angle
Vrmac
angle | Vrmac | |
---|---|---|
20 | 45 | |
3,246 | 108 | |
1.3% | - | |
9.6 | 3.6 | |
6 days ago | over 2 years ago | |
C++ | C# | |
GNU General Public License v3.0 or later | MIT License |
Stars - the number of stars that a project has on GitHub. Growth - month over month growth in stars.
Activity is a relative number indicating how actively a project is being developed. Recent commits have higher weight than older ones.
For example, an activity of 9.0 indicates that a project is amongst the top 10% of the most actively developed projects that we are tracking.
angle
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Meta releases open source Intermediate Graphics Library which runs on top of Vulkan, Open GL, or Metal on multiple operating systems.
It's using MoltenVK on Mac for Vulkan compatibility, and ANGLE for OpenGL compatibility on Windows and Linux. Makes you wonder what it's actually doing itself.
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Apple’s Game Porting Toolkit is Wine
Can't they use https://github.com/google/angle?
- can some help me setup OpenGL ES
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Learn WebGPU
BTW. For the last 15 years, all web browsers on Windows do WebGL on top of DirectX (using the Angle library https://github.com/google/angle).
- Game crashing when downloading additional content on Windows Subsystem for Android
- Exynos 2200, s22u, citra 3ds question
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Vulkan update: version 1.2 conformance for Raspberry Pi 4
You can still use OpenGL. Just not the vendor provided drivers. They are indeed horrible. There are libraries like:
* ANGLE ( https://github.com/google/angle ) - An OpenGL ES implementation with Direct3D 9, Direct3D 11, Desktop GL, GL ES, Vulkan and Metal backends. This is what we used to use for shipping our Qt 3D application, that used a bunch of OpenGL Shaders. We used to get bug reports about various shaders not working properly on various hardware. After switching to this, all those bug reports vanished.
* Zinc ( https://www.supergoodcode.com/do-not/ ) - A more recent, OpenGL implementation on top of Vulkan. I haven't used this one yet. But they are making a lot of progress and it is almost as performant as vendor provided OpenGL Drivers these days. So if I ever have to ship a desktop app, needing opengl, I'd strongly consider using this.
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Starting a new Project in 2022, Vulkan or OpenGL?
Another option if perf isn't a big concern is to try using Google's angle OpenGL ES 3.0 implementation, there's backends for it to be supported on Vulkan, Direct3D 11, and (work in progress) Metal. Disclosure, haven't tried it myself, just looking at their feature descriptions: https://github.com/google/angle
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Minimising input latency in OpenGL
I don't believe Chrome uses OpenGL directly- any OpenGL usage it does have (e.g. for WebGL) is actually going through ANGLE which translates it all to D3D on Windows.
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Need Help Downloading From GitHub
RTFM, have you read their instruction
Vrmac
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New Renderers for GTK
Couple times in the past I have implemented GPU-targeted GUI renderers, here’s an example: https://github.com/Const-me/Vrmac?tab=readme-ov-file#vector-... https://github.com/Const-me/Vrmac/blob/master/Vrmac/Draw/VAA...
2D graphics have very little in common with game engines. The problem is very different in many regards. In 2D, you generally have Bezier and other splines on input, large amount of overdraw, textures coming from users complicate VRAM memory management. OTOH, game engines are solving hard problem which are irrelevant to 2D renderers, like dynamic lighting, volumetric effects, and dynamic environment.
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Was Rust Worth It?
> Part of Panama
Most real-live C APIs are using function pointers and/or complicated data structures. Here’s couple real-life examples defined by Linux kernel developers who made V4L2 API: [0], [1] The first of them contains a union in C version, i.e. different structures are at the same memory addresses. Note C# delivers the level of usability similar to C or C++: we simply define structures, and access these fields. Not sure this is gonna be easy in Java even after all these proposals arrive.
For a managed runtime, unmanaged interop is a huge feature which affects all levels of the stack: type system in the language for value types, GC to be able to temporarily pin objects passed to native code (making copies is prohibitively slow for use cases like video processing), code generator to convert managed delegates to C function pointers and vice versa, error handling to automatically convert between exceptions and integer status codes at the API boundary, and more. Gonna be very hard to add into the existing language like Java.
> "Vector API" JEP
That API is not good. They don’t expose hardware instructions, instead they have invented some platform-agnostic API and implemented graceful degradation.
This means the applicability is likely to be limited to pure vertical operations processing FP32 or FP64 numbers. The rest of the SIMD instructions are too different between architectures. A simple example in C++ is [2], see [3] for the context. That example is trivial to port to modern C#, but impossible to port to Java even after the proposed changes. The key part of the implementation is psadbw instruction, which is very specific to SSE2/AVX2 and these vector APIs don’t have an equivalent. Apart from reduction, other problematic operations are shuffles, saturating integer math, and some memory access patterns (gathers in AVX2, transposed loads/stores on NEON).
> most of these are not done / not in a stable LTS Java release yet
BTW, SIMD intrinsics arrived to C# in 2019 (.NET Core 3.0 released in 2019), and unmanaged interop support is available since the very first 1.0 version.
[0] https://github.com/Const-me/Vrmac/blob/master/VrmacVideo/Lin...
[1] https://github.com/Const-me/Vrmac/blob/master/VrmacVideo/Lin...
[2] https://gist.github.com/Const-me/3ade77faad47f0fbb0538965ae7...
[3] https://news.ycombinator.com/item?id=36618344
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Stable Diffusion in pure C/C++
I have minimal experience with Rust. OTOH, programming C++ for living since 2000, with a few gaps when I used other languages like Obj-C and C#.
I agree C++ is very hard to learn if you only have experience with higher-level languages like Python and Scala. I think there’re two reasons for that.
C++ is unsafe. There’s no way around this one, it was designed that way, like C or assembly. Still, with modern toolset it’s not terribly bad. Compilers print warnings, BTW I typically ask them to treat warnings as errors to deliberately fail the build. On Windows, a combination of debug build, debug C runtime, and visual studio debugger helps tremendously. Linux compilers have these sanitizers (address, memory, thread, undefined behavior) which are comparable, they too sacrifice runtime speed for diagnostics and debuggability.
Another reason, the language itself is very complicated, especially the templates. However, just because something is in the language doesn’t mean it’s a good idea to use it. You don’t need to be familiar with that stuff unless doing something very advanced, like customizing the Eigen C++ library. Don’t follow the patterns found in the standard library: unlike your code, that library has good reasons to use that template BS. If instead of templates you do something else, C++ becomes much easier to use, and most importantly other people will still be able to read and understand your code. Another reason to avoid excessive template metaprogramming, it slows down the compiler, because template-heavy code often needs to be in headers as opposed to cpp files.
P.S. If you don’t need extreme levels of performance (defined as “approach the numbers listed in CPU specs”, the numbers are FLOPS or memory bandwidth), and you don’t need the ecosystem too much, consider C# instead of C++. Much faster than Python, often faster than Scala or Java, easy integration with C should you need that (same as Rust, much easier than Python or Java), the only downside is these ~100MB of the runtime. The reputation is weird, but technically the language and runtime are pretty good. For example, here’s a C# library which re-implements a subset of ffmpeg and libavcodec C libraries: https://github.com/Const-me/Vrmac/tree/master/VrmacVideo
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Media Player Element now available for cross-platform apps everywhere dotnet runs
BTW, I did that too for 32-bit ARM Linux on Raspberry Pi 4, back in 2020: https://github.com/Const-me/Vrmac/tree/master/VrmacVideo Unlike Uno, my implementation doesn’t use libVLC and is written mostly in C#, only audio decoders are in C++. To decode video, I directly consume V4L2 Linux kernel APIs.
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Ask HN: Those making $0/month or less on side projects – Show and tell
Doing that for decades.
An app for Windows phone, downloaded 140k times: https://github.com/Const-me/SkyFM
Cross-platform graphics library for .NET: https://github.com/Const-me/Vrmac
Recently, offline speech-to-text for Windows: https://github.com/Const-me/Whisper
At this point, I consider side projects like that as a hobby.
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Minimal Cross-Platform Graphics
I think this needs much more complexity to be useful.
For the rendering, ideally it needs GPU support.
Input needs much more work, here's an overview for Windows: https://zserge.com/posts/fenster/
Windows' Sleep() function has default resolution 15.6ms, that's not enough for realtime rendering, and relatively hard to fix, ideally need a modern OS and a waitable timer created with high resolution flag.
Here's my attempt at making something similar, couple years ago: https://github.com/Const-me/Vrmac
- An MP4 file first draft
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Cppfront, Herb Sutter's proposal for a new C++ syntax
I agree about Python or PHP.
However, for Java or modern C#, in my experience the performance is often fairly close. When using either of them, very often one doesn’t need C++ to be good enough.
Here’s an example, a video player library for Raspberry Pi4: https://github.com/Const-me/Vrmac/tree/master/VrmacVideo As written on that page, just a few things are in C++ (GLES integration, audio decoders, and couple SIMD utility functions), the majority of things are in C#.
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Vulkan update: version 1.2 conformance for Raspberry Pi 4
To be fair, in modern GL versions they fixed some of these things. In GLES 3.1 which I used a lot on Pi4 https://github.com/Const-me/Vrmac/ GPU vertex buffers and shaders worked fine, GLSL compiler in the drivers worked fine too.
However, others issues are still present. There’s no shaders bytecode, they have an extension to grab compiled shaders from GPU driver to cache on disk, but it doesn’t work. The only way to create shaders is separate compile and link API calls. Texture loading and binding API is still less than ideal.
- Advice for the next dozen Rust GUIs
What are some alternatives?
bgfx - Cross-platform, graphics API agnostic, "Bring Your Own Engine/Framework" style rendering library.
neutralinojs - Portable and lightweight cross-platform desktop application development framework
ar_flutter_plugin - Flutter Plugin for AR (Augmented Reality) - Supports ARKit on iOS and ARCore on Android devices
nanovg - Antialiased 2D vector drawing library on top of OpenGL for UI and visualizations.
OpenGL-on-DXGI - How to use WGL_NV_DX_interop2 to use OpenGL in a DXGI window
vello - An experimental GPU compute-centric 2D renderer.
wgpu-native - Native WebGPU implementation based on wgpu-core
rapidyaml - Rapid YAML - a library to parse and emit YAML, and do it fast.
model_viewer.dart - A Flutter widget for rendering interactive 3D models in the glTF and GLB formats.
sokol - minimal cross-platform standalone C headers
swiftshader - SwiftShader is a high-performance CPU-based implementation of the Vulkan graphics API. Its goal is to provide hardware independence for advanced 3D graphics.
NanoGUI - Minimalistic GUI library for OpenGL