chromium-src-build/sanitize-png-files.sh

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#!/bin/bash
# Copyright (c) 2010 The Chromium Authors. All rights reserved.
# Use of this source code is governed by a BSD-style license that can be
# found in the LICENSE file.
# The optimization code is based on pngslim (http://goo.gl/a0XHg)
# and executes a similar pipleline to optimize the png file size.
# The steps that require pngoptimizercl/pngrewrite/deflopt are omitted,
# but this runs all other processes, including:
# 1) various color-dependent optimizations using optipng.
# 2) optimize the number of huffman blocks.
# 3) randomize the huffman table.
# 4) Further optimize using optipng and advdef (zlib stream).
# Due to the step 3), each run may produce slightly different results.
#
# Note(oshima): In my experiment, advdef didn't reduce much. I'm keeping it
# for now as it does not take much time to run.
readonly ALL_DIRS="
ash/resources
ui/resources
chrome/app/theme
chrome/browser/resources
chrome/renderer/resources
webkit/glue/resources
remoting/resources
remoting/webapp
"
# Files larger than this file size (in bytes) will
# use the optimization parameters tailored for large files.
LARGE_FILE_THRESHOLD=3000
# Constants used for optimization
readonly DEFAULT_MIN_BLOCK_SIZE=128
readonly DEFAULT_LIMIT_BLOCKS=256
readonly DEFAULT_RANDOM_TRIALS=100
# Taken from the recommendation in the pngslim's readme.txt.
readonly LARGE_MIN_BLOCK_SIZE=1
readonly LARGE_LIMIT_BLOCKS=2
readonly LARGE_RANDOM_TRIALS=1
# Global variables for stats
TOTAL_OLD_BYTES=0
TOTAL_NEW_BYTES=0
TOTAL_FILE=0
PROCESSED_FILE=0
declare -a THROBBER_STR=('-' '\\' '|' '/')
THROBBER_COUNT=0
# Show throbber character at current cursor position.
function throbber {
echo -ne "${THROBBER_STR[$THROBBER_COUNT]}\b"
let THROBBER_COUNT=($THROBBER_COUNT+1)%4
}
# Usage: pngout_loop <file> <png_out_options> ...
# Optimize the png file using pngout with the given options
# using various block split thresholds and filter types.
function pngout_loop {
local file=$1
shift
local opts=$*
if [ $OPTIMIZE_LEVEL == 1 ]; then
for j in $(seq 0 5); do
throbber
pngout -q -k1 -s1 -f$j $opts $file
done
else
for i in 0 128 256 512; do
for j in $(seq 0 5); do
throbber
pngout -q -k1 -s1 -b$i -f$j $opts $file
done
done
fi
}
# Usage: get_color_depth_list
# Returns the list of color depth options for current optimization level.
function get_color_depth_list {
if [ $OPTIMIZE_LEVEL == 1 ]; then
echo "-d0"
else
echo "-d1 -d2 -d4 -d8"
fi
}
# Usage: process_grayscale <file>
# Optimize grayscale images for all color bit depths.
#
# TODO(oshima): Experiment with -d0 w/o -c0.
function process_grayscale {
echo -n "|gray"
for opt in $(get_color_depth_list); do
pngout_loop $file -c0 $opt
done
}
# Usage: process_grayscale_alpha <file>
# Optimize grayscale images with alpha for all color bit depths.
function process_grayscale_alpha {
echo -n "|gray-a"
pngout_loop $file -c4
for opt in $(get_color_depth_list); do
pngout_loop $file -c3 $opt
done
}
# Usage: process_rgb <file>
# Optimize rgb images with or without alpha for all color bit depths.
function process_rgb {
echo -n "|rgb"
for opt in $(get_color_depth_list); do
pngout_loop $file -c3 $opt
done
pngout_loop $file -c2
pngout_loop $file -c6
}
# Usage: huffman_blocks <file>
# Optimize the huffman blocks.
function huffman_blocks {
local file=$1
echo -n "|huffman"
local size=$(stat -c%s $file)
local min_block_size=$DEFAULT_MIN_BLOCK_SIZE
local limit_blocks=$DEFAULT_LIMIT_BLOCKS
if [ $size -gt $LARGE_FILE_THRESHOLD ]; then
min_block_size=$LARGE_MIN_BLOCK_SIZE
limit_blocks=$LARGE_LIMIT_BLOCKS
fi
let max_blocks=$size/$min_block_size
if [ $max_blocks -gt $limit_blocks ]; then
max_blocks=$limit_blocks
fi
for i in $(seq 2 $max_blocks); do
throbber
pngout -q -k1 -ks -s1 -n$i $file
done
}
# Usage: random_huffman_table_trial <file>
# Try compressing by randomizing the initial huffman table.
#
# TODO(oshima): Try adjusting different parameters for large files to
# reduce runtime.
function random_huffman_table_trial {
echo -n "|random"
local file=$1
local old_size=$(stat -c%s $file)
local trials_count=$DEFAULT_RANDOM_TRIALS
if [ $old_size -gt $LARGE_FILE_THRESHOLD ]; then
trials_count=$LARGE_RANDOM_TRIALS
fi
for i in $(seq 1 $trials_count); do
throbber
pngout -q -k1 -ks -s0 -r $file
done
local new_size=$(stat -c%s $file)
if [ $new_size -lt $old_size ]; then
random_huffman_table_trial $file
fi
}
# Usage: final_comprssion <file>
# Further compress using optipng and advdef.
# TODO(oshima): Experiment with 256.
function final_compression {
echo -n "|final"
local file=$1
if [ $OPTIMIZE_LEVEL == 2 ]; then
for i in 32k 16k 8k 4k 2k 1k 512; do
throbber
optipng -q -nb -nc -zw$i -zc1-9 -zm1-9 -zs0-3 -f0-5 $file
done
fi
for i in $(seq 1 4); do
throbber
advdef -q -z -$i $file
done
echo -ne "\r"
}
# Usage: get_color_type <file>
# Returns the color type name of the png file. Here is the list of names
# for each color type codes.
# 0 : grayscale
# 2 : RGB
# 3 : colormap
# 4 : gray+alpha
# 6 : RGBA
# See http://en.wikipedia.org/wiki/Portable_Network_Graphics#Color_depth
# for details about the color type code.
function get_color_type {
local file=$1
echo $(file $file | awk -F, '{print $3}' | awk '{print $2}')
}
# Usage: optimize_size <file>
# Performs png file optimization.
function optimize_size {
tput el
local file=$1
echo -n "$file "
advdef -q -z -4 $file
pngout -q -s4 -c0 -force $file $file.tmp.png
if [ -f $file.tmp.png ]; then
rm $file.tmp.png
process_grayscale $file
process_grayscale_alpha $file
else
pngout -q -s4 -c4 -force $file $file.tmp.png
if [ -f $file.tmp.png ]; then
rm $file.tmp.png
process_grayscale_alpha $file
else
process_rgb $file
fi
fi
echo -n "|filter"
local old_color_type=$(get_color_type $file)
optipng -q -zc9 -zm8 -zs0-3 -f0-5 $file -out $file.tmp.png
local new_color_type=$(get_color_type $file.tmp.png)
# optipng may corrupt a png file when reducing the color type
# to grayscale/grayscale+alpha. Just skip such cases until
# the bug is fixed. See crbug.com/174505, crbug.com/174084.
# The issue is reported in
# https://sourceforge.net/tracker/?func=detail&aid=3603630&group_id=151404&atid=780913
if [[ $old_color_type == "RGBA" && $new_color_type =~ gray.* ]] ; then
rm $file.tmp.png
echo -n "[skip opting]"
else
mv $file.tmp.png $file
fi
pngout -q -k1 -s1 $file
huffman_blocks $file
# TODO(oshima): Experiment with strategy 1.
echo -n "|strategy"
if [ $OPTIMIZE_LEVEL == 2 ]; then
for i in 3 2 0; do
pngout -q -k1 -ks -s$i $file
done
else
pngout -q -k1 -ks -s1 $file
fi
if [ $OPTIMIZE_LEVEL == 2 ]; then
random_huffman_table_trial $file
fi
final_compression $file
}
# Usage: process_file <file>
function process_file {
local file=$1
local name=$(basename $file)
# -rem alla removes all ancillary chunks except for tRNS
pngcrush -d $TMP_DIR -brute -reduce -rem alla $file > /dev/null
if [ $OPTIMIZE_LEVEL != 0 ]; then
optimize_size $TMP_DIR/$name
fi
}
# Usage: sanitize_file <file>
function sanitize_file {
local file=$1
local name=$(basename $file)
local old=$(stat -c%s $file)
local tmp_file=$TMP_DIR/$name
process_file $file
local new=$(stat -c%s $tmp_file)
let diff=$old-$new
let percent=($diff*100)/$old
let TOTAL_FILE+=1
tput el
if [ $new -lt $old ]; then
echo -ne "$file : $old => $new ($diff bytes : $percent %)\n"
mv "$tmp_file" "$file"
let TOTAL_OLD_BYTES+=$old
let TOTAL_NEW_BYTES+=$new
let PROCESSED_FILE+=1
else
if [ $OPTIMIZE_LEVEL == 0 ]; then
echo -ne "$file : skipped\r"
fi
rm $tmp_file
fi
}
function sanitize_dir {
local dir=$1
for f in $(find $dir -name "*.png"); do
sanitize_file $f
done
}
function install_if_not_installed {
local program=$1
dpkg -s $program > /dev/null 2>&1
if [ "$?" != "0" ]; then
read -p "Couldn't find $program. Do you want to install? (y/n)"
[ "$REPLY" == "y" ] && sudo apt-get install $program
[ "$REPLY" == "y" ] || exit
fi
}
function fail_if_not_installed {
local program=$1
local url=$2
which $program > /dev/null
if [ $? != 0 ]; then
echo "Couldn't find $program. Please download and install it from $url"
exit 1
fi
}
function show_help {
local program=$(basename $0)
echo \
"Usage: $program [options] dir ...
$program is a utility to reduce the size of png files by removing
unnecessary chunks and compressing the image.
Options:
-o<optimize_level> Specify optimization level: (default is 1)
0 Just run pngcrush. It removes unnecessary chunks and perform basic
optimization on the encoded data.
1 Optimize png files using pngout/optipng and advdef. This can further
reduce addtional 5~30%. This is the default level.
2 Aggressively optimize the size of png files. This may produce
addtional 1%~5% reduction. Warning: this is *VERY*
slow and can take hours to process all files.
-h Print this help text."
exit 1
}
if [ ! -e ../.gclient ]; then
echo "$0 must be run in src directory"
exit 1
fi
OPTIMIZE_LEVEL=1
# Parse options
while getopts o:h opts
do
case $opts in
o)
if [[ ! "$OPTARG" =~ [012] ]]; then
show_help
fi
OPTIMIZE_LEVEL=$OPTARG
[ "$1" == "-o" ] && shift
shift;;
[h?])
show_help;;
esac
done
# Make sure we have all necessary commands installed.
install_if_not_installed pngcrush
if [ $OPTIMIZE_LEVEL != 2 ]; then
install_if_not_installed optipng
install_if_not_installed advancecomp
fail_if_not_installed advdef "http://advancemame.sourceforge.net/comp-download.html"
fail_if_not_installed pngout "http://www.jonof.id.au/kenutils"
fi
# Create tmp directory for crushed png file.
TMP_DIR=$(mktemp -d)
# Make sure we cleanup temp dir
trap "rm -rf $TMP_DIR" EXIT
# If no directories are specified, sanitize all directories.
DIRS=$@
set ${DIRS:=$ALL_DIRS}
echo "Optimize level=$OPTIMIZE_LEVEL"
for d in $DIRS; do
echo "Sanitizing png files in $d"
sanitize_dir $d
echo
done
# Print the results.
let diff=$TOTAL_OLD_BYTES-$TOTAL_NEW_BYTES
let percent=$diff*100/$TOTAL_OLD_BYTES
echo "Processed $PROCESSED_FILE files (out of $TOTAL_FILE files)" \
"in $(date -u -d @$SECONDS +%T)s"
echo "Result : $TOTAL_OLD_BYTES => $TOTAL_NEW_BYTES bytes" \
"($diff bytes : $percent %)"