I have been reading this paper titled Clone Detection using Abstract Syntax Trees by Ira D. Baxter et al. There is a paragraph from the paper that I reproduced below:
In principle, finding sub-tree clones is easy: compare every subtree to every other sub-tree for equality. In practice, several problems arise: near-miss clone detection, sub-clones and scale. ...
When locating near-miss clones, hashing on complete subtrees fails precisely because good hashing functions include all elements of the tree, and thus sorts tress with minor differences into different buckets. We solved this problem by choosing an artificially bad hash function. This function must be characterized in such a way that the main properties one wants to find on near-miss clones are preserved. Near miss clones are usually created by copy and paste procedures followed by small modifications. These modifications usually generate small changes to the shape of the tree associated with the copied piece of code. Therefore, we argue that this kind of near-miss clone often have only some different small sub-trees. Based on this observation, a hash function that ignores small sub-trees is a goodchoice. In the experiment presented here, we used a hash function that ignores only the identifier names (leaves in the tree). Thus our hashing function puts trees which are similar modulo identifiers into the same hash bins for comparison.
I am trying to implement the techniques discussed in this paper but am stuck in trying to understand this one paragraph (that is unfortunately at the beginning of the paper). I understand what the paragraph is saying but the authors do not mention what hash function to choose or how to actually hash the ASTs. Can someone please explain this with a simple example from an implementation standpoint?