python - XML文件及其操作
xml文件也是实现不同语言或者程序之间进行数据交换的协议,它的特点是尖括号开头,尖括号结尾.使用范围就更为广泛了,tomcat resin kvm 等等,使用了大量的xml文件来进行相关配置.先来看一个典型的xml文件吧:
<data>
<country name="Liechtenstein">
<rank updated="yes">2</rank>
<year>2023</year>
<gdppc>141100</gdppc>
<neighbor direction="E" name="Austria" />
<neighbor direction="W" name="Switzerland" />
</country>
<country name="Singapore">
<rank updated="yes">5</rank>
<year>2026</year>
<gdppc>59900</gdppc>
<neighbor direction="N" name="Malaysia" />
</country>
<country name="Panama">
<rank updated="yes">69</rank>
<year>2026</year>
<gdppc>13600</gdppc>
<neighbor direction="W" name="Costa Rica" />
<neighbor direction="E" name="Colombia" />
</country>
</data>
xml文件一般可分为两种使用类型:
- 页面展示(字符串类型)
- 配置文件(已写入文件中)
xml文件中一般有一些分类,根节点、子节点、属性(attrib)、内容(text)、标签(tag)。
特点是可以节点嵌套节点,子节点可以积蓄嵌套,下面是一些从老师博客copy来的操作方法 ,也可以python dir出来:
xml操作:
class Element:
"""An XML element. This class is the reference implementation of the Element interface. An element's length is its number of subelements. That means if you
want to check if an element is truly empty, you should check BOTH
its length AND its text attribute. The element tag, attribute names, and attribute values can be either
bytes or strings. *tag* is the element name. *attrib* is an optional dictionary containing
element attributes. *extra* are additional element attributes given as
keyword arguments. Example form:
<tag attrib>text<child/>...</tag>tail """ 当前节点的标签名
tag = None
"""The element's name.""" 当前节点的属性 attrib = None
"""Dictionary of the element's attributes.""" 当前节点的内容
text = None
"""
Text before first subelement. This is either a string or the value None.
Note that if there is no text, this attribute may be either
None or the empty string, depending on the parser. """ tail = None
"""
Text after this element's end tag, but before the next sibling element's
start tag. This is either a string or the value None. Note that if there
was no text, this attribute may be either None or an empty string,
depending on the parser. """ def __init__(self, tag, attrib={}, **extra):
if not isinstance(attrib, dict):
raise TypeError("attrib must be dict, not %s" % (
attrib.__class__.__name__,))
attrib = attrib.copy()
attrib.update(extra)
self.tag = tag
self.attrib = attrib
self._children = [] def __repr__(self):
return "<%s %r at %#x>" % (self.__class__.__name__, self.tag, id(self)) def makeelement(self, tag, attrib):
创建一个新节点
"""Create a new element with the same type. *tag* is a string containing the element name.
*attrib* is a dictionary containing the element attributes. Do not call this method, use the SubElement factory function instead. """
return self.__class__(tag, attrib) def copy(self):
"""Return copy of current element. This creates a shallow copy. Subelements will be shared with the
original tree. """
elem = self.makeelement(self.tag, self.attrib)
elem.text = self.text
elem.tail = self.tail
elem[:] = self
return elem def __len__(self):
return len(self._children) def __bool__(self):
warnings.warn(
"The behavior of this method will change in future versions. "
"Use specific 'len(elem)' or 'elem is not None' test instead.",
FutureWarning, stacklevel=2
)
return len(self._children) != 0 # emulate old behaviour, for now def __getitem__(self, index):
return self._children[index] def __setitem__(self, index, element):
# if isinstance(index, slice):
# for elt in element:
# assert iselement(elt)
# else:
# assert iselement(element)
self._children[index] = element def __delitem__(self, index):
del self._children[index] def append(self, subelement):
为当前节点追加一个子节点
"""Add *subelement* to the end of this element. The new element will appear in document order after the last existing
subelement (or directly after the text, if it's the first subelement),
but before the end tag for this element. """
self._assert_is_element(subelement)
self._children.append(subelement) def extend(self, elements):
为当前节点扩展 n 个子节点
"""Append subelements from a sequence. *elements* is a sequence with zero or more elements. """
for element in elements:
self._assert_is_element(element)
self._children.extend(elements) def insert(self, index, subelement):
在当前节点的子节点中插入某个节点,即:为当前节点创建子节点,然后插入指定位置
"""Insert *subelement* at position *index*."""
self._assert_is_element(subelement)
self._children.insert(index, subelement) def _assert_is_element(self, e):
# Need to refer to the actual Python implementation, not the
# shadowing C implementation.
if not isinstance(e, _Element_Py):
raise TypeError('expected an Element, not %s' % type(e).__name__) def remove(self, subelement):
在当前节点在子节点中删除某个节点
"""Remove matching subelement. Unlike the find methods, this method compares elements based on
identity, NOT ON tag value or contents. To remove subelements by
other means, the easiest way is to use a list comprehension to
select what elements to keep, and then use slice assignment to update
the parent element. ValueError is raised if a matching element could not be found. """
# assert iselement(element)
self._children.remove(subelement) def getchildren(self):
获取所有的子节点(废弃)
"""(Deprecated) Return all subelements. Elements are returned in document order. """
warnings.warn(
"This method will be removed in future versions. "
"Use 'list(elem)' or iteration over elem instead.",
DeprecationWarning, stacklevel=2
)
return self._children def find(self, path, namespaces=None):
获取第一个寻找到的子节点
"""Find first matching element by tag name or path. *path* is a string having either an element tag or an XPath,
*namespaces* is an optional mapping from namespace prefix to full name. Return the first matching element, or None if no element was found. """
return ElementPath.find(self, path, namespaces) def findtext(self, path, default=None, namespaces=None):
获取第一个寻找到的子节点的内容
"""Find text for first matching element by tag name or path. *path* is a string having either an element tag or an XPath,
*default* is the value to return if the element was not found,
*namespaces* is an optional mapping from namespace prefix to full name. Return text content of first matching element, or default value if
none was found. Note that if an element is found having no text
content, the empty string is returned. """
return ElementPath.findtext(self, path, default, namespaces) def findall(self, path, namespaces=None):
获取所有的子节点
"""Find all matching subelements by tag name or path. *path* is a string having either an element tag or an XPath,
*namespaces* is an optional mapping from namespace prefix to full name. Returns list containing all matching elements in document order. """
return ElementPath.findall(self, path, namespaces) def iterfind(self, path, namespaces=None):
获取所有指定的节点,并创建一个迭代器(可以被for循环)
"""Find all matching subelements by tag name or path. *path* is a string having either an element tag or an XPath,
*namespaces* is an optional mapping from namespace prefix to full name. Return an iterable yielding all matching elements in document order. """
return ElementPath.iterfind(self, path, namespaces) def clear(self):
清空节点
"""Reset element. This function removes all subelements, clears all attributes, and sets
the text and tail attributes to None. """
self.attrib.clear()
self._children = []
self.text = self.tail = None def get(self, key, default=None):
获取当前节点的属性值
"""Get element attribute. Equivalent to attrib.get, but some implementations may handle this a
bit more efficiently. *key* is what attribute to look for, and
*default* is what to return if the attribute was not found. Returns a string containing the attribute value, or the default if
attribute was not found. """
return self.attrib.get(key, default) def set(self, key, value):
为当前节点设置属性值
"""Set element attribute. Equivalent to attrib[key] = value, but some implementations may handle
this a bit more efficiently. *key* is what attribute to set, and
*value* is the attribute value to set it to. """
self.attrib[key] = value def keys(self):
获取当前节点的所有属性的 key """Get list of attribute names. Names are returned in an arbitrary order, just like an ordinary
Python dict. Equivalent to attrib.keys() """
return self.attrib.keys() def items(self):
获取当前节点的所有属性值,每个属性都是一个键值对
"""Get element attributes as a sequence. The attributes are returned in arbitrary order. Equivalent to
attrib.items(). Return a list of (name, value) tuples. """
return self.attrib.items() def iter(self, tag=None):
在当前节点的子孙中根据节点名称寻找所有指定的节点,并返回一个迭代器(可以被for循环)。
"""Create tree iterator. The iterator loops over the element and all subelements in document
order, returning all elements with a matching tag. If the tree structure is modified during iteration, new or removed
elements may or may not be included. To get a stable set, use the
list() function on the iterator, and loop over the resulting list. *tag* is what tags to look for (default is to return all elements) Return an iterator containing all the matching elements. """
if tag == "*":
tag = None
if tag is None or self.tag == tag:
yield self
for e in self._children:
yield from e.iter(tag) # compatibility
def getiterator(self, tag=None):
# Change for a DeprecationWarning in 1.4
warnings.warn(
"This method will be removed in future versions. "
"Use 'elem.iter()' or 'list(elem.iter())' instead.",
PendingDeprecationWarning, stacklevel=2
)
return list(self.iter(tag)) def itertext(self):
在当前节点的子孙中根据节点名称寻找所有指定的节点的内容,并返回一个迭代器(可以被for循环)。
"""Create text iterator. The iterator loops over the element and all subelements in document
order, returning all inner text. """
tag = self.tag
if not isinstance(tag, str) and tag is not None:
return
if self.text:
yield self.text
for e in self:
yield from e.itertext()
if e.tail:
yield e.tail
xml的解析
之前说过,xml有两种方式,一种字符串类型,一种文件类型,所以有两种解析方式:
第一种,利用ElementTree.XML将字符串解析为xml:
from xml.etree import ElementTree as ET ##########打开文件,读取XML内容
str_xml = open('xo.xml', 'r').read() ###############将字符串解析成xml特殊对象,root代指xml文件的根节点
root = ET.XML(str_xml) 利用ElementTree.XML将字符串解析成xml对象
第二种,利用ElementTree.parse将文件解析为xml:
from xml.etree import ElementTree as ET ###直接解析xml文件
tree = ET.parse("xo.xml") ###获取xml文件的根节点
root = tree.getroot() 利用ElementTree.parse将文件直接解析成xml对象
遍历xml内容
from xml.etree import ElementTree as et tree=et.parse('test1.xml')
root=tree.getroot()
print(root.tag) #顶层的标签 for child in root: #遍历xml的第二层的标签,属性和内容
print(child.tag,child.attrib,child.text)
for sub_child in child: #遍历第三层内容
print(sub_child.tag,sub_child.attrib,sub_child.text)
out:
data
country {'name': 'Liechtenstein'} rank {'updated': 'yes'} 2
year {} 2023
gdppc {} 141100
neighbor {'direction': 'E', 'name': 'Austria'} None
neighbor {'direction': 'W', 'name': 'Switzerland'} None
country {'name': 'Singapore'} rank {'updated': 'yes'} 5
year {} 2026
gdppc {} 59900
neighbor {'direction': 'N', 'name': 'Malaysia'} None
country {'name': 'Panama'} rank {'updated': 'yes'} 69
year {} 2026
gdppc {} 13600
neighbor {'direction': 'W', 'name': 'Costa Rica'} None
neighbor {'direction': 'E', 'name': 'Colombia'} None
遍历指定的节点
print(root.tag) #########遍历XML中所有的year节点
for node in root.iter('year'):
# 节点的标签名称和内容
print(node.tag, node.text)
修改xml文件中的内容
from xml.etree import ElementTree as et str_xml=open('test1.xml','r').read()
root=et.XML(str_xml)
print(root.tag) for node in root.iter('year'):
year=int(node.text)+1
node.text=str(year) node.set('name','alex')
node.set('age','') del node.attrib['name'] # print(root.tag,root.text)
tree=et.ElementTree(root)
tree.write('new_test2.xml',encoding='utf8',xml_declaration=True,short_empty_elements=False)
new_test2.xml中的内容:
<?xml version='1.0' encoding='utf8'?>
<data>
<country name="Liechtenstein">
<rank updated="yes">2</rank>
<year age="">2024</year>
<gdppc>141100</gdppc>
<neighbor direction="E" name="Austria"></neighbor>
<neighbor direction="W" name="Switzerland"></neighbor>
</country>
<country name="Singapore">
<rank updated="yes">5</rank>
<year age="">2027</year>
<gdppc>59900</gdppc>
<neighbor direction="N" name="Malaysia"></neighbor>
</country>
<country name="Panama">
<rank updated="yes">69</rank>
<year age="">2027</year>
<gdppc>13600</gdppc>
<neighbor direction="W" name="Costa Rica"></neighbor>
<neighbor direction="E" name="Colombia"></neighbor>
</country>
</data>
删除节点
1.字符串方式解析打开,删除/保存:
from xml.etree import ElementTree as ET ############ 解析字符串方式打开 ############ # 打开文件,读取XML内容
str_xml = open('xo.xml', 'r').read() # 将字符串解析成xml特殊对象,root代指xml文件的根节点
root = ET.XML(str_xml) ############ 操作 ############ # 顶层标签
print(root.tag) # 遍历data下的所有country节点
for country in root.findall('country'):
# 获取每一个country节点下rank节点的内容
rank = int(country.find('rank').text) if rank > 50:
# 删除指定country节点
root.remove(country) ############ 保存文件 ############
tree = ET.ElementTree(root)
tree.write("newnew.xml", encoding='utf-8')
- 文件方式解析打开,删除/保存:
from xml.etree import ElementTree as ET ############ 解析文件方式 ############ # 直接解析xml文件
tree = ET.parse("xo.xml") # 获取xml文件的根节点
root = tree.getroot() ############ 操作 ############ # 顶层标签
print(root.tag) # 遍历data下的所有country节点
for country in root.findall('country'):
# 获取每一个country节点下rank节点的内容
rank = int(country.find('rank').text) if rank > 50:
# 删除指定country节点
root.remove(country) ############ 保存文件 ############
tree.write("newnew.xml", encoding='utf-8') 解析文件方式打开,删除,保存
创建xml文件
方式1:
from xml.etree import ElementTree as ET # 创建根节点
root = ET.Element("famliy") # 创建节点大儿子
son1 = ET.Element('son', {'name': '儿1'})
# 创建小儿子
son2 = ET.Element('son', {"name": '儿2'}) # 在大儿子中创建两个孙子
grandson1 = ET.Element('grandson', {'name': '儿11'})
grandson2 = ET.Element('grandson', {'name': '儿12'})
son1.append(grandson1)
son1.append(grandson2) # 把儿子添加到根节点中
root.append(son1)
root.append(son1) tree = ET.ElementTree(root)
tree.write('oooo.xml',encoding='utf-8', short_empty_elements=False)
方式2:
from xml.etree import ElementTree as ET # 创建根节点
root = ET.Element("famliy") # 创建大儿子
# son1 = ET.Element('son', {'name': '儿1'})
son1 = root.makeelement('son', {'name': '儿1'})
# 创建小儿子
# son2 = ET.Element('son', {"name": '儿2'})
son2 = root.makeelement('son', {"name": '儿2'}) # 在大儿子中创建两个孙子
# grandson1 = ET.Element('grandson', {'name': '儿11'})
grandson1 = son1.makeelement('grandson', {'name': '儿11'})
# grandson2 = ET.Element('grandson', {'name': '儿12'})
grandson2 = son1.makeelement('grandson', {'name': '儿12'}) son1.append(grandson1)
son1.append(grandson2) # 把儿子添加到根节点中
root.append(son1)
root.append(son1) tree = ET.ElementTree(root)
tree.write('oooo.xml',encoding='utf-8', short_empty_elements=False)
方式3:
from xml.etree import ElementTree as ET # 创建根节点
root = ET.Element("famliy") # 创建节点大儿子
son1 = ET.SubElement(root, "son", attrib={'name': '儿1'})
# 创建小儿子
son2 = ET.SubElement(root, "son", attrib={"name": "儿2"}) # 在大儿子中创建一个孙子
grandson1 = ET.SubElement(son1, "age", attrib={'name': '儿11'})
grandson1.text = '孙子' et = ET.ElementTree(root) #生成文档对象
et.write("test.xml", encoding="utf-8", xml_declaration=True, short_empty_elements=False)
xml创建时候的缩进
from xml.etree import ElementTree as ET
from xml.dom import minidom def prettify(elem):
"""将节点转换成字符串,并添加缩进。
"""
rough_string = ET.tostring(elem, 'utf-8')
reparsed = minidom.parseString(rough_string)
return reparsed.toprettyxml(indent="\t") # 创建根节点
root = ET.Element("famliy") # 创建大儿子
# son1 = ET.Element('son', {'name': '儿1'})
son1 = root.makeelement('son', {'name': '儿1'})
# 创建小儿子
# son2 = ET.Element('son', {"name": '儿2'})
son2 = root.makeelement('son', {"name": '儿2'}) # 在大儿子中创建两个孙子
# grandson1 = ET.Element('grandson', {'name': '儿11'})
grandson1 = son1.makeelement('grandson', {'name': '儿11'})
# grandson2 = ET.Element('grandson', {'name': '儿12'})
grandson2 = son1.makeelement('grandson', {'name': '儿12'}) son1.append(grandson1)
son1.append(grandson2) # 把儿子添加到根节点中
root.append(son1)
root.append(son1) raw_str = prettify(root) f = open("xxxoo.xml",'w',encoding='utf-8')
f.write(raw_str)
f.close()
xml文件开头空间的命名
直接有个链接讲的比较清楚:
http://www.w3school.com.cn/xml/xml_namespaces.asp
from xml.etree import ElementTree as ET ET.register_namespace('com',"http://www.company.com") #some name # build a tree structure
root = ET.Element("{http://www.company.com}STUFF")
body = ET.SubElement(root, "{http://www.company.com}MORE_STUFF", attrib={"{http://www.company.com}hhh": ""})
body.text = "STUFF EVERYWHERE!" # wrap it in an ElementTree instance, and save as XML
tree = ET.ElementTree(root) tree.write("page.xml",
xml_declaration=True,
encoding='utf-8',
method="xml")
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