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Other useful stuff:

{{{#!highlight sh numbers=off
parallel -u 'echo {}; cjpeg -outfile {}.mozjpeg -optimise -progressive -quality 90 {} && mv {}.mozjpeg {}' ::: *.jpg
parallel -u 'echo {}; convert {} -sampling-factor "2x2,1x1,1x1" {}.422 && mv {}.422 {}' ::: *.jpg
}}}
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parallel -u'optipng -o3 {}; advpng -z -4 {}; advdef -z -4 {}' -n 64 ::: *png parallel -n 64 -u 'optipng -o3 {}; advpng -z -4 {}; advdef -z -4 {}' ::: *png
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pngcrush is another tool that unfortunately does not work as well as the above, but can be run in parallel with:

{{{#!highlight sh numbers=off
parallel -u 'echo {}; pngcrush -reduce -brute {} {}.pngcrush && mv {}.pngcrush {}' ::: *.png
# Remove color space information
parallel -u 'echo {}; pngcrush -reduce -brute -rem gAMA -rem cHRM -rem iCCP -rem sRGB {} {}.pngcrush && mv {}.pngcrush {}' ::: *.png
}}}

JPEG

jpegtran (part of libjpeg-progs in Debian) can losslessly optimize JPEG files: 

parallel -u 'echo {}; jpegtran -optimize -progressive -perfect -copy all -outfile {}.tran {} && mv {}.tran {}' ::: *.jpg

Source: /dev/schnouki - Optimizing JPEG pictures

Another interesting tool is jpegoptim (jpegoptim on freshmeat): 

parallel jpegoptim ::: *.jpg

though the compression does not appear to be as good, and it's known to wipe JPEG metadata even when told not to.

Other useful stuff: 

parallel -u 'echo {}; cjpeg -outfile {}.mozjpeg -optimise -progressive -quality 90 {} && mv {}.mozjpeg {}' ::: *.jpg
parallel -u 'echo {}; convert {} -sampling-factor "2x2,1x1,1x1" {}.422 && mv {}.422 {}' ::: *.jpg

PNG

256 color (8-bit)

Converting to 8-bit PNG (maximum of 256 colors) saves a significant amount of space, though this should be done BEFORE other optimization: 

find . -name '*png' -print0 | xargs -0 -n64 -P$(nproc) pngnq -e .8 -n 256
find . -name '*.8' -exec echo mv '{}' '{}'.png \; | sed 's/\.8\./\./'

To take advantage of OS file caching, 8-bit conversion and PNG optimization can be wrapped into a script, optimize-png-8bit: 

   1 #!/bin/sh
   2 for i in "$@"; do
   3         pngnq -e .png.8 -n 256 $i
   4         mv $i.8 $i
   5 done
   6 optipng -quiet -o3 $@
   7 advpng -z -4 $@
   8 advdef -z -4 $@

which you can run in parallel with: 

find . -name '*png' -print0 | xargs -0 -n64 -P$(nproc) optimize-png-8bit

Full color

find . -name '*png' -print0 | xargs -0 -n64 -P$(nproc) optipng -o3
find . -name '*png' -print0 | xargs -0 -n64 -P$(nproc) advpng -z -4
find . -name '*png' -print0 | xargs -0 -n64 -P$(nproc) advdef -z -4

# Or
parallel -n 64 -u 'optipng -o3 {}; advpng -z -4 {}; advdef -z -4 {}' ::: *png

To take advantage of OS file caching, PNG optimization can be wrapped into a script, optimize-png: 

   1 #!/bin/sh
   2 optipng -quiet -o3 $@
   3 advpng -z -4 $@
   4 advdef -z -4 $@

which you can run in parallel with: 

find . -name '*png' -print0 | xargs -0 -n64 -P$(nproc) optimize-png

pngcrush is another tool that unfortunately does not work as well as the above, but can be run in parallel with: 

parallel -u 'echo {}; pngcrush -reduce -brute {} {}.pngcrush && mv {}.pngcrush {}' ::: *.png
# Remove color space information
parallel -u 'echo {}; pngcrush -reduce -brute -rem gAMA -rem cHRM -rem iCCP -rem sRGB {} {}.pngcrush && mv {}.pngcrush {}' ::: *.png

CategoryCheatSheet

SamatsWiki: CheatSheet/ImageOptimization (last edited 2020-04-06 10:04:17 by SamatJain)