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#!/bin/sh
#
# Author(s): Felix Endres
# Dirk von Suchodoletz, 04-07-2006
#
# Copyright: (c) 2006 - RZ Universitaet Freiburg
#
# Description:
#
# This script gives information about recommended display modes for the
# attached monitor
# The script tries to guess whether the attached monitor is a lcd or
# a crt based on age, display size and pixel size.
# For CRTs the script tries to determine which screen modes are
# convenient to work with:
# - High resolutions are not recommended for small displays, because
# everything on the screen would be too tiny.
# - The highest resolution is not recommended if the refresh rate is
# not known or lower than 80 Hz
# - Though the mode 1400x1050 never shows up in the ddc info, it is
# Recommended as a replacement for 1600x1200 if that one is not.
#
## For CRTs determine recommended screen modes ####################################################
# enable debugging in higher debug levels
[ -z "$DEBUGLEVEL" ] && DEBUGLEVEL=0
[ $DEBUGLEVEL -gt 1 ] && DEBUG="yes"
# heavy debugging output in level 3 and above ...
[ $DEBUGLEVEL -gt 3 -a $DEBUGLEVEL -lt 8 -o $DEBUGLEVEL -eq 14 ] && set -x
# Define some default output values if the script fails to find better values
# Empty defaults, s.t. hwautocfg defines the defaults
default_horiz_freq_range_khz="" #"31.5-63.5"
default_vert_freq_range_hz="" #"60-90"
default_recommended_screen_modes="" #'"1024x768" "800x600" "640x480"'
calculate_max_horizontal_freq () {
highest_resolution=` echo $screen_resolutions | sed -n 's/"\([0-9x]*\)".*/\1/p'`
[ -z $highest_resolution ] && return # if the highest resolution can not be extracted, the frequency can not be calculated
freq_for_highest_res=`sed -n /$highest_resolution'/s/[^@]*@\([0-9]\{2,3\}\).*/\1/p' $tmp_ddcprobe_output | sort -nr|sed -n 1p`
if [ -z "$freq_for_highest_res" ]; then
#Search for a number followed by the term "Hz" in the same line as the highest resolution
freq_for_highest_res=`sed -n /$highest_resolution'/s/.*[^a-zA-Z0-9]\([0-9]\{2,3\}\)[ \t]*[Hh][Zz].*/\1/p' $tmp_ddcprobe_output | sort -nr|sed -n 1p`
fi
[ -n "$DEBUG" ] && echo " # Vertical Frequency for highest resolution.: $freq_for_highest_res"
if [ -z "$freq_for_highest_res" ]; then
[ -n "$DEBUG" ] && echo "Vertical Frequency not available. Calculation not possible. Return default value."
horiz_freq_range_khz=$default_horiz_freq_range_khz
return
fi
highest_res_line_count=` echo $highest_resolution | sed -n 's/.*[0-9]*x//p'`
[ -n "$DEBUG" ] && echo " # of lines in highest res.: $highest_res_line_count"
horiz_freq_khz=$(( $highest_res_line_count * $freq_for_highest_res / 950)) # 950 = 0,95 * 1000 (invisible range * Kilohertz)
[ -n "$DEBUG" ] && echo " Assumed Horizontal Frequency: $horiz_freq_khz"
horiz_freq_range_khz="31.5-$horiz_freq_khz"
}
determine_recommended_crt_modes () {
## Introduce the standard resolution 1400x1050 as it is seldom in the list the monitors output, though supported
[ -n "$DEBUG" ] && echo "Screen Modes: $screen_resolutions"
if [ -z "`echo $screen_resolutions|sed -n /1400/p`" ]; then
[ -n "$DEBUG" ] && echo "Inserting 1400x1050 (if 1600x.... is present"
# Insert "1400x1050" after 1600x.... (of course only if a 1600er res. is there because 1400x1050 would otherwise be listed)
screen_resolutions=`echo $screen_resolutions|sed 's/\(.*"1600x[0-9]*"\)\(.*\)/\1 "1400x1050"\2/'`
fi
# For CRTs check if the highest frequency can be displayed with reasonable refresh rate (> 80Hz)
highest_resolution=` echo $screen_resolutions | sed -n 's/"\([0-9x]*\)" .*/\1/p'`
#Search for an @ in the same line as the highest resolution; FIXME: Sort only considers the vertical resolution
freq_for_highest_res=`sed -n /$highest_resolution'/s/[^@]*@\([0-9]\{2,3\}\).*/\1/p' $tmp_ddcprobe_output | sort -nr|sed -n 1p`
#echo $freq_for_highest_res
if [ -z "$freq_for_highest_res" ]; then
#Search for a number followed by the term "Hz" in the same line as the highest resolution
freq_for_highest_res=`sed -n /$highest_resolution'/s/.*[^a-zA-Z0-9]\([0-9]\{2,3\}\)[ \t]*[Hh][Zz].*/\1/p' $tmp_ddcprobe_output | sort -nr|sed -n 1p`
fi
# Assure that the highest resolution is removed if we do not know at what refresh rate it is displayed
# Chances are it would be flickering at that resolution
if [ -z "$freq_for_highest_res" ]; then
freq_for_highest_res=75 # Assume 75 Hz to be the least a monitor is able to do.
fi
# Cut the first resolution if it is displayed with less than 85Hz
# It's assumed here, that the second best resolution will be displayed with > 85Hz
if [ $freq_for_highest_res -lt 85 ]; then
screen_resolutions=` echo $screen_resolutions | sed -n 's/"[0-9x]*" \(.*\)/\1/p'`
fi
define_max_recommended_horizontal_pixel_count # sets max_wanted_resolution
# max_wanted_resolution="$?"
[ -n "$DEBUG" ] && echo " The screen is too small for resolutions greater than ${max_wanted_resolution}x...."
# Fetch the first resolution in the list
new_highest_resolution=` echo $screen_resolutions | sed -n 's/"\([0-9x]*\)" .*/\1/p'`
[ -n "$DEBUG" ] && echo " new highest resolution: $new_highest_resolution"
new_highest_horizontal_resolution=`echo $new_highest_resolution | sed -n 's/\([0-9]*\)x.*/\1/p'`
[ -n "$DEBUG" ] && echo " new_highest_horizontal_resolution: $new_highest_horizontal_resolution"
while [ $new_highest_horizontal_resolution -gt $max_wanted_resolution ]; do
# Cut the highest resolution because the display size is to small for it to be convenient
screen_resolutions=` echo $screen_resolutions | sed -n 's/"[0-9x]*" \(.*\)/\1/p'`
new_highest_resolution=` echo $screen_resolutions | sed -n 's/"\([0-9x]*\)".*/\1/p'`
[ -n "$DEBUG" ] && echo " new highest resolution: $new_highest_resolution"
new_highest_horizontal_resolution=`echo $new_highest_resolution | sed -n 's/\([0-9]*\)x.*/\1/p'`
[ -n "$DEBUG" ] && echo " new_highest_horizontal_resolution: $new_highest_horizontal_resolution"
done
##########
}
define_max_recommended_horizontal_pixel_count () {
## To high resolutions are not wanted on small screens #####################################
# For 15 inch and below
if [ $screen_size_in_qcm -lt 704 ]; then max_wanted_resolution=1024
# For 15" to 17"
elif [ $screen_size_in_qcm -lt 918 ]; then max_wanted_resolution=1280
# For 17" to 19"
elif [ $screen_size_in_qcm -gt 1121 ]; then max_wanted_resolution=1400
else max_wanted_resolution=50000 # Accept any resolution on Monitors above 19"
fi
[ -n "$DEBUG" ] && echo " Max. recommended resolution: $max_wanted_resolution"
#return $max_wanted_resolution
}
#TODO command line arguments processing (--help --defaults)
tmp_ddcprobe_output=$1
if [ -z $tmp_ddcprobe_output ]; then
tmp_ddcprobe_output=/tmp/ddcprobe_output
ddcprobe | sed "y/ABCDEFGHIJKLMNOPQRSTUVWXYZ/abcdefghijklmnopqrstuvwxyz/" \
> ${tmp_ddcprobe_output}
fi
# fixme: parameter I is not compatible with busybox - how to circumvent?
failed=`sed -n '/edid.*failed/p' ${tmp_ddcprobe_output}`
if [ -n "$failed" ]; then
echo "Error: Display seems to be incapable of providing DDC Information"
# Print Defaults OPTIMIZEME: The defaults could be command line parameters
echo "Recommended Screen Modes: $default_recommended_screen_modes"
echo "Horizontal Frequency Range (kHz): $default_horiz_freq_range_khz"
echo "Vertical Frequency Range (Hz): $default_vert_freq_range_hz"
exit 1;
fi
screen_size_in_qcm=$((`sed -n "s/screen.*size[^0-9]*\([0-9]*\)[^0-9]*\([0-9]*\).*/\1 * \2/p" ${tmp_ddcprobe_output}`))
max_pixels=$((`echo "\`sed -n '/edid/,$s/.*[ \t]\([0-9]\{3,4\}\)x\([0-9]\{3,4\}\).*/\2 * \1/p' ${tmp_ddcprobe_output}|sort -rn| sed -n 1p\`"`))
manufacturing_year=`sed -n 's/manufact.*\([12][90][0-9][0-9]\).*/\1/p' ${tmp_ddcprobe_output}`
[ -n "$DEBUG" ] && echo "Maximal Resolution: $max_pixels"
# 640x400 (below)
if [ -z $screen_size_in_qcm ] || [ -z $manufacturing_year ] || [ 256000 -gt $max_pixels ] ; then
echo "Error: Display seems to be incapable of providing all relevant DDC Information"
# Print Defaults OPTIMIZEME: The defaults could be command line parameters
echo "Recommended Screen Modes: $default_recommended_screen_modes"
echo "Horizontal Frequency Range (kHz): $default_horiz_freq_range_khz"
echo "Vertical Frequency Range (Hz): $default_vert_freq_range_hz"
exit 1;
fi
## Determine probabilitiy for TFT ###########################################
pix_per_qcm=$(($max_pixels/$screen_size_in_qcm))
echo "Display size: $screen_size_in_qcm qcm"
echo "Max Pixels per qcm: $pix_per_qcm"
echo "Manufacturing year: $manufacturing_year"
# Set probability for having an LCD by means of age and size
# 15" ~ 30.6cm x 23cm
# 17" ~ 34cm x 27cm (17,1")
# 19" ~ 38,6cm x 29cm
# if older than 1998 it is most probably not a LCD
if [ $manufacturing_year -lt 1998 ] ;then tft_probability=1
# if older than 2002 is probably no LCD, especially if larger than 15"
elif [ $manufacturing_year -lt 2002 ];then
if [ $screen_size_in_qcm -gt 704 ]; then tft_probability=1
else tft_probability=20
fi
# if older than 2003 is maybe no LCD, yet for sure if larger than 17"
elif [ $manufacturing_year -lt 2003 ];then
if [ $screen_size_in_qcm -gt 918 ]; then tft_probability=5
else tft_probability=40
fi
# if older than 2005 is probable an LCD, but not if larger than 19"
elif [ $manufacturing_year -lt 2005 ];then
if [ $screen_size_in_qcm -gt 1121 ]; then tft_probability=10
else tft_probability=60
fi
# in 2005 few people would buy a (new) CRT
elif [ $manufacturing_year -lt 2006 ];then tft_probability=90
# after 2006 nobody would buy a new CRT
else tft_probability=99
fi
if [ $pix_per_qcm -gt 1599 ]; then tft_probability=$(($tft_probability - 15))
else tft_probability=$(($tft_probability + 15))
fi
if [ -n "$DEBUG" ];then
echo -ne "Is a TFT: "
if [ $tft_probability -ge 50 ]; then
echo -n "true"
else echo -n "false"
fi
echo " ($tft_probability)"
fi
# Find the lines with two times 3 to 4 digits delimited by an x. Print with the two values reverted, so sort sorts w.r.t the 2nd value. Then swap back
# Minor problem: If two Modes are found in a line, the second one is used.
screen_resolutions=`sed -n '/edid/,$s/\(.*[ \t]\)*\([0-9]\{3,4\}\) *x *\([0-9]\{3,4\}\).*/\3 x \2/p' ${tmp_ddcprobe_output}| sort -rn | sort -rnu | sed -n 's/\([0-9]\{3,4\}\) x \([0-9]\{3,4\}\).*/"\2x\1"/p' `
screen_resolutions=`echo $screen_resolutions`
echo "Supported Screen Modes: $screen_resolutions"
######## Vertical and horizontal frequency ranges #########
# find a line with the word range and and numbers with a minus in the middle (e.g 123-321)
frequency_ranges=`sed '/range/!d;s/[^0-9]*\([1-9][0-9]\)[ \t]*-[ \t]*\([1-9][0-9]*\)[^0-9]*\([1-9][0-9]*\)[ \t]*-[ \t]*\([1-9][0-9]*\).*/\1-\2 \3-\4/' ${tmp_ddcprobe_output}`
set -- $frequency_ranges # split into $1 und $2
if [ -z "$frequency_ranges" ] && [ $tft_probability -lt 50 ]; then
calculate_max_horizontal_freq # gives us $horiz_freq_range_khz
horiz_freq_range="$horiz_freq_range_khz"
else horiz_freq_range=$1
fi
########################################
if [ $tft_probability -lt 50 ]; then
determine_recommended_crt_modes;
fi
echo "Recommended Screen Modes: $screen_resolutions"
#Fixme: How to Calculate the Vertical Refresh rate?
echo "Horizontal Frequency Range (kHz): $horiz_freq_range"
echo "Vertical Frequency Range (Hz): $2"
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