[x265] [PATCH]Fixed some of the wrongly represented cli parameters related to --colormatrix and --videoformat
Praveen Kumar Karadugattu
praveenkumar at multicorewareinc.com
Tue May 26 14:46:58 CEST 2020
>From f8664c406ee597b862ca3ee43d6e008bba5d7004 Mon Sep 17 00:00:00 2001
From: Praveen Kumar Karadugattu <praveenkumar at multicorewareinc.com>
Date: Tue, 26 May 2020 18:12:51 +0530
Subject: [PATCH] Fixed some of the wrongly represented cli parameters
related
to --colormatrix and --videoformat
---
doc/reST/cli.rst | 110
++++++++++++++++++++++++------------------------
source/CMakeLists.txt | 2 +-
source/common/param.cpp | 12 +++---
source/x265cli.cpp | 12 +++---
4 files changed, 68 insertions(+), 68 deletions(-)
diff --git a/doc/reST/cli.rst b/doc/reST/cli.rst
index eceec40..6a04100 100644
--- a/doc/reST/cli.rst
+++ b/doc/reST/cli.rst
@@ -141,7 +141,7 @@ Logging/Statistic Options
**Residual Energy** Average residual energy. SSE is calculated on fenc
and pred(before quantization).
- **Luma/Chroma Values** minumum, maximum and average(averaged by area)
+ **Luma/Chroma Values** minimum, maximum and average(averaged by area)
luma and chroma values of source for each frame.
**PU Statistics** percentage of PU modes at each depth.
@@ -246,7 +246,7 @@ Performance Options
.. option:: --pools <string>, --numa-pools <string>
- Comma seperated list of threads per NUMA node. If "none", then no worker
+ Comma separated list of threads per NUMA node. If "none", then no worker
pools are created and only frame parallelism is possible. If NULL or ""
(default) x265 will use all available threads on each NUMA node::
@@ -284,7 +284,7 @@ Performance Options
the last thread pool is spawned only if it has more than 32 threads for
64-bit machines, or 16 for 32-bit machines. If the total number of threads
in the system doesn't obey this constraint, we may spawn fewer threads
- than cores which has been emperically shown to be better for performance.
+ than cores which has been empirically shown to be better for performance.
If the four pool features: :option:`--wpp`, :option:`--pmode`,
:option:`--pme` and :option:`--lookahead-slices` are all disabled,
@@ -409,7 +409,7 @@ Performance Options
Allow encoder to copy input x265 pictures to internal frame buffers. When
disabled,
x265 will not make an internal copy of the input picture and will work
with the
- application's buffers. While this allows for deeper integration, it is
the responsbility
+ application's buffers. While this allows for deeper integration, it is
the responsibility
of the application to (a) ensure that the allocated picture has extra
space for padding
that will be done by the library, and (b) the buffers aren't recycled
until the library
has completed encoding this frame (which can be figured out by tracking
NALs output by x265)
@@ -554,7 +554,7 @@ frame counts) are only applicable to the CLI
application.
.. option:: --chunk-start <integer>
- First frame of the chunk. Frames preceeding this in display order will
+ First frame of the chunk. Frames preceding this in display order will
be encoded, however, they will be discarded in the bitstream. This
feature can be enabled only in closed GOP structures.
Default 0 (disabled).
@@ -562,7 +562,7 @@ frame counts) are only applicable to the CLI
application.
.. option:: --chunk-end <integer>
Last frame of the chunk. Frames following this in display order will be
- used in taking lookahead decisions, but, they will not be encoded.
+ used in taking lookahead decisions, but they will not be encoded.
This feature can be enabled only in closed GOP structures.
Default 0 (disabled).
@@ -638,7 +638,7 @@ Profile, Level, Tier
If :option:`--level-idc` has been specified, --high-tier allows the
support of high tier at that level. The encoder will first attempt to
encode
at the specified level, main tier first, turning on high tier only if
- necessary and available at that level.If your requested level does not
+ necessary and available at that level. If your requested level does not
support a High tier, high tier will not be supported. If --no-high-tier
has been specified, then the encoder will attempt to encode only at the
main tier.
@@ -647,8 +647,8 @@ Profile, Level, Tier
.. option:: --ref <1..16>
Max number of L0 references to be allowed. This number has a linear
- multiplier effect on the amount of work performed in motion search,
- but will generally have a beneficial affect on compression and
+ multiplier effect on the amount of work performed in motion search
+ but will generally have a beneficial effect on compression and
distortion.
Note that x265 allows up to 16 L0 references but the HEVC
@@ -668,7 +668,7 @@ Profile, Level, Tier
.. option:: --allow-non-conformance, --no-allow-non-conformance
Allow libx265 to generate a bitstream with profile and level NONE.
- By default it will abort any encode which does not meet strict level
+ By default, it will abort any encode which does not meet strict level
compliance. The two most likely causes for non-conformance are
:option:`--ctu` being too small, :option:`--ref` being too high,
or the bitrate or resolution being out of specification.
@@ -727,7 +727,7 @@ Mode decision / Analysis
used. The lower the value the faster the encode, the higher the
value the smaller the bitstream (in general). Default 3
- Note that this table aims for accuracy, but is not necessarily our
+ Note that this table aims for accuracy but is not necessarily our
final target behavior for each mode.
+-------+---------------------------------------------------------------+
@@ -758,7 +758,7 @@ the prediction quad-tree.
Maximum CU size (width and height). The larger the maximum CU size,
the more efficiently x265 can encode flat areas of the picture,
- giving large reductions in bitrate. However this comes at a loss of
+ giving large reductions in bitrate. However, this comes at a loss of
parallelism with fewer rows of CUs that can be encoded in parallel,
and less frame parallelism as well. Because of this the faster
presets use a CU size of 32. Default: 64
@@ -799,7 +799,7 @@ the prediction quad-tree.
For all non-zero values of limit-refs, the current depth will evaluate
intra mode (in inter slices), only if intra mode was chosen as the best
- mode for atleast one of the 4 sub-blocks.
+ mode for at least one of the 4 sub-blocks.
You can often increase the number of references you are using
(within your decoder level limits) if you enable one or
@@ -848,7 +848,7 @@ the prediction quad-tree.
.. option:: --rskip <0|1|2>
This option determines early exit from CU depth recursion in modes 1 and
2. When a skip CU is
- found, additional heuristics (depending on the RD level and rskip mode)
are used to decide whether
+ found, additional heuristics (depending on RD level and rskip mode) are
used to decide whether
to terminate recursion. The following table summarizes the behavior.
+----------+------------+----------------------------------------------------------------+
@@ -928,7 +928,7 @@ will not reuse analysis if slice type parameters do not
match.
.. option:: --analysis-load <filename>
- Encoder reuses analysis information from the file specified. By reading
the analysis data writen by
+ Encoder reuses analysis information from the file specified. By reading
the analysis data written by
an earlier encode of the same sequence, substantial redundant work may be
avoided. Requires cutree, pmode
to be off. Default disabled.
@@ -1082,7 +1082,7 @@ as the residual quad-tree (RQT).
Note that when the CU intra prediction is NxN (only possible with
8x8 CUs), a TU split is implied, and thus the residual quad-tree
- begins at 4x4 and cannot split any futhrer.
+ begins at 4x4 and cannot split any further.
.. option:: --tu-inter-depth <1..4>
@@ -1101,7 +1101,7 @@ as the residual quad-tree (RQT).
Enables early exit from TU depth recursion, for inter coded blocks.
Level 1 - decides to recurse to next higher depth based on cost
- comparison of full size TU and split TU.
+ comparison of full-size TU and split TU.
Level 2 - based on first split subTU's depth, limits recursion of
other split subTUs.
@@ -1109,13 +1109,13 @@ as the residual quad-tree (RQT).
Level 3 - based on the average depth of the co-located and the neighbor
CUs' TU depth, limits recursion of the current CU.
- Level 4 - uses the depth of the neighbouring/ co-located CUs TU depth
+ Level 4 - uses the depth of the neighboring/ co-located CUs TU depth
to limit the 1st subTU depth. The 1st subTU depth is taken as the
limiting depth for the other subTUs.
Enabling levels 3 or 4 may cause a mismatch in the output bitstreams
between :option:`--analysis-save` and :option:`--analysis-load`
- as all neighbouring CUs TU depth may not be available in the
+ as all neighboring CUs TU depth may not be available in the
:option:`--analysis-load` run as only the best mode's information is
available to it.
@@ -1216,14 +1216,14 @@ Temporal / motion search options
Motion search method. Generally, the higher the number the harder
the ME method will try to find an optimal match. Diamond search is
the simplest. Hexagon search is a little better. Uneven
- Multi-Hexegon is an adaption of the search method used by x264 for
- slower presets. Star is a three step search adapted from the HM
+ Multi-Hexagon is an adaption of the search method used by x264 for
+ slower presets. Star is a three-step search adapted from the HM
encoder: a star-pattern search followed by an optional radix scan
followed by an optional star-search refinement. Full is an
exhaustive search; an order of magnitude slower than all other
searches but not much better than umh or star. SEA is similar to
x264's ESA implementation and a speed optimization of full search.
- It is a three step motion search where the DC calculation is
+ It is a three-step motion search where the DC calculation is
followed by ADS calculation followed by SAD of the passed motion
vector candidates.
@@ -1262,7 +1262,7 @@ Temporal / motion search options
At --subme values larger than 2, chroma residual cost is included
in all subpel refinement steps and chroma residual is included in
all motion estimation decisions (selecting the best reference
- picture in each list, and chosing between merge, uni-directional
+ picture in each list, and choosing between merge, uni-directional
motion and bi-directional motion). The 'slow' preset is the first
preset to enable the use of chroma residual.
@@ -1356,7 +1356,7 @@ the rate distortion algorithm.
do not match the visual energy of the source block. The higher the
strength of :option:`--psy-rd` the more strongly it will favor similar
energy over blur and the more aggressively it will ignore rate
-distortion. If it is too high, it will introduce visal artifacts and
+distortion. If it is too high, it will introduce visual artifacts and
increase bitrate enough for rate control to increase quantization
globally, reducing overall quality. psy-rd will tend to reduce the use
of blurred prediction modes, like DC and planar intra and bi-directional
@@ -1366,11 +1366,11 @@ inter prediction.
rate-distortion optimized quantization (RDO quant), enabled by
:option:`--rdoq-level` 1 or 2, favoring the preservation of energy in the
reconstructed image. :option:`--psy-rdoq` prevents RDOQ from blurring
-all of the encoding options which psy-rd has to chose from. At low
+all of the encoding options which psy-rd has to choose from. At low
strength levels, psy-rdoq will influence the quantization level
decisions, favoring higher AC energy in the reconstructed image. As
psy-rdoq strength is increased, more non-zero coefficient levels are
-added and fewer coefficients are zeroed by RDOQ's rate distortion
+added, and fewer coefficients are zeroed by RDOQ's rate distortion
analysis. High levels of psy-rdoq can double the bitrate which can have
a drastic effect on rate control, forcing higher overall QP, and can
cause ringing artifacts. psy-rdoq is less accurate than psy-rd, it is
@@ -1394,16 +1394,16 @@ see temporal artifacts (motion judder). This is
caused when the encoder
is forced to code skip blocks (no residual) in areas of difficult motion
because it is the best option psycho-visually (they have great amounts
of energy and no residual cost). One can lower psy-rd settings when
-judder is happening, and allow the encoder to use some blur in these
+judder is happening and allow the encoder to use some blur in these
areas of high motion.
In 444, chroma gets twice as much resolution, so halve the quality when
psy-rd is enabled.
-So when psy-rd is enabled for 444 videos, cbQpOffset and crQpOffset are
set to value 6,
+So, when psy-rd is enabled for 444 videos, cbQpOffset and crQpOffset are
set to value 6,
if they are not explicitly set.
.. option:: --psy-rd <float>
- Influence rate distortion optimizated mode decision to preserve the
+ Influence rate distortion optimized mode decision to preserve the
energy of the source image in the encoded image at the expense of
compression efficiency. It only has effect on presets which use
RDO-based mode decisions (:option:`--rd` 3 and above). 1.0 is a
@@ -1501,7 +1501,7 @@ Slice decision options
Number of frames for slice-type decision lookahead (a key
determining factor for encoder latency). The longer the lookahead
buffer the more accurate scenecut decisions will be, and the more
- effective cuTree will be at improving adaptive quant. Having a
+ effective cutree will be at improving adaptive quant. Having a
lookahead larger than the max keyframe interval is not helpful.
Default 20
@@ -1510,7 +1510,7 @@ Slice decision options
.. option:: --gop-lookahead <integer>
Number of frames for GOP boundary decision lookahead. If a scenecut frame
is found
- within this from the gop boundary set by `--keyint`, the GOP will be
extented until such a point,
+ within this from the gop boundary set by `--keyint`, the GOP will be
extended until such a point,
otherwise the GOP will be terminated as set by `--keyint`. Default 0.
**Range of values:** Between 0 and (`--rc-lookahead` - mini-GOP length)
@@ -1629,7 +1629,7 @@ Quality, rate control and rate distortion options
.. option:: --crf-min <0..51.0>
- Specify an lower limit to the rate factor which may be assigned to
+ Specify a lower limit to the rate factor which may be assigned to
any given frame (ensuring a min compression factor).
.. option:: --vbv-bufsize <integer>
@@ -1656,7 +1656,7 @@ Quality, rate control and rate distortion options
Initial buffer occupancy. The portion of the decode buffer which
must be full before the decoder will begin decoding. Determines
absolute maximum frame size. May be specified as a fractional value
- between 0 and 1, or in kbits. In other words these two option pairs
+ between 0 and 1, or in kbits. In other words, these two option pairs
are equivalent::
--vbv-bufsize 1000 --vbv-init 900
@@ -1710,7 +1710,7 @@ Quality, rate control and rate distortion options
Adaptive Quantization operating mode. Raise or lower per-block
quantization based on complexity analysis of the source image. The
- more complex the block, the more quantization is used. This offsets
+ more complex the block, the more quantization is used. These offsets
the tendency of the encoder to spend too many bits on complex areas
and not enough in flat areas.
@@ -1737,8 +1737,8 @@ Quality, rate control and rate distortion options
Enable adaptive quantization
It scales the quantization step size according to the spatial activity of
one
coding unit relative to frame average spatial activity. This AQ method
utilizes
- the minimum variance of sub-unit in each coding unit to represent the
coding
- unit’s spatial complexity.
+ the minimum variance of sub-unit in each coding unit to represent the
spatial
+ complexity of the coding unit.
.. option:: --qp-adaptation-range
@@ -1938,7 +1938,7 @@ Quality, rate control and rate distortion options
The frame number indicates the beginning of a zone. The options
following this is applied until another zone begins. The reconfigurable
- options can be spcified as --<feature name> <feature value>
+ options can be specified as --<feature name> <feature value>
**CLI ONLY**
@@ -2064,7 +2064,7 @@ Loop filters
.. option:: --sao-non-deblock, --no-sao-non-deblock
- Specify how to handle depencency between SAO and deblocking filter.
+ Specify how to handle dependency between SAO and deblocking filter.
When enabled, non-deblocked pixels are used for SAO analysis. When
disabled, SAO analysis skips the right/bottom boundary areas.
Default disabled
@@ -2154,7 +2154,7 @@ VUI fields must be manually specified.
2. ntsc
3. secam
4. mac
- 5. undefined
+ 5. unknown
.. option:: --range <full|limited>
@@ -2207,15 +2207,15 @@ VUI fields must be manually specified.
Specify color matrix setting i.e set the matrix coefficients used in
deriving the luma and chroma. Default undefined (not signaled)
- 0. GBR
+ 0. gbr
1. bt709
- 2. undef
+ 2. unknown
3. **reserved**
4. fcc
5. bt470bg
6. smpte170m
7. smpte240m
- 8. YCgCo
+ 8. ycgco
9. bt2020nc
10. bt2020c
11. smpte2085
@@ -2285,7 +2285,7 @@ VUI fields must be manually specified.
.. option:: --hdr10-opt, --no-hdr10-opt
Enable block-level luma and chroma QP optimization for HDR10 content
- as suggested in ITU-T H-series Recommendations – Supplement 15.
+ as suggested in ITU-T H-series Recommendations– Supplement 15.
Source video should have HDR10 characteristics such as 10-bit depth 4:2:0
with Bt.2020 color primaries and SMPTE ST.2084 transfer characteristics.
It is recommended that AQ-mode be enabled along with this feature.
Default disabled.
@@ -2325,13 +2325,13 @@ VUI fields must be manually specified.
Emit the alternative transfer characteristics SEI message where the
integer
is the preferred transfer characteristics. Required for HLG (Hybrid Log
Gamma)
- signalling. Not signalled by default.
+ signaling. Not signaled by default.
.. option:: --pic-struct <integer>
Set the picture structure and emits it in the picture timing SEI message.
Values in the range 0..12. See D.3.3 of the HEVC spec. for a detailed
explanation.
- Required for HLG (Hybrid Log Gamma) signalling. Not signalled by default.
+ Required for HLG (Hybrid Log Gamma) signaling. Not signaled by default.
Bitstream options
=================
@@ -2362,7 +2362,7 @@ Bitstream options
.. option:: --hrd, --no-hrd
- Enable the signalling of HRD parameters to the decoder. The HRD
+ Enable the signaling of HRD parameters to the decoder. The HRD
parameters are carried by the Buffering Period SEI messages and
Picture Timing SEI messages providing timing information to the
decoder. Default disabled
@@ -2370,7 +2370,7 @@ Bitstream options
.. option:: --hrd-concat, --no-hrd-concat
- Set concantenation flag for the first keyframe in the HRD buffering
period SEI. This
+ Set concatenation flag for the first keyframe in the HRD buffering
period SEI. This
is to signal the decoder if splicing is performed during bitstream
generation.
Recommended to enable this option during chunked encoding, except for
the first chunk.
Default disabled.
@@ -2419,7 +2419,7 @@ Bitstream options
Enable a temporal sub layer. All referenced I/P/B frames are in the
base layer and all unreferenced B frames are placed in a temporal
- enhancement layer. A decoder may chose to drop the enhancement layer
+ enhancement layer. A decoder may choose to drop the enhancement layer
and only decode and display the base layer slices.
If used with a fixed GOP (:option:`--b-adapt` 0) and :option:`--bframes`
@@ -2457,7 +2457,7 @@ Bitstream options
.. option:: --opt-cu-delta-qp, --no-opt-cu-delta-qp
Optimize CU level QPs by pulling up lower QPs to value close to meanQP
thereby
- minimizing fluctuations in deltaQP signalling. Default disabled.
+ minimizing fluctuations in deltaQP signaling. Default disabled.
Only effective at RD levels 5 and 6
@@ -2476,10 +2476,10 @@ DCT Approximations
.. option:: --lowpass-dct
If enabled, x265 will use low-pass subband dct approximation instead of
the
- standard dct for 16x16 and 32x32 blocks. This approximation is less
computational
+ standard dct for 16x16 and 32x32 blocks. This approximation is less
computationally
intensive but it generates truncated coefficient matrixes for the
transformed block.
Empirical analysis shows marginal loss in compression and performance
gains up to 10%,
- paticularly at moderate bit-rates.
+ particularly at moderate bit-rates.
This approximation should be considered for platforms with performance
and time
constrains.
@@ -2538,7 +2538,7 @@ ABR-ladder Options
A sample config file is available in `the downloads page <
https://bitbucket.org/multicoreware/x265/downloads/Sample_ABR_ladder_config
>`_
- Default: Disabled ( Conventional single encode generation ). Experimental
feature.
+ Default: Disabled (Conventional single encode generation). Experimental
feature.
**CLI ONLY**
@@ -2576,8 +2576,8 @@ See section :ref:`svthevc <SvtHevc>` for more details.
.. option:: --svt-compressed-ten-bit-format,
--no-svt-compressed-ten-bit-format
In order to reduce the size of input YUV and to increase channel
density,
- SVT-HEVC accetps inputs in compressed-ten-bit-format. The conversion
between
- yuv420p10le and compressed ten bit format is a lossless operation. For
more
+ SVT-HEVC accepts inputs in compressed-ten-bit-format. The conversion
between
+ yuv420p10le and compressed ten-bit format is a lossless operation. For
more
details about the conversion refer
`here<
https://github.com/intel/SVT-HEVC/blob/master/Docs/SVT-HEVC_Encoder_User_Guide.pdf
>'_.
@@ -2629,7 +2629,7 @@ See section :ref:`svthevc <SvtHevc>` for more details.
supports Low delay(P/B) and random access prediction structure. In a
low delay
structure, pictures within a mini-gop can only refer to the previous
pictures
in display order. In other words, picture with display order N can
only refer
- to pictures of display order lower than N. In random acccess method,
pictures
+ to pictures of display order lower than N. In random access method,
pictures
can be referenced from both the directions. It accepts values in the
range
[0-2]
diff --git a/source/CMakeLists.txt b/source/CMakeLists.txt
index aedea87..ce127ce 100644
--- a/source/CMakeLists.txt
+++ b/source/CMakeLists.txt
@@ -29,7 +29,7 @@ option(NATIVE_BUILD "Target the build CPU" OFF)
option(STATIC_LINK_CRT "Statically link C runtime for release builds" OFF)
mark_as_advanced(FPROFILE_USE FPROFILE_GENERATE NATIVE_BUILD)
# X265_BUILD must be incremented each time the public API is changed
-set(X265_BUILD 193)
+set(X265_BUILD 194)
configure_file("${PROJECT_SOURCE_DIR}/x265.def.in"
"${PROJECT_BINARY_DIR}/x265.def")
configure_file("${PROJECT_SOURCE_DIR}/x265_config.h.in"
diff --git a/source/common/param.cpp b/source/common/param.cpp
index fb7244e..608763c 100644
--- a/source/common/param.cpp
+++ b/source/common/param.cpp
@@ -1122,7 +1122,7 @@ int x265_param_parse(x265_param* p, const char* name,
const char* value)
p->vui.bEnableOverscanInfoPresentFlag = 1;
p->vui.bEnableOverscanAppropriateFlag = 1;
}
- else if (!strcmp(value, "undef"))
+ else if (!strcmp(value, "unknown"))
p->vui.bEnableOverscanInfoPresentFlag = 0;
else
bError = true;
@@ -1643,23 +1643,23 @@ int x265_check_params(x265_param* param)
"Sample Aspect Ratio height must be greater than 0");
CHECK(param->vui.videoFormat < 0 || param->vui.videoFormat > 5,
"Video Format must be component,"
- " pal, ntsc, secam, mac or undef");
+ " pal, ntsc, secam, mac or unknown");
CHECK(param->vui.colorPrimaries < 0
|| param->vui.colorPrimaries > 12
|| param->vui.colorPrimaries == 3,
- "Color Primaries must be undef, bt709, bt470m,"
+ "Color Primaries must be unknown, bt709, bt470m,"
" bt470bg, smpte170m, smpte240m, film, bt2020, smpte-st-428,
smpte-rp-431 or smpte-eg-432");
CHECK(param->vui.transferCharacteristics < 0
|| param->vui.transferCharacteristics > 18
|| param->vui.transferCharacteristics == 3,
- "Transfer Characteristics must be undef, bt709, bt470m, bt470bg,"
+ "Transfer Characteristics must be unknown, bt709, bt470m,
bt470bg,"
" smpte170m, smpte240m, linear, log100, log316, iec61966-2-4,
bt1361e,"
" iec61966-2-1, bt2020-10, bt2020-12, smpte-st-2084,
smpte-st-428 or arib-std-b67");
CHECK(param->vui.matrixCoeffs < 0
|| param->vui.matrixCoeffs > 14
|| param->vui.matrixCoeffs == 3,
- "Matrix Coefficients must be undef, bt709, fcc, bt470bg,
smpte170m,"
- " smpte240m, GBR, YCgCo, bt2020nc, bt2020c, smpte-st-2085,
chroma-nc, chroma-c or ictcp");
+ "Matrix Coefficients must be unknown, bt709, fcc, bt470bg,
smpte170m,"
+ " smpte240m, gbr, ycgco, bt2020nc, bt2020c, smpte-st-2085,
chroma-nc, chroma-c or ictcp");
CHECK(param->vui.chromaSampleLocTypeTopField < 0
|| param->vui.chromaSampleLocTypeTopField > 5,
"Chroma Sample Location Type Top Field must be 0-5");
diff --git a/source/x265cli.cpp b/source/x265cli.cpp
index 5b95698..0f8d171 100644
--- a/source/x265cli.cpp
+++ b/source/x265cli.cpp
@@ -295,16 +295,16 @@ namespace X265_NS {
H0(" 5=40:33, 6=24:11, 7=20:11,
8=32:11, 9=80:33, 10=18:11, 11=15:11,\n");
H0(" 12=64:33, 13=160:99, 14=4:3,
15=3:2, 16=2:1 or custom ratio of <int:int>. Default %d\n",
param->vui.aspectRatioIdc);
H1(" --display-window <string> Describe overscan cropping
region as 'left,top,right,bottom' in pixels\n");
- H1(" --overscan <string> Specify whether it is
appropriate for decoder to show cropped region: undef, show or crop.
Default undef\n");
- H0(" --videoformat <string> Specify video format from
undef, component, pal, ntsc, secam, mac. Default undef\n");
+ H1(" --overscan <string> Specify whether it is
appropriate for decoder to show cropped region: unknown, show or crop.
Default unknown\n");
+ H0(" --videoformat <string> Specify video format from
unknown, component, pal, ntsc, secam, mac. Default unknown\n");
H0(" --range <string> Specify black level and range
of luma and chroma signals as full or limited Default limited\n");
H0(" --colorprim <string> Specify color primaries from
bt709, unknown, reserved, bt470m, bt470bg, smpte170m,\n");
- H0(" smpte240m, film, bt2020,
smpte428, smpte431, smpte432. Default undef\n");
+ H0(" smpte240m, film, bt2020,
smpte428, smpte431, smpte432. Default unknown\n");
H0(" --transfer <string> Specify transfer
characteristics from bt709, unknown, reserved, bt470m, bt470bg,
smpte170m,\n");
H0(" smpte240m, linear, log100,
log316, iec61966-2-4, bt1361e, iec61966-2-1,\n");
- H0(" bt2020-10, bt2020-12,
smpte2084, smpte428, arib-std-b67. Default undef\n");
- H1(" --colormatrix <string> Specify color matrix setting
from undef, bt709, fcc, bt470bg, smpte170m,\n");
- H1(" smpte240m, GBR, YCgCo,
bt2020nc, bt2020c, smpte2085, chroma-derived-nc, chroma-derived-c, ictcp.
Default undef\n");
+ H0(" bt2020-10, bt2020-12,
smpte2084, smpte428, arib-std-b67. Default unknown\n");
+ H1(" --colormatrix <string> Specify color matrix setting
from unknown, bt709, fcc, bt470bg, smpte170m,\n");
+ H1(" smpte240m, gbr, ycgco,
bt2020nc, bt2020c, smpte2085, chroma-derived-nc, chroma-derived-c, ictcp.
Default unknown\n");
H1(" --chromaloc <integer> Specify chroma sample
location (0 to 5). Default of %d\n",
param->vui.chromaSampleLocTypeTopField);
H0(" --master-display <string> SMPTE ST 2086 master display
color volume info SEI (HDR)\n");
H0(" format:
G(x,y)B(x,y)R(x,y)WP(x,y)L(max,min)\n");
--
1.8.3.1
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