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In Mma, the Histogram function only generates graphics. I am wondering how I can to get the data set; is there any convenient built-in function for this?

Many thanks.

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3 Answers

HistogramList was added to Mathematica V8 to expose the binning and height calculations.

HistogramList[a]

enter image description here

For V7 you can hack the third argument to get the bins and counts.

Histogram[a, Automatic, (Print[{##}]; #2) &]

enter image description here

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Is there a way to get in version 7 the output like HistogramList[a] by using the BinCounts function? –  Alexey Popkov Mar 8 '11 at 23:27
    
+1, this is great to know. After Histogram[a, Automatic, (Print[{##}]; #2) &] produces the data, if after I manipulate these data, how to plot it out again in histogram form? –  Qiang Li Mar 8 '11 at 23:39
    
@Qiang Assuming bins and counts contain the data, you should be able to use something like Histogram[data, {Union[bins]}, counts&]. (Untested, as I don't have Mathematica in front of me right now.) –  Brett Champion Mar 9 '11 at 3:54
1  
+1 for HistogramList. One of the many new v8 functions that entered the theater behind my back. –  Sjoerd C. de Vries Mar 9 '11 at 10:30
    
@Sjoerd Take a look also at SmoothKernelDistribution, SmoothHistogram , and HistogramDistribution –  belisarius Oct 17 '11 at 2:27
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Perhaps a bit of internet searching would help as well. This was my answer (of June 18, 2010) to a similar question in the Mathematica newsgroup comp.soft-sys.math.mathematica:

data = RandomReal[NormalDistribution[0, 1], 200];
res = Reap[Histogram[data, Automatic, (Sow[{#1, #2}]; #2) &]]

enter image description here

I feel this solution is slightly better than Brett's because it returns the data in a readily usable format.

EDIT
To recreate the histogram following any bin or count manipulation you'd proceed as suggested by Brett below. Just have the bin and count ready as follows:

bins = Union[ Flatten[res[[2, 1, 1, 1]]]];
counts = res[[2, 1, 1, 2]];
Histogram[data, {bins}, counts &]

I'm not sure whether the bins are guaranteed to be in ascending order, so instead of Union (which sorts), you might want to use DeleteDuplicates.

The count & is a trick here. As explained in the help page, a function in the third position is expected to take a bin and count list and returns a height list. In this case it just gobbles up the lists and returns counts.

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I like yours. :) BTW, after getting {{{-2, -(3/2)}, {-(3/2), -1}, {-1, -(1/2)}, {-(1/2), 0}, {0, 1/2}, {1/ 2, 1}, {1, 3/2}, {3/2, 2}, {2, 5/2}, {5/2, 3}, {3, 7/2}}, {5, 23, 36, 37, 43, 27, 18, 9, 1, 0, 1}}, how to plot it out again? Histogram[data, {Union[bins]}, counts&] does not seem to work here in my mma v7. Thanks. –  Qiang Li Mar 9 '11 at 21:17
    
@Qiang Li See above –  Sjoerd C. de Vries Mar 9 '11 at 21:48
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If you're using V7 and you're upset that by using this trick you can't use a built-in bin height specification ("Count", "Probability", "ProbabilityDensity", etc), you can modify Sjord's answer above to return bins normalized however you want. For example, if you want bin heights using

data = RandomReal[NormalDistribution[0, 1], 200];
Histogram[data, Automatic, "Probability"]

you could instead use

res = Reap[Histogram[data, Automatic, 
           (ret = #2/Length[data]; 
            Sow[{#1, ret}]; ret) &
      ]]

The analog for "ProbabilityDensity" is

res = Reap[Histogram[data, Automatic, 
           (binWidth = #1[[1]][[2]] - #1[[1]][[1]];
           ret = #2/(Length[data]*binWidth);
           Sow[{#1, ret}]; ret) &
     ]]
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