modules/remote_bitrate_estimator/test/plot_bars.sh - src - Git at Google

 #!/bin/bash

 # Copyright (c) 2013 The WebRTC project authors. All Rights Reserved.
 #
 # Use of this source code is governed by a BSD-style license
 # that can be found in the LICENSE file in the root of the source
 # tree. An additional intellectual property rights grant can be found
 # in the file PATENTS.  All contributing project authors may
 # be found in the AUTHORS file in the root of the source tree.

 # To set up in e.g. Eclipse, run a separate shell and pipe the output from the
 # test into this script.
 #
 # In Eclipse, that amounts to creating a Run Configuration which starts
 # "/bin/bash" with the arguments "-c [trunk_path]/out/Debug/modules_unittests
 # --gtest_filter=*BweTest* | [trunk_path]/webrtc/modules/
 # remote_bitrate_estimator/test/plot_bars.sh

 # This script supports multiple figures (windows), the figure is specified as an
 # identifier at the first argument after the PLOT command. Each figure has a
 # single y axis and a dual y axis mode. If any line specifies an axis by ending
 # with "#<axis number (1 or 2)>" two y axis will be used, the first will be
 # assumed to represent bitrate (in kbps) and the second will be assumed to
 # represent time deltas (in ms).

 log=$(</dev/stdin)

 # Plot histograms.
 function gen_gnuplot_bar_input {
   x_start=1
   x_end=3.75
   bars=$(echo "$log" | grep "BAR")

   labels=$(echo "$log" | grep "^LABEL")
   figures=($(echo "$bars" | cut -f 2 | sort | uniq))

   echo "reset"  # Clears previous settings.

   echo "set title font 'Verdana,22'"
   echo "set xtics font 'Verdana,24'"
   echo "set ytics font 'Verdana,14'"
   echo "set ylabel font 'Verdana,16'"

   echo "set xrange[$x_start:$x_end]"
   echo "set style fill solid 0.5"
   echo "set style fill solid border -1"

   declare -a ydist=(11.5 10.5 10.5)  # Used to correctly offset the y label.
   i=0
   for figure in "${figures[@]}" ; do

     echo "set terminal wxt $figure size 440,440 dashed"
     echo "set ylabel offset ${ydist[$i]}, -3"
     (( i++ ))

     title=$(echo "$labels" | grep "^LABEL.$figure" | cut -f 3 | \
                                          head -n 1 | sed 's/_/ /g')
     y_label=$(echo "$labels" | grep "^LABEL.$figure" | cut -f 4 | \
                                          head -n 1 | sed 's/_/ /g')

     # RMCAT flows.
     num_flows=$(echo "$labels" | grep "^LABEL.$figure" | cut -f 5 | \
                                          head -n 1)

     # RMCAT algorithm 1.
     x_label_1=$(echo "$log" | grep "BAR.$figure" | cut -f 3 | sed 's/_/\t/g' \
                                  | cut -f 1  | sort | uniq | head -n 1 )

     # RMCAT algorithm 2.
     x_label_2=$(echo "$log" | grep "BAR.$figure" | cut -f 3 | sed 's/_/\t/g' \
                                  | cut -f 1  | sort | uniq |  sed -n 2p)

     x_labels="('$x_label_1' 2, '$x_label_2' 3)"
     tcp_flow=false

     tcp_space=0.2  # Extra horizontal space between bars.

     # Parse labels if there are other flows in addition to RMCAT ones.
     IFS='x' read -ra split_label_1 <<< "$x_label_1"

     if (( ${#split_label_1[@]} > "1" )); then
       tcp_flow=true
       box_width=$(echo "(1.0-$tcp_space/2)/$num_flows" | bc -l)
       echo "set xtics font 'Verdana,16'"
       x_labels="("
       delimiter=""
       abscissa=$(echo $x_start + 0.5 + 0.5*$box_width | bc)
       for label in "${split_label_1[@]}" ; do
         x_labels+="$delimiter'$label' $abscissa"
         abscissa=$(echo $abscissa + $box_width | bc)
         delimiter=", "
       done
       abscissa=$(echo $abscissa + $tcp_space | bc)
       IFS='x' read -ra split_label_2 <<< "$x_label_2"
       for label in "${split_label_2[@]}" ; do
         x_labels+="$delimiter'$label' $abscissa"
         abscissa=$(echo $abscissa + $box_width | bc)
       done
       x_labels="$x_labels)"
     else
       box_width=$(echo 1.0/$num_flows | bc -l)
     fi

     echo "set boxwidth $box_width"

     # Plots can be directly exported to image files.
     file_name=$(echo "$labels" | grep "^LABEL.$figure" | cut -f 5 | head -n 1)

     y_max=0  # Used to scale the plot properly.

     # Scale all latency plots with the same vertical scale.
     delay_figure=5
     if (( $figure==$delay_figure )) ; then
       y_max=400
     else  # Take y_max = 1.1 * highest plot value.

       # Since only the optimal bitrate for the first flow is being ploted,
       # consider only this one for scalling purposes.
       data_sets=$(echo "$bars" | grep "LIMITERRORBAR.$figure" | cut -f 3 | \
                                      sed 's/_/\t/g' | cut -f 1 | sort | uniq)

       if (( ${#data_sets[@]} > "0" )); then
         for set in $data_sets ; do
           y=$(echo "$bars" | grep "LIMITERRORBAR.$figure.$set" | cut -f 8 | \
                                                                   head -n 1)
           if (( $(bc <<< "$y > $y_max") == 1 )); then
             y_max=$y
           fi
         done
       fi

       data_sets=$(echo "$bars" | grep "ERRORBAR.$figure" | cut -f 3 | \
                                                                sort | uniq)
       if (( ${#data_sets[@]} > "0" )); then
         for set in $data_sets ; do
           y=$(echo "$bars" | grep "ERRORBAR.$figure.$set" | cut -f 6 | \
                                                                  head -n 1)
           if (( $(bc <<< "$y > $y_max") == 1 )) ; then
             y_max=$y
           fi
         done
       fi

       data_sets=$(echo "$bars" | grep "BAR.$figure" | cut -f 3 | sort | uniq)

       for set in $data_sets ; do
         y=$(echo "$bars" | grep "BAR.$figure.$set" | cut -f 4 | head -n 1)
         if (( $(bc <<< "$y > $y_max") == 1 )) ; then
           y_max=$y
         fi
       done

       y_max=$(echo $y_max*1.1 | bc)
     fi


     echo "set ylabel \"$y_label\""
     echo "set yrange[0:$y_max]"

     echo "set multiplot"

     # Plot bars.
     data_sets=$(echo "$bars" | grep "BAR.$figure" | cut -f 3 | sort | uniq)

     echo "set xtics $x_labels"
     echo "plot '-' using 1:4:2 with boxes lc variable notitle"

     echo

     color=11  # Green.
     x_bar=$(echo $x_start + 0.5 + 0.5*$box_width | bc)
     for set in $data_sets ; do
       echo -n "$x_bar  $color  "
       echo "$bars" | grep "BAR.$figure.$set" | cut -f 3,4

       # Add extra space if TCP flows are being plotted.
       if $tcp_flow && \
           (( $(bc <<< "$x_bar < $x_start + 1.5 - 0.5*$tcp_space") == 1 )) && \
           (( $(bc <<< "$x_bar + $box_width > $x_start + 1.5 + 0.5*$tcp_space") \
            == 1 )); then
           x_bar=$(echo $x_bar + $tcp_space | bc)
       fi

       x_bar=$(echo $x_bar + $box_width | bc)

       if (( $(bc <<< "$x_bar > 2.5") == 1 )) ; then
         color=12  # Blue.
       fi
       # Different bar color for TCP flows:
       if $tcp_flow && \
          (( $(bc <<< "(100*$x_bar)%100 < 50") == 1 ))
       then
         color=18  # Gray.
       fi
     done
     echo "e"

     # Plot Baseline bars, e.g. one-way path delay on latency plots.
     data_sets=$(echo "$log" | grep "BASELINE.$figure" | cut -f 3 | sort | uniq)

     if (( ${#data_sets} > "0" )); then
       echo "set xtics $x_labels"
       echo "plot '-' using 1:4:2 with boxes lc variable notitle"

       echo

       color=18  # Gray.
       x_bar=$(echo $x_start + 0.5 + 0.5*$box_width | bc)
       for set in $data_sets ; do
         echo -n "$x_bar  $color  "
         echo "$log" | grep "BASELINE.$figure.$set" | cut -f 3,4

         # Add extra space if TCP flows are being plotted.
         if $tcp_flow && \
             (( $(bc <<< "$x_bar < $x_start + 1.5 - 0.5*$tcp_space") == 1 )) && \
             (( $(bc <<< "$x_bar + $box_width > $x_start + 1.5 \
             + 0.5*$tcp_space") == 1 )); then
             x_bar=$(echo $x_bar + $tcp_space | bc)
         fi

         x_bar=$(echo $x_bar + $box_width | bc)

       done
       echo "e"
     fi

     # Plot vertical error lines, e.g. y +- sigma.
     data_sets=$(echo "$bars" | grep "ERRORBAR.$figure" | cut -f 3 | sort | uniq)

     if (( ${#data_sets} > "0" )); then

       echo "set key left"
       error_title=$(echo "$bars" | grep "ERRORBAR.$figure" | cut -f 7 | \
                                                  head -n 1 | sed 's/_/ /g')

       echo "set xtics $x_labels"
       echo "plot '-' using 1:3:4:5 title '$error_title' with yerr"

       x_error_line=$(echo $x_start + 0.5 + 0.5*$box_width | bc)
       for set in $data_sets ; do
         echo -n "$x_error_line  "
         echo "$bars" | grep "ERRORBAR.$figure.$set" | cut -f 3,4,5,6

         # Add extra space if TCP flows are being plotted.
         if $tcp_flow && \
           (( $(bc <<< "$x_error_line < $x_start + 1.5 - 0.5*$tcp_space") == 1 \
           )) && (( $(bc <<< "$x_error_line + $box_width > $x_start + 1.5 \
           + 0.5*$tcp_space") == 1 )); then
           x_error_line=$(echo $x_error_line + $tcp_space | bc)
         fi

         x_error_line=$(echo $x_error_line + $box_width | bc)
       done
       echo "e"
     fi

     # Plot horizontal dashed lines, e.g. y = optimal bitrate.
     data_sets=$(echo "$bars" | grep "LIMITERRORBAR.$figure" | cut -f 3 \
                                                      | sort | uniq)
     if (( ${#data_sets} > "0" )); then

       echo "set style line 1 lt 1 lw 3 pt 3 ps 0 linecolor rgb 'black'"

       limit_titles=$(echo "$bars" | grep "LIMITERRORBAR.$figure" | cut -f 9 \
                                                          | sort | uniq)

       for title in $limit_titles ; do
         y_max=$(echo "$bars" | grep "LIMITERRORBAR.$figure" | grep "$title" \
                                                | cut -f 8 | head -n 1)

         retouched_title=$(echo "$title" | sed 's/#/\t/g' | cut -f 1 \
                                                          | sed 's/_/ /g')

         echo "set key right top"
         echo "set xtics $x_labels"
         echo "plot $y_max lt 7 lw 1 linecolor rgb 'black' \
                                   title '$retouched_title'"
       done

     fi

     echo "unset multiplot"
   done
 }

 gen_gnuplot_bar_input | gnuplot -persist
	#!/bin/bash

	# Copyright (c) 2013 The WebRTC project authors. All Rights Reserved.
	#
	# Use of this source code is governed by a BSD-style license
	# that can be found in the LICENSE file in the root of the source
	# tree. An additional intellectual property rights grant can be found
	# in the file PATENTS. All contributing project authors may
	# be found in the AUTHORS file in the root of the source tree.

	# To set up in e.g. Eclipse, run a separate shell and pipe the output from the
	# test into this script.
	#
	# In Eclipse, that amounts to creating a Run Configuration which starts
	# "/bin/bash" with the arguments "-c [trunk_path]/out/Debug/modules_unittests
	# --gtest_filter=BweTest \| [trunk_path]/webrtc/modules/
	# remote_bitrate_estimator/test/plot_bars.sh

	# This script supports multiple figures (windows), the figure is specified as an
	# identifier at the first argument after the PLOT command. Each figure has a
	# single y axis and a dual y axis mode. If any line specifies an axis by ending
	# with "#<axis number (1 or 2)>" two y axis will be used, the first will be
	# assumed to represent bitrate (in kbps) and the second will be assumed to
	# represent time deltas (in ms).

	log=$(</dev/stdin)

	# Plot histograms.
	function gen_gnuplot_bar_input {
	x_start=1
	x_end=3.75
	bars=$(echo "$log" \| grep "BAR")

	labels=$(echo "$log" \| grep "^LABEL")
	figures=($(echo "$bars" \| cut -f 2 \| sort \| uniq))

	echo "reset" # Clears previous settings.

	echo "set title font 'Verdana,22'"
	echo "set xtics font 'Verdana,24'"
	echo "set ytics font 'Verdana,14'"
	echo "set ylabel font 'Verdana,16'"

	echo "set xrange[$x_start:$x_end]"
	echo "set style fill solid 0.5"
	echo "set style fill solid border -1"

	declare -a ydist=(11.5 10.5 10.5) # Used to correctly offset the y label.
	i=0
	for figure in "${figures[@]}" ; do

	echo "set terminal wxt $figure size 440,440 dashed"
	echo "set ylabel offset ${ydist[$i]}, -3"
	(( i++ ))

	title=$(echo "$labels" \| grep "^LABEL.$figure" \| cut -f 3 \| \
	head -n 1 \| sed 's/_/ /g')
	y_label=$(echo "$labels" \| grep "^LABEL.$figure" \| cut -f 4 \| \
	head -n 1 \| sed 's/_/ /g')

	# RMCAT flows.
	num_flows=$(echo "$labels" \| grep "^LABEL.$figure" \| cut -f 5 \| \
	head -n 1)

	# RMCAT algorithm 1.
	x_label_1=$(echo "$log" \| grep "BAR.$figure" \| cut -f 3 \| sed 's/_/\t/g' \
	\| cut -f 1 \| sort \| uniq \| head -n 1 )

	# RMCAT algorithm 2.
	x_label_2=$(echo "$log" \| grep "BAR.$figure" \| cut -f 3 \| sed 's/_/\t/g' \
	\| cut -f 1 \| sort \| uniq \| sed -n 2p)

	x_labels="('$x_label_1' 2, '$x_label_2' 3)"
	tcp_flow=false

	tcp_space=0.2 # Extra horizontal space between bars.

	# Parse labels if there are other flows in addition to RMCAT ones.
	IFS='x' read -ra split_label_1 <<< "$x_label_1"

	if (( ${#split_label_1[@]} > "1" )); then
	tcp_flow=true
	box_width=$(echo "(1.0-$tcp_space/2)/$num_flows" \| bc -l)
	echo "set xtics font 'Verdana,16'"
	x_labels="("
	delimiter=""
	abscissa=$(echo $x_start + 0.5 + 0.5*$box_width \| bc)
	for label in "${split_label_1[@]}" ; do
	x_labels+="$delimiter'$label' $abscissa"
	abscissa=$(echo $abscissa + $box_width \| bc)
	delimiter=", "
	done
	abscissa=$(echo $abscissa + $tcp_space \| bc)
	IFS='x' read -ra split_label_2 <<< "$x_label_2"
	for label in "${split_label_2[@]}" ; do
	x_labels+="$delimiter'$label' $abscissa"
	abscissa=$(echo $abscissa + $box_width \| bc)
	done
	x_labels="$x_labels)"
	else
	box_width=$(echo 1.0/$num_flows \| bc -l)
	fi

	echo "set boxwidth $box_width"

	# Plots can be directly exported to image files.
	file_name=$(echo "$labels" \| grep "^LABEL.$figure" \| cut -f 5 \| head -n 1)

	y_max=0 # Used to scale the plot properly.

	# Scale all latency plots with the same vertical scale.
	delay_figure=5
	if (( $figure==$delay_figure )) ; then
	y_max=400
	else # Take y_max = 1.1 * highest plot value.

	# Since only the optimal bitrate for the first flow is being ploted,
	# consider only this one for scalling purposes.
	data_sets=$(echo "$bars" \| grep "LIMITERRORBAR.$figure" \| cut -f 3 \| \
	sed 's/_/\t/g' \| cut -f 1 \| sort \| uniq)

	if (( ${#data_sets[@]} > "0" )); then
	for set in $data_sets ; do
	y=$(echo "$bars" \| grep "LIMITERRORBAR.$figure.$set" \| cut -f 8 \| \
	head -n 1)
	if (( $(bc <<< "$y > $y_max") == 1 )); then
	y_max=$y
	fi
	done
	fi

	data_sets=$(echo "$bars" \| grep "ERRORBAR.$figure" \| cut -f 3 \| \
	sort \| uniq)
	if (( ${#data_sets[@]} > "0" )); then
	for set in $data_sets ; do
	y=$(echo "$bars" \| grep "ERRORBAR.$figure.$set" \| cut -f 6 \| \
	head -n 1)
	if (( $(bc <<< "$y > $y_max") == 1 )) ; then
	y_max=$y
	fi
	done
	fi

	data_sets=$(echo "$bars" \| grep "BAR.$figure" \| cut -f 3 \| sort \| uniq)

	for set in $data_sets ; do
	y=$(echo "$bars" \| grep "BAR.$figure.$set" \| cut -f 4 \| head -n 1)
	if (( $(bc <<< "$y > $y_max") == 1 )) ; then
	y_max=$y
	fi
	done

	y_max=$(echo $y_max*1.1 \| bc)
	fi


	echo "set ylabel \"$y_label\""
	echo "set yrange[0:$y_max]"

	echo "set multiplot"

	# Plot bars.
	data_sets=$(echo "$bars" \| grep "BAR.$figure" \| cut -f 3 \| sort \| uniq)

	echo "set xtics $x_labels"
	echo "plot '-' using 1:4:2 with boxes lc variable notitle"

	echo

	color=11 # Green.
	x_bar=$(echo $x_start + 0.5 + 0.5*$box_width \| bc)
	for set in $data_sets ; do
	echo -n "$x_bar $color "
	echo "$bars" \| grep "BAR.$figure.$set" \| cut -f 3,4

	# Add extra space if TCP flows are being plotted.
	if $tcp_flow && \
	(( $(bc <<< "$x_bar < $x_start + 1.5 - 0.5*$tcp_space") == 1 )) && \
	(( $(bc <<< "$x_bar + $box_width > $x_start + 1.5 + 0.5*$tcp_space") \
	== 1 )); then
	x_bar=$(echo $x_bar + $tcp_space \| bc)
	fi

	x_bar=$(echo $x_bar + $box_width \| bc)

	if (( $(bc <<< "$x_bar > 2.5") == 1 )) ; then
	color=12 # Blue.
	fi
	# Different bar color for TCP flows:
	if $tcp_flow && \
	(( $(bc <<< "(100*$x_bar)%100 < 50") == 1 ))
	then
	color=18 # Gray.
	fi
	done
	echo "e"

	# Plot Baseline bars, e.g. one-way path delay on latency plots.
	data_sets=$(echo "$log" \| grep "BASELINE.$figure" \| cut -f 3 \| sort \| uniq)

	if (( ${#data_sets} > "0" )); then
	echo "set xtics $x_labels"
	echo "plot '-' using 1:4:2 with boxes lc variable notitle"

	echo

	color=18 # Gray.
	x_bar=$(echo $x_start + 0.5 + 0.5*$box_width \| bc)
	for set in $data_sets ; do
	echo -n "$x_bar $color "
	echo "$log" \| grep "BASELINE.$figure.$set" \| cut -f 3,4

	# Add extra space if TCP flows are being plotted.
	if $tcp_flow && \
	(( $(bc <<< "$x_bar < $x_start + 1.5 - 0.5*$tcp_space") == 1 )) && \
	(( $(bc <<< "$x_bar + $box_width > $x_start + 1.5 \
	+ 0.5*$tcp_space") == 1 )); then
	x_bar=$(echo $x_bar + $tcp_space \| bc)
	fi

	x_bar=$(echo $x_bar + $box_width \| bc)

	done
	echo "e"
	fi

	# Plot vertical error lines, e.g. y +- sigma.
	data_sets=$(echo "$bars" \| grep "ERRORBAR.$figure" \| cut -f 3 \| sort \| uniq)

	if (( ${#data_sets} > "0" )); then

	echo "set key left"
	error_title=$(echo "$bars" \| grep "ERRORBAR.$figure" \| cut -f 7 \| \
	head -n 1 \| sed 's/_/ /g')

	echo "set xtics $x_labels"
	echo "plot '-' using 1:3:4:5 title '$error_title' with yerr"

	x_error_line=$(echo $x_start + 0.5 + 0.5*$box_width \| bc)
	for set in $data_sets ; do
	echo -n "$x_error_line "
	echo "$bars" \| grep "ERRORBAR.$figure.$set" \| cut -f 3,4,5,6

	# Add extra space if TCP flows are being plotted.
	if $tcp_flow && \
	(( $(bc <<< "$x_error_line < $x_start + 1.5 - 0.5*$tcp_space") == 1 \
	)) && (( $(bc <<< "$x_error_line + $box_width > $x_start + 1.5 \
	+ 0.5*$tcp_space") == 1 )); then
	x_error_line=$(echo $x_error_line + $tcp_space \| bc)
	fi

	x_error_line=$(echo $x_error_line + $box_width \| bc)
	done
	echo "e"
	fi

	# Plot horizontal dashed lines, e.g. y = optimal bitrate.
	data_sets=$(echo "$bars" \| grep "LIMITERRORBAR.$figure" \| cut -f 3 \
	\| sort \| uniq)
	if (( ${#data_sets} > "0" )); then

	echo "set style line 1 lt 1 lw 3 pt 3 ps 0 linecolor rgb 'black'"

	limit_titles=$(echo "$bars" \| grep "LIMITERRORBAR.$figure" \| cut -f 9 \
	\| sort \| uniq)

	for title in $limit_titles ; do
	y_max=$(echo "$bars" \| grep "LIMITERRORBAR.$figure" \| grep "$title" \
	\| cut -f 8 \| head -n 1)

	retouched_title=$(echo "$title" \| sed 's/#/\t/g' \| cut -f 1 \
	\| sed 's/_/ /g')

	echo "set key right top"
	echo "set xtics $x_labels"
	echo "plot $y_max lt 7 lw 1 linecolor rgb 'black' \
	title '$retouched_title'"
	done

	fi

	echo "unset multiplot"
	done
	}

	gen_gnuplot_bar_input \| gnuplot -persist