page

CorgEng relies heavilly on multi-threading and a good understanding of concurrency is recommened in order to prevent issues arising from concurrent modification. The entity component system does a good job at forcing code to work asynchronously, however event handling is performed out of order, so if an event depends on the result of another event, the first event should be executed synchronously. See the ECS section for more details.

Building

In order to build the project, you may need to nuget restore. The nuget packages can be obtained from https://api.nuget.org/v3/index.json. Visual studio should do this automatically, however when building on my laptop I had to add the above link as a package source in nuget before calling dotnet restore.

Example

See CorgEng.Example for examples of how to create CorgEng applications that utilize the important features.

https://github.com/PowerfulBacon/CorgEng/tree/main/CorgEng.Example

Getting Started

See CorgEng.Example for an example project of how to get started. A more complex example with implementations of ECS will be coming soon.

A quick summary of the important features and how to use them are listed below.

General Concepts / Notes

Events in CorgEng are all asynchronous and cannot return the results of that event call. Events cannot return, as this would require them to be synchronous which would result in subsystems depending on other subsystems creating potential bottlenecks when scaling games up to a large number of entities/users. A solution to this issue is by using event chains. The result of one event call could be to call another event given some conditions on that system. If the conditions to the event are not met, then the event chain is broken and the actions from the event will not occur. For example: TranslateEvent (X, Y) -> TransformSystem (Gets current position and adds on (X, Y)) -> MoveEvent (newPosition) -> Other Listeners The top is used in transforms, since the translate event has no information about the entities current position, so need to have it injected by the transform system first.

Dependency Injection

Fetching Dependencies

[UsingDependency]
private static IDependency Dependency;

Apply the UsingDependency parameter to have a static dependency instance injected upon load.

Note: The variable must be static. This does not work for generic typed classes. A wrapper class is required for generic typed classes.

Creating Dependencies

To create a dependency, you require an interface in some area that is in a common location. In the case of CorgEng engine internals, all of the dependency definitions are defined in CorgEng.GenericInterfaces which is a dependency to all CorgEng modules.

To create your dependency, create a class that implements the interface you want to represent the dependency with and add the [Dependency] attribute. You can define the priority of a dependency to have your dependency override existing dependencies which is useful if you want to rework or refactor a large portion of code.

[Dependency]
internal DependencyImplementation : IDependency
{
  //Code here...
}

Created dependencies will always be static. If you want an instanced reference, create a factory dependency that can create new instances of the dependency you wish to be instanced.

Entity Component System / Signals

Systems

Systems are responsible for processing events and changing the states of components. They can listen for signals raised locally on entities, or listen to signals globally.

void InitializeSystem()
{
  RegisterLocalEvent<GComponent, GEvent>(HandleEvent);
}

void HandleEvent(Entity e, GComponent component, GEvent signal)
{
  ...
}

Components

A component simply stores data and nothing else. All processing and changing of the data is handled by the entity system.

Entities

An entity stores components. It has no functionality without its components.

Signals/Events

Signals store data and can be raised against an entity. When a signal is raised, any systems listening for the signal will be notified and can then perform some action.

Content Loading

CorgEng has a built in module for loading content dynamically.

Creating Entities

IEntityCreator provides a method CreateEntity that can produce entities defined by dynamic content files. This takes in 2 parameters, the name of the object to be instantiated, and a nullable function that executes events on an entity before initialisation is called. All events in this function should be called synchronously.

EntityCreator.CreateEntity(objectToSpawn, (createdEntity) => {
    IVector<float> vector = CorgEngMain.MainCamera.ScreenToWorldCoordinates(0, 0, 1000, 1000);
    new SetPositionEvent(new Vector<float>(vector.X, vector.Y)).Raise(createdEntity, true);
    new SetSpriteRendererEvent(ExampleRenderCore.GetEntityRenderer(createdEntity)).Raise(createdEntity, true);
});

Render Cores

Render Cores are the way that CorgEng handles rendering. A render core is a screen that can have objects drawn to it before being drawn to the main display. It has a width and height that can be dynamically modified. To display a render core, you can render it to any other render core or the main screen. CorgEng will automatically draw the main render core to the screen every frame. This allows for the simple application of post-processing effects and culling which will be useful for parts of the game such as UI.

It is important to note that despite being a screen, depth information is retained. This means that if you draw 2 render cores onto the main screen or another render core, by default the depth of the objects inside both render cores will be preserved. If you want a render core to overlay itself onto another and ignore depth information, then DepthMode can be changed.

Render cores have some settings on them which can be changed in order to change how they render things being drawn on them.

DrawMode

Describes how the render core should be rendered when drawn to another frame buffer.

Option Description
DEFAULT The render core will be drawn normally.
MULTIPLY The render core will multiply whatever it is being drawn on top of by its own pixels.
ADDITIVE The render core will be drawn by adding the render core's pixels with the pixels of the framebuffer being drawn to.

BlendMode

Describes how objects drawn onto the render core should blend together.

Option Description
DEFAULT The objects drawn to the render core will be drawn normally.
MULTIPLY The objects drawn to the render core will be drawn multiplicatively.
ADDITIVE The objects drawn to the render core will be drawn by adding together the pixel values at each location.

DepthMode

Describes how the render core should handle depth information.

Option Description
KEEP_DEPTH The render core will maintain depth information, if a render core is drawn on top of another render core then its objects may be drawn behind the objects of the first render core.
IGNORE_DEPTH The render core will be overlayed when drawn. If a render core is drawn on top of another render core, then objects in the second core will always be drawn on top of objects in the first core.

BackColour

The background colour of the render core. Fully transparent black by default.

Screenshots

image Lighting Example.

About

A modularised, multi-threaded C# game engine based on the Entity Component System architecture. Uses OpenGL for rendering and contains many optional modules for easier development. Includes a user interface library, networking, a layered rendering solution, dynamic XML content loading, ECS framework and an example programs. Primarilly for 2D games.

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