We use Plotly charts extensively in the company I work for. They make it easy to create interactive graphics that look good. The Python experience via the Plotly Express library is great and the bar to get started is low.
We have two main use-cases for Plotly graphs:
For a typical PDF report, we use 5-20 figures to show the evolution of a particular metric over time, the distribution of some value over a number of categories, or the comparison of different categories next to each other.
To create our PDF reports, we use a combination of Weasyprint, Jinja, and Plotly charts. To render a report as a PDF, we first have to render all graphs as images.
To do so, we use the great Kaleido package. It uses a Chrome browser to render the graph and save it as an image. The API is straight forward to use.
from kaleido.scopes.plotly import PlotlyScope
scope = PlotlyScope()
img_bytes = scope.transform(
figure=figure, format="png", width=1000, height=1000, scale=4,
)
This renders the figure in figure as an image with 1000px height and width and a rendering scale of 4 (i.e. the image actually has dimensions 4000px x 4000px). The higher the scale, the more DPI the final image has, the better it looks, and the larger the final PDF is.
Rendering graphs takes a little bit of time and if you render a lot of them (10-20), it will be a significant share of your program's runtime. To speed up our PDF rendering pipeline, we deployed the following solution.
Internally, Kaleido just outsources the problem of rendering the graph as an image to an included Chrome webbrowser. This means, for Python itself rendering this image is basically waiting for I/O.
To speed up this particular process and since we just wait for I/O, we can use multithreading.
Let's start by creating a random figure, like so:
import pandas as pd
import numpy as np
import plotly.graph_objects as go
def get_random_figure() -> go.Figure:
n_bars = 50
dates = pd.date_range(start="2021-01-01", end="2021-12-31", freq="M")
figure = go.Figure()
for i in range(n_bars):
values = np.random.rand(len(dates))
figure.add_trace(go.Bar(x=dates, y=values, name=f"Label {i+1}"))
figure.update_layout(
dict(
barmode="group",
legend=dict(orientation="h", yanchor="top", xanchor="left"),
)
)
figure.update_layout(yaxis=dict(tickformat=".0%"), xaxis=dict(showgrid=False))
return figure
Now, turning a figure into an image can be done using the code from above:
from kaleido.scopes.plotly import PlotlyScope
import plotly.graph_objects as go
def figure_to_bytes(figure: go.Figure) -> bytes:
scope = PlotlyScope()
return scope.transform(figure=figure, format="png", width=1000, height=1000, scale=4)
And finally we also define for later:
def transform_random_figure() -> bytes:
return figure_to_bytes(get_random_figure())
You may or may not know that due to the GIL (global interpreter lock) in Python, only one thread can execute Python code at the same time. Since the transformation of the graph to an image is not Python code, we can make use of threads to start the transformation of a lot of graphs at the same time and then collect the results.
For that, we define a helper class:
from kaleido.scopes.plotly import PlotlyScope
scope = PlotlyScope()
img_bytes = scope.transform(
figure=figure, format="png", width=1000, height=1000, scale=4,
)
This class will help us retrieve the result of the transformation (i.e. the bytes of the image).
The next thing we have to do is follow the standard pattern for working with threads in Python:
Our threads should each call transform_random_figure() and then return the bytes. We start 10 threads in this case.
import pandas as pd
import numpy as np
import plotly.graph_objects as go
def get_random_figure() -> go.Figure:
n_bars = 50
dates = pd.date_range(start="2021-01-01", end="2021-12-31", freq="M")
figure = go.Figure()
for i in range(n_bars):
values = np.random.rand(len(dates))
figure.add_trace(go.Bar(x=dates, y=values, name=f"Label {i+1}"))
figure.update_layout(
dict(
barmode="group",
legend=dict(orientation="h", yanchor="top", xanchor="left"),
)
)
figure.update_layout(yaxis=dict(tickformat=".0%"), xaxis=dict(showgrid=False))
return figure
The start() method will also call the run() method of the thread that starts the actual logic (i.e. executes the given function, which in our case means transform_random_figure()).
To collect the results, we use the join() method of the threads and write the result into files.
from kaleido.scopes.plotly import PlotlyScope
import plotly.graph_objects as go
def figure_to_bytes(figure: go.Figure) -> bytes:
scope = PlotlyScope()
return scope.transform(figure=figure, format="png", width=1000, height=1000, scale=4)
The main idea here is to, whenever we want to transform a graph into an image, we start a thread and this thread will wait for the graph to be finished in the background.
Once we put together the whole report, we call join() on all threads and retrieve the images for all graphs and then put them into the report.
This way, we can already generate the whole report without graphs and save time by not waiting for every graph on its own to be transformed.
In summary, if you want to transform multiple Plotly charts into images, use the multithreading module in the Python standard library to speed up your conversion process.
You can do so very easily just by moving the transform() call into a thread and then waiting for all threads to finish.
def transform_random_figure() -> bytes:
return figure_to_bytes(get_random_figure())
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