python程序设计——文件操作
分类
1.文本文件
存储常规字符串,由若干文本行组成,每行以换行符'\n'结尾
2.二进制文件
把对象以字节串存储,常见的图形图像、可执行文件、数据库文件office文档等
1 #创建文件
2 >>fw = open('sample.txt','w+',encoding='utf-8')
3 >>s = '文本读取方式\n sample.txt w+\n'
4 >>fw.write(s)
5 >>fw.close()
6 #查看sample.txt
7 文本读取方式
8 sample.txt w+
9
10 #建议形式,关键字with可以自动管理资源
11 >>s = '文本读取方式\n sample.txt w+\n'
12 >>with open('sample.txt','w+',encoding='utf-8') as fw:
13 >> fw.write(s)
14 # 判断文件对象是否关闭
15 >>fw.colsed
16 True
17
18 #添加文件内容
19 >>s = 'hello\n'
20 >>with open('sample.txt','a+',encoding='utf-8') as fa:
21 >> fa.write(s)
22 文本读取方式
23 sample.txt w+
24 hello
25
26 # 读取文件内容
27 # 读取一行
28 >>fread = open('sample.txt','r',encoding='utf-8')
29 >>fread.readline()
30 '文本读取方式\n'
31 >>fread.readline()
32 ' sample.txt w+\n'
33 >>fread.readline()
34 'hello\n'
35
36 # 一次读取所有行
37 >>fread = open('sample.txt','r',encoding='utf-8')
38 >>fread.readlines()
39 ['文本读取方式\n', ' sample.txt w+\n', 'hello\n']
40
41 #读取固定字符个数
42 >>fread = open('sample.txt','r',encoding='utf-8')
43 >>fread.read(4)
44 '文本读取'
45 >>fread.close()
可以使用dir() 查看与对象相关的方法,使用help()查看方法的用法
1 >>fread = open('sample.txt','r',encoding='utf-8')
2 >>fread.colse()
3 >>dir(fread)
4 #查看read()函数用法
5 >>help(fread.read)
文件序列化
序列化,就是把内存中的数据在不丢失数据类型的情况下,转化为二进制形式的过程
1.使用pickle模块
Pickle是常用并且快速的二进制文件序列化模块
1 #使用pickle dump依次写入二进制文件
2 import pickle
3 f = open('sample_pickle.dat','wb')
4
5 alist = [[2,3,4],[6,7,8]]
6 aset = {'a','b','c'}
7 atuple = (-5,-3,-1)
8 astr = '北京欢迎你,welcome!'
9 adic = {'name':'jin','sex':None}
10 try:
11 pickle.dump(alist,f)
12 pickle.dump(aset,f)
13 pickle.dump(atuple,f)
14 pickle.dump(astr,f)
15 pickle.dump(adic,f)
16 except:
17 print('write error')
18 finally:
19 f.close()
20
21 #使用Pickle load依次读取二进制文件
22 fr = open('sample_pickle.dat','rb')
23 try:
24 x=pickle.load(fr)
25 print(x)
26 x=pickle.load(fr)
27 print(x)
28 x=pickle.load(fr)
29 print(x)
30 x=pickle.load(fr)
31 print(x)
32 x=pickle.load(fr)
33 print(x)
34 except:
35 print('read error')
36 finally:
37 fr.close()
2.使用struct模块
1 import struct
2 import binascii
3
4 values = (1, b'good', 1.22) #字符串必须为字节流类型
5 s = struct.Struct('I4sf')
6 packed_data = s.pack(*values) #序列解包
7 unpacked_data = s.unpack(packed_data)
8
9 print('Original values:', values)
10 print('Format string :', s.format)
11 print('Uses :', s.size, 'bytes')
12 print('Packed Value :', binascii.hexlify(packed_data))
13 print('Unpacked Type :', type(unpacked_data), ' Value:', unpacked_data)
14
15 out:
16 Original values: (1, b'good', 1.22)
17 Format string : b'I4sf'
18 Uses : 12 bytes
19 Packed Value : b'01000000676f6f64f6289c3f'
20 Unpacked Type : <class 'tuple'> Value: (1, b'good', 1.2200000286102295)
