This branch is no longer maintained, I would pick a different branch.
Unreal ImGui is an Unreal Engine 4 plug-in that integrates Dear ImGui developed by Omar Cornut.
Dear ImGui is an immediate-mode graphical user interface library that is very lightweight and easy to use. It can be very useful when creating debugging tools.
Please note that this is a forked project from https://github.com/segross/UnrealImGui. I do not take credit for the work he's put into making Dear ImGui work in Unreal Engine. The work I've done to this fork is listed below.
I've removed large portions of this readme.md to keep redundant information between the base project and this fork to a minimum. If you wish to read the original readme.md, please see this link: UnrealImGui ReadMe.md.
Also note that the NetImGui branch is not up to date with any of this fork's changes.
- Updated core source files for Unreal Engine 5.
- Updated Dear ImGui to 1.87.
- Added ImPlot v0.13 WIP.
ImGui::IsKey*
now functional with all known ImGui keys.- Updated input handling flow to be standard compliant with Dear ImGui 1.87 which makes ImGui react better at low FPS. Will add
IMGUI_DISABLE_OBSOLETE_KEYIO
preprocessor once I've ripped out old style input. - Allowed
UTexture
for Texture Manager so render targets can also be rendered to quads rather than just being limited to usingUTexture2D
instances. - Added the ability to instruct ImGui context to build custom fonts (like FontAwesome).
UnrealImGui Version: 1.22
ImGui version: 1.87
ImPlot version: v0.13 WIP
Supported Unreal Engine version: 5.0*
* The original repository has support for later versions of UE4. I've not tested this fork on UE4 variants, I only know it works for UE5 currently.
On top of reading the base repository's How to Set up segment, you'll need to add the following line to your [GameName].Build.cs
file otherwise you'll get linking errors:
// Tell the compiler we want to import the ImPlot symbols when linking against ImGui plugin
PrivateDefinitions.Add(string.Format("IMPLOT_API=DLLIMPORT"));
It's pretty easy to use ImPlot, it's pretty much the same drill as using Dear ImGui with the UnrealImGui plugin. You can see documentation on how to use ImPlot here: ImPlot.
The only thing you won't need to do is call the ImPlot::CreateContext()
and ImPlot::DestroyContext
routines as they're already called when ImGui's context is created within UnrealImGui's guts.
One might want to render viewports into the world in an ImGui window. You can do this pretty simply by generating a UTextureRenderTarget2D
then assigning that to a ASceneCapture2D
actor in your world. Here's some sample code for generating an correctly managing the UTextureRenderTarget2D
:
void Init()
{
TextureRenderTarget = NewObject<UTextureRenderTarget2D>();
if(IsValid(TextureRenderTarget))
{
TextureRenderTarget->InitAutoFormat(512, 512);
TextureRenderTarget->UpdateResourceImmediate(true);
}
// ... Generate a unique TextureName here
// Register this render target as an ImGui interop handled texture
ImGuiTextureHandle = FImGuiModule::Get().FindTextureHandle(TextureName);
if(!ImGuiTextureHandle.IsValid())
{
if(IsValid(TextureRenderTarget))
{
ImGuiTextureHandle = FImGuiModule::Get().RegisterTexture(TextureName, TextureRenderTarget, true);
}
}
}
~Class()
{
// Requires releasing to avoid memory leak
FImGuiModule::Get().ReleaseTexture(ImGuiTextureHandle);
}
void Render()
{
// Actually submit the draw command to ImGui to render the quad with the texture
if(ImGuiTextureHandle.IsValid())
{
ImGui::Image(ImGuiTextureHandle.GetTextureId(), {512.f, 512.f});
}
}
Then generating the ASceneCapture2D
:
void Init()
{
FActorSpawnParameters SpawnInfo;
SceneCapture2D = World->SpawnActor<ASceneCapture2D>(FVector::ZeroVector, FRotator::ZeroRotator, SpawnInfo);
SceneCaptureComponent2D->TextureTarget = TextureRenderTarget;
SceneCaptureComponent2D->UpdateContent();
// Need to use this in order to force capture to use tone curve and also set alpha to scene alpha (1)
SceneCaptureComponent2D->CaptureSource = ESceneCaptureSource::SCS_FinalToneCurveHDR;
}
If you're using a scene capture and your quad is not drawing at all, make sure your scene capture "Capture Source" is set to "Final Color (with tone curve) in Linear sRGB gamut" to avoid alpha being set to 0 (since there's no way to instruct ImGui to ignore alpha without modding the core UnrealImGui plugin).
If you're getting crashes or seg faults during rendering, make sure you're using UPROPERTY()
on your class variables!
Adding custom fonts is fairly simple. As a more complex and more commonly done, we're going to embed and build FontAwesome 6 into the font atlas. First thing you'll need is a binary C version of the FontAwesome font along with the necessary companion descriptors. The descriptors are pre-generated, however if you have a new version of FA you wish to use, then use the Python script in that repository. As for the binary C, you'll need to compile Dear ImGui's binary_to_compressed_c.cpp.
Once you have the necessary files, you'll need to encode your FontAwesome font using the command:
binary_to_compressed_c.exe -nocompress fa-solid-900.ttf FontAwesomeFont > FontAwesomeFont.h
The only mandatory field here is -nocompress
as this instructs the encoder to create an uncompressed binary file (1:1) since currently there's no immediate support for compressed fonts.
Move over your descriptors and your binary C font file to an appropriate location for inclusion in your Unreal Engine project. The following code is how to instruct ImGui to build the font atlas with your FontAwesome font:
#include "FontAwesomeFont.h"
#include "IconsFontAwesome6.h"
// Add FontAwesome font glyphs from memory
if(TSharedPtr<ImFontConfig> FAFontConfig = MakeShareable(new ImFontConfig()))
{
static const ImWchar IconRange[] = { ICON_MIN_FA, ICON_MAX_FA, 0 };
FAFontConfig->FontDataOwnedByAtlas = false; // Global font data lifetime
FAFontConfig->FontData = (void*)FontAwesomeData; // Declared in binary C .h file
FAFontConfig->FontDataSize = FontAwesomeSize; // Declared in binary C .h file
FAFontConfig->SizePixels = 16;
FAFontConfig->MergeMode = true; // Forces ImGui to place this font into the same atlas as the previous font
FAFontConfig->GlyphRanges = IconRange; // Required; instructs ImGui to use these glyphs
FAFontConfig->GlyphMinAdvanceX = 16.f; // Use for monospaced icons
FAFontConfig->PixelSnapH = true; // Better rendering (align to pixel grid)
FAFontConfig->GlyphOffset = {0, 3}; // Moves icons around, for alignment with general typesets
FImGuiModule::Get().GetProperties().AddCustomFont("FontAwesome", FAFontConfig);
FImGuiModule::Get().RebuildFontAtlas();
}
That's it. Make sure you execute the above code once at the beginning of the first ImGui frame (or at any point of your framework where the ImGui context has been initialized correctly) and it should build the main atlas with FontAwesome inside it. ImFontConfig lifetime is currently managed via reference counting (TSharedPtr
).
#include "IconsFontAwesome6.h"
void OnPaint()
{
ImGui::Text(ICON_FA_AWARD);
}
Pretty simple. Building FStrings that incorporate FontAwesome icons however gets a little trickier:
FString Str = "Hello " + FString(UTF8_TO_TCHAR(ICON_FA_WAVE_SQUARE)) " World";
ImGui::TextUnformatted(TCHAR_TO_UTF8(*Str));
Unreal ImGui (and this fork) is licensed under the MIT License, see LICENSE for more information.