matplotlib.pyplot.gcf()函数

matplotlib.pyplot.gcf()函数

Matplotlib是Python中一个非常棒的二维数组绘图可视化库。Matplotlib是一个基于NumPy数组构建的多平台数据可视化库,用于更广泛的SciPy堆栈。

matplotlib.pyplot.gcf ()

matplotlib.pyplot.gcf()主要用于获取当前图形。如果没有可用的当前图形,那么将借助figure()函数创建一个。
语法:

matplotlib.pyplot.gcf()

示例1

import numpy as np
from matplotlib.backends.backend_agg import FigureCanvasAgg
import matplotlib.pyplot as plot
 
plot.plot([2, 3, 4])
 
# implementation of the
# matplotlib.pyplot.gcf()
# function
figure = plot.gcf().canvas
 
ag = figure.switch_backends(FigureCanvasAgg)
ag.draw()
A = np.asarray(ag.buffer_rgba())
 
# Pass off to PIL.
from PIL import Image
img = Image.fromarray(A)
 
# show image
img.show()

输出:

matplotlib.pyplot.gcf()函数

示例2

import matplotlib.pyplot as plt
from matplotlib.tri import Triangulation
from matplotlib.patches import Polygon
import numpy as np
 
# helper function to update
# the polygon
def polygon_updater(tr):
    if tr == -1:
        points = [0, 0, 0]
    else:
        points = tri.triangles[tr]
    x_axis = tri.x[points]
    y_axis = tri.y[points]
    polygon.set_xy(np.column_stack([x_axis, y_axis]))
 
# helper function to set the motion
# of polygon
def motion_handler(e):
    if e.inaxes is None:
        tr = -1
    else:
        tr = trifinder(e.xdata, e.ydata)
    polygon_updater(tr)
    e.canvas.draw()
 
 
# Making the  Triangulation.
all_angles = 16
all_radii = 5
minimum_radii = 0.25
radii = np.linspace(minimum_radii, 0.95, all_radii)
triangulation_angles = np.linspace(0, 2 * np.pi,
                                   all_angles,
                                   endpoint = False)
 
triangulation_angles = np.repeat(triangulation_angles[...,
                                                      np.newaxis],
                                 all_radii, axis = 1)
 
triangulation_angles[:, 1::2] += np.pi / all_angles
a = (radii * np.cos(triangulation_angles)).flatten()
b = (radii * np.sin(triangulation_angles)).flatten()
tri = Triangulation(a, b)
tri.set_mask(np.hypot(a[tri.triangles].mean(axis = 1),
                         b[tri.triangles].mean(axis = 1))
                < minimum_radii)
 
# Using TriFinder object from
# Triangulation
trifinder = tri.get_trifinder()
 
# Setting up the plot and the callbacks.
plt.subplot(111, aspect ='equal')
plt.triplot(tri, 'g-')
 
 # dummy data for (x-axis, y-axis)
polygon = Polygon([[0, 0], [0, 0]],
                  facecolor ='b')
polygon_updater(-1)
plt.gca().add_patch(polygon)
 
# implementation of the matplotlib.pyplot.gcf() function
plt.gcf().canvas.mpl_connect('motion_notification',
                             motion_handler)
plt.show()

输出:

matplotlib.pyplot.gcf()函数

Python教程

Java教程

Web教程

数据库教程

图形图像教程

大数据教程

开发工具教程

计算机教程