rawloader

This is a rust library to extract the raw data and some metadata from digital camera images. Given an image in a supported format and camera you will be able to get everything needed to process the image:

• Identification of the camera that produced the image (both the EXIF name and a clean/canonical name)
• The raw pixels themselves, exactly as encoded by the camera
• The number of pixels to crop on the top, right, bottom, left of the image to only use the actual image area
• The black and white points of each of the color channels
• The multipliers to apply to the color channels for the white balance
• A conversion matrix between the camera color space and XYZ
• The description of the bayer pattern itself so you'll know which pixels are which color

Additionally it includes a simple raw processing pipeline that does the following:

• Demosaic
• Black and whitelevel application
• Whitebalance
• Convert from camera space to Lab
• Apply a contrast curve to the L channel
• Convert from Lab to Rec709
• Apply sRGB gamma for output

Current State

The library is still in its very beginning with only a few formats implemented:

• Minolta MRW
• Sony ARW, SRF and SR2
• Mamiya MEF
• Olympus ORF
• Samsung SRW
• Epson ERF
• Kodak KDC
• Kodak DCS

Usage

Here's a simple sample program that uses this library:

use std::env;
use std::fs::File;
use std::io::prelude::*;
use std::io::BufWriter;

extern crate rawloader;
use rawloader::decoders;

fn main() {
  let args: Vec<_> = env::args().collect();
  if args.len() != 2 {
    println!("Usage: {} <file>", args[0]);
    std::process::exit(2);
  }
  let file = &args[1];
  println!("Loading file \"{}\"", file);

  let rawloader = decoders::RawLoader::new();
  let image = rawloader.decode_safe(file).unwrap();

  println!("Found camera \"{}\" model \"{}\"", image.make, image.model);
  println!("Found canonical named camera \"{}\" model \"{}\"", image.canonical_make, image.canonical_model);
  println!("Image size is {}x{}", image.width, image.height);
  println!("WB coeffs are {:?}", image.wb_coeffs);
  println!("black levels are {:?}", image.blacklevels);
  println!("white levels are {:?}", image.whitelevels);
  println!("color matrix is {:?}", image.color_matrix);
  println!("dcraw filters is {:#x}", image.dcraw_filters);
  println!("crops are {:?}", image.crops);

  // Write out the image as a grayscale PPM
  let mut f = BufWriter::new(File::create(format!("{}.ppm",file)).unwrap());
  let preamble = format!("P6 {} {} {}\n", image.width, image.height, image.whitelevels[0]).into_bytes();
  f.write_all(&preamble).unwrap();
  for row in 0..image.height {
    let from: usize = (row as usize) * (image.width as usize);
    let to: usize = ((row+1) as usize) * (image.width as usize);
    let imgline = &image.data[from .. to];

    for pixel in imgline {
      // Do an extremely crude "demosaic" by setting R=G=B
      let bytes = [(pixel>>4) as u8, (pixel&0x0f) as u8, (pixel>>4) as u8, (pixel&0x0f) as u8, (pixel>>4) as u8, (pixel&0x0f) as u8];
      f.write_all(&bytes).unwrap();
    }
  }
}

To do the image decoding decode the image the same way but then do:

  // Decode to at least full HD size or full image if it's smaller
  let decoded = imageops::simple_decode(&image, 1920, 1080);

  let mut f = BufWriter::new(File::create(format!("{}.ppm",file)).unwrap());
  let preamble = format!("P6 {} {} {}\n", decoded.width, decoded.height, 255).into_bytes();
  f.write_all(&preamble).unwrap();
  for pix in decoded.data {
    let pixel = ((pix.max(0.0)*255.0).min(255.0)) as u8;
    f.write_all(&[pixel]).unwrap();
  }

And this will write out an 8bit RGB image. Reducing the decode size makes the processing much faster by doing the scaling extremely early in the processing (at the demosaic). So this can be used quite directly to do fast thumbnailing of raw images.

Contributing

Bug reports and pull requests welcome at https://github.com/pedrocr/rawloader