Data Engineering and BI courses are free this week!
This recursively applies the specified function to each node in an XML tree, creating a new tree, parallel to the original input tree. Each element in the new tree is the return value obtained from invoking the specified function on the corresponding element of the original tree. The order in which the function is recursively applied is "bottom-up". In other words, function is first applied to each of the children nodes first and then to the parent node containing the newly computed results for the children.
xmlDOMApply(dom, func)a node in the XML tree or DOM on which to recursively
apply the given function.
This should not be the XMLDocument
itself returned from
xmlTreeParse
but an object of class XMLNode.
This is typically obtained by
calling xmlRoot on the
return value from xmlTreeParse.
the function to be applied to each node in the XML tree.
This is passed the node object for the and the return
value is inserted into the new tree that is to be returned
in the corresponding position as the node being processed.
If the return value is NULL, this node is dropped from the tree.
A tree that parallels the structure in the
dom object passed to it.
This is a native (C code) implementation that
understands the structure of an XML DOM returned
from xmlTreeParse and iterates
over the nodes in that tree.
http://www.w3.org/XML, http://www.jclark.com/xml, http://www.omegahat.net
dom <- xmlTreeParse(system.file("exampleData","mtcars.xml", package="XML"))
tagNames <- function() {
tags <- character(0)
add <- function(x) {
if(inherits(x, "XMLNode")) {
if(is.na(match(xmlName(x), tags)))
tags <<- c(tags, xmlName(x))
}
NULL
}
return(list(add=add, tagNames = function() {return(tags)}))
}
h <- tagNames()
xmlDOMApply(xmlRoot(dom), h$add)
h$tagNames()
Run the code above in your browser using DataLab