apt-decoder/src/main.rs

extern crate hound;
extern crate image;

mod utils;
mod firfilter;
mod resamplers;
mod amdemod;
mod aptsyncer;

use std::io::prelude::*;
use std::fs::File;
use std::path::Path;

use utils::float_sample_iterator;
use firfilter::FIRFilter;
use amdemod::SquaringAMDemodulator;
use resamplers::{Upsampler, Downsampler};
use aptsyncer::{APTSyncer, SyncedSample};

const LINES_PER_SECOND: u32 = 2;
const PIXELS_PER_LINE: u32 = 2080;

const LOWPASS_COEFFS : [f32; 63] = [ -7.383784e-03,
        -3.183046e-03,  2.255039e-03,   7.461166e-03,   1.091908e-02,
        1.149109e-02,   8.769802e-03,   3.252932e-03,   -3.720606e-03,
        -1.027446e-02,  -1.447403e-02,  -1.486427e-02,  -1.092423e-02,
        -3.307958e-03,  6.212477e-03,   1.511364e-02,   2.072873e-02,
        2.096037e-02,   1.492345e-02,   3.347624e-03,   -1.138407e-02,
        -2.560252e-02,  -3.507114e-02,  -3.591225e-02,  -2.553830e-02,
        -3.371569e-03,  2.882645e-02,   6.711368e-02,   1.060042e-01,
        1.394643e-01,   1.620650e-01,   1.700462e-01,   1.620650e-01,
        1.394643e-01,   1.060042e-01,   6.711368e-02,   2.882645e-02,
        -3.371569e-03,  -2.553830e-02,  -3.591225e-02,  -3.507114e-02,
        -2.560252e-02,  -1.138407e-02,  3.347624e-03,   1.492345e-02,
        2.096037e-02,   2.072873e-02,   1.511364e-02,   6.212477e-03,
        -3.307958e-03,  -1.092423e-02,  -1.486427e-02,  -1.447403e-02,
        -1.027446e-02,  -3.720606e-03,  3.252932e-03,   8.769802e-03,
        1.149109e-02,   1.091908e-02,   7.461166e-03,   2.255039e-03,
        -3.183046e-03,  -7.383784e-03];

fn main() {
    let args : Vec<String> = std::env::args().collect();

    if args.len() != 3 {
        println!("Usage: {} <wav file> <output file>", args[0]);
        return;
    }

    let mut reader = match hound::WavReader::open(&args[1]) {
        Err(e) => panic!("Could not open inputfile: {}", e),
        Ok(r) => r
    };

    if reader.spec().channels != 1 {
        panic!("Expected a mono file");
    }

    let sample_rate = reader.spec().sample_rate;
    println!("Samplerate: {}", sample_rate);
    if sample_rate != 48000 {
        panic!("Expected a 48kHz sample rate");
    }

    let sample_count = reader.len();
    let seconds = (sample_count as f32) / (sample_rate as f32);
    let lines = (seconds.ceil() as u32) * LINES_PER_SECOND;
    println!("File contains {} seconds or {} lines", seconds, lines);

    let mut img = image::ImageBuffer::new(PIXELS_PER_LINE, lines);

    let coeffs = &LOWPASS_COEFFS;

    let samples = float_sample_iterator(&mut reader);

    let demod = SquaringAMDemodulator::from(samples);
    let filter = FIRFilter::from(demod, coeffs);
    let upsampler = Upsampler::from(filter, 13);
    let downsampler = Downsampler::from(upsampler, 150);
    let syncer = APTSyncer::from(downsampler);

    let mut x = 0;
    let mut y = 0;
    let mut max_level = 0.0;

    let mut progress = 0;
    let step = sample_count * 13 / 150 / 10;

    let mut last_sync = 0;

    print!("0%");
    std::io::stdout().flush().unwrap();
    for synced_sample in syncer {
        progress += 1;

        if progress % step == 0 {
            print!("...{}%", progress / step * 10);
            std::io::stdout().flush().unwrap();
        }

        let sample = match synced_sample {
            SyncedSample::Sample(s) => s,
            SyncedSample::SyncA(s) =>{
                println!(" [Sync A {}]", progress - last_sync);
                last_sync = progress;
                x = 0;
                s
            }
            SyncedSample::SyncB(s) =>{
                println!(" [Sync B {}]", progress - last_sync);
                last_sync = progress;
                x = PIXELS_PER_LINE / 2;
                s
            }
        };

        max_level = f32::max(sample, max_level);
        let color = (sample / max_level * 255.0) as u8;

        if y < lines {
            img.put_pixel(x,y,image::Luma([color]));
        }

        x += 1;
        if x >= PIXELS_PER_LINE {
            x = 0;
            y += 1;
        }
    }
    println!("");

    let ref mut fout = match File::create(&Path::new(&args[2])) {
        Err(e) => panic!("Could not open outputfile: {}", e),
        Ok(f) => f
    };

    image::ImageLuma8(img).save(fout, image::PNG).unwrap();

    println!("Done !");
}