When using the wasm backend, the canvas property of a figure is an instance of FigureCanvasWasm. Calling the
show() method of the canvas should be sufficient to display the figure in the browser. Unfortunately a minor bug in the
create_root_element() method of the canvas prevents the figure from being displayed. This method creates a
div element that will contain the figure. It tries first to create an iodide output div element. If that fails a plain HTML div element is created. This element however is never appended to the document and remains therefore invisible.
Below are the lines of code from FigureCanvasWasm were it happens
# Designed to be overridden by subclasses for use in contexts other
# than iodide.
from js import iodide
The comment suggests the non-iodide code is a stub that needs to be extended, by overriding the method. This would require subclassing FigureCanvasWasm, installing it as a pyodide module and configuring matplotlib to use that backend.
There is a shortcut however, because python allows overriding a method of an instance, without modifying the class, as per question 394770. Putting the following code in your HTML document gives a figure in the browser
import numpy as np
from matplotlib import pyplot as plt
from js import document
x = np.linspace(0, 2*np.pi, 100)
y = np.sin(x)
f = plt.figure()
# ordinary function to create a div
div = document.createElement('div')
#ordinary function to find an existing div
#you'll need to put a div with appropriate id somewhere in the document
#override create_root_element method of canvas by one of the functions above
f.canvas.create_root_element = create_root_element.__get__(
Initially the toolbar did not show icons. I had to download, unzip and install fontawesome alongside pyodide and include the following line in the header to get those
<link rel="stylesheet" href="font-awesome-4.7.0/css/font-awesome.min.css">
About the first part of your question, redirecting the output stream to the browser, you could take a look at how it is done in pyodide's console.html.
It replaces sys.stdout by a StringIO object
sys.stdout = io.StringIO()
Then run the python code (that can be completely oblivious to the fact that it is running in a wasm context)
Finally, send the contents of the stdout buffer to an output element
var stdout = pyodide.runPython("sys.stdout.getvalue()")
var div = document.createElement('div');
div.innerText = stdout;