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convmlv
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Revamped UI. ffmpeg now streams encoding data from dcraw directly. WB speedup. Just kinda better!

modularize
Sofus Albert Høgsbro Rose 2016-03-13 21:33:53 -04:00
parent 1a91f8027a
commit 54e40b3c78
1 changed files with 317 additions and 198 deletions
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515
convmlv.sh 100755 → 100644
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@ -1,36 +1,47 @@
#!/bin/bash
#BASIC CONSTANTS
DEPS="imagemagick dcraw ffmpeg python3 pip3 exiftool xxd" #Dependency package names (Debian). List with -K option.
PIP_DEPS="numpy Pillow tifffile" #Technically, you don't need Pillow. I'm not really sure :).
VERSION="1.5.0" #Version string.
PYTHON="python3"
#NON-STANDARD FILE LOCATIONS
MLV_DUMP="./mlv_dump" #Path to mlv_dump location.
RAW_DUMP="./raw2dng" #Path to raw2dng location.
MLV_BP="./mlv2badpixels.sh"
PYTHON="python3"
PYTHON_BAL="./balance.py"
BAL=""
DEPS="imagemagick dcraw ffmpeg python3 pip3" #Dependency package names (Debian). List with -K option.
PIP_DEPS="numpy Pillow tifffile" #Technically, you don't need Pillow. I'm not really sure :).
VERSION="1.4.0" #Version string.
BAL="${PYTHON} ${PYTHON_BAL}"
#MODDABLE CONSTANTS
OUTDIR="$(pwd)"
MOVIE=false
FPS=24
IMAGES=false
isJPG=true
isH264=true
KEEP_DNGS=false
#DCraw
HIGHLIGHT_MODE="0"
PROXY_SCALE="50%"
DEMO_MODE="1"
HQ_MOV=false
LQ_PROXY=false
DELETE_IMGS=false
GAMMA="1 1"
DEPTH="-4"
WHITE=""
LUT=""
isLUT=false
NOISE_REDUC=""
BADPIXELS=""
isBP=false
GEN_WHITE=false
isMLV=true
#White Balance
WHITE=""
GEN_WHITE=true
CAMERA_WB=false
WHITE_SPD=15
#LUT
LUT=""
isLUT=false
help () {
@ -46,82 +57,94 @@ help () {
echo -e " -dcraw: For RAW development."
echo -e " -ffmpeg: For video creation."
echo -e " -ImageMagick: Used for making proxy sequence."
echo -e " -Python 3 + libs: Used for auto white balance.\n"
echo -e " -Python 3 + libs: Used for auto white balance."
echo -e " -exiftool + xxd: Used in mlv2badpixels.sh.\n"
echo -e "VERSION: ${VERSION}\n"
echo -e "OPTIONS:"
echo -e "OPTIONS, BASIC:"
echo -e " -v version - Print out version string."
echo -e " -o<path> OUTDIR - The path in which files will be placed (no space btwn -o and path)."
echo -e " -M<path> MLV_DUMP - The path to mlv_dump (no space btwn -M and path). Default is './mlv_dump'."
echo -e " -R<path> RAW_DUMP - The path to raw2dng (no space btwn -M and path). Default is './raw2dng'."
echo -e " -y<path> PYTHON - The path or command used to invoke Python. Defaults to python3."
echo -e " -B<path> MLV_BP - The path to mlv2badpixels.sh (by dfort). Default is './mlv2badpixels.sh'.\n"
echo -e " -H[0:9] HIGHLIGHT_MODE - 3 to 9 does degrees of colored highlight reconstruction, 1 and 2 allow clipping. 0 is default."
echo -e " --> Use -H<number> (no space).\n"
echo -e " -B<path> MLV_BP - The path to mlv2badpixels.sh (by dfort). Default is './mlv2badpixels.sh'.\n\n"
echo -e "OPTIONS, OUTPUT:"
echo -e " -i IMAGE - Specify to create a TIFF sequence.\n" ###
echo -e " -m MOVIE - Specify to create a Prores4444 video.\n" ###
echo -e " -f FPS - Specify the FPS to create the movie at. Defaults to 24."
echo -e " -p[0:3] PROXY - Specifies the proxy mode." ###
echo -e " --> 0: No proxies. 1: H.264 proxy. 2: JPG proxy sequence. 3: Both.\n"
echo -e " -s[0%:100%] PROXY_SCALE - the size, in %, of the proxy output."
echo -e " --> Use -s<double-digit number>% (no space). 50% is default.\n"
echo -e " --> Use -s<percentage>% (no space). 50% is default.\n"
echo -e " -m HQ_MOV - Use to create a Prores 4444 file.\n"
echo -e " -p LQ_MOV - Use to create a low quality H.264 mp4 from the proxies.\n"
echo -e " -D DELETE_IMGS - Use to delete not only TMP, but also the TIF and proxy sequences."
echo -e " --> Useful if all you want are video files.\n"
echo -e " -k KEEP_DNGS - Specify if you want to keep the DNG files."
echo -e " --> Besides testing, this makes the script a glorified mlv_dump...\n\n"
echo -e "OPTIONS, RAW DEVELOPMENT:"
echo -e " -d[0:3] DEMO_MODE - DCraw demosaicing mode. Higher modes are slower. 1 is default."
echo -e " --> Use -d<mode> (no space). 0: Bilinear. 1: VNG (default). 2: PPG. 3: AHD.\n"
echo -e " -H[0:9] HIGHLIGHT_MODE - 3 to 9 does degrees of colored highlight reconstruction, 1 and 2 allow clipping."
echo -e " --> Use -H<number> (no space). 0 is default.\n"
echo -e " -b BADPIXELS - Fix focus pixels issue using dfort's script."
echo -e " --> His file can be found at https://bitbucket.org/daniel_fort/ml-focus-pixels/src."
echo -e " -n[int] NOISE_REDUC - This is the threshold of wavelet denoising - specify to use."
echo -e " --> Use -n<number>. Defaults to no denoising. 150 tends to be a good setting; 350 starts to look strange.\n"
echo -e " -g[0:4] GAMMA - This is a modal gamma curve that is applied to the image. 0 is default."
echo -e " --> Use -g<mode> (no space). 0: Linear. 1: 2.2 (Adobe RGB). 2: 1.8 (ProPhoto RGB). 3: sRGB. 4: BT.709.\n"
echo -e " -S SHALLOW - Specifying this option will create an 8-bit output instead of a 16-bit output."
echo -e " --> It'll kind of ruin the point of RAW, though....\n\n"
echo -e "OPTIONS, COLOR:"
echo -e " -w[0:3] WHITE - This is a modal white balance setting. Defaults to 0. 1 doesn't always work very well."
echo -e " --> Use -w<mode> (no space)."
echo -e " --> 0: Auto WB (Requires Python Deps). 1: Camera WB. 2: No Change.\n"
echo -e " -A[int] WHITE_SPD - This is the speed of the auto white balance, causing quality loss. Defaults to 15."
echo -e " --> For AWB, the script averages the entire sequence, skipping n frames each time. This value is n."
echo -e " -l<path> LUT - This is a path to the 3D LUT. Specify the path to the LUT to use it."
echo -e " --> Compatibility determined by ffmpeg (.cube is supported)."
echo -e " --> Path to LUT (no space between -l and path). Without specifying -l, no LUT will be applied.\n\n"
echo -e "OPTIONS, DEPENDENCIES:"
echo -e " -K Debian Package Deps - Lists dependecies. Works with apt-get on Debian; should be similar elsewhere."
echo -e " --> No operations will be done.\n"
echo -e " --> No operations will be done."
echo -e " --> Example: sudo apt-get install $ (./convmlv -K)\n"
echo -e " -Y Python Deps - Lists Python dependencies. Works with pip."
echo -e " --> No operations will be done. "
echo -e " --> Example: sudo pip3 install $ (./convmlv -Y)\n"
echo -e " -g[0:4] GAMMA - This is a modal gamma curve that is applied to the image. 0 is default."
echo -e " --> Use -g<mode> (no space). 0: Linear. 1: 2.2 (Adobe RGB). 2: 1.8 (ProPhoto RGB). 3: sRGB. 4: BT.709.\n"
echo -e " -P DEPTH - Specifying this option will create an 8-bit output instead of a 16-bit output."
echo -e " --> It'll kind of ruin the point of RAW, though....\n"
echo -e " -W[0:3] WHITE - This is a modal white balance setting. Defaults to 0. 1 doesn't always work very well."
echo -e " --> Use -W<mode> (no space)."
echo -e " --> 0: Auto WB (Requires Python Deps). 1: Camera WB (If retrievable). 2: No WB Change. 3: Custom WB (\n"
echo -e " -l<path> LUT - This is a path to the 3D LUT. Specify the path to the LUT to use it."
echo -e " --> Compatibility determined by ffmpeg (.cube is supported)."
echo -e " --> Path to LUT (no space between -l and path). Without specifying -l, no LUT will be applied.\n"
echo -e " -n[int] NOISE_REDUC - This is the threshold of wavelet denoising - specify to use."
echo -e " --> Use -n<number>. Defaults to no denoising. 150 tends to be a good setting; 350 starts to look strange.\n"
echo -e " -b BADPIXELS - Fix focus pixels issue using dfort's script."
echo -e " --> His file can be found at https://bitbucket.org/daniel_fort/ml-focus-pixels/src."
}
mkdirS() {
path=$1
mkdir -p $path >/dev/null 2>/dev/null
OUT=$?
if [[ $OUT != 0 ]]; then
if [ -d $path ]; then
while true; do
read -p "Overwrite ${path}? (y/n) " yn
read -p "Overwrite ${path}? [y/n] " yn
case $yn in
[Yy]* ) rm -rf $path; mkdir -p $path >/dev/null 2>/dev/null
;;
[Nn]* ) echo -e "\n\e[0;31m\e[1mDirectory ${path} cannot be created.\e[0m\n"; exit 0
[Nn]* ) echo -e "\n\e[0;31m\e[1mDirectory ${path} won't be created.\e[0m\n"; exit 0
;;
* ) echo -e "\e[0;31m\e[1mPlease answer yes or no.\e[0m\n"
;;
esac
done
else
mkdir -p $path >/dev/null 2>/dev/null
fi
}
@ -133,11 +156,11 @@ parseArgs() {
let ARGNUM--
fi
if [ `echo ${ARG} | cut -c2-2` = "s" ]; then
if [ `echo ${ARG} | cut -c3-5` = "00" ]; then
PROXY_SCALE="100%"
else
PROXY_SCALE=`echo ${ARG} | cut -c3-5`
fi
PROXY_SCALE=`echo ${ARG} | cut -c3-${#ARG}`
let ARGNUM--
fi
if [ `echo ${ARG} | cut -c2-2` = "f" ]; then
FPS=`echo ${ARG} | cut -c3-${#ARG}`
let ARGNUM--
fi
if [ `echo ${ARG} | cut -c2-2` = "y" ]; then
@ -145,15 +168,13 @@ parseArgs() {
BAL="${PYTHON} balance.py"
let ARGNUM--
else
BAL="${PYTHON} balance.py"
fi
if [ `echo ${ARG} | cut -c2-2` = "v" ]; then
echo -e "convmlv: v${VERSION}"
echo -e "convmlv v${VERSION}"
let ARGNUM--
fi
if [ `echo ${ARG} | cut -c2-2` = "m" ]; then
HQ_MOV=true
MOVIE=true
let ARGNUM--
fi
if [ `echo ${ARG} | cut -c2-2` = "M" ]; then
@ -165,11 +186,21 @@ parseArgs() {
let ARGNUM--
fi
if [ `echo ${ARG} | cut -c2-2` = "p" ]; then
LQ_PROXY=true
PROXY=`echo ${ARG} | cut -c3-3`
case ${mode} in
"0") isJPG=false; isH264=false
;;
"1") isJPG=false; isH264=true
;;
"2") isJPG=true; isH264=false
;;
"3") isJPG=true; isH264=true
;;
esac
let ARGNUM--
fi
if [ `echo ${ARG} | cut -c2-2` = "D" ]; then
DELETE_IMGS=true
if [ `echo ${ARG} | cut -c2-2` = "i" ]; then
IMAGES=true
let ARGNUM--
fi
if [ `echo ${ARG} | cut -c2-2` = "o" ]; then
@ -183,7 +214,7 @@ parseArgs() {
fi
if [ `echo ${ARG} | cut -c2-2` = "h" ]; then
help
let ARGNUM--
exit 0
fi
if [ `echo ${ARG} | cut -c2-2` = "d" ]; then
DEMO_MODE=`echo ${ARG} | cut -c3-3`
@ -206,36 +237,35 @@ parseArgs() {
let ARGNUM--
fi
if [ `echo ${ARG} | cut -c2-2` = "P" ]; then
if [ `echo ${ARG} | cut -c2-2` = "S" ]; then
DEPTH=""
let ARGNUM--
fi
if [ `echo ${ARG} | cut -c2-2` = "W" ]; then
if [ `echo ${ARG} | cut -c2-2` = "w" ]; then
mode=`echo ${ARG} | cut -c3-3`
case ${mode} in
"0") GEN_WHITE=true #Will generate white balance.
"0") CAMERA_WB=false; GEN_WHITE=true #Will generate white balance.
;;
"1") WHITE="-w"
"1") CAMERA_WB=true; GEN_WHITE=false;
;;
"2") WHITE="-r 1 1 1 1"
"2") WHITE="-r 1 1 1 1"; CAMERA_WB=true; GEN_WHITE=false
;;
esac
let ARGNUM--
else
GEN_WHITE=true
fi
if [ `echo ${ARG} | cut -c2-2` = "K" ]; then
echo $DEPS
exit 0
fi
if [ `echo ${ARG} | cut -c2-2` = "l" ]; then
LUT=`echo ${ARG} | cut -c3-${#ARG}`
if [ ! -f $LUT ]; then
LUT_PATH=`echo ${ARG} | cut -c3-${#ARG}`
if [ ! -f $LUT_PATH ]; then
echo "LUT not found!!!"
echo $LUT
echo $LUT_PATH
exit 1
fi
LUT="lut3d=${LUT_PATH}"
isLUT=true
let ARGNUM--
fi
@ -243,13 +273,16 @@ parseArgs() {
isBP=true
let ARGNUM--
fi
if [ `echo ${ARG} | cut -c2-2` = "k" ]; then
KEEP_DNGS=true
let ARGNUM--
fi
if [ `echo ${ARG} | cut -c2-2` = "B" ]; then
MLV_BP=`echo ${ARG} | cut -c3-${#ARG}`
if [ ! -f $MLV_BP ]; then
echo "mlv2badpixels.sh not found!!!"
echo $MLV_BP
exit 1
fi
let ARGNUM--
fi
if [ `echo ${ARG} | cut -c2-2` = "A" ]; then
WHITE_SPD=`echo ${ARG} | cut -c3-${#ARG}`
let ARGNUM--
fi
if [ `echo ${ARG} | cut -c2-2` = "Y" ]; then
@ -258,52 +291,77 @@ parseArgs() {
fi
continue
fi
#Check that file exists.
if [ ! -f $ARG ]; then
echo -e "\e[0;31m\e[1mFile ${ARG} not found!\e[0m\n"
exit 1
fi
}
checkDeps() {
if [ ! -f $ARG ]; then
echo -e "\e[0;31m\e[1mFile ${ARG} not found!\e[0m\n"
exit 1
fi
if [ ! -f $PYTHON_BAL ]; then
echo -e "\e[0;31m\e[1mAWB ${PYTHON_BAL} not found! Execution will continue without AWB.\e[0m\n"
fi
if [ ! -f $MLV_DUMP ]; then
echo -e "\e[0;31m\e[1m${MLV_DUMP} not found!\e[0m\n"
exit 1
fi
if [ ! -f $RAW_DUMP ]; then
echo -e "\e[0;31m\e[1m${RAW_DUMP} not found! Execution will continue without .RAW processing capability.\e[0m\n"
fi
if [ ! -f $MLV_BP ]; then
echo -e "\e[0;31m\e[1m${RAW_DUMP} not found! Execution will continue without badpixel removal.\e[0m\n"
fi
}
if [ $# == 0 ]; then
echo -e "\e[0;31m\e[1mNo arguments, no joy!!!\e[0m\n"
help
echo -e "\e[0;31m\e[1mNo arguments, no joy!!!\e[0m\n"
fi
ARGNUM=$#
trap "rm -rf ${TMP} ${NEW} ${PROXY}; exit 1" INT
for ARG in $*; do
#Evaluate command line arguments. ARGNUM decrements to keep track of how many files there are to process.
#Evaluate command line arguments. ARGNUM decrements to keep track of how many files there are to process.
parseArgs
#Check that file exists.
if [ ! -f $ARG ]; then
echo -e "\e[0;31m\e[1mFile ${ARG} not found!\e[0m\n"
exit 1
fi
#Check that main dependencies exist.
checkDeps
echo -e "\n\e[1mFiles Left to Process: \e[0m${ARGNUM}\n"
#List remaining files to process.
remFiles=${@:`echo "$# - ($ARGNUM - 1)" | bc`:$#}
remArr=$(echo $remFiles)
#Create directory structure.
list=""
for item in $remArr; do
if [ -z $list ]; then
list="${item}"
else
list="${list}, ${item}"
fi
done
echo -e "\n\e[1m${ARGNUM} Files Left to Process:\e[0m ${list}\n"
#PREPARATION
#Basic Directory Structure.
mkdirS $OUTDIR
BASE=$(basename "$ARG")
EXT="${BASE##*.}"
TRUNC_ARG="${BASE%.*}"
FILE="${OUTDIR}/${TRUNC_ARG}"
TMP="${FILE}/tmp_${TRUNC_ARG}"
TIFF="${FILE}/tiff_${TRUNC_ARG}"
PROXY="${FILE}/proxy_${TRUNC_ARG}"
mkdirS $TMP
mkdirS $TIFF
mkdirS $PROXY
#Optionally create badpixels file.
mkdirS $FILE
mkdirS $TMP
#Create badpixels file.
if [ $isBP == true ]; then
echo -e "\e[1m${TRUNC_ARG}:\e[0m Generating badpixels file..."
@ -313,28 +371,28 @@ for ARG in $*; do
BADPIXELS="-P ${TMP}/${bad_name}"
fi
#Dump to DNG sequence
#Dump to DNG sequence
echo -e "\n\e[1m${TRUNC_ARG}:\e[0m Dumping to DNG Sequence..."
if [ ! -f $MLV_DUMP ]; then
echo -e "\e[0;31m\e[1mmlv_dump not found at path ${MLV_DUMP}!!!\e[0m\n"
exit 1
fi
if [ $EXT == "MLV" ] || [ $EXT == "mlv" ]; then
$MLV_DUMP $ARG -o "${TMP}/${TRUNC_ARG}_" --dng --no-cs >/dev/null 2>/dev/null
elif [ $EXT == "RAW" ] || [ $EXT == "raw" ]; then
$RAW_DUMP $ARG "${TMP}/${TRUNC_ARG}_"
$RAW_DUMP $ARG "${TMP}/${TRUNC_ARG}_" >/dev/null 2>/dev/null
fi
FRAMES=`expr $(ls -1U ${TMP} | wc -l) - 1`
#Do fastest possible dcraw conversion to get auto white balance (Ideally, read directly from MLV)
echo -e "\n\e[1m${TRUNC_ARG}:\e[0m Generating Auto WB...\n"
#Get White Balance correction factor (or ignore it all).
echo -e "\n\e[1m${TRUNC_ARG}:\e[0m Generating WB...\n"
if [ $GEN_WHITE == true ]; then
n=`echo "${WHITE_SPD} + 1" | bc`
i=1
for file in $TMP/*.dng; do #But why??? Only from a tiff sequence can we read white balance.
dcraw -q 0 $BADPIXELS -r 1 1 1 1 -g $GAMMA -o 0 -T "${file}"
trap "rm -rf ${FILE}; exit 1" INT
for file in $TMP/*.dng; do
if [ `echo "${i} % ${n}" | bc` -eq 0 ] || [ $i -eq 1 ]; then #Only develop every nth file - we're averaging, after all!
dcraw -q 0 $BADPIXELS -r 1 1 1 1 -g $GAMMA -o 0 -T "${file}"
fi
echo -e "\e[2K\rWB Development: Frame ${i}/${FRAMES}.\c"
let i++
done
@ -347,97 +405,158 @@ for ARG in $*; do
done
#Read result into a form dcraw likes.
echo -e "\n\nCalculating Auto White Balance..."
BALANCE=`$BAL $toBal`
echo -e "\n\nCalculating White Balance..."
WHITE="-r ${BALANCE} 1.000000"
echo -e "Correction Factor (RGB): $BALANCE"
echo -e "Correction Factor (RGB): ${BALANCE} 1.0"
elif [ $CAMERA_WB == true ]; then
echo -e "\n\nRetrieving Camera White Balance..."
trap "rm -rf ${FILE}; exit 1" INT
for file in $TMP/*.dng; do
BALANCE=`dcraw -T -w -v -c ${file} 2>&1 | awk '/multipliers/ { print $2, $3, $4 }'`
break
done
WHITE="-r ${BALANCE} 1.0"
echo -e "Correction Factor (RGB): ${BALANCE} 1.0"
fi
echo -e "\n\e[1m${TRUNC_ARG}:\e[0m Converting ${FRAMES} DNGs to TIFF...\n"
#Move .wav.
SOUND_PATH="${TMP}/${TRUNC_ARG}_.wav"
#Convert all the actual DNGs to TIFFs, in more correct ways.
trap "rm -rf ${TMP} ${TIFF} ${PROXY}; exit 1" INT
i=1
for file in $TMP/*.dng; do
dcraw -q $DEMO_MODE $BADPIXELS $WHITE -H $HIGHLIGHT_MODE -g $GAMMA $NOISE_REDUC -o 0 $DEPTH -T "${file}"
echo -e "\e[2K\rDNG Development (dcraw): Frame ${i}/${FRAMES}.\c"
let i++
done
if [ ! -f $SOUND_PATH ]; then
echo -e "\n*Not moving .wav, because it doesn't exist."
else
cp $SOUND_PATH $FILE
fi
#Potentially apply a LUT.
if [ $isLUT == true ]; then
echo -e "\n\n\e[1m${TRUNC_ARG}:\e[0m Applying LUT to ${FRAMES} TIFFs...\n"
trap "rm -rf ${TMP} ${TIFF} ${PROXY}; exit 1" INT
#IMAGE PROCESSING
if [ $IMAGES == true ] ; then
echo -e "\n\n\e[1m${TRUNC_ARG}:\e[0m Processing Image Sequence..."
#Define Image Directories, Create TIFF directory
TIFF="${FILE}/tiff_${TRUNC_ARG}"
PROXY="${FILE}/proxy_${TRUNC_ARG}"
mkdirS $TIFF
#Convert all the actual DNGs to TIFFs.
i=1
for tiff in $TMP/*.tiff; do
output=$(printf "${TMP}/LUT_${TRUNC_ARG}_%06d" ${i})
ffmpeg -i $tiff -loglevel panic -vf lut3d="${LUT}" "${output}.tiff"
rm $tiff
echo -e "\e[2K\rApplying LUT (ffmpeg): Frame ${i}/${FRAMES}.\c"
trap "rm -rf ${FILE}; exit 1" INT
for file in $TMP/*.dng; do
dcraw -q $DEMO_MODE $BADPIXELS $WHITE -H $HIGHLIGHT_MODE -g $GAMMA $NOISE_REDUC -o 0 $DEPTH -T "${file}"
echo -e "\e[2K\rDNG Development (dcraw): Frame ${i}/${FRAMES}.\c"
let i++
done
#Potentially apply a LUT.
if [ $isLUT == true ]; then
echo -e "\n\n\e[1m${TRUNC_ARG}:\e[0m Applying LUT to ${FRAMES} TIFFs...\n"
i=1
trap "rm -rf ${FILE}; exit 1" INT
for tiff in $TMP/*.tiff; do
output=$(printf "${TMP}/LUT_${TRUNC_ARG}_%06d" ${i})
ffmpeg -i $tiff -loglevel panic -vf $LUT "${output}.tiff"
rm $tiff
echo -e "\e[2K\rApplying LUT (ffmpeg): Frame ${i}/${FRAMES}.\c"
let i++
done
fi
echo -e "\n\n\e[1m${TRUNC_ARG}:\e[0m Processing ${FRAMES} TIFFs & Generating Proxies...\n"
jpgProxy() {
i=1
trap "rm -rf ${FILE}; exit 1" INT
for tiff in $TMP/*.tiff; do
output=$(printf "${PROXY}/${TRUNC_ARG}_%06d" ${i})
convert -quiet $tiff -resize $PROXY_SCALE "${output}.jpg" > /dev/null #PROXY GENERATION
echo -e "\e[2K\rProxy Generation (IM): Frame ${i}/${FRAMES}.\c"
let i++
done
}
#Image Proxy Generation
if [ $isJPG == true ]; then
mkdirS $PROXY #No need to create the proxy directory until we know that proxies are being made.
jpgProxy
fi
#Move tiffs into place.
trap "rm -rf ${FILE}; exit 1" INT
for tiff in $TMP/*.tiff; do
mv $tiff $TIFF
done
fi
#MOVIE PROCESSING
if [ $MOVIE = true ]; then
VID="${FILE}/${TRUNC_ARG}"
SCALE=`echo "($(echo "${PROXY_SCALE}" | sed 's/%//') / 100) * 2" | bc -l` #Get scale as factor, *2 for 50%
SOUND="-i ${TMP}/${TRUNC_ARG}_.wav"
SOUND_ACTION=
if [ ! -f $SOUND_PATH ]; then
SOUND=""
SOUND_ACTION="-c:a copy"
fi
#LUT is automatically applied if argument was passed.
vidHQ() {
find "${TMP}" -maxdepth 1 -iname '*.dng' -print0 | sort -z | xargs -0 \
dcraw -c -q $DEMO_MODE $BADPIXELS $WHITE -H $HIGHLIGHT_MODE -g $GAMMA $NOISE_REDUC -o 0 $DEPTH | \
ffmpeg -f image2pipe -vcodec ppm -r $FPS -i pipe:0 \
$SOUND -vcodec prores_ks -n -r $FPS -profile:v 4444 -alpha_bits 0 -vendor ap4h $LUT "${VID}_hq.mov"
} #-loglevel panic -stats
vidLQ() {
find "${TMP}" -maxdepth 1 -iname '*.dng' -print0 | sort -z | xargs -0 \
dcraw -c -q 0 $BADPIXELS $WHITE -H $HIGHLIGHT_MODE -g $GAMMA $NOISE_REDUC -o 0 | \
ffmpeg -f image2pipe -vcodec ppm -r $FPS -i pipe:0 \
$SOUND -c:v libx264 -n -r $FPS -preset fast -vf "scale=trunc(iw/2)*2:trunc(ih/2)*2" -crf 23 $LUT -c:a mp3 "${VID}_lq.mp4"
#The option -vf "scale=trunc(iw/2)*2:trunc(ih/2)*2" fixes when x264 is unhappy about non-2 divisible dimensions.
}
#Pipe through which dcraw will spit out its data.
PIPE="${TMP}/enc_pipe"
mkfifo $PIPE
#Here we go!
if [ $isH264 == true ]; then
echo -e "\n\n\e[1m${TRUNC_ARG}:\e[0m Encoding to ProRes and Proxy..."
vidHQ
cat $PIPE | vidLQ & echo "text" | tee $PIPE | vidHQ #The magic of simultaneous execution ^_^
else
echo -e "\n\n\e[1m${TRUNC_ARG}:\e[0m Encoding to ProRes..."
vidHQ
fi
fi
echo -e "\n\e[1mDeleting files.\e[0m\n"
#Potentially move DNGs.
if [ $KEEP_DNGS == true ]; then
DNG="${FILE}/dng_${TRUNC_ARG}"
mkdirS $DNG
trap "rm -rf ${DNG}; exit 1" INT
for dng in $TMP/*.dng; do
mv $dng $DNG
done
fi
echo -e "\n\n\e[1m${TRUNC_ARG}:\e[0m Processing ${FRAMES} TIFFs & Generating Proxies...\n"
#Move tiffs into place and generate proxies.
trap "rm -rf ${TMP} ${TIFF} ${PROXY}; exit" INT
i=1
for tiff in $TMP/*.tiff; do
output=$(printf "${PROXY}/${TRUNC_ARG}_%06d" ${i})
convert -quiet $tiff -resize $PROXY_SCALE "${output}.jpg" > /dev/null #PROXY GENERATION
mv $tiff $TIFF #TIFF MOVEMENT
echo -e "\e[2K\rProxy Generation (IM): Frame ${i}/${FRAMES}.\c"
let i++
done
#Move .wav.
if [ ! -f "${TMP}/${TRUNC_ARG}_.wav" ]; then
echo -e "\n*Not moving .wav, because it doesn't exist."
else
mv "${TMP}/${TRUNC_ARG}_.wav" $OUTDIR
fi
#Movie creation, for editing:
echo -e "\n\n\e[1m${TRUNC_ARG}:\e[0m Processing video options..."
VID="${FILE}/${TRUNC_ARG}"
# --> Potentially create High Quality Prores 4444:
if [ $HQ_MOV == true ]; then
echo -e "\n\e[1mHigh Quality (Prores 4444) Video: \e[0m"
if [ ! -f "${TMP}/${TRUNC_ARG}_.wav" ]; then
ffmpeg -f image2 -i "${TIFF}/${TRUNC_ARG}_%06d.tiff" -loglevel panic -stats -vcodec prores_ks -profile:v 4444 -alpha_bits 0 -vendor ap4h "${VID}_hq.mov"
else
ffmpeg -f image2 -i "${TIFF}/${TRUNC_ARG}_%06d.tiff" -i "${OUTDIR}/${TRUNC_ARG}_.wav" -loglevel panic -stats -vcodec prores_ks -alpha_bits 0 -vendor ap4h -c:a copy "${VID}_hq.mov"
fi
fi
# --> Potentially create proxy H.264: Highly unsuited for any color work; just a preview.
if [ $LQ_PROXY == true ]; then
echo -e "\n\e[1mLow Quality (H.264) Video: \e[0m"
if [ ! -f "${TMP}/${TRUNC_ARG}_.wav" ]; then
ffmpeg -f image2 -i "${PROXY}/${TRUNC_ARG}_%06d.jpg" -loglevel panic -stats -c:v libx264 -preset fast -vf "scale=trunc(iw/2)*2:trunc(ih/2)*2" -crf 23 "${VID}_lq.mp4"
else
ffmpeg -f image2 -i "${PROXY}/${TRUNC_ARG}_%06d.jpg" -i "${OUTDIR}/${TRUNC_ARG}_.wav" -loglevel panic -stats -c:v libx264 -preset fast -vf "scale=trunc(iw/2)*2:trunc(ih/2)*2" -crf 23 -c:a mp3 "${VID}_lq.mp4"
fi
fi
#-vf "scale=trunc(iw/2)*2:trunc(ih/2)*2" fixes when x264 is unhappy about non-2 divisible dimensions.
echo -e "\n\e[1mDeleting files.\e[0m\n"
#Potentially delete TIFFs and JPGs.
if [ $DELETE_IMGS = true ]; then
rm -rf $TIFF
rm -rf $PROXY
fi
#Delete tmp
#Delete tmp
rm -rf $TMP
let ARGNUM--