Histplot errorbars #429
Comments
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For sure the mplhep/src/mplhep/error_estimation.py Lines 11 to 31 in 9b47e92 sqrt(N) for reasonably large N. Nevertheless, one may prefer to be using exactly sqrt(sumw2) the documentation and the code should be synchronized, and I'm sure the maintainers would be happy to receive a PR to correct this.
In the meantime, you can pass a custom error function to def mymethod(sumw, sumw2):
return np.array([sumw - np.sqrt(sumw2), sumw + np.sqrt(sumw2)]) |
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I came across this issue while trying to do another task with the histplot errorbars. Basically, my goal is to not draw the error bars for the bins without any content. Usually, this isn't a huge issue since the bins with content dwarf the bins without content and therefore the error bars on the bins without content do not rise above the x-axis into the figure; however, in the case where I am plotting on a log scale and the bin content traverses many orders of magnitude, the bins without content do show up in the plot. This problem can be replicated with a short h = hist.Hist.new.Reg(10,0,1).Weight()
h.fill(
[0., 0.5, 0.6, 0.7, 0.8, 0.9],
weight = [3., 1e3, 1e4, 1e5, 1e6, 1e7]
)Now with h.plot()
plt.yscale('log')
We can mask out the error bars by setting the bins with a def poisson_interval_ignore_empty(sumw, sumw2):
interval = mplhep.error_estimation.poisson_interval(sumw, sumw2)
lo, hi = interval[0,...], interval[1,...]
to_ignore = np.isnan(lo)
lo[to_ignore] = 0.0
hi[to_ignore] = 0.0
return np.array([lo,hi])
mplhep.histplot(h.values(), bins=h.axes[0].edges, w2method = poisson_interval_ignore_empty, w2 = h.variances())
plt.yscale('log')
The process of developing this solution actually showed me that the current function does not actually set nan to zero. You should use |
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It might make sense as an additional method, but it's maybe not trivial if there is 0 uncertainty for 0 events yield in poison stats cf. https://stats.stackexchange.com/questions/427019/confidence-interval-for-mean-of-poisson-with-only-zero-counts |
I find the documentation of the histplot function [0] slightly confusing/contradictive. I stumbled upon this when I wanted to plot a simple weighted 1D histogram with sqrt(w2) errorbars (which I assumed was the default, but apparently not). I have not checked if the following issues are true for histtypes other than
histtype=‘errorbar’.This line about the yerr parameter "Following modes are supported: - True, sqrt(N) errors or poissonian interval when
w2is specified" [1] makes it sound like ifyerr == True, thensqrt(N)is used for the errors ifw2is NOT specified, and that the poissonian interval is used ifw2IS specified. However, this is not the case: it always does the poissonian interval even ifw2isNonebecause in thePlottableclass definition it always initialises with the method “poisson” [2], which therefore, will always run the poissonian interval [3]. Ifw2is specified, andyerr!=None, then it crashes because of [4].This leads me to another confusion: which error calculation do we want for weighted histograms? The following line about the w2 parameter "Sum of the histogram weights squared for poissonian interval error calculation" [5] makes it sound like we always want to use the poissonian error for weighted histograms, while this line "If w2 has integer values (likely to be data) poisson interval is calculated, otherwise the resulting error is symmetric
sqrt(w2)" [6] makes it sound like the poisson interval should only be used for integer values. Again, "sqrt" is never used ifw2methodisNonebecause of [3], even ifw2has integer values.Also, if you specify to use the “sqrt” method, it never uses the variances (i.e.
w2) for calculating the errors [7]...I'm happy submit a PR if someone can explain what the intended usage is :-)
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