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问题:为什么用Matplotlib绘制这么慢?
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问题:为什么用Matplotlib绘制这么慢?

我目前正在评估其他python绘图库。现在,我正在尝试使用matplotlib,但对性能却感到非常失望。下面的例子是从SciPy例子中修改而来的,每秒只能给我约8帧!

有什么方法可以加快速度,还是应该选择其他绘图库? 

from pylab import *
import time

ion()
fig = figure()
ax1 = fig.add_subplot(611)
ax2 = fig.add_subplot(612)
ax3 = fig.add_subplot(613)
ax4 = fig.add_subplot(614)
ax5 = fig.add_subplot(615)
ax6 = fig.add_subplot(616)

x = arange(0,2*pi,0.01)
y = sin(x)
line1, = ax1.plot(x, y, 'r-')
line2, = ax2.plot(x, y, 'g-')
line3, = ax3.plot(x, y, 'y-')
line4, = ax4.plot(x, y, 'm-')
line5, = ax5.plot(x, y, 'k-')
line6, = ax6.plot(x, y, 'p-')

# turn off interactive plotting - speeds things up by 1 Frame / second
plt.ioff()


tstart = time.time()               # for profiling
for i in arange(1, 200):
    line1.set_ydata(sin(x+i/10.0))  # update the data
    line2.set_ydata(sin(2*x+i/10.0))
    line3.set_ydata(sin(3*x+i/10.0))
    line4.set_ydata(sin(4*x+i/10.0))
    line5.set_ydata(sin(5*x+i/10.0))
    line6.set_ydata(sin(6*x+i/10.0))
    draw()                         # redraw the canvas

print 'FPS:' , 200/(time.time()-tstart)
点击查看英文原文

I’m currently evaluating different python plotting libraries. Right now I’m trying matplotlib and I’m quite disappointed with the performance. The following example is modified from SciPy examples and gives me only ~ 8 frames per second!

Any ways of speeding this up or should I pick a different plotting library? 

from pylab import *
import time

ion()
fig = figure()
ax1 = fig.add_subplot(611)
ax2 = fig.add_subplot(612)
ax3 = fig.add_subplot(613)
ax4 = fig.add_subplot(614)
ax5 = fig.add_subplot(615)
ax6 = fig.add_subplot(616)

x = arange(0,2*pi,0.01)
y = sin(x)
line1, = ax1.plot(x, y, 'r-')
line2, = ax2.plot(x, y, 'g-')
line3, = ax3.plot(x, y, 'y-')
line4, = ax4.plot(x, y, 'm-')
line5, = ax5.plot(x, y, 'k-')
line6, = ax6.plot(x, y, 'p-')

# turn off interactive plotting - speeds things up by 1 Frame / second
plt.ioff()


tstart = time.time()               # for profiling
for i in arange(1, 200):
    line1.set_ydata(sin(x+i/10.0))  # update the data
    line2.set_ydata(sin(2*x+i/10.0))
    line3.set_ydata(sin(3*x+i/10.0))
    line4.set_ydata(sin(4*x+i/10.0))
    line5.set_ydata(sin(5*x+i/10.0))
    line6.set_ydata(sin(6*x+i/10.0))
    draw()                         # redraw the canvas

print 'FPS:' , 200/(time.time()-tstart)

回答 0

首先,(尽管这根本不会改变性能)考虑清理代码,类似于:

import matplotlib.pyplot as plt
import numpy as np
import time

x = np.arange(0, 2*np.pi, 0.01)
y = np.sin(x)

fig, axes = plt.subplots(nrows=6)
styles = ['r-', 'g-', 'y-', 'm-', 'k-', 'c-']
lines = [ax.plot(x, y, style)[0] for ax, style in zip(axes, styles)]

fig.show()

tstart = time.time()
for i in xrange(1, 20):
    for j, line in enumerate(lines, start=1):
        line.set_ydata(np.sin(j*x + i/10.0))
    fig.canvas.draw()

print 'FPS:' , 20/(time.time()-tstart)

在上面的示例中,我得到了大约10fps。

简要说明一下,根据您的实际使用情况,matplotlib可能不是一个不错的选择。它面向的是出版物质量的数字,而不是实时显示。

但是,您可以做很多事情来加快此示例的速度。

速度如此之慢的主要原因有两个。

1)调用会重fig.canvas.draw()所有内容。这是您的瓶颈。就您而言,您无需重新绘制诸如轴边界,刻度线标签等内容。

2)在您的情况下,有很多带有很多刻度标签的子图。这些需要很长时间才能绘制出来。

这些都可以通过使用blitting来解决。

为了高效地进行blit,您必须使用特定于后端的代码。在实践中,如果您真的担心平滑的动画,那么无论如何,通常都将matplotlib图嵌入某种gui工具包中,所以这不是什么大问题。

但是,在不了解您正在做什么的情况下,我无法为您提供帮助。

但是,有一种中立的方法可以相当快地完成它。

import matplotlib.pyplot as plt
import numpy as np
import time

x = np.arange(0, 2*np.pi, 0.1)
y = np.sin(x)

fig, axes = plt.subplots(nrows=6)

fig.show()

# We need to draw the canvas before we start animating...
fig.canvas.draw()

styles = ['r-', 'g-', 'y-', 'm-', 'k-', 'c-']
def plot(ax, style):
    return ax.plot(x, y, style, animated=True)[0]
lines = [plot(ax, style) for ax, style in zip(axes, styles)]

# Let's capture the background of the figure
backgrounds = [fig.canvas.copy_from_bbox(ax.bbox) for ax in axes]

tstart = time.time()
for i in xrange(1, 2000):
    items = enumerate(zip(lines, axes, backgrounds), start=1)
    for j, (line, ax, background) in items:
        fig.canvas.restore_region(background)
        line.set_ydata(np.sin(j*x + i/10.0))
        ax.draw_artist(line)
        fig.canvas.blit(ax.bbox)

print 'FPS:' , 2000/(time.time()-tstart)

这给了我约200fps。

为了使此操作更加方便,animations最新版本的matplotlib中提供了一个模块。

举个例子:

import matplotlib.pyplot as plt
import matplotlib.animation as animation
import numpy as np

x = np.arange(0, 2*np.pi, 0.1)
y = np.sin(x)

fig, axes = plt.subplots(nrows=6)

styles = ['r-', 'g-', 'y-', 'm-', 'k-', 'c-']
def plot(ax, style):
    return ax.plot(x, y, style, animated=True)[0]
lines = [plot(ax, style) for ax, style in zip(axes, styles)]

def animate(i):
    for j, line in enumerate(lines, start=1):
        line.set_ydata(np.sin(j*x + i/10.0))
    return lines

# We'd normally specify a reasonable "interval" here...
ani = animation.FuncAnimation(fig, animate, xrange(1, 200), 
                              interval=0, blit=True)
plt.show()
点击查看英文原文

First off, (though this won’t change the performance at all) consider cleaning up your code, similar to this:

import matplotlib.pyplot as plt
import numpy as np
import time

x = np.arange(0, 2*np.pi, 0.01)
y = np.sin(x)

fig, axes = plt.subplots(nrows=6)
styles = ['r-', 'g-', 'y-', 'm-', 'k-', 'c-']
lines = [ax.plot(x, y, style)[0] for ax, style in zip(axes, styles)]

fig.show()

tstart = time.time()
for i in xrange(1, 20):
    for j, line in enumerate(lines, start=1):
        line.set_ydata(np.sin(j*x + i/10.0))
    fig.canvas.draw()

print 'FPS:' , 20/(time.time()-tstart)

With the above example, I get around 10fps.

Just a quick note, depending on your exact use case, matplotlib may not be a great choice. It’s oriented towards publication-quality figures, not real-time display.

However, there are a lot of things you can do to speed this example up.

There are two main reasons why this is as slow as it is.

1) Calling fig.canvas.draw() redraws everything. It’s your bottleneck. In your case, you don’t need to re-draw things like the axes boundaries, tick labels, etc.

2) In your case, there are a lot of subplots with a lot of tick labels. These take a long time to draw.

Both these can be fixed by using blitting.

To do blitting efficiently, you’ll have to use backend-specific code. In practice, if you’re really worried about smooth animations, you’re usually embedding matplotlib plots in some sort of gui toolkit, anyway, so this isn’t much of an issue.

However, without knowing a bit more about what you’re doing, I can’t help you there.

Nonetheless, there is a gui-neutral way of doing it that is still reasonably fast.

import matplotlib.pyplot as plt
import numpy as np
import time

x = np.arange(0, 2*np.pi, 0.1)
y = np.sin(x)

fig, axes = plt.subplots(nrows=6)

fig.show()

# We need to draw the canvas before we start animating...
fig.canvas.draw()

styles = ['r-', 'g-', 'y-', 'm-', 'k-', 'c-']
def plot(ax, style):
    return ax.plot(x, y, style, animated=True)[0]
lines = [plot(ax, style) for ax, style in zip(axes, styles)]

# Let's capture the background of the figure
backgrounds = [fig.canvas.copy_from_bbox(ax.bbox) for ax in axes]

tstart = time.time()
for i in xrange(1, 2000):
    items = enumerate(zip(lines, axes, backgrounds), start=1)
    for j, (line, ax, background) in items:
        fig.canvas.restore_region(background)
        line.set_ydata(np.sin(j*x + i/10.0))
        ax.draw_artist(line)
        fig.canvas.blit(ax.bbox)

print 'FPS:' , 2000/(time.time()-tstart)

This gives me ~200fps.

To make this a bit more convenient, there’s an animations module in recent versions of matplotlib.

As an example:

import matplotlib.pyplot as plt
import matplotlib.animation as animation
import numpy as np

x = np.arange(0, 2*np.pi, 0.1)
y = np.sin(x)

fig, axes = plt.subplots(nrows=6)

styles = ['r-', 'g-', 'y-', 'm-', 'k-', 'c-']
def plot(ax, style):
    return ax.plot(x, y, style, animated=True)[0]
lines = [plot(ax, style) for ax, style in zip(axes, styles)]

def animate(i):
    for j, line in enumerate(lines, start=1):
        line.set_ydata(np.sin(j*x + i/10.0))
    return lines

# We'd normally specify a reasonable "interval" here...
ani = animation.FuncAnimation(fig, animate, xrange(1, 200), 
                              interval=0, blit=True)
plt.show()

回答 1

Matplotlib可以制作出色的出版物质量的图形,但是在速度上没有很好的优化。有许多Python绘图软件包在设计时都考虑了速度:

点击查看英文原文

Matplotlib makes great publication-quality graphics, but is not very well optimized for speed. There are a variety of python plotting packages that are designed with speed in mind:

回答 2

首先,乔·肯顿(Joe Kington)的答案使用gui-neutral方法提供了很好的建议,您绝对应该接受他的建议(尤其是关于Blitting的建议)并将其付诸实践。有关此方法的更多信息,请阅读Matplotlib Cookbook

但是,非GUI中立(GUI偏向?)方法是加快绘图速度的关键。换句话说,后端对于绘制速度极为重要。

从matplotlib导入其他任何内容之前,请先放置以下两行:

import matplotlib
matplotlib.use('GTKAgg')

当然,可以使用多种选项代替GTKAgg,但是根据前面提到的菜谱,这是最快的。有关更多选项,请参见有关后端的链接。

点击查看英文原文

To start, Joe Kington’s answer provides very good advice using a gui-neutral approach, and you should definitely take his advice (especially about Blitting) and put it into practice. More info on this approach, read the Matplotlib Cookbook

However, the non-GUI-neutral (GUI-biased?) approach is key to speeding up the plotting. In other words, the backend is extremely important to plot speed.

Put these two lines before you import anything else from matplotlib:

import matplotlib
matplotlib.use('GTKAgg')

Of course, there are various options to use instead of GTKAgg, but according to the cookbook mentioned before, this was the fastest. See the link about backends for more options.

回答 3

对于Joe Kington提出的第一个解决方案(.copy_from_bbox&.draw_artist&canvas.blit),我必须在fig.canvas.draw()行之后捕获背景,否则背景无效,并且得到与你提到过 如果将它放在fig.show()之后,它仍然不能像Michael Browne所建议的那样工作。

所以只要把背景线的canvas.draw():

[...]
fig.show()

# We need to draw the canvas before we start animating...
fig.canvas.draw()

# Let's capture the background of the figure
backgrounds = [fig.canvas.copy_from_bbox(ax.bbox) for ax in axes]
点击查看英文原文

For the first solution proposed by Joe Kington ( .copy_from_bbox & .draw_artist & canvas.blit), I had to capture the backgrounds after the fig.canvas.draw() line, otherwise the background had no effect and I got the same result as you mentioned. If you put it after the fig.show() it still does not work as proposed by Michael Browne.

So just put the background line after the canvas.draw():

[...]
fig.show()

# We need to draw the canvas before we start animating...
fig.canvas.draw()

# Let's capture the background of the figure
backgrounds = [fig.canvas.copy_from_bbox(ax.bbox) for ax in axes]

回答 4

这可能不适用于许多人,但是我通常在Linux下操作计算机,因此默认情况下,我将matplotlib图保存为PNG和SVG。这在Linux上可以正常工作,但在Windows 7安装中(Python(x,y)或Anaconda下的MiKTeX)运行起来却慢得令人难以忍受,因此我开始添加此代码,并且在那之后一切正常:

import platform     # Don't save as SVG if running under Windows.
#
# Plot code goes here.
#
fig.savefig('figure_name.png', dpi = 200)
if platform.system() != 'Windows':
    # In my installations of Windows 7, it takes an inordinate amount of time to save
    # graphs as .svg files, so on that platform I've disabled the call that does so.
    # The first run of a script is still a little slow while everything is loaded in,
    # but execution times of subsequent runs are improved immensely.
    fig.savefig('figure_name.svg')
点击查看英文原文

This may not apply to many of you, but I’m usually operating my computers under Linux, so by default I save my matplotlib plots as PNG and SVG. This works fine under Linux but is unbearably slow on my Windows 7 installations [MiKTeX under Python(x,y) or Anaconda], so I’ve taken to adding this code, and things work fine over there again:

import platform     # Don't save as SVG if running under Windows.
#
# Plot code goes here.
#
fig.savefig('figure_name.png', dpi = 200)
if platform.system() != 'Windows':
    # In my installations of Windows 7, it takes an inordinate amount of time to save
    # graphs as .svg files, so on that platform I've disabled the call that does so.
    # The first run of a script is still a little slow while everything is loaded in,
    # but execution times of subsequent runs are improved immensely.
    fig.savefig('figure_name.svg')
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