Difference between revisions of "3D Fundamentals Tutorial 9"
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The tutorial video is on YouTube [https://youtu.be/pef2405M-os here]. | The tutorial video is on YouTube [https://youtu.be/pef2405M-os here]. | ||
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<div class="mw-collapsible mw-collapsed"><br /> | <div class="mw-collapsible mw-collapsed"><br /> | ||
* What is a Pixel Shader and why is it used? [https://youtu.be/pef2405M-os?t=0m20s 0:20] | * What is a Pixel Shader and why is it used? [https://youtu.be/pef2405M-os?t=0m20s 0:20] | ||
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</div> | </div> | ||
* Refactoring of the <code>gfx.PutPixel(...)</code> function in <code>Pipeline.h</code> [https://youtu.be/pef2405M-os?t=2m04s 2:04] | * Refactoring of the <code>gfx.PutPixel(...)</code> function in <code>Pipeline.h</code> [https://youtu.be/pef2405M-os?t=2m04s 2:04] | ||
| + | <div class="mw-collapsible-content"> | ||
:* This is where we are ultimately determining the color of the pixel | :* This is where we are ultimately determining the color of the pixel | ||
:* Inside the PutPixel function, we want to call a shader object that defines the coloring behavior | :* Inside the PutPixel function, we want to call a shader object that defines the coloring behavior | ||
| + | </div> | ||
* Implementation of the programmable pixel shader stage in the pipeline [https://youtu.be/pef2405M-os?t=3m11s 3:11] | * Implementation of the programmable pixel shader stage in the pipeline [https://youtu.be/pef2405M-os?t=3m11s 3:11] | ||
| + | <div class="mw-collapsible-content"> | ||
:* We template the pipeline class on an <code><class Effect></code> | :* We template the pipeline class on an <code><class Effect></code> | ||
:* We will adjust the definition of the <code>Vertex</code> class depending on what effect we are using | :* We will adjust the definition of the <code>Vertex</code> class depending on what effect we are using | ||
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:* Putting it all together in a new <code>CubeSkinScene.h</code> class [https://youtu.be/pef2405M-os?t=7m26s 7:26] | :* Putting it all together in a new <code>CubeSkinScene.h</code> class [https://youtu.be/pef2405M-os?t=7m26s 7:26] | ||
::- The code now renders the same scene, but has become completely configurable | ::- The code now renders the same scene, but has become completely configurable | ||
| + | </div> | ||
* Making a new <code>Effect</code>: Color Blending [https://youtu.be/pef2405M-os?t=8m31s 8:31] | * Making a new <code>Effect</code>: Color Blending [https://youtu.be/pef2405M-os?t=8m31s 8:31] | ||
| + | <div class="mw-collapsible-content"> | ||
:* The <code>VertexColorEffect</code> functor will not hold a texture and return interpolated texture coordinates | :* The <code>VertexColorEffect</code> functor will not hold a texture and return interpolated texture coordinates | ||
:* Instead, it interpolates colors operating on a <code>Vec3</code> object that holds RGB values (we encode the Vertex colors as floats) | :* Instead, it interpolates colors operating on a <code>Vec3</code> object that holds RGB values (we encode the Vertex colors as floats) | ||
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</syntaxhighlight> | </syntaxhighlight> | ||
:* Coding the scene class </code>CubeVertexColorScene.h</code> [https://youtu.be/pef2405M-os?t=14m13s 14:13] | :* Coding the scene class </code>CubeVertexColorScene.h</code> [https://youtu.be/pef2405M-os?t=14m13s 14:13] | ||
| + | </div> | ||
* Making a new <code>Effect</code>: Solid Colors [https://youtu.be/pef2405M-os?t=14m47s 14:47] | * Making a new <code>Effect</code>: Solid Colors [https://youtu.be/pef2405M-os?t=14m47s 14:47] | ||
| + | <div class="mw-collapsible-content"> | ||
:* Need to address the issue: we can't store color data in the 8 unique cube vertices | :* Need to address the issue: we can't store color data in the 8 unique cube vertices | ||
:* Solution: make the faces of the cube independent (no shared vertices) [https://youtu.be/pef2405M-os?t=16m22s 16:22] | :* Solution: make the faces of the cube independent (no shared vertices) [https://youtu.be/pef2405M-os?t=16m22s 16:22] | ||
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:* Adding a static function <code>GetPlainIndependentFaces()</code> to <code>Cube.h</code> to get the 24 vertices [https://youtu.be/pef2405M-os?t=18m15s 18:15] | :* Adding a static function <code>GetPlainIndependentFaces()</code> to <code>Cube.h</code> to get the 24 vertices [https://youtu.be/pef2405M-os?t=18m15s 18:15] | ||
:* Demo [https://youtu.be/pef2405M-os?t=19m19s 19:19] | :* Demo [https://youtu.be/pef2405M-os?t=19m19s 19:19] | ||
| + | </code> | ||
* Reflections on this approach to Pixel Shading [https://youtu.be/pef2405M-os?t=19m58s 19:58] | * Reflections on this approach to Pixel Shading [https://youtu.be/pef2405M-os?t=19m58s 19:58] | ||
| + | <div class="mw-collapsible-content"> | ||
:* With our approach, the sky is the limit in terms of adding options/effects to the Pixel Shader | :* With our approach, the sky is the limit in terms of adding options/effects to the Pixel Shader | ||
:* However, because the whole pipeline is templated, each effect requires a pipeline | :* However, because the whole pipeline is templated, each effect requires a pipeline | ||
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::- These let you switch components (e.g. by binding a different shader dynamically) | ::- These let you switch components (e.g. by binding a different shader dynamically) | ||
::- Another difference: use of texturing units seperate from the shader object [https://youtu.be/pef2405M-os?t=21m14s 21:14] | ::- Another difference: use of texturing units seperate from the shader object [https://youtu.be/pef2405M-os?t=21m14s 21:14] | ||
| − | + | </div> | |
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</div> | </div> | ||
Revision as of 20:31, 1 June 2020
In this tutorial we incorporate our first shader stage into the 3D pipeline: the pixel shader stage. We also explore some basic example pixel shaders (more heavy-duty stuff to come later).
Video
The tutorial video is on YouTube here.
- What is a Pixel Shader and why is it used? 0:20
- We want to make color mapping of the triangles in the rendering pipeline configurable
- One way is to use templated function objects (functors) as "plug-in" code
- These functors determine the color of the pixel based on their input
- Refactoring of the
gfx.PutPixel(...)function inPipeline.h2:04
- This is where we are ultimately determining the color of the pixel
- Inside the PutPixel function, we want to call a shader object that defines the coloring behavior
- Implementation of the programmable pixel shader stage in the pipeline 3:11
- We template the pipeline class on an
<class Effect> - We will adjust the definition of the
Vertexclass depending on what effect we are using - We adjust
gfx.PutPixel(...)to take a pixel shader object, and call the function operator with the interpolated Vertex data:
gfx.PutPixel( x,y,effect.ps( iLine ) );
- Changes to the
Pipelineclass 5:37
- - The
Pipelineobject now holds anEffectobject (which holds all shader data and methods) - - Coding the
Effectclass 6:03 - - Coding the
PixelShaderclass 6:22
- Putting it all together in a new
CubeSkinScene.hclass 7:26
- - The code now renders the same scene, but has become completely configurable
- We template the pipeline class on an
- Making a new
Effect: Color Blending 8:31
- The
VertexColorEffectfunctor will not hold a texture and return interpolated texture coordinates - Instead, it interpolates colors operating on a
Vec3object that holds RGB values (we encode the Vertex colors as floats) - Cube definition now needs to hold color data of each Vertex 10:07
- We need a conversion operator and a conversion constructor to translate between the
Vec3andColorrepresentation of colors 11:12 - Changes to the
Pipelineclass: generalizing Vertex transformations (independent of the pixel shader effect) 11:45 - Adding a static function
GetPlain()inCube.hto get the Vertex colors 13:39
template<class V> static IndexedTriangleList<V> GetPlain(float size = 1.0f) {...}
- Coding the scene class </code>CubeVertexColorScene.h</code> 14:13
- The
- Making a new
Effect: Solid Colors 14:47
- Need to address the issue: we can't store color data in the 8 unique cube vertices
- Solution: make the faces of the cube independent (no shared vertices) 16:22
- - This requires 6 faces x 4 vertices per face = 24 vertices
</code>
- Reflections on this approach to Pixel Shading 19:58
- With our approach, the sky is the limit in terms of adding options/effects to the Pixel Shader
- However, because the whole pipeline is templated, each effect requires a pipeline
- - Adantage of using templates: enables aggressive inlining / compiler optimization
- - Disadvantage: we can't switch effects easily at runtime
- There are differences between this approach and how Hardware 3D APIs (like Direct3D and OpenGL) implement this flexibility
- - These let you switch components (e.g. by binding a different shader dynamically)
- - Another difference: use of texturing units seperate from the shader object 21:14
Downloads
The GitHub repository for the tutorial code is here.
