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:
As a result, although hvplot subplots work out of the box (for linking), ranges are different so the scaling is not quite there:
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)
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)
Which is almost exactly what I want. But I still struggle with the different layers of
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
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) for c, dims in zip(cmaps, [['x', d] for d in dims]) ]) link_selections(layout).cols(1)
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)?