I'm building a tool that among other things has to measure performance-related impact of changes in our product.
To get that done, I've implemented a profiler that traces whenever a function is called or returns and notifies me about that. First, I've dumped the output to a file to get a sense of the data I'll be working with and here is more-or-less how they look like:
FuncCall1 FuncCall2 FuncCall3 FuncRet3 FuncCall4 FuncRet4 FuncCall5 FuncCall6 FuncRet6 FuncRet5 FuncRet2 FuncRet1
To have a better visual understanding of how this data looks like, here is a graph of the first 10000 function calls: (x-axis: time, y-axis: depth/nesting): (http://img444.imageshack.us/img444/4710/proflog.gif)
When a function begins execution, I will log it's name/identifier and the current high-precision timestamp and when it returns I will need to lookup the entry where I stored the start time and add a new timestamp that marks it return.
To sum things up, the operations that I'm going to perform on these data are:
- Insert a new function call mark with current timestamp.
- Lookup the most recent function call of a certain ID and store the return timestamp.
- See which other functions were called from within a certain function (and see where its spending its time) - for example If I'm looking at Function#2 in the previous example, I want to know that it calls Function#3, Function#4, Function#5 and Function#5 calls Function#6 then it returns (with all call/return timestamps marked).
Now, I have several ideas for data-structures that might be good for this scenario:
An auto-balanced tree (i.e AVL) where the key for each node will be the function identifier and the value in each node would be a stack of timestamp pairs. This approach will give me fast insertion and lookup when marking function timestamps and the fact that each node is a stack, it will also take care of matching the right return timestamp to the start timestamp - Always (I assume) the latest return timestamp of a certain function should match the most nested/recent function call. In this approach, maintaining nested function calls with different identifiers would be a bit troublesome, because I will have to traverse the tree and match them basing on their timestamp to figure out their nesting - not ideal.
Maintain a list of functions that did not return yet (that will preserve the call-stack info) and use skip-list where each level would be equal to function-call-nesting level. This approach would make operation #3 easier, but lookups will be slower and I might have to maintain very long lists of not returned functions - such as main(), that will have to be maintained throughout the lifetime of my application. Here I could also use a hashtable, to improve the lookup speed sacrificing some more memory usage. Memory usage is critical - this profiler easily generates about 20 MB / s.
The reason why I'm not using a plain-simple stack to track these data, is because I will need to periodically sync partial results to a different machines and have at least, partial-results available before everything returns.
I've looked over interval-trees, range-trees and other kind of data-structures that I'm aware of, but I can't find any that would meet all my 3 requirements efficiently.
Maybe there is a data structure that would meet them all that I'm not aware of? Any Ideas?
What about this:
Having a tree that would have function calls along with their nested calls and a separate stack for the functions that did not return.
Now every element on the stack will have a pointer to it's copy in the tree and when a new function call arrives, I will look at the top element on the stack, trace it's pointer to it's representation in the tree, add the new function call as a child to that call and push it's copy on the stack with a pointer to the newly created tree node.
For function returns, it's similar, for every function return, the latest entry on the stack will always be it's call - trace the call pointer, save the return time in the tree and pop the call.
Do you see any major flaws in my thinking?
My Approach worked perfectly. I will wait 2 days and answer my question.