标签：Function task PIL Python opencv sec time loops 255

一、背景

本人准备用python做图像和视频编辑的操作，却发现opencv和PIL的效率并不是很理想，并且同样的需求有多种不同的写法并有着不同的效率。见全网并无较完整的效率对比文档，遂决定自己丰衣足食。

 

二、目的

本篇文章将对Python下的opencv接口函数及PIL(Pillow)函数的常用部分进行逐个运行并计时（多次测算取平均时间和最短时间，次数一般在100次以上），并简单使用numba、ctypes、cython等方法优化代码。

 

三、测试方法及环境

1.硬件

CPU：Intel(R) Core(TM) i3-3220 CPU @ 3.30GHz 3.30 GHz

内存：4.00 GB

硬盘：ATA WDC WD5000AAKX-7 SCSI Disk Device

2.软件：

操作系统：Windows 7 Service Pack 1 Ultimate 64bit zh-cn

Python解释器：3.7.5 64bit (provided by Anaconda)

各模块：皆为最新

（事情有所变化，暂时使用下面机房电脑的配置进行测试）

1.硬件

CPU：Intel(R) Xeon(R) Silver 4116 CPU @ 2.10GHz 2.10 GHz

内存：3.00 GB

硬盘：VMware Virtual disk SCSI Disk Service

2.软件：

操作系统：Windows 7 Service Pack 1 Ultimate 64bit zh-cn (powered by VMware Horizon View Client)

Python解释器：3.7.3 64bit (provided by Anaconda)

各模块：皆为最新

 

四、具体实现

1.待测试函数

以下定义新建的视频规定为MP4格式、mp4v编码、1920*1080尺寸、60帧速率；定义新建的图片为JPG格式、1920*1080尺寸、RGB通道。

根据实际需要（其实是我自己的需要），先暂定测试以下函数[1][2]：  

1)创建视频

vw = cv2.VideoWriter('out.mp4', cv2.VideoWriter_fourcc(*'mp4v'), 60, (1920, 1080)) # Return MP4 video object

2)视频帧读取（视频不好做测试数据，故使用了手头上现成的。in.mp4参数：时长27秒，尺寸1920x1080，数据速率17073kbps，总比特率17331kbps，帧速率29fps，大小55.7MB）

cap = cv2.VideoCapture('in.mp4')

while cap.isOpened():
    ret, frame = cap.read() # frame return a numpy.ndarray object (WRITEABLE) with RGB of pixels
    if not ret: # Return True when read operation is successful
        break # Read operation fails and break

cap.release()

3)视频帧写入[3] （PS：为什么Opencv官方教程中没有这个函数...）

vw.write(frame)

4)写入视频（后来发现这个应该类似于file.close()，只是一个释放文件对象的过程，并不是真的在这个时候写入所有的数据。之前看见在release之前文件是空的应该是数据还没有从内存写入磁盘导致的）

vw.release()

5)创建图片 ( matrix & pillow object )

# Matrix
arr = np.zeros((1080, 1920, 3), dtype=np.uint8) # numpy中xy貌似是颠倒的，于是长1920宽1080的图像输出的shape应该是1080x1920，第三维度3表示图片通道为RGB
# Return a numpy.ndarray object (WRITEABLE)

# Pillow
img = Image.new('RGB', (1920, 1080)) # 这里的xy没有颠倒

6)图片读取（opencv ＆ pillow）（使用新建的图片，满足上面的定义，大小33kb）

# OpenCV
arr = cv2.imread('in.jpg') # Notice that OpenCV don't support ALPHA channel

# Pillow
img = Image.open('in.jpg') # Return a PIL.Image.Image object

7)图片数据结构转换

arr1 = list(img.im) # Return a list

arr2 = np.asarray(img) # Return a np.ndarray object (NOT WRITEABLE) (Shallow copy)

arr3 = np.array(img) # Return a np.ndarray object (WRITEABLE) (Deep copy)

8)图片点操作（matrix ＆ pillow object )

# Matrix
arr3[0][0] = (255, 255, 255)

# Pillow
img.putpixel((0, 0), (255, 255, 255)) # Putpixel

draw = ImageDraw.Draw(img) # ImageDraw.Point
draw.point((0, 0), (255, 255, 255))

# PS: OpenCV don't has a function that draw a pixel directly so we don't show the code here

9)图片其他绘图操作（matrix ＆ pillow object & opencv )

这里我们测试画直线、画矩形、画圆（不包括matrix）、画椭圆操作（不包括matrix）、绘制文字（不包括matrix）。

注：pillow中默认绘制的图形都是实心的[4]，而opencv要设置线宽为负值才是实心的[5]。

### Line
# Matrix
for x in range(100, 500):
    arr3[100][x] = (255, 255, 255) # 注意到numpy的颠倒

# Pillow
draw.line((100, 100, 500, 100), (255, 255, 255))

# OpenCV
cv2.line(arr, (100, 100), (500, 100), (255, 255, 255), 1) # 最后的1表示线宽

### Rectangle
# Matrix
for x in range(100, 500):
    for y in range(100, 500):
        arr3[y][x] = (255, 255, 255)

# Pillow
draw.rectangle((100, 100, 500, 500), (255, 255, 255))

# OpenCV
cv2.rectangle(arr, (100, 100), (500, 500), (255, 255, 255), -1)

### Circle
# Pillow
draw.arc((100, 100, 500, 500), 0, 360, (255, 255, 255)) # PIL.ImageDraw.Draw.arc
# arc方法前一个四元元组表示圆弧的左上点右下点，这里表示半径200、中心(300, 300)；后面两个整数表示度数（0-360表示整个圆）

draw.ellipse((100, 100, 500, 500), (255, 255, 255)) # PIL.ImageDraw.Draw.ellipse
# ellipse方法同样表示两点

# OpenCV
cv2.circle(arr, (300, 300), 200, (255, 255, 255), -1) # cv2.circle
# 与Pillow不同的是，这里读取的是中心点和半径，更符合正常的习惯；1表示线宽，如果是-1则是实心圆

cv2.ellipse(arr, (300, 300), (200, 200), 0, 0, 360, (255, 255, 255), -1) # cv2.ellipse
# 这里第一个二元组是椭圆中心，第二个二元组分别表示半长轴长和半短轴长（注：中文文档漏掉了“半”字），后面三个参数分别表示椭圆本身逆时针旋转角（相当于坐标轴旋转）、起始角度和终止角度（0-360表示整个圆）

### Ellipse
# Pillow
draw.ellipse((100, 100, 700, 500), (255, 255, 255)) # 表示椭圆中心(400, 300)，半长轴300，半短轴200

# OpenCV
cv2.ellipse(arr, (400, 300), (300, 200), 0, 0, 360, (255, 255, 255), -1)

### Text
# Pillow
font = ImageFont.truetype('simkai.ttf', 32) # 楷体，字号32
draw.text((100, 100), 'Hello, world!', (255, 255, 255), font) # 这里的坐标是左上角

# OpenCV
font = cv2.FONT_HERSHEY_SIMPLEX
cv2.putText(arr, 'Hello, world!', (100, 200), font, 2, (255, 255, 255), 1, cv2.LINE_AA) # 这里的坐标是左下角，1表示线宽（cv2不支持中文输出，故不测试中文）

其中opencv的字体参数参考：[6]

10)图片其他操作

11)写入图片（ Pillow & OpenCV）

# Pillow
img.save('out.jpg')

# OpenCV
cv2.imwrite('out.jpg', arr) # Read from cv2.imread

cv2.imwrite('out.jpg', arr2) # np.asarray

cv2.imwrite('out.jpg', arr3) # np.array

 

2.时间计算工具

这里的时间计算工具用一个类实现给定次数的循环和智能循环（自动控制循环次数）的功能，并能给出每次循环的函数返回值、循环次数、平均时间、最短时间、最长时间、总共用时。

对于自动判断循环次数的算法参考了Python的timeit模块源码（autorange函数）[7]：

 1 # -*- coding: utf-8 -*-
 2 
 3 import time
 4 import cv2
 5 from PIL import Image, ImageDraw, ImageFont
 6 import numpy as np
 7 
 8 # Class
 9 class FunctionTimer(object):
10     MAX_WAIT_SEC = 0.5
11     INF = 2147483647
12     SMART_LOOP = -1
13     
14     def __init__(self, timer=None, count=None):
15         self._timer = timer if timer != None else time.perf_counter
16         self._count = count if count != None else 100
17         
18     def _get_single_time(self, func, *args, **kwargs):
19         s = self._timer()
20         ret = func(*args, **kwargs)
21         f = self._timer()
22         return ret, f - s
23         
24     def _get_repeat_time(self, number, func, *args, **kwargs):
25         time_min, time_max, time_sum = self.INF, 0, 0
26         for i in range(number):
27             ret, delta = self._get_single_time(func, *args, **kwargs)
28             time_min = min(time_min, delta)
29             time_max = max(time_max, delta)
30             time_sum += delta
31         return func, ret, number, time_sum / number, time_min, time_max, time_sum
32         
33     def gettime(self, func, *args, **kwargs):
34         if self._count != self.SMART_LOOP:
35             return self._get_repeat_time(self._count, func, *args, **kwargs)
36         else:
37             # Arrange loop count automatically
38             # Refer to Lib/timeit.py
39             i = 1
40             while True:
41                 for j in 1, 2, 5:
42                     number = i * j
43                     func, ret, number, time_ave, time_min, time_max, time_sum = self._get_repeat_time(number, func, *args, **kwargs)
44                     if time_sum >= self.MAX_WAIT_SEC:
45                         return func, ret, number, time_ave, time_min, time_max, time_sum
46                 i *= 10
47             
48     def better_print(self, params):
49         func, ret, count, ave, minn, maxn, sumn = params
50         print('========================================')
51         print(' Function name:')
52         print(' ' + func.__repr__())
53         print('========================================')
54         print(' Function has the return content below:')
55         print(' ' + ret.__name__)
56         print('========================================')
57         print(' Summary of Function Timer:')
58         print(' Count of loops: {}'.format(count))
59         print(' Average time of loops: {} (sec)'.format(ave))
60         print(' Minimum of every loop time: {} (sec)'.format(minn))
61         print(' Maximum of every loop time: {} (sec)'.format(maxn))
62         print(' Total time of loops: {} (sec)'.format(sumn))
63         print('========================================')
64 
65 # Function
66 def testfunc(x=10000000):
67     for i in range(x):
68         pass
69     return i
70             
71 # Main Function
72 timer = FunctionTimer()

测试结果（将整个文件作为模块以op为名字调用）：

In [168]: op.timer.better_print(op.timer.gettime(op.testfunc, 10000))
========================================
 Function name:
 testfunc
========================================
 Function has the return content below:
 9999
========================================
 Summary of Function Timer:
 Count of loops: 100
 Average time of loops: 0.00039519199983260476 (sec)
 Minimum of every loop time: 0.0002532999988034135 (sec)
 Maximum of every loop time: 0.0010392999993200647 (sec)
 Total time of loops: 0.03951919998326048 (sec)
========================================

In [169]: op.timer.better_print(op.timer.gettime(op.testfunc, 100000))
========================================
 Function name:
 testfunc
========================================
 Function has the return content below:
 99999
========================================
 Summary of Function Timer:
 Count of loops: 100
 Average time of loops: 0.0029596240000137187 (sec)
 Minimum of every loop time: 0.002567899999121437 (sec)
 Maximum of every loop time: 0.006201700000019628 (sec)
 Total time of loops: 0.29596240000137186 (sec)
========================================

In [170]: op.timer.better_print(op.timer.gettime(op.testfunc, 10))
========================================
 Function name:
 testfunc
========================================
 Function has the return content below:
 9
========================================
 Summary of Function Timer:
 Count of loops: 100
 Average time of loops: 9.039999349624849e-07 (sec)
 Minimum of every loop time: 7.999988156370819e-07 (sec)
 Maximum of every loop time: 2.6999987312592566e-06 (sec)
 Total time of loops: 9.03999934962485e-05 (sec)
========================================

 

3.完整代码

 

  1 # opencv_pil_time.py
  2 
  3 # -*- coding: utf-8 -*-
  4 
  5 import time
  6 import cv2
  7 from PIL import Image, ImageDraw, ImageFont
  8 import numpy as np
  9 
 10 # Class
 11 class FunctionTimer(object):
 12     MAX_WAIT_SEC = 0.5
 13     INF = 2147483647
 14     SMART_LOOP = -1
 15     
 16     def __init__(self, timer=None, count=None):
 17         self._timer = timer if timer != None else time.perf_counter
 18         self._count = count if count != None else 100
 19         
 20     def _get_single_time(self, func, *args, **kwargs):
 21         s = self._timer()
 22         ret = func(*args, **kwargs)
 23         f = self._timer()
 24         return ret, f - s
 25         
 26     def _get_repeat_time(self, number, func, *args, **kwargs):
 27         time_min, time_max, time_sum = self.INF, 0, 0
 28         for i in range(number):
 29             ret, delta = self._get_single_time(func, *args, **kwargs)
 30             time_min = min(time_min, delta)
 31             time_max = max(time_max, delta)
 32             time_sum += delta
 33         return func, ret, number, time_sum / number, time_min, time_max, time_sum
 34         
 35     def gettime(self, func, *args, **kwargs):
 36         if self._count != self.SMART_LOOP:
 37             return self._get_repeat_time(self._count, func, *args, **kwargs)
 38         else:
 39             # Arrange loop count automatically
 40             # Refer to Lib/timeit.py
 41             i = 1
 42             while True:
 43                 for j in 1, 2, 5:
 44                     number = i * j
 45                     func, ret, number, time_ave, time_min, time_max, time_sum = self._get_repeat_time(number, func, *args, **kwargs)
 46                     if time_sum >= self.MAX_WAIT_SEC:
 47                         return func, ret, number, time_ave, time_min, time_max, time_sum
 48                 i *= 10
 49             
 50     def better_print(self, params):
 51         func, ret, count, ave, minn, maxn, sumn = params
 52         print('========================================')
 53         print(' Function name:')
 54         print(' ' + func.__name__)
 55         print('========================================')
 56         print(' Function has the return content below:')
 57         print(' ' + ret.__repr__())
 58         print('========================================')
 59         print(' Summary of Function Timer:')
 60         print(' Count of loops: {}'.format(count))
 61         print(' Average time of loops: {} (sec)'.format(ave))
 62         print(' Minimum of every loop time: {} (sec)'.format(minn))
 63         print(' Maximum of every loop time: {} (sec)'.format(maxn))
 64         print(' Total time of loops: {} (sec)'.format(sumn))
 65         print('========================================')
 66 
 67 # Function
 68 # Debug
 69 def testfunc(x=10000000):
 70     for i in range(x):
 71         pass
 72     return i
 73     
 74 # Test Function
 75 def task_1():
 76     vw = cv2.VideoWriter('out.mp4', cv2.VideoWriter_fourcc(*'mp4v'), 60, (1920, 1080))
 77     
 78 def task_2():
 79     cap = cv2.VideoCapture('in.mp4')
 80     while cap.isOpened():
 81         ret, frame = cap.read()
 82         if not ret:
 83             break
 84     cap.release()
 85     
 86 def task_3(vw, frame): # Use a new blank video file when testing
 87     vw.write(frame)
 88     
 89 def task_4(vw):
 90     vw.release()
 91     
 92 def task_5_matrix():
 93     arr = np.zeros((1080, 1920, 3), dtype=np.uint8)
 94     
 95 def task_5_pillow():
 96     img = Image.new('RGB', (1920, 1080))
 97     
 98 def task_6_opencv():
 99     arr = cv2.imread('in.jpg')
100     
101 def task_6_pillow():
102     img = Image.open('in.jpg')
103             
104 def task_7_list(img):
105     arr1 = list(img.im)
106     
107 def task_7_asarray(img):
108     arr2 = np.asarray(img)
109     
110 def task_7_array(img):
111     arr3 = np.array(img)
112             
113 def task_8_matrix(arr3):
114     arr3[0][0] = (255, 255, 255)
115     
116 def task_8_pillow_putpixel(img):
117     img.putpixel((0, 0), (255, 255, 255))
118     
119 def task_8_pillow_point(draw):
120     draw.point((0, 0), (255, 255, 255))
121 
122 def task_9_line_matrix(arr3):
123     for x in range(100, 500):
124         arr3[100][x] = (255, 255, 255)
125             
126 def task_9_line_pillow(draw):
127     draw.line((100, 100, 500, 100), (255, 255, 255))
128     
129 def task_9_line_opencv(arr):
130     cv2.line(arr, (100, 100), (500, 100), (255, 255, 255), 1)
131     
132 def task_9_rectangle_matrix(arr3):
133     for x in range(100, 500):
134         for y in range(100, 500):
135             arr3[y][x] = (255, 255, 255)
136             
137 def task_9_rectangle_pillow(draw):
138     draw.rectangle((100, 100, 500, 500), (255, 255, 255))
139     
140 def task_9_rectangle_opencv(arr):
141     cv2.rectangle(arr, (100, 100), (500, 500), (255, 255, 255), -1)
142     
143 def task_9_circle_pillow_arc(draw):
144     draw.arc((100, 100, 500, 500), 0, 360, (255, 255, 255))
145     
146 def task_9_circle_pillow_ellipse(draw):
147     draw.ellipse((100, 100, 500, 500), (255, 255, 255))
148     
149 def task_9_circle_opencv_circle(arr):
150     cv2.circle(arr, (300, 300), 200, (255, 255, 255), -1)
151     
152 def task_9_circle_opencv_ellipse(arr):
153     cv2.ellipse(arr, (300, 300), (200, 200), 0, 0, 360, (255, 255, 255), -1)
154     
155 def task_9_ellipse_pillow(draw):
156     draw.ellipse((100, 100, 700, 500), (255, 255, 255))
157     
158 def task_9_ellipse_opencv(arr):
159     cv2.ellipse(arr, (400, 300), (300, 200), 0, 0, 360, (255, 255, 255), -1)
160     
161 def task_9_text_pillow(draw, font):
162     draw.text((100, 100), 'Hello, world!', (255, 255, 255), font)
163 
164 def task_9_text_opencv(arr, font):
165     cv2.putText(arr, 'Hello, world!', (100, 200), font, 2, (255, 255, 255), 1, cv2.LINE_AA)
166     
167 def task_10():
168     pass
169     
170 def task_11_pillow(img):
171     img.save('out.jpg')
172     
173 def task_11_opencv_imread(arr):
174     cv2.imwrite('out.jpg', arr)
175     
176 def task_11_opencv_asarray(arr2):
177     cv2.imwrite('out.jpg', arr2)
178     
179 def task_11_opencv_array(arr3):
180     cv2.imwrite('out.jpg', arr3)
181 
182 # Main Function
183 if __name__ == '__main__':        
184     timer = FunctionTimer()
185     # timer.better_print(timer.gettime(func, *args, **kwargs))
186     timer.better_print(timer.gettime(task_1))
187     vw = cv2.VideoWriter('out.mp4', cv2.VideoWriter_fourcc(*'mp4v'), 60, (1920, 1080))
188 #    timer.better_print(timer.gettime(task_2)) # task_2 takes up much time and we don't test it!
189     frame = np.zeros((1080, 1920, 3), dtype=np.uint8)
190     timer.better_print(timer.gettime(task_3, vw, frame))
191     timer.better_print(timer.gettime(task_4, vw))
192     timer.better_print(timer.gettime(task_5_matrix))
193     timer.better_print(timer.gettime(task_5_pillow))
194     timer.better_print(timer.gettime(task_6_opencv))
195     arr = cv2.imread('in.jpg')
196     timer.better_print(timer.gettime(task_6_pillow))
197     img = Image.new('RGB', (1920, 1080))
198     timer.better_print(timer.gettime(task_7_list, img))
199     timer.better_print(timer.gettime(task_7_asarray, img))
200     timer.better_print(timer.gettime(task_7_array, img))
201     arr2 = np.asarray(img)
202     arr3 = np.array(img)
203     timer.better_print(timer.gettime(task_8_matrix, arr3))
204     timer.better_print(timer.gettime(task_8_pillow_putpixel, img))
205     draw = ImageDraw.Draw(img)
206     timer.better_print(timer.gettime(task_8_pillow_point, draw))
207     timer.better_print(timer.gettime(task_9_line_matrix, arr3))
208     timer.better_print(timer.gettime(task_9_line_pillow, draw))
209     timer.better_print(timer.gettime(task_9_line_opencv, arr))
210     timer.better_print(timer.gettime(task_9_rectangle_matrix, arr3))
211     timer.better_print(timer.gettime(task_9_rectangle_pillow, draw))
212     timer.better_print(timer.gettime(task_9_rectangle_opencv, arr))
213     timer.better_print(timer.gettime(task_9_circle_pillow_arc, draw))
214     timer.better_print(timer.gettime(task_9_circle_pillow_ellipse, draw))
215     timer.better_print(timer.gettime(task_9_circle_opencv_circle, arr))
216     timer.better_print(timer.gettime(task_9_circle_opencv_ellipse, arr))
217     timer.better_print(timer.gettime(task_9_ellipse_pillow, draw))
218     timer.better_print(timer.gettime(task_9_ellipse_opencv, arr))
219     font = ImageFont.truetype('simkai.ttf', 32)
220     timer.better_print(timer.gettime(task_9_text_pillow, draw, font))
221     font = cv2.FONT_HERSHEY_SIMPLEX
222     timer.better_print(timer.gettime(task_9_text_opencv, arr, font))
223     timer.better_print(timer.gettime(task_11_pillow, img))
224     timer.better_print(timer.gettime(task_11_opencv_imread, arr))
225     timer.better_print(timer.gettime(task_11_opencv_asarray, arr2))
226     timer.better_print(timer.gettime(task_11_opencv_array, arr3))

 

在此我先停一下，各位可以猜猜哪种方式更胜一筹。

flag

flag

flag

flag

flag

flag

flag

flag

flag

flag

flag

flag

flag

 

 

五、结果

1.现象

其中task_2（读取视频文件）占用时间过多，我们不予循环测试，下面的结果栏中将给出单次运行的结果（取第一次）。

In [10]: import time

In [11]: s = time.perf_counter(); op.task_2(); f = time.perf_counter(); f - s
Out[11]: 8.617467135000027

In [12]: s = time.perf_counter(); op.task_2(); f = time.perf_counter(); f - s
Out[12]: 8.663589091999995

cmder.exe中运行结果：

E:\test1
$ python3 opencv_pil_time.py
========================================
 Function name:
 task_1
========================================
 Function has the return content below:
 None
========================================
 Summary of Function Timer:
 Count of loops: 100
 Average time of loops: 0.0016054189199999984 (sec)
 Minimum of every loop time: 0.0013979550000000063 (sec)
 Maximum of every loop time: 0.0057973939999999835 (sec)
 Total time of loops: 0.16054189199999985 (sec)
========================================
========================================
 Function name:
 task_3
========================================
 Function has the return content below:
 None
========================================
 Summary of Function Timer:
 Count of loops: 100
 Average time of loops: 0.013229802739999979 (sec)
 Minimum of every loop time: 0.01082132600000002 (sec)
 Maximum of every loop time: 0.018015121000000023 (sec)
 Total time of loops: 1.3229802739999978 (sec)
========================================
========================================
 Function name:
 task_4
========================================
 Function has the return content below:
 None
========================================
 Summary of Function Timer:
 Count of loops: 100
 Average time of loops: 2.1959869999998995e-05 (sec)
 Minimum of every loop time: 3.109999999750812e-07 (sec)
 Maximum of every loop time: 0.0021468490000000617 (sec)
 Total time of loops: 0.0021959869999998993 (sec)
========================================
========================================
 Function name:
 task_5_matrix
========================================
 Function has the return content below:
 None
========================================
 Summary of Function Timer:
 Count of loops: 100
 Average time of loops: 1.4977880000011101e-05 (sec)
 Minimum of every loop time: 1.0263000000065858e-05 (sec)
 Maximum of every loop time: 4.571699999988965e-05 (sec)
 Total time of loops: 0.0014977880000011101 (sec)
========================================
========================================
 Function name:
 task_5_pillow
========================================
 Function has the return content below:
 None
========================================
 Summary of Function Timer:
 Count of loops: 100
 Average time of loops: 0.0029445669399999997 (sec)
 Minimum of every loop time: 0.0026519169999998926 (sec)
 Maximum of every loop time: 0.00473345600000008 (sec)
 Total time of loops: 0.29445669399999996 (sec)
========================================
========================================
 Function name:
 task_6_opencv
========================================
 Function has the return content below:
 None
========================================
 Summary of Function Timer:
 Count of loops: 100
 Average time of loops: 0.02255292473999999 (sec)
 Minimum of every loop time: 0.021661312000000432 (sec)
 Maximum of every loop time: 0.032752587999999694 (sec)
 Total time of loops: 2.255292473999999 (sec)
========================================
========================================
 Function name:
 task_6_pillow
========================================
 Function has the return content below:
 None
========================================
 Summary of Function Timer:
 Count of loops: 100
 Average time of loops: 0.00025689415000005765 (sec)
 Minimum of every loop time: 0.0001309319999993619 (sec)
 Maximum of every loop time: 0.011476918999999697 (sec)
 Total time of loops: 0.025689415000005766 (sec)
========================================
========================================
 Function name:
 task_7_list
========================================
 Function has the return content below:
 None
========================================
 Summary of Function Timer:
 Count of loops: 100
 Average time of loops: 0.38457812533999997 (sec)
 Minimum of every loop time: 0.3564736689999961 (sec)
 Maximum of every loop time: 0.4698194010000005 (sec)
 Total time of loops: 38.457812534 (sec)
========================================
========================================
 Function name:
 task_7_asarray
========================================
 Function has the return content below:
 None
========================================
 Summary of Function Timer:
 Count of loops: 100
 Average time of loops: 0.007278045390000258 (sec)
 Minimum of every loop time: 0.007068772000003776 (sec)
 Maximum of every loop time: 0.007784698999998341 (sec)
 Total time of loops: 0.7278045390000258 (sec)
========================================
========================================
 Function name:
 task_7_array
========================================
 Function has the return content below:
 None
========================================
 Summary of Function Timer:
 Count of loops: 100
 Average time of loops: 0.010643305210000377 (sec)
 Minimum of every loop time: 0.009964515000000063 (sec)
 Maximum of every loop time: 0.011806892999999263 (sec)
 Total time of loops: 1.0643305210000378 (sec)
========================================
========================================
 Function name:
 task_8_matrix
========================================
 Function has the return content below:
 None
========================================
 Summary of Function Timer:
 Count of loops: 100
 Average time of loops: 2.8363499999528583e-06 (sec)
 Minimum of every loop time: 1.5549999972108708e-06 (sec)
 Maximum of every loop time: 4.1673999994884525e-05 (sec)
 Total time of loops: 0.00028363499999528585 (sec)
========================================
========================================
 Function name:
 task_8_pillow_putpixel
========================================
 Function has the return content below:
 None
========================================
 Summary of Function Timer:
 Count of loops: 100
 Average time of loops: 2.1925700001901305e-06 (sec)
 Minimum of every loop time: 1.2439999963476112e-06 (sec)
 Maximum of every loop time: 2.1769999996479328e-05 (sec)
 Total time of loops: 0.00021925700001901305 (sec)
========================================
========================================
 Function name:
 task_8_pillow_point
========================================
 Function has the return content below:
 None
========================================
 Summary of Function Timer:
 Count of loops: 100
 Average time of loops: 2.3574000000081697e-06 (sec)
 Minimum of every loop time: 1.5549999972108708e-06 (sec)
 Maximum of every loop time: 1.8971000002920846e-05 (sec)
 Total time of loops: 0.00023574000000081696 (sec)
========================================
========================================
 Function name:
 task_9_line_matrix
========================================
 Function has the return content below:
 None
========================================
 Summary of Function Timer:
 Count of loops: 100
 Average time of loops: 0.0004368183000000414 (sec)
 Minimum of every loop time: 0.0004301160000039772 (sec)
 Maximum of every loop time: 0.000561359000002426 (sec)
 Total time of loops: 0.04368183000000414 (sec)
========================================
========================================
 Function name:
 task_9_line_pillow
========================================
 Function has the return content below:
 None
========================================
 Summary of Function Timer:
 Count of loops: 100
 Average time of loops: 3.4956700000066122e-06 (sec)
 Minimum of every loop time: 2.4879999998006497e-06 (sec)
 Maximum of every loop time: 2.519200000250521e-05 (sec)
 Total time of loops: 0.0003495670000006612 (sec)
========================================
========================================
 Function name:
 task_9_line_opencv
========================================
 Function has the return content below:
 None
========================================
 Summary of Function Timer:
 Count of loops: 100
 Average time of loops: 3.5982899999709163e-06 (sec)
 Minimum of every loop time: 2.4879999998006497e-06 (sec)
 Maximum of every loop time: 4.727200000331777e-05 (sec)
 Total time of loops: 0.0003598289999970916 (sec)
========================================
========================================
 Function name:
 task_9_rectangle_matrix
========================================
 Function has the return content below:
 None
========================================
 Summary of Function Timer:
 Count of loops: 100
 Average time of loops: 0.1735227326999994 (sec)
 Minimum of every loop time: 0.17267937900000163 (sec)
 Maximum of every loop time: 0.19454626299999944 (sec)
 Total time of loops: 17.35227326999994 (sec)
========================================
========================================
 Function name:
 task_9_rectangle_pillow
========================================
 Function has the return content below:
 None
========================================
 Summary of Function Timer:
 Count of loops: 100
 Average time of loops: 3.0409819999803745e-05 (sec)
 Minimum of every loop time: 2.9545000003849964e-05 (sec)
 Maximum of every loop time: 7.153000000670318e-05 (sec)
 Total time of loops: 0.0030409819999803744 (sec)
========================================
========================================
 Function name:
 task_9_rectangle_opencv
========================================
 Function has the return content below:
 None
========================================
 Summary of Function Timer:
 Count of loops: 100
 Average time of loops: 6.522652000001016e-05 (sec)
 Minimum of every loop time: 6.25109999958795e-05 (sec)
 Maximum of every loop time: 0.0002674619999964989 (sec)
 Total time of loops: 0.006522652000001017 (sec)
========================================
========================================
 Function name:
 task_9_circle_pillow_arc
========================================
 Function has the return content below:
 None
========================================
 Summary of Function Timer:
 Count of loops: 100
 Average time of loops: 2.7626349999891885e-05 (sec)
 Minimum of every loop time: 2.6745999996080627e-05 (sec)
 Maximum of every loop time: 6.531100000017886e-05 (sec)
 Total time of loops: 0.0027626349999891886 (sec)
========================================
========================================
 Function name:
 task_9_circle_pillow_ellipse
========================================
 Function has the return content below:
 None
========================================
 Summary of Function Timer:
 Count of loops: 100
 Average time of loops: 0.0002000553400001337 (sec)
 Minimum of every loop time: 0.00019841900000017176 (sec)
 Maximum of every loop time: 0.0002512900000013474 (sec)
 Total time of loops: 0.02000553400001337 (sec)
========================================
========================================
 Function name:
 task_9_circle_opencv_circle
========================================
 Function has the return content below:
 None
========================================
 Summary of Function Timer:
 Count of loops: 100
 Average time of loops: 6.074186999960318e-05 (sec)
 Minimum of every loop time: 5.815699999800472e-05 (sec)
 Maximum of every loop time: 0.00016856299999545854 (sec)
 Total time of loops: 0.006074186999960318 (sec)
========================================
========================================
 Function name:
 task_9_circle_opencv_ellipse
========================================
 Function has the return content below:
 None
========================================
 Summary of Function Timer:
 Count of loops: 100
 Average time of loops: 6.716407000013192e-05 (sec)
 Minimum of every loop time: 6.593300000190538e-05 (sec)
 Maximum of every loop time: 0.00012471200000163662 (sec)
 Total time of loops: 0.0067164070000131915 (sec)
========================================
========================================
 Function name:
 task_9_ellipse_pillow
========================================
 Function has the return content below:
 None
========================================
 Summary of Function Timer:
 Count of loops: 100
 Average time of loops: 0.0002104615099997176 (sec)
 Minimum of every loop time: 0.00020619399999333154 (sec)
 Maximum of every loop time: 0.00040772399999866593 (sec)
 Total time of loops: 0.021046150999971758 (sec)
========================================
========================================
 Function name:
 task_9_ellipse_opencv
========================================
 Function has the return content below:
 None
========================================
 Summary of Function Timer:
 Count of loops: 100
 Average time of loops: 8.027900999998394e-05 (sec)
 Minimum of every loop time: 7.837199999727318e-05 (sec)
 Maximum of every loop time: 0.00020712799999955678 (sec)
 Total time of loops: 0.008027900999998394 (sec)
========================================
========================================
 Function name:
 task_9_text_pillow
========================================
 Function has the return content below:
 None
========================================
 Summary of Function Timer:
 Count of loops: 100
 Average time of loops: 0.0007998544599997359 (sec)
 Minimum of every loop time: 0.0007778169999994589 (sec)
 Maximum of every loop time: 0.0016240550000006237 (sec)
 Total time of loops: 0.07998544599997359 (sec)
========================================
========================================
 Function name:
 task_9_text_opencv
========================================
 Function has the return content below:
 None
========================================
 Summary of Function Timer:
 Count of loops: 100
 Average time of loops: 3.116865999970742e-05 (sec)
 Minimum of every loop time: 3.0166999998471056e-05 (sec)
 Maximum of every loop time: 9.610000000037644e-05 (sec)
 Total time of loops: 0.0031168659999707415 (sec)
========================================
========================================
 Function name:
 task_11_pillow
========================================
 Function has the return content below:
 None
========================================
 Summary of Function Timer:
 Count of loops: 100
 Average time of loops: 0.033835311859999495 (sec)
 Minimum of every loop time: 0.03373037900000497 (sec)
 Maximum of every loop time: 0.034273077999998236 (sec)
 Total time of loops: 3.3835311859999493 (sec)
========================================
========================================
 Function name:
 task_11_opencv_imread
========================================
 Function has the return content below:
 None
========================================
 Summary of Function Timer:
 Count of loops: 100
 Average time of loops: 0.028288081510000042 (sec)
 Minimum of every loop time: 0.028133581999995272 (sec)
 Maximum of every loop time: 0.02905974700000513 (sec)
 Total time of loops: 2.828808151000004 (sec)
========================================
========================================
 Function name:
 task_11_opencv_asarray
========================================
 Function has the return content below:
 None
========================================
 Summary of Function Timer:
 Count of loops: 100
 Average time of loops: 0.02815422919999975 (sec)
 Minimum of every loop time: 0.0279864769999989 (sec)
 Maximum of every loop time: 0.029095201000004067 (sec)
 Total time of loops: 2.8154229199999747 (sec)
========================================
========================================
 Function name:
 task_11_opencv_array
========================================
 Function has the return content below:
 None
========================================
 Summary of Function Timer:
 Count of loops: 100
 Average time of loops: 0.028195894160001414 (sec)
 Minimum of every loop time: 0.028047434000001203 (sec)
 Maximum of every loop time: 0.02866104100000655 (sec)
 Total time of loops: 2.8195894160001416 (sec)
========================================

（很奇怪为什么循环次数都是100次，感觉可能timer算法有问题）

时间单位：秒，精确度：3位有效数字，制作成表格（红字表示所在子操作名中平均时间最短的函数，如若平均时间最短按照时间排列顺序依次比较）（图片读取一栏的红字标错位置了，应该打在pillow的下面）：

 

 

2.结论

1）前四项由于没有对比就不多说了，不过感觉opencv读取视频的速度确实有些慢（6.5MB/s，90.8frame/s）。当然写入数据也很慢（75.8frame/s），不过尺寸不同，就不互相比较了。

2）创建图片操作numpy数组要比pillow的对象要快一些（也就两个数量级吧~）。

3）数据结构转换中numpy比list快几乎是显然的hhh，其中asarray要比array略快一点，大概是因为array深复制而asarray浅复制；当然asarray的结果是not writable的，估计是因为image对象存储的数组本身就是只读的吧。如果只是为了读取图片方便塞视频里就用asarray。

4）没想到图片点操作里面numpy的索引赋值竟然比putpixel还要慢一点！真是大开眼界。。。果然pillow源码里面说“自带api要快一点”是真的。。。

5）图片读取、图片绘图绝大多数情况下pillow秒杀numpy和opencv，只有在写文字的时候opencv体现出比较大的效率优势，但是opencv的字体有很多限制，还是弃置了。（我手头上有一套字模，还是可以测试一下numpy写字速度的，不过估计还是要慢一些，而且字模做起来也比较臃肿，就不试了~）

6）写图片还是opencv要快一点点，当然asarray和array在多精确几个数字就是asarray快了，如果只有三位那就是array更快一点。

 

六、优化

（待续）

 

七、总结反思

这个项目我大概从一个月前就有想法了，最近一周一直在抽时间做，净时间估计都有十几个小时了。最后一天（11月16日）晚上我拖到12点，作业还没做完，困得要死，也就做了个大概－－没有优化的部分，也没有表格，还因为事先没查好api返工了好几次。这件事让我深感个人的力量的薄弱 ，以及我自己水平的低下。

不过这次的项目让我掌握了多方面搜索数据（尤其是api）的能力，诸如找官方文档啊，看源码啊之类的，晦涩难懂的源代码和英文文档我也尽可能啃掉了，也算是一大进步了吧。

然后就是项目的内容。本次的测试我尽可能从自己能想到的角度给出足够多的实现方法来对比运行效率，孰优孰劣一下子就清楚了。不过也要看情况，比如说给定的数据全是数组，你要是为了追求图像处理函数的效率而全部转成pil对象，也并不是好的。除了时间效率的差距，我们也可以看出PIL的图像处理能力果然还是上等，opencv只是视频库附带一个简陋的图像处理能力，真正到解决图像问题时候还是应该选择PIL。

当然，这次的实验也有不科学的地方，诸如没有控制好无关变量，甚至可能导致相反的结果。我不是专业搞cs得，而且我还是高二生，实在无力全身心投入其中。实验方法带来的误差以及内容的错漏，尚希见谅！

最后希望各位能在这篇充满艰辛的博客中得到点什么。哪怕是一点处理编程项目时的教训而不是博客内容本身，我也心满意足了。

 

---

 

参考资料：

[1]Pillow (PIL Fork) 7.0.0.dev0 英文文档

[2]OpenCV Python Tutorials 翻译        OpenCV-Python Tutorials

[3]Python&OpenCV - 读写(read&write)视频(video) 详解 及 代码

[4]Python图像处理库PIL的ImageDraw模块介绍

[5]python opencv cv2.rectangle 参数含义

[6] python中cv2.putText参数详解

[7]Python 3.7 timeit

标签：Function,task,PIL,Python,opencv,sec,time,loops,255
来源： https://www.cnblogs.com/littleye233/p/11962450.html

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