I think a lot of people have been struggling with mass converting of videos for the ps3…
I’ve been searching for a way to mass convert my videos (mostly podcasts) to play on my Sony PlayStation 3
If your ffmpeg doesn’t support x264 (video) or aac (audio) encoding, like all Ubuntu Linux distributions, then you will have to recompile ffmpeg. Don’t worry, it is easier then you think!
FakeOutdoorsman over on the Ubuntu Forums posted the method to build ffmpeg from scratch:
Choose your Ubuntu
0.The instructions on the page are for Ubuntu Jaunty Jackalope 9.04 and Ubuntu Intrepid Ibex 8.10. Separate instructions are also available for other releases:
* Install FFmpeg and x264 on Ubuntu Hardy Heron 8.04 LTS
* Install FFmpeg and x264 on Ubuntu Dapper Drake 6.06 LTSGetting the Dependencies
1. Uninstall x264, libx264-dev, and ffmpeg if they are already installed. Open a terminal and run the following:
sudo apt-get purge ffmpeg x264 libx264-dev2. Next, get all of the packages you will need to install FFmpeg and x264 (you may need to enable the universe and multiverse repositories):
Code:
sudo apt-get update
sudo apt-get install build-essential subversion git-core checkinstall yasm texi2html libfaac-dev libfaad-dev libmp3lame-dev libsdl1.2-dev libtheora-dev libx11-dev libxvidcore4-dev zlib1g-devInstall x264
3. Get the most current source files from the official x264 git repository, compile, and install. You can run “./configure –help” to see what features you can enable/disable. If you are behind a firewall or unable to use git, then daily source tarballs are also available.cd
git clone git://git.videolan.org/x264.git
cd x264
./configure
make
sudo checkinstall –fstrans=no –install=yes –pkgname=x264 –pkgversion "1:0.svn`date +%Y%m%d`-0.0ubuntu1" –defaultInstall FFmpeg
4. Get the most current source files from the official FFmpeg svn, compile, and install. Run “./configure –help” to see what features you can enable/disable. If you are behind a firewall or unable to use subversion, then nightly FFmpeg snapshots are also available.cd
svn checkout svn://svn.ffmpeg.org/ffmpeg/trunk ffmpeg
cd ffmpeg
./configure –enable-gpl –enable-nonfree –enable-pthreads –enable-libfaac –enable-libfaad –enable-libmp3lame –enable-libtheora –enable-libx264 –enable-libxvid –enable-x11grab
make
sudo checkinstall –fstrans=no –install=yes –pkgname=ffmpeg –pkgversion "3:0.svn`date +%Y%m%d`-12ubuntu3" –defaultThat’s it for installation. You can keep the ~/x264 and ~/ffmpeg directories if you later want to update the source files to a new revision. See “Updating Your Installation” below for more details.
Now that we have a working ffmpeg, we can go on to the converting the video files (convert_videos.sh):
function print_usage {
echo "============================================================================================="
echo " convert_videos.sh [file|directory] [output directory] {bb|bb_storm|ps3} {file prefix}"
echo "============================================================================================="
}
function verify_file {
echo j
}
function process_file {
ORIG_FILE="$1"
DEST_DIR="$2"
if [[ -z ${BLACKBERRY} ]]; then
DEST_FILE=${DEST_DIR}/${FILE_PREFIX}$( basename "${ORIG_FILE}" | perl -ne ‘s/\.(?:[a-z,A-Z,0-9]{3,4})$/\.mp4/; print $_’ )
else
DEST_FILE=${DEST_DIR}/${FILE_PREFIX}$( basename "${ORIG_FILE}" | perl -ne ‘s/\.(?:[a-z,A-Z,0-9]{3,4})$/_bb\.mp4/; print $_’ )
fi
if [[ -f "${DEST_FILE}" ]]; then
echo " We already processed \"${ORIG_FILE}\" … skipping"
else
VID_INFO_FPS=$( mplayer -identify -nosound -vo null -nocache -really-quiet -frames 1 "${ORIG_FILE}" 2>/dev/null | grep FPS )
VID_INFO_FPS=${VID_INFO_FPS#*=}
VID_INFO_WIDTH=$( mplayer -identify -nosound -vo null -nocache -really-quiet -frames 1 "${ORIG_FILE}" 2>/dev/null | grep WIDTH )
VID_INFO_WIDTH=${VID_INFO_WIDTH##*=}
VID_INFO_HEIGHT=$( mplayer -identify -nosound -vo null -nocache -really-quiet -frames 1 "${ORIG_FILE}" 2>/dev/null | grep HEIGHT )
VID_INFO_HEIGHT=${VID_INFO_HEIGHT##*=}
VID_INFO_ASPECT=$( mplayer -identify -nosound -vo null -nocache -really-quiet -frames 1 "${ORIG_FILE}" 2>/dev/null | grep ASPECT )
VID_INFO_ASPECT=${VID_INFO_ASPECT##*=}
AUD_INFO_FORMAT=$( mplayer -identify -ao null -vo null -nocache -really-quiet -frames 1 "${ORIG_FILE}" 2>/dev/null | grep AUDIO_FORMAT )
AUD_INFO_FORMAT=${AUD_INFO_FORMAT##*=}
AUD_INFO_CHANNELS=$( mplayer -identify -ao null -vo null -nocache -really-quiet -frames 1 "${ORIG_FILE}" 2>/dev/null | grep AUDIO_NCH )
AUD_INFO_CHANNELS=${AUD_INFO_CHANNELS##*=}
AUD_INFO_BITRATE=$( mplayer -identify -ao null -vo null -nocache -really-quiet -frames 1 "${ORIG_FILE}" 2>/dev/null | grep ID_AUDIO_BITRATE )
AUD_INFO_BITRATE=${AUD_INFO_BITRATE##*=}
if (( ${AUD_INFO_BITRATE} < 163840 )); then
AUD_INFO_BITRATE=160
else
AUD_INFO_BITRATE=$( expr ${AUD_INFO_BITRATE} / 1024 )
fi
###############
# We need to make the frame rate an acceptible amoun
###############
case ${VID_INFO_FPS} in
60.000)
# HD
VID_INFO_FPS=59.94
;;
30.000)
# NTSC
VID_INFO_FPS=29.97
;;
24.000)
# PAL
VID_INFO_FPS=23.97
;;
esac
###############
# We need to make the video resolution a multiple of 16 for it to be properly compressed
###############
if (( ${VID_INFO_HEIGHT} % 16 )); then
VID_BORDER_VERTICAL=$( expr 16 – ${VID_INFO_HEIGHT} % 16 )
VID_BORDER_VERTICAL=$( expr ${VID_BORDER_VERTICAL} / 2 )
if (( ${VID_BORDER_VERTICAL} % 2 )); then
let VID_BORDER_VERTICAL_TOP+=$( expr ${VID_BORDER_VERTICAL} – 1 )
let VID_BORDER_VERTICAL_BOTTOM+=$( expr ${VID_BORDER_VERTICAL} + 1 )
else
VID_BORDER_VERTICAL_TOP=${VID_BORDER_VERTICAL}
VID_BORDER_VERTICAL_BOTTOM=${VID_BORDER_VERTICAL}
fi
else
VID_BORDER_VERTICAL_TOP=0
VID_BORDER_VERTICAL_BOTTOM=0
fi
if (( ${VID_INFO_WIDTH} % 16 )); then
VID_BORDER_HORIZONTAL=$( 16 – ${VID_INFO_WIDTH} % 16 )
VID_BORDER_HORIZONTAL=$( ${VID_INFO_WIDTH} / 2 )
if (( ${VID_BORDER_HORIZONTAL} % 2 )); then
let VID_BORDER_HORIZONTAL_RIGHT+=$( expr ${VID_BORDER_HORIZONTAL} + 1 )
let VID_BORDER_HORIZONTAL_LEFT+=$( expr ${VID_BORDER_HORIZONTAL} – 1 )
else
VID_BORDER_HORIZONTAL_RIGHT=${VID_BORDER_HORIZONTAL}
VID_BORDER_HORIZONTAL_LEFT=${VID_BORDER_HORIZONTAL}
fi
else
VID_BORDER_HORIZONTAL_LEFT=0
VID_BORDER_HORIZONTAL_RIGHT=0
fi
if [[ -z ${VID_INFO_ASPECT} ]] || [[ ${VID_INFO_ASPECT} == "0.0000" ]]; then
VID_INFO_ASPECT="16:9"
fi
if [[ -z ${AUD_INFO_CHANNELS} ]]; then
AUD_INFO_CHANNELS=2
fi
##############
# If we’re not converting for the blackberry, perform a normal conversion
##############
if [[ -z ${BLACKBERRY} ]]; then
VID_INFO_RESOLUTION="${VID_INFO_WIDTH}x${VID_INFO_HEIGHT}"
convert_file_first_pass
if [[ ! -z ${FIRST_PASS_BITRATE} ]]; then
BITRATE=${FIRST_PASS_BITRATE}
fi
else
############
# if we have a blackberry, set the resolution appropriately
############
case ${BB_TYPE} in
STORM)
VID_INFO_RESOLUTION="480×360"
;;
*)
VID_INFO_RESOLUTION="240×180"
;;
esac
fi
convert_file_second_pass
fi
}
function process_directory {
ORIG_VIDEO_DIR="$1"
DEST_VIDEO_DIR="$2"
if [[ -d "${ORIG_VIDEO_DIR}" ]] && [[ -d "${DEST_VIDEO_DIR}" ]]; then
IFS=$‘\n’
for ORIG_VIDEO_FILE in $( find "${ORIG_VIDEO_DIR}" -depth -maxdepth 1 -type f -readable -iregex ‘.*\.\(3gp\|3g2\|avi\|divx\|flv\|m4v\|mj2\|mov\|mp1\|mp2\|mp4\|mpe\|mpeg\|mpeg4\|mpg\|mkv\|mv\|ogm\|rm\|rmvb\|rv\|qt\|wmv\)’ ); do
process_file "${ORIG_VIDEO_FILE}" "${DEST_VIDEO_DIR}"
done
fi
}
function convert_file_first_pass {
echo "—————————————————-"
echo " First pass: ${ORIG_FILE}"
echo "ffmpeg -i \"${ORIG_FILE}\" -an -pass 1 \
-vcodec libx264 -flags +loop -cmp +chroma -partitions +parti4x4+partp8x8+partb8x8 \
-me_method epzs -subq 1 -trellis 0 -refs 1 -bf 3 -b_strategy 1 -level 31 -coder 1 -me_range 16 -g 250 -keyint_min 25 \
-sc_threshold 40 -i_qfactor 0.71 -bt 200kb -rc_eq ‘blurCplx^(1-qComp)’ -qcomp 0.6 -qmin 1 -qmax 51 -qdiff 4 \
-padtop ${VID_BORDER_VERTICAL_TOP} -padbottom ${VID_BORDER_VERTICAL_BOTTOM} \
-padleft ${VID_BORDER_HORIZONTAL_LEFT} -padright ${VID_BORDER_HORIZONTAL_RIGHT} \
-threads 2 \
-s ${VID_INFO_RESOLUTION} -aspect ${VID_INFO_ASPECT} -f rawvideo -y /dev/null"
ffmpeg -i "${ORIG_FILE}" -an -pass 1 \
-vcodec libx264 -flags +loop -cmp +chroma -partitions +parti4x4+partp8x8+partb8x8 \
-me_method epzs -subq 1 -trellis 0 -refs 1 -bf 3 -b_strategy 1 -level 31 -coder 1 -me_range 16 -g 250 -keyint_min 250 \
-sc_threshold 40 -i_qfactor 0.71 -bt 200kb -rc_eq ‘blurCplx^(1-qComp)’ -qcomp 0.6 -qmin 1 -qmax 51 -qdiff 4 \
-padtop ${VID_BORDER_VERTICAL_TOP} -padbottom ${VID_BORDER_VERTICAL_BOTTOM} \
-padleft ${VID_BORDER_HORIZONTAL_LEFT} -padright ${VID_BORDER_HORIZONTAL_RIGHT} \
-threads 2 \
-s ${VID_INFO_RESOLUTION} -aspect ${VID_INFO_ASPECT} -f rawvideo -y /dev/null 2>&1 | tee pass2.out
BITRATE=$( grep -e "\[libx264.*kb\/s" pass2.out )
BITRATE=${BITRATE##*:}
BITRATE=${BITRATE/.*}
echo "average first pass bitrate: ${BITRATE}"
if [[ -n ${BITRATE} ]]; then
if (( ${BITRATE} % 16 )); then
let BITRATE+=$( expr ${BITRATE} % 16 )
fi
else
if (( ${VID_INFO_WIDTH} > 1024 )); then
BITRATE=15360
elif (( ${VID_INFO_WIDTH} > 900 )); then
BITRATE=10240
elif (( ${VID_INFO_WIDTH} > 719 )); then
BITRATE=8192
elif (( ${VID_INFO_WIDTH} > 620 )); then
BITRATE=2560
else
BITRATE=512
fi
fi
MAX_BITRATE=$( expr ${BITRATE} + 512 )
}
function convert_file_second_pass {
echo "—————————————————-"
echo " Second pass: ${ORIG_FILE}"
if [[ -n ${BLACKBERRY} ]]; then
echo "ffmpeg -i \"${ORIG_FILE}\" -vcodec mpeg4 -vtag XVID -s ${VID_INFO_RESOLUTION} \
-qscale 10 -ab 48k -ar 22050 -ac 2 -acodec libmp3lame -deinterlace \
-b 512kb -qmin 1 -qmax 51 \
-padtop ${VID_BORDER_VERTICAL_TOP} -padbottom ${VID_BORDER_VERTICAL_BOTTOM} \
-padleft ${VID_BORDER_HORIZONTAL_LEFT} -padright ${VID_BORDER_HORIZONTAL_RIGHT} \
-aspect ${VID_INFO_ASPECT} \"${DEST_FILE}\""
ffmpeg -i "${ORIG_FILE}" -vcodec mpeg4 -vtag XVID -s ${VID_INFO_RESOLUTION} \
-ab 48k -ar 22050 -ac 2 -acodec libmp3lame -deinterlace \
-b 512kb -qmin 1 -qmax 51 \
-padtop ${VID_BORDER_VERTICAL_TOP} -padbottom ${VID_BORDER_VERTICAL_BOTTOM} \
-padleft ${VID_BORDER_HORIZONTAL_LEFT} -padright ${VID_BORDER_HORIZONTAL_RIGHT} \
-aspect ${VID_INFO_ASPECT} "${DEST_FILE}"
else
echo "ffmpeg -i \"${ORIG_FILE}\" -acodec libfaac -ar 44100 -ac ${AUD_INFO_CHANNELS} \
-async 1 -f mp4 -pass 2 -vcodec libx264 -vtag XVID -flags +loop+ilme -cmp +chroma \
-partitions +parti4x4+partp8x8+partb8x8 -flags2 +mixed_refs -me_method umh -subq 5 \
-trellis 1 -refs 5 -bf 3 -b_strategy 1 -level 31 -coder 1 -me_range 16 \
-g 250 -keyint_min 250 -sc_threshold 40 -i_qfactor 0.71 -bt 200kb \
-rc_eq ‘blurCplx^(1-qComp)’ -qcomp 0.6 -qmin 3 -qmax 15 -qdiff 4 \
-s ${VID_INFO_RESOLUTION} -aspect ${VID_INFO_ASPECT} \
-padtop ${VID_BORDER_VERTICAL_TOP} -padbottom ${VID_BORDER_VERTICAL_BOTTOM} \
-padleft ${VID_BORDER_HORIZONTAL_LEFT} -padright ${VID_BORDER_HORIZONTAL_RIGHT} \
-b ${BITRATE}kb -maxrate ${MAX_BITRATE}kb \
-bufsize ${MAX_BITRATE}kb -ab ${AUD_INFO_BITRATE}kb \
-threads 2 \
-r ${VID_INFO_FPS} \"${DEST_FILE}\""
ffmpeg -i "${ORIG_FILE}" -acodec libfaac -ar 44100 -ac ${AUD_INFO_CHANNELS} \
-async 1 -f mp4 -pass 2 -vcodec libx264 -vtag XVID -flags +loop+ilme -cmp +chroma \
-partitions +parti4x4+partp8x8+partb8x8 -flags2 +mixed_refs -me_method umh -subq 5 \
-trellis 1 -refs 5 -bf 3 -b_strategy 1 -level 31 -coder 1 -me_range 16 \
-g 250 -keyint_min 250 -sc_threshold 40 -i_qfactor 0.71 -bt 200kb \
-rc_eq ‘blurCplx^(1-qComp)’ -qcomp 0.6 -qmin 1 -qmax 51 -qdiff 4 \
-s ${VID_INFO_RESOLUTION} -aspect ${VID_INFO_ASPECT} \
-padtop ${VID_BORDER_VERTICAL_TOP} -padbottom ${VID_BORDER_VERTICAL_BOTTOM} \
-padleft ${VID_BORDER_HORIZONTAL_LEFT} -padright ${VID_BORDER_HORIZONTAL_RIGHT} \
-b ${BITRATE}kb -maxrate ${MAX_BITRATE}kb \
-bufsize ${MAX_BITRATE}kb -ab ${AUD_INFO_BITRATE}kb \
-threads 2 \
-r ${VID_INFO_FPS} "${DEST_FILE}"
fi
}
if [[ -n "$1" ]] && [[ -n "$2" ]]; then
if [[ -n "$3" ]]; then
case "$3" in
bb)
BLACKBERRY=1
BB_TYPE="norm"
;;
bb_storm)
BLACKBERRY=1
BB_TYPE="STORM"
;;
ps3)
;;
*)
;;
esac
fi
if [[ -n "$4" ]]; then
FILE_PREFIX="${4}_"
else
FILE_PREFIX=""
fi
if [[ -f "$1" ]]; then
process_file "$1" "$2"
elif [[ -d "$1" ]]; then
process_directory "$1" "$2"
fi
else
print_usage
exit
fi
The ffmpeg parameters are based off of Using ffmpeg to transcode video for the PS3. Hope his works for you too.
