Tools to transcode, inspect and convert videos.
Hi, I'm Lisa Melton. I created these tools to transcode my collection of Blu-ray Discs and DVDs into a smaller, more portable format while remaining high enough quality to be mistaken for the originals.
What makes these tools unique are the ratecontrol systems which achieve those goals.
This package is based on my original collection of Video Transcoding Scripts written in Bash. While still available online, those scripts are no longer in active development. Users are encouraged to install this Ruby Gem instead.
Most of the tools in this package are essentially intelligent wrappers around Open Source software like HandBrake, FFmpeg, MKVToolNix, and MP4v2. And they're all designed to be executed from the command line shell:
-
transcode-video
Transcode video file or disc image directory into format and size similar to popular online downloads. -
detect-crop
Detect crop values for video file or disc image directory. -
convert-video
Convert video file from Matroska to MP4 format or from MP4 to Matroksa format without transcoding video. -
query-handbrake-log
Report information from HandBrake-generated.log
files.
Even if you don't try any of my tools, you may find this "README" document helpful:
My Video Transcoding tools are designed to work on macOS, Linux and Windows. They're packaged as a Gem and require Ruby version 2.0 or later. See "Installing Ruby" if you don't have the proper version on your platform.
Use this command to install the package:
gem install video_transcoding
You may need to prefix that command with sudo
in some environments:
sudo gem install video_transcoding
Use this command, or the variation prefixed with sudo
, to update the package:
gem update video_transcoding
Most of the tools in this package require other software to function properly, specifically these command line programs:
HandBrakeCLI
ffmpeg
mkvpropedit
mp4track
Previewing the output of detect-crop
is optional, but doing so uses mpv
, a free, Open Source, and cross-platform media player.
You can download the command line version of HandBrake, called HandBrakeCLI
, here:
https://handbrake.fr/downloads2.php
On macOS, HandBrakeCLI
and all its other dependencies can be easily installed via Homebrew, an add-on package manager:
brew install handbrake
brew install ffmpeg
brew install mkvtoolnix
brew install mp4v2
The optional crop previewing package can also be installed via Homebrew:
brew install mpv
On Linux, package management systems vary so it's best consult the indexes for those systems. But there's a Homebrew port available called Linuxbrew and it doesn't require root access.
On Windows, it's best to follow one of the two methods, manually installing binaries or installing into the Windows Subsystem for Linux, as described here:
https://github.com/JMoVS/installing_video_transcoding_on_windows
When installing HandBrakeCLI
or other downloaded programs, make sure the executable binary is in a directory listed in your PATH
environment variable. On Unix-style systems like macOS and Linux, that directory might be /usr/local/bin
.
If you're comfortable using Docker virtualization software, a pre-built container with everything you need, plus installation instructions, is available here:
https://hub.docker.com/r/ntodd/video-transcoding/
Videos from the iTunes Store are my template for a portable format while remaining high enough quality to be mistaken for the originals. Their files are very good quality, much smaller than the same video on a Blu-ray Disc, and play on a wide variety of devices.
HandBrake is a powerful video transcoding tool but it's complicated to configure. It has several presets but they aren't smart enough to automatically change bitrate targets and other encoding options based on different inputs. More importantly, HandBrake's default presets don't produce a predictable output size with sufficient quality.
HandBrake's "AppleTV 3" preset is closest to what I want but transcoding "Planet Terror (2007)" with it results in a huge video bitrate of 19.9 Mbps, very near the original of 22.9 Mbps. And transcoding "The Girl with the Dragon Tattoo (2011)," while much smaller in output size, lacks detail compared to the original.
So, the transcode-video
tool configures the x264 video encoder within HandBrake to use a modified constrained variable bitrate (CVBR) mode, and to automatically target bitrates appropriate for different input resolutions.
Input resolution | Target video bitrate |
---|---|
1080p or Blu-ray video | 6000 Kbps |
720p | 3000 Kbps |
480i, 576p or DVD video | 1500 Kbps |
When audio transcoding is required, it's done in AAC format and, if the original is multi-channel surround sound, in Dolby Digital AC-3 format. Meaning the output can contain two tracks from the same source in different formats. And mono, stereo and surround inputs are all handled differently.
Input channels | AAC track | AC-3 track |
---|---|---|
Mono | 80 Kbps | none |
Stereo | 160 Kbps | none |
Surround | 160 Kbps | 640 Kbps with 5.1 channels |
But most of these default settings and automatic behaviors can be easily overridden or augmented with additional command line options.
HandBrake applies automatic crop detection by default. While it's usually correct, it does guess wrong often enough not to be trusted without review. For example, HandBrake's default behavior removes the top and bottom 140 pixels from "The Dark Knight (2008)" and "The Hunger Games: Catching Fire (2013)," losing significant portions of their full-frame content.
This is why transcode-video
doesn't allow HandBrake to apply cropping by default.
Instead, the detect-crop
tool leverages both HandBrake and FFmpeg to find the video cropping bounds. It then indicates whether those two programs agree. To aid in review, this tool prints commands to the terminal console allowing the recommended (or disputed) crop to be displayed, as well as a sample command line for transcode-video
itself.
All videos from the iTunes Store are in MP4 format format. However, the transcode-video
tool generates output in the more flexible Matroska format by default.
While you can easily change the behavior of transcode-video
to generate MP4 format with a command line option, it's sometimes handy to convert between formats quickly without re-transcoding. The convert-video
tool is designed for exactly that convenience.
The transcode-video
tool creates both video files and .log
files. While not nearly as entertaining, the cryptic .log
file still contains useful information. And the query-handbrake-log
can extract performance metrics, video bitrate and relative quality from those .log
files into easily readable reports.
Each of my Video Transcoding tools has several command line options. The transcode-video
tool is the most complex with over 40 of its own. Not all of those options are detailed here. Use --help
to list the full set of options available for a specific tool, along with brief instructions on their usage:
transcode-video --help
This built-in help works even if a tool's software dependencies are not yet installed.
All of the tools can accept multiple inputs, but batch processing for transcode-video
is still best handled by a separate script.
The transcode-video
and detect-crop
tools work best with video files:
transcode-video "/path/to/Movie.mkv"
However, both tools also accept disc image directories as input:
transcode-video "/path/to/Movie disc image directory/"
Disc image directories contain unencrypted backups of Blu-ray Discs or DVDs. Typically these formats include more than one video title. These additional titles can be bonus features, alternate versions of a movie, multiple TV show episodes, etc.
By default, transcode-video
and detect-crop
will automatically select the main feature in a disc image directory. Or they will select the first title, if the main feature can't be determined.
Both tools allow you to scan disc image directories, listing titles and tracks:
transcode-video --scan "/path/to/Movie disc image directory/"
So you can then select a specific title by number:
transcode-video --title 5 "/path/to/Movie disc image directory/"
The transcode-video
tool automatically determines target video bitrate, number of audio tracks, etc. without any command line options, so using it can be as simple as:
transcode-video "/path/to/Movie.mkv"
That command creates, after a reasonable amount of time, two files in the current working directory:
Movie.mkv
Movie.mkv.log
The .log
file can be used as input to the query-handbrake-log
tool.
By default, the transcode-video
tool generates output in Matroska format. To generate output in MP4 format, use the --mp4
option:
transcode-video --mp4 "/path/to/Movie.mkv"
Which will instead create:
Movie.mp4
Movie.mp4.log
To create MP4 output with the .m4v
file extension instead of .mp4
, use the --m4v
option:
transcode-video --m4v "/path/to/Movie.mkv"
The .m4v
file extension is more "iTunes-friendly," but the file content itself is exactly the same as a file with the .mp4
extension.
You can increase encoding speed by 70-80% with no easily perceptible loss in video quality by using the --quick
option:
transcode-video --quick "/path/to/Movie.mkv"
The --quick
option avoids the typical quality problems associated with the x264 video encoder's speed-based presets, especially as that speed increases.
No cropping is applied by default. Use the --crop TOP:BOTTOM:LEFT:RIGHT
option and arguments to indicate the amount of black, non-content border to remove from the edges of your video.
This command removes the top and bottom 144 pixels, typical of a 2.40:1 widescreen movie embedded within 16:9 Blu-ray Disc video:
transcode-video --crop 144:144:0:0 "/path/to/Movie.mkv"
This command removes the left and right 240 pixels, typical of a 4:3 classic TV show embedded within 16:9 Blu-ray Disc video:
transcode-video --crop 0:0:240:240 "/path/to/Movie.mkv"
Use the detect-crop
tool to determine the cropping bounds before transcoding.
You can also call the detect-crop
logic from transcode-video
with the single detect
argument:
transcode-video --crop detect "/path/to/Movie.mkv"
However, be aware that detect
can fail if HandBrake and FFmpeg disagree about the cropping values.
Which is why you can select a fallback behavior using the --fallback-crop
option when that happens, choosing handbrake
, ffmpeg
, minimal
or none
as its argument:
transcode-video --crop detect --fallback-crop minimal "/path/to/Movie.mkv"
The minimal
argument is perhaps the most useful behavior since it determines the smallest possible crop values by combining results from both HandBrakeCLI
and ffmpeg
.
By default, the transcode-video
tool selects the first audio track in the input as the main audio track. This is the first track in the output and the default track for playback.
But you can select any input audio track as the main track. In this case, track number 3:
transcode-video --main-audio 3 "/path/to/Movie.mkv"
Or you can select the first input audio track in a specific language using a three-letter code instead of a track index number. This command selects the first Spanish language track:
transcode-video --main-audio spa "/path/to/Movie.mkv"
If no track in the target language is found, then selection defaults to the first audio track in the input.
You can also give the main audio track a custom name:
transcode-video --main-audio 3="Original Stereo" "/path/to/Movie.mkv"
Unlike HandBrakeCLI
, custom track names are allowed to contain commas.
By default, only one track is selected as the main audio or default track. But you can add additional tracks, also with custom names:
transcode-video --add-audio 4 --add-audio 5="Director Commentary" "/path/to/Movie.mkv"
Or you can add all audio tracks with a single option and argument:
transcode-video --add-audio all "/path/to/Movie.mkv"
You can also add audio tracks selected by their three-letter language code. This command adds all French and Spanish language tracks in the same order they're found in the input:
transcode-video --add-audio fra,spa "/path/to/Movie.mkv"
By default, the main audio track is transcoded in AAC format and, if the original is multi-channel surround sound, in Dolby Digital AC-3 format. Meaning the output can contain two tracks from the same source in different formats. So, main audio output is "wide" enough for "double" tracks.
Also by default, any added audio tracks are only transcoded in AAC format. Meaning the output only contains a single track in one format. So, additional audio output is only "wide" enough for "stereo" tracks.
However, you can change the "width" of main audio or additional audio output using the --audio-width
option. There are three possible widths: double
, surround
and stereo
.
Use this command to treat any other additional audio tracks just like the main audio track:
transcode-video --audio-width other=double "/path/to/Movie.mkv"
Or use this command to make main audio output as a single track but still allow it in surround format:
transcode-video --audio-width main=surround "/path/to/Movie.mkv"
If possible, audio is first passed through in its original format, providing that format is either AC-3 or AAC. This hardly ever works for Blu-ray Discs but it often will for DVDs and other random videos.
However, you can still copy audio tracks and maintain their original format, provided HandBrake and your selected file format support it:
transcode-video --copy-audio all "/path/to/Movie.mkv"
The --copy-audio
option doesn't implicitly add audio tracks to be copied. Since only the main audio track is included by default, the previous command only tries to copy that track. To also copy another track, you must first add it:
transcode-video --add-audio 4 --copy-audio all "/path/to/Movie.mkv"
Be aware that copying audio tracks in their original format will likely defeat two very important goals of transcoding: portability and compression.
By default, the transcode-video
tool automatically burns any forced subtitle track it detects into the output video track. "Burning" means that the subtitle becomes part of the video itself and isn't retained as a separate track. A "forced" subtitle track is detected by a special flag on that track in the input.
But you can select any subtitle track for burning. In this case, track number 3:
transcode-video --burn-subtitle 3 "/path/to/Movie.mkv"
You can also use a special "scan" mode of HandBrake to find any embedded forced subtitle track that's in the same language as the main audio track:
transcode-video --burn-subtitle scan "/path/to/Movie.mkv"
Be aware that using this special "scan" mode does not always work. Sometimes it won't find any track or, worse, it will find the wrong track. And you won't know whether it worked until the transcoding is complete.
Burning subtitles into the output video works best for "forced" rather than optional subtitles. But it's still a much better idea than adding subtitle tracks in their original format to the output file.
Blu-ray Disc and DVD subtitles are bitmap formats. They're not text. They're large, unwieldy and may not appear correctly if you crop your video. Blu-ray Disc-format subtitles aren't even allowed in MP4 output. And DVD-format subtitles, while allowed, often won't display at all in many MP4 players.
However, you can leverage programs like SUBtools or Subtitle Edit to extract Blu-ray Disc and DVD subtitles and convert them into text format. Be aware that while both of these programs can perform automatic character recognition of the subtitle bitmaps, you'll still need to edit the output text by hand. Even the best automatic character recognition is still wrong far too often.
You can also find text-based subtitles for your movies and TV shows at sites like OpenSubtitles, where someone else has already done the tedious work of conversion and editing.
If and when you do have a subtitle in text format, specifically SubRip .srt
format, you can easily add it to your output video from an external file:
transcode-video --add-srt "/path/to/Subtitle.srt" "/path/to/Movie.mkv"
Unlike HandBrakeCLI
, external subtitle file names are allowed to contain commas.
The command to find the video cropping bounds is as simple as:
detect-crop "/path/to/Movie.mkv"
Which prints out something like this:
mpv --no-audio --vf lavfi=[drawbox=0:132:1920:816:invert:1] '/path/to/Movie.mkv'
mpv --no-audio --vf crop=1920:816:0:132 '/path/to/Movie.mkv'
transcode-video --crop 132:132:0:0 '/path/to/Movie.mkv'
Just copy and paste the sample commands to preview or transcode.
Please note that path names within the sample commands are not escaped properly when using cmd.exe
or PowerShell on Windows. If you have Git for Windows or another Unix-like environment installed, you can use the Bash shell (usually named bash.exe
) to work around this issue.
If HandBrake and FFmpeg disagree about the cropping values, then detect-crop
prints out something like this:
Results differ...
# From HandBrakeCLI:
mpv --no-audio --vf lavfi=[drawbox=0:132:1920:816:invert:1] '/path/to/Movie.mkv'
mpv --no-audio --vf crop=1920:816:0:132 '/path/to/Movie.mkv'
transcode-video --crop 132:132:0:0 '/path/to/Movie.mkv'
# From ffmpeg:
mpv --no-audio --vf lavfi=[drawbox=0:130:1920:820:invert:1] '/path/to/Movie.mkv'
mpv --no-audio --vf crop=1920:820:0:130 '/path/to/Movie.mkv'
transcode-video --crop 130:130:0:0 '/path/to/Movie.mkv'
You'll then need to preview both and decide which to use.
When input is a disc image directory instead of a single file, the detect-crop
tool doesn't use FFmpeg, nor does it print out commands to preview the crop.
The convert-video
tool repackages video files, converting them from Matroska to MP4 format or from MP4 to Matroksa format without transcoding the video. It's as simple as:
convert-video "Movie.mkv"
Which creates this MP4 file in the current working directory:
Movie.mp4
Or...
convert-video "Movie.mp4"
Which creates this Matroska file in the current working directory:
Movie.mkv
If necessary, the convert-video
tool may transcode audio tracks to AAC or Dolby Digital AC-3 format when converting to MP4 format.
Chapter markers, metadata such as track titles and most subtitles are converted. However, be aware that any Blu-ray Disc-format subtitles are ignored.
The query-handbrake-log
tool reports information from HandBrake-generated .log
files. While it can certainly work with a single .log
file, it really shines with multiple files.
There are four types of information that query-handbrake-log
can report on:
-
time
The time spent during transcoding, sorted from short to long. This even works for two-pass transcodings. -
speed
The speed of transcoding in frames per second, sorted from fast to slow. Since most video is23.976
FPS, you can easily see trends when you're faster or slower than real time. -
bitrate
The final video bitrate of the transcoded output, sorted from low to high. Very useful since most media query tools only provide approximate bitrates for Matroska files, if at all. -
ratefactor
Technically this is the average P-frame quantizer for transcoding, sorted from low to high. But you should consider it a relative quality assessment by the x264 video encoder.
One of these information types is required as an argument:
query-handbrake-log time "/path/to/Logs directory/"
Which prints out something like this, time spent transcoding followed by video file name:
01:20:25 Movie.mkv
01:45:10 Another Movie.mkv
02:15:35 Yet Another Movie.mkv
I have four rules when preparing my own media for transcoding:
- Use MakeMKV to rip Blu-ray Discs and DVDs.
- Rip each selected video as a single Matroska format
.mkv
file. - Look for forced subtitles and isolate them in their own track.
- Convert lossless audio tracks to FLAC format.
-
It runs on most desktop computer platforms like macOS, Windows and Linux. There's even a free version available to try before you buy.
-
It was designed to decrypt and extract a video track, usually the main feature of a disc and convert it into a single Matroska format
.mkv
file. And it does this really, really well. -
It can also make an unencrypted backup of your entire Blu-ray or DVD to a disc image directory.
-
It's not pretty and it's not particularly easy to use. But once you figure out how it works, you can rip your video exactly the way you want.
-
Many automatic behaviors and other features in both
transcode-video
anddetect-crop
are not available when input is a disc image directory. This is because that format limits the ability ofHandBrakeCLI
andffmpeg
to detect or manipulate certain information about the video. -
Both forced subtitle extraction and lossless audio conversion, detailed below, are not possible when input is a disc image directory.
-
Remember "The Hunt for Red October (1990)" when Sean Connery and Sam Neill are speaking actual Russian at the beginning of the movie instead of just using cheesy accents like they did the rest of the time? The Blu-ray Disc version provides English subtitles just for those few scenes. They're "forced" on screen for you. Which is actually very convenient.
-
Forced subtitles are often embedded within a full subtitle track. And a special flag is set on the portion of that track which is supposed to be forced. MakeMKV can recognize that flag when it converts the video into a single
.mkv
file. It can even extract just the forced portion of that subtitle into a another separate subtitle track. And it can set a different "forced" flag in the output.mkv
file on that separate track so other software can tell what it's for. -
Not all discs with forced subtitles have those subtitles embedded within other tracks. Sometimes they really are separate. But enough discs are designed with the embedded technique that you should avoid using a disc image directory as input for transcoding.
-
DTS-HD Master Audio is the most popular high definition, lossless audio format. It's used on more than 80% of all Blu-ray Discs.
-
Currently, HandBrake can't decode the lossless portion of a DTS-HD audio track. It's only able to extract the non-HD, lossy core which is in DTS format.
-
But MakeMKV can decode DTS-HD and convert it into FLAC format which can then be decoded by HandBrake and most other software. Once again, MakeMKV can only do this when it converts the video into a single
.mkv
file.
The --preset
option in transcode-video
controls the x264 video encoder, not the other preset system built into HandBrake. It takes a preset name as its single argument:
transcode-video --preset slow "/path/to/Movie.mkv"
The x264 preset names (mostly) reflect their relative speed compared to the default, medium
.
Presets faster than medium
trade precision and compression efficiency for more speed. You may notice quality loss problems when using these presets, especially as speed increases.
However, you can increase encoding speed by 70-80% with no easily perceptible loss in video quality by using the --quick
option instead:
transcode-video --quick "/path/to/Movie.mkv"
Presets slower than medium
trade encoding speed for more precision and compression efficiency. Any quality improvement using these presets may not be perceptible for most input.
A faster and more perceptible way to improve quality is to simply raise the target video bitrate 50% by using the --target big
option and argument macro:
transcode-video --target big "/path/to/Movie.mkv"
Use the default settings whenever possible.
Use the --mp4
or --m4v
options if your target player can't handle Matroska format.
Use the --quick
option if you're in a hurry.
Use detect-crop
before transcoding to manually review and apply the best crop values.
Don't add audio tracks in their original format that aren't AAC or Dolby Digital AC-3.
Don't add subtitles in their original Blu-ray Disc or DVD format.
Save your .log
files so you can mine the data later.
Although the transcode-video
tool can accept multiple inputs, batch processing is still best handled by a separate script because options can be changed for each input.
A batch.sh
script can simply be a list of commands:
#!/usr/bin/env bash
transcode-video --crop 132:132:0:0 "/path/to/Movie.mkv"
transcode-video "/path/to/Another Movie.mkv"
transcode-video --crop 0:0:240:240 "/path/to/Yet Another Movie.mkv"
But a better solution is to write the script once and supply the list of movies and their crop values separately:
#!/usr/bin/env bash
readonly work="$(cd "$(dirname "$0")" && pwd)"
readonly queue="$work/queue.txt"
readonly crops="$work/Crops"
input="$(sed -n 1p "$queue")"
while [ "$input" ]; do
title_name="$(basename "$input" | sed 's/\.[^.]*$//')"
crop_file="$crops/${title_name}.txt"
if [ -f "$crop_file" ]; then
crop_option="--crop $(cat "$crop_file")"
else
crop_option=''
fi
sed -i '' 1d "$queue" || exit 1
transcode-video $crop_option "$input"
input="$(sed -n 1p "$queue")"
done
This requires a work
directory on disk with three items, one of which is a directory itself:
batch.sh
Crops/
Movie.txt
Yet Another Movie.txt
queue.txt
The contents of Crops/Movie.txt
is simply the crop value for /path/to/Movie.mkv
:
132:132:0:0
And the contents of queue.txt
is just the list of movies, full paths without quotes, delimited by carriage returns:
/path/to/Movie.mkv
/path/to/Another Movie.mkv
/path/to/Yet Another Movie.mkv
Notice that there's no crop file for /path/to/Another Movie.mkv
. This is because it doesn't require cropping.
For other options that won't change from input to input, e.g. --mp4
, simply augment the line in the script calling transcode-video
:
transcode-video --mp4 $crop_option "$input"
The transcoding process is started by executing the script:
./batch.sh
The path is first deleted from the queue.txt
file and then passed as an argument to the transcode-video.
tool. To pause after transcode-video
returns, simply insert a blank line at the top of the queue.txt
file.
These examples are written in Bash and only supply crop values. But almost any scripting language can be used and any option can be changed on a per input basis. Nick Wronski has written a batch-processing wrapper for transcode-video
in Node.js, available here:
https://github.com/nwronski/batch-transcode-video
What is a ratecontrol system? It's how a video encoder decides on the amount of bits to allocate for a specific frame.
My transcode-video
tool has four different ratecontrol systems which manipulate x264 and three which manipulate x265, both software-based video encoders built into HandBrakeCLI
.
Additionally, transcode-video
allows access to hardware-based video encoders which have their own ratecontrol systems.
All of these ratecontrol systems, mine and those built into hardware, target a specific video bitrate.
The target video bitrate for all of these systems is automatically determined by transcode-video
using the resolution of the input. For example, the default target for 1080p output is 6000
Kbps, which is about one-fifth the video bitrate found on a typical Blu-ray Disc.
My simple and special ratecontrol systems attempt to produce the highest possible video quality near a target bitrate using a constant ratefactor (CRF) to specify quality. A CRF is represented by a number from 0
to 51
with lower values indicating higher quality. The special value of 0
is for lossless output.
Unfortunately, the output bitrate is extremely unpredictable when using the default CRF-based system in x264 or x265. Typically, people pick a middle-level CRF value as their quality target and just hope for the best. This is what most of the presets built into HandBrake do, choosing a CRF of 20
or 22
.
But such a strategy can result in output larger than its input or, worse, output too low in quality to be mistaken for that input.
So I set the target CRF value to 1
, the best possible "lossy" quality. Normally this would produce a huge output bitrate but I also reduce the encoder's maximum bitrate to my target, e.g. 6000
Kbps for 1080p output, by manipulating an option called vbv-maxrate
.
With this approach, the encoder chooses the lowest CRF value, and therefore the highest quality, which fits below that maximum bitrate ceiling, even if that's usually not a a CRF value of 1
.
And this fully describes the behavior of transcode-video
when using the --simple
option.
However, my special, or default, ratecontrol system also sets a maximum CRF (crf-max
) value of 25
, raising the minimum quality. This allows vbv-maxrate
to become a "soft" ceiling so that the output bitrate can exceed the target when necessary to maintain that quality.
Unfortunately, this internal tug of war can cause the encoder to sometimes generate a few very low quality frames.
As part of the encoding process, a quantizer value (QP) is calculated for each macroblock within a frame of video. A QP is represented by a number from 0
to 69
with lower values indicating higher quality.
So I set a maximum quantizer (qpmax
) value of 34
, again raising the minimum quality. The occasional bad frame is still there, but it's no longer noticeable because it's now of sufficient quality to blend in with the others.
My average bitrate (ABR) ratecontrol system, selected via the --abr
option, is based on the ABR algorithm already within x264 and x265 which targets a specific bitrate.
But I constrain the maximum bitrate (vbv-maxrate
) to only 1.5 times that of the target, i.e. to just 9000
Kbps when the target bitrate is 6000
Kbps for 1080p output.
It seems counterintuitive, but constraining the maximum bitrate prevents too much bitrate being wasted on complex or difficult to encode passages at the expense of quality elsewhere. This is because with an average bitrate algorithm, when the peaks get too high then the valleys get too low.
And this manipulation is exactly the same strategy used by streaming services such as Netflix.
My average variable bitrate (AVBR) ratecontrol system, selected via the --avbr
option, is also based on the ABR algorithm already within x264 which targets a specific bitrate.
But the maximum bitrate is not constrained like my ABR system.
Instead, the tolerance of missing the average bitrate is raised to the maximum amount, disabling overflow detection completely. This makes the ABR algorithm behave much more like a CRF-based encode, so final bitrates can be 10-15% higher or lower than the target.
And to prevent bitrates from getting too low, the Macroblock-tree ratecontrol system built into x264 is disabled. While this does lower compression efficiency somewhat, it significantly reduces blockiness, color banding and other artifacts.
Unfortunately, these modifications to implement AVBR are not possible when using x265.
No, these warnings are simply a side effect of my special ratecontrol system. The x264 video encoder within HandBrake is just being overly chatty. Ignore it. Nothing is wrong with the output from transcode-video
.
My command line tools have the same behavior and scriptable interface across multiple platforms. Developing a GUI application with those requirements is not an investment that I want to make.
Plus, I wouldn't use a GUI for these tasks. And it's a bad idea to develop software that you won't use yourself.
HandBrake has supported High Efficiency Video Coding or H.265 ever since it included the x265 video encoder.
You can try HEVC transcoding now using the --encoder
option:
transcode-video --encoder x265 "/path/to/Movie.mkv"
While speed continues to improve, x265 is still considerably slower than the default x264 encoder.
Hardware-based encoders, like those in Intel Quick Sync Video, are often considerably faster than x264 or x265. Some are available in recent versions of HandBrake.
Check the Video Options
section from the output of HandBrakeCLI --help
to find out if your platform has any of these video encoders available:
Platform | H.264 encoder | HEVC encoder |
---|---|---|
Intel Quick Sync Video | qsv_h264 |
qsv_h265 and qsv_h265_10bit |
AMD Video Coding Engine | vce_h264 |
vce_h265 |
Nvidia NVENC | nvenc_h264 |
nvenc_h265 |
Apple VideoToolbox | vt_h264 |
vt_h265 |
You can try hardware-based transcoding now using the --encoder
option. On macOS, select the Apple VideoToolbox H.264 encoder this way:
transcode-video --encoder vt_h264 "/path/to/Movie.mkv"
You can also use the --target
option with these encoders.
I compare by visual inspection. Always with the video in motion, never frame by frame. It's tedious but after years of practice I know which portions of which videos are problematic and difficult to transcode. And I look at those first.
In addition, I use the query-handbrake-log
tool to report on ratefactor
, the average P-frame quantizer, to get a relative quality assessment from the x264 encoder.
What I don't use are peak signal-to-noise ratios or a structural similarity index in an attempt to objectively compare quality. Although both metrics are available to the x264 encoder, enabling either of them ironically disables key psychovisual optimizations that improve quality.
I never use the --crop detect
function of transcode-video
because I don't trust either HandBrakeCLI
or ffmpeg
to always get it right without supervision. Instead, I use the separate detect-crop
tool before transcoding to manually review and apply the best crop values.
I let transcode-video
automatically burn any forced subtitles into the output video track when the "forced" flag is enabled in the original.
I never include separate subtitle tracks, but I do add audio commentary tracks.
For a few problematic videos, I have to apply options like --force-rate 23.976 --filter detelecine
. But that's rare.
All of the notes for each release are now available in the "CHANGELOG" document.
The best way to send feedback is mentioning me, @[email protected], on Mastodon. You can also file bugs or ask questions in a longer form by creating a new issue on GitHub. I always try to respond quickly but sometimes it may take as long as 24 hours.
A big "thank you" to the developers of HandBrake and the other tools used by this package. So much wow.
Thanks to Rene Ritchie for letting me continue to babble on about transcoding in his podcasts.
Thanks to Joyce Melton, my sister, for help editing this "README" document.
Many thanks to Jordan Breeding and numerous others online for their positive feedback, bug reports and useful suggestions.
Video Transcoding is copyright Lisa Melton and available under a MIT license.