fileName <- system.file("exampleData", "mtcars.xml", package="XML")
# Print the name of each XML tag encountered at the beginning of each
# tag.
# Uses the libxml SAX parser.
xmlEventParse(fileName,
list(startElement=function(name, attrs){
cat(name,"\n")
}),
useTagName=FALSE, addContext = FALSE)
# Parse the text rather than a file or URL by reading the URL's contents
# and making it a single string. Then call xmlEventParse
xmlURL <- "http://www.omegahat.net/Scripts/Data/mtcars.xml"
xmlText <- paste(scan(xmlURL, what="",sep="\n"),"\n",collapse="\n")
xmlEventParse(xmlText, asText=TRUE)
# Using a state object to share mutable data across callbacks
f <- system.file("exampleData", "gnumeric.xml", package = "XML")
zz <- xmlEventParse(f,
handlers = list(startElement=function(name, atts, .state) {
.state = .state + 1
print(.state)
.state
}), state = 0)
print(zz)
# Illustrate the startDocument and endDocument handlers.
xmlEventParse(fileName,
handlers = list(startDocument = function() {
cat("Starting document\n")
},
endDocument = function() {
cat("ending document\n")
}),
saxVersion = 2)
if(libxmlVersion()$major >= 2) {
startElement = function(x, ...) cat(x, "\n")
xmlEventParse(file(f), handlers = list(startElement = startElement))
# Parse with a function providing the input as needed.
xmlConnection =
function(con) {
if(is.character(con))
con = file(con, "r")
if(isOpen(con, "r"))
open(con, "r")
function(len) {
if(len < 0) {
close(con)
return(character(0))
}
x = character(0)
tmp = ""
while(length(tmp) > 0 && nchar(tmp) == 0) {
tmp = readLines(con, 1)
if(length(tmp) == 0)
break
if(nchar(tmp) == 0)
x = append(x, "\n")
else
x = tmp
}
if(length(tmp) == 0)
return(tmp)
x = paste(x, collapse="")
x
}
}
ff = xmlConnection(f)
xmlEventParse(ff, handlers = list(startElement = startElement))
# Parse from a connection. Each time the parser needs more input, it
# calls readLines(<con>, 1)
xmlEventParse(file(f), handlers = list(startElement = startElement))
# using SAX 2
h = list(startElement = function(name, attrs, namespace, allNamespaces){
cat("Starting", name,"\n")
if(length(attrs))
print(attrs)
print(namespace)
print(allNamespaces)
},
endElement = function(name, uri) {
cat("Finishing", name, "\n")
})
xmlEventParse(system.file("exampleData", "namespaces.xml", package="XML"),
handlers = h, saxVersion = 2)
# This example is not very realistic but illustrates how to use the
# branches argument. It forces the creation of complete nodes for
# elements named <b> and extracts the id attribute.
# This could be done directly on the startElement, but this just
# illustrates the mechanism.
filename = system.file("exampleData", "branch.xml", package="XML")
b.counter = function() {
nodes <- character()
f = function(node) { nodes <<- c(nodes, xmlGetAttr(node, "id"))}
list(b = f, nodes = function() nodes)
}
b = b.counter()
invisible(xmlEventParse(filename, branches = b["b"]))
b$nodes()
filename = system.file("exampleData", "branch.xml", package="XML")
invisible(xmlEventParse(filename, branches = list(b = function(node) {
print(names(node))})))
invisible(xmlEventParse(filename, branches = list(b = function(node) {
print(xmlName(xmlChildren(node)[[1]]))})))
}
############################################
# Stopping the parser mid-way and an example of using XMLParserContextFunction.
startElement =
function(ctxt, name, attrs, ...) {
print(ctxt)
print(name)
if(name == "rewriteURI") {
cat("Terminating parser\n")
xmlStopParser(ctxt)
}
}
class(startElement) = "XMLParserContextFunction"
endElement =
function(name, ...)
cat("ending", name, "\n")
fileName = system.file("exampleData", "catalog.xml", package = "XML")
xmlEventParse(fileName, handlers = list(startElement = startElement,
endElement = endElement))
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