New in version 2.0.
The Document Object Model, or “DOM,” is a cross-language API from the World Wide Web Consortium (W3C) for accessing and modifying XML documents. A DOM implementation presents an XML document as a tree structure, or allows client code to build such a structure from scratch. It then gives access to the structure through a set of objects which provided well-known interfaces.
The DOM is extremely useful for random-access applications. SAX only allows you a view of one bit of the document at a time. If you are looking at one SAX element, you have no access to another. If you are looking at a text node, you have no access to a containing element. When you write a SAX application, you need to keep track of your program’s position in the document somewhere in your own code. SAX does not do it for you. Also, if you need to look ahead in the XML document, you are just out of luck.
Some applications are simply impossible in an event driven model with no access to a tree. Of course you could build some sort of tree yourself in SAX events, but the DOM allows you to avoid writing that code. The DOM is a standard tree representation for XML data.
The Document Object Model is being defined by the W3C in stages, or “levels” in their terminology. The Python mapping of the API is substantially based on the DOM Level 2 recommendation.
DOM applications typically start by parsing some XML into a DOM. How this is accomplished is not covered at all by DOM Level 1, and Level 2 provides only limited improvements: There is a DOMImplementation object class which provides access to Document creation methods, but no way to access an XML reader/parser/Document builder in an implementation-independent way. There is also no well-defined way to access these methods without an existing Document object. In Python, each DOM implementation will provide a function getDOMImplementation(). DOM Level 3 adds a Load/Store specification, which defines an interface to the reader, but this is not yet available in the Python standard library.
Once you have a DOM document object, you can access the parts of your XML document through its properties and methods. These properties are defined in the DOM specification; this portion of the reference manual describes the interpretation of the specification in Python.
The specification provided by the W3C defines the DOM API for Java, ECMAScript, and OMG IDL. The Python mapping defined here is based in large part on the IDL version of the specification, but strict compliance is not required (though implementations are free to support the strict mapping from IDL). See section Conformance for a detailed discussion of mapping requirements.
See also
The xml.dom contains the following functions:
Register the factory function with the name name. The factory function should return an object which implements the DOMImplementation interface. The factory function can return the same object every time, or a new one for each call, as appropriate for the specific implementation (e.g. if that implementation supports some customization).
Return a suitable DOM implementation. The name is either well-known, the module name of a DOM implementation, or None. If it is not None, imports the corresponding module and returns a DOMImplementation object if the import succeeds. If no name is given, and if the environment variable PYTHON_DOM is set, this variable is used to find the implementation.
If name is not given, this examines the available implementations to find one with the required feature set. If no implementation can be found, raise an ImportError. The features list must be a sequence of (feature, version) pairs which are passed to the hasFeature() method on available DOMImplementation objects.
Some convenience constants are also provided:
The value used to indicate that no namespace is associated with a node in the DOM. This is typically found as the namespaceURI of a node, or used as the namespaceURI parameter to a namespaces-specific method.
New in version 2.2.
The namespace URI associated with the reserved prefix xml, as defined by Namespaces in XML (section 4).
New in version 2.2.
The namespace URI for namespace declarations, as defined by Document Object Model (DOM) Level 2 Core Specification (section 1.1.8).
New in version 2.2.
The URI of the XHTML namespace as defined by XHTML 1.0: The Extensible HyperText Markup Language (section 3.1.1).
New in version 2.2.
In addition, xml.dom contains a base Node class and the DOM exception classes. The Node class provided by this module does not implement any of the methods or attributes defined by the DOM specification; concrete DOM implementations must provide those. The Node class provided as part of this module does provide the constants used for the nodeType attribute on concrete Node objects; they are located within the class rather than at the module level to conform with the DOM specifications.
The definitive documentation for the DOM is the DOM specification from the W3C.
Note that DOM attributes may also be manipulated as nodes instead of as simple strings. It is fairly rare that you must do this, however, so this usage is not yet documented.
Interface | Section | Purpose |
---|---|---|
DOMImplementation | DOMImplementation Objects | Interface to the underlying implementation. |
Node | Node Objects | Base interface for most objects in a document. |
NodeList | NodeList Objects | Interface for a sequence of nodes. |
DocumentType | DocumentType Objects | Information about the declarations needed to process a document. |
Document | Document Objects | Object which represents an entire document. |
Element | Element Objects | Element nodes in the document hierarchy. |
Attr | Attr Objects | Attribute value nodes on element nodes. |
Comment | Comment Objects | Representation of comments in the source document. |
Text | Text and CDATASection Objects | Nodes containing textual content from the document. |
ProcessingInstruction | ProcessingInstruction Objects | Processing instruction representation. |
An additional section describes the exceptions defined for working with the DOM in Python.
The DOMImplementation interface provides a way for applications to determine the availability of particular features in the DOM they are using. DOM Level 2 added the ability to create new Document and DocumentType objects using the DOMImplementation as well.
Return true if the feature identified by the pair of strings feature and version is implemented.
Return a new Document object (the root of the DOM), with a child Element object having the given namespaceUri and qualifiedName. The doctype must be a DocumentType object created by createDocumentType(), or None. In the Python DOM API, the first two arguments can also be None in order to indicate that no Element child is to be created.
Return a new DocumentType object that encapsulates the given qualifiedName, publicId, and systemId strings, representing the information contained in an XML document type declaration.
All of the components of an XML document are subclasses of Node.
An integer representing the node type. Symbolic constants for the types are on the Node object: ELEMENT_NODE, ATTRIBUTE_NODE, TEXT_NODE, CDATA_SECTION_NODE, ENTITY_NODE, PROCESSING_INSTRUCTION_NODE, COMMENT_NODE, DOCUMENT_NODE, DOCUMENT_TYPE_NODE, NOTATION_NODE. This is a read-only attribute.
The parent of the current node, or None for the document node. The value is always a Node object or None. For Element nodes, this will be the parent element, except for the root element, in which case it will be the Document object. For Attr nodes, this is always None. This is a read-only attribute.
A NamedNodeMap of attribute objects. Only elements have actual values for this; others provide None for this attribute. This is a read-only attribute.
The node that immediately precedes this one with the same parent. For instance the element with an end-tag that comes just before the self element’s start-tag. Of course, XML documents are made up of more than just elements so the previous sibling could be text, a comment, or something else. If this node is the first child of the parent, this attribute will be None. This is a read-only attribute.
The node that immediately follows this one with the same parent. See also previousSibling. If this is the last child of the parent, this attribute will be None. This is a read-only attribute.
A list of nodes contained within this node. This is a read-only attribute.
The first child of the node, if there are any, or None. This is a read-only attribute.
The last child of the node, if there are any, or None. This is a read-only attribute.
The part of the tagName following the colon if there is one, else the entire tagName. The value is a string.
The part of the tagName preceding the colon if there is one, else the empty string. The value is a string, or None
The namespace associated with the element name. This will be a string or None. This is a read-only attribute.
This has a different meaning for each node type; see the DOM specification for details. You can always get the information you would get here from another property such as the tagName property for elements or the name property for attributes. For all node types, the value of this attribute will be either a string or None. This is a read-only attribute.
This has a different meaning for each node type; see the DOM specification for details. The situation is similar to that with nodeName. The value is a string or None.
Returns true if the node has any attributes.
Returns true if the node has any child nodes.
Returns true if other refers to the same node as this node. This is especially useful for DOM implementations which use any sort of proxy architecture (because more than one object can refer to the same node).
Note
This is based on a proposed DOM Level 3 API which is still in the “working draft” stage, but this particular interface appears uncontroversial. Changes from the W3C will not necessarily affect this method in the Python DOM interface (though any new W3C API for this would also be supported).
Add a new child node to this node at the end of the list of children, returning newChild. If the node was already in in the tree, it is removed first.
Insert a new child node before an existing child. It must be the case that refChild is a child of this node; if not, ValueError is raised. newChild is returned. If refChild is None, it inserts newChild at the end of the children’s list.
Remove a child node. oldChild must be a child of this node; if not, ValueError is raised. oldChild is returned on success. If oldChild will not be used further, its unlink() method should be called.
Replace an existing node with a new node. It must be the case that oldChild is a child of this node; if not, ValueError is raised.
Join adjacent text nodes so that all stretches of text are stored as single Text instances. This simplifies processing text from a DOM tree for many applications.
New in version 2.1.
Clone this node. Setting deep means to clone all child nodes as well. This returns the clone.
A NodeList represents a sequence of nodes. These objects are used in two ways in the DOM Core recommendation: the Element objects provides one as its list of child nodes, and the getElementsByTagName() and getElementsByTagNameNS() methods of Node return objects with this interface to represent query results.
The DOM Level 2 recommendation defines one method and one attribute for these objects:
Return the i‘th item from the sequence, if there is one, or None. The index i is not allowed to be less then zero or greater than or equal to the length of the sequence.
The number of nodes in the sequence.
In addition, the Python DOM interface requires that some additional support is provided to allow NodeList objects to be used as Python sequences. All NodeList implementations must include support for __len__() and __getitem__(); this allows iteration over the NodeList in for statements and proper support for the len() built-in function.
If a DOM implementation supports modification of the document, the NodeList implementation must also support the __setitem__() and __delitem__() methods.
Information about the notations and entities declared by a document (including the external subset if the parser uses it and can provide the information) is available from a DocumentType object. The DocumentType for a document is available from the Document object’s doctype attribute; if there is no DOCTYPE declaration for the document, the document’s doctype attribute will be set to None instead of an instance of this interface.
DocumentType is a specialization of Node, and adds the following attributes:
The public identifier for the external subset of the document type definition. This will be a string or None.
The system identifier for the external subset of the document type definition. This will be a URI as a string, or None.
A string giving the complete internal subset from the document. This does not include the brackets which enclose the subset. If the document has no internal subset, this should be None.
The name of the root element as given in the DOCTYPE declaration, if present.
This is a NamedNodeMap giving the definitions of external entities. For entity names defined more than once, only the first definition is provided (others are ignored as required by the XML recommendation). This may be None if the information is not provided by the parser, or if no entities are defined.
This is a NamedNodeMap giving the definitions of notations. For notation names defined more than once, only the first definition is provided (others are ignored as required by the XML recommendation). This may be None if the information is not provided by the parser, or if no notations are defined.
A Document represents an entire XML document, including its constituent elements, attributes, processing instructions, comments etc. Remember that it inherits properties from Node.
The one and only root element of the document.
Create and return a new element node. The element is not inserted into the document when it is created. You need to explicitly insert it with one of the other methods such as insertBefore() or appendChild().
Create and return a new element with a namespace. The tagName may have a prefix. The element is not inserted into the document when it is created. You need to explicitly insert it with one of the other methods such as insertBefore() or appendChild().
Create and return a text node containing the data passed as a parameter. As with the other creation methods, this one does not insert the node into the tree.
Create and return a comment node containing the data passed as a parameter. As with the other creation methods, this one does not insert the node into the tree.
Create and return a processing instruction node containing the target and data passed as parameters. As with the other creation methods, this one does not insert the node into the tree.
Create and return an attribute node. This method does not associate the attribute node with any particular element. You must use setAttributeNode() on the appropriate Element object to use the newly created attribute instance.
Create and return an attribute node with a namespace. The tagName may have a prefix. This method does not associate the attribute node with any particular element. You must use setAttributeNode() on the appropriate Element object to use the newly created attribute instance.
Search for all descendants (direct children, children’s children, etc.) with a particular element type name.
Search for all descendants (direct children, children’s children, etc.) with a particular namespace URI and localname. The localname is the part of the namespace after the prefix.
Element is a subclass of Node, so inherits all the attributes of that class.
The element type name. In a namespace-using document it may have colons in it. The value is a string.
Same as equivalent method in the Document class.
Same as equivalent method in the Document class.
Returns true if the element has an attribute named by name.
Returns true if the element has an attribute named by namespaceURI and localName.
Return the value of the attribute named by name as a string. If no such attribute exists, an empty string is returned, as if the attribute had no value.
Return the Attr node for the attribute named by attrname.
Return the value of the attribute named by namespaceURI and localName as a string. If no such attribute exists, an empty string is returned, as if the attribute had no value.
Return an attribute value as a node, given a namespaceURI and localName.
Remove an attribute by name. If there is no matching attribute, a NotFoundErr is raised.
Remove and return oldAttr from the attribute list, if present. If oldAttr is not present, NotFoundErr is raised.
Remove an attribute by name. Note that it uses a localName, not a qname. No exception is raised if there is no matching attribute.
Set an attribute value from a string.
Add a new attribute node to the element, replacing an existing attribute if necessary if the name attribute matches. If a replacement occurs, the old attribute node will be returned. If newAttr is already in use, InuseAttributeErr will be raised.
Add a new attribute node to the element, replacing an existing attribute if necessary if the namespaceURI and localName attributes match. If a replacement occurs, the old attribute node will be returned. If newAttr is already in use, InuseAttributeErr will be raised.
Set an attribute value from a string, given a namespaceURI and a qname. Note that a qname is the whole attribute name. This is different than above.
Attr inherits from Node, so inherits all its attributes.
The attribute name. In a namespace-using document it may have colons in it.
The part of the name following the colon if there is one, else the entire name. This is a read-only attribute.
The part of the name preceding the colon if there is one, else the empty string.
NamedNodeMap does not inherit from Node.
The length of the attribute list.
Return an attribute with a particular index. The order you get the attributes in is arbitrary but will be consistent for the life of a DOM. Each item is an attribute node. Get its value with the value attribute.
There are also experimental methods that give this class more mapping behavior. You can use them or you can use the standardized getAttribute*() family of methods on the Element objects.
Comment represents a comment in the XML document. It is a subclass of Node, but cannot have child nodes.
The content of the comment as a string. The attribute contains all characters between the leading <!-- and trailing -->, but does not include them.
The Text interface represents text in the XML document. If the parser and DOM implementation support the DOM’s XML extension, portions of the text enclosed in CDATA marked sections are stored in CDATASection objects. These two interfaces are identical, but provide different values for the nodeType attribute.
These interfaces extend the Node interface. They cannot have child nodes.
The content of the text node as a string.
Note
The use of a CDATASection node does not indicate that the node represents a complete CDATA marked section, only that the content of the node was part of a CDATA section. A single CDATA section may be represented by more than one node in the document tree. There is no way to determine whether two adjacent CDATASection nodes represent different CDATA marked sections.
Represents a processing instruction in the XML document; this inherits from the Node interface and cannot have child nodes.
The content of the processing instruction up to the first whitespace character. This is a read-only attribute.
The content of the processing instruction following the first whitespace character.
New in version 2.1.
The DOM Level 2 recommendation defines a single exception, DOMException, and a number of constants that allow applications to determine what sort of error occurred. DOMException instances carry a code attribute that provides the appropriate value for the specific exception.
The Python DOM interface provides the constants, but also expands the set of exceptions so that a specific exception exists for each of the exception codes defined by the DOM. The implementations must raise the appropriate specific exception, each of which carries the appropriate value for the code attribute.
Base exception class used for all specific DOM exceptions. This exception class cannot be directly instantiated.
Raised when a specified range of text does not fit into a string. This is not known to be used in the Python DOM implementations, but may be received from DOM implementations not written in Python.
Raised when an attempt is made to insert a node where the node type is not allowed.
Raised when an index or size parameter to a method is negative or exceeds the allowed values.
Raised when an attempt is made to insert an Attr node that is already present elsewhere in the document.
Raised if a parameter or an operation is not supported on the underlying object.
This exception is raised when a string parameter contains a character that is not permitted in the context it’s being used in by the XML 1.0 recommendation. For example, attempting to create an Element node with a space in the element type name will cause this error to be raised.
Raised when an attempt is made to modify the type of a node.
Raised when an attempt is made to use an object that is not defined or is no longer usable.
If an attempt is made to change any object in a way that is not permitted with regard to the Namespaces in XML recommendation, this exception is raised.
Exception when a node does not exist in the referenced context. For example, NamedNodeMap.removeNamedItem() will raise this if the node passed in does not exist in the map.
Raised when the implementation does not support the requested type of object or operation.
This is raised if data is specified for a node which does not support data.
Raised on attempts to modify an object where modifications are not allowed (such as for read-only nodes).
Raised when an invalid or illegal string is specified.
Raised when a node is inserted in a different document than it currently belongs to, and the implementation does not support migrating the node from one document to the other.
The exception codes defined in the DOM recommendation map to the exceptions described above according to this table:
Constant | Exception |
---|---|
DOMSTRING_SIZE_ERR | DomstringSizeErr |
HIERARCHY_REQUEST_ERR | HierarchyRequestErr |
INDEX_SIZE_ERR | IndexSizeErr |
INUSE_ATTRIBUTE_ERR | InuseAttributeErr |
INVALID_ACCESS_ERR | InvalidAccessErr |
INVALID_CHARACTER_ERR | InvalidCharacterErr |
INVALID_MODIFICATION_ERR | InvalidModificationErr |
INVALID_STATE_ERR | InvalidStateErr |
NAMESPACE_ERR | NamespaceErr |
NOT_FOUND_ERR | NotFoundErr |
NOT_SUPPORTED_ERR | NotSupportedErr |
NO_DATA_ALLOWED_ERR | NoDataAllowedErr |
NO_MODIFICATION_ALLOWED_ERR | NoModificationAllowedErr |
SYNTAX_ERR | SyntaxErr |
WRONG_DOCUMENT_ERR | WrongDocumentErr |
This section describes the conformance requirements and relationships between the Python DOM API, the W3C DOM recommendations, and the OMG IDL mapping for Python.
The primitive IDL types used in the DOM specification are mapped to Python types according to the following table.
IDL Type | Python Type |
---|---|
boolean | IntegerType (with a value of 0 or 1) |
int | IntegerType |
long int | IntegerType |
unsigned int | IntegerType |
Additionally, the DOMString defined in the recommendation is mapped to a Python string or Unicode string. Applications should be able to handle Unicode whenever a string is returned from the DOM.
The IDL null value is mapped to None, which may be accepted or provided by the implementation whenever null is allowed by the API.
The mapping from OMG IDL to Python defines accessor functions for IDL attribute declarations in much the way the Java mapping does. Mapping the IDL declarations
readonly attribute string someValue;
attribute string anotherValue;
yields three accessor functions: a “get” method for someValue (_get_someValue()), and “get” and “set” methods for anotherValue (_get_anotherValue() and _set_anotherValue()). The mapping, in particular, does not require that the IDL attributes are accessible as normal Python attributes: object.someValue is not required to work, and may raise an AttributeError.
The Python DOM API, however, does require that normal attribute access work. This means that the typical surrogates generated by Python IDL compilers are not likely to work, and wrapper objects may be needed on the client if the DOM objects are accessed via CORBA. While this does require some additional consideration for CORBA DOM clients, the implementers with experience using DOM over CORBA from Python do not consider this a problem. Attributes that are declared readonly may not restrict write access in all DOM implementations.
In the Python DOM API, accessor functions are not required. If provided, they should take the form defined by the Python IDL mapping, but these methods are considered unnecessary since the attributes are accessible directly from Python. “Set” accessors should never be provided for readonly attributes.
The IDL definitions do not fully embody the requirements of the W3C DOM API, such as the notion of certain objects, such as the return value of getElementsByTagName(), being “live”. The Python DOM API does not require implementations to enforce such requirements.