# The111

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bio website location San Francisco Bay Area, CA age member for 2 years, 3 months seen 32 mins ago profile views 151

 Nov26 awarded Notable Question Nov25 awarded Necromancer Nov6 awarded Notable Question Oct30 awarded Popular Question Oct24 revised Why is the comparator used instead of the equals() in Collections? added 286 characters in body Sep15 comment Automatic notify()/notifyAll() on leaving a synchronized block Totally off topic, but a lot of cars on the market today have "paddle shifters" that do just that! ;-) (although admittedly they are not manual transmissions) Sep14 awarded Popular Question Aug25 awarded Yearling Aug23 comment Build heap complexity @hba I think the answer to your question lies in understanding this image from this article. `Heapify` is `O(n)` when done with `siftDown` but `O(n log n)` when done with `siftUp`. The actual sorting (pulling items from heap one by one) has to be done with `siftUp` so is therefore `O(n log n)`. Aug17 awarded Popular Question Aug12 comment Rabin-Karp Hashcode is too big Nice post! Stupidly semantic comment, but if it was me I'd rename `pow` to `mult` since it is functioning as a multiplier, not a power. ;-) For someone learning from this post, that could make a difference. Aug11 comment Recursively Solving A Sudoku Puzzle Using Backtracking Theoretically You can reuse the same game copy at every recursive call as long as you "undo" the move afterwards. This saves the time and space of making so many copies. Aug11 answered Recursively Solving A Sudoku Puzzle Using Backtracking Theoretically Aug10 comment Given a 2d array sorted in increasing order from left to right and top to bottom, what is the best way to search for a target number? Interesting and possibly partially over my head. I'm not familiar with this "adversary" style of complexity analysis. Is the adversary actually somehow dynamically changing the array as you search, or is he just a name given to the bad luck you encounter in a worst case search? Aug10 comment Given a 2d array sorted in increasing order from left to right and top to bottom, what is the best way to search for a target number? @Strilanc Good feedback, thanks. I'm not very experienced with solving recurrences. Checking your posted answer now... Aug10 comment Given a 2d array sorted in increasing order from left to right and top to bottom, what is the best way to search for a target number? I did some tests using both your method and the binary search method and posted the results HERE. Seems the zigzag method is best, unless I failed to properly generate worst case conditions for both methods. Aug10 comment Given a 2d array sorted in increasing order from left to right and top to bottom, what is the best way to search for a target number? @Strilanc Using the "master method for solving recurrences" in CLRS, your T(A) recurrence resolves to O(lg A), I think... not sure how you got that Fib thing. But... keep in mind that A = N^2 so I'm not sure if that means it's O(lg (N^2)) or if you can even do a conversion like that. Check my tests HERE if interested... Aug10 comment Given a 2d array sorted in increasing order from left to right and top to bottom, what is the best way to search for a target number? @Svante I found the discussion in this (old) thread quite interesting, I tried to put some tests together to prove or disprove some of the things said, see HERE. Not sure how conclusive those tests are. Does anyone have a definitive answer for the complexity of the binary search method? I tried to work it out with recurrence relations and got O(lg A) where A is N^2, but log2(N^2) is less than 2N (N+M if square) so that doesn't gel with my tests. Aug10 answered Given a 2d array sorted in increasing order from left to right and top to bottom, what is the best way to search for a target number? Aug10 comment Algorithm to clone a graph I just realized this is pretty much the same answer Gene posted above, but with the Node<->Node map exploded into two maps. Oh well. :-)