Jim Horning wrote: > Greetings, > > I've been having difficulties with axis limit control. From a bigger > application I've reduced an example down to the following short code > segment. Note, the commented-out line, #x = numpy.linspace(98.42, > 99.21, 100), line in which the example works OKAY. > > What is annoying is that the following example will produce a graph in > which the x-axis is labeled at ticks starting at 0.1 going to 0.35 > (times 1.474e2 !) Instead, I am expecting an axis from 147.63 to > 148.31. Note that if you swap out the x with the commented-out line > the example works like I would expect. First, a small bug in your example. I think you meant:
pylab.xlim(numpy.min(x), numpy.min(x)) to be: pylab.xlim(numpy.min(x), numpy.max(x)) In the former case, when you have "unity" limits, matplotlib adds a small delta to the min and max so the range is not empty. Once this is fixed, the notation is actually ~0.1 to ~0.8 *plus* (not *times*) 1.474e2, which is at least correct, if not desired. The reason matplotlib does this is that, for space considerations, it avoids displaying ticks with more than 4 significant digits. Since the range here is so small, it prints the "offset" in the lower right and adjusts the ticks accordingly. Unfortunately, this number of significant digits isn't user customizable, though perhaps it should be (just as the range for scientific notation is). Can you file an enhancement request in the tracker so this doesn't get lost? Does anyone with more experience with the scientific notation/offset code have any further comments? Mike > > By the way, this example is with pylab. However, I've got the same > problem using plt from matplotlib or anything matplotlib related. > === > > import random > import numpy > import pylab > > #x = numpy.linspace(98.42, 99.21, 100) > x = numpy.linspace(147.63, 148.31, 100) > y = numpy.random.random((len(x))) > pylab.plot(x, y) > pylab.xlim(numpy.min(x), numpy.min(x)) > pylab.show() > > > -- > -------------------- > Jim A. Horning > j...@jimh.com <mailto:j...@jimh.com> > ------------------------------------------------------------------------ > > ------------------------------------------------------------------------------ > Come build with us! The BlackBerry(R) Developer Conference in SF, CA > is the only developer event you need to attend this year. Jumpstart your > developing skills, take BlackBerry mobile applications to market and stay > ahead of the curve. Join us from November 9 - 12, 2009. Register now! > http://p.sf.net/sfu/devconference > ------------------------------------------------------------------------ > > _______________________________________________ > Matplotlib-users mailing list > Matplotlib-users@lists.sourceforge.net > https://lists.sourceforge.net/lists/listinfo/matplotlib-users > -- Michael Droettboom Science Software Branch Operations and Engineering Division Space Telescope Science Institute Operated by AURA for NASA ------------------------------------------------------------------------------ Come build with us! The BlackBerry(R) Developer Conference in SF, CA is the only developer event you need to attend this year. Jumpstart your developing skills, take BlackBerry mobile applications to market and stay ahead of the curve. Join us from November 9 - 12, 2009. Register now! http://p.sf.net/sfu/devconference _______________________________________________ Matplotlib-users mailing list Matplotlib-users@lists.sourceforge.net https://lists.sourceforge.net/lists/listinfo/matplotlib-users
