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VIDIX - VIDeo Interface for *niX
~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~
This interface was designed and introduced as interface to userspace drivers
to provide DGA everywhere where it's possible (unline X11).
I hope that these drivers will be portable same as X11 (not only on *nix).
What is it:
- It's portable successor of mga_vid technology which is located in user-space.
- Unlikely X11 it's provides DGA everywhere where it's possible.
- Unlikely v4l it provides interface for video playback
- Unlikely linux's drivers it uses mathematics library.
Why it was developed:
As said Vladimir Dergachev
(http://cvs.sourceforge.net/cgi-bin/viewcvs.cgi/gatos/km/km.rfc.txt):
"0) Motivation
v4l, v4l2 and Xv are all suffering from the same problem: attempt to fit
existing multimedia devices into a fixed scheme."
Well - I tried to implement something similar by motivation.
How it works:
~~~~~~~~~~~~~
This interface is almost finished. But I guess it can be expanded by developer's
requests.
So any suggestions, reports, criticism are gladly accepted.
1) APP calls vixGetVersion to check age of driver ;)
2) APP calls vixProbe. Driver should return 0 if it can handle something in PC.
3) APP calls vixGetCapability. Driver should return filled
vidix_capability_t.type field at least.
4) If above calls were succesful then APP calls vixInit function
(Driver can have not exported this function in this case call will be
skiped).
5) After initializing of driver APP calls vixGetCapability again
(In this case driver must fill every field of struct)
6) APP calls vixQueryFourcc. Driver should answer - can it configure
video memory for given fourcc or not.
7) APP calls vixConfigPlayback. Driver should prepare BES on this call.
APP pass to driver following info:
~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~
vidix_playback_t.fourcc - contains fourcc of movie
vidix_playback_t.capability - currently contsinas copy of vidix_capability_t.flags
vidix_playback_t.blend_factor- currently unused
vidix_playback_t.src - x,y,w,h fields contain original movie size
(in pixels) x and y often are nulls.
vidix_playback_t.src.pitch.y These fields contain source pitches
vidix_playback_t.src.pitch.u - for each Y,U,V plane in bytes.
vidix_playback_t.src.pitch.v (For packed fourcc only Y value is used)
They are hints for driver to use same destinition
pitches as in source memory (to speed up
memcpy process).
Note: when source pitches are unknown or
variable these field will be filled into 0.
vidix_playback_t.dest - x,y,w,h fields contains destinition rectange
on the screen in pixels.
vidix_playback_t.num_frames - maximal # of frames which can be used by APP.
(Currently 10).
Driver should fill following fields:
~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~
vidix_playback_t.num_frames - real # of frames which will be used by driver.
(Should be less or equal to app's num_frames).
vidix_playback_t.dest.pitch.y These fields should contain alignment
vidix_playback_t.dest.pitch.u - for each Y,U,V plane in bytes.
vidix_playback_t.dest.pitch.v (For packed fourcc only Y value is used)
vidix_playback_t.frame_size - Driver should tell to app which size of
source frame (src.w and src.h) should
use APP (according to pitches and offsets)
vidix_playback_t.offsets - offsets from begin of BES memory for each frame
vidix_playback_t.offset.y These field should contain offset
vidix_playback_t.offset.u - for each Y,U,V plane within frame.
vidix_playback_t.offset.v (For packed fourcc only Y value is used)
vidix_playback_t.dga_addr - Address of BES memory.
Also see this picture:
VIDEO MEMORY layout:
+----------- It's begin of video memory End of video memory--------------+
| |
v v
[ RGB memory | YUV memory | UNDEF ]
^
|
+---- begin of BES memory
BES MEMORY layout:
+-------- begin of BES memory
|
v
[ | | | | |
^ ^ ^ ^ ^
| | | | + BEGIN of second frame
| | | + BEGIN of V plane
| | + BEGIN of U plane
| +------- BEGIN of Y plane
|
+--------- BEGIN of first frame
This means that in general case:
offset of frame != offset of BES
offset of Y plane != offset of first frame
But often: vidix_playback_t.offsets[0] = vidix_playback_t.offset.y = 0;
Formula: (For Y plane) copy source to:
vidix_playback_t.dga_addr +
vidix_playback_t.offsets[i] +
vidix_playback_t.offset.y
8) APP calls vixPlaybackOn. Driver should activate BES on this call.
9) PLAYBACK. Driver should sleep here ;)
But during playback can be called:
vixFrameSelect (if this function is exported)
Driver should prepare and activate corresponded frame.
This function is used only for double and trilpe buffering and
never used for single buffering playback.
vixGet(Set)GrKeys (if this function is exported)
This interface should be tuned but intriduced for overlapped playback
and video effects (TYPE_FX)
vixPlaybackGet(Set)Eq (if this function is exported)
For color correction.
10) APP calls vixPlaybackOff. Driver should deactivate BES on this call.
11) If vixDestroy is defined APP calls this function before unloading driver
from memory.
What functions are mandatory:
~~~~~~~~~~~~~~~~~~~~~~~~~~~~~
vixGetVersion
vixProbe
vixGetCapability
vixQueryFourcc
vixConfigPlayback
vixPlaybackOn
vixPlaybackOff
All other functions are optionaly.
Useful links:
~~~~~~~~~~~~~
Guide to DTV http://www.digitaltelevision.com/dtvbook/toc.shtml
Fourcc http://www.webartz.com/fourcc/
MPEG http://www.mpeg.org/MPEG/index.html
Analog colors http://www.miranda.com/en/app_notes/TN/TN-05/TN-05.htm
Please send your suggestions, reports, feedback to mplayer-dev-eng@mplayerhq.hu
Best regards! Nick Kurshev.
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