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I am just getting started with Holoviews. My questions are on customizing histograms, but also I am sharing a complete example as it may be helpful for other newbies to look at, since the documentation for Holoviews is very thorough but can be overwhelming.

I have a number of time series in text files loaded as Pandas DataFrames where:

each file is for a specific location at each location about 10 time series were collected, each with about 15,000 points I am building a small interactive tool where a Selector can be used to choose the location / DataFrame, and then another Selector to pick 3 of 10 of the time series to be plotted together.

My goal is to allow linked zooms (both x and y scales). The questions and code will focus on this aspect of the tool. I cannot share the actual data I am using, unfortunately, as it is proprietary, but I have created 3 random walks with specific data ranges that are consistent with the actual data.

## preliminaries ##

import pandas as pd
import numpy as np
import holoviews as hv
from holoviews.util.transform import dim
from holoviews.selection import link_selections
from holoviews import opts
from holoviews.operation.datashader import shade, rasterize
import hvplot.pandas
hv.extension('bokeh', width=100)

## create random walks (one location) ##
data_df = pd.DataFrame()
npoints=15000
np.random.seed(71)
x = np.arange(npoints)
y1 = 1300+2.5*np.random.randn(npoints).cumsum()
y2 = 1500+2*np.random.randn(npoints).cumsum()
y3 = 3+np.random.randn(npoints).cumsum()
data_df.loc[:,'x'] = x
data_df.loc[:,'rand1'] = y1
data_df.loc[:,'rand2'] = y2
data_df.loc[:,'rand3'] = y3

This first block is just to plot the data and show how, by design, one of the random walks have different range from the other two:

data_df.hvplot(x='x',y=['rand1','rand2','rand3'],value_label='y',width=800,height=400)

hvplot

As a result, although hvplot subplots work out of the box (for linking), ranges are different so the scaling is not quite there:

data_df.hvplot(x='x',y=['rand1','rand2','rand3'], 
               value_label='y',subplots=True,width=800,height=200).cols(1)

subplots

So, my first attempt was to adapt the Python-based Points example from Linked brushing in the documentation:

colors = hv.Cycle('Category10').values
dims   = ['rand1', 'rand2', 'rand3']
layout = hv.Layout([
    hv.Points(data_df, dim).opts(color=c)
    for c, dim in zip(colors, [['x', d] for d in dims])
])
link_selections(layout).opts(opts.Points(width=1200, height=300)).cols(1)

Points

That is already an amazing result for a 20 minutes effort!

However, what I would really like is to plot a curve rather than points, and also see a histogram, so I adapted the comprehension syntax to work with Curve (after reading the documentation pages Applying customization, and Composing elements):

colors = hv.Cycle('Category10').values
dims   = ['rand1', 'rand2', 'rand3']
layout = hv.Layout([hv.Curve(data_df,'x',dim).opts(height=300,width=1200, 
                                                     color=c).hist(dim) for c, 
                    dim in zip(colors,[d for d in dims])])
link_selections(layout).cols(1)

lines

Which is almost exactly what I want. But I still struggle with the different layers of opts syntax. Question 1: with the comprehension from the last code block, how would I make the histogram share color with the curves?

Now, suppose I want to rasterize the plots (although I do not think is quite yet necessary with 15,000 points like in this case), I tried to adapt the first example with Points:

cmaps = ['Blues', 'Greens', 'Reds']
dims   = ['rand1', 'rand2', 'rand3']
layout = hv.Layout([
    shade(rasterize(hv.Points(data_df, dims), 
                    cmap=c)).opts(width=1200, height = 400).hist(dims[1])
    for c, dims in zip(cmaps, [['x', d] for d in dims])
])
link_selections(layout).cols(1)

rasterized This is a decent start, but again I struggle with the options/customization.

Question 2: in the above cod block, how would I pass the colormaps (it does not work as it is now), and how do I make the histogram reflect data values as in the previous case (and also have the right colormap)?

Thank you!

2 Answers 2

2

Sander answered how to color the histogram, but for the other question about coloring the datashaded plot, Datashader renders your data with a colormap rather than a single color, so the parameter is named cmap rather than color. So you were correct to use cmap in the datashaded case, but (a) cmap is actually a parameter to shade (which does the colormapping of the output of rasterize), and (b) you don't really need shade, as you can let Bokeh do the colormapping in most cases nowadays, in which case cmap is an option rather than an argument. Example:

from bokeh.palettes import Blues, Greens, Reds
cmaps = [Blues[256][200:], Greens[256][200:], Reds[256][200:]]
dims   = ['rand1', 'rand2', 'rand3']
layout = hv.Layout([
    rasterize(hv.Points(data_df, ds)).opts(cmap=c,width=1200, height = 400).hist(dims[1])
    for c, ds in zip(cmaps, [['x', d] for d in dims])
])
link_selections(layout).cols(1)

enter image description here

1

To answer your first question to make the histogram share the color of the curve, I've added .opts(opts.Histogram(color=c)) to your code.
When you have a layout you can specify the options of an element inside the layout like that.

colors = hv.Cycle('Category10').values
dims   = ['rand1', 'rand2', 'rand3']
layout = hv.Layout(
    [hv.Curve(data_df,'x',dim)
         .opts(height=300,width=600, color=c)
         .hist(dim)
         .opts(opts.Histogram(color=c)) 
     for c, dim in zip(colors,[d for d in dims])]
)
link_selections(layout).cols(1)
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  • why .opts(opts.Histogram(color=c)) and not just .opts.Histogram(color=c) ?
    – MyCarta
    Dec 19, 2020 at 0:05
  • 1
    hv.Curve().hist() creates a AdjointLayout() with 2 types of plots inside it: a curve and a histogram. To change the color of 1 of the 2 different plots inside the Layout, in this case the histogram, you have to specify it the way i did: .opts(opts.Histogram(color=c)) Dec 19, 2020 at 7:12
  • 1
    Right; otherwise you could do .opts(color=c)), but with multiple Elements you have to tell HoloViews which one you want the color to apply to. We could probably also support .opts.Histogram in a single level as you request; I don't think I thought of that! If that would be clearer, please file a feature request. Jan 5, 2021 at 23:20

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