I am having trouble understanding the behavior of the following XML schema:

<xsd:schema xmlns:xsd="http://www.w3.org/2001/XMLSchema">
  <xsd:element name="rootnode">
        <xsd:choice minOccurs="1" maxOccurs="2">
          <xsd:element name="e1" minOccurs="1" maxOccurs="2"/>
          <xsd:element name="e2" minOccurs="0" maxOccurs="1"/>

I expected at least one instance of either element <e1> or <e2> be required as a child of <rootnode>. Despite my expectations, an empty <rootnode> will validate against this schema:

 > xmllint --schema test.xsd empty.xml
 <?xml version="1.0" encoding="UTF-8"?>
 empty.xml validates

If I change the minOccurs attribute of element e2 to something other than "0", I get the behavior I originally expected.

  • It seems as though the mere absence of element <e2> counts as an occurrence of the xsd:choice in my example.

  • If this is the case, then how come this infinite number of occurrences does not violate the maxOccurs limit in my xsd:choice?

2 Answers 2


I tell you you can go to the shops at least once and at most twice, and each time you have a choice of what to buy: you can buy apples (either one apple or two apples), or you can buy oranges (either no oranges or one orange).

It's entirely possible that you will choose to go to the shops twice and on each occasion to buy no oranges. So you come back with nothing.

  • @mizo writes (in an answer I deleted): I drew a decision tree of this, and concluded that the choice can result in eleven distinct sequences. If I decide to "go shopping" once, I can end up with e1, e1 e1, nothing or e2. If I decide to "go shopping" twice, I can end up with any of the previous four permutations or e1 e1 e1, e1 e2, e1 e1 e1 e1, e1 e1 e2, e2 e1, e2 e1 e1 or e2 e2. Is this correct? – mizo 6 hours ago
    – David W
    Mar 8, 2011 at 2:16
  • 15
    This is why I eat bananas: there's fewer branches in banana trees.
    – Dan Lugg
    May 15, 2013 at 4:06
  • 3
    Best answer I've read in awhile on SO: clear, concise, and makes you smile in the process. Kudos.
    – tsemer
    Mar 3, 2016 at 15:37

Here are the allowable combinations

Two choices:
e1 (1 - 2) + e1 (1 - 2) = e1 x (2 - 4), or
e1 (1 - 2) + e2 (0 - 1), or 
e2 (0 - 1) + e1 (1 - 2), or
e2 (0 - 1) + e2 (0 - 1) = e2 (0 - 2)

One choice (but no new outcomes):
e1 (1-2), or
e2 (0-1)

e1e1, e1e1e1, e1e1e1e1
e1, e1e2, e1e1e2 
e2e1, e2e1e1 
empty, e2, e2e2 

Note that choice[min=2 max=2] would have produced the same set of valid combinations.

  • Alright, so that counts as eleven if you remove the duplicate e1e1. Sure enough, the minOccurs on choice seems to have no effect, if one of the children elements has minOccurs="0".
    – makes
    Mar 8, 2011 at 13:35
  • Right, 11 unique possibilities. Note that minOccurs="1" is the default, so removing the attribute doesn't change the minOccurs value. Even when you set the minOccurs=2, the set of valid combos shouldn't change. As long as one of the valid choices has minOccurs=0, I conclude that the choice attributes where minOccurs = maxOccurs produces the same set as where the minOccurs < maxOccurs.
    – David W
    Mar 8, 2011 at 20:08

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