gimp/docs/parasites.txt

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PARASITE REGISTRY - 1999-05-31
=================
This document is designed for the convenience of GIMP developers.
It does not need to concern users.
>>>> If your plugin or script writes parasites, please
>>>> amend this file in CVS or submit patches to
>>>> gimp-developer@scam.xcf.berkeley.edu
------------------------------------------------------------------
*** NAMESPACE
Plug-in-specific data should be prefixed by the plug-in function name and
a slash, i.e. private data of plug_in_displace should be named like:
plug_in_displace/data1
plug_in_displace/data2
etc.
Global data follows no strict rules.
------------------------------------------------------------------
*** KNOWN PREFIXES:
"tiff" : The standard GIMP TIFF plugin
"jpeg" : The standard GIMP JPEG plugin
"gimp" : For common and standard parasites
------------------------------------------------------------------
*** KNOWN PARASITES:
"gimp-comment" (IMAGE, PERSISTENT)
Standard GIF-style image comments. This parasite should be
human-readable text, preferably in utf8 encoding. A trailing \0
might be included and is not part of the comment.
gimp-brush-pipe-parameters" (IMAGE, PERSISTENT)
This is all very preliminary:
A string, containing parameters describing how an brush pipe
should be used. The contents is a space-separated list of
keywords and values. The keyword and value are separated by a
colon.
This parasite is currently attached to an image by the psp
plug-in when it loads a .tub file (Paint Shop Pro picture
tube). It is used (first attached with values asked from the
user, if nonexistent) by the gpb plug-in when it saves a .gih
file. The .gih file contains the same text in it.
The keywords are:
ncells: the number of brushes in the brush pipe
step: the default spacing for the pipe
dim: the dimension of the pipe. The number of cells
in the pipe should be equal to the product
of the ranks of each dimension.
cols: number of columns in each layer of the image,
to be used when editing the pipe as a GIMP image
rows: ditto for rows. Note that the number of columns and rows
not necessarily are identical to the ranks of the
dimensions of a pipe, but in the case of two-
and three-dimensional pipes, it probably is.
rank0, rank1, ...: (one for each dimension): the index range
for that dimension
placement: "default", "constant" or "random". "constant" means
use the spacing in the first brush in the pipe.
"random" means perturb that with some suitable
random number function. (Hmm, would it be overdoing it
if the pipe also could specify what random function
and its parameters...?)
sel0, sel1, ...: "default", "random", "incremental", "angular",
"pressure", "velocity", and whatever else suitable we might
think of ;-) Determines how one index from each dimension is
selected (until we have pinpointed the brush to use).
"tiff-save-options" (IMAGE)
The TiffSaveVals structure from the TIFF plugin.
"jpeg-save-options" (IMAGE)
The JpegSaveVals structure from the JPEG plugin.
"gamma" (IMAGE, PERSISTENT)
The original gamma this image was created/saved. For JPEG; this is
always one, for PNG it's usually taken from the image data. The gimp
might use and modify this. The format is an ascii string with the
gamma exponent as a flotingpoint value.
Example: for sRGB images this might contain "0.45454545"
"chromaticity" (IMAGE, PERSISTENT)
This parasite contains 8 floatingpoint values (ascii, seperated by
whitespace) specifying the x and y coordinates of the whitepoint, the
red, green and blue primaries, in this order.
Example: for sRGB images this might contain
"0.3127 0.329 0.64 0.33 0.3 0.6 0.15 0.06"
wx wy rx ry gx gy bx by
"rendering-intent" (IMAGE, PERSISTENT)
This specifies the rendering intent of the image. It's a value
between 0 and 3, again in ascii:
0 - perceptual (e.g. for photographs)
1 - relative colorimetric (e.g. for logos)
2 - saturation-preserving (e.g. for business charts)
3 - absolute colorimetric
"<plug-in>/_fu_data" (GLOBAL, IMAGE, DRAWABLE, PERSISTENT)
The Gimp::Fu module might store the arguments of the last plug-in
invocation. It is usually attached to images, but might also
be found globally. The data format is either pure character
data (Data::Dumper) or a serialized data stream created by
Storable::nfreeze.
------------------------------------------------------------------
*** PARASITE FORMAT:
The parasite data format is not rigidly specified. For non-persistant
parasites you are entirely free, as the parasite data does not survive the
current gimp session. If you need persistant data, you basically have to
choose between the following alternatives (also, having some standard for
non-persistant data might be fine as well):
- cook your own binary data format
You can invent your own data format. This means that you will either
loose totally (consider endian-ness or version-ness issues) or you will
get yourself into deep trouble to get it "right" in all cases.
- use character (string) data
Obvious to perl people but less so to C programmers: just sprintf your
data into a string (e.g. "SIZE 100x200 XRES 300 YRES 300") and store
that in the parasite, and later sscanf it again. This often solves most
of the problems you might encounter, makes for easier debugging and
more robustness (consider the case when you add more entries to your
persistant data: older plug-ins might be able to read the relevant
parts and your application can detect missing fields easily). The
drawback is that your data is likely to be larger than a compact binary
representation would be. Not much a problem for most applications,
though.
You could also use one parasite per field you store, i.e. foo-size,
foo-offset-x, foo-offset-y etc...
- use the libgimp serialize functions
Look at the stuff in libgimp/gserialize.h. These functions allow for
relatively easy serializing/deserializing of structs. The advantages
are that the gimp-developers have already taken care of endian-ness
issues and other hazzles. The drawback is that you might encounter
problems when you want to extend your structures later, as you have to
be prepared for images saved with parasites form a very old version of
your plug-in, and the gserialize functions do not handle different data
formats nicely itself.
One way out around this is to prefix your data with a version identifier
(remember to use a guchar, i.e. something without endian-ness problems).
Remember to skip it before deserializing.
Another very easy way is to add a version tag to your parasite name,
i.e. "foo-bar-v1", "foo-bar-v2". Your plug-in could then check for older
versions and act accordingly and/or attach the new parasite or both the
new and the old version of your data.
The gserialize stuff also makes it possible to just append more fields
(i.e. more gserialized structs) to your data. You could check the length
of the parasite data ("anything left?") to decide wether to decode more
fields. Here's some example:
data = parasite_data(p);
size = parasite_data_size(p);
length = gdeserialize(...);
tlength += length;
data += length;
if (tlength != size)
gdeserialize the next one, etc.