Provided by: feedgnuplot_1.48-1_all 
NAME
feedgnuplot - General purpose pipe-oriented plotting tool
SYNOPSIS
Simple plotting of piped data:
$ seq 5 | awk '{print 2*$1, $1*$1}'
2 1
4 4
6 9
8 16
10 25
$ seq 5 | awk '{print 2*$1, $1*$1}' |
feedgnuplot --lines --points --legend 0 "data 0" --title "Test plot" --y2 1
--unset grid --terminal 'dumb 80,40' --exit
Test plot
10 +-----------------------------------------------------------------+ 25
| + + + + + + + *##|
| data 0 ***A*#* |
| ** # |
9 |-+ ** ## |
| ** # |
| ** # |
| ** ## +-| 20
8 |-+ A # |
| ** # |
| ** ## |
| ** # |
| ** B |
7 |-+ ** ## |
| ** ## +-| 15
| ** # |
| ** ## |
6 |-+ *A ## |
| ** ## |
| ** # |
| ** ## +-| 10
5 |-+ ** ## |
| ** #B |
| ** ## |
| ** ## |
4 |-+ A ### |
| ** ## |
| ** ## +-| 5
| ** ## |
| ** ##B# |
3 |-+ ** #### |
| **#### |
| #### |
|## + + + + + + + |
2 +-----------------------------------------------------------------+ 0
1 1.5 2 2.5 3 3.5 4 4.5 5
Simple real-time plotting example: plot how much data is received on the wlan0 network interface in
bytes/second (uses bash, awk and Linux):
$ while true; do sleep 1; cat /proc/net/dev; done |
gawk '/wlan0/ {if(b) {print $2-b; fflush()} b=$2}' |
feedgnuplot --lines --stream --xlen 10 --ylabel 'Bytes/sec' --xlabel seconds
DESCRIPTION
This is a flexible, command-line-oriented frontend to Gnuplot. It creates plots from data coming in on
STDIN or given in a filename passed on the commandline. Various data representations are supported, as is
hardcopy output and streaming display of live data. A simple example:
$ seq 5 | awk '{print 2*$1, $1*$1}' | feedgnuplot
You should see a plot with two curves. The "awk" command generates some data to plot and the
"feedgnuplot" reads it in from STDIN and generates the plot. The "awk" invocation is just an example;
more interesting things would be plotted in normal usage. No commandline-options are required for the
most basic plotting. Input parsing is flexible; every line need not have the same number of points. New
curves will be created as needed.
The most commonly used functionality of gnuplot is supported directly by the script. Anything not
directly supported can still be done with options such as "--set", "--extracmds" "--style", etc.
Arbitrary gnuplot commands can be passed in with "--extracmds". For example, to turn off the grid, you
can pass in "--extracmds 'unset grid'". Commands "--set" and "--unset" exists to provide nicer syntax, so
this is equivalent to passing "--unset grid". As many of these options as needed can be passed in. To add
arbitrary curve styles, use "--style curveID extrastyle". Pass these more than once to affect more than
one curve.
To apply an extra style to all the curves that lack an explicit "--style", pass in "--styleall
extrastyle". In the most common case, the extra style is "with something". To support this more simply,
you can pass in "--with something" instead of "--styleall 'with something'". "--styleall" and "--with"
are mutually exclusive. Furthermore any curve-specific "--style" overrides the global "--styleall" or
"--with" setting.
Data formats
By default, each value present in the incoming data represents a distinct data point, as demonstrated in
the original example above (we had 10 numbers in the input and 10 points in the plot). If requested, the
script supports more sophisticated interpretation of input data
Domain selection
If "--domain" is passed in, the first value on each line of input is interpreted as the X-value for the
rest of the data on that line. Without "--domain" the X-value is the line number, and the first value on
a line is a plain data point like the others. Default is "--nodomain". Thus the original example above
produces 2 curves, with 1,2,3,4,5 as the X-values. If we run the same command with "--domain":
$ seq 5 | awk '{print 2*$1, $1*$1}' | feedgnuplot --domain
we get only 1 curve, with 2,4,6,8,10 as the X-values. As many points as desired can appear on a single
line, but all points on a line are associated with the X-value at the start of that line.
Curve indexing
We index the curves in one of 3 ways: sequentially, explicitly with a "--dataid" or by "--vnlog" headers.
By default, each column represents a separate curve. The first column (after any domain) is curve 0. The
next one is curve 1 and so on. This is fine unless sparse data is to be plotted. With the "--dataid"
option, each point is represented by 2 values: a string identifying the curve, and the value itself. If
we add "--dataid" to the original example:
$ seq 5 | awk '{print 2*$1, $1*$1}' | feedgnuplot --dataid --autolegend
we get 5 different curves with one point in each. The first column, as produced by "awk", is 2,4,6,8,10.
These are interpreted as the IDs of the curves to be plotted.
If we're plotting "vnlog" data (<https://www.github.com/dkogan/vnlog>) then we can get the curve IDs from
the vnlog header. Vnlog is a trivial data format where lines starting with "#" are comments and the first
comment contains column labels. If we have such data, "feedgnuplot --vnlog" can interpret these column
labels if the "vnlog" perl modules are available.
The "--autolegend" option adds a legend using the given IDs to label the curves. The IDs need not be
numbers; generic strings are accepted. As many points as desired can appear on a single line. "--domain"
can be used in conjunction with "--dataid" or "--vnlog".
Multi-value style support
Depending on how gnuplot is plotting the data, more than one value may be needed to represent the range
of a single point. Basic 2D plots have 2 numbers representing each point: 1 domain and 1 range. But if
plotting with "--circles", for instance, then there's an extra range value: the radius. Many other
gnuplot styles require more data: errorbars, variable colors ("with points palette"), variable sizes
("with points ps variable"), labels and so on. The feedgnuplot tool itself does not know about all these
intricacies, but they can still be used, by specifying the specific style with "--style", and specifying
how many values are needed for each point with any of "--rangesizeall, "--tuplesizeall", "--rangesize",
"--tuplesize". These options are required only for styles not explicitly supported by feedgnuplot;
supported styles do the right thing automatically."
Specific example: if making a 2d plot of y error bars, the exact format can be queried by running
"gnuplot" and invoking "help yerrorbars". This tells us that there's a 3-column form: "x y ydelta" and a
4-column form: "x y ylow yhigh". With 2d plots feedgnuplot will always output the 1-value domain "x", so
the rangesize is 2 and 3 respectively. Thus the following are equivalent:
$ echo '1 2 0.3
2 3 0.4
3 4 0.5' | feedgnuplot --domain --rangesizeall 2 --with 'yerrorbars'
$ echo '1 2 0.3
2 3 0.4
3 4 0.5' | feedgnuplot --domain --tuplesizeall 3 --with 'yerrorbars'
$ echo '1 2 1.7 2.3
2 3 2.6 3.4
3 4 3.5 4.5' | feedgnuplot --domain --rangesizeall 3 --with 'yerrorbars'
3D data
To plot 3D data, pass in "--3d". "--domain" MUST be given when plotting 3D data to avoid domain
ambiguity. If 3D data is being plotted, there are by definition 2 domain values instead of one (Z as a
function of X and Y instead of Y as a function of X). Thus the first 2 values on each line are
interpreted as the domain instead of just 1. The rest of the processing happens the same way as before.
Time/date data
If the input data domain is a time/date, this can be interpreted with "--timefmt". This option takes a
single argument: the format to use to parse the data. The format is documented in 'set timefmt' in
gnuplot, although the common flags that "strftime" understands are generally supported. The backslash
sequences in the format are not supported, so if you want a tab, put in a tab instead of \t. Whitespace
in the format is supported. When this flag is given, some other options act a little bit differently:
• "--xlen" is an integer in seconds
• "--xmin" and "--xmax" must use the format passed in to "--timefmt"
Using this option changes both the way the input is parsed and the way the x-axis tics are labelled.
Gnuplot tries to be intelligent in this labelling, but it doesn't always do what the user wants. The
labelling can be controlled with the gnuplot "set format" command, which takes the same type of format
string as "--timefmt". Example:
$ sar 1 -1 |
awk '$1 ~ /..:..:../ && $8 ~/^[0-9\.]*$/ {print $1,$8; fflush()}' |
feedgnuplot --stream --domain
--lines --timefmt '%H:%M:%S'
--set 'format x "%H:%M:%S"'
This plots the 'idle' CPU consumption against time.
Note that while gnuplot supports the time/date on any axis, feedgnuplot currently supports it only as the
x-axis domain. This may change in the future.
Real-time streaming data
To plot real-time data, pass in the "--stream [refreshperiod]" option. Data will then be plotted as it is
received. The plot will be updated every "refreshperiod" seconds. If the period isn't specified, a 1Hz
refresh rate is used. To refresh at specific intervals indicated by the data, set the refreshperiod to 0
or to 'trigger'. The plot will then only be refreshed when a data line 'replot' is received. This
'replot' command works in both triggered and timed modes, but in triggered mode, it's the only way to
replot. Look in "Special data commands" for more information.
To plot only the most recent data (instead of all the data), "--xlen windowsize" can be given. This will
create an constantly-updating, scrolling view of the recent past. "windowsize" should be replaced by the
desired length of the domain window to plot, in domain units (passed-in values if "--domain" or line
numbers otherwise). If the domain is a time/date via "--timefmt", then "windowsize" is and integer in
seconds. If we're plotting a histogram, then "--xlen" causes a histogram over a moving window to be
computed. The subtlely here is that with a histogram you don't actually see the domain since only the
range is analyzed. But the domain is still there, and can be utilized with "--xlen". With "--xlen" we can
plot only histograms or only non-histograms.
Special data commands
If we are reading streaming data, the input stream can contain special commands in addition to the raw
data. Feedgnuplot looks for these at the start of every input line. If a command is detected, the rest of
the line is discarded. These commands are
"replot"
This command refreshes the plot right now, instead of waiting for the next refresh time indicated by
the timer. This command works in addition to the timed refresh, as indicated by "--stream
[refreshperiod]".
"clear"
This command clears out the current data in the plot. The plotting process continues, however, to any
data following the "clear".
"exit"
This command causes feedgnuplot to exit.
Hardcopy output
The script is able to produce hardcopy output with "--hardcopy outputfile". The output type can be
inferred from the filename, if .ps, .eps, .pdf, .svg or .png is requested. If any other file type is
requested, "--terminal" must be passed in to tell gnuplot how to make the plot. If "--terminal" is passed
in, then the "--hardcopy" argument only provides the output filename.
Self-plotting data files
This script can be used to enable self-plotting data files. There are 2 ways of doing this: with a
shebang (#!) or with inline perl data.
Self-plotting data with a #!
A self-plotting, executable data file "data" is formatted as
$ cat data
#!/usr/bin/feedgnuplot --lines --points
2 1
4 4
6 9
8 16
10 25
12 36
14 49
16 64
18 81
20 100
22 121
24 144
26 169
28 196
30 225
This is the shebang (#!) line followed by the data, formatted as before. The data file can be plotted
simply with
$ ./data
The caveats here are that on Linux the whole #! line is limited to 127 characters and that the full path
to feedgnuplot must be given. The 127 character limit is a serious limitation, but this can likely be
resolved with a kernel patch. I have only tried on Linux 2.6.
Self-plotting data with perl inline data
Perl supports storing data and code in the same file. This can also be used to create self-plotting
files:
$ cat plotdata.pl
#!/usr/bin/perl
use strict;
use warnings;
open PLOT, "| feedgnuplot --lines --points" or die "Couldn't open plotting pipe";
while( <DATA> )
{
my @xy = split;
print PLOT "@xy\n";
}
__DATA__
2 1
4 4
6 9
8 16
10 25
12 36
14 49
16 64
18 81
20 100
22 121
24 144
26 169
28 196
30 225
This is especially useful if the logged data is not in a format directly supported by feedgnuplot. Raw
data can be stored after the __DATA__ directive, with a small perl script to manipulate the data into a
useable format and send it to the plotter.
ARGUMENTS
• --"[no]domain"
If enabled, the first element of each line is the domain variable. If not, the point index is used
• --"[no]dataid"
If enabled, each data point is preceded by the ID of the data set that point corresponds to. This ID
is interpreted as a string, NOT as just a number. If not enabled, the order of the point is used.
As an example, if line 3 of the input is "0 9 1 20" then
• "--nodomain --nodataid" would parse the 4 numbers as points in 4 different curves at x=3
• "--domain --nodataid" would parse the 4 numbers as points in 3 different curves at x=0. Here, 0
is the x-variable and 9,1,20 are the data values
• "--nodomain --dataid" would parse the 4 numbers as points in 2 different curves at x=3. Here 0
and 1 are the data IDs and 9 and 20 are the data values
• "--domain --dataid" would parse the 4 numbers as a single point at x=0. Here 9 is the data ID and
1 is the data value. 20 is an extra value, so it is ignored. If another value followed 20, we'd
get another point in curve ID 20
• "--vnlog"
Vnlog is a trivial data format where lines starting with "#" are comments and the first comment
contains column labels. Some tools for working with such data are available from the "vnlog" project:
<https://www.github.com/dkogan/vnlog>. With the "vnlog" perl modules installed, we can read the
vnlog column headers with "feedgnuplot --vnlog". This replaces "--dataid", and we can do all the
normal things with these headers. For instance "feedgnuplot --vnlog --autolegend" will generate plot
legends for each column in the vnlog, using the vnlog column label in the legend.
• "--[no]3d"
Do [not] plot in 3D. This only makes sense with "--domain". Each domain here is an (x,y) tuple
• --"timefmt [format]"
Interpret the X data as a time/date, parsed with the given format
• "--colormap"
Show a colormapped xy plot. Requires extra data for the color. zmin/zmax can be used to set the
extents of the colors. Automatically sets the "--rangesize"/"--tuplesize".
• "--stream [period]"
Plot the data as it comes in, in realtime. If period is given, replot every period seconds. If no
period is given, replot at 1Hz. If the period is given as 0 or 'trigger', replot only when the
incoming data dictates this. See the "Real-time streaming data" section of the man page.
• "--[no]lines"
Do [not] draw lines to connect consecutive points
• "--[no]points"
Do [not] draw points
• "--circles"
Plot with circles. This requires a radius be specified for each point. Automatically sets the
"--rangesize"/"--tuplesize". "Not" supported for 3d plots.
• "--title xxx"
Set the title of the plot
• "--legend curveID legend"
Set the label for a curve plot. Use this option multiple times for multiple curves. With "--dataid",
curveID is the ID. Otherwise, it's the index of the curve, starting at 0
• "--autolegend"
Use the curve IDs for the legend. Titles given with "--legend" override these
• "--xlen xxx"
When using "--stream", sets the size of the x-window to plot. Omit this or set it to 0 to plot ALL
the data. Does not make sense with 3d plots. Implies "--monotonic". If we're plotting a histogram,
then "--xlen" causes a histogram over a moving window to be computed. The subtlely here is that with
a histogram you don't actually see the domain since only the range is analyzed. But the domain is
still there, and can be utilized with "--xlen". With "--xlen" we can plot only histograms or only
non-histograms.
• "--xmin/xmax/ymin/ymax/y2min/y2max/zmin/zmax xxx"
Set the range for the given axis. These x-axis bounds are ignored in a streaming plot. The y2-axis
bound do not apply in 3d plots. The z-axis bounds apply only to 3d plots or colormaps. Note that
there is no "--xrange" to set both sides at once or "--xinv" to flip the axis around: anything more
than the basics supported in this option is clearly obtainable by talking to gnuplot, for instance
"--set 'xrange [20:10]'" to set the given inverted bounds.
• "--xlabel/ylabel/y2label/zlabel xxx"
Label the given axis. The y2-axis label does not apply to 3d plots while the z-axis label applies
only to 3d plots.
• "--y2 xxx"
Plot the data specified by this curve ID on the y2 axis. Without "--dataid", the ID is just an
ordered 0-based index. Does not apply to 3d plots. Can be passed multiple times, or passed a comma-
separated list. By default the y2-axis curves look the same as the y-axis ones. I.e. the viewer of
the resulting plot has to be told which is which via an axes label, legend, etc. Prior to version
1.25 of feedgnuplot the curves plotted on the y2 axis were drawn with a thicker line. This is no
longer the case, but that behavior can be brought back by passing something like
--y2 curveid --style curveid 'linewidth 3'
• "--histogram curveID"
Set up a this specific curve to plot a histogram. The bin width is given with the "--binwidth" option
(assumed 1.0 if omitted). If a drawing style is not specified for this curve ("--curvestyle") or all
curves ("--with", "--curvestyleall") then the default histogram style is set: filled boxes with
borders. This is what the user generally wants. This works with "--domain" and/or "--stream", but in
those cases the x-value is used only to cull old data because of "--xlen" or "--monotonic". I.e. the
domain values are not drawn in any way. Can be passed multiple times, or passed a comma- separated
list
• "--binwidth width"
The width of bins when making histograms. This setting applies to ALL histograms in the plot.
Defaults to 1.0 if not given.
• "--histstyle style"
Normally, histograms are generated with the 'smooth frequency' gnuplot style. "--histstyle" can be
used to select different "smooth" settings (see the gnuplot "help smooth" page for more info).
Allowed values are 'frequency' (the default), 'fnormal' (available in very recent gnuplots),
'unique', 'cumulative' and 'cnormal'. 'fnormal' is a normalized histogram. 'unique' indicates whether
a bin has at least one item in it: instead of counting the items, it'll always report 0 or 1.
'cumulative' is the integral of the 'frequency' histogram. 'cnormal' is like 'cumulative', but
rescaled to end up at 1.0.
• "--style curveID style"
Additional styles per curve. With "--dataid", curveID is the ID. Otherwise, it's the index of the
curve, starting at 0. curveID can be a comma-separated list of IDs to which the given style should
apply. Use this option multiple times for multiple curves. "--styleall" does not apply to curves that
have a "--style".
• "--curvestyle curveID"
Synonym for "--style"
• "--styleall xxx"
Additional styles for all curves that have no "--style". This is overridden by any applicable
"--style". Exclusive with "--with".
• "--curvestyleall xxx"
Synonym for "--styleall"
• "--with xxx"
Same as "--styleall", but prefixed with "with". Thus
--with boxes
is equivalent to
--styleall 'with boxes'
Exclusive with "--styleall".
• "--extracmds xxx"
Additional commands to pass on to gnuplot verbatim. These could contain extra global styles for
instance. Can be passed multiple times.
• "--set xxx"
Additional 'set' commands to pass on to gnuplot verbatim. "--set 'a b c'" will result in gnuplot
seeing a "set a b c" command. Can be passed multiple times.
• "--unset xxx"
Additional 'unset' commands to pass on to gnuplot verbatim. "--unset 'a b c'" will result in gnuplot
seeing a "unset a b c" command. Can be passed multiple times.
• "--image filename"
Overlays the data on top of a raster image given in "filename". This is passed through to gnuplot via
"--equation", and is not interpreted by "feedgnuplot" other than checking for existence. Usually
images have their origin at the top-left corner, while plots have it in the bottom-left corner
instead. Thus if the y-axis extents are not specified ("--ymin", "--ymax", "--set 'yrange ...'") this
option will also flip around the y axis to make the image appear properly. Since this option is just
a passthrough to gnuplot, finer control can be achieved by passing in "--equation" and "--set yrange
..." directly.
"--equation xxx"
Gnuplot can plot both data and symbolic equations. "feedgnuplot" generally plots data, but with this
option can plot symbolic equations also. This is generally intended to augment data plots, since for
equation-only plots you don't need "feedgnuplot". "--equation" can be passed multiple times for
multiple equations. The given strings are passed to gnuplot directly without anything added or
removed, so styling and such should be applied in the string. A basic example:
seq 100 | awk '{print $1/10, $1/100}' |
feedgnuplot --with 'lines lw 3' --domain --ymax 1
--equation 'sin(x)/x' --equation 'cos(x)/x with lines lw 4'
Here I plot the incoming data (points along a line) with the given style (a line with thickness 3),
and I plot two damped sinusoids on the same plot. The sinusoids are not affected by "feedgnuplot"
styling, so their styles are set separately, as in this example. More complicated example:
seq 360 | perl -nE '$th=$_/360 * 3.14*2; $c=cos($th); $s=sin($th); say "$c $s"' |
feedgnuplot --domain --square
--set parametric --set "trange [0:2*3.14]" --equation "sin(t),cos(t)"
Here the data I generate is points along the unit circle. I plot these as points, and I also plot a
true circle as a parametric equation.
• "--square"
Plot data with aspect ratio 1. For 3D plots, this controls the aspect ratio for all 3 axes
• "--square_xy"
For 3D plots, set square aspect ratio for ONLY the x,y axes
• "--hardcopy xxx"
If not streaming, output to a file specified here. Format inferred from filename, unless specified by
"--terminal". If "--terminal" is given, "--hardcopy" sets only the output filename.
• "--terminal xxx"
String passed to 'set terminal'. No attempts are made to validate this. "--hardcopy" sets this to
some sensible defaults if "--hardcopy" is set to a filename ending in ".png", ".pdf", ".ps", ".eps"
or ".svg". If any other file type is desired, use both "--hardcopy" and "--terminal"
• "--maxcurves N"
The maximum allowed number of curves. This is 100 by default, but can be reset with this option. This
exists purely to prevent perl from allocating all of the system's memory when reading bogus data
• "--monotonic"
If "--domain" is given, checks to make sure that the x-coordinate in the input data is monotonically
increasing. If a given x-variable is in the past, all data currently cached for this curve is purged.
Without "--monotonic", all data is kept. Does not make sense with 3d plots. No "--monotonic" by
default. The data is replotted before being purged. This is useful in streaming plots where the
incoming data represents multiple iterations of the same process (repeated simulations of the same
period in time, for instance).
• "--rangesize curveID N"
The options "--rangesizeall" and "--rangesize" set the number of values are needed to represent each
point being plotted (see "Multi-value style support" above). These options are only needed if unknown
styles are used, with "--styleall" or "--with" for instance.
"--rangesize" is used to set how many values are needed to represent the range of a point for a
particular curve. This overrides any defaults that may exist for this curve only.
With "--dataid", curveID is the ID. Otherwise, it's the index of the curve, starting at 0. curveID
can be a comma-separated list of IDs to which the given rangesize should apply.
• "--tuplesize curveID N"
Very similar to "--rangesize", but instead of specifying the range only, this specifies the whole
tuple. For instance if we're plotting circles, the tuplesize is 3: "x,y,radius". In a 2D plot there's
a 1-dimensional domain: "x", so the rangesize is 2: "y,radius". This dimensionality can be given
either way.
• "--rangesizeall N"
Like "--rangesize", but applies to all the curves.
• "--tuplesizeall N"
Like "--tuplesize", but applies to all the curves.
• "--dump"
Instead of printing to gnuplot, print to STDOUT. Very useful for debugging. It is possible to send
the output produced this way to gnuplot directly.
• "--exit"
This controls what happens when the input data is exhausted, or when some part of the "feedgnuplot"
pipeline is killed. This option does different things depending on whether "--stream" is active, so
read this closely.
With interactive gnuplot terminals (qt, x11, wxt), the plot windows live in a separate process from
the main "gnuplot" process. It is thus possible for the main "gnuplot" process to exit, while leaving
the plot windows up (a caveat is that such decapitated windows aren't interactive). There are 3
possible states of the polotting pipeline:
Alive: "feedgnuplot", "gnuplot" alive, plot window process alive, no shell prompt (shell busy with
"feedgnuplot")
Half-alive: "feedgnuplot", "gnuplot" dead, plot window process alive (but non-interactive), shell
prompt available
Dead: "feedgnuplot", "gnuplot" dead, plot window process dead, shell prompt available
The possibilities are:
No "--stream", all data read in
no "--exit" (default)
Alive. Need to Ctrl-C to get back into the shell
"--exit"
Half-alive. Non-interactive prompt up, and the shell accepts new commands. Without
"--stream" the goal is to show a plot, so a Dead state would not be useful.
"--stream", all data read in or the "feedgnuplot" process terminated
no "--exit" (default)
Alive. Need to Ctrl-C to get back into the shell. This means that when making live plots, the
first Ctrl-C kills the data feeding process, but leaves the final plot up for inspection. A
second Ctrl-C kills feedgnuplot as well.
"--exit"
Dead. No plot is shown, and the shell accepts new commands. With "--stream" the goal is to
show a plot as the data comes in, which we have been doing. Now that we're done, we can clean
up everything.
Note that one usually invokes "feedgnuplot" as a part of a shell pipeline:
$ write_data | feedgnuplot
If the user terminates this pipeline with ^C, then all the processes in the pipeline receive SIGINT.
This normally kills "feedgnuplot" and all its "gnuplot" children, and we let this happen unless
"--stream" and no "--exit". If "--stream" and no "--exit", then we ignore the first ^C. The data
feeder dies, and we behave as if the input data was exhausted. A second ^C kills us also.
• "--geometry"
If using X11, specifies the size, position of the plot window
• "--version"
Print the version and exit
RECIPES
Basic plotting of piped data
$ seq 5 | awk '{print 2*$1, $1*$1}'
2 1
4 4
6 9
8 16
10 25
$ seq 5 | awk '{print 2*$1, $1*$1}' |
feedgnuplot --lines --points --legend 0 "data 0" --title "Test plot" --y2 1
Realtime plot of network throughput
Looks at wlan0 on Linux.
$ while true; do sleep 1; cat /proc/net/dev; done |
gawk '/wlan0/ {if(b) {print $2-b; fflush()} b=$2}' |
feedgnuplot --lines --stream --xlen 10 --ylabel 'Bytes/sec' --xlabel seconds
Realtime plot of battery charge in respect to time
Uses the result of the "acpi" command.
$ while true; do acpi; sleep 15; done |
perl -nE 'BEGIN{ $| = 1; } /([0-9]*)%/; say join(" ", time(), $1);' |
feedgnuplot --stream --ymin 0 --ymax 100 --lines --domain --xlabel 'Time' --timefmt '%s' --ylabel "Battery charge (%)"
Realtime plot of temperatures in an IBM Thinkpad
Uses "/proc/acpi/ibm/thermal", which reports temperatures at various locations in a Thinkpad.
$ while true; do cat /proc/acpi/ibm/thermal | awk '{$1=""; print}' ; sleep 1; done |
feedgnuplot --stream --xlen 100 --lines --autolegend --ymax 100 --ymin 20 --ylabel 'Temperature (deg C)'
Plotting a histogram of file sizes in a directory, granular to 10MB
$ ls -l | awk '{print $5/1e6}' |
feedgnuplot --histogram 0
--binwidth 10
--ymin 0 --xlabel 'File size (MB)' --ylabel Frequency
Plotting a live histogram of the ping round-trip times for the past 20 seconds
$ ping -A -D 8.8.8.8 |
perl -anE 'BEGIN { $| = 1; }
$F[0] =~ s/[\[\]]//g or next;
$F[7] =~ s/.*=//g or next;
say "$F[0] $F[7]"' |
feedgnuplot --stream --domain --histogram 0 --binwidth 10 \
--xlabel 'Ping round-trip time (s)' \
--ylabel Frequency --xlen 20
Plotting points on top of an existing image
This can be done with "--image":
$ < features_xy.data
feedgnuplot --points --domain --image "image.png"
or with "--equation":
$ < features_xy.data
feedgnuplot --points --domain
--equation '"image.png" binary filetype=auto flipy with rgbimage'
--set 'yrange [:] reverse'
The "--image" invocation is a convenience wrapper for the "--equation" version. Finer control is
available with "--equation".
Here an existing image is given to gnuplot verbatim, and data to plot on top of it is interpreted by
feedgnuplot as usual. "flipy" is useful here because usually the y axis points up, but when looking at
images, this is usually reversed: the origin is the top-left pixel.
ACKNOWLEDGEMENT
This program is originally based on the driveGnuPlots.pl script from Thanassis Tsiodras. It is available
from his site at <http://users.softlab.ece.ntua.gr/~ttsiod/gnuplotStreaming.html>
REPOSITORY
<https://github.com/dkogan/feedgnuplot>
AUTHOR
Dima Kogan, "<dima@secretsauce.net>"
LICENSE AND COPYRIGHT
Copyright 2011-2012 Dima Kogan.
This program is free software; you can redistribute it and/or modify it under the terms of either: the
GNU General Public License as published by the Free Software Foundation; or the Artistic License.
See http://dev.perl.org/licenses/ for more information.
POD ERRORS
Hey! The above document had some coding errors, which are explained below:
Around line 1404:
Unterminated C<...> sequence
perl v5.26.1 2018-02-24 FEEDGNUPLOT(1)