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16 Commits

Author SHA1 Message Date
Philip Langdale
ae7a4a1594 CrystalHD: Improve detection of h.264 content.
As previously discussed, the CrystalHD hardware returns exceptionally
useless information about interlaced h.264 content - to the extent
that it's not possible to distinguish most MBAFF and PAFF content until
it's too late.

In an attempt to compensate for this, I'm introducing two mechanisms:

1) Peeking at the picture number of the next picture

The hardware provides a capability to peek the next picture number. If
it is the same as the current picture number, then we are clearly dealing
with two fields and not a frame or fieldpair.

If this always worked, it would be all we need, but it's not guaranteed
to work. Sometimes, the next picture may not be decoded sufficiently
for the number to be known; alternately, a corruption in the stream may
cause the hardware to refuse to return the number even if the next
intact frame is decoded. In either case, the query will return 0.

If we are unable to peek the next picture number, we assume that the
picture is a frame/fieldpair and return it accordingly. If that turns
out to be incorrect, we discard the second field, and the user has
to live with the glitch. In testing, false detection can occur for
the first couple of seconds, and then the pipeline stabalizes and
we get correct detection.

2) Use the h264_parser to detect when individual input fields have
been combined into an output fieldpair.

I have multiple PAFF samples where this behaviour is detected. The
peeking mechanism described above will correctly detect that the
output is a fieldpair, but we need to know what the input type was
to ensure pipeline stability (only return one output frame per input
frame).

If we find ourselves with an output fieldpair, yet the input picture
type was a field, as reported by the parser, then we are dealing with
this case, and can make sure not to return anything on the next
decode() call.

Taken together, these allow us to remove the hard-coded hacks for
different h.264 types, and we can clearly describe the conditions
under which we can trust the hardware's claim that content is
interlaced.

Signed-off-by: Philip Langdale <philipl@overt.org>
2011-04-08 20:17:53 -07:00
Philip Langdale
bfde0f1b3d CrystalHD: Carry picture type from input to output picture.
Now that we know the type of the input picture, we have to bring
that information to the output picture to help identify its type.
We do this by adding a field to the opaque_list node.

Signed-off-by: Philip Langdale <philipl@overt.org>
2011-04-08 20:17:50 -07:00
Philip Langdale
f6421e0b5c CrystalHD: Bring in h.264 parser to establish picture type.
As the hardware is unreliable, we will have to use the h.264 parser
to identify whether an input picture is a field or a frame. This
change loads the parser and extracts the picture type.

Signed-off-by: Philip Langdale <philipl@overt.org>
2011-04-08 20:17:47 -07:00
Philip Langdale
e99fd6ee19 CrystalHD: Change opaque_list_pop to return the node.
In preparation for adding additional fields to the node, return
the node instead of the pts value. This requires the caller to
free the node.

Signed-off-by: Philip Langdale <philipl@overt.org>
2011-04-08 20:17:42 -07:00
Philip Langdale
ca0eed7e37 CrystalHD: Fix whitespace after previous change.
'git diff -w' confirmed to return nothing.

Signed-off-by: Philip Langdale <philipl@overt.org>
2011-04-08 20:17:39 -07:00
Philip Langdale
9ce1d5f03b CrystalHD: Handle different h.264 MBAFF packing.
I found another MBAFF sample where the input:output pattern is
the same as mpeg2 and vc1 (fieldpair input, individual field output).
While I'm not sure how you can output individual fields from MBAFF,
if I apply the mpeg2/vc1 handling to this file, it plays correctly.

So, this changes the detection algorithm to handle the known cases.

Whitespace will be fixed in a separate change.

Signed-off-by: Philip Langdale <philipl@overt.org>
2011-04-08 20:17:35 -07:00
Philip Langdale
3583eb9341 CrystalHD: Remove redundant interlaced check.
Signed-off-by: Philip Langdale <philipl@overt.org>
2011-03-26 16:09:48 -07:00
Philip Langdale
a1749eb3c3 CrystalHD: Add 2011 to Copyright
Signed-off-by: Philip Langdale <philipl@overt.org>
2011-03-26 16:09:48 -07:00
Philip Langdale
b45aceb64a Revert "CrystalHD: Improve interlaced h.264 support."
This reverts commit e44073ca5e.
2011-03-26 16:04:48 -07:00
Philip Langdale
85b010987f Revert "CrystalHD: Add heuristics to try and distinguish h.264 PAFF variants."
This reverts commit 4ab57cffba.
2011-03-26 16:04:43 -07:00
Philip Langdale
3188d33a11 Revert "CrystalHD: Refine heuristic logic."
This reverts commit f968ef922d.
2011-03-26 16:04:36 -07:00
Philip Langdale
f968ef922d CrystalHD: Refine heuristic logic. 2011-03-26 15:55:47 -07:00
Philip Langdale
4ab57cffba CrystalHD: Add heuristics to try and distinguish h.264 PAFF variants.
As previously discussed, the CrystalHD hardware treats some PAFF
clips different from others; even when input fields are always in
separate packets, the hardware might return a single fieldpair for
one clip and individual fields for another.

Given the bogus flags set by the hardware, it is impossible to
distinguish these two cases without knowing about the current
picture and the next one. The hardware can usually provide the
picture number of the next picture and when that is available,
we can detect the two cases.

When it is not available, we have to guess - and find out later
if we were right or wrong.

With this change, clips will play correctly unless they are PAFF
where individual fields are returned *and* no next picture number
is available. Generally speaking, the incorrect cases arise in
the first couple of seconds of a clip as the delay calibration takes
place. Once that's set, things work fine.
2011-03-26 15:55:47 -07:00
Philip Langdale
e44073ca5e CrystalHD: Improve interlaced h.264 support.
As previously discussed, the CrystalHD hardware returns exceptionally
useless information about interlaced h.264 content - to the extent
that it's not possible to distinguish MBAFF and PAFF content until
it's too late.

This change introduces use of the h264_parser to help bridge the
gap; it can indicate if the input data is PAFF fields or not.

With this clarity, some of heuristics can be removed from the code,
making this less convoluted.

Finally, I found an MBAFF clip that acts like non h.264 content so
I had to make allowances for that.

Note that I still cannot distinguish between two forms of PAFF,
where the hardware either returns individual fields or a field-pair.
It's not clear that there's even a spec relevant difference between
the two forms, as opposed to hardware ideosyncracies.
2011-03-26 15:55:47 -07:00
Philip Langdale
969eb21ba2 CrystalHD: Use doxygen compatible comments where relevant.
Signed-off-by: Philip Langdale <philipl@overt.org>
Signed-off-by: Michael Niedermayer <michaelni@gmx.at>
2011-03-17 13:02:23 +01:00
Philip Langdale
b33fa8a1cd CrystalHD decoder support v7
The Broadcom CrystalHD decoder chips provide hardware video
decoding for a number of video formats. It does so using a
memory:memory interface where a compressed bitstream is fed
in and decompressed pictures are copied out. As such, it works
independent of any graphics hardware in the system.

Features supported in this initial version:
* Support for Linux (using current drivers/library from git.wilsonet.com)
* Support for 70015 hardware
* Formats: MPEG2, MPEG4 Part 2, H.264, VC1 and DivX 3.11 (untested)
* Progressive content
* Non-H.264 Interlaced content
* H.264 MBAFF content

Features missing in this initial version:
* Support for OSX (might work - untested)
* Support for Windows
* Support for 70012 hardware
* H.264 PAFF content

Signed-off-by: Philip Langdale <philipl@overt.org>
Signed-off-by: Michael Niedermayer <michaelni@gmx.at>
2011-03-10 20:17:19 +01:00