I've tried several approaches to creating a schema for this problem, but I haven't had any success. I'm not really sure if it's possible.
Basically, suppose I have a root node
<root> and it can have children
For each iteration of the program outputting the xml, A, B, and C nodes are made and appended as children to the root. Though, each iteration doesn't always use each A, B, and C... in which case it outputs no node. So I get something like this as an example:
<A>sfs</A> <!-- first iteration used A, B, and C --> <B>sfs</B> <C>ss</C> <A>fff</A> <!-- second iteration used A, and C, not B --> <C>ss</C> <B>fff</B> <!-- third iteration used only B -->
I didn't write the program that outputs it in this way, and have no real power over the format.
What I do know for example, is there can never be more than 10 A's, 2 C's, 5 B's ever. Though, the order isn't guaranteed.
So all I wanted was an XSD to determine that there are only A, B, and C nodes inside root and that there are no more than 10 A's, 2 C's, and 5 B's.
I can achieve the first part by using xs:choice and maxOccurs unbounded. Which guarantees only A, B, and C nodes, but I can't seem to figure a way to enforce the number of them.
Is there some clever workaround for this issue?