4,829 reputation
1124
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location Freiburg im Breisgau, Germany
age
visits member for 2 years, 11 months
seen 11 hours ago

The knight who always says NIH. And a hobbyist and part-time professional programmer.

I have good experience in

  • sh + Unix toolchain
  • C / C++11
  • Python
  • Javascript

I have dabbled in systems administration, systems programming, graphics programming, database design, functional programming languages, web applications architecture...


Sep
30
awarded  Explainer
Sep
26
comment Ukkonen's suffix tree algorithm, what is necessary?
Just a side note, have a look at suffix arrays also. They are said to be much easier to implement.
Sep
24
awarded  Autobiographer
Sep
18
comment If a folder does not exist, create it
+1: This should be the accepted answer.
Sep
18
comment If a folder does not exist, create it
@MartinSmith: Then just create the directory. Don't check for existence before. That is not only shorter. It also doesn't give a false impression of what the API of System.IO.Directory.CreateDirectory is. (And it is faster, but probably that doesn't matter)
Sep
16
comment Linux redirect to multiple targets
the tee command
Sep
15
comment Finding if the element exist in a given range
-1: I decided to downvote this question for all the problems you can find in the comments to the question and the answers.
Sep
15
comment Finding if the element exist in a given range
True, question should have been refined instead only some comments commented again...
Sep
14
comment Finding if the element exist in a given range
@Constantinos: No need to downvote here if this was you. OP was not really clear about this. The other answers aren't downvoted neither. My answer gives an actually efficient solution to the problem itself as specified in the OP (as opposed to in a very unclear way half-way down the huge list of comments).
Sep
14
comment Finding if the element exist in a given range
OMG they did it again. -1. Why? This is really putting me off. I'm confident enough to say this was not a bad answer.
Sep
14
answered Finding if the element exist in a given range
Sep
14
comment Finding if the element exist in a given range
Your presumption B[i] <= A[i+1] does not hold. It's explicit in the OP that the intervals may be overlapping.
Sep
14
comment Finding if the element exist in a given range
I don't think quadratic is the best you can do.
Sep
14
comment Finding if the element exist in a given range
Are A, B, and C "static" (like, fixed beforehand) or must "dynamic" queries be possible?
Sep
14
comment Finding if the element exist in a given range
Is the integer range limited to the left (i.e., is there an integer, for example 0, that is guaranteed to be the lowest)? Can you make assumptions on the number (count), range and granularity of the integers? (If both yes, I may add an answer...)
Sep
7
comment Can we use binary search to find most frequently occuring integer in sorted array?
@interjay: "each element exists once"... Let's leave it at that, it doesn't lead anywhere
Sep
7
comment Can we use binary search to find most frequently occuring integer in sorted array?
@interjay: By "range", I meant a slice of the input array. You can detect whether the duplicate is in the slice simply by comparing the length of the slice to the difference of the leftmost and the rightmost element in the slice...
Sep
7
comment Can we use binary search to find most frequently occuring integer in sorted array?
(If we knew beforehand that each element exists once except for one which exists twice) you can easily detect whether the duplicate falls in a given range. So just divide it recursively. Extra care must be taken for the case when the duplicate sequence is split in two.
Sep
7
comment Can we use binary search to find most frequently occuring integer in sorted array?
I think the case you describe (each element exists once, except for one which exists twice) is one exception where it can actually done using binary search...
Aug
29
comment When should you use 'friend' in C++?
I think the Mother / Child example is unfortunate. These names are suitable for instances, but not for classes. (The problem shows if we have 2 mothers, and each has their own child).