I Have an XML Node that I want to add children to over time:
val root: Node = <model></model>
But I cannot see methods such as addChild(), as I would like to write something along the lines of:
def addToModel() = {
root.addChild(<subsection>content</subsection>)
}
So after a single call to this method the root xml would be:
<model><subsection>content</subsection></model>
The only class I can开发者_运维技巧 see that has the ability to append a Node is the NodeBuffer. Am I missing something fundamental here?
Well start with this:
def addChild(n: Node, newChild: Node) = n match {
case Elem(prefix, label, attribs, scope, child @ _*) =>
Elem(prefix, label, attribs, scope, child ++ newChild : _*)
case _ => error("Can only add children to elements!")
}
The method ++
works here because child
is a Seq[Node]
, and newChild
is a Node
, which extends NodeSeq
, which extends Seq[Node]
.
Now, this doesn't change anything, because XML in Scala is immutable. It will produce a new node, with the required changes. The only cost is that of creating a new Elem
object, as well as creating a new Seq
of children. The children node, themselves, are not copied, just referred to, which doesn't cause problems because they are immutable.
However, if you are adding children to a node way down on the XML hierarchy, things get complicated. One way would be to use zippers, such as described in this blog.
You can, however, use scala.xml.transform
, with a rule that will change a specific node to add the new child. First, write a new transformer class:
class AddChildrenTo(label: String, newChild: Node) extends RewriteRule {
override def transform(n: Node) = n match {
case n @ Elem(_, `label`, _, _, _*) => addChild(n, newChild)
case other => other
}
}
Then, use it like this:
val newXML = new RuleTransformer(new AddChildrenTo(parentName, newChild)).transform(oldXML).head
On Scala 2.7, replace head
with first
.
Example on Scala 2.7:
scala> val oldXML = <root><parent/></root>
oldXML: scala.xml.Elem = <root><parent></parent></root>
scala> val parentName = "parent"
parentName: java.lang.String = parent
scala> val newChild = <child/>
newChild: scala.xml.Elem = <child></child>
scala> val newXML = new RuleTransformer(new AddChildrenTo(parentName, newChild)).transform(oldXML).first
newXML: scala.xml.Node = <root><parent><child></child></parent></root>
You could make it more complex to get the right element, if just the parent isn't enough. However, if you need to add the child to a parent with a common name of a specific index, then you probably need to go the way of zippers.
For instance, if you have <books><book/><book/></books>
, and you want to add <author/>
to the second, that would be difficult to do with rule transformer. You'd need a RewriteRule against books
, which would then get its child
(which really should have been named children
), find the nth book
in them, add the new child to that, and then recompose the children and build the new node. Doable, but zippers might be easier if you have to do that too much.
In Scala xml nodes are immutable, but can do this:
var root = <model/>
def addToModel(child:Node) = {
root = root match {
case <model>{children@ _*}</model> => <model>{children ++ child}</model>
case other => other
}
}
addToModel(<subsection>content</subsection>)
It rewrites a new xml, by making a copy of the old one and adding your node as a child.
Edit: Brian provided more info and I figured a different to match.
To add a child to an arbitrary node in 2.8 you can do:
def add(n:Node,c:Node):Node = n match { case e:Elem => e.copy(child=e.child++c) }
That will return a new copy of parent node with the child added. Assuming you've stacked your children nodes as they became available:
scala> val stack = new Stack[Node]()
stack: scala.collection.mutable.Stack[scala.xml.Node] = Stack()
Once you've figured you're done with retrieving children, you can make a call on the parent to add all children in the stack like this:
stack.foldRight(<parent/>:Node){(c:Node,n:Node) => add(n,c)}
I have no idea about the performance implication of using Stack
and foldRight
so depending on how many children you've stacked, you may have to tinker... Then you may need to call stack.clear
too. Hopefully this takes care of the immutable nature of Node
but also your process as you go need.
Since scala 2.10.0 the instance constructor of Elem has changed, if you want use naive solution written by @Daniel C. Sobral, it should be:
xmlSrc match {
case xml.Elem(prefix, label, attribs, scope, child @ _*) =>
xml.Elem(prefix, label, attribs, scope, child.isEmpty, child ++ ballot : _*)
case _ => throw new RuntimeException
}
For me, it works very good.
Since XML
are immutable
, you have to create a new one each time you want to append a node, you can use Pattern matching
to add your new node:
var root: Node = <model></model>
def addToModel(newNode: Node) = root match {
//match all the node from your model
// and make a new one, appending old nodes and the new one
case <model>{oldNodes@_*}</model> => root = <model>{oldNodes}{newNode}</model>
}
addToModel(<subsection>content</subsection>)
In the usual Scala fashion, all Node, Elem, etc. instances are immutable. You can work it the other way around:
scala> val child = <child>foo</child>
child: scala.xml.Elem = <child>foo</child>
scala> val root = <root>{child}</root>
root: scala.xml.Elem = <root><child>foo</child></root>
See http://sites.google.com/site/burakemir/scalaxbook.docbk.html for more information.
I agree that you have to work with XML "the other way around". Keep in mind you don't have to have the entire XML document available when information becomes available, you only need to compose the XML when the application needs to read it.
Keep your subsection state however you want to, when you need the XML, wrap it all together.
val subsections : List[Elem]
def wrapInModel(f : => Elem) = {
<model>{f}</model>
}
wrapInModel(subsections)
or
def wrapInModel(f : => Elem) = {
<model>{f}</model>
}
wrapInModel(<subsection>content</subsection>)
Scales Xml allows for simple in place changes via folding over XPaths, adding in children to a particular sub node fits right into this approach.
See In-Place Transformations for more details.
I implement my 'appendChild' method in the following way:
def appendChild(elem: Node, child: Node, names: String) = {
appendChild(elem, child, names.split("/"))
}
private def appendChild(elem: Node, child: Node, names: Array[String]) = {
var seq = elem.child.diff(elem \ names.head)
if (names.length == 1)
for (re <- elem \ names.head)
seq = seq ++ re.asInstanceOf[Elem].copy(child = re.child ++ child)
else
for (subElem <- elem \ names.head)
seq = seq ++ appendChild(subElem, child, names.tail)
elem.asInstanceOf[Elem].copy(child = seq)
}
The method appends children to your nodes in recursive manner. In the 'if' statement it simply calls 'copy' method of Elem class to produce new instances of affected children (those may be plural). Then in 'else' statement recursive calls to 'appendChild' method verify resulting XML will be rebuilt. Before 'if-else' there are sequence which is built from non-affected children. At the end, we need to copy this sequence to origin element.
val baz = <a><z x="1"/><b><z x="2"/><c><z x="3"/></c><z x="4"/></b></a>
println("Before: \n" + XmlPrettyPrinter.format(baz.toString()))
val res = appendChild(baz, <y x="5"/>, "b/c/z")
println("After: \n" + XmlPrettyPrinter.format(res.toString()))
Results:
Before:
<a>
<z x="1"/>
<b>
<z x="2"/>
<c>
<z x="3"/>
</c>
<z x="4"/>
</b>
</a>
After:
<a>
<z x="1"/>
<b>
<z x="2"/>
<z x="4"/>
<c>
<z x="3">
<y x="5"/>
</z>
</c>
</b>
</a>
your root definition is actually an Elem object, a subclass of node, so if you drop your unnecessary Node typing (which hides its implementation) you could actually do a ++ on it since the Elem class has this method.
val root = <model/>
val myChild = <myChild/>
root.copy(child = root.child ++ myChild)
scala ev:
root: scala.xml.Elem = <model/>
myChild: scala.xml.Elem = <mychild/>
res2: scala.xml.Elem = <model><mychild/></model>
Since every Elem and every Node is a NodeSeq you can add these pretty effectively even if what you are appending is an unknown sequence:
val root = <model/>
//some node sequence of unknown subtype or structure
val children: scala.xml.NodeSeq = <node1><node2/></node1><node3/>
root.copy(child = root.child ++ children)
scala ev:
root: scala.xml.Elem = <model/>
children: scala.xml.NodeSeq = NodeSeq(<node1><node2/></node1>, <node3/>)
res6: scala.xml.Elem = <model><node1><node2/></node1><node3/></model>
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