this post was submitted on 06 Jun 2025
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Computer Graphics

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All about 3D and 2D computer graphics, vector and raster graphics, graphics programming using special APIs (e.g. Vulkan and OpenGL).

Some topics in computer graphics include user interface design, sprite graphics, rendering, ray tracing, geometry processing, computer animation, vector graphics, 3D modeling, shaders, GPU design, implicit surfaces, visualization, scientific computing, image processing, computational photography, scientific visualization, computational geometry and computer vision, among others. The overall methodology depends heavily on the underlying sciences of geometry, optics, physics, and perception.

#ComputerGraphics #CGI #CG #3D #2D #graphics #vulkan #opengl

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Vcc - the Vulkan Clang Compiler (shady-gang.github.io)
submitted 1 month ago by [email protected] to c/[email protected]
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cross-posted from: https://lemmy.ml/post/31246361

Vcc - the Vulkan Clang Compiler, is a proof-of-concept C and C++ compiler for Vulkan leveraging Clang as a front-end, and Shady our own research IR and compiler. Unlike other shading languages, Vcc aims to stick closely to standard C/C++ languages and merely adds a few new intrinsics to cover GPU features. Vcc is similar to CUDA or Metal in this regard, and aims to bring the advantages of standard host languages to Vulkan shaders.

Key Features

Vcc supports advanced C/C++ features usually left out of shading languages such as HLSL or GLSL, in particular raising the bar when it comes to pointer support and control-flow:

  • Unrestricted pointers
    • Arithmetic is legal, they can be bitcasted to and from integers
  • Generic pointers
    • Generic pointers do not have an address space in their type, rather they carry the address space as a tag in the upper bits.
  • True function calls
    • Including recursion, a stack is implemented to handle this in the general case
  • Function pointers
    • Lets you write code in a functional style on the GPU without limitations
  • Arbitrary goto statements - code does not need to be strictly structured !

Many of these capabilities are present in compute APIs, but are not supported in most graphics APIs such as DirectX or Vulkan. We aim to address this gap by proving these features can and should be implemented. More on why we think that’s important.

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