Integrating OpenCV into Unreal Engine 4

This article was originally written by Ginku; Converted by jfaw


Hello all! This is my first wiki tutorial, I hope it can be of help to someone!

I am making this tutorial in response to a few requests. This will be a detailed, step-by-step guide to linking OpenCV 3.2 to Unreal Engine 4 using the Unreal Build Tool. You can find a general tutorial on linking any static library to Unreal here. I recommend reading it in addition to this tutorial, as it is what this tutorial is based on.

This tutorial focuses on the windows OS for simplicity. Note that the same process works for other OS, but you might need to build OpenCV from source.

Why OpenCV?

OpenCV is a powerful open-source computer vision library, and once included into any unreal engine 4 project it will allow for the use of the engine in many non-traditional ways. Including OpenCV in a project as a dependency will allow developers to create state-of-the-art environments with either augmented reality components, virtual reality environments that resemble the user’s surroundings, or any mixture of the two. In this tutorial I will show you how to quickly and painlessly include OpenCV in any unreal engine 4 project with the Windows OS, and then I will guide you through displaying a webcam in a level.

Using the Plugin

I have created a plugin that does all the OpenCV library linking, which can be found on its github. Installation instructions are inside the README file. With this plugin, you can skip to the Moving to Blueprints section of this tutorial. If you do so, be sure to enable the Computer Vision > OpenCV plugin inside the editor's Edit > Plugins menu.

Note: after installation, be sure to regenerate project files. For visual studios, right click your project (.uasset) file and select 'generate visual studio project files' after deleting your previous visual studios file.

Linking OpenCV in Visual Studios

Before you continue, make sure you are starting from a code project, or have added code to your project with the editor!

Copying the OpenCV Files

In order to begin, all of OpenCV’s include and library files will need to be added to your project’s /ThirdParty directory. To begin, install OpenCV 3.2 or locate your installation of OpenCV 3.2 and do the following:

  • Inside the OpenCV install directory you will find the /build/include directory. Copy all of the contents of this directory into the [ProjectRootDirectory]/ThirdParty/OpenCV/Includes directory.

  • Next, copy the opencv_world320.dll and opencv_ffmpeg320_64.dll files in the /build/x64/vc14/bin folder and the 'opencv_world320.lib', files in the /build/x64/vc14/lib folder to the [ProjectRootDirectory]/ThirdParty/OpenCV/Libraries/Win64/ directory.

Note: This process is similar for any version of OpenCV or any third party library. You only need the runtime libraries (not the debug ones with a 'd' appended, such as opencv_world320d.dll unless you need the debug versions).

Adding OpenCV Dependencies

Locate and open your projects module rules file, which should be in your projects Source/[Project Name] directory. (It will be in the format of ProjectName.Build.cs) In this file, we will add the necessary code so that the unreal build tool will include all of the necessary dependencies during build time.

First, be sure to add the following include at the top of the file:

using System.IO;

This lets you use the Path helper class, which is very useful for assembling directory paths!

Inside your ModuleRules class and before the constructor, add the following getter:

private string ThirdPartyPath
    get { return Path.GetFullPath(Path.Combine(ModuleDirectory, "../../ThirdParty/")); } 

This is a helpful little function for retrieving the /ThirdParty/ path, and can be very convenient when including more than one third party dependency to a project. Now, add the following function after the constructor:

public bool LoadOpenCV(TargetInfo Target)
    // Start OpenCV linking here!
    bool isLibrarySupported = false;

    // Create OpenCV Path 
    string OpenCVPath = Path.Combine(ThirdPartyPath, "OpenCV");

    // Get Library Path 
    string LibPath = "";
    bool isdebug = Target.Configuration == UnrealTargetConfiguration.Debug && BuildConfiguration.bDebugBuildsActuallyUseDebugCRT;
    if (Target.Platform == UnrealTargetPlatform.Win64)
        LibPath = Path.Combine(OpenCVPath, "Libraries", "Win64");
        isLibrarySupported = true;
        string Err = string.Format("{0} dedicated server is made to depend on {1}. We want to avoid this, please correct module dependencies.", Target.Platform.ToString(), this.ToString()); System.Console.WriteLine(Err);

    if (isLibrarySupported)
        //Add Include path 
        PublicIncludePaths.AddRange(new string[] { Path.Combine(OpenCVPath, "Includes") });

        // Add Library Path 

        //Add Static Libraries

        //Add Dynamic Libraries

    Definitions.Add(string.Format("WITH_OPENCV_BINDING={0}", isLibrarySupported ? 1 : 0));

    return isLibrarySupported;

This function includes all of the required includes and libraries for OpenCV. Now, simply call this function inside your project constructor after the standard public modules:

PublicDependencyModuleNames.AddRange(new string[] { "Core", "CoreUObject", "Engine", "InputCore", "RHI", "RenderCore", "ShaderCore" });


Be sure to add the InputCore, RHI, and RenderCore engine modules to the public dependency list, we will use these later to create a dynamic texture from the camera feed. The PrivateIncludePaths will allow you to include the OpenCV header files without full paths.

Now, your project should successfully compile with OpenCV included within the engine build! However, there is one more thing that needs to be included before you can launch an instance of your project’s editor.

Copying the DLL's to the Build

Before your project will run with any OpenCV code, you will first need to add all of the dynamically linked library (.dll) files that you use to your editor’s bin folder. Your editor will typically be a 64-bit application, so copy all of the .dll files (opencv_world320.dll and opencv_ffmpeg320_64.dll) from the OpenCV’s 64 bit bin folder (full directory shown above) and paste them inside the [ProjectRootDirectory]/Binaries/Win64 directory.

Note: These DLL's should also be included with any distributions of the project (such as when packaging your game/project), by including them in the same directory as the project's executable (MY_PROJECT.exe).

Fixing Library Collisions

There is a collision between the OpenCV3 library and UE4. To fix this, comment out lines ~51 to ~55 and line ~852 of the utility.hpp header file in the '[ProjectRootDirectory]\ThirdParty\OpenCV\Includes\opencv2\core directory.

// NOTE: The OpenCV 'check' function has been commented out, as it conflicts with UE4 check - see line ~852
//#if defined(check)
//#  warning Detected Apple 'check' macro definition, it can cause build conflicts. Please, include this header before any Apple headers.


//bool check() const;

Adding a WebcamReader Class

You are now ready to launch an instance of your editor and start using OpenCV! Right click the project name in your solution explorer, and select Debug > Start new instance. If you get an error about the os being unable to load your dll, check out the discussion page. Once the editor loads, select File > New C++ Class… and select the Actor parent class. Press Next, name the actor WebcamReader and press Create Class. Once Unreal has finished adding the new actor, the new header and source files will be opened inside Visual Studios.

Add the following code to each of them:

// A simple webcam reader using the OpenCV library
// Author: The UE4 community

#pragma once

#include "opencv2/core.hpp"
#include "opencv2/highgui.hpp"    
#include "opencv2/imgproc.hpp"
#include "opencv2/videoio.hpp"
#include "GameFramework/Actor.h"
#include "Runtime/Engine/Classes/Engine/Texture2D.h"
#include "WebcamReader.generated.h"

class YOURPROJECT_API AWebcamReader : public AActor

    // Sets default values for this actor's properties

    // Called when the game starts or when spawned
    virtual void BeginPlay() override;

    // Called every frame
    virtual void Tick( float DeltaSeconds ) override;

    // The device ID opened by the Video Stream
    UPROPERTY(BlueprintReadWrite, EditAnywhere, Category = Webcam)
    int32 CameraID;

    // If the webcam images should be resized every frame
    UPROPERTY(BlueprintReadWrite, EditAnywhere, Category = Webcam)
    bool ShouldResize;

    // The targeted resize width and height (width, height)
    UPROPERTY(BlueprintReadWrite, EditAnywhere, Category = Webcam)
    FVector2D ResizeDeminsions;

    // The rate at which the color data array and video texture is updated (in frames per second)
    UPROPERTY(BlueprintReadWrite, EditAnywhere, Category = Webcam)
    float RefreshRate;

    // The refresh timer
    UPROPERTY(BlueprintReadWrite, Category = Webcam)
    float RefreshTimer;

    // Blueprint Event called every time the video frame is updated
    UFUNCTION(BlueprintImplementableEvent, Category = Webcam)
    void OnNextVideoFrame();

    // OpenCV fields
    cv::Mat frame;
    cv::VideoCapture stream;
    cv::Size size;

    // OpenCV prototypes
    void UpdateFrame();
    void DoProcessing();
    void UpdateTexture();

    // If the stream has succesfully opened yet
    UPROPERTY(BlueprintReadOnly, Category = Webcam)
    bool isStreamOpen;

    // The videos width and height (width, height)
    UPROPERTY(BlueprintReadWrite, Category = Webcam)
    FVector2D VideoSize;

    // The current video frame's corresponding texture
    UPROPERTY(BlueprintReadOnly, Category = Webcam)
    UTexture2D* VideoTexture;

    // The current data array
    UPROPERTY(BlueprintReadOnly, Category = Webcam)
    TArray<FColor> Data;


    // Use this function to update the texture rects you want to change:
    // NOTE: There is a method called UpdateTextureRegions in UTexture2D but it is compiled WITH_EDITOR and is not marked as ENGINE_API so it cannot be linked
    // from plugins.
    // FROM:
    void UpdateTextureRegions(UTexture2D* Texture, int32 MipIndex, uint32 NumRegions, FUpdateTextureRegion2D* Regions, uint32 SrcPitch, uint32 SrcBpp, uint8* SrcData, bool bFreeData);

    // Pointer to update texture region 2D struct
    FUpdateTextureRegion2D* VideoUpdateTextureRegion;


// A simple webcam reader using the OpenCV library
// Author: The UE4 community

#include "YOURPROJECT.h"
#include "WebcamReader.h"

// Sets default values
     // Set this actor to call Tick() every frame.  You can turn this off to improve performance if you don't need it.
    PrimaryActorTick.bCanEverTick = true;

    // Initialize OpenCV and webcam properties
    CameraID = 0;
    RefreshRate = 15;
    isStreamOpen = false;
    VideoSize = FVector2D(0, 0);
    ShouldResize = false;
    ResizeDeminsions = FVector2D(320, 240);
    RefreshTimer = 0.0f;
    stream = cv::VideoCapture();
    frame = cv::Mat();

// Called when the game starts or when spawned
void AWebcamReader::BeginPlay()

    // Open the stream;
    if (stream.isOpened())
        // Initialize stream
        isStreamOpen = true;
        VideoSize = FVector2D(frame.cols, frame.rows);
        size = cv::Size(ResizeDeminsions.X, ResizeDeminsions.Y);
        VideoTexture = UTexture2D::CreateTransient(VideoSize.X, VideoSize.Y);
        VideoUpdateTextureRegion = new FUpdateTextureRegion2D(0, 0, 0, 0, VideoSize.X, VideoSize.Y);

        // Initialize data array
        Data.Init(FColor(0, 0, 0, 255), VideoSize.X * VideoSize.Y);

        // Do first frame


// Called every frame
void AWebcamReader::Tick( float DeltaTime )
    Super::Tick( DeltaTime );

    RefreshTimer += DeltaTime;
    if (isStreamOpen && RefreshTimer >= 1.0f / RefreshRate)
        RefreshTimer -= 1.0f / RefreshRate;

void AWebcamReader::UpdateFrame()
    if (stream.isOpened())
        if (ShouldResize)
            cv::resize(frame, frame, size);
    else {
        isStreamOpen = false;

void AWebcamReader::DoProcessing()
    // TODO: Do any processing here!

void AWebcamReader::UpdateTexture()
    if (isStreamOpen &&
        // Copy Mat data to Data array
        for (int y = 0; y < VideoSize.Y; y++)
            for (int x = 0; x < VideoSize.X; x++)
                int i = x + (y * VideoSize.X);
                Data[i].B =[i * 3 + 0];
                Data[i].G =[i * 3 + 1];
                Data[i].R =[i * 3 + 2];

        // Update texture 2D
        UpdateTextureRegions(VideoTexture, (int32)0, (uint32)1, VideoUpdateTextureRegion, (uint32)(4 * VideoSize.X), (uint32)4, (uint8*)Data.GetData(), false);

void AWebcamReader::UpdateTextureRegions(UTexture2D* Texture, int32 MipIndex, uint32 NumRegions, FUpdateTextureRegion2D* Regions, uint32 SrcPitch, uint32 SrcBpp, uint8* SrcData, bool bFreeData)
    if (Texture->Resource)
        struct FUpdateTextureRegionsData
            FTexture2DResource* Texture2DResource;
            int32 MipIndex;
            uint32 NumRegions;
            FUpdateTextureRegion2D* Regions;
            uint32 SrcPitch;
            uint32 SrcBpp;
            uint8* SrcData;

        FUpdateTextureRegionsData* RegionData = new FUpdateTextureRegionsData;

        RegionData->Texture2DResource = (FTexture2DResource*)Texture->Resource;
        RegionData->MipIndex = MipIndex;
        RegionData->NumRegions = NumRegions;
        RegionData->Regions = Regions;
        RegionData->SrcPitch = SrcPitch;
        RegionData->SrcBpp = SrcBpp;
        RegionData->SrcData = SrcData;

            FUpdateTextureRegionsData*, RegionData, RegionData,
            bool, bFreeData, bFreeData,
            for (uint32 RegionIndex = 0; RegionIndex < RegionData->NumRegions; ++RegionIndex)
                int32 CurrentFirstMip = RegionData->Texture2DResource->GetCurrentFirstMip();
                if (RegionData->MipIndex >= CurrentFirstMip)
                        RegionData->MipIndex - CurrentFirstMip,
                        + RegionData->Regions[RegionIndex].SrcY * RegionData->SrcPitch
                        + RegionData->Regions[RegionIndex].SrcX * RegionData->SrcBpp
            if (bFreeData)
            delete RegionData;

Note: you need to change YOURPROJECT in the class definition of the header file and the project include in the source file with the correct version, which is based on your project's name.

This class is used as a wrapper for a future unreal blueprint class. It allows you to specify the device ID, target resolution and framerate of the camera, as well as providing a dynamic texture and an FColor array of the current frame's pixels and a blueprint native event that is called whenever the next webcam frame is available!

Moving to Blueprints

You can now access your webcam feed in blueprints. From this point forward we will be working in the editor.

Adding the WebcamBillboard Actor

Now that all the code has been included for accessing your webcams, I will now show you how to use the dynamic texture from the WebcamReader actor in a new WebcamBillboard subclass. This time, the code will be implemented in unreal blueprints! Launch the editor again with Debug > Start new instance. In your choice of directory, right click and add a new blueprint class. At the bottom of the new window, expand All Classes and search AWebcamReader and select it as the parent class. Name the new blueprint BP_WebcamBillboard and open it.

Within the viewport, add a cube static mesh component, and name it Billboard. This will be the component that the texture is rendered to. At the beginning of the game, we will want to create a dynamic material instance and set it to the billboard mesh. Under Variables, click the + button to add a new Material Instance Dynamic called DynamicMaterial’ Drag the Billboard component onto the Event Graph, and create a getter node. Drag out from this new getter and create a Create Dynamic Material Instance node and connect the white execution wire to the transparent BeginPlay event (or create one). This creates an special Unreal material instance that can be altered at runtime. However, we have not created this Unreal material!

Go back to your content browser, right click and create a new material. Call this material M_Webcam and open it. Click on the M_Webcam node and set the Shading Mode to Unlit. Hold T and left click anywhere in the new graph to create a texture node. You will have to set the default texture to anything (I used T_Ceramic_Tile_M). Right click this node and convert it to a parameter. Call this parameter Texture and connect its white Float3 pin to the Emissive Color pin on the M_Webcam node. Make sure the save the material!

Now, back in the BP_WebcamBillboard blueprint, select the M_Webcam as the Source Material for the Create Dynamic Material Instance node, and make sure the Element Index is set to 0. Drag out from the original billboard getter and create a Set Material node. Set the Material pin to the output of the Create Dynamic Material Instance node, and again make sure the Element Index is set to 0. Finally, drag out the DynamicMaterial variable we created earlier and create a setter. Connect the output of the Create Dynamic Material Instance node to the DynamicMaterial input pin to save a reference of this special material for later use.

We have dynamically set the material of our Billboard mesh, and now we need to update its texture parameter each time a new frame is received. To do this, right click on the Event Graph and create a OnNextVideoFrame event. This event is called in the AWebcamReader actor whenever a new frame is read. Drag out the DynamicMaterial variable and create a getter underneath the new event. Drag out from the getter and create a Set Texture Parameter Value node. Set the Parameter Name to Texture (the name of the texture parameter in the M_Webcam material). Right click on the Event Graph and type VideoTexture to retrieve a reference to the webcam texture provided by the AWebcamReader parent class. Connect the output pin of this VideoTexture reference to the Value pin of the Set Texture Parameter Value node. With that, the BP_WebcamBillboard is ready for use!

Drag the BP_WebcamBillboard blueprint from the content browser into your level. Orientate and position it however you like, and scale it to a similar scale of your images resolution (about 6.4, 4.8, and 0.5 for my webcam). Now, set the Webcam properties in the detail panel. (I used a Camera ID of 0, Should Resize to false, and Refresh Rate of 2.0) Your Camera ID will determine the camera that renders, it should be 0 unless you have more than one webcam. In the case of a laptop, 0 will probably be the integrated laptop, and 1+ will be any additional webcams. You can now press play to see the results!

You can hold alt and move the object to duplicate it. Change its Camera ID to render a second webcam!

Good luck with your OpenCV / UE4 Projects! :)

Final Notes

For packaged versions of your OpenCV projects, be sure that the executable has access to the dll's. For a windows build, this can be done by coppying the opencv_world320.dll and opencv_ffmpeg320_64.dll into the WindowsNoEditor/YOURPROJECT directory. (There are 2 executables for windows builds, but the one in the YOURPROJECT directory is the one that needs access to the dll's, regardless of which one you use to launch your project!)

UE4 and the C++ standard library do not play well together. This can cause annoying crashes, such as with the cv::findContours function (often during the std::vector destructors). Members of the community have gotten around this by wrapping findContour calls in a separate library, and including that in their UE4 projects with steps similar to the ones to include the OpenCV library in this tutorial.

The webcam reader shown in this tutorial is designed to be simple and easy to follow. However, it isn't very efficient, as all of the OpenCV reading code and UE4 dynamic texture code occurs on the game thread, potentially per-tick with high refresh rates! I would recommend separating these parts into another thread to increase performance. Rama's tutorial on multi-threading is a good start if you are unfamiliar with UE4 threads.

If any of these points are confusing, feel free to say so on my talk page and when I get the chance I will add an in-depth section to this tutorial! :)


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