# Return the frequency in a bin of a 2D histogram in Julia

Suppose I have some 2D data points, and using the Plots package in Julia, a 2D histogram can be easily plotted. My task is to define a function that maps between a data point to the frequency of data points of the bin to which that point belongs to. Are there any functions that serve well for this task?

For example, as in the following 2D histogram:

And I would like to define a function, such that when I input an arbitrary data points that is within the domain of this histogram, the function will output the frequency of the corresponding bin. In the image above, when I input `(0.1, 0.1)`, the function should output, say, `375` (I suppose the brightest grid there represents the frequency of `375`). Are there any convenient functions in Julia to achieve the aforementioned task?

Edit:

``````using Plots
gr()
histogram2d(randn(10000), randn(10000), nbins=20)
``````

A histogram is created from 10000 2D data points generated from standard normal distribution. Is there any function in Julia to input a 2D point and output the frequency of the bin to which the point belongs to? It is possible to write one myself by creating arrays and bins and counting the number of elements in the bin of an inputted data point but this will be the tedious way.

I'm not 100% sure whether this is what StatsPlots is doing, but one approach could be to use StatsBase's histogram which works for N dimensions:

``````using StatsBase, StatsPlots, Distributions

# Example data
data = (randn(10_000), randn(10_000))

# Plot StatsPlots 2D histogram
histogram2d(data)

# Fit a histogram with StatsBase
h = fit(Histogram, data)
x = searchsortedfirst(h.edges[1], 0.1)  # returns 10
y = searchsortedfirst(h.edges[2], 0.1)  # returns 11
h.weights[x, y] # returns 243

# Or as a function
function get_freq(h, xval, yval)
x = searchsortedfirst(h.edges[1], xval)
y = searchsortedfirst(h.edges[2], yval)
h.weights[x, y]
end

get_freq(h, 1.4, 0.6) # returns 32
``````
• Yes, that is what Plots is doing (you don't need StatsPlots) - creates a StatsBase 2d histogram (after some magic to define the bins) then plots the histogram object. So the most efficient is to circumvent Plots entirely and use StatsBase. Notice that the automatic bin selection procedure in StatsBase is inferior though, so the bins will be different. Oct 11, 2019 at 14:21