29,034 reputation
34397
bio website
location
age
visits member for 5 years, 9 months
seen 1 hour ago
I have no egrets.

1d
comment Most efficient algorithm for finding a subset of a sorted array having a given sum
How about "[Most efficient algorithm for] finding a subset of a sorted array having a given sum" (first part in brackets because it's not really necessary). Also both questions you linked to word it properly!
1d
comment Actually finding the limiting floor in the generalised egg drop puzzle?
Thanks. You don't need to run Dijkstra -- all tmyklebu means is that, associated with each pair (floors, eggs) there is not only the value of the function t(floors, eggs), but also the value(s) of i which enabled the function to achieve that (i.e. its minimum possible) value. You can record these in an auxiliary array indexed by (floors, eggs) as you go.
1d
comment Most efficient algorithm for finding a subset of a sorted array having a given sum
Your question's title is misleading. "the sum of X numbers" can of course be computed in O(X) time.
1d
comment Actually finding the limiting floor in the generalised egg drop puzzle?
What are f and e?
2d
comment How to apply combinatorics on pairs in sql database?
+1. Any particular reason why you decided to put half of the condition in the JOIN clause, and the other half in the WHERE clause though?
Sep
18
comment Cut rectangle in minimum number of squares
Regarding JasonL's suggestion, I'm not sure it will always work, but a weaker strategy will: you can find all prime factors in gcd(m, n), and for each such factor p, try solving min_squares(m/p, n/p). After that you only need to solve the subproblems not already covered -- that is, the ones that produce at least one square having relatively prime side lengths. Doing all this might be slower overall, though!
Sep
18
comment Cut rectangle in minimum number of squares
+1. A small optimisation: We don't care about the orientation of the rectangle, so we can always "rotate" it if necessary so that, e.g., m < n.
Sep
18
comment Cut rectangle in minimum number of squares
It's not true that this problem can be solved optimally using a greedy approach, and nor do I see how it's equivalent to the integer knapsack problem.
Sep
18
comment How can I find a way to minimum the number of edges?
I'm pretty sure you mean "And each customer requirement need a directed path to connect two vertices." If you really meant "directed edge", then the problem is trivial, and the answer to your example problem requires all 3 edges.
Sep
18
comment Find the minimum number of moves to get a “Good” string
@Groo: It gives everyone who happens to be repeatedly hitting F5 on stackoverflow.com the answers. We can't catch all unethical uses of SO, but I don't think that's a reason not to try. The OP gets points for describing their solution attempt, but I remain sceptical. I also see that s/he has asked 9 questions, and not voted once.
Sep
18
comment Find the minimum number of moves to get a “Good” string
Please post a link to the source of this problem, so that we know it's not from a currently active programming competition. Thanks!
Sep
15
comment Percentage load balance thread requests
You're welcome! If it's helpful, please consider upvoting (hint, hint ;)
Sep
14
comment Percentage load balance thread requests
I see. Writing up an idea now. BTW it pays to put details like that in the main question -- obvious to you but not to readers necessarily!
Sep
14
comment Percentage load balance thread requests
"I need to know mathematically how to scale down the numbers and maintain ratio so I don't have to send 60 requests to thread 1 and then start sending requests to worker 2." -- This is confusing, because now you seem to be talking about the order in which you send requests to threads. But that is independent of the total number of requests to send (which is what you appear to be asking for at the start, and which is easy to calculate -- if a worker needs 60% of the jobs, just send nTotalJobs * 0.6 to it).
Sep
14
comment Best data structure for this sort of word lookup / spellcheck?
It seems that, when you say "these misspellings", you mean "a restricted subclass of misspellings" (since you say you don't want "mmad" corrected to "sad"), but you don't ever say exactly what that subclass is. In your examples, all the misspellings are generated from valid words by repeating some character(s) -- is that the subclass you want to correct?
Sep
12
comment Given elements in a array find combinations that equal destination value
@user2733436: Understanding the language of set theory (sets, subsets, unions, intersections etc.) is critical for thinking about algorithms like this. I suggest finding an introduction online or in a maths textbook. Luckily, there isn't much to learn :)
Sep
11
comment Reduce a 2D grid by minimizing number of Blackbox calls using any efficient algorithm
Right, my previous comment was a misunderstanding -- I've deleted it now.
Sep
11
comment Reduce a 2D grid by minimizing number of Blackbox calls using any efficient algorithm
Assuming that you meant to write "I call Blackbox (99,98,5) which makes blackbox execute function 5 at point (99,98) and gets me say (5,3100) as return value.", this clearly doesn't hold for function 5, since 3100 > 3000 but 98 < 99.
Sep
11
comment Reduce a 2D grid by minimizing number of Blackbox calls using any efficient algorithm
It seems that "the cost is monotonically non-decreasing in both directions" holds only for the "combined" function, and that the individual functions (e.g. function 5 in your example) need not obey that property. If so, the problem is impossible to solve exactly with fewer than 10000 function evaluations, since you need at least 1 function in your cover, and it might be arbitrarily bad at any point you don't evaluate it at. You need extra conditions on the 60 individual BB functions to do better.
Sep
8
comment How to find the maximum common subtree
One way to represent a rooted (sub)tree is with a string containing opening and closing parentheses. That should be enough to get you started.