Well, if there's duplicates, then the depth of a node with a given value doesn't make any sense on its own, because there may be multiple nodes with that value, hence multiple depths.
You have to decide what it means, which could be (not necessarily an exhaustive list):
- the depth of the deepest node with that value.
- the depth of the shallowest node with that value.
- the depth of the first node found with that value.
- the average depth of all nodes with that value.
- the range (min/max) of depths of all nodes with that value.
- a list of depths of all nodes with that value.
- an error code indicating your query made little sense.
Any of those could make sense in specific circumstances.
Of course, if
n is an actual pointer to a node, you shouldn't be comparing values of nodes at all, you should be comparing pointers. That way, you will only ever find one match and the depth of it makes sense.
Something like the following pseudo-code should do:
def getDepth (Node needle, Node haystack, int value):
// Gone beyond leaf, it's not in tree
if haystack == NULL: return -1
// Pointers equal, you've found it.
if needle == haystack: return value
// Data not equal search either left or right subtree.
if needle.data < haystack.data:
return getDepth (needle, haystack.left, value + 1)
if needle.data > haystack.data:
return getDepth (needle, haystack.right, value + 1)
// Data equal, need to search BOTH subtrees.
tryDepth = getDepth (needle, haystack.left, value + 1)
if trydepth == -1:
tryDepth = getDepth (needle, haystack.right, value + 1)
The reason why you have to search both subtrees when the values are equal is because the desired node may be in either subtree. Where the values are unequal, you know which subtree it's in. So, for the case where they're equal, you check one subtree and, if not found, you check the other.