问题
I want a scatter plot of different types of "asset", each asset should have the same color and labeled in the legend. I can do this using an NdOverlay of Scatter. Then I want to overlay two such plots, eg one coming from a model and another from experiment, so that the first and second only change in marker but keeps the same color for each asset.
I would expect this to work
df1 = pd.DataFrame({"asset": ["A", "B", "B"], "x": [1,2,3], "y": [1,2,3]})
df2 = pd.DataFrame({"asset": ["A", "B", "B"], "x": [1.5,2.5,3.5], "y": [1,2,3]})
df1.hvplot.scatter(x="x", y="y", by="asset") * df2.hvplot.scatter(x="x", y="y", by="asset").opts({"Scatter": {"style": {"marker": "d"}}})
but the colors in df1.hvplot per asset are different to those of df2.hvplot. I would like the most concise way starting from df1 and df2.
Edit: Is there a simple solution where I do not have to think about the sorting of df1 and df2 or whether they have the exact same set of "assets". Eg, I need something that would also work with
df1 = pd.DataFrame({"asset": ["A", "B", "B"], "x": [1,2,3], "y": [1,2,3]})
df2 = pd.DataFrame({"asset": ["C", "B", "A"], "x": [1.5,2.5,3.5], "y": [1,2,3]})
l1=df1.hvplot.scatter(x="x", y="y", by="asset")
l2=df2.hvplot.scatter(x="x", y="y", by="asset").opts(hv.opts.Scatter(marker='d'))
ll=l1*l2
or
df1 = pd.DataFrame({"asset": ["A", "B", "B"], "x": [1,2,3], "y": [1,2,3]})
df2 = pd.DataFrame({"asset": ["A", "B", "B", "C"], "x": [1.5,2.5,3.5, 4], "y": [1,2,3, 1]})
l1=df1.hvplot.scatter(x="x", y="y", by="asset")
l2=df2.hvplot.scatter(x="x", y="y", by="asset").opts(hv.opts.Scatter(marker='d'))
ll=l1*l2
回答1:
Edit: If you need more flexibility, there are two options:
- Styling a dimensioned container, and
- Styling by using additional value dimensions.
For more information, see here: jupyter notebook, github repo, but the code goes like this.
Option 1 (more verbose, but often easier if you are working in a HoloMap-like container anyway):
import holoviews as hv
from holoviews import opts, dim
hv.extension('bokeh')
import pandas as pd
import numpy as np
def cycle_kdim_opts(layout, kdim_opts):
"""
For each given kdim of an Nd holoviews container, create an options dict
that can be passed into a holoviews `opts` object.
Parameters
----------
layout : A holoviews Nd container (HoloMap, ...)
kdim_opts : dict of the form {kdim: {style_option: [alternatives]}}
For an example, see below.
"""
# Output shown for:
# kdim_opts = {
# 'h': {'color': ['orange', 'cyan']},
# 'g': {'size': [30, 10]},
# }
values = {kd.name: list(d) for kd, d in zip(layout.kdims, zip(*layout.data.keys()))}
# print(values)
# {'g': ['a', 'b', 'b'], 'h': ['d', 'c', 'd']}
mapping = {}
for kd, o in kdim_opts.items():
unique_values = list(set(values[kd]))
styles = list(o.values())[0]
mapping[kd] = dict(zip(unique_values, styles))
# print(mapping)
# {'h': {'c': 'orange', 'd': 'cyan'}, 'g': {'b': 30, 'a': 10}}
kdim2style = {k: list(v.keys())[0] for k, v in kdim_opts.items()}
# print(kdim2style)
# {'h': 'color', 'g': 'size'}
mapped_styles = {kdim2style[kd]: hv.Cycle([mapping[kd][value] for value in values])
for kd, values in values.items()}
# print(mapped_styles)
# {'size': Cycle(['10', '30', '30']), 'color': Cycle(['cyan', 'orange', 'cyan'])}
return mapped_styles
df1 = pd.DataFrame({'asset': ['A', 'B', 'B'], 'x': [1.,2.,3.], 'y': [1.,2.,3.]})
df2 = pd.DataFrame({'asset': ['A', 'B', 'B', 'C'], 'x': [1.5,2.5,3.5,4], 'y': [1.,2.,3.,1.]})
df = df1.assign(source='exp').merge(df2.assign(source='mod'), how='outer')
labels = hv.Labels(df.assign(l=df.asset+',\n'+df.source), ['x', 'y'], 'l')
l = hv.Dataset(df, ['x', 'y', 'asset', 'source',], []).to(hv.Points).overlay()
od = {
'source': {'size': [30, 10]},
'asset': {'color': ['orange', 'cyan', 'yellow']},
}
options = (
opts.NdOverlay(legend_position='right', show_legend=True, width=500),
opts.Points(padding=.5, show_title=False, title_format='',
toolbar=None, **cycle_kdim_opts(l, od)),
)
l.opts(*options) * labels
Option 2: Way less verbose, but takes more effort to e.g. customize the legend later on.
df1 = pd.DataFrame({'asset': ['A', 'B', 'B'], 'x': [1.,2.,3.], 'y': [1.,2.,3.]})
df2 = pd.DataFrame({'asset': ['A', 'B', 'B', 'C'], 'x': [1.5,2.5,3.5,4], 'y': [1.,2.,3.,1.]})
df = df1.assign(source='exp').merge(df2.assign(source='mod'), how='outer')
labels = hv.Labels(df.assign(l=df.asset+',\n'+df.source), ['x', 'y'], 'l')
l = hv.Points(df, ['x', 'y'], ['asset', 'source',])
options = (
opts.NdOverlay(legend_position='right', show_legend=True, width=500),
opts.Points(padding=.5, show_title=False, show_legend=True,
marker=dim('source').categorize({'exp':'circle', 'mod':'diamond'}),
color=dim('asset').categorize({'A':'orange', 'B':'cyan', 'C':'yellow'}),
size=10, toolbar=None)
)
l.opts(*options) * labels
Original suggestion (closest to your example):
You could e.g. explicitly set the colours using a hv.Cycle
object:
df1 = pd.DataFrame({"asset": ["A", "B", "B"], "x": [1,2,3], "y": [1,2,3]})
df2 = pd.DataFrame({"asset": ["A", "B", "B"], "x": [1.5,2.5,3.5], "y": [1,2,3]})
l1=df1.hvplot.scatter(x="x", y="y", by="asset")
l2=df2.hvplot.scatter(x="x", y="y", by="asset").opts(hv.opts.Scatter(marker='d'))
ll=l1*l2
ll.opts(hv.opts.Scatter(padding=.1, color=hv.Cycle(['blue', 'orange'])))
来源:https://stackoverflow.com/questions/55937908/overlay-ndoverlays-while-keeping-color-changing-marker