# Inferring diff between objects starting from patch applied to one of them

I would like to know if there are any known approaches other than the naive algorithm to this kind of problem I need to solve.

I have two objects of the same type, o1 and o2, containing some fields, f1, f2 and f3:

``````o1:
f1: A
f2: B
f3: C
o2:
f1: D
f2: B
f3: null
``````

Now what I need is to figure out what changes happen in o2given a patch I receive that makes o1 equal to o2 (in terms of value equality on their fields). Example:

• Patch: f1 = D, f3 = null
In this case I should infer that nothing has changed in o2, since applying this patch to o1 makes it identical to the current state of o2
• Patch: f1 = D, f3 = E
In this case I should infer that the change in o2 is just f3 = E
• Patch: f1 = D
In this case I should infer that the change in o2 is just f1 = C

I think the three examples above cover all cases. Now the naive algorithm would be to apply the patch on o1, and then diff o2 against the patched o1 to figure out the differences, but I'm wondering if there's a different algorithm or an optimized way to implement this one.

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what do you mean by `object`, it is stored in a text file or something else? – lostyzd Oct 7 '11 at 5:15
object as in a programming language like C# or Java. I don't think it changes anything by the way. – bibendus Oct 7 '11 at 5:25
I'm not sure I understand what you're trying to achieve. If you have the patch itself, doesn't it already contain all the necessary information as to what element changed its value to what? If, on the other hand, you only have 2 versions of an object and no patch, just compare them element by element. – Alexey Frunze Oct 7 '11 at 6:05
Alex, I understand it's tricky, but the point is I have a patch which applied to o1 puts o1 in some state, and then I need to know what is the diff between o1 and o2. This diff is what, applied to o2, would have put o2 in the same state o1 is now. What I just described is a solution, not the problem. The patch I receive in theory contains changes to o2, but it describes the changes you have to apply to o1 to put it in the state o2 would be by applying a generally much smaller patch. I realize it's mind boggling. – bibendus Oct 7 '11 at 6:12
Quoting myself: "This diff is what, applied to o2, would have put o2 in the same state o1 is now". I missed to say in the previous comment that this diff is exactly what I need to know – bibendus Oct 7 '11 at 6:20