Develop Reference

How to plot several Y axis in the left side using gnuplot

I am plotting same plot as from here How to plot multiple y-axes?. But also i would like them to look like in the image below. With additional lines and tics, how can i do it?

As mentioned in the answer you linked, you can plot many plots on top of each other in the multiplot environment.
So, here you are plotting 6 plots on top of each other
plot 1, 2, 3 for the data/functions
plot 4, 5, 6 for the colored axes
and plot 6 as well for the key on top of everything
In order to get the same scale for the plot and the "external" axes I would recommend to store the ranges and step sizes in the variables y10,y11,y1d, ...., such that you have to change the values only at one location.
Script:
reset session
set key opaque box noautotitle
set multiplot
set margins screen 0.3, screen 0.95, screen 0.95, screen 0.1 # l,r,t,b
# first plot
set xrange[0:10]
set xtics 2
y10 = -1.2
y11 = 1.2
y1d = 0.4
set yrange [y10:y11]
set ytics y1d
set format y '' # no ytic labels
set grid x,y
plot sin(x) lc "red"
# second plot
set border 0 # no border
unset tics # no tics
unset grid # no grid
y20 = -3.0
y21 = 3.0
y2d = 1.0
set yrange [y20:y21]
plot 3*cos(x) lc "green"
# third plot
y30 = -1.5
y31 = 1.5
y3d = 0.5
set yrange [y30:y31]
plot 3*sin(x)*cos(x) lc "blue"
# plot for axis 1
set lmargin screen 0.27
set border 2 lc "red" lw 2
set ylabel "Voltage" tc "red" offset 1.5,0
set yrange [y10:y11]
set format y
set ytics y1d nomirror
plot NaN
# plot for axis 2
set lmargin screen 0.17
set border 2 lc "green" lw 2
set ylabel "Current" tc "green" offset 0.5,0
set yrange [y20:y21]
set ytics y2d
plot NaN
# plot for axis 3 and key
set lmargin screen 0.08
set border 2 lc "blue" lw 2
set ylabel "Power" tc "blue" offset 1,0
set yrange [y30:y31]
set ytics y3d
plot NaN w l lc "red" ti "sin(x)", \
NaN w l lc "green" ti "3*cos(x)", \
NaN w l lc "blue" ti "3*sin(x)*cos(x)"
unset multiplot
### end of script
Result:

Polar plot in gnuplot

I have a problem. Im trying to do a polar plot, the fact it's that i want to plot some theorical line as some experimental data in the plot. But the theorical line has a range different of the experimental data because i had to do it like that to had gnuplot paint it.
I have the following script:
####
reset
set encoding utf8
set size 1,1
set terminal epslatex
set output "direccionalidad.tex"
unset border
set polar
set angles degrees #set gnuplot on degrees instead of radians
set style line 10 lt 1 lc 0 lw 0.3
set grid polar 30 #set the grid to be displayed every 60 degrees
set grid ls 10
set trange[-90:90]
f(t)=27.934*sin(1.81651*t+96.1991) # Theorical line
set xrange[-31:32]
set yrange[-30:30]
set xtics axis #disply the xtics on the axis instead of on the border
set ytics axis
set xtics scale 0 #"remove" the tics so that only the y tics are displayedj
set ytics (0, 6, 12) #make the ytics go from the center (0) to 6000 with incrment of 1000
unset ytics
set xtics ("5" 6, "15" 16.5, "30" 32)
# set the xtics only go from 0 to 6000 with increment of1000 but do not display anything. This has to be done otherwise the grid will not be displayed correctly.
set rtics (5,15,30)
set rtics format ' ' scale 0
set_label(x, text) = sprintf("set label '%s' at (32*cos(%f)), (32*sin(%f)) center", text, x, x) #this places a label on the outside
eval set_label(0, "0")
eval set_label(30, "30")
eval set_label(60, "60")
eval set_label(90, "90")
eval set_label(120, "120")
eval set_label(150, "150")
eval set_label(180, "180")
eval set_label(-150, "-150")
eval set_label(-120, "-120")
eval set_label(-90, "-90")
eval set_label(-60, "-60")
eval set_label(-30, "-30")
set size square
#PLOTS
plot "direccionalidaddatos.txt" u 1:3 pointtype 7 ps 2 lt 1 lw 3 lc rgb 'blue' notitle ,\
f(t) dt '-' lc rgb 'blue' notitle
#ACABAMOS
###
And here there are some examples of columns in the direccionalidaddatos.txt archive, the column in the middle it's just the angle in radians but it's usless cause i just want the angle in degrees so just ignore it ;):
-90 -1.570796327 0.1
-85 -1.483529864 0.2
-80 -1.396263402 0.4
-75 -1.308996939 0.7
-70 -1.221730476 1.1
-65 -1.134464014 1.7
-60 -1.047197551 2.5
#
And the result it is the image Polar plot
As you see in the image there are two branches that have no points, i want those branches to simply don't disappear cause they don't mean notihng in the graphic.So if anyone knows a form to made dissapear the branches, or to improve the script let me know hehe.
Thanks so much.

Can you just reduce the sampled range for the second plot component?
plot "direccionalidaddatos.txt" u 1:3 pointtype 7 ps 2 lt 1 lw 3 lc rgb 'blue' notitle ,\
[-52:45] '+' using 1:(f($1)) with lines dt '-' lc rgb 'blue' notitle

How do I edit the time values on the x-axis to start from zero when using gnuplot?

I do not want to change my data files that come with the first column containing the time values. Then I formatted it on gnuplot to show only the hour and minute. But it is a bit ugly to start the time from 8:00. I would like to start it from 0 and keep the values at the same pace of the data file. I was trying to use a constant like this example shows How do I make a plot in gnuplot with the lowest value automatically subtracted from the y data? but it is not working.
Here are my source and the plot.
#!/usr/bin/gnuplot
# set grid
set key outside bottom center horizontal
set key font ",19"
set style line 1 lc rgb '#E02F44' lt 1 lw 1 ps 0.5 pt 7 # input throughput
set style line 2 lc rgb '#FF780A' lt 1 lw 1 ps 0.5 pt 1 # output throughput
set style line 3 lc rgb '#56A64B' lt 1 lw 1 ps 0.5 pt 2 # average processing latency
set style line 4 lc rgb '#000000' lt 1 lw 1 ps 0.5 pt 3 # 99th percentile processing latency
set style arrow 1 heads ls 4
set style arrow 2 head ls 4
set terminal pdf
set pointintervalbox 0
set datafile separator ','
set output "Cost-20K-ThroughputVsLatency.pdf"
#set title ""
set xlabel "time (minutes)" font ",17" offset 0,1,0
set xtics font ",8" offset 0,0.5,0
set xdata time # tells gnuplot the x axis is time data
set timefmt "%Y-%m-%d %H:%M:%S" # specify our time string format
set format x "%H:%M" # otherwise it will show only MM:SS
set xrange ["2020-05-07 08:05:00":"2020-05-07 09:50:00"]
set ylabel "Throughput (K rec/sec)" font ",18" offset 0,0,0
set yrange [0:7]
set ytics font ",20"
#set y2label "processing latency (seconds)" font ",18" offset -1.5,0,0
set y2range [0:25]
set ytics nomirror
set y2tics 0, 5 font ",17"
plot "throughput-vs-latency-20K.csv" using 1:(column(2)/1000) title "IN throughput" with linespoints ls 1 axis x1y1 \
, "throughput-vs-latency-20K.csv" using 1:(column(10)/1000) title "OUT throughput" with linespoints ls 2 axis x1y1 \
, "throughput-vs-latency-20K.csv" using 1:(column(18)/1000) title "avg. latency" with linespoints ls 3 axis x1y2 \
, "throughput-vs-latency-20K.csv" using 1:(column(26)/1000) title "99th latency" with linespoints ls 4 axis x1y2
UPDATE
I changed my script like you said #theozh but I am still not getting the x axis starting from 0.
set key bottom right
set key font ",11"
set style line 1 lc rgb '#E02F44' lt 1 lw 1 ps 0.5 pt 7 # input throughput
set style line 2 lc rgb '#FF780A' lt 1 lw 1 ps 0.5 pt 1 # output throughput
set style line 3 lc rgb '#56A64B' lt 1 lw 1 ps 0.5 pt 2 # average processing latency
set style line 4 lc rgb '#000000' lt 1 lw 1 ps 0.5 pt 3 # 99th percentile processing latency
set style arrow 1 heads ls 4
set term pdfcairo size 5.0in,2.5in
set pointintervalbox 0
set datafile separator ','
set tmargin 1.5
set border 1+2+8
set xtics nomirror
set output "throughput-latency-increasingK-TaxiRideNYC-50Kpersec.pdf"
myTimeFmt = "%Y-%m-%d %H:%M:%S"
set xlabel "time (minutes)" font ",9" offset 0,1.5,0
set xtics font ",8" #rotate by 45 right
set ylabel "Throughput (K rec/sec)" font ",10" offset 2,0,0
set yrange [0:3.5]
set y2label "processing latency (seconds)" font ",10" offset -2,0,0
set y2range [0:14]
set ytics nomirror
set y2tics 0, 2
set xdata time # tells gnuplot the x axis is time data
set format x "%M" time
plot t=0 "throughput-latency-increasing.csv" u (t==0?(t0=timecolumn(1,myTimeFmt),t=1):NaN, timecolumn(1,myTimeFmt)-t0):(column(2)/1000) title "IN throughput" with linespoints ls 1 axis x1y1 \
, t=0 "throughput-latency-increasing.csv" u (t==0?(t0=timecolumn(1,myTimeFmt),t=1):NaN, timecolumn(1,myTimeFmt)-t0):(column(18)/1000) title "avg. latency" with linespoints ls 3 axis x1y2 \
, 4/0 t "# of tuples pre-aggregating" with vectors arrowstyle 1
values are here:
"Time","pre_aggregate-outPool[0]-avg","pre_aggregate-outPool[1]-avg","pre_aggregate-outPool[2]-avg","pre_aggregate-outPool[3]-avg","pre_aggregate-outPool[4]-avg","pre_aggregate-outPool[5]-avg","pre_aggregate-outPool[6]-avg","pre_aggregate-outPool[7]-avg","pre_aggregate-outPool[0]-99","pre_aggregate-outPool[1]-99","pre_aggregate-outPool[2]-99","pre_aggregate-outPool[3]-99","pre_aggregate-outPool[4]-99","pre_aggregate-outPool[5]-99","pre_aggregate-outPool[6]-99","pre_aggregate-outPool[7]-99","pre_aggregate[0]-param","pre_aggregate[1]-param","pre_aggregate[2]-param","pre_aggregate[3]-param","pre_aggregate[4]-param","pre_aggregate[5]-param","pre_aggregate[6]-param","pre_aggregate[7]-param"
"2020-04-27 10:22:45",33.33333432674408,33.33333432674408,33.33333432674408,33.33333432674408,33.33333432674408,33.33333432674408,33.33333432674408,33.33333432674408,33,70,75,79,33,41,62,75,50000,50000,50000,50000,50000,50000,50000,50000
"2020-04-27 10:23:00",33.33333432674408,33.33333432674408,33.33333432674408,33.33333432674408,33.33333432674408,33.33333432674408,33.33333432674408,33.33333432674408,33,33,75,79,33,33,33,37,50000,50000,50000,50000,50000,50000,50000,50000
"2020-04-27 10:23:15",33.33333432674408,33.33333432674408,33.33333432674408,33.33333432674408,33.33333432674408,33.33333432674408,33.33333432674408,33.33333432674408,33,33,33,33,33,33,33,33,50000,50000,50000,50000,50000,50000,50000,50000
"2020-04-27 10:23:30",33.33333432674408,33.33333432674408,33.33333432674408,33.33333432674408,33.33333432674408,33.33333432674408,33.33333432674408,33.33333432674408,62,66,50,62,66,45,50,66,50000,50000,50000,50000,50000,50000,50000,50000
"2020-04-27 10:23:45",33.33333432674408,33.33333432674408,33.33333432674408,33.33333432674408,33.33333432674408,33.33333432674408,33.33333432674408,33.33333432674408,62,66,50,62,66,45,50,66,50000,50000,50000,50000,50000,50000,50000,50000
"2020-04-27 10:24:00",33.33333432674408,33.33333432674408,33.33333432674408,33.33333432674408,33.33333432674408,33.33333432674408,33.33333432674408,33.33333432674408,33,33,33,33,33,33,33,33,50000,50000,50000,50000,50000,50000,50000,50000

The following example uses the newer gnuplot date time syntax (see help timecolumn), e.g. timecolumn(1,myTimeFmt) and set format x "%H:%M" time.
In order to normalize your time series to the first data point you have to store this time into a variable, e.g. t0 which you can "re-use" in successive plot commands from the same datafile.
Note the different time format for the x axis: "%H:%M" for day time and "%tH:%tM" for hours exceeding 24 hours or minutes exceeding 60 minutes, see help time_specifiers.
Edit:
for better readability of the plot command, I "outsourced" the normalization into a function Normalize(). But note that t=0 is still required at the beginning of the plot command.
in case you have some (uncommented) header lines, you need to skip them via skip <number of header lines>.
Code:
### normalize time data relative to start time
reset session
myTimeFmt = "%Y-%m-%d %H:%M:%S"
# create some test data
set table $Data
plot '+' u (strftime(myTimeFmt,time(0) + $1*3600*2)):(cos($1)) w table
unset table
# function to normalize time column to first value
Normalize(c) = (t==0?(t0=timecolumn(c,myTimeFmt),t=1):NaN, timecolumn(c,myTimeFmt)-t0)
# in case there are uncommented header lines skip them
SkipHeaderLines = 0
set multiplot layout 2,1
set format x "%Y\n%m-%d\n%H:%M" time
plot $Data u (timecolumn(1,myTimeFmt)):3 skip SkipHeaderLines w l ti "absolute time"
set format x "%tH:%tM" time
plot t=0 $Data u (Normalize(1)):3 skip SkipHeaderLines w l ti "relative time"
unset multiplot
### end of code
Result:

Plotting histogram+linespoints in Gnuplot

I would like to connect selected bars in a histogram with linespoints. Now
I have created the histogram using the following code in Gnuplot:
set terminal postscript eps enhanced colour font 'Times-Roman,12' size 6in,4in
set output "LS_Figure_Histogram_New_2019_III.eps"
set xtics out scale 1.5
set ytics out scale 1.5
set y2tics out scale 1.5
set ytics nomirror
set yrange [-3.50:-3.70]
set y2range [0:45]
set key off
set tics font ", 14"
set xlabel "Experiment No." font ",16"
set ylabel "Li^{+}|Li vs. Cl^{-}|Cl_{2} (V)" font ",16"
set y2label "Residual Current Density (mA/cm^{2})" font ",16"
set key autotitle columnheader
set key inside left horizontal
set style fill solid 1.00 noborder
set style histogram clustered gap 1 title textcolor lt -1
set style data histograms
plot 'LS_Histogram_Comp_2019.dat' using 2:xtic(1) ls 2 ti col axis x1y1, '' u 3:xticlabels(1) ls 4 ti col axis x1y2
The data file is as given below
# Histogram_Comparison of onset potential & Residual current density
Experimental "Li^{+}|Li (V)" "Res. Current Density (mA/cm^{2})"
1 -3.64469 31.3
2 -3.65257 11.2
3 -3.66159 32.39
4 -3.66536 13.41
5 -3.66314 16.3
6 -3.64556 10.3
7 -3.64383 10.08
8 -3.63042 9.96
9 -3.65344 9.59
10 -3.64383 8.44
11 -3.64859 11.1
12 -3.63919 27.6
13 -3.64204 9.78
14 -3.62692 30.96
15 -3.64348 18.22
16 -3.6362 32.05
17 -3.62831 20.1
18 -3.62984 42.32
19 -3.63764 24.8
I wish to connect bars corresponding to Experimental 12, 14, 16 and 18 (using col 1 and 3 data) and bars 13, 15, 17 and 19 (using col 1 and 3 data) using linespoints.
Is there a way to do it in Gnuplot?

Try this
set terminal postscript eps enhanced colour font 'Times-Roman,12' size 6in,4in
set output "LS_Figure_Histogram_New_2019_III.eps"
set xtics out scale 1.5
set ytics out scale 1.5
set y2tics out scale 1.5
set ytics nomirror
set yrange [-3.50:-3.70]
set y2range [0:45]
set key off
set tics font ", 14"
set xlabel "Experiment No." font ",16"
set ylabel "Li^{+}|Li vs. Cl^{-}|Cl_{2} (V)" font ",16"
set y2label "Residual Current Density (mA/cm^{2})" font ",16"
set key autotitle columnheader
set key inside left horizontal
set style fill solid 1.00 noborder
set style histogram clustered gap 1 title textcolor lt -1
# ----------------------------------------
set rmargin screen 0.9
set lmargin screen 0.1
set bmargin screen 0.1
set multiplot
# ----------------------------------------
set style data histograms
plot 'LS_Histogram_Comp_2019.dat' using 2:xtic(1) ls 2 ti col axis x1y1, '' u 3:xticlabels(1) ls 4 ti col axis x1y2
# ----------------------------------------
unset tics
unset xlabel
unset ylabel
unset y2label
set xrange [0:20]
set yrange [0:45]
plot 'LS_Histogram_Comp_2019.dat' \
skip 12 every 2 using 1:3 w linespoints ls 1 lw 4 not,\
'' skip 13 every 2 using 1:3 w linespoints ls 3 lw 4 not
The result

Filledcurves between different scaled y-axis

I have to "reinvent" a diagram like the following:
My problem is, the "filledcurves" option does not work correctly, if I use the different scaled y-axis.
set y2tics textcolor rgb "black"
set ytics nomirror
set yrange [0:80]
set y2range [0:180]
set key off
set grid dashtype 5 # auch dt ".-." möglich
plot "klima_flach.txt" using 1:3:4 with filledcurves x1,\
"" using 1:4 with lines axis x1y2,\
"" using 1:3:xtic(2) with lines axis x1y1
The used data is the following:
0 0 11 50
1 J 10 70
2 F 11 42
3 M 12 50
4 A 15 50
5 M 18 20
6 J 22 10
7 J 25 1
8 A 25 20
9 S 23 40
10 O 20 80
11 N 25 70
12 D 11 60
Any ideas, how I can get this problem solved?
By the way: A pattern as in the original diagram... possible or not?

#Wolfgang Höfer, the scaling between the axes in such type of Walter/Lieth-climate diagrams is 2. Hence, your y-range should be [0:90] and hence scaling factor 90./180.
Nevertheless, I assume #Christoph's answer solved your problem.
To your last question: a pattern as in your picture, i.e. a vertical hatch pattern? That's what I asked here (Hatch patterns in gnuplot) recently. Apparently, it's seems not possible in gnuplot.
Some time ago, I also "struggled" with climate diagrams, i.e. with filledcurves and even nonlinear axes. I would like to provide the code which I ended up. Maybe it will be useful to you or to others to draw such climate diagrams with gnuplot. If you are reading from a file, replace $DataIn with your filename. Suggestions and improvements are welcome.
# Walter/Lieth climate diagram with nonlinear axis
reset session
set encoding "utf8"
$DataIn <<EOD
# Mumbai/India, 18°54'N/72°49'E, 11 m
# No. Month Temperature Precipitation
1 January 23.9 3
2 February 23.9 3
3 March 26.1 3
4 April 28.1 2
5 May 29.7 18
6 June 28.9 485
7 July 27.2 617
8 August 27.0 340
9 September 27.0 264
10 October 28.1 64
11 November 27.2 13
12 December 25.6 3
EOD
# in order to be flexible for different input files
ColTemp = 3 # col# temperature
ColPrec = 4 # col# precipitation
# get location label from first commented row starting after '# '
set datafile commentschar "" # set the comment char to none
set datafile separator "\n" # data will be a full line
set table $Dummy # plot following data to a dummy table
# plots only first line 'every ::0::0' as string to the dummy table
# and assigns this line starting after the 3rd character to variable 'Location'
plot $DataIn u (Location = stringcolumn(1)[3:]) every ::0::0 with table
unset table # stop plotting to table
set datafile commentschar "#" # restore default commentschar
set datafile separator whitespace # restore default separator
set label 1 at graph 0.02,0.96 Location font ",10" # put label on graph
# set periodic boundaries, i.e. add lines of Dec and Jan again
# independent of the input format $DataIn, column1 of $Data will be the number of month
set datafile separator "\n"
set table $Data
plot $DataIn u (0):(stringcolumn(1)) every ::11::11 with table
plot $DataIn u ($0+1):(stringcolumn(1)) with table
plot $DataIn u (13):(stringcolumn(1)) every ::0::0 with table
unset table
set datafile separator whitespace
# print $Data
# settings for nonlinear scale
ScaleChangeAt = 100.
ScaleChangeFactor = 5.
f1(y) = (y<=ScaleChangeAt) ? y : ((y - ScaleChangeAt)/ScaleChangeFactor + ScaleChangeAt)
f2(y) = (y<=ScaleChangeAt) ? y : ((y - ScaleChangeAt)*ScaleChangeFactor + ScaleChangeAt)
f3(y) = f1(y)/2. # relation between axes y and y2; standard for Walter/Lieth climate diagrams
set nonlinear y2 via f1(y) inverse f2(y)
# settings for x-axis
set xrange[0.5:12.5]
set xtics 1 scale 0,1
set mxtics 2
set grid mxtics
# create months labels from local settings
do for [i=1:12] {
set xtics add (strftime("%b",strptime("%m",sprintf("%g",i))) i)
}
# settings for y- and y2-axes
stats [*:*] $DataIn u ColTemp:ColPrec nooutput
Round(m,n) = int(m/n)*n + sgn(m)*n
Ymin = STATS_min_x > 0 ? 0 : Round(STATS_min_x,10)
Ymax = 50
Y2min = Ymin < 0 ? f1(Ymin)*2 : 0
Y2max = Round(STATS_max_y,10**int(log(STATS_max_y)/log(10))) # round to next 10 or 100
# print Ymin, Ymax, Y2min, Y2max
# y-axis
set ylabel "Temperature / °C" tc rgb "red"
set yrange [Ymin:f3(Y2max)] # h(Y2max)]
set ytics 10 nomirror tc rgb "red"
# "manual" setting of ytics, up to 50°C
set ytics ("0" 0)
do for [i=Ymin:50:10] {
set ytics add (sprintf("%g",i) i)
}
# settings for y2-axis
set y2label "Precipitation / mm" tc rgb "blue"
set y2range [Y2min:Y2max]
# "manual" setting of y2tics
set y2tics nomirror tc rgb "blue"
set y2tics ("0" 0)
set grid y2tics
do for [i=20:ScaleChangeAt:20] {
set y2tics add (sprintf("%g",i) i)
}
do for [i=ScaleChangeAt:Y2max:20*ScaleChangeFactor] {
set y2tics add (sprintf("%g",i) i)
}
plot \
$Data u 1:ColTemp+1:(f3(column(ColPrec+1))) axis x1y1 w filledcurves above lc rgb "yellow" not,\
'' u 1:ColTemp+1:(f3(column(ColPrec+1))) axis x1y1 w filledcurves below fs pattern 4 fc rgb "blue" not,\
'' u 1:(f3(ScaleChangeAt)):(f3(column(ColPrec+1))) axis x1y1 w filledcurves below fs solid 1.0 fc rgb "blue" not,\
'' u 1:ColTemp+1 w l lw 2 lc rgb "red" not,\
'' u 1:ColPrec+1 axes x1y2 w l lw 2 lc rgb "blue" not
### end of code
which results in:

The filledcurves doesn't have an option for choosing different axes for the y-values in column two and three. But you are in the lucky situation, that you have fixed y-ranges. So you can define a scaling function for one of the columns:
set y2tics textcolor rgb "black"
set ytics nomirror
set yrange [0:80]
set y2range [0:180]
scale = 80.0/180.0
set key off
set grid dashtype 5 # auch dt ".-." möglich
plot "klima_flach.txt" using 1:3:(scale*$4) with filledcurves,\
"" using 1:4 with lines axis x1y2,\
"" using 1:3:xtic(2) with lines axis x1y1