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A C++14 Component-Based Game Object Model framework for developing videogames

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DonerComponents

DonerComponents is a C++14 Component-Based Game Object Model framework for developing videogames.

If you are not familiar with this concept, I recommend you to have a look to the Example Project or the Tutorial and give it a try!

Features

  • Support for complex GameObject hierarchies, with parent/children relationships, activation, deactivation etc.
  • A Handle System to determine if any GameObject/component is still valid or has been destroyed already.
  • Easy component creation/registration which can be easily added to your GameObjects on the fly.
  • Messages between GameObjects, which are forwarded also to their children and their components.
  • Tags system to add specific attributes to your GameObjects.
  • Prefab system to reuse and compose more complex hierarchies. It supports Nested Prefabs.
  • A JSON parsing system to load your prefabs/GameObjects/scenes from disk.
  • 200+ Unit Tests ensures that everything works as expected.

Downloading

You can acquire stable releases here.

Alternatively, you can check out the current development version with:

git clone https://github.com/Donerkebap13/DonerComponents.git

Remember to run git submodule update --init --recursive afterwards.

Contact

You can contact me directly via email Also, if you have any suggestion or you find any bug, please don't hesitate to create a new Issue.

Example

DonerComponents_Asteroids_Example is an example project I've created in order to show how to use DonerComponents. It's a really simple Asteroids-wannabe clone. My intention with that project is to show all the features the framework supports right now, such as:

  • GameObject hierarchy
  • Messaging between GameObjects
  • Prefab system
  • GameObject parsing from JSON
  • Component creation
  • GameObject Tags

Tutorial

Here I'll try to illustrate the basic usage of the main systems of DonerComponents. After reading this you'll have the basic knowledge on how things are organized and how they can be used. For a deeper understanding I recommend you to have a look to the Example Project.

Initialization

CDonerComponentsSystems is a singleton that initializes and gives access to all DonerComponents different systems. It should be initialized:

#include <DonerComponents/CDonerComponentsSystems.h>

DonerComponents::CDonerComponentsSystems::CreateInstance();
DonerComponents::CDonerComponentsSystems::Get()->Init();

Updated:

float elapsed = ...;
DonerComponents::CDonerComponentsSystems::Get()->Update(elapsed);

And destroyed:

DonerComponents::CDonerComponentsSystems::DestroyInstance();

GameObjects

DonerComponents::CGameObject is DonerComponents's main actor. This class can contain different DonerComponents::CComponent that defines its behavior. It also has information about its parent and its children. It can also receive POD messages and forward them to its components and its children. Last but not least, it can also be tagged.

Creating a new gameObject is as simple as:

#include <DonerComponents/gameObject/CGameObject.h>

DonerComponents::CGameObjectManager* gameObjectManager = DonerComponents::CDonerComponentsSystems::Get()->GetGameObjectManager();
DonerComponents::CGameObject *gameObject = gameObjectManager->GetNewElement();

GetNewElement(); will return a valid DonerComponents::CGameObject as long as it hasn't run out of GameObjects to generate. By default, DonerComponents can have 4096 GameObjects alive at the same time. This value is modifiable through the compiler flag -DMAX_GAME_OBJECTS=4096 with a maximum of 8.192 GameObjects.

Prefabs

DonerComponents supports the definition of prefabs, so the user can define a specific gameObject hierarchy for reusing it wherever it's needed:

#include <DonerComponents/gameObject/CPrefabManager.h>

DonerComponents::CGameObjectManager* prefabManager = DonerComponents::CDonerComponentsSystems::Get()->GetPrefabManager();
prefabManager->RegisterPrefab("prefabName", anyGameObjectCreatedPreviously);

Prefabs could be also loaded from a JSON file.

Components

DonerComponents::CComponent is the base class for any component in DonerComponents. Components defines the gameObject's behavior by aggregation. They can listen to specific messages and perform actions accordingly. Any new component should inherit from this class and it can implement some basic methods, if needed. The user can register up to 512 different components.

Here's an example of a new component creation. The implementation of all its methods is optional:

#include <DonerComponents/component/CComponent.h>

class CCompFoo : public DonerComponents::CComponent
{
public:
	void DoInit() override { m_foo = 0.0f; }
	void DoUpdate(float dt) override { m_foo += dt; }
	void DoDestroy() override { m_foo = 0.0f; }
	void DoActivate() override { }
	void DoDeactivate() override { }
private:
	float m_foo;
};

To register this component in the system, so any gameObject can use it, we need to do the following:

#include <DonerComponents/component/CComponentFactoryManager.h>

static constexpr int amountOfFooComponentsAvailable = 512;
ADD_COMPONENT_FACTORY("foo", CCompFoo, amountOfFooComponentsAvailable);

After initializing the DonerComponents::CDonerComponentsSystems we can start registering our components into the system using the macro ADD_COMPONENT_FACTORY. The string it receives is to identify the component while parsing our GameObjects from a JSON file. The last parameters is how many components will be available. As with the GameObjects, there's a maximum of 8.192 components of the same kind alive at the same time.

Adding a Component to an GameObject

Once a componet is registered into the system, it can be added to an gameObject in two different ways:

DonerComponents::CComponent* component = gameObject->AddComponent<CCompFoo>();
// same as
CCompFoo* component = gameObject->AddComponent<CCompFoo>();
// or
DonerComponents::CComponent* component = gameObject->AddComponent("foo");
// same as
CCompFoo* component = gameObject->AddComponent("foo");

Updating your Components

In DonerComponents, components are updated by type, one type at a time, in the order they were registered into the system. So in the example:

ADD_COMPONENT_FACTORY("foo", CCompFoo, 128);
ADD_COMPONENT_FACTORY("bar", CCompBar, 128);

All existing CCompFoo will be updated sequentially before updating all existing CCompBar components.

Defining Serializable data for your components

You can define which data will be exposed to be modified in JSON using DonerSerializer. You can check here how to use it. In here I'm just going to show an example.

class CCompFoo : public DonerComponents::CComponent
{
	DONER_DECLARE_COMPONENT_AS_SERIALIZABLE(CCompFoo)
public:
	CCompFoo();
private:
	float m_dummy1;
	std::vector<std::string> m_dummy2;
};

DONER_DEFINE_REFLECTION_DATA(CCompFoo,
	DONER_ADD_NAMED_VAR_INFO(m_dummy1, "dummy1"),
	DONER_ADD_NAMED_VAR_INFO(m_dummy2, "dummy2")
)

After exposing m_dummy1 and m_dummy2, we can define their values in JSON like this:

{
	"root": {
		"name": "test1",
		"components": [
        	{
				"name": "foo",
				"dummy1": 1.0,
				"dummy2": ["Test1", "Test2", "Test3"]
			}
		]
	}
}

For a more in-depth look on how to read from JSON check this.

Messages

DonerComponents supports a message system to interact between different GameObjects and components. A message could be any Struct/Class defined by the user. Usually it'll only contain data, no logic, but there's no limitation to this. This is how a DonerComponents::CComponent can listen to a specific message:

// Somewhere in your code
struct SDummyMessage {
	SDummyMessage(int foo, int bar)
	 : m_foo(foo), m_bar(bar) {}
	 
	int m_foo = 0;
	int m_bar = 0;
}

// Inside your component
CCompFoo::RegisterMessages() {
	RegisterMessage(&CCompFoo::OnDummyMessage);
}

void CCompFoo::OnDummyMessage(const SDummyMessage& message) {
	// ...
}

After registering the messages you want, you can start sending messages like this:

SDummyMessage message(2, 3);
// This will propagate the message to all gameObject's components.
gameObject->SendMessage(message); 
// This will propagate the message to all gameObject's components and its children's components.
gameObject->SendMessage(message, DonerComponents::ESendMessageType::Recursive); 
// This won't send the message to the current gameObject but it's children.
gameObject->SendMessageToChildren(message); 
// Same as before but recursively through all gameObject's children and children's children.
gameObject->SendMessageToChildren(message, DonerComponents::ESendMessageType::Recursive); 

SendMessage sends the message right away, in the same frame. If you want to delay sending the message until the end of the frame, use PostMessage instead.

Last but not least, if you want to send a message to ALL living GameObjects, you can use BroadcastMessage:

SDummyMessage message(2, 3);
// This will propagate the message to all GameObjects alive.
gameObjectManager->BroadcastMessage(message); 

Handles

DonerComponents::CHandle are a kind of single thread smart pointers. They point to a specific DonerComponents::CGameObject or DonerComponents::CComponent, knowing at all moments if they're still valid or not or, in other words, if they've been destroyed somewhere else in the code. The size of a DonerComponents::CHandle is 32 bits. The way of working in DonerComponents is we never store raw pointers of DonerComponents::CGameObject or DonerComponents::CComponent, we always store DonerComponents::CHandle, so we can check if the element they point to is still valid, so we don't access dangling pointers. Any DonerComponents::CHandle can be cast to a DonerComponents::CGameObject or DonerComponents::CComponent. If the cast is valid and the element still exists, it'll return a valid pointer to the element. Otherwise it'll return nullptr. Here's an example:

#include <DonerComponents/handle/CHandle.h>
#include <DonerComponents/gameObject/CGameObjectManager.h>

using namespace DonerComponents;

CHandle gameObjectHandle = m_gameObjectManager->GetNewElement();

if (gameObjectHandle) {
	// CGameObjectManager has return a valid CGameObject
} else {
	// CGameObjectManager has run out of CGameObjects
}
CGameObject* gameObject = gameObjectHandle;
// gameObject will be valid as gameObjectHandle points to an alive gameObject

m_gameObjectManager->DestroyGameObject(&gameObject);
// gameObject is nullptr at this point
// gameObjectHandle == false as it points to a destroyed gameObject.

Also, you can send messages through handles. If the handle is valid, the message will be propagated properly. Otherwise, the message will be ignored:

DonerComponents::CHandle handle = gameObject;
SDummyMessage message(2, 3);
handle.SendMessage(message);

Tags

Tags are a way of adding more information to your GameObjects, so then you can filter them, send messages only to GameObjects with specific tags etc. There are two ways of adding tags to the system, so you can use them later. First one, declaring them directly in code:

#include <DonerComponents/tags/CTagsManager.h>

DonerComponents::CTagsManager* tagsManager = DonerComponents::CDonerComponentsSystems::Get()->GetTagsManager();
tagsManager->RegisterTag("Tag1");
tagsManager->RegisterTag("TagN");

The second one, parsing them from a JSON file:

tagsManager->ParseTagsFromFile("path/to/your/tags.json");

The format of the tags.json file is something similar to this:

{ "tags": ["Tag1", "tag2", "tagN"] }

Parsing a scene from a JSON file

DonerComponents supports loading from disk using JSON thanks to DonerSerializer, so there's a way fo creating prefabs or scenes that can be stored as assets instead of building them from scratch in code every time we run our application. The basic usage is as follows:

#include <DonerComponents/GameObjects/CGameObjectParser.h>

DonerComponents::CGameObjectParser parser;
CGameObject* gameObject = parser.ParseSceneFromFile("path/to/your/scene.json");

The format of a scene.json file is something similar to this:

{
	"root": {
		"name": "test1",
		"tags": ["tag1", "tag2", "tag3"],
		"components": [
        	{
				"name": "comp_location",
				"x": 1,
				"y": -3,
				"z": 9
			},
			{
				"name": "comp_rotation",
				"radians": 0.2
			}
		],
		"children": [
        	{
              	"name": "test11",
              	"tags": ["tag1", "tag3"]
			}, 
            {
              	"name": "test12",
              	"initiallyActive":false
			}
        ]
	}
}

Parsing a prefab

If, instead of parsing a scene we want to parse a prefab to register it automatically into DonerComponents::CPrefabManager, we just need to call ParsePrefabFromFile:

#include <DonerComponents/GameObjects/CGameObjectParser.h>

DonerComponents::CGameObjectParser parser;
CGameObject* gameObject = parser.ParsePrefabFromFile("path/to/your/prefab.json");

After doing this the prefab is available for any new parsed scene to use.

Nested Prefabs

DonerComponents supports prefabs that includes other prefabs, being able to override its component's information:

Prefab1.json

{
	"root": {
		"name": "Prefab1",
		"components": [
        	{
				"name": "comp_location",
				"x": 1,
				"y": -3,
				"z": 9
			},
			{
				"name": "comp_rotation",
				"radians": 0.2
			},
			{
				"name": "sprite",
				"texture": "res/common/textures/asteroid_med.png"
			}
		]
	}
}

Prefab2.json

{
	"root": {
		"name": "Prefab2",
		"prefab": "Prefab1",
		"components": [
        	{
				"name": "sprite",
				"texture": "res/common/textures/flower_big.png"
			}
		]
	}
}

Scene.json

{
	"root": {
		"name": "root",
		"prefab": "Prefab2",
		"components": [
        	{
				"name": "comp_location",
				"x": 0,
				"y": 0,
				"z": 0
			}
		]
	}
}