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You can download the engine by using Git and cloning the repository, or downloading it as zip. This will give you the full C++ source code that you must build for yourself. Building is simply pressing F5 in Visual Studio. You can also choose to download a pre-built version of the Editor or Tests applications, which will allow you to load content and write LUA scripts.

• Windows PC Desktop (x86, x64)
• Universal Windows (x86, x64, ARM, Phone, XBOX One)

• Windows 10
• Visual Studio 2019 with latest Windows 10 SDK

There are a couple of projects that you can run up front: Editor, Tests and Template. You just have to set either as startup project and press F5 in Visual Studio to build and run.

If you wish to integrate Wicked Engine into your own project, you can use it as a static library and link it to your application. For this, you must first compile the engine library project for the desired platform. For Windows Desktop, this is the WickedEngine_Windows project. After that, set the following dependencies to this library in Visual Studio this way in the implementing project (paths are as if your project is inside the engine root folder):

1. Open Project Properties -> Configuration Properties
2. C/C++ -> General -> Additional Include Directories:
   • ./WickedEngine
3. Linker -> General -> Additional Library Directories:
   • Directory of your built .lib file (For example ./x64/Release)
4. Compile with a non-DLL runtime library for Release builds:
   • Project settings -> C/C++ -> Code Generation -> Runtime Library -> Multi threaded
5. If you want to create a UWP application, link against the WickedEngine_UWP library.

When your project settings are set up, put #include "WickedEngine.h" in your source. This will enable the use of all the engine features and link the necessary binaries. After this, you should already be able to build your project.

If you have trouble, you can look at or copy the project settings for Editor, Tests and Template application projects to get an idea how to link with Wicked Engine.

Initialization example (C++):

// Include engine headers:
#include "WickedEngine.h"

// Declare main component once per application:
MainComponent main;

// Set the window to render to like this:
main.SetWindow(hWnd);

// Run the application:
while(true) {
   main.Run(); 
}

Some basic usage examples (C++):

RenderPath3D_Deferred myGame; // Declare a game screen component, aka "RenderPath" (you could also override its Update(), Render() etc. functions). This is a 3D, Deferred path for example, but there are others
main.ActivatePath(&myGame); // Register your game to the application. It will call Start(), Update(), Render(), etc. from now on...

wiScene::LoadModel("myModel.wiscene"); // Simply load a model into the current global scene
wiScene::GetScene(); // Get the current global scene
wiRenderer::ClearWorld(); // Delete every model, etc. from the current global scene

wiScene::Scene scene2; // create a separate scene
wiScene::LoadModel(scene2, "myModel2.wiscene"); // Load model into a separate scene
wiScene::GetScene().Merge(scene2); // Combine separate scene with global scene

myGame.setFXAAEnabled(true); // You can enable post process effects this way...

RenderPath2D myMenuScreen; // This is an other render path, but now a simple 2D one. It can only render 2D graphics by default (like a menu for example)
main.ActivatePath(&myMenuScreen); // activate the menu, the previous path (myGame) will be stopped

wiSprite mySprite("image.png"); // There are many utilities, such as a "sprite" helper class
myMenuScreen.addSprite(&mySprite); // The 2D render path is ready to handle sprite and font rendering for you

wiAudio::Sound mySound;
wiAudio::CreateSound("explosion.wav", &mySound); // Loads a sound file
wiAudio::SoundInstance mySoundInstance;
wiAudio::CreateSoundInstance(&mySound, &mySoundInstance); // Instances the sound file, it can be played now
wiAudio::Play(&mySoundInstance); // Play the sound instance
wiAudio::SetVolume(0.6, &mySoundInstance); // Set the volume of this soundinstance
wiAudio::SetVolume(0.2); // Set the master volume

if (wiInput::Press(wiInput::KEYBOARD_BUTTON_SPACE)) { wiAudio::Stop(&mySoundInstance); } // You can check if a button is pressed or not (this only triggers once)
if (wiInput::Down(wiInput::KEYBOARD_BUTTON_SPACE)) { wiAudio::Play(&mySoundInstance); } // You can check if a button is pushed down or not (this triggers repeatedly)

Some scripting examples (LUA):

-- Set a rendering path for the application main component
path = RenderPath3D_Deferred;
main.SetActivePath(path);    -- "main" is created automatically

-- Load a model entity into the global scene:
entity = LoadModel("myModel.wiscene");

-- Load a model entity into a separate scene:
scene2 = Scene()
entity2 = LoadModel(scene2, "myModel2.wiscene");

-- Combine the separate scene with the global scene:
scene.Merge(scene2);

-- Get the current global scene:
scene = GetScene();

-- Move model to the right using the entity-component system:
transform = scene.Component_GetTransform(entity);
transform.Translate(Vector(2, 0, 0));

-- Clear every model from the current global scene:
ClearWorld();

-- Print any WickedEngine class information to the backlog:
getprops(main);    -- prints the main component methods
getprops(scene);    -- prints the Scene class methods
getprops(path);    -- prints the deferred render path methods

-- Play a sound:
sound = Sound()
audio.CreateSound("explosion.wav", sound)
soundinstance = SoundInstance()
audio.CreateSoundInstance(sound, soundinstance)  -- several instances can be created from one file
audio.Play(soundinstance)
audio.SetVolume(0.6, soundinstance)  -- sets the volume of this soundinstance
audio.SetVolume(0.2)  -- sets the master volume

-- Check for input:
if(input.Press(KEYBOARD_BUTTON_LEFT)) then
   audio.Play(soundinstance); -- this will play the sound if you press the left arrow on the keyboard
end

(You can enter lua scripts into the backlog (HOME button), or the startup.lua script which is always executed on application startup if it is found near the app, or load a script via dofile("script.lua") command)

For more code samples and advanced use cases, please see the example projects, like the Template_Windows, Tests, or Editor project. There are also sample models and scripts included with Wicked Engine in the models and scripts folders. Check them out to learn about more features.

You can use a great number of engine features through the Lua scripting api, which can even be used real time while the program is running. The included applications, like the Editor, contain a scripting input method toggled by the "Home" key. A blue screen will be presented where the user can type in LUA commands. It is very minimal in regards to input methods. For further details, please check the scripting API documentation: Wicked Engine Scripting API

The native model format is the WISCENE format. Any application using Wicked Engine can open this format efficiently.

In addition, the Editor supports the importing of some common model formats (the list will potentially grow):

• OBJ
• GLTF 2.0

The preferred workflow is to import models into the Editor, and save them as WISCENE, then any Wicked Engine application can open them.
(The old Blender exporter script is now not supported! (from version 0.21.0), because the engine was redesigned with Entity-Component System at its core. The old object oriented version can be found here.)

The default renderer is DirectX 11. There is also a DirectX12 renderer and Vulkan renderer. You can specify command line arguments to switch between render devices or other settings. Currently the list of options:

• *DX12 will try to load shaders from WickedEngine/shaders/hlsl6 directory. HLSL6 shaders can be compiled by Rebuilding the Shaders_HLSL6 project from within Visual Studio (Python 3 required for building).

• **Vulkan support will be built into the application if the Vulkan SDK is installed on the build machine. Vulkan will try to load shaders from WickedEngine/shaders/spirv directory. SPIRV shaders can be compiled by Rebuilding the Shaders_SPIRV project from within Visual Studio (Python 3 required for building).

Contributions can be submitted on Github by following the steps below:

1. Open an issue and describe the feature or patch in detail
2. The feature or patch will be discussed in the issue, and determined if it would benefit the project
3. After the request is accepted, open a pull request and reference the issue with #issue_number
4. Code review will be conducted and the pull request will be merged when it meets the requirements
5. When the pull request passes, you will be added to the credits as a contributor and your name shall be remembered by future generations

• Game Guru MAX: Easy to use game creator software
• Flytrap: Demoscene production by qop
• Your project: add your project to this readme and open a pull request

Sponza scene with voxel GI enabled:

Damaged Helmet sample model imported from GLTF:

Bokeh Depth of Field (Lain model by woopoodle at Sketchfab):

Motion blur (fighting game sample):

Stochastic Screen Space Reflections:

Real time ray traced shadows and ambient occlusion (DXR, VK_KHR_raytracing):

Bloom:

Path tracing in the living room (model from Morgan McGuire's graphics archive):

City scene with a light map (model by Michael Gallie at CgTrader):

Path tracing in the city:

Path traced caustics:

Vegetation particle system and depth of field:

Bistro scene from Amazon Lumberyard (model from Morgan McGuire's graphics archive):

Bistro scene from the inside:

Parallax occlusion mapping:

Large scale particle simulation on the GPU:

Tiled light culling in the Bistro:

GPU-based BVH builder: