xmlEventParse {XML} | R Documentation |
Reads and processes the contents of an XML file or string by invoking user-level functions associated with different components of the XML tree. These include beginning and end of XML elements, comments, CDATA (escaped character data), entities, processing instructions, etc. This allows the caller to create the appropriate data structure from the XML document contents rather than the default tree (see xmlTreeParse). Functions for specific tags/elements can be used in addition to the standard callback names.
xmlEventParse(file, handlers=xmlEventHandler(), ignoreBlanks = FALSE, addContext=TRUE, useTagName=TRUE, asText = FALSE, trim=TRUE, useExpat=FALSE, isURL = FALSE, state = NULL, replaceEntities = TRUE)
file |
the source of the XML content.
This can be a string givinging the name of a file or remote URL,
the XML itself, a connection object, or a function.
If this is a string, and asText is TRUE ,
the value is the XML content.
This allows one to read the content separately from parsing
without having to write it to a file.
If asText is FALSE and a string is passed
for file , this is taken as the name of a
file or remote URI. If one is using the libxml parser (i.e. not expat),
this can be a URI accessed via HTTP or FTP or a compressed local file.
If it is the name of a local file,
it can include ~ , environment variables, etc. which will be expanded by R.
(Note this is not the case in S-Plus, as far as I know.)
If a connection is given, the parser incrementally reads one line at a time by calling the function readLines with
the connection as the first argument (and 1 as the number of
lines to read). The parser calls this function each time it needs
more input.
If invoking the readLines function to get each line is
excessively slow, one can provide a function as the value
of fileName . Again, when the XML parser needs more content
to process, it invokes this function to get a string.
This function is called with a single argument, the maximum size
of the string that can be returned.
The function is responsible for accessing the correct connection(s),
etc. which is typically done via lexical scoping/environments.
This mechanism allows the user to control how the XML content
is retrieved in very general ways. For example, one might
read from a set of files, starting one when the contents
of the previous file have been consumed. This allows for the
use of hybrid connection objects.
Support for connections and functions in this form is only provided if one is using libxml2 and not libxml version 1. |
handlers |
a closure object that contains functions which will be invoked
as the XML components in the document are encountered by the parser.
The standard functions are
startElement() , endElement()
comment() , externalEntity() ,
entityDeclaration() , processingInstruction ,
text() .
|
ignoreBlanks |
logical value indicating whether text elements made up entirely of white space should be included in the resulting `tree'. |
addContext |
logical value indicating whether the callback functions in `handlers' should be invoked with contextual information about the parser and the position in the tree, such as node depth, path indices for the node relative the root, etc. If this is True, each callback function should support .... |
useTagName |
logical value indicating whether
the callback mechanism should look for a function
matching the tag name in the startElement and
endElement events, before calling the default handler
functions. This allows the caller to handle different
element types for a particular DTD with their own functions directly, rather
than performing a second dispatch in startElement() .
|
asText |
logical value indicating that the first argument, `file', should be treated as the XML text to parse, not the name of a file. This allows the contents of documents to be retrieved from different sources (e.g. HTTP servers, XML-RPC, etc.) and still use this parser. |
trim |
whether to strip white space from the beginning and end of text strings. |
useExpat |
a logical value indicating whether to use the expat SAX parser, or to default to the libxml. If this is TRUE, the library must have been compiled with support for expat. See supportsExpat. |
isURL |
indicates whether the file argument refers to a URL
(accessible via ftp or http) or a regular file on the system.
If asText is TRUE, this should not be specified.
|
state |
an optional S object that is passed to the
callbacks and can be modified to communicate state between
the callbacks. If this is given, the callbacks should accept
an argument named .state and it should return an object
that will be used as the updated value of this state object.
The new value can be any S object and will be passed to the next
callback where again it will be updated by that functions return
value, and so on.
If this not specified in the call to xmlEventParse ,
no .state argument is passed to the callbacks. This makes the
interface compatible with previous releases.
. |
replaceEntities |
logical value indicating whether to substitute entity references with their text directly. This should be left as False. The text still appears as the value of the node, but there is more information about its source, allowing the parse to be reversed with full reference information. |
This is now implemented using the libxml parser. Originally, this was implemented via the Expat XML parser by Jim Clark (http://www.jclark.com).
The return value is the `handlers' argument. It is assumed that this is a closure and that the callback functions have manipulated variables local to it and that the caller knows how to extract this.
This requires the Expat XML parser to be installed.
Duncan Temple Lang
http://www.w3.org/XML, http://www.jclark.com/xml
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) ## Not run: # 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.org/Scripts/Data/mtcars.xml" xmlText <- paste(scan(xmlURL, what="",sep="\n"),"\n",collapse="\n") xmlEventParse(xmlText, asText=TRUE) ## End(Not run) # 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) if(libxmlVersion()$major >= 2) { startElement = function(x, ...) cat(x, "\n") xmlEventParse(file(f), handlers = list(startElement = startElement)) 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="") print(x) x } } ff = xmlConnection(f) xmlEventParse(ff, handlers = list(startElement = startElement)) }