json和pickle都是序列化内存数据到文件
json和pickle的区别是:
如果两个程序都需要交互内存数据,如果都是python语言的情况下,复杂的交互用pickle。
用于序列化的两个模块
Json模块提供了四个功能:dumps、dump、loads、load
pickle模块提供了四个功能:dumps、dump、loads、load
dumps和dump区别:
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pickle.dump(info,f)#print(pickle.dumps(info))#f.write(pickle.dumps(info)) |
loads和load区别:
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data_from_atm=pickle.load(f)#data_from_atm=pickle.loads(f.read()) |
pickle(python中独有,支持所有python数据类型)
将字典转化为字符串
import pickle
f= open("user_acc.txt","wb")
info={
"alex":"123",
"jack":"4444"
}
f.write(pickle.dumps(info))
f.close()
将字符串转化为字典
import pickle
f= open("user_acc.txt","rb")
data_from_atm=pickle.loads(f.read())
print(data_from_atm)
json(是所有语言通用的,支持字典,列表,元组)
将字典转化为字符串
import pickle
import json
f= open("user_acc.txt","w")
info={
"alex":"123",
"jack":"4444"
}
f.write(json.dumps(info))
f.close()
将字符串转化为字典
import pickle,json
f= open("user_acc.txt","r")
data_from_atm=json.loads(f.read())
print(data_from_atm)
实例:
常用模块之shelve模块
shelve模块是一个简单的k,v将内存数据通过文件持久化的模块,可以持久化任何pickle可支持的python数据格式
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import shelve d = shelve.open(‘shelve_test‘) #打开一个文件 class Test(object): def __init__(self,n): self.n = n t = Test(123)t2 = Test(123334) name = ["alex","rain","test"]d["test"] = name #持久化列表d["t1"] = t #持久化类d["t2"] = t2 d.close() |
shelve和pickle的区别是:
shelve比pickle模块简单,只有一个open函数,返回类似字典的对象,可读可写,另外shelve想重复dump多少个对象都可以
常用模块之xml处理
xml是实现不同语言或程序之间进行数据交换的协议,跟json差不多,但json使用起来更简单,不过,古时候,在json还没诞生的黑暗年代,大家只能选择用xml呀,至今很多传统公司如金融行业的很多系统的接口还主要是xml。
xml的格式如下,就是通过<>节点来区别数据结构的:
<?xml version="1.0"?>
<data>
<country name="Liechtenstein">
<rank updated="yes">2</rank>
<year>2008</year>
<gdppc>141100</gdppc>
<neighbor name="Austria" direction="E"/>
<neighbor name="Switzerland" direction="W"/>
</country>
<country name="Singapore">
<rank updated="yes">5</rank>
<year>2011</year>
<gdppc>59900</gdppc>
<neighbor name="Malaysia" direction="N"/>
</country>
<country name="Panama">
<rank updated="yes">69</rank>
<year>2011</year>
<gdppc>13600</gdppc>
<neighbor name="Costa Rica" direction="W"/>
<neighbor name="Colombia" direction="E"/>
</country>
</data>
xml协议在各个语言里的都 是支持的,在python中可以用以下模块操作xml
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import xml.etree.ElementTree as ET tree = ET.parse("xmltest.xml")root = tree.getroot()print(root.tag) #遍历xml文档for child in root: print(child.tag, child.attrib) for i in child: print(i.tag,i.text) #只遍历year 节点for node in root.iter(‘year‘): print(node.tag,node.text) |
修改和删除xml文档内容
import xml.etree.ElementTree as ET
tree = ET.parse("xmltest.xml")
root = tree.getroot()
#修改
for node in root.iter(‘year‘):
new_year = int(node.text) + 1
node.text = str(new_year)
node.set("updated","yes")
tree.write("xmltest.xml")
#删除node
for country in root.findall(‘country‘):
rank = int(country.find(‘rank‘).text)
if rank > 50:
root.remove(country)
tree.write(‘output.xml‘)
自己创建xml文档
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import xml.etree.ElementTree as ET new_xml = ET.Element("namelist")name = ET.SubElement(new_xml,"name",attrib={"enrolled":"yes"})age = ET.SubElement(name,"age",attrib={"checked":"no"})sex = ET.SubElement(name,"sex")sex.text = ‘33‘name2 = ET.SubElement(new_xml,"name",attrib={"enrolled":"no"})age = ET.SubElement(name2,"age")age.text = ‘19‘ et = ET.ElementTree(new_xml) #生成文档对象et.write("test.xml", encoding="utf-8",xml_declaration=True) ET.dump(new_xml) #打印生成的格式 |
原文:http://www.cnblogs.com/suliuer/p/5612173.html