*************** Advanced topics *************** .. testsetup:: from xml.etree import ElementTree from elementpath import XPath2Parser, XPathToken, XPathContext, get_node_tree Parsing expressions =================== An XPath expression (the *path*) is analyzed using a parser instance, having as result a tree of tokens: .. doctest:: >>> from elementpath import XPath2Parser, XPathToken >>> >>> parser = XPath2Parser() >>> token = parser.parse('/root/(: comment :) child[@attr]') >>> isinstance(token, XPathToken) True >>> token <_SolidusOperator object at 0x... >>> str(token) "'/' operator" >>> token.tree '(/ (/ (root)) ([ (child) (@ (attr))))' >>> token.source '/root/child[@attr]' Providing a wrong expression an error is raised: .. doctest:: >>> token = parser.parse('/root/#child2/@attr') Traceback (most recent call last): ......... elementpath.exceptions.ElementPathSyntaxError: '#' unknown at line 1, column 7: [err:XPST0003] unknown symbol '#' The result tree is also checked with a static evaluation, that uses only the information provided by the parser instance (e.g. statically known namespaces). In *elementpath* a parser instance represents the `XPath static context `_. Static evaluation is not based on any XML input data but permits to found many errors related with operators and function arguments: .. doctest:: >>> token = parser.parse('1 + "1"') Traceback (most recent call last): File "", line 1, in File ".../elementpath/xpath2/xpath2_parser.py", ..., in parse root_token.evaluate() # Static context evaluation ......... elementpath.exceptions.ElementPathTypeError: '+' operator at line 1, column 3: [err:XPTY0004] ... Dynamic evaluation ================== Evaluation on XML data is performed using the `XPath dynamic context `_, represented by *XPathContext* objects. .. doctest:: >>> from xml.etree import ElementTree >>> from elementpath import XPathContext >>> >>> root = ElementTree.XML('') >>> context = XPathContext(root) >>> token.evaluate(context) [ElementNode(elem=>> token.evaluate() Traceback (most recent call last): ......... elementpath.exceptions.MissingContextError: '/' operator at line 1, column 6: [err:XPDY0002] Dynamic context required for evaluate Expressions that not depend on XML data can be evaluated also without a context: .. doctest:: >>> token = parser.parse('concat("foo", " ", "bar")') >>> token.evaluate() 'foo bar' For more details on parsing and evaluation of XPath expressions see the `XPath processing model `_. Node trees ========== In the `XPath Data Model `_ there are `seven kinds of nodes `_: document, element, attribute, text, namespace, processing instruction, and comment. For a fully compliant XPath processing all the seven node kinds have to be represented and processed, considering theirs properties (called accessors) and their position in the belonging document. But the ElementTree components don’t implement all the necessary characteristics, forcing to use workaround tricks, that make the code more complex. So since version v3.0 the data processing is based on XPath node types, that act as wrappers of elements of the input ElementTree structures. Node trees building requires more time and memory for handling dynamic context and for iterating the trees, but is overall fast because simplify the rest of the code. Node trees are automatically created at dynamic context initialization: .. doctest:: >>> from xml.etree import ElementTree >>> from elementpath import XPathContext, get_node_tree >>> >>> root = ElementTree.XML('') >>> context = XPathContext(root) >>> context.root ElementNode(elem=) >>> context.root.children [ElementNode(elem=), ElementNode(elem=)] If the same XML data is applied several times for dynamic evaluation it maybe convenient to build the node tree before, in the way to create it only once: .. doctest:: >>> root_node = get_node_tree(root) >>> context = XPathContext(root_node) >>> context.root is root_node True The context root and the context item ===================================== Selector functions and class simplify the XML data processing. Often you only have to provide the root element and the path expression. But other keyword arguments, related to parser or context initialization, can be provided. Of these arguments the item has a particular relevance, because it defines the initial context item for performing dynamic evaluation. If you have this XML data: .. doctest:: >>> from xml.etree import ElementTree >>> from elementpath import select >>> >>> root = ElementTree.XML('') using a select on it with the self-shortcut expression, gives back the root element: .. doctest:: >>> select(root, '.') [] But if you want to use a specific child as the initial context item you have to provide the extra argument *item*: .. doctest:: >>> select(root, '.', item=root[1]) [] The same result can be obtained providing the same child element as argument *root*: .. doctest:: >>> select(root[1], '.') [] But this is not always true, because in the latter case the evaluation is done using a subtree of nodes: .. doctest:: >>> select(root, 'root()', item=root[1]) [] >>> select(root[1], 'root()') [] Both choices can be useful, depends if you need to keep the whole tree or to restrict the scope to a subtree. The context *item* can be set with an XPath node, an atomic value or an XPath function. .. note:: Since release v4.2.0 the *root* is optional. If the argument *root* is absent the argument *item* is mandatory and the dynamic context remain without a root. The root document and the root element ====================================== .. warning:: The initialization of context root and item is changed in release v4.2.0. Since then the provided XML is still considered a document for default, but the item is set with the root instead of `None` and the new attribute *document* is set with a dummy document for handling the document position. The dummy document is not referred by the root element and is discarded from results. Canonically the dynamic evaluation is performed on an XML document, created from an ElementTree instance: .. doctest:: >>> from xml.etree import ElementTree >>> from io import StringIO >>> from elementpath import select, XPathContext >>> >>> doc = ElementTree.parse(StringIO('')) >>> doc In this case a document node is created at context initialization and the context item is set to context root: .. doctest:: >>> context = XPathContext(doc) >>> context.root DocumentNode(document=) >>> context.item is context.root True >>> context.document is context.root True Providing a root element the document is not created and the context item is set to root element node. In this case the context document is a dummy document: .. doctest:: >>> root = ElementTree.XML('') >>> context = XPathContext(root) >>> context.root ElementNode(elem=) >>> context.item is context.root True >>> context.document DocumentNode(document=) >>> context.root.parent is None True Exception to this is if XML data root has siblings and if you process the data with lxml: .. doctest:: >>> import lxml.etree as etree >>> root = etree.XML('') >>> context = XPathContext(root) >>> context.root DocumentNode(document=) >>> context.item is context.root True >>> context.document is context.root True Provide the option *fragment* with value `True` for processing an XML root element as a fragment. In this case a dummy document is not created and the context document is set to `None`: .. doctest:: >>> root = ElementTree.XML('') >>> context = XPathContext(root, fragment=True) >>> context.root ElementNode(elem=) >>> context.item is context.root True >>> context.document is None True