17

Histogram Cluster / Bar Chart

I'm trying to generate the following histogram cluster out of this data file with gnuplot, where each category is represented in a separate line per year in the data file:

# datafile
year   category        num_of_events
2011   "Category 1"    213
2011   "Category 2"    240
2011   "Category 3"    220
2012   "Category 1"    222
2012   "Category 2"    238
...

desired histogram cluster

But I don't know how to do it with one line per category. I would be glad if anybody has got an idea how to do this with gnuplot.

Stacked Histogram Cluster / Stacked Bar Chart

Even better would be a stacked histogram cluster like the following, where the stacked sub categories are represented by separate columns in the datafile:

# datafile
year   category        num_of_events_for_A    num_of_events_for_B
2011   "Category 1"    213                    30
2011   "Category 2"    240                    28
2011   "Category 3"    220                    25
2012   "Category 1"    222                    13
2012   "Category 2"    238                    42
...

desired stacked histogram cluster

Thanks a lot in advance!

  • These are really just vertical bar plots. I don't call something a histogram unless I have an array of items and the code has to bin and count the items. – Paul Aug 20 '13 at 10:11
  • possibly related: stackoverflow.com/questions/327576/… – Paul Aug 20 '13 at 10:12
  • Thanks @Paul, I've modified the title accordingly. – fiedl Aug 20 '13 at 10:43
  • Maybe this answer is of interest to you. – Schorsch Aug 20 '13 at 12:16
20

After some research, I came up with two different solutions.

Required: Splitting the data file

Both solutions require splitting up the data file into several files categorized by a column. Therefore, I've created a short ruby script, which can be found in this gist:

https://gist.github.com/fiedl/6294424

This script is used like this: In order to split up the data file data.csv into data.Category1.csv and data.Category2.csv, call:

# bash
ruby categorize_csv.rb --column 2 data.csv

# data.csv
# year   category   num_of_events_for_A   num_of_events_for_B
"2011";"Category1";"213";"30"
"2011";"Category2";"240";"28"
"2012";"Category1";"222";"13"
"2012";"Category2";"238";"42"
...

# data.Category1.csv
# year   category   num_of_events_for_A   num_of_events_for_B
"2011";"Category1";"213";"30"
"2012";"Category1";"222";"13"
...

# data.Category2.csv
# year   category   num_of_events_for_A   num_of_events_for_B
"2011";"Category2";"240";"28"
"2012";"Category2";"238";"42"
...

Solution 1: Stacked Box Plot

Strategy: One data file per category. One column per stack. The bars of the histogram are plotted "manually" by using the "with boxes" argument of gnuplot.

Upside: Full flexibility concerning bar sizes, caps, colors, etc.

Downside: Bars have to be placed manually.

# solution1.gnuplot
reset
set terminal postscript eps enhanced 14

set datafile separator ";"

set output 'stacked_boxes.eps'

set auto x
set yrange [0:300]
set xtics 1

set style fill solid border -1

num_of_categories=2
set boxwidth 0.3/num_of_categories
dx=0.5/num_of_categories
offset=-0.1

plot 'data.Category1.csv' using ($1+offset):($3+$4) title "Category 1 A" linecolor rgb "#cc0000" with boxes, \
     ''                   using ($1+offset):3 title "Category 2 B" linecolor rgb "#ff0000" with boxes, \
     'data.Category2.csv' using ($1+offset+dx):($3+$4) title "Category 2 A" linecolor rgb "#00cc00" with boxes, \
     ''                   using ($1+offset+dx):3 title "Category 2 B" linecolor rgb "#00ff00" with boxes

The result looks like this:

stacked_boxes.eps

Solution 2: Native Gnuplot Histogram

Strategy: One data file per year. One column per stack. The histogram is produced using the regular histogram mechanism of gnuplot.

Upside: Easier to use, since positioning has not to be done manually.

Downside: Since all categories are in one file, each category has the same color.

# solution2.gnuplot
reset
set terminal postscript eps enhanced 14

set datafile separator ";"

set output 'histo.eps'
set yrange [0:300]

set style data histogram
set style histogram rowstack gap 1
set style fill solid border -1
set boxwidth 0.5 relative

plot newhistogram "2011", \
       'data.2011.csv' using 3:xticlabels(2) title "A" linecolor rgb "red", \
       ''              using 4:xticlabels(2) title "B" linecolor rgb "green", \
     newhistogram "2012", \
       'data.2012.csv' using 3:xticlabels(2) title "" linecolor rgb "red", \
       ''              using 4:xticlabels(2) title "" linecolor rgb "green", \
     newhistogram "2013", \
       'data.2013.csv' using 3:xticlabels(2) title "" linecolor rgb "red", \
       ''              using 4:xticlabels(2) title "" linecolor rgb "green"

The result looks like this:

histo.eps

References

  • 1
    +1 nice work providing ups and downs for both approaches! – Schorsch Aug 23 '13 at 15:25
  • I also think, that splitting the data files is the only viable way to created those histograms. BTW: You can also accept your own answer :). – Christoph Aug 24 '13 at 13:29
  • Thanks @Christoph, I thought I'd just wait a couple of days for maybe somebody adding a better way to do it. – fiedl Aug 27 '13 at 16:07
  • Have a look at: gnuplot.sourceforge.net/demo/histograms.8.gnu Perhaps the colors can be different for solution 1. – Mingliang Liu Jun 9 '14 at 7:14
0

Thanks a lot @fiedl! Based on your solution #1 I could come up with my own stacked/clustered histogram using more than two stacked sub categories.

Here is my code:

set terminal pngcairo  transparent enhanced font "arial,10" fontscale 1.0 size 600, 400 
set output 'runtimes.png'

set xtics("1" 1, "2" 2, "4" 3, "8" 4)
set yrange [0:100]

set style fill solid border -1
set key invert
set grid

num_of_ksptypes=2
set boxwidth 0.5/num_of_ksptypes
dx=0.5/num_of_ksptypes
offset=-0.12

set xlabel "threads"
set ylabel "seconds"

plot 'data1.dat' using ($1+offset):($2+$3+$4+$5) title "SDO" linecolor rgb "#006400" with boxes, \
         ''                   using ($1+offset):($3+$4+$5) title "BGM" linecolor rgb "#FFFF00" with boxes, \
         ''                   using ($1+offset):($4+$5) title "TSQR" linecolor rgb "#FFA500 " with boxes, \
         ''                   using ($1+offset):5 title "SpMV" linecolor rgb "#FF0000" with boxes, \
         'data2.dat' using ($1+offset+dx):($2+$3) title "MGS" linecolor rgb "#8B008B" with boxes, \
         ''                   using ($1+offset+dx):3 title "SpMV" linecolor rgb "#0000FF" with boxes

data1.dat:

nr  SDO  BGM  TSQR  SpMV
1   10   15   20    25
2   10   10   10    10
3   10   10   10    10
4   10   10   10    10

data2.dat:

nr  MGS  SpMV
1   23   13
2   23   13
3   23   13
4   23   13

the resulting plot:

enter image description here

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