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SKINS
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SKINS
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enigma2 skins
=============
A skin file is an XML file. Better read the existing skin file as an
example.
colors
======
you can define alias names for different colors. the "value" is given as
#aarrggbb, or just #rrggbb.
windowstyle
===========
here you can configure the "window style", i.e. the bord around windows.
screens
=======
these are the different widgets for the screens. they can also be embedded
in the screens itself.
pixmap paths
============
there is no lookup order, but exactly one place to search for pixmaps.
You can either:
- specify a full pathname (PLEASE, don't!), with a leading slash.
- specify a relative pathname, without leading slash.
The file will be searched for under the default skin image directory.
use this to refer to pixmaps which are included in the default
distribution, i.e. no skin specific stuff but for example the
number bitmaps etc.
- relative to the skin's directory (with a leading "~/").
~ in this case can be seen as the skin's "home directory", that's the
place where the skin.xml is.
use this if you are building a skin.
A NOTE ABOUT PNGs
=================
Enigma can user either a 32bit argb or an 8bit pseudocolor output. In any
case, enigma uses 8bit PNGs for skins.
Though it would be easy to support 32bit pngs as well, it questionable if
this would be a great idea.
a.) the quality improvement is realative
you can use another palette for each png. that gives you unique 256 colors
for each skin element. Unless you have very big PNGs, you shouldn't be able
to notive the difference between 32bit and 8bit.
b.) 32bit skins wouldn't be compatible to 8bit displays
we still want to use enigma on hardware which is too slow for using a 32bit
output (after all, framebuffers can be very slow). Turning a 32bit bitmap
into an 8bit one is not ease and involves a lot of computations.
It would end up that you need to specify an 8bit and a 32bit version. Is
that really what you want?
c.) 32bit PNGs don't compress well
PNG is a lossless format. 32bit bitmap data is very hard to compress
lossless.
We could use JPG, but jpgs don't offer a transparency channel, as far as i
know.
So, how to make your PNGs to look good?
It's simple. Edit them as 32bit ARGB (photoshop, gimp should be able to do
this fine!). Be sure that if you want alphatest, transparency really has an
alpha value of 0 / 255 (i.e. the extreme).
When you're finished, use "pngquant 256 <filename>" to process your PNGs to
be compatible with enigma.
note:
=====
if you're having less than 16 colors in your png file, pngquant generates a
16color (4bit) PNG, which is not really what we want. Either add more colors
(evil workaround), fix enigma (good idea!) or patch pngquant to
always create 8bit pngs.
transparency:
=============
First, do not mix up transparency with alpha. I agree, both terms refer to
the same thing, but in our case, it's more complicated. As long as we don't
run on accelerated graphic, we need to differentiate between these two.
Alpha, in our context, is the ratio between the video and the OSD. Alpha = 0
means that OSD is completely visible, and no video, whereas Alpha = 1 (or
0xFF, if you express it so) means that there is only video.
Transparency, on the other hand, is OSD-only. When you have a background,
say a color, and you want to blit a picture on it, you can mix the
background with the picture. (*) This allows pixmap with a non-rectangular
shape.
Because of speed reasons, we don't support real alpha blending when not
running with acceleration. Instead, we use alpha testing. This means that a
special color is "transparent", whereas all other colors are not. This
colors *HAS TO BE AT INDEX 0*. As you can't count on automatic palette
merging (it's disabled when the target is 32bit, so you you're not
restricted to 8bit in total, only 8bit per pixmap), you have to tell your
gfx program to put the transparent color at index 0. This is what's normally
done, but in case transparency doesn't work correctly, you might want to
check this.
(*) Note, that, technically, if we start with a alpha=1 background (i.e.
only video), and alphablend on this, we generalized the problem enough that
we can handle both cases the same. But currently, we have to differentiate
between them, as we can't always alphablend simply for performance reasons.
lcd:
====
Right now, most lcd-skins ("summary screens") are implemented right in the
python screens. However, you can override them with regular skinfiles.
There is some confusion about the actual size of the LCD. For now, assume it
to be 132x64 pixel, but think of the fact that some (most?) hardware can
only display either 128 (dreambox) or 120 (dbox2, dm8000) pixels
horizontally.
Right now some pixels will be cropped, currently at the right side. This
will be (hopefully) fixed soon, so that the used pixels are always in the
center.
So, bottom line:
Design LCD skins for 132x64, with no important items (text etc.) at the
outermost 6 pixels on each side. In doubt, leave them white.
LCD colorspace:
===============
current LCDs are not able to display grayscale graphics. For this, there
will be a 1bit quantization. However, skins should be designed for 8bit
grayscale (and still look good in 1bit!), because some next-generation
display might be able to display some shades of gray - likely not 256, but
maybe 16 or so.