NEF file reader update

Progress on the NEF / RAW file reader is slow, since i only work on it occasionally when I feel like coding in my spare time. However, I made some progress tonight, that I would like to update you about.

First, NEF files are really TIFF files. So I need to parse them as a TIFF file to get some useful information out of them. TIFF files consists of so-called IFD tags, which in parts contains metadata about the image as well as the actual image data. Currently I have developed a basic IFD tag parser, that parses all of the IFD tags in a NEF file.

Furthermore I have found, by looking at the IFD tags, that there are at least 3 embedded images in each NEF files. These are a small, low-quality 160x120 thumbnail represented as RGB data, a nearly full size JPG in low quality, as well as the actual NEF image data. While implementing the IFD parser, I had a lot of help from this TIFF FAQ, as well as from the official Adobe TIFF specification version 6.

Of course, the NEF image data is the interesting part. I have studied the file format, and made these conclusions; mostly based on what I can tell from the dcraw source code:

  • The NEF file consists of Width * Height samples.
  • The data is represented as a Color Filter Array, that is each sample represents the intensity of a single color (since this is what the camera shoots, as many other digital cameras);
  • therefore, I must interpolate 2 of the colors for each sample, to get a full-color, full-scale image.
  • Each sample is 12 bits.

But this is not all; it is not so simple as to just read 12 bits per sample. The data is compressed. As far as I can tell currently; the following is the compression scheme.

  • A ยต-law type compression curve is used to limit the number of possible sample values to 634 (and consequently companding the 12 bit values to log2(634) = 9.4 bits of actual accuray; while preserving the 12 bits dynamic range).
  • The curve values are embedded in the file.
  • Samples are indices to values in the curve.

Samples are encoded (compressed) like this:

  • A simple predictor is used, so each value read is actually the difference between a previous sample value and the current. This keeps values stored in the file low and keeps differences between each value needed to be stored, low.
  • Each value is  stored as a run-length encoded length (in bits) of the value, and immediately thereafter, the actual value.
  • Run length encoding is accomplished by using a classic Huffman table.

So, now I need to implement the reading of the actual sample values and interpolate the values to come up with a full color image. After that, I probably need to implement the reading or approximation of white balance of the image, so that the program will be able to produce actually usable images.


This post has 1 comments:
Dana Thomas
On 2008-10-14 20:13, Dana Thomas wrote:
After backing up I have several NEF Files, I can see the image as it is not in jpg. The Camera was NIKON. This happen once be fore ans I was able to see the pictures. Any help would be great

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