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Debugging DirectX 11 shaders with Visual Studio

In Visual Studio 2012, Microsoft has indroduced Graphics Debugger, you can use it to capture a frame from platforms like Unity Editor, Windows Standalone or Universal Windows Platform.

It’s recommended to use Visual Studio 2013, as it contains several fixes for Graphics Debugger.

Note: Unity Editor contains multiple child windows inside, this may cause Graphics Debugger to capture frame from incorrect window, to ensure that correct window will be captured, check ‘Maximize on Play’ tab, and hit Play button before capturing, but even then there’s no guarantee that the correct window will be captured, that’s why it’s not recommended to use Unity Editor for frame capturing.

Note: Frames can only be captured if Unity is running under DirectX 11, you can select DirectX 11 from Player Settings (PC, Mac & LinuxStandalone) -> Other Settings.

Steps to capture frame from Unity Editor or Windows Standalone:

  • Launch Visual Studio 2013
  • Go to File->New->Project->Visual C++->Empty Project
  • Go to Project->Properties->Configuration Properties->Debugging
  • In Command field, replace $(TargetPath) with path to Unity Editor or Windows Standalone, for ex., C:\MyApp\MyApp.exe
  • (Optional) In Command Arguments specify -force-d3d11, this will force Windows Standalone or Unity Editor to run under DirectX 11
  • Project Properties
  • You’re ready to run Graphics Debugger, go to Debug->Graphics->Start Diagnostics
  • If everything is configured correctly you should see “Use ‘Print Screen’ key to capture a frame” message in top left corner of the application. See screenshot below.
  • Screenshot from Windows Standalone application running with Graphics Debugger

Steps to debug DirectX 11 shader:

  • To debug a shader you have to compile with debug symbols, to do that, you have insert #pragma enable_d3d11_debug_symbols
  • Let’s try to create a basic example:
    • Create a new Unity project
    • Create a new shader in Assets window
    • Insert #pragma enable_d3d11_debug_symbols
    • Create a new material and select your custom shader
    • Assign a material to some object, for ex., a cube
    • Build Windows Standalone application
    • Capture a frame with steps mentioned above

Your shader should look like this:

Shader "Custom/NewShader" {
    Properties {
        _MainTex ("Base (RGB)", 2D) = "white" {}
    }
    SubShader {
        Tags { "RenderType"="Opaque" }
        LOD 200
        
        CGPROGRAM
        #pragma surface surf Lambert
        #pragma enable_d3d11_debug_symbols
        sampler2D _MainTex;

        struct Input {
            float2 uv_MainTex;
        };

        void surf (Input IN, inout SurfaceOutput o) {
            half4 c = tex2D (_MainTex, IN.uv_MainTex);
            o.Albedo = c.rgb;
            o.Alpha = c.a;
        }
        ENDCG
    } 
    FallBack "Diffuse"
}

If everything done correctly, you should see the following captured frame, right click and select Pixel History and select the pixel of an object which has your custom shader assigned.

Captured frame
Captured frame

Click the play button next to the Vertex Shader (circled in red in screenshot above), you should be able to debug vertex shader.

Debugging vertex shader
Debugging vertex shader

Universal Windows Platform

For Universal Windows Platform, it’s a bit easier because you don’t need to create a dummy Visual Studio project as the project is already created by Unity.

Steps for capturing the frame and shader debugging are the same like for Unity Editor or Windows Standalone.

Alternative shader debugging techniques

In the Unity Editor, you can also use RenderDoc to debug shaders, by capturing the scene from within the editor and debugging in the standalone tool.

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