Skip to content

braheezy/goqoa

Repository files navigation

QOA: Quite OK Audio

The Quite OK Audio Format for Fast, Lossy Compression.

Build Status

A CLI tool for working with audio files following the QOA Format Specification.

demo

Features:

  • convert WAV, FLAC, OGG, or MP3 files to QOA
  • convert QOA files to WAV or MP3
  • All conversions are in pure Go, no C libraries to install
  • play QOA file(s)
  • Pre-built binaries for Linux, Windows, and Mac

This blog post by the author of QOA is a great introduction to the format and how it works.

Install

The easiest way is a pre-built binary on the Releases page. I tested it works on Linux and Windows 10+.

  • Linux
wget -O /usr/bin/goqoa https://github.com/braheezy/goqoa/releases/latest/download/goqoa-linux
chmod +x /usr/bin/goqoa
  • Mac
wget -O /usr/bin/goqoa https://github.com/braheezy/goqoa/releases/latest/download/goqoa-mac
chmod +x /usr/bin/goqoa
  • Windows
mkdir $HOME\goqoa
iwr "https://github.com/braheezy/goqoa/releases/latest/download/goqoa.exe" -OutFile "$HOME\goqoa\goqoa.exe"
$env:Path += ";$HOME\goqoa"
[System.Environment]::SetEnvironmentVariable("Path", $env:Path, "User")

Otherwise, install prerequisites for your platform:

# Fedora
yum install gcc alsa-lib-devel
# Debian
apt-get install gcc pkg-config libasound2-dev

Then, install directly with Go:

go install github.com/braheezy/goqoa@latest

Or, checkout the project, build it from source, and install:

git clone https://github.com/braheezy/goqoa.git
cd goqoa
make install

qoa Package

The library qoa has been moved to this repository so I could manage the version of the library separate from the goqoa CLI.

Development

You'll need the following:

Then you can make build to get a binary.

make test will run Go unit tests.

make to see all options.

Reference Testing

This is a rewrite of the QOA implementation, not a transpile of or a CGO wrapper to qoa.h. It's a simple enough encoding that the code can be compared side-by-side to ensure the same algorithm has been implemented.

To further examine fidelity, the check_spec.sh script can be used. It does the following:

  • If required, fetch the sample pack from the QOA website
  • Grab random WAV files from the pack
  • goqoa convert the file to QOA format and compare against the QOA file created by the reference author
  • goqoa convert the QOA file back to WAV and compare against the similarly created WAV file by the reference author

The check uses cmp to check each byte in each produced file. For an unknown reason, not all files pass this check. The failing files are the exact same size and when played, sound the same. Perhaps it's rounding error differences between Go and C, or bad reference files, or other such noise. It does appear to the same suspect files everytime. Anyway, you have been warned.

  • check_spec.h to check a small amount of bytes for a small amount of files
  • check_spec.sh -a to fully check all 150 songs and record failures

The Dockerfile can also be used to compare against the reference. It builds and installs both goqoa and qoaconv and provides an entrypoint script to convert WAV file(s) with both tools, then summarize the results.

docker build . -t qoacompare:latest && docker run --rm -it -v `pwd`:/data  qoacompare /data/test_ultra_new.wav

Fuzz Testing

The qoa package has a fuzz unit test to examine the Encode() and Decode() functions.

fuzz/create_fuzzy_files.py generates valid QOA files with random data.

Benchmarks

To get a sense of this implementation's encoding speed, I run a simple WAV -> QOA conversion. The timing includes WAV decoding time but that's okay.

My host hardware:

$ neofetch
CPU› 13th Gen Intel i5-13600KF (20) @ 5.100GHz
GPU› AMD ATI Radeon RX 6800/6800 XT / 6900 XT
Memory› 7416MiB / 31925MiB

Before I did any optimizations, this was the state of the benchmarks before-benchmark

I did some refactoring to reduce memory allocations in qoa and updated how I was decoding WAV data. This is what it looks like after: after-benchmark

And the quality of the encoded file didn't go down:

  • Before: before-quality
  • After: before-after

Disclaimer

I have never written software that deals with audio files before. I saw a post about QOA on HackerNews and found the name amusing. There were many ports to other languages, but Go was not listed. So here we are!

I developed this with an LLM-based workflow:

  • I gave the formal specification to gpt-3.5 via ChatGPT and told it to explain everything I didn't understand about it (which was the entire thing because I don't know anything about audio encoding).
  • Next, I gave the entire C reference implementation to gpt-3.5-turbo-16k via OpenAI playground because it has the context window to fit the entire file.
  • Then we wrote code:
    • gpt-3.5-turbo-16k to do the heavy lifting of converting C to Go. I asked it 1 function at a time.
    • gpt-3.5 to explain and tweak the ported code.
    • Both models helped write unit tests.
  • After getting a working decoder/encoder, I worked with ChatGPT to integrate the Cobra framework to implement the CLI.