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I am trying to process a particularly large XML document using F#. Since loading whole document is ruled out, I am trying to use XmlReader to serve my purpose. My first step is to define XML document as sequence of nodes.

// Read XML as a lazy sequence
let Read (s:string) = 
    let r = XmlReader.Create s
    let src = seq {
                while r.Read()
                        if XmlNodeType.Element = r.NodeType then
                            yield CreateNodeData r
                            while r.MoveToNextAttribute() 
                                    yield CreateNodeData r
                            yield CreateNodeData r
    LazyList.ofSeq src

This builds XML document as a sequence of NodeData (which is created by function CreateNodeData, and not given here for simplicity). The lazy list is used for using active pattern matching.

Now the parser for the schema is constructed by defining grammar like FParsec. For example

type NodeSeq = NS of LazyList<NodeData>

Define a generic parser that takes an XML Reader and returns a singleton
list containing parsed element and unparsed parser. Failure is denoted by 
an empty list 

type 'a Parser = P of ( NodeSeq -> list<'a * NodeSeq > )

And adding monadic constructs to create a monadic parser such that following code parses NodeData that matches given criteria.

let item = P ( fun inp ->
    match inp with
    | NS(LazyList.Nil)          -> [] 
    | NS(LazyList.Cons(a,b))    -> [(a,NS(b))]

let nodeFilter (f: NodeData -> bool) = 
    parser {
        let! c = item
        if (f c) then
            return c

Also, the choice operator (+++) is added such that p +++ q represents alternative parsers.

The problem that I am facing is parsing XML with element such as

<Node Color="Red" Transparency="90%" Material="Wood"/>

Here the attributes Color, Transparency and Material are required attributes, however, their sequence is immaterial. In addition, there can be other optional attributes. How can I create a combinatorial parser to represent

  • sequence independent attribute handling
  • optional attributes

This is equivalent to matching any one of following strings


How can I simplify it?

share|improve this question

If you like XElement from LINQ to XML but don't want to load the entire document into memory, you can stream individual XElement instances from an XmlReader:

type XmlReader with
    /// Returns a lazy sequence of XElements matching a given name.
    member reader.StreamElements(name, ?namespaceURI) =
        let readOp =
            match namespaceURI with
            | None    -> fun () -> reader.ReadToFollowing(name)
            | Some ns -> fun () -> reader.ReadToFollowing(name, ns)
        seq {
            while readOp() do
                match XElement.ReadFrom reader with
                | :? XElement as el -> yield el
                | _ -> ()

You can then query the attributes of each element, and the source order of the attributes won't matter, but you're still streaming the document rather than loading the entire thing into memory.

share|improve this answer
Thanks! I like this solution – Yogesh Sajanikar Apr 9 '12 at 16:11

Check out the following...maybe you will find it useful

share|improve this answer

My impression is that you're reinventing the wheel.

XmlReader is a complete and efficient XML parser. Parsing attributes with XmlReader is easy and doesn't depend on their order. You could use XmlReader to get required and optional attributes while constructing the sequence. Check out r.HasAttribute and r. MoveToNextAttribute() for reading attributes here MSDN.

That said, writing a parser combinator for the task is overkill. And I doubt that using LazyList will give you any advantage. You will most likely use high-order functions to process the sequence; starting with seq is a good choice.

share|improve this answer
Parsing uses node data that is parsed by XmlReader. The main idea is to overlay XML Schema on top of XmlReader and provide a framework for application to directly create the data without calling HasAttribute and other functions. – Yogesh Sajanikar Mar 14 '12 at 15:34

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