# Proofs for UTXO set with Utreexo accumulator

I am trying to understand the Utreexo technology and I've met a problem. In Utreexo we have a forest of trees where every tree has 2^k leaves. We have 3 operations:

``````add(acc, newNode) : Proof // simply adds new UTXO to our Utreexo, and returns the proof for added element.
verify(acc, proof) : Bool // gets the proof as argument and checks that the element is still in set.
remove(acc, proof) // removes element with given proof from accumulator.
``````

The question is: I added a new UTXO and got the proof. After that, some changes happend (different delitions and additions) and the structer of the Utreexo has changed. Now, as I see, my proof (that I received when I added the new UTXO) will not be correct. How to deal with this problem? Or I misunderstand something?

You're understanding how Utreexo works correctly. The proofs generated for a single accumulator state is only valid for that state. A new proof must be generated if the accumulator was changed with additions and deletions.

For example, a proof for a single UTXO at block #500,000 will not be valid for block #500,001.

### Further explanation:

In a general sense, Utreexo is a fancy Merkle Tree. A "proof" is all the nodes needed to hash up to the root. For this tree:

`````` 14
|---------------\
12              13
|-------\       |-------\
08      09      10      11
|---\   |---\   |---\   |---\
00  01  02  03  04  05  06  07
``````

A node is only required to keep the root, so that node's view of the tree may look like this where only the root, `14`, is kept.

`````` 14
|---------------\

|-------\       |-------\

|---\   |---\   |---\   |---\

``````

If someone wanted to proof the existence of node `00`, they will need to provide the following nodes: `00, 01, 09, 13`. These are node needed to be able to hash up to `14`, which then the verifier will check if the `14` they stored matches the one calculated with the proof of `00, 01, 09, 13`.

So for this tree, the proof generated will be nodes `00, 01, 09, 13`.

Let's say then the tree is modified with the removal of node `07`. The resulting tree will look like so:

``````  12
|-------\
08      09      10
|---\   |---\   |---\
00  01  02  03  04  05  06
``````

If we want to prove `00` again, the nodes required are `00, 01, 09` and we will match it against `12`. This is different from the previous proof of `00, 01, 09, 13`.

In Bitcoin terms, since a modification to the accumulator happens when a new block is generated, the proof will change from block to block.