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Matplotlib.axes.Axes.get_ybound() in Python

Matplotlib is a library in Python and it is numerical – mathematical extension for NumPy library. The Axes Class contains most of the figure elements: Axis, Tick, Line2D, Text, Polygon, etc., and sets the coordinate system. And the instances of Axes supports callbacks through a callbacks attribute.

matplotlib.axes.Axes.get_ybound() Function

The Axes.get_ybound() function in axes module of matplotlib library is used to return the lower and upper numerical bounds of the y-axis in increasing order

Syntax: Axes.get_ybound(self)

Parameters: This method does not accepts any parameters.

Returns:This method returns the following

  • lower, upper :This returns the current lower and upper y-axis bounds.

Note: This function can be used in place of get_ylim in various conditions.

Below examples illustrate the matplotlib.axes.Axes.get_ybound() function in matplotlib.axes:

Example 1:




# Implementation of matplotlib function
import numpy as np
import matplotlib.pyplot as plt
     
fig, (ax, ax1) = plt.subplots(1, 2)
t = 3*(np.random.rand(2, 100) - .5)
x = np.cos(2 * np.pi * t)
y = np.sin(2 * np.pi * t)
    
ax.plot(x, y, 'g')
lower, upper = ax.get_ybound()
ax.set_title('Original Window',
             fontsize = 10, fontweight ='bold')
    
ax1.plot(x, y, 'g')
ax1.set_ybound(1.5 * lower, 0.5 * upper)
ax1.set_title('Using get_ybound() function',
             fontsize = 10, fontweight ='bold')
fig.suptitle('matplotlib.axes.Axes.get_ybound() Example\n',
             fontsize = 14, fontweight ='bold')
plt.show()


Output:

Example 2:




import numpy as np
import matplotlib.pyplot as plt
    
# Fixing random state for reproducibility
np.random.seed(19680801)
    
# the random data
x = np.random.randn(1000)
y = np.random.randn(1000)
    
# definitions for the axes
left, width = 0.1, 0.65
bottom, height = 0.1, 0.65
spacing = 0.005
    
    
rect_scatter = [left, bottom, width, height]
rect_histx = [left, 
              bottom + height + spacing, 
              width, 0.2]
  
rect_histy = [left + width + spacing, 
              bottom, 0.2, height]
    
# start with a rectangular Figure
plt.figure()
    
ax_scatter = plt.axes(rect_scatter)
ax_scatter.tick_params(direction ='in',
                       bottom = True
                       right = True)
  
ax_histx = plt.axes(rect_histx)
ax_histx.tick_params(direction ='in'
                     labeltop = True)
  
ax_histy = plt.axes(rect_histy)
ax_histy.tick_params(direction ='in'
                     labelleft = True)
    
# the scatter plot:
ax_scatter.scatter(2 * x, y * 2, color ="green")
    
# now determine nice limits by hand:
binwidth = 0.05
lim = np.ceil(np.abs([x, y]).max() / binwidth) * binwidth
ax_scatter.set_xbound((-0.5 * lim, 0.5 * lim))
ax_scatter.set_ybound((-0.25 * lim, 0.25 * lim))
    
bins = np.arange(-lim, lim + binwidth, binwidth)
ax_histx.hist(x, bins = bins,
              color ="green")
  
ax_histy.hist(y, bins = bins, 
              color ="green",
              orientation ='horizontal')
    
ax_histx.set_xbound(ax_scatter.get_xbound())
ax_histy.set_ybound(ax_scatter.get_ybound())
    
plt.show()


Output:

Dominic Rubhabha-Wardslaus
Dominic Rubhabha-Wardslaushttp://wardslaus.com
infosec,malicious & dos attacks generator, boot rom exploit philanthropist , wild hacker , game developer,
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