convmlv/convmlv.sh

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#!/bin/bash
#TODO:
#~ HIGH PRIORITY
#~ --> Retest Darkframe subtraction with preaveraged/naked darkframe MLVs.
#~ --> More LUTs - ACES, LogC
#~ --> Flawless Mac Compatibility.
#~ --> Documentation: PDF and Videos.
#~ MEDIUM PRIORITY
#~ --> HALD LUT support. If possible. If not, whatever.
#~ --> Stats for .RAW files.
#~ LOW
#~ --> A GUI with a preview window, which runs convmlv on-demand.
#~ --> More WB Algorithms
#~ --> Windows 10 Support
#BUG: Relative OUTDIR makes baxpixel generation fail if ./mlv2badpixels.sh doesn't exist. Fixed on Linux only.
#CONCERN: Weirdness with color spaces in general. No impact to user; just some weirdly placed sRGB conversions if'ed by DPX.
#~ --> See Nasty Hacks Part 1 - 3. FML :O.
#~ I'll feel better about this after quite a while
#~ The MIT License (MIT)
#~ Copyright (c) 2016 Sofus Rose
#~ Permission is hereby granted, free of charge, to any person obtaining a copy
#~ of this software and associated documentation files (the "Software"), to deal
#~ in the Software without restriction, including without limitation the rights
#~ to use, copy, modify, merge, publish, distribute, sublicense, and/or sell
#~ copies of the Software, and to permit persons to whom the Software is
#~ furnished to do so, subject to the following conditions:
#~
#~ The above copyright notice and this permission notice shall be included in all
#~ copies or substantial portions of the Software.
#~
#~ THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR
#~ IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY,
#~ FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL THE
#~ AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER
#~ LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING FROM,
#~ OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN THE
#~ SOFTWARE.
#BASIC VARS
VERSION="2.0.0" #Version string.
INPUT_ARGS=$(echo "$@") #The original input argument string.
if [[ $OSTYPE == "linux-gnu" ]]; then
THREADS=$(cat /proc/cpuinfo | awk '/^processor/{print $3}' | tail -1)
else
THREADS=4
fi
#sysctl -n hw.ncpu for Mac?
setPaths() { #Repends on RES_PATH and PYTHON. Run this function if either is changed.
MLV_DUMP="${RES_PATH}/mlv_dump" #Path to mlv_dump location.
RAW_DUMP="${RES_PATH}/raw2dng" #Path to raw2dng location.
CR_HDR="${RES_PATH}/cr2hdr" #Path to cr2hdr location.
MLV_BP="${RES_PATH}/mlv2badpixels.sh"
PYTHON_BAL="${RES_PATH}/balance.py"
PYTHON_SRANGE="${RES_PATH}/sRange.py"
BAL="${PYTHON} ${PYTHON_BAL}"
SRANGE="${PYTHON} ${PYTHON_SRANGE}"
COLOR_LUTS=("${RES_PATH}/color-core" "${RES_PATH}/color-ext") #One can add more with options, but these are the defaults.
DCRAW="dcraw"
}
setDefaults() { #Set all the default variables. Run here, and also after each ARG run.
#DEPENDENCIES
DEB_DEPS="imagemagick dcraw ffmpeg python3 python3-pip libimage-exiftool-perl" #Dependency package names (Debian). List with -K option.
UBU_DEPS="imagemagick dcraw ffmpeg python3 python3-pip libimage-exiftool-perl" #Dependency package names (Ubuntu). List with -K option.
FED_DEPS="ImageMagick dcraw ffmpeg python3 python-pip perl-Image-ExifTool" #Dependency package names (Fedora). List with -K option.
BREW_DEPS="imagemagick dcraw ffmpeg python3 exiftool"
PIP_DEPS="numpy tifffile" #You don't need Pillow. That's just to make balance.py a bit more portable.
MAN_DEPS="mlv_dump raw2dng cr2hdr mlv2badpixels.sh balance.py sRange.py color-core"
if [[ $OSTYPE == "linux-gnu" ]]; then
PYTHON="python3"
else
PYTHON="python"
fi
#PATHS
RES_PATH="." #Current Directory by default.
GCONFIG="${HOME}/convmlv.conf"
LCONFIG="" #No local config by default.
setPaths #Set all the paths using the current RES_PATH.
OUTDIR="./raw_conv"
isOutGen=false
#OUTPUT
MOVIE=false
RES_IN=""
FPS=24 #Will be read from .MLV or .RAW.
IMAGES=false
IMG_FMT="exr"
COMPRESS=""
isCOMPRESS=true
isJPG=false
isH264=false
KEEP_DNGS=false
#FRAME RANGE
FRAME_RANGE="" #UPDATED LATER WHEN FRAME # IS AVAILABLE.
FRAME_START="1"
FRAME_END=""
RANGE_BASE=""
isFR=true
#RAW DEVELOPOMENT
HIGHLIGHT_MODE="0"
PROXY_SCALE="50%"
DEMO_MODE="1"
DEPTH="-W -6"
DEPTH_OUT="-depth 16"
WAVE_NOISE="" #Used to be NOISE_REDUC. Wavelet noise reduction.
FOUR_COLOR=""
CHROMA_SMOOTH="--no-cs"
#COLOR MANAGEMENT
GAMMA="1 1" #As far as dcraw is concerned, output is linear.
SPACE="5" #dcraw only outputs Linear XYZ. LUTs convert onwards.
COLOR_GAMMA="lin" #STANDARD marks it such that it will correspond to the gamut
COLOR_GAMUT="srgb"
COLOR_VF="" #Standard (~2.4) sRGB LUT by default: ${CORE_LUT}/lin_xyz--srgb_srgb.cube . This is used in VF_FILTERS
colorDesc=""
#FEATURES
DUAL_ISO=false
BADPIXELS=""
BADPIXEL_PATH=""
isBP=false
DARKFRAME=""
useDF=false
DARK_PROC=""
RES_DARK=""
SETTINGS_OUTPUT=false
MK_DARK=false
DARK_OUT=""
BLACK_LEVEL=""
#White Balance
WHITE=""
GEN_WHITE=false
CAMERA_WB=true
WHITE_SPD=15
isScale=false
SATPOINT=""
#FFMPEG Filters
FFMPEG_FILTERS=false #Whether or not FFMPEG filters are going to be used.
V_FILTERS=""
V_FILTERS_PROX=""
FILTER_ARR=()
TEMP_NOISE="" #Temporal noise reduction.
tempDesc=""
LUTS=() #lut3d LUT application. Supports multiple LUTs, in a chain; therefore it is an array.
lutDesc=""
DESHAKE="" #deshake video stabilisation.
deshakeDesc=""
HQ_NOISE="" #hqdn3d noise reduction.
hqDesc=""
REM_NOISE="" #removegrain noise reduction
remDesc=""
SHARP=""
sharpDesc=""
baseSet() { #All camera attributes are reset here.
CAM_NAME="Unknown"
FRAMES="Unknown"
RES_IN="Unknown"
ISO="Unknown"
APERTURE="Unknown"
LEN_FOCAL="Unknown"
SHUTTER="Unknown"
REC_DATE="Unknown"
REC_TIME="Unknown"
KELVIN="Unknown"
}
baseSet
}
setDefaults #Run now, but also later.
cVal() {
echo -e "\e[1m\e[37m${1}\e[0m"
}
bVal() {
echo -e "\e[1m\e[32m${1}\e[0m"
}
head() {
echo -e "\e[1m${1}\e[0m"
}
iVal() {
echo -e "\e[1m\e[33m${1}\e[0m"
}
help() {
less -R << EOF
Usage:
$(echo -e "\033[1m./convmlv.sh\033[0m [FLAGS] [OPTIONS] \033[2mfiles\033[0m")
$(head "INFO:")
A program allowing you to develop ML files into workable formats. Many useful options are exposed.
--> Defaults: Compressed 16-bit Linear EXR. 10-bit Prores4444 MOV.
--> Color Defaults: Linear (1.0) Gamma on sRGB Gamut, using Camera White Balance.
--> Acceptable Inputs: MLV, RAW (requires raw2dng), Folder containing DNGs.
--> Option Input: From command line or config file (specify with -C).
--> Forum Post: http://www.magiclantern.fm/forum/index.php?topic=16799.
--> A note: BE CAREFUL WITH OPTIONS. Wrong values will give very strange errors. Read this page well!!
It's as simple or complex as you need it to be: 'convmlv -m <mlvfile>.mlv' is enough for good-looking output!
$(echo -e "$(head VERSION): ${VERSION}")
$(head "MANUAL DEPENDENCIES:")
Place these in RES_PATH (see OPTIONS, BASIC). Keep in mind you also need dist. and pip packages.
--> See 'Dist Deps' and 'Python Deps'
-- mlv_dump: Required binary. http://www.magiclantern.fm/forum/index.php?topic=7122.0
-- color-core: Required folder of LUTs. See convmlv repository.
-- sRange.py: Required script. See convmlv repository.
-- raw2dng: For DNG extraction from RAW. http://www.magiclantern.fm/forum/index.php?topic=5404.0
-- mlv2badpixels.sh: For bad pixel removal. https://bitbucket.org/daniel_fort/ml-focus-pixels/src
-- cr2hdr: For Dual ISO Development. Two links: http://www.magiclantern.fm/forum/index.php?topic=16799.0
-- balance.py: For Auto White Balance. See convmlv repository.
-- color-ext: Extra LUTs, providing more color resources. See convmlv repository.
$(head "OPTIONS, BASIC:")
-v, --version $(bVal version) - Print out version string.
-h, --help $(bVal help) - Print out this help page.
-C, --config $(bVal config) - Designates config file to use.
-o, --outdir <path> $(cVal OUTDIR) - The path in which files will be placed.
-P, --res-path <path> $(iVal RES_PATH) - The path in which all manual dependencies are looked for.
--> Default: Current Directory.
--dcraw <path> $(cVal DCRAW) - The path to dcraw.
--mlv-dump <path> $(cVal MLV_DUMP) - The path to mlv_dump.
--raw-dump <path> $(cVal RAW_DUMP) - The path to raw2dng.
--badpixels <path> $(cVal MLV_BP) - The path to mlv2badpixels.sh (by dfort).
--cr-hdr <path> $(cVal CR_HDR) - The path to cr2hdr.
--srange <path> $(cVal SRANGE) - The path to sRange.py.
--balance <path> $(cVal BAL) - The path to balance.py.
--python <path> $(cVal PYTHON) - The path or command used to invoke Python 3. Default is python3 on Linux, python on Mac.
-T, --threads [int] $(cVal THREADS) - Override amount of utilized process threads. Default is MAX - 1.
$(head "OPTIONS, OUTPUT:")
-i $(cVal IMAGE) - Will output image sequence.
-t [0:3] $(cVal IMG_FMT) - Image output format.
--> 0: EXR (default), 1: TIFF, 2: PNG, 3: Cineon (DPX)."
-m $(cVal MOVIE) - Will output a Prores4444 file.
-p [0:3] $(cVal PROXY) - Create proxies alongside main output.
--> 0: No proxies (Default). 1: H.264 proxy. 2: JPG proxy sequence. 3: Both.
--> JPG proxy will always be in sRGB Gamma/sRGB Gamut. H.264 proxy is color managed.
--> JPG proxy *won't* be developed w/o IMAGE. H.264 proxy *will* be developed no matter what, if specified here.
--> Why? JPG is for potential use in editing. H.264 is for a quick visual preview of convmlv's output.
-s [0%:100%] $(cVal PROXY_SCALE) - the size, in %, of the proxy output.
--> Default: 50%.
-k $(cVal KEEP_DNGS) - Specify if you want to keep the DNG files.
--> Run convmlv on the top level folder of former output to reuse saved DNGs from that run!
-r <start>-<end> $(cVal FRAME_RANGE) - Specify to process an integer frame range.
--> You may use the characters 's' and 'e', such that s = start frame, e = end frame.
--> Indexed from 0 to (# of frames - 1). Develops from 1 to ($ of frames)
--> A single number may be writted to develop that single frame.
--> DO NOT try to reuse DNGs while developing a larger frame range.
--uncompress $(cVal UNCOMP) - Turns off lossless image compression. Otherwise:
--> TIFF: ZIP, EXR: PIZ, PNG: lvl 0, DPX: RLE.
$(head "OPTIONS, RAW DEVELOPMENT:")
-d [0:3] $(cVal DEMO_MODE) - Demosaicing algorithm. Higher modes are slower + better.
--> 0: Bilinear. 1: VNG (default). 2: PPG. 3: AHD.
-f $(cVal FOUR_COLOR) - Interpolate as RGBG. Fixes weirdness with VNG/AHD, at the cost of sharpness.
-H [0:9] $(cVal HIGHLIGHT_MODE) - Highlight management options.
--> 0: White, clipped highlights. 1: Unclipped but colored highlights. 2: The defail of 1, but adjusted to grey.
--> 3-9: Highlight reconstruction. Can cause flickering. Start at 5, then adjust to color (down) or to white (up).
-c [0:3] $(cVal CHROMA_SMOOTH) - Apply shadow/highlight chroma smoothing to the footage.
--> 0: None (default). 1: 2x2. 2: 3x3. 3: 5x5.
--> MLV input Only.
-n [int] $(cVal WAVE_NOISE) - Apply wavelet denoising.
--> Default: None. Subtle: 25. Medium: 50. Strong: 125.
-N <A>-<B> $(cVal TEMP_NOISE) - Apply temporal denoising.
--> A: 0 to 0.3. B: 0 to 5. A reacts to abrupt noise (splotches), B reacts to noise over time (fast motion causes artifacts).
--> Subtle: 0.03-0.04. High: 0.15-0.04. High, Predictable Motion: 0.15-0.07
-Q [i-i:i-i] $(cVal HQ_NOISE) - Apply 3D denoising filter.
--> In depth explanation: https://mattgadient.com/2013/06/29/in-depth-look-at-de-noising-in-handbrake-with-imagevideo-examples/ .
--> Spacial/Temporal (S/T). S will soften/blur/smooth, T will remove noise without doing that but may create artifacts.
--> Luma/Chroma (L/C). L is the detail, C is the color. Each one's denoising may be manipulated Spacially or Temporally.
--> Option Value: <LS>-<CS>:<LT>-<CT>
--> Weak: 2-1:2-3. Medium: 3-2:2-3. Strong: 7-7:5-5
--> DONT combine with TEMP_NOISE.
-O [i-i-i-i] $(cVal REM_NOISE) - Yet another spatial denoiser, with 4 choices of 24 modes.
--> See https://ffmpeg.org/ffmpeg-filters.html#removegrain for list of modes.
--> Option Value: <mode1>-<mode2>-<mode3>-<mode4>
--> I truly cannot tell you what values will be helpful to you; there are too many... Look at the link!
--shallow $(cVal SHALLOW) - Output smaller, 8-bit files.
--> Read why this is a bad idea: http://www.cambridgeincolour.com/tutorials/bit-depth.htm
$(head "OPTIONS, COLOR:")
-g [0:4] $(cVal GAMMA) - Output gamma. A curve applied to the output, for easier viewing/grading.
--> 0: Standard (Around 2.2). 1: Linear (Default).
--> Requires color-ext: 2: Cineon. 3: C-Log2 4: S-Log3
--> "Standard" grades to the gamut specification, and to 2.2 if that's not given.
-G [0:6] $(cVal GAMUT) - Output gamut. The range of colors that can exist in the output.
--> 0: sRGB (Default). 1: Adobe RGB. 2: Rec.709. 3: XYZ (Always Linear Gamma).
--> Requires color-ext: 4: Rec2020 5: DCI-P3 6: Sony S-Gamut3.cine
-w [0:2] $(cVal WHITE) - This is a modal white balance setting.
--> 0: Auto WB (requires balance.py). 1: Camera WB (default). 2: No Change.
--> AWB uses the Grey's World algorithm.
-A [i:i:i:i] $(cVal SHARP) - Lets you sharpen, or blur, your footage.
--> BE CAREFUL. Wrong values will give you strange errors.
--> Size/Strength (S/T). S is the size of the sharpen/blur effect, T is the strength of the sharpen/blur effect.
--> Luma/Chroma (L/C). L is the detail, C is the color. Luma sharpening more effective.
--> Option Value: <LS>:<LT>:<CS>:<CT>
--> LS and CS must be ODD, between 3 and 63. Negative LT/CT values blur, while positive ones sharpen.
--> Strong Sharp: 7:3:7:3 Strong Blur: 7,-3:7,-3. Medium Sharp: 5:1:3:0
-l <path> $(cVal LUT) - Specify a LUT to apply after Color Management.
--> Supports cube, 3dl, dat, m3d.
--> Specify -l multiple times, to apply multiple LUTs in sequence.
-S [int] $(cVal SATPOINT) - Specify the 14-bit uint saturation point of your camera. You don't usually need to.
--> Worth setting globally, as it's a per-camera setting. Must be correct for highlight reconstruction/unclipped highlights.
--> Lower from 15000 if -H1 yields purple highlights, until they turn white.
--> You can determine the optimal value using the max pixel value of 'dcraw -D -j -4 -T'.
--white-speed [int] $(cVal WHITE_SPD) - Manually specify samples used to calculate AWB.
--allow-white-clip $(cVal WHITE_CLIP) - Let the White Balance multipliers clip.
$(head "OPTIONS, FEATURES:")
-D $(cVal DESHAKE) - Auto-stabilize the video using ffmpeg's "deshake" module.
--> You may wish to crop/scale the output later, to avoid edge artifacts.
-u $(cVal DUAL_ISO) - Process as dual ISO.
--> Requires cr2hdr.
-b $(cVal BADPIXELS) - Fix focus pixels issue using dfort's script.
--> Requires mlv2badpixels.sh.
-a <path> $(cVal BADPIXEL_PATH) - Use your own .badpixels file. Does NOT require mlv2badpixels.sh
--> How to: http://www.dl-c.com/board/viewtopic.php?f=4&t=686
-F <path> $(cVal DARKFRAME) - This is the path to a "dark frame MLV"; effective for noise reduction.
--> How to: Record 5 sec w/lens cap on & same settings as footage. Pass MLV in here.
--> If the file extension is '.darkframe', the file will be used as a preaveraged dark frame.
-R <path> $(bVal darkframe_output) - Specify to create a .darkframe file from passed in MLV.
--> Usage: 'convmlv -R <path> <input>.MLV'
--> Averages <input>.MLV to create <path>.darkframe.
--> THE .darkframe EXTENSION IS ADDED FOR YOU.
$(head "OPTIONS, INFO:")
-q $(bVal settings) - Output MLV settings.
-K [0:3] $(bVal "Dist Deps") - Output package dependecies, for use with common package managers.
--> 0: Debian, 1: Ubuntu, 2: Fedora, 3: Homebrew (Mac)
--> Deps Install (Debian): sudo apt-get install \$(./convmlv.sh -K 0)
--> Deps Install (Ubuntu): sudo apt-get install \$(./convmlv.sh -K 1)
--> Deps Install (Fedora): sudo yum install \$(./convmlv.sh -K 2)
--> Deps Install (Homebrew Mac): brew install \$(./convmlv.sh -K 3)
-Y $(bVal "Python Deps") - Lists Python dependencies. Works directly with pip.
-->Install (Cross-Platform): sudo python3 -m pip install $ (./convmlv -Y)
-M $(bVal "Manual Deps") - Lists manual dependencies, which must be downloaded by hand.
--> Manually place all in RES_PATH. See http://www.magiclantern.fm/forum/index.php?topic=16799.0 .
$(head "COLOR MANAGEMENT:")
$(bold INTRO) Images aren't simple. They are often stored, processed, and viewed as a result of complex transformations usually called,
in applications, color management. Understanding it is required as a colourist, and encouraged as a DPs and Cinematographers.
--> Intro: http://www.cambridgeincolour.com/tutorials/color-management1.htm
--> Understanding Gamma: http://www.cambridgeincolour.com/tutorials/gamma-correction.htm
--> Color Spaces: http://www.cambridgeincolour.com/tutorials/color-spaces.htm
--> Conversions: http://www.cambridgeincolour.com/tutorials/color-space-conversion.htm
--> Monitor Calibration: http://www.cambridgeincolour.com/tutorials/monitor-calibration.htm
$(bold "PIPELINE") convmlv is a color managed application, designed to retain quality from RAW footage:
-- mlv_dump writes camera-specific color transformation matrices as metadata in developed DNGs.
--> This defines the camera's gamut.
-- dcraw applies these matrices, then transforms the newly developed image to the super-wide XYZ colorspace.
--> All color detail is preserved, and if now in a well-defined colorspace.
--> No gamma has been applied - the image is now Linear XYZ.
-- ffmpeg applies the specified (up to) x64 resolution 3D LUTs, in .cube format.
--> Use -g and -G to specify Gamma/Gamut combinations.
--> The output employs DATA, not LEGAL, values. The resulting image is flatter, but retains all shadow/highlight detail.
--> -l specified LUTs are applied afterwards.
$(bold "3D LUTS") The included LUTs, found in the convmlv repository, are key to convmlv's color management solution:
-- color-core: The required LUTs, including sRGB (default), Adobe RGB, and Rec709 in Standard and Linear gamma.
-- color-ext: Optional LUTs, including Rec2020, DCI-P3, etc. in Standard/Linear gammas, but also in Log formats.
$(bold "Create Your Own LUTs") using LUTCalc, for any grading format output: https://cameramanben.github.io/LUTCalc/ (watch his tutorials).
--> Note that convmlv only accepts up to 64x64x64 LUTs. You can resize LUTs using pylut (https://pypi.python.org/pypi/pylut).
--> The pylut command to resize is 'pylut <yourx65lut>.cube --resize 64'. Alternatively, you can use pylut from Python (2X only).
--> I reccommend Legal --> Data LUTs, as this conserves shadow/highlight detail for grading. Legal --> Legal looks better, but with detail loss.
$(head "CONFIG FILE:")
Config files, another way to specify options, can save you time & lend you convenience in production situations.
$(echo -e "\e[1mGLOBAL\e[0m"): $HOME/convmlv.conf
$(echo -e "\e[1mLOCAL\e[0m"): Specify -C/--config.
$(echo -e "\e[1mSYNTAX:\e[0m")
Most options listed above have an uppercased VARNAME, ex. OUTDIR. You can specify such options in config files, as such:
<VARNAME> <VALUE>
One option per line only. Indentation by tabs or spaces is allowed, but not enforced.
$(echo -e "\e[1mComments\e[0m") Lines starting with # are comments.
You may name a config using:
CONFIG_NAME <name>
$(echo -e "\e[1mFlags\e[0m") If the value is a true/false flag (ex. IMAGE), simply specifying VARNAME is enough. There is no VALUE.
$(echo -e "\e[1mOPTION ORDER OF PRECEDENCE\e[0m") Options override each other as such:
-LOCAL options overwrite GLOBAL options.
-COMMAND LINE options overwrite LOCAL & GLOBAL options.
-FILE SPECIFIC options overwrite ALL ABOVE options.
$(echo -e "\e[1mFile-Specific Block\e[0m"): A LOCAL config file lets you specify options for specific input names:
/ <TRUNCATED INPUTNAME>
...options here will only be
*
You must use the truncated (no .mlv or .raw) input name after the /. Nested blocks will fail.
With a single config file, you can control the development options of multiple inputs as specifically and/or generically
as you want. Batch developing everything can then be done with a single, powerful commmand.
Contact me with any feedback or questions at convmlv@sofusrose.com, PM me (so-rose) on the ML forums, or post on the thread!
EOF
}
mkdirS() {
path=$1
cleanup=$2
cont=false
if [ -d $path ]; then
while true; do
read -p "Overwrite ${path}? [y/n/q] " ynq
case $ynq in
[Yy]* ) echo -e ""; rm -rf $path; mkdir -p $path >/dev/null 2>/dev/null; break
;;
[Nn]* ) echo -e "\n\e[0;31m\e[1mDirectory ${path} won't be created.\e[0m\n"; cont=true; `$cleanup`; break
;;
[Qq]* ) echo -e "\n\e[0;31m\e[1mHalting execution. Directory ${path} won't be created.\e[0m\n"; `$cleanup`; exit 1;
;;
* ) 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
if [ $cont == true ]; then
let ARGNUM--
continue
fi
}
invOption() {
str=$1
echo -e "\e[0;31m\e[1m${str}\e[0m"
echo -e "\n\e[1mCleaning Up.\e[0m\n\n"
#Delete tmp
rm -rf $TMP
exit 1
}
evalConf() {
file=$1 #The File to Parse
argOnly=$2 #If true, will only use file-specific blocks. If false, will ignore file-specific blocks.
CONFIG_NAME="None"
if [[ -z $file ]]; then return; fi
fBlock=false #Whether or not we are in a file-specific block.
fID="" #The name of the file-specific block we're in.
while IFS="" read -r line || [[ -n "$line" ]]; do
line=$(echo "$line" | sed -e 's/^[ \t]*//') #Strip leading tabs/whitespaces.
if [[ `echo "${line}" | cut -c1-1` == "#" ]]; then continue; fi #Ignore comments
if [[ `echo "${line}" | cut -c1-1` == "/" ]]; then
if [[ $fBlock == true ]]; then echo -e "\n\e[0;31m\e[1mWARNING: Nested blocks!!!\e[0m"; fi
fBlock=true
fID=`echo "${line}" | cut -d$' ' -f2`
continue
fi #Enter a file-specific block with /, provided the argument name is correct.
if [[ `echo "${line}" | cut -c1-1` == "*" ]]; then fBlock=false; fi #Leave a file-specific block.
#~ echo $argOnly $fBlock $fID ${TRUNC_ARG%.*} `echo "${line}" | cut -d$' ' -f1`
if [[ ($argOnly == false && $fBlock == false) || ( ($argOnly == true && $fBlock == true) && $fID == ${TRUNC_ARG%.*} ) ]]; then #Conditions under which to write values.
case `echo "${line}" | cut -d$' ' -f1` in
"CONFIG_NAME") CONFIG_NAME=`echo "${line}" | cut -d$' ' -f2` #Not doing anything with this right now.
;;
"OUTDIR") OUTDIR=`echo "${line}" | cut -d$' ' -f2`
;;
"RES_PATH") RES_PATH=`echo "${line}" | cut -d$' ' -f2`; setPaths
;;
"DCRAW") DCRAW=`echo "${line}" | cut -d$' ' -f2`
;;
"MLV_DUMP") MLV_DUMP=`echo "${line}" | cut -d$' ' -f2`
;;
"RAW_DUMP") RAW_DUMP=`echo "${line}" | cut -d$' ' -f2`
;;
"MLV_BP") MLV_BP=`echo "${line}" | cut -d$' ' -f2`
;;
"SRANGE") CR_HDR=`echo "${line}" | cut -d$' ' -f2`
;;
"BAL") PYTHON_SRANGE=`echo "${line}" | cut -d$' ' -f2`; setPaths
;;
"PYTHON") PYTHON=`echo "${line}" | cut -d$' ' -f2`; setPaths
;;
"THREADS") THREADS=`echo "${line}" | cut -d$' ' -f2`
;;
"IMAGE") IMAGES=true
;;
"IMG_FMT")
mode=`echo "${line}" | cut -d$' ' -f2`
case ${mode} in
"0") IMG_FMT="exr"
;;
"1") IMG_FMT="tiff"
;;
"2") IMG_FMT="png"
;;
"3") IMG_FMT="dpx"
;;
*) invOption "Invalid Image Format Choice: ${mode}"
;;
esac
;;
"MOVIE") MOVIE=true
;;
"PROXY")
PROXY=`echo "${line}" | cut -d$' ' -f2`
case ${PROXY} in
"0") isJPG=false; isH264=false
;;
"1") isJPG=false; isH264=true
;;
"2") isJPG=true; isH264=false
;;
"3") isJPG=true; isH264=true
;;
*) invOption "Invalid Proxy Choice: ${PROXY}"
;;
esac
;;
"PROXY_SCALE")
PROXY_SCALE=`echo "${line}" | cut -d$' ' -f2`
proxy_num=`echo "$PROXY_SCALE" | cut -d'%' -f 1`
if [[ ! ( ($proxy_num -le 100 && $proxy_num -ge 5) && $proxy_num =~ ^-?[0-9]+$ ) ]]; then invOption "Invalid Proxy Scale: ${PROXY_SCALE}"; fi
;;
"KEEP_DNGS") KEEP_DNGS=true
;;
"FRAME_RANGE") RANGE_BASE=`echo "${line}" | cut -d$' ' -f2`; isFR=false
;;
"UNCOMP") isCOMPRESS=false
;;
"DEMO_MODE") DEMO_MODE=`echo "${line}" | cut -d$' ' -f2`
;;
"HIGHLIGHT_MODE") HIGHLIGHT_MODE=`echo "${line}" | cut -d$' ' -f2`
;;
"CHROMA_SMOOTH")
mode=`echo "${line}" | cut -d$' ' -f2`
case ${mode} in
"0") CHROMA_SMOOTH="--no-cs"
;;
"1") CHROMA_SMOOTH="--cs2x2"
;;
"2") CHROMA_SMOOTH="--cs3x3"
;;
"3") CHROMA_SMOOTH="--cs5x5"
;;
*) invOption "Invalid Chroma Smoothing Choice: ${mode}"
;;
esac
;;
"WAVE_NOISE") WAVE_NOISE="-n $(echo "${line}" | cut -d$' ' -f2)"
;;
"TEMP_NOISE")
vals="$(echo "${line}" | cut -d$' ' -f2)"
aVal=$(echo "${vals}" | cut -d"-" -f1)
bVal=$(echo "${vals}" | cut -d"-" -f2)
TEMP_NOISE="atadenoise=0a=${aVal}:0b=${bVal}:1a=${aVal}:1b=${bVal}:2a=${aVal}:2b=${bVal}"
tempDesc="Temporal Denoiser"
FFMPEG_FILTERS=true
;;
"HQ_NOISE")
vals="$(echo "${line}" | cut -d$' ' -f2)"
S=`echo "${vals}" | cut -d$':' -f1`
T=`echo "${vals}" | cut -d$':' -f2`
LS=`echo "${S}" | cut -d$'-' -f1`
CS=`echo "${S}" | cut -d$'-' -f2`
LT=`echo "${T}" | cut -d$'-' -f1`
CT=`echo "${T}" | cut -d$'-' -f2`
HQ_NOISE="hqdn3d=luma_spatial=${LS}:chroma_spatial=${CS}:luma_tmp=${LT}:chroma_tmp=${CT}"
hqDesc="3D Denoiser"
FFMPEG_FILTERS=true
;;
"REM_NOISE")
vals="$(echo "${line}" | cut -d$' ' -f2)"
m1=`echo "${vals}" | cut -d$'-' -f1`
m2=`echo "${vals}" | cut -d$'-' -f2`
m3=`echo "${vals}" | cut -d$'-' -f3`
m4=`echo "${vals}" | cut -d$'-' -f4`
REM_NOISE="removegrain=m0=${m1}:m1=${m2}:m2=${m3}:m3=${m4}"
remDesc="RemoveGrain Modal Denoiser"
FFMPEG_FILTERS=true
;;
"GAMMA") #Value checking done in color management.
mode=`echo "${line}" | cut -d$' ' -f2`
case ${mode} in
"0")
COLOR_GAMMA="STANDARD" #Lets CM know that it should correspond to the gamut, or be 2.2.
;;
"1")
COLOR_GAMMA="lin" #Linear
;;
"2")
COLOR_GAMMA="cineon" #Cineon
;;
"3")
COLOR_GAMMA="clog2" #C-Log2. Req: color-ext.
;;
"4")
COLOR_GAMMA="slog3" #S-Log3. Req: color-ext.
;;
#~ "5")
#~ COLOR_GAMMA="logc" #LogC 4.X . Req: color-ext.
#~ ;;
#~ "6")
#~ COLOR_GAMMA="acescc" #ACEScc Log Gamma. Req: color-aces.
#~ ;;
*)
invOption "g: Invalid Gamma Choice: ${mode}"
;;
esac
;;
"GAMUT") #Value checking done in color management.
mode=`echo "${line}" | cut -d$' ' -f2`
case ${mode} in
"0")
COLOR_GAMUT="srgb" #sRGB
;;
"1")
COLOR_GAMUT="argb" #Adobe RGB
;;
"2")
COLOR_GAMUT="rec709" #Rec.709
;;
"3")
COLOR_GAMUT="xyz" #XYZ. Linear Only.
;;
#~ "3")
#~ COLOR_GAMUT="aces" #ACES. Standard is Linear. Req: color-aces (all gammas will work, even without color-ext)/
#~ ;;
#~ "4")
#~ COLOR_GAMUT="xyz" #ACES. Standard is Linear. Req: color-aces (all gammas will work, even without color-ext)/
#~ ;;
"4")
COLOR_GAMUT="rec2020" #Rec.2020. Req: color-ext.
;;
"5")
COLOR_GAMUT="dcip3" #DCI-P3. Req: color-ext.
;;
"6")
COLOR_GAMUT="ssg3c" #Sony S-Gamut3.cine. Req: color-ext.
;;
*)
invOption "G: Invalid Gamut Choice: ${mode}"
;;
esac
;;
"SHALLOW") DEPTH=""; DEPTH_OUT="-depth 8"
;;
"WHITE")
mode=`echo "${line}" | cut -d$' ' -f2`
case ${mode} in
"0") CAMERA_WB=false; GEN_WHITE=true #Will generate white balance.
;;
"1") CAMERA_WB=true; GEN_WHITE=false; #Will use camera white balance.
;;
"2") WHITE="-r 1 1 1 1"; CAMERA_WB=false; GEN_WHITE=false #Will not apply any white balance.
;;
*)
invOption "Invalid White Balance Choice: ${mode}"
;;
esac
;;
"SHARP")
val=`echo "${line}" | cut -d$' ' -f2`
lSize=`echo "${val}" | cut -d$':' -f1`
lStr=`echo "${val}" | cut -d$':' -f2`
cSize=`echo "${val}" | cut -d$':' -f3`
cStr=`echo "${val}" | cut -d$':' -f4`
SHARP="unsharp=${lSize}:${lSize}:${lStr}:${cSize}:${cSize}:${cStr}"
sharpDesc="Sharpen/Blur"
FFMPEG_FILTERS=true
;;
"LUT")
LUT_PATH=`echo "${line}" | cut -d$' ' -f2`
if [ ! -f $LUT_PATH ]; then invOption "Invalid LUT Path: ${LUT_PATH}"; fi
#Check LUT_SIZE
i=0
while read line; do
sLine=$(echo $line | sed -e 's/^[ \t]*//')
if [[ $(echo $sLine | cut -c1-11) == "LUT_3D_SIZE" ]]; then
if [[ $(echo $sLine | cut -c13-) -le 64 && $(echo $sLine | cut -c13-) -ge 2 ]]; then
break
else
size=$(echo $sLine | cut -c13-)
invOption "$(basename $LUT_PATH): Invalid LUT Size of $size x $size x $size - Must be between x2 and x64 (you can resize using pylut - see 'convmlv -h') ! "
fi
elif [[ $i -gt 20 ]]; then
invOption "$(basename $LUT_PATH): Invalid LUT - LUT_3D_SIZE not found in first 20 non-commented lines."
fi
if [[ ! $(echo $sLine | cut -c1-1) == "#" ]]; then ((i++)); fi
done < $LUT_PATH
LUTS+=( "lut3d=${LUT_PATH}" )
lutDesc="3D LUTs"
FFMPEG_FILTERS=true
;;
"SATPOINT") SATPOINT="-S $(echo "${line}" | cut -d$' ' -f2)"
;;
"WHITE_SPD") WHITE_SPD=`echo "${line}" | cut -d$' ' -f2`
;;
"WHITE_CLIP") isScale=true
;;
"DESHAKE")
DESHAKE="deshake"
deshakeDesc="Deshake Filter"
FFMPEG_FILTERS=true
;;
"DUAL_ISO") DUAL_ISO=true
;;
"BADPIXELS") isBP=true
;;
"BADPIXEL_PATH") BADPIXEL_PATH=`echo "${line}" | cut -d$' ' -f2`
;;
"DARKFRAME")
DARKFRAME=`echo "${line}" | cut -d$' ' -f2`;
if [ ! -f $DARKFRAME ]; then invOption "Invalid Darkframe: ${DARKFRAME}"; fi
useDF=true
;;
esac
fi
done < "$1"
}
parseArgs() { #Amazing new argument parsing!!!
longArg() { #Creates VAL
ret="${!OPTIND}"; OPTIND=$(( $OPTIND + 1 ))
}
while getopts "vh C: o: P: T: i t: m p: s: k r: d: f H: c: n: N: Q: O: g: G: w: A: l: S: D u b a: F: R: q K: Y M -:" opt; do
#~ echo $opt ${OPTARG}
case "$opt" in
-) #Long Arguments
case ${OPTARG} in
outdir)
val="${!OPTIND}"; OPTIND=$(( $OPTIND + 1 ))
OUTDIR=$val
;;
version)
echo -e "convmlv v${VERSION}"
;;
help)
help
exit 0
;;
config)
val="${!OPTIND}"; OPTIND=$(( $OPTIND + 1 ))
LCONFIG=$val
;;
res-path)
val="${!OPTIND}"; OPTIND=$(( $OPTIND + 1 ))
RES_PATH=$val
setPaths #Set all the paths with the new RES_PATH.
;;
dcraw)
val="${!OPTIND}"; OPTIND=$(( $OPTIND + 1 ))
DCRAW="${val}"
;;
mlv-dump)
val="${!OPTIND}"; OPTIND=$(( $OPTIND + 1 ))
MLV_DUMP=$val
;;
raw-dump)
val="${!OPTIND}"; OPTIND=$(( $OPTIND + 1 ))
RAW_DUMP=$val
;;
badpixels)
val="${!OPTIND}"; OPTIND=$(( $OPTIND + 1 ))
MLV_BP=$val
;;
cr-hdr)
val="${!OPTIND}"; OPTIND=$(( $OPTIND + 1 ))
CR_HDR=$val
;;
srange)
val="${!OPTIND}"; OPTIND=$(( $OPTIND + 1 ))
PYTHON_BAL=$val
setPaths #Must regen BAL
;;
balance)
val="${!OPTIND}"; OPTIND=$(( $OPTIND + 1 ))
PYTHON_SRANGE=$val
setPaths #Must regen SRANGE
;;
python)
val="${!OPTIND}"; OPTIND=$(( $OPTIND + 1 ))
PYTHON=$val
setPaths #Set all the paths with the new PYTHON.
;;
threads)
val="${!OPTIND}"; OPTIND=$(( $OPTIND + 1 ))
THREADS=$val
;;
uncompress)
isCOMPRESS=false
;;
shallow)
DEPTH=""
DEPTH_OUT="-depth 8"
;;
white-speed)
val="${!OPTIND}"; OPTIND=$(( $OPTIND + 1 ))
WHITE_SPD=$val
;;
allow-white-clip)
isScale=true
;;
*)
echo "Invalid option: --$OPTARG" >&2
;;
esac
;;
v)
echo -e "convmlv v${VERSION}"
;;
h)
help
exit 0
;;
C)
LCONFIG=${OPTARG}
;;
o)
OUTDIR=${OPTARG}
;;
P)
RES_PATH=${OPTARG}
setPaths #Set all the paths with the new RES_PATH.
;;
T)
THREADS=${OPTARG}
;;
i)
IMAGES=true
;;
t)
mode=${OPTARG}
case ${mode} in
"0") IMG_FMT="exr"
;;
"1") IMG_FMT="tiff"
;;
"2") IMG_FMT="png"
;;
"3") IMG_FMT="dpx"
;;
*) invOption "t: Invalid Image Format Choice: ${mode}"
;;
esac
;;
m)
MOVIE=true
;;
p)
PROXY=${OPTARG}
case ${PROXY} in
"0") isJPG=false; isH264=false
;;
"1") isJPG=false; isH264=true
;;
"2") isJPG=true; isH264=false
;;
"3") isJPG=true; isH264=true
;;
*) invOption "p: Invalid Proxy Choice: ${PROXY}"
;;
esac
;;
s)
PROXY_SCALE=${OPTARG}
proxy_num=`echo "$PROXY_SCALE" | cut -d'%' -f 1`
if [[ ! ( ($proxy_num -le 100 && $proxy_num -ge 5) && $proxy_num =~ ^-?[0-9]+$ ) ]]; then invOption "s: Invalid Proxy Scale: ${PROXY_SCALE}"; fi
;;
k)
KEEP_DNGS=true
;;
r)
RANGE_BASE=${OPTARG}
isFR=false
;;
d)
DEMO_MODE=${OPTARG}
;;
f)
FOUR_COLOR="-f"
;;
H)
HIGHLIGHT_MODE=${OPTARG}
;;
c)
mode=${OPTARG}
case ${mode} in
"0") CHROMA_SMOOTH="--no-cs"
;;
"1") CHROMA_SMOOTH="--cs2x2"
;;
"2") CHROMA_SMOOTH="--cs3x3"
;;
"3") CHROMA_SMOOTH="--cs5x5"
;;
*) invOption "c: Invalid Chroma Smoothing Choice: ${mode}"
;;
esac
;;
n)
WAVE_NOISE="-n ${OPTARG}"
;;
N)
vals=${OPTARG}
aVal=$(echo "${vals}" | cut -d"-" -f1)
bVal=$(echo "${vals}" | cut -d"-" -f2)
TEMP_NOISE="atadenoise=0a=${aVal}:0b=${bVal}:1a=${aVal}:1b=${bVal}:2a=${aVal}:2b=${bVal}"
tempDesc="Temporal Denoiser"
FFMPEG_FILTERS=true
;;
Q)
vals=${OPTARG}
S=`echo "${vals}" | cut -d$':' -f1`
T=`echo "${vals}" | cut -d$':' -f2`
LS=`echo "${S}" | cut -d$'-' -f1`
CS=`echo "${S}" | cut -d$'-' -f2`
LT=`echo "${T}" | cut -d$'-' -f1`
CT=`echo "${T}" | cut -d$'-' -f2`
HQ_NOISE="hqdn3d=luma_spatial=${LS}:chroma_spatial=${CS}:luma_tmp=${LT}:chroma_tmp=${CT}"
hqDesc="3D Denoiser"
FFMPEG_FILTERS=true
;;
O)
vals=${OPTARG}
m1=`echo "${vals}" | cut -d$'-' -f1`
m2=`echo "${vals}" | cut -d$'-' -f2`
m3=`echo "${vals}" | cut -d$'-' -f3`
m4=`echo "${vals}" | cut -d$'-' -f4`
REM_NOISE="removegrain=m0=${m1}:m1=${m2}:m2=${m3}:m3=${m4}"
remDesc="RemoveGrain Modal Denoiser"
FFMPEG_FILTERS=true
;;
g)
mode=${OPTARG}
case ${mode} in
"0")
COLOR_GAMMA="STANDARD" #Lets CM know that it should correspond to the gamut, or be 2.2.
;;
"1")
COLOR_GAMMA="lin" #Linear
;;
"2")
COLOR_GAMMA="cineon" #Cineon
;;
"3")
COLOR_GAMMA="clog2" #C-Log2. Req: color-ext.
;;
"4")
COLOR_GAMMA="slog3" #S-Log3. Req: color-ext.
;;
#~ "5")
#~ COLOR_GAMMA="logc" #LogC 4.X . Req: color-ext.
#~ ;;
#~ "6")
#~ COLOR_GAMMA="acescc" #ACEScc Log Gamma. Req: color-aces.
#~ ;;
*)
invOption "g: Invalid Gamma Choice: ${mode}"
;;
esac
;;
G)
mode=${OPTARG}
case ${mode} in
"0")
COLOR_GAMUT="srgb" #sRGB
;;
"1")
COLOR_GAMUT="argb" #Adobe RGB
;;
"2")
COLOR_GAMUT="rec709" #Rec.709
;;
"3")
COLOR_GAMUT="xyz" #XYZ. Linear Only.
;;
#~ "4")
#~ COLOR_GAMUT="aces" #ACES. Standard is Linear. Req: color-aces (all gammas will work, even without color-ext)/
#~ ;;
"4")
COLOR_GAMUT="rec2020" #Rec.2020. Req: color-ext.
;;
"5")
COLOR_GAMUT="dcip3" #DCI-P3. Req: color-ext.
;;
"6")
COLOR_GAMUT="ssg3c" #Sony S-Gamut3.cine. Req: color-ext.
;;
*)
invOption "G: Invalid Gamut Choice: ${mode}"
;;
esac
;;
w)
mode=${OPTARG}
case ${mode} in
"0") CAMERA_WB=false; GEN_WHITE=true #Will generate white balance.
;;
"1") CAMERA_WB=true; GEN_WHITE=false; #Will use camera white balance.
;;
"2") WHITE="-r 1 1 1 1"; CAMERA_WB=false; GEN_WHITE=false #Will not apply any white balance.
;;
*)
invOption "w: Invalid White Balance Choice: ${mode}"
;;
esac
;;
A)
val=${OPTARG}
lSize=`echo "${val}" | cut -d$':' -f1`
lStr=`echo "${val}" | cut -d$':' -f2`
cSize=`echo "${val}" | cut -d$':' -f3`
cStr=`echo "${val}" | cut -d$':' -f4`
SHARP="unsharp=${lSize}:${lSize}:${lStr}:${cSize}:${cSize}:${cStr}"
sharpDesc="Sharpen/Blur"
FFMPEG_FILTERS=true
;;
l)
LUT_PATH=${OPTARG}
if [ ! -f $LUT_PATH ]; then invOption "Invalid LUT Path: ${LUT_PATH}"; fi
#Check LUT_SIZE
i=0
while read line; do
sLine=$(echo $line | sed -e 's/^[ \t]*//')
if [[ $(echo $sLine | cut -c1-11) == "LUT_3D_SIZE" ]]; then
if [[ $(echo $sLine | cut -c13-) -le 64 && $(echo $sLine | cut -c13-) -ge 2 ]]; then
break
else
size=$(echo $sLine | cut -c13-)
invOption "$(basename $LUT_PATH): Invalid LUT Size of $size x $size x $size - Must be between x2 and x64 (you can resize using pylut - see 'convmlv -h') ! "
fi
elif [[ $i -gt 20 ]]; then
invOption "$(basename $LUT_PATH): Invalid LUT - LUT_3D_SIZE not found in first 20 non-commented lines."
fi
if [[ ! $(echo $sLine | cut -c1-1) == "#" ]]; then ((i++)); fi
done < $LUT_PATH
LUTS+=( "lut3d=${LUT_PATH}" )
lutDesc="3D LUTs"
FFMPEG_FILTERS=true
;;
S)
SATPOINT="-S ${OPTARG}"
;;
D)
DESHAKE="deshake"
deshakeDesc="Deshake Filter"
FFMPEG_FILTERS=true
;;
u)
DUAL_ISO=true
;;
b)
isBP=true
;;
a)
BADPIXEL_PATH=${OPTARG}
;;
F)
DARKFRAME=`echo "${line}" | cut -d$' ' -f2`;
if [ ! -f $DARKFRAME ]; then invOption "F: Invalid Darkframe: ${DARKFRAME}"; fi
useDF=true
;;
R)
MK_DARK=true
DARK_OUT=${OPTARG}
;;
q)
SETTINGS_OUTPUT=true
;;
K)
mode=${OPTARG}
case ${mode} in
"0") echo $DEB_DEPS
;;
"1") echo $UBU_DEPS
;;
"2") echo $FED_DEPS
;;
"3") echo $BREW_DEPS
;;
*)
invOption "K: Invalid Dist Choice: ${mode}"
;;
esac
exit 0
;;
Y)
echo $PIP_DEPS
exit 0
;;
M)
echo $MAN_DEPS
exit 0
;;
*)
echo "Invalid option: -$OPTARG" >&2
;;
esac
done
}
checkDeps() {
argBase="$(basename "$ARG")"
argExt="${argBase##*.}"
argTrunc="${argBase%.*}"
nFound() { #Prints: ${type} ${name} not found! ${exec_instr}.\n\t${down_instr}
type=$1
name="$2"
exec_instr=$3
down_instr=$4
if [[ -z $down_instr ]]; then
echo -e "\e[1;31m${type} \e[0;1m${name}\e[1;31m not found! ${exec_instr}.\e[0m"
else
echo -e "\e[1;31m${type} \e[0;1m${name}\e[1;31m not found! ${exec_instr}.\e[0m\n------> ${down_instr}\n"
fi
}
#Argument Checks
if [ ! -f $ARG ] && [ ! -d $ARG ]; then
nFound "File" "${ARG}" "Skipping File"
let ARGNUM--; continue
fi
if [[ ! -d $ARG && ! ( $argExt == "MLV" || $argExt == "mlv" || $argExt == "RAW" || $argExt == "raw" ) ]]; then
echo -e "\e[0;31m\e[1mFile ${ARG} has invalid extension!\e[0m\n"
let ARGNUM--; continue
fi
if [[ ( ( ! -f $ARG ) && $(ls -1 ${ARG%/}/*.[Dd][Nn][Gg] 2>/dev/null | wc -l) == 0 ) && ( `folderName ${ARG}` != $argTrunc ) ]]; then
echo -e "\e[0;31m\e[1mFolder ${ARG} contains no DNG files!\e[0m\n"
let ARGNUM--; continue
fi
if [ ! -d $ARG ] && [ $(echo $(wc -c ${ARG} | cut -d " " -f1) / 1000 | bc) -lt 1000 ]; then #Check that the file is not too small.
cont=false
while true; do
read -p "${ARG} is unusually small at $(echo "$(echo "$(wc -c ${ARG})" | cut -d$' ' -f1) / 1000" | bc)KB. Continue, skip, remove, or quit? [c/s/r/q] " csr
case $csr in
[Cc]* ) "\n\e[0;31m\e[1mContinuing.\e[0m\n"; break
;;
[Ss]* ) echo -e "\n\e[0;31m\e[1mSkipping.\e[0m\n"; cont=true; break
;;
[Rr]* ) echo -e "\n\e[0;31m\e[1mRemoving ${ARG}.\e[0m\n"; cont=true; rm $ARG; break
;;
[Qq]* ) echo -e "\n\e[0;31m\e[1mQuitting.\e[0m\n"; isExit=true; break
;;
* ) echo -e "\e[0;31m\e[1mPlease answer continue, skip, or remove.\e[0m\n"
;;
esac
done
if [ $cont == true ]; then
let ARGNUM--; continue
fi
fi
#Essentials
if [ ! -f $MLV_DUMP ]; then
nFound "Binary" "${MLV_DUMP}" "Execution will halt" "Get it here: http://www.magiclantern.fm/forum/index.php?topic=7122.0."
isExit=true
fi
if [ ! -d ${COLOR_LUTS[0]} ]; then
nFound "Folder" "color-core" "Execution will halt" "Download from convmlv repository."
isExit=true
fi
if [ ! -f $PYTHON_SRANGE ]; then
nFound "Python Script" "${PYTHON_SRANGE}" "Execution will halt" "Download from convmlv repository."
isExit=true
fi
cmdExists() { if type -P "$1" &> /dev/null || [ -x "$1" ]; then echo true; else echo false; fi }
#Basic Options - Dist Deps
if [[ $(cmdExists "$DCRAW") != true ]]; then
nFound "Command" "$DCRAW" "Execution will halt" "dcraw not installed correctly - See Dist Deps in the OPTIONS, INFO section of 'convmlv -h'."
isExit=true
fi
if [[ $(cmdExists "convert") != true ]]; then
nFound "Command" "convert" "Execution will halt" "ImageMagick not installed correctly - See Dist Deps in the OPTIONS, INFO section of 'convmlv -h'."
isExit=true
fi
if [[ $(cmdExists "ffmpeg") != true ]]; then
nFound "Command" "ffmpeg" "Execution will halt" "ffmpeg not installed correctly - See Dist Deps in the OPTIONS, INFO section of 'convmlv -h'."
isExit=true
fi
if [[ $(cmdExists "exiftool") != true ]]; then
nFound "Command" "exiftool" "Execution will halt" "exiftool not installed correctly - See Dist Deps in the OPTIONS, INFO section of 'convmlv -h'."
isExit=true
fi
#Optionals
if [ ! -f $RAW_DUMP ]; then
nFound "Binary" "${RAW_DUMP}" "Execution will continue without .RAW processing capability" "Get it here: http://www.magiclantern.fm/forum/index.php?topic=5404.0."
fi
if [ ! -f $MLV_BP ]; then
nFound "SH Script" "${MLV_BP}" "Execution will continue without badpixel removal capability" "Get it here: https://bitbucket.org/daniel_fort/ml-focus-pixels/src"
fi
if [ ! -f $CR_HDR ]; then
nFound "Binary" "${CR_HDR}" "Execution will continue without Dual ISO processing capability" "Get it here: http://www.magiclantern.fm/forum/index.php?topic=7139.0"
fi
if [ ! -f $PYTHON_BAL ]; then
nFound "Python Script" "${PYTHON_BAL}" "Execution will continue without AWB" "Download from convmlv repository."
fi
if [ ! -d ${COLOR_LUTS[1]} ]; then
nFound "Folder" "color-ext" "Execution will continue without extra gamma/gamut options." "Download from convmlv repository."
fi
if [[ $isExit == true ]]; then
echo -e "\e[0;33m\e[1mPlace all downloaded files in RES_PATH - ${RES_PATH} - or give specific paths with the relevant arguments/config VARNAMEs (see 'convmlv -h'). Also, make sure they're executable (run 'chmod +x file').\e[0m\n"
exit 1
fi
#Option Checking - ideally, we do all of these. For now, I'm bored of it...
#Check wavelet NR - WAVE_NOISE
#Check TEMP_NOISE
#Check HQ_NOISE
#Check REM_NOISE
#Check SHARP
#Check SATPOINT
#Check WHITE_SPD
#Check BADPIXEL_PATH
#Check LUT size.
#badpixel info.
}
bold() {
echo -e "\e[1m${1}\e[0m"
}
folderName() {
#Like basename, but for folders.
echo "$1" | rev | cut -d$'/' -f1 | rev
}
prntSet() {
cat << EOF
$(bold CameraName): ${CAM_NAME}
$(bold RecordingDate): ${REC_DATE}
$(bold RecordingTime): ${REC_TIME}
$(bold FPS): ${FPS}
$(bold Resolution): ${RES_IN}
$(bold TotalFrames): ${FRAMES}
$(bold Aperture): ${APERTURE}
$(bold ISO): ${ISO}
$(bold ShutterSpeed): ${SHUTTER}
$(bold WBKelvin): ${KELVIN}
$(bold FocalLength): ${LEN_FOCAL}
EOF
}
mlvSet() {
camDump=$(${MLV_DUMP} -v -m ${ARG}) #Read it in *once*; otherwise it's unbearably slow on external media.
FPS=`echo "$camDump" | grep FPS | awk 'FNR == 1 {print $3}'`
CAM_NAME=`echo "$camDump" | grep 'Camera Name' | cut -d "'" -f 2`
FRAMES=`echo "$camDump" | awk '/Processed/ { print $2; }'` #Use actual processed frames as opposed to what the sometimes incorrect metadata thinks.
RES_IN=`echo "$camDump" | grep "Res" | sed 's/[[:alpha:] ]*: //'`
ISO=`echo "$camDump" | grep 'ISO' | sed 's/[[:alpha:] ]*: //' | cut -d$'\n' -f2`
APERTURE=`echo "$camDump" | grep 'Aperture' | sed 's/[[:alpha:] ]*: //' | cut -d$'\n' -f1`
LEN_FOCAL=`echo "$camDump" | grep 'Focal Len' | sed 's/[[:alpha:] ]*: //' | cut -d$'\n' -f1`
SHUTTER=`echo "$camDump" | grep 'Shutter' | sed 's/[[:alpha:] ]*: //' | grep -oP '\(\K[^)]+' | cut -d$'\n' -f1`
REC_DATE=`echo "$camDump" | grep 'Date' | sed 's/[[:alpha:] ]*: //' | cut -d$'\n' -f1`
REC_TIME=`echo "$camDump" | grep 'Time: [0-2][0-9]\:*' | sed 's/[[:alpha:] ]*: //' | cut -d$'\n' -f1`
KELVIN=`echo "$camDump" | grep 'Kelvin' | sed 's/[[:alpha:] ]*: //' | cut -d$'\n' -f1`
}
rawSet() { #To be implemented maybe - exiftool? Or raw_dump? ...
CAM_NAME="Unknown"
FRAMES="Unknown"
RES_IN="Unknown"
ISO="Unknown"
APERTURE="Unknown"
LEN_FOCAL="Unknown"
SHUTTER="Unknown"
REC_DATE="Unknown"
REC_TIME="Unknown"
KELVIN="Unknown"
}
dngSet() { #Set as many options as the RAW spec will allow. Grey out the rest.
dngLoc=$1
if [[ -z $dngLoc ]]; then dngLoc="${ARG}"; fi
for dng in $dngLoc/*.dng; do
dataDNG="$(pwd)/.datadng.dng"
cp $dng $dataDNG
break
done
FPS=24 #Standard FPS.
#Frames is taken care of.
CAM_NAME=$(exiftool -UniqueCameraModel -s -s -s $dataDNG)
RES_IN=$(exiftool -ImageSize -s -s -s $dataDNG)
ISO=$(exiftool -UniqueCameraModel -s -s -s $dataDNG)
APERTURE=$(exiftool -ApertureValue -s -s -s $dataDNG)
LEN_FOCAL=$(exiftool -FocalLength -s -s -s $dataDNG)
SHUTTER=$(exiftool -ShutterSpeed -s -s -s $dataDNG)
REC_DATE=$(echo "$(exiftool -DateTimeOriginal -s -s -s $dataDNG)" | cut -d$' ' -f1)
REC_TIME=$(echo "$(exiftool -DateTimeOriginal -s -s -s $dataDNG)" | cut -d$' ' -f2)
KELVIN="Unknown"
rm $dataDNG
}
if [ $# == 0 ]; then
echo -e "\e[0;31m\e[1mNo arguments given.\e[0m\n\tType 'convmlv -h/--help' to see help page, or 'convmlv -v/--version' for current version string."
fi
#MANUAL SANDBOXING + OPTION SOURCES - Making sure global, local, command line options all override each other correctly.
evalConf "$GCONFIG" false #Parse global config file.
parseArgs "$@" #First, parse all cli args. We only need the -C flag, but that forces us to just parse everything.
shift $((OPTIND-1)) #Shift past all of the options to the file arguments.
OPTIND=1 #To reset argument parsing, we must set OPTIND to 1.
evalConf "$LCONFIG" false #Parse local config file.
set -- $INPUT_ARGS #Reset $@ for cli option reparsing.
parseArgs "$@" #Reparse cli to overwrite local config options.
shift $((OPTIND-1))
OPTIND=1
ARGNUM=$#
FILE_ARGS="$@"
IFS=' ' read -r -a FILE_ARGS_ITER <<< $FILE_ARGS #Need to make it an array, for iteration over paths purposes.
trap "rm -rf ${TMP}; exit 1" INT #TMP will be removed if you CTRL+C.
for ARG in "${FILE_ARGS_ITER[@]}"; do #Go through FILE_ARGS_ITER array, copied from parsed $@ because $@ is going to be changing on 'set --'
if [[ $OSTYPE == "linux-gnu" ]]; then
ARG="$(readlink -f $ARG)" >/dev/null 2>/dev/null #Relative ARG only fixed on Linux, as readlink only exists in UNIX. Mac variant?
fi
#The Very Basics
BASE="$(basename "$ARG")"
EXT="${BASE##*.}"
if [[ "${EXT}" == ".${BASE}" ]]; then EXT=""; fi #This means the input is a folder, which has no extension.
DIRNAME=$(dirname "$ARG")
TRUNC_ARG="${BASE%.*}"
SCALE=`echo "($(echo "${PROXY_SCALE}" | sed 's/%//') / 100) * 2" | bc -l` #Get scale as factor for halved video, *2 for 50%
setBL=true
joinArgs() { local d=$1; shift; echo -n "$1"; shift; printf "%s" "${@/#/$d}"; }
#Evaluate convmlv.conf configuration file for file-specific blocks.
evalConf "$LCONFIG" true
#Check that things exist.
checkDeps
#Color Management - The Color LUT is chosen + applied.
#We define what "STANDARD" means. Gamma 2.2 if it's not specifically defined.
if [[ $COLOR_GAMUT != "xyz" ]]; then
#~ if [[ $COLOR_GAMUT == "aces" ]]; then #List of Linear Only gamuts. XYZ excluded, in that that's default output; no filtering needed.
#~ COLOR_GAMMA="lin"
#~ fi
if [[ $COLOR_GAMMA == "STANDARD" ]]; then
if [[ $COLOR_GAMUT == "argb" || $COLOR_GAMUT == "ssg3c" ]]; then #List of gamuts with Gamma 2.2 .
COLOR_GAMMA="y2*2"
else
COLOR_GAMMA=$COLOR_GAMUT
fi
fi
for source in "${COLOR_LUTS[@]}"; do
colorName="${source}/lin_xyz--${COLOR_GAMMA}_${COLOR_GAMUT}.cube"
if [[ -f $colorName ]]; then
COLOR_VF="lut3d=$colorName"
colorDesc="Color Management LUT"
FFMPEG_FILTERS=true
fi
done
if [[ $COLOR_VF == "" ]]; then
echo -e "\e[0;31m\e[1mSpecified LUT not found! Is color-ext loaded?.\e[0m\n"
fi
fi #COLOR_VF is nothing if the gamut is xyz - it'll pass directly out of dcraw/IM, without LUT application.
#Construct the FFMPEG filters.
FINAL_SCALE="scale=trunc(iw/2)*${SCALE}:trunc(ih/2)*${SCALE}"
if [[ $FFMPEG_FILTERS == true ]]; then
V_FILTERS="-vf $(joinArgs , ${COLOR_VF} ${LUTS[@]} ${HQ_NOISE} ${TEMP_NOISE} ${REM_NOISE} ${SHARP} ${DESHAKE})"
V_FILTERS_PROX="-vf $(joinArgs , ${COLOR_VF} ${LUTS[@]} ${HQ_NOISE} ${TEMP_NOISE} ${REM_NOISE} ${SHARP} ${DESHAKE} ${FINAL_SCALE})" #Proxy filter set adds the FINAL_SCALE component.
#Created formatted array of filters, FILTER_ARR.
compFilters=()
declare -a compFilters=("${colorDesc}" "${sharpDesc}" "${hqDesc}" "${tempDesc}" "${remDesc}" "${deshakeDesc}" "${lutDesc}")
for v in "${compFilters[@]}"; do if test "$v"; then FILTER_ARR+=("$v"); fi; done
else
V_FILTERS_PROX="-vf ${FINAL_SCALE}"
fi
#Potentially Print Settings
if [ $SETTINGS_OUTPUT == true ]; then
if [ $EXT == "MLV" ] || [ $EXT == "mlv" ]; then
# Read the header for interesting settings :) .
mlvSet
echo -e "\n\e[1m\e[0;32m\e[1mFile\e[0m: ${ARG}\n"
prntSet
continue
elif [ $EXT == "RAW" ] || [ $EXT == "raw" ]; then
rawSet
echo -e "\n\e[1m\e[0;32m\e[1mFile\e[0m\e[0m: ${ARG}\n"
prntSet
continue
elif [ -d $ARG ]; then
dngSet
echo -e "\n\e[1m\e[0;32m\e[1mFile\e[0m\e[0m: ${ARG}\n"
prntSet
continue
else
echo -e "Cannot print settings from ${ARG}; it's not an MLV file!"
continue
fi
fi
if [[ $MK_DARK == true ]]; then
echo -e "\n\e[1m\e[0;32m\e[1mAveraging Darkframe File\e[0m: ${ARG}"
$MLV_DUMP -o $DARK_OUT $ARG 2>/dev/null 1>/dev/null
echo -e "\n\e[1m\e[1mWrote Darkframe File\e[0m: ${DARK_OUT}\n"
continue
fi
#List remaining files to process.
remFiles=${@:`echo "$# - ($ARGNUM - 1)" | bc`:$#}
remArr=$(echo $remFiles)
list=""
for item in $remArr; do
itemBase=$(basename $item)
itemExt=".${itemBase##*.}" #Dot must be in here.
if [[ "${itemExt}" == ".${itemBase}" ]]; then itemExt=""; fi #This means the input is a folder, which has no extension.
itemDir=$(dirname "$item")
if [ -z "${list}" ]; then
if [[ $itemBase == $(basename $ARG) ]]; then
list="${itemDir}/\e[1m\e[32m${itemBase%.*}\e[0m${itemExt}"
else
list="${itemDir}/\e[1m${itemBase%.*}\e[0m${itemExt}"
fi
else
list="${list}, ${itemDir}/\e[1m${itemBase%.*}\e[0m${itemExt}"
fi
done
if [ $ARGNUM == 1 ]; then
echo -e "\n\e[1m${ARGNUM} File Left to Process:\e[0m ${list}\n"
else
echo -e "\n\e[1m${ARGNUM} Files Left to Process:\e[0m ${list}\n"
fi
#PREPARATION
#Establish Basic Directory Structure.
if [[ $OSTYPE == "linux-gnu" ]]; then
OUTDIR="$(readlink -f $OUTDIR)" >/dev/null 2>/dev/null #Relative Badpixel OUTDIR only fixed on Linux, as readlink only exists in UNIX. Mac variant?
fi
if [ $OUTDIR != $PWD ] && [ $isOutGen == false ]; then
mkdir -p $OUTDIR #NO RISKS. WE REMEMBER THE LUT.py. RIP ad-hoc HALD LUT implementation :'( .
isOutGen=true
fi
FILE="${OUTDIR}/${TRUNC_ARG}"
TMP="${FILE}/tmp_${TRUNC_ARG}"
setRange() {
#FRAMES must be set at this point.
if [[ $isFR == true ]]; then #Ensure that FRAME_RANGE is set with $FRAMES.
FRAME_RANGE="1-${FRAMES}"
FRAME_START="1"
FRAME_END=$FRAMES
else
base=$(echo $RANGE_BASE | sed -e 's:s:0:g' | sed -e "s:e:$(echo "$FRAMES - 1" | bc):g") #FRAMES is incremented in a moment.
#~ FRAME_RANGE_ZERO="$(echo $base | cut -d"-" -f1)-$(echo $base | cut -d"-" -f2)" #Number from 0. Useless as of now.
FRAME_RANGE="$(echo "$(echo $base | cut -d"-" -f1) + 1" | bc)-$(echo "$(echo $base | cut -d"-" -f2) + 1" | bc)" #Number from 1.
FRAME_START=$(echo ${FRAME_RANGE} | cut -d"-" -f1)
FRAME_END=$(echo ${FRAME_RANGE} | cut -d"-" -f2)
#Some error checking - out of range values default to start and end.
if [[ $FRAME_END -gt $FRAMES || $FRAME_END -lt $FRAME_START || $FRAME_END -lt 1 ]]; then FRAME_END=$FRAMES; fi
if [[ $FRAME_START -lt 1 || $FRAME_START -gt $FRAME_END ]]; then FRAME_START=1; fi
FRAME_RANGE="${FRAME_START}-${FRAME_END}"
fi
}
#DNG argument, reused or not. Also, create FILE and TMP.
DEVELOP=true
if [[ ( -d $ARG ) && ( ( `basename ${ARG} | cut -c1-3` == "dng" && -f "${ARG}/../settings.txt" ) || ( `basename ${ARG}` == $TRUNC_ARG && -f "${ARG}/settings.txt" ) ) ]]; then #If we're reusing a dng sequence, copy over before we delete the original.
echo -e "\e[1m${TRUNC_ARG}:\e[0m Moving DNGs from previous run...\n" #Use prespecified DNG sequence.
#User may specify either the dng_ or the trunc_arg folder; must account for both.
if [[ `folderName ${ARG}` == $TRUNC_ARG && -d "${ARG}/dng_${TRUNC_ARG}" ]]; then #Accounts for the trunc_arg folder.
ARG="${ARG}/dng_${TRUNC_ARG}" #Set arg to the dng argument.
elif [[ `folderName ${ARG}` == $TRUNC_ARG && `echo "$(basename ${ARG})" | cut -c 1-3` == "dng" ]]; then #Accounts for the dng_ folder.
TRUNC_ARG=`echo $TRUNC_ARG | cut -c5-${#TRUNC_ARG}`
else
echo -e "\e[0;31m\e[1mCannot reuse - DNG folder does not exist! Skipping argument.\e[0m"
continue
fi
DNG_LOC=${OUTDIR}/tmp_reused
mkdir -p ${OUTDIR}/tmp_reused
find $ARG -iname "*.dng" | xargs -I {} mv {} $DNG_LOC #Copying DNGs to temporary location.
dngSet "$DNG_LOC"
FPS=`cat ${ARG}/../settings.txt | grep "FPS" | cut -d $" " -f2` #Grab FPS from previous run.
FRAMES=`cat ${ARG}/../settings.txt | grep "Frames" | cut -d $" " -f2` #Grab FRAMES from previous run.
KELVIN=`cat ${ARG}/../settings.txt | grep "WBKelvin" | cut -d $" " -f2`
cp "${ARG}/../settings.txt" $DNG_LOC
oldARG="${ARG}"
DIRNAME=$(dirname "$oldARG")
BASE="$(basename "$oldARG")"
EXT=""
FILE="${OUTDIR}/${TRUNC_ARG}"
TMP="${FILE}/tmp_${TRUNC_ARG}" #Remove dng_ from ARG by redefining basic constants. Ready to go!
ARG="${FILE}/dng_${TRUNC_ARG}" #Careful. This won't exist till later.
dngLocClean() {
find $DNG_LOC -iname "*.dng" | xargs -I {} mv {} $oldARG
rm -rf $DNG_LOC
}
mkdirS $FILE dngLocClean
mkdirS $TMP #Make the folders.
find $DNG_LOC -iname "*.dng" | xargs -I {} mv {} $TMP #Moving files to where they need to go.
cp "${DNG_LOC}/settings.txt" $FILE
setBL=false
DEVELOP=false
rm -r $DNG_LOC
elif [ -d $ARG ]; then #If it's a DNG sequence, but not a reused one.
mkdirS $FILE
mkdirS $TMP
echo -e "\e[1m${TRUNC_ARG}:\e[0m Using specified folder of RAW sequences...\n" #Use prespecified DNG sequence.
setRange
i=1
for dng in $ARG/*.dng; do
cp $dng $(printf "${TMP}/${TRUNC_ARG}_%06d.dng" $i)
let i++
if [[ i -gt $FRAME_END ]]; then break; fi
done
FPS=24 #Set it to a safe default.
FRAMES=$(find ${TMP} -name "*.dng" | wc -l)
dngSet
DEVELOP=false #We're not developing DNG's; we already have them!
else
mkdirS $FILE
mkdirS $TMP
fi
#Darkframe Averaging
if [[ $useDF == true ]]; then
echo -e "\e[1m${TRUNC_ARG}:\e[0m Creating darkframe for subtraction...\n"
avgFrame="${TMP}/avg.darkframe" #The path to the averaged darkframe file.
#~ There was a bug - retest this.
darkBase="$(basename "$DARKFRAME")"
darkExt="${darkBase##*.}"
if [ $darkExt != 'darkframe' ]; then
$MLV_DUMP -o "${avgFrame}" -a $DARKFRAME >/dev/null 2>/dev/null
else
cp $DARKFRAME $avgFrame #Copy the preaveraged frame if the extension is .darkframe.
fi
RES_DARK=`echo "$(${MLV_DUMP} -v -m ${avgFrame})" | grep "Res" | sed 's/[[:alpha:] ]*: //'`
DARK_PROC="-s ${avgFrame}"
fi
#Develop sequence if needed.
if [ $DEVELOP == true ]; then
echo -e "\e[1m${TRUNC_ARG}:\e[0m Dumping to DNG Sequence...\n"
if [ ! $DARKFRAME == "" ] && [ ! $CHROMA_SMOOTH == "--no-cs" ]; then #Just to let the user know that certain features are impossible with RAW.
rawStat="*Skipping Darkframe subtraction and Chroma Smoothing for RAW file ${TRUNC_ARG}."
elif [ ! $DARKFRAME == "" ]; then
rawStat="*Skipping Darkframe subtraction for RAW file ${TRUNC_ARG}."
elif [ ! $CHROMA_SMOOTH == "--no-cs" ]; then
rawStat="*Skipping Chroma Smoothing for RAW file ${TRUNC_ARG}."
else
rawStat="\c"
fi
#IF extension is RAW, we want to convert to MLV. All the interesting features are MLV-only, because of mlv_dump's amazingness.
if [ $EXT == "MLV" ] || [ $EXT == "mlv" ]; then
# Read the header.
mlvSet
setRange
# Error checking: Darkframe resolution must match resolution.
if [[ (! -z $RES_DARK) && $RES_DARK != $RES_IN ]]; then
invOption "Darkframe Resolution doesn't match MLV Resolution! Use another darkframe!"
fi
#Dual ISO might want to do the chroma smoothing. In which case, don't do it now!
if [ $DUAL_ISO == true ]; then
smooth="--no-cs"
else
smooth=$CHROMA_SMOOTH
fi
#Create new MLV with adequate number of frames, if needed.
REAL_MLV=$ARG
REAL_FRAMES=$FRAMES
if [ $isFR == false ]; then
REAL_MLV="${TMP}/newer.mlv"
$MLV_DUMP $ARG -o ${REAL_MLV} -f ${FRAME_RANGE} >/dev/null 2>/dev/null
REAL_FRAMES=`${MLV_DUMP} ${REAL_MLV} | awk '/Processed/ { print $2; }'`
fi
fileRanges=(`echo $($SRANGE $REAL_FRAMES $THREADS)`) #Get an array of frame ranges from the amount of frames and threads. I used a python script for this.
#Looks like this: 0-1 2-2 3-4 5-5 6-7 8-8 9-10. Put that in an array.
devDNG() { #Takes n arguments: 1{}, the frame range 2$MLV_DUMP 3$REAL_MLV 4$DARK_PROC 5$no_data 6$smooth 7$TMP 8$FRAME_END 9$TRUNC_ARG 10$FRAME_START
range=$1
firstFrame=false
if [[ $range == "0-0" ]]; then #mlv_dump can't handle 0-0, so we develop 0-1.
range="0-1"
firstFrame=true
fi
tmpOut=${7}/${range} #Each output will number from 0, so give each its own folder.
mkdir -p $tmpOut
start=$(echo "$range" | cut -d'-' -f1)
end=$(echo "$range" | cut -d'-' -f2) #Get start and end frames from the frame range
$2 $3 $4 -o "${tmpOut}/${9}_" -f ${range} $6 --dng --batch | { #mlv_dump command. Uses frame range.
lastCur=0
while IFS= read -r line; do
output=$(echo $line | grep -Po 'V.*A' | cut -d':' -f2 | cut -d$' ' -f1) #Hacked my way to the important bit.
if [[ $output == "" ]]; then continue; fi #If there's no important bit, don't print.
cur=$(echo "$output" | cut -d'/' -f1) #Current frame.
if [[ $cur == $lastCur ]] || [[ $cur -gt $end ]] || [[ $cur -lt $start ]]; then continue; fi #Turns out, it goes through all the frames, even if cutting the frame range. So, clamp it!
lastCur=$cur #It likes to repeat itself.
echo -e "\e[2K\rMLV to DNG: Frame $(echo "${cur} + ${10}" | bc)/${8}\c" #Print out beautiful progress bar, in parallel!
done
} #Progress Bar
if [[ $firstFrame == true ]]; then #If 0-0.
rm $(printf "${tmpOut}/${9}_%06d.dng" 1) 2>/dev/null #Remove frame #1, leaving us only with frame #0.
mv $tmpOut "${7}/0-0" #Move back to 0-0, as if that's how it was developed all along.
fi
}
export -f devDNG #Export to run in subshell.
for range in "${fileRanges[@]}"; do echo $range; done | #For each frame range, assign a thread.
xargs -I {} -P $THREADS -n 1 \
bash -c "devDNG '{}' '$MLV_DUMP' '$REAL_MLV' '$DARK_PROC' 'no_data' '$smooth' '$TMP' '$FRAME_END' '$TRUNC_ARG' '$FRAME_START'"
#Since devDNG must run in a subshell, globals don't follow. Must pass *everything* in.
echo -e "\e[2K\rMLV to DNG: Frame ${FRAME_END}/${FRAME_END}\c" #Ensure it looks right at the end.
echo -e "\n"
count=$FRAME_START
for range in "${fileRanges[@]}"; do #Go through the subfolders sequentially
tmpOut=${TMP}/${range} #Use temporary folder. It will be named the same as the frame range.
for dng in ${tmpOut}/*.dng; do
if [ $count -gt $FRAME_END ]; then echo "ERROR! Count greater than end!"; fi
mv $dng $(printf "${TMP}/${TRUNC_ARG}_%06d.dng" $count) #Move dngs out sequentially, numbering them properly.
let count++
done
rm -r $tmpOut #Remove the now empty subfolder
done
elif [ $EXT == "RAW" ] || [ $EXT == "raw" ]; then
rawSet
setRange
echo -e $rawStat
FPS=`$RAW_DUMP $ARG "${TMP}/${TRUNC_ARG}_" | awk '/FPS/ { print $3; }'` #Run the dump while awking for the FPS.
fi
#~ BLACK_LEVEL=$(exiftool -BlackLevel -s -s -s ${TMP}/${TRUNC_ARG}_$(printf "%06d" $(echo "$FRAME_START" | bc)).dng)
fi
setRange #Just to be sure the frame range was set, in case the input isn't MLV.
BLACK_LEVEL=$(exiftool -BlackLevel -s -s -s ${TMP}/${TRUNC_ARG}_$(printf "%06d" $(echo "$FRAME_START" | bc)).dng) #Use the first DNG to get the correct black level.
prntSet > $FILE/settings.txt
sed -i -r "s/\x1B\[([0-9]{1,2}(;[0-9]{1,2})?)?[m|K]//g" $FILE/settings.txt #Strip escape sequences.
#Create badpixels file.
if [ $isBP == true ] && [ $DEVELOP == true ]; then
echo -e "\e[1m${TRUNC_ARG}:\e[0m Generating badpixels file...\n"
bad_name="badpixels_${TRUNC_ARG}.txt"
gen_bad="${TMP}/${bad_name}"
touch $gen_bad
if [ $EXT == "MLV" ] || [ $EXT == "mlv" ]; then
$MLV_BP -o $gen_bad $ARG
elif [ $EXT == "RAW" ] || [ $EXT == "raw" ]; then
$MLV_BP -o $gen_bad $ARG
fi
if [[ ! -z $BADPIXEL_PATH ]]; then
if [ -f "${gen_bad}" ]; then
echo -e "\e[1m${TRUNC_ARG}:\e[0m Concatenating with specified badpixels file...\n"
mv "${gen_bad}" "${TMP}/bp_gen"
cp $BADPIXEL_PATH "${TMP}/bp_imp"
{ cat "${TMP}/bp_gen" && cat "${TMP}/bp_imp"; } > "${gen_bad}" #Combine specified file with the generated file.
else
cp $BADPIXEL_PATH "${gen_bad}"
fi
fi
BADPIXELS="-P ${gen_bad}"
elif [[ ! -z $BADPIXEL_PATH ]]; then
echo -e "\e[1m${TRUNC_ARG}:\e[0m Using specified badpixels file...\n"
bad_name="badpixels_${TRUNC_ARG}.txt"
gen_bad="${TMP}/${bad_name}"
cp $BADPIXEL_PATH "${gen_bad}"
BADPIXELS="-P ${gen_bad}"
fi
#Dual ISO Conversion
if [ $DUAL_ISO == true ]; then
echo -e "\e[1m${TRUNC_ARG}:\e[0m Combining Dual ISO...\n"
#Original DNGs will be moved here.
oldFiles="${TMP}/orig_dng"
mkdirS $oldFiles
inc_iso() { #6 args: 1{} 2$CR_HDR 3$TMP 4$FRAME_END 5$oldFiles 6$CHROMA_SMOOTH. {} is a path. Progress is thread safe. Experiment gone right :).
count=$(echo "$(echo $(echo $1 | rev | cut -d "_" -f 1 | rev | cut -d "." -f 1 | grep "[0-9]") | bc) + 1" | bc) #Get count from filename.
$2 $1 $6 >/dev/null 2>/dev/null #The LQ option, --mean23, is completely unusable in my opinion.
name=$(basename "$1")
mv "${3}/${name%.*}.dng" $5 #Move away original dngs.
mv "${3}/${name%.*}.DNG" "${3}/${name%.*}.dng" #Rename *.DNG to *.dng.
echo -e "\e[2K\rDual ISO Development: Frame ${count}/${4}\c"
}
export -f inc_iso #Must expose function to subprocess.
#~ echo "${CR_HDR} ${TMP}/${TRUNC_ARG}_$(printf "%06d" $FRAME_START).dng"
if [[ $(${CR_HDR} "${TMP}/${TRUNC_ARG}_$(printf "%06d" $FRAME_START).dng") == *"ISO blending didn't work"* ]]; then
invOption "The input wasn't shot Dual ISO!"
fi
find $TMP -maxdepth 1 -name "*.dng" -print0 | sort -z | xargs -0 -I {} -P $THREADS -n 1 \
bash -c "inc_iso '{}' '$CR_HDR' '$TMP' '$FRAME_END' '$oldFiles' '$CHROMA_SMOOTH'"
BLACK_LEVEL=$(exiftool -BlackLevel -s -s -s ${TMP}/${TRUNC_ARG}_$(printf "%06d" $(echo "$FRAME_START" | bc)).dng) #Use the first DNG to get the new correct black level.
echo -e "\n"
fi
if [ $setBL == true ]; then
echo -e "BlackLevel: ${BLACK_LEVEL}" >> $FILE/settings.txt #Black level must now be set.
fi
normToOne() {
wBal=$1
max=0.0
for mult in $wBal; do
if [ $(echo " $mult > $max" | bc) -eq 1 ]; then
max=$mult
fi
done
for mult in $wBal; do
echo -e "$(echo "scale=6; x=${mult} / ${max}; if(x<1) print 0; x" | bc -l) \c" #BC is bae.
done
}
getGreen() {
wBal=$1
i=0
for mult in $wBal; do
if [ $i -eq 1 ]; then
echo -e "${mult}"
fi
let i++
done
}
#Get White Balance correction factor.
if [ $GEN_WHITE == true ]; then
echo -e "\e[1m${TRUNC_ARG}:\e[0m Generating WB...\n"
#Calculate n, the distance between samples.
frameLen=$(echo "$FRAME_END - $FRAME_START + 1" | bc) #Offset by one to avoid division by 0 errors later. min value must be 1.
#A point of improvement, this.
if [[ $WHITE_SPD -gt $frameLen ]]; then
WHITE_SPD=$frameLen
fi
n=`echo "${frameLen} / ${WHITE_SPD}" | bc`
toBal="${TMP}/toBal"
mkdirS $toBal
#Develop every nth file for averaging.
i=0
t=0
for file in $TMP/*.dng; do
if [ `echo "(${i}+1) % ${n}" | bc` -eq 0 ]; then
$DCRAW -q 0 $BADPIXELS -r 1 1 1 1 -g $GAMMA -k $BLACK_LEVEL $SATPOINT -o 0 -T "${file}"
name=$(basename "$file")
mv "$TMP/${name%.*}.tiff" $toBal #TIFF MOVEMENT. We use TIFFs here because it's easy for dcraw and Python.
let t++
fi
echo -e "\e[2K\rWB Development: Sample ${t}/$(echo "${frameLen} / $n" | bc) (Frame: $(echo "${i} + 1" | bc)/${FRAME_END})\c"
let i++
done
echo ""
#Calculate + store result into a form dcraw likes.
echo -e "Calculating Auto White Balance..."
BALANCE=`$BAL $toBal`
elif [ $CAMERA_WB == true ]; then
echo -e "\e[1m${TRUNC_ARG}:\e[0m Retrieving Camera White Balance..."
for file in $TMP/*.dng; do
#dcraw a single file verbosely, to get the camera multiplier with awk.
BALANCE=`$DCRAW -T -w -v -c ${file} 2>&1 | awk '/multipliers/ { print $2, $3, $4 }'`
break
done
else #Something must always be set.
echo -e "\e[1m${TRUNC_ARG}:\e[0m Ignoring White Balance..."
BALANCE="1.000000 1.000000 1.000000"
fi
#Finally, set the white balance after determining it.
if [ $isScale = false ]; then
BALANCE=$(normToOne "$BALANCE")
fi
green=$(getGreen "$BALANCE")
WHITE="-r ${BALANCE} ${green}"
echo -e "Correction Factor (RGBG): ${BALANCE} ${green}\n"
#Move .wav.
SOUND_PATH="${TMP}/${TRUNC_ARG}_.wav"
if [ ! -f $SOUND_PATH ]; then
echo -e "*Not moving .wav, because it doesn't exist.\n"
else
echo -e "*Moving .wav.\n"
cp $SOUND_PATH $FILE
fi
#DEFINE PROCESSING FUNCTIONS
dcrawOpt() { #Find, develop, and splay raw DNG data as ppm, ready to be processed.
find "${TMP}" -maxdepth 1 -iname "*.dng" -print0 | sort -z | tr -d "\n" | xargs -0 \
$DCRAW -c -q $DEMO_MODE $FOUR_COLOR -k $BLACK_LEVEL $SATPOINT $BADPIXELS $WHITE -H $HIGHLIGHT_MODE -g $GAMMA $WAVE_NOISE -o $SPACE $DEPTH
} #Is prepared to pipe all the files in TMP outwards.
dcrawImg() { #Find and splay image sequence data as ppm, ready to be processed by ffmpeg. Not working well.
find "${SEQ}" -maxdepth 1 -iname "*.${IMG_FMT}" -print0 | sort -z | xargs -0 -I {} convert '{}' -set colorspace sRGB -colorspace RGB ppm:-
} #Finds all images, prints to stdout, without any operations, using convert. ppm conversion is inevitably slow, however...
mov_main() {
ffmpeg -f image2pipe -vcodec ppm -r $FPS -i pipe:0 \
-loglevel panic -stats $SOUND -vcodec prores_ks -pix_fmt rgb48be -n -r $FPS -profile:v 4444 -alpha_bits 0 -vendor ap4h $V_FILTERS $SOUND_ACTION "${VID}_hq.mov"
} #-loglevel panic -stats
mov_prox() {
ffmpeg -f image2pipe -vcodec ppm -r $FPS -i pipe:0 \
-loglevel panic -stats $SOUND -c:v libx264 -n -r $FPS -preset fast $V_FILTERS_PROX -crf 23 -c:a mp3 "${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.
mov_main_img() {
ffmpeg -start_number $FRAME_START -loglevel panic -stats -f image2 -i ${SEQ}/${TRUNC_ARG}_%06d.${IMG_FMT} $SOUND -vcodec prores_ks \
-pix_fmt rgb48le -n -r $FPS -profile:v 4444 -alpha_bits 0 -vendor ap4h $V_FILTERS $SOUND_ACTION "${VID}_hq.mov"
}
mov_prox_img() {
ffmpeg -start_number $FRAME_START -loglevel panic -stats -f image2 -i ${SEQ}/${TRUNC_ARG}_%06d.${IMG_FMT} $V_FILTERS_PROX $SOUND -c:v libx264 \
-n -r $FPS -preset veryfast -crf 21 -c:a mp3 -b:a 320k "${VID}_lq.mp4"
}
runSim() {
# Command: cat $PIPE | cmd1 & cmdOrig | tee $PIPE | cmd2
# cat $PIPE | cmd1 - gives output of pipe live. Pipes it into cmd1. Nothing yet; just setup.
# & - runs the next part in the background.
# cmdOrig | tee $PIPE | cmd2 - cmdOrig pipes into the tee, which splits it back into the previous pipe, piping on to cmd2!
# End Result: Output of cmdOrig is piped into cmd1 and cmd2, which execute, both printing to stdout.
cmdOrig=$1
cmd1=$2
cmd2=$3
#~ echo $cmdOrig $cmd1 $cmd2
#~ echo $($cmdOrig)
PIPE="${TMP}/pipe_vid" # $(date +%s%N | cut -b1-13)"
mkfifo $PIPE 2>/dev/null
cat $PIPE | $cmd1 & $cmdOrig | tee $PIPE | $cmd2 #The magic of simultaneous execution ^_^
#~ cat $PIPE | tr 'e' 'a' & echo 'hello' | tee $PIPE | tr 'e' 'o' #The magic of simultaneous execution ^_^
}
img_par() { #Takes 22 arguments: {} 2$DEMO_MODE 3$FOUR_COLOR 4$BADPIXELS 5$WHITE 6$HIGHLIGHT_MODE 7$GAMMA 8$WAVE_NOISE 9$DEPTH 10$SEQ 11$TRUNC_ARG 12$IMG_FMT 13$FRAME_END 14$DEPTH_OUT 15$COMPRESS 16$isJPG 17$PROXY_SCALE 18$PROXY 19$BLACK_LEVEL 20$SPACE 21$SATPOINT 22$DCRAW 23$FFMPEG_FILTERS
count=$(echo $(echo $1 | rev | cut -d "_" -f 1 | rev | cut -d "." -f 1 | grep "[0-9]") | bc) #Instead of count from file, count from name!
DCRAW=${22}
DPXHACK=""
if [[ ${12^^} == "DPX" && ( ${23} == false ) ]]; then DPXHACK="-colorspace sRGB"; else DPXHACK=""; fi
#Trust me, I've tried everything else; but this sRGB transform works. Must be an IM bug. Keep an eye on it!
#The sRGB curve is only applied if going to DPX while DPX is the target image format. Aka. At the end; not in the middle.
if [ ${16} == true ]; then
$DCRAW -c -q $2 $3 $4 $5 -H $6 -k ${19} ${21} -g $7 $8 -o ${20} $9 $1 | \
tee >(convert ${14} - -set colorspace RGB ${DPXHACK} ${15} $(printf "${10}/${11}_%06d.${12}" ${count})) | \
convert - -set colorspace XYZ -quality 80 -colorspace sRGB -resize ${17} $(printf "${18}/${11}_%06d.jpg" ${count})
#JPGs don't get ffmpeg filters applied. They simply can't handle it.
echo -e "\e[2K\rDNG to ${12^^}/JPG: Frame ${count^^}/${13}\c"
else
$DCRAW -c -q $2 $3 $4 $5 -H $6 -k ${19} ${21} -g $7 $8 -o ${20} $9 $1 | \
convert ${14} - -set colorspace RGB ${DPXHACK} ${15} $(printf "${10}/${11}_%06d.${12}" ${count})
echo -e "\e[2K\rDNG to ${12^^}: Frame ${count^^}/${13}\c"
fi
}
#~ See http://www.imagemagick.org/discourse-server/viewtopic.php?t=21161
export -f img_par
#PROCESSING
#IMAGE PROCESSING
if [ $IMAGES == true ] ; then
echo -e "\e[1m${TRUNC_ARG}:\e[0m Processing Image Sequence from Frame ${FRAME_START} to ${FRAME_END}...\n"
#Define Image Directories, Create SEQ directory
SEQ="${FILE}/${IMG_FMT}_${TRUNC_ARG}"
PROXY="${FILE}/proxy_${TRUNC_ARG}"
mkdirS $SEQ
if [ $isJPG == true ]; then
mkdirS $PROXY
fi
#Define hardcoded compression based on IMG_FMT
if [ $isCOMPRESS == true ]; then
if [ $IMG_FMT == "exr" ]; then
COMPRESS="-compress piz"
elif [ $IMG_FMT == "tiff" ]; then
COMPRESS="-compress zip"
elif [ $IMG_FMT == "png" ]; then
COMPRESS="-quality 0"
elif [ $IMG_FMT == "dpx" ]; then
COMPRESS="-compress rle"
fi
fi
#Convert all the actual DNGs to IMG_FMT, in parallel.
find "${TMP}" -maxdepth 1 -name '*.dng' -print0 | sort -z | xargs -0 -I {} -P $THREADS -n 1 \
bash -c "img_par '{}' '$DEMO_MODE' '$FOUR_COLOR' '$BADPIXELS' '$WHITE' '$HIGHLIGHT_MODE' '$GAMMA' '$WAVE_NOISE' '$DEPTH' \
'$SEQ' '$TRUNC_ARG' '$IMG_FMT' '$FRAME_END' '$DEPTH_OUT' '$COMPRESS' '$isJPG' '$PROXY_SCALE' '$PROXY' '$BLACK_LEVEL' '$SPACE' '$SATPOINT' '$DCRAW' '$FFMPEG_FILTERS'"
# Removed | cut -d '' -f $FRAME_RANGE , as this happens when creating the DNGs in the first place.
if [ $isJPG == true ]; then #Make it print "Frame $FRAMES / $FRAMES" as the last output :).
echo -e "\e[2K\rDNG to ${IMG_FMT^^}/JPG: Frame ${FRAME_END}/${FRAME_END}\c"
else
echo -e "\e[2K\rDNG to ${IMG_FMT^^}: Frame ${FRAME_END}/${FRAME_END}\c"
fi
echo -e "\n"
tConvert() { #Arguments: 1$inFolder 2$outFolder 3$fromFMT 4$toFMT
inFolder=$1
outFolder=$2
fromFMT=$3
toFMT=$4
iccProf=$5
if [[ ! -z $iccProf ]]; then iccProf="+profile icm -profile $iccProf"; fi
conv_par() { # Arguments: 1${} 2$TRUNC_ARG 3$outFolder 4$fromFMT 5$iccProf 6$toFMT 7$DEPTH_OUT 8$compress 9$FRAME_END 10$IMG_FMT
count=$(echo $(echo $1 | rev | cut -d "_" -f 1 | rev | cut -d "." -f 1 | grep "[0-9]") | bc) #Get count from filename.
echo -e "\e[2K\rMiddle-step: ${4^^} to ${6^^}, Frame ${count^^}/${9}\c"
DPXHACK=""
if [[ ${6^^} == "DPX" && ${10^^} == ${6^^} ]]; then DPXHACK="-colorspace sRGB"; else DPXHACK=""; fi
#Trust me, I've tried everything else; but this sRGB transform works. Must be an IM bug. Keep an eye on it!
#The sRGB curve is only applied if going to DPX while DPX is the target image format. Aka. At the end; not in the middle.
convert ${7} ${1} ${5} $8 -set colorspace RGB ${DPXHACK} "${3}/$(printf "${2}_%06d" ${count}).${6}"
}
export -f conv_par
compress=""
if [[ ${IMG_FMT^^} == ${toFMT^^} ]]; then compress=${COMPRESS}; fi
find $inFolder -iname "*.${fromFMT}" -print0 | sort -z | xargs -0 -I {} -P $THREADS -n 1 \
bash -c "conv_par '{}' '$TRUNC_ARG' '$outFolder' '$fromFMT' '$iccProf' '$toFMT' '$DEPTH_OUT' '$compress' '$FRAME_END' '$IMG_FMT'"
echo ""
}
#FFMPEG Filter Application: Temporal Denoising, 3D LUTs, Deshake, hqdn Denoising, removegrain denoising, unsharp so far.
#See construction of $V_FILTERS in PREPARATION.
if [[ $FFMPEG_FILTERS == true ]]; then
tmpFiltered="${TMP}/filtered"
tmpUnfiltered="${TMP}/unfiltered"
mkdir $tmpFiltered
mkdir $tmpUnfiltered
#Give correct output.
echo -e "\e[1mApplying Filters:\e[0m $(joinArgs ", " "${FILTER_ARR[@]}")...\n"
applyFilters() { #Ideally, this would be all we need. But alas, ffmpeg + exr is broken.
IO=$1
FMT=$2
if [[ -z $FMT ]]; then FMT="${IMG_FMT}"; fi
ffmpeg -start_number $FRAME_START -f image2 -i "${IO}/${TRUNC_ARG}_%06d.${FMT}" -loglevel panic -stats $V_FILTERS \
-pix_fmt rgb48be -start_number $FRAME_START "${tmpFiltered}/${TRUNC_ARG}_%06d.${FMT}"
tConvert "$tmpFiltered" "$IO" "$FMT" "$FMT" # "/home/sofus/subhome/src/convmlv/color/lin_xyz--srgb_srgb.icc" - profile application didn't work...
}
if [[ $IMG_FMT == "exr" ]]; then
echo -e "Note: EXR filtering lags due to middle-step conversion (ffmpeg has no EXR encoder).\n"
img_res=$(identify ${SEQ}/${TRUNC_ARG}_$(printf "%06d" $(echo "$FRAME_START" | bc)).${IMG_FMT} | cut -d$' ' -f3)
tConvert "$SEQ" "$tmpUnfiltered" "$IMG_FMT" "dpx"
ffmpeg -start_number $FRAME_START -f image2 -vcodec dpx -s "${img_res}" -r $FPS -loglevel panic -stats -i "${tmpUnfiltered}/${TRUNC_ARG}_%06d.dpx" \
$V_FILTERS -pix_fmt rgb48be -vcodec dpx -n -r $FPS -start_number $FRAME_START ${tmpFiltered}/${TRUNC_ARG}_%06d.dpx
tConvert "$tmpFiltered" "$SEQ" "dpx" "$IMG_FMT"
else
applyFilters "$SEQ"
fi
echo ""
fi
fi
#MOVIE PROCESSING
VID="${FILE}/${TRUNC_ARG}"
SOUND="-i ${TMP}/${TRUNC_ARG}_.wav"
SOUND_ACTION="-c:a mp3 -b:a 320k"
if [ ! -f $SOUND_PATH ]; then
SOUND=""
SOUND_ACTION=""
fi
if [[ $MOVIE == true && $IMAGES == false && $isH264 == true ]]; then
echo -e "\e[1m${TRUNC_ARG}:\e[0m Encoding to ProRes/H.264..."
runSim dcrawOpt mov_main mov_prox
echo ""
elif [[ $MOVIE == true && $IMAGES == false && $isH264 == false ]]; then
echo -e "\e[1m${TRUNC_ARG}:\e[0m Encoding to ProRes..."
dcrawOpt | mov_main
echo ""
elif [[ $MOVIE == false && $IMAGES == false && $isH264 == true ]]; then
echo -e "\e[1m${TRUNC_ARG}:\e[0m Encoding to H.264..."
dcrawOpt | mov_prox
echo ""
elif [[ $IMAGES == true ]]; then
V_FILTERS="" #Only needed if reading from images.
V_FILTERS_PROX="-vf $FINAL_SCALE"
if [[ $IMG_FMT == "dpx" ]]; then
V_FILTERS="-vf lut3d=${COLOR_LUTS[0]}/srgb--lin.cube"
V_FILTERS_PROX="-vf lut3d=${COLOR_LUTS[0]}/srgb--lin.cube,$FINAL_SCALE" #We apply a sRGB to Linear 1D LUT if reading DPX. Because it's fucking broken.
fi
#Use images if available, as opposed to developing the files again.
if [[ $MOVIE == true && $isH264 == true ]]; then
echo -e "\e[1m${TRUNC_ARG}:\e[0m Encoding to ProRes/H.264..."
mov_main_img &
mov_prox_img &
wait
echo ""
elif [[ $MOVIE == true && $isH264 == false ]]; then
echo -e "\e[1m${TRUNC_ARG}:\e[0m Encoding to ProRes..."
mov_main_img
echo ""
elif [[ $MOVIE == false && $isH264 == true ]]; then
echo -e "\e[1m${TRUNC_ARG}:\e[0m Encoding to H.264..."
mov_prox_img
echo ""
fi
fi
#Potentially move DNGs.
if [ $KEEP_DNGS == true ]; then
echo -e "\e[1mMoving DNGs...\e[0m"
DNG="${FILE}/dng_${TRUNC_ARG}"
mkdirS $DNG
if [ $DUAL_ISO == true ]; then
oldFiles="${TMP}/orig_dng"
find $oldFiles -name "*.dng" | xargs -I '{}' mv {} $DNG #Preserve the original, unprocessed DNGs.
else
find $TMP -name "*.dng" | xargs -I '{}' mv {} $DNG
fi
fi
echo -e "\n\e[1mCleaning Up.\e[0m\n\n"
#Delete tmp
rm -rf $TMP
#MANUAL SANDBOXING - see note at the header of the loop.
set -- $INPUT_ARGS #Reset the argument input for reparsing again.
setDefaults #Hard reset everything.
OPTIND=1
evalConf "$GCONFIG" false #Rearse global config file.
parseArgs "$@" #First, parse args all to set LCONFIG.
shift $((OPTIND-1))
evalConf "$LCONFIG" false #Parse local config file.
set -- $INPUT_ARGS #Reset the argument input for reparsing again, over the local config file.
OPTIND=1
parseArgs "$@"
shift $((OPTIND-1))
let ARGNUM--
done
exit 0