Take the 2-minute tour ×
Stack Overflow is a question and answer site for professional and enthusiast programmers. It's 100% free, no registration required.

I am plotting some float data in a 2D graph and I need to calibrate the axis of graph into small units that looks neat. Obviously this unit varies based on magnitude of the data. I am trying to find out a good way to divide the axis into nice looking number. for example if my data runs from -1.3345 to +5.882 may be divide in units of 1.0 or 0.5. if my data us from -100 to 800 divide the axes into units of 100 or 50. (I hope that makes sense) right now I am dividing the range (largest value - lowest value) by some fixed integer and getting the units but that gives me ugly looking number with long trailing digits. Is there any smart way of doing this?

share|improve this question
Co-incidentally, I just read this tweet: twitter.com/headinthebox/status/303588840180944896 –  Johnsyweb Feb 19 '13 at 2:18
Have a look at how gnuplot does it. Asymptote also does plots, that might be easier to understand. –  vonbrand Feb 19 '13 at 2:34

2 Answers 2

up vote 1 down vote accepted

ACM Algorithm 463 provides three simple functions to produce good axis scales with outputs xminp, xmaxp and dist for the minimum and maximum values on the scale and the distance between tick marks on the scale, given a request for n intervals that include the data points xmin and xmax:

  1. Scale1() gives a linear scale with approximately n intervals and dist being an integer power of 10 times 1, 2 or 5.
  2. Scale2() gives a linear scale with exactly n intervals (the gap between xminp and xmaxp tends to be larger than the gap produced by Scale1()).
  3. Scale3() gives a logarithmic scale.

The code is in Fortran but it is very straightforward to interpret and convert into other languages. There are more complicated functions that give prettier scales (e.g. the ones in gnuplot), but Scale1 would likely do the job for you with minimal code.


I found the text of the original 1973 paper online here, which provides more explanation than the code linked to above.

share|improve this answer
The article was good however I do not know fortan. Guess I have to find someone who can translate. Thanks. –  da_elysian_fields Feb 19 '13 at 3:48
@da_elysian_fields. The free translator [f2c](www.netlib.org/f2c/) is excellent and can translate Fortran of any vintage into C or C++. –  Simon Feb 19 '13 at 19:08

One way to calculate a good step would be to find the value of the most significant digit of the range's length (i.e. the diff = maxVlaue - minValue), and use that as your step. To calculate the value of the most significant digit use this simple formula:

pow(10, floor(log10(diff)))

This takes a decimal logarithm of the difference, discards the fractional part, if any, and raises ten to the power of that logarithm. For a difference of 7.2165, the calculation would return 1; for 721.65, it would return 100, and so on.

One shortcoming of this calculation is that the grid step for the diff of 9.99 and the diff of 1.001 would be the same. One way to address this would be to calculate the number of grid lines you'd get for the step, and decrease the step ten times if the number of lines is insufficient (say, less than three).

share|improve this answer
I tried the method you suggested. I ran into the problem you pointed in. The suggestion was very clear and easy to follow thanks for that.. Guess I should try to create my own function for the to overcome the problem thanks –  da_elysian_fields Feb 19 '13 at 3:51

Your Answer


By posting your answer, you agree to the privacy policy and terms of service.

Not the answer you're looking for? Browse other questions tagged or ask your own question.