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This is my code:

SortedDictionary<int,int> Numbers = new SortedDictionary<int,int>();
List<int> onlyP = new List<int>(Numbers.Keys);
int Inferior = int.Parse(toks[0]);
int Superior = int.Parse(toks[1]);
int count = 0;

int inferiorindex = Array.BinarySearch(Numbers.Keys.ToArray(), Inferior);
if (inferiorindex < 0) inferiorindex = (inferiorindex * -1) - 1;
int superiorindex = Array.BinarySearch(Numbers.Keys.ToArray(), Superior);
if (superiorindex < 0) superiorindex = (superiorindex * -1) - 1;

count = Numbers[onlyP[superiorindex]] - Numbers[onlyP[inferiorindex]];

So what I'm trying to do is this: I've got a sorted dictionary with powers as keys, and a normal iteration as values. I've to print how many numbers of the keys fit within a specified range.

Example: Some entries of the dict: [1,1],[4,2],[8,3],[9,4],[16,5],[25,6],[27,7],[32,8] Limits: 2 and 10 Numbers within 2 - 10 : 4, 8, 9 = 3 numbers.

With BinarySearch I'm trying to quickly find the numbers I want and then substract Potencias[onlyP[superiorindex]] - Potencias[onlyP[inferiorindex]] to find how many numbers are within the range. Unfortunately it's not working for all the cases, and it sometimes gives less numbers than the actual amount. How can this be fixed? Thanks in advance.

[EDIT] Examples of the problems: If I select limits: 4 and 4... it returns 0, but the answer is 1. limits: 1 and 10^9 (the whole range) returns 32669... But the answer is 32670. The algorithm is ignoring powers.

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Any questions I'll answer them here. Thanks in advance. –  Jean Carlos Suárez Marranzini Jan 18 '12 at 15:20
Sorry some code was missing, just edited. –  Jean Carlos Suárez Marranzini Jan 18 '12 at 15:24
Why is it not just superiorIndex - inferiorIndex? Why the look ups in the dictionary in the last line of the code? –  Christian Horsdal Jan 18 '12 at 15:29
@ChristianHorsdal I did it that way because the first item has index 0. But as a matter of fact I haven't tried that yet, thanks for the spot. –  Jean Carlos Suárez Marranzini Jan 18 '12 at 15:31
Let me know if it works :-) –  Christian Horsdal Jan 18 '12 at 15:37
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3 Answers 3

up vote 3 down vote accepted

Finally, having read the documentation. Notice the -1 on the upperIndex conversion and the +1 on the return value, these are important.

var numbers = new[] { 1, 4, 8, 9, 16, 25, 27, 32 };

var lowerBound = 4;
var upperBound = 17;

int lowerIndex = Array.BinarySearch(numbers, lowerBound);
if (lowerIndex < 0) lowerIndex = ~lowerIndex;

// - 1 here because we want the index of the item that is <= upper bound.
int upperIndex = Array.BinarySearch(numbers, upperBound);
if (upperIndex < 0) upperIndex = ~upperIndex - 1;

return (upperIndex - lowerIndex) + 1;


For the lower index we just take the complement because the BinarySearch returns the index of the first item >= lowerBound.

For the upper index we additionally minus one from the complement because we want the first item <= upperBound (not >= upperBound which is what BinarySearch returns).

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That is why he's using the BinarySearch ;-) It's a mean to get the closest item in the collection if the searched element isn't present by itself. –  Seb Jan 18 '12 at 16:02
Ah, I think I understand the problem now, will update my answer. –  Joey Jan 18 '12 at 16:04
Yes, limits might or might not be a power so I use binary search. I tried to iterate through the dict but it's slow compared to this method and I really need speed in this algorithm. –  Jean Carlos Suárez Marranzini Jan 18 '12 at 16:06
@Joey : have a look at the msdn link in my answer, it does exactly that, combining the result with some bitwise operator stuff. Just read the manual ;-) –  Seb Jan 18 '12 at 16:19
It finally worked! Thanks a lot! I have to understand the code better because to be honest I'm a bit confused. –  Jean Carlos Suárez Marranzini Jan 18 '12 at 16:44
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It seems that you're not doing it the wright way for post processing the binary search return value : http://msdn.microsoft.com/en-us/library/5kwds4b1.aspx

Should be : if (inferiorindex < 0) inferiorindex = ~inferiorindex;


Moreover, List supports a binary search, so you don't have to do the Array.BinarySearch thing, just work on onlyP.

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Thanks! I didn't know lists supported BS. I just fixed it. –  Jean Carlos Suárez Marranzini Jan 18 '12 at 16:09
Have you tried the bitwise operator instead of inferiorindex = (inferiorindex * -1) - 1 ? –  Seb Jan 18 '12 at 16:18
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int inferiorindex = Array.BinarySearch<int>(keys, Inferior);
if (inferiorindex < 0) {
    inferiorindex = ~inferiorindex;

int superiorindex = Array.BinarySearch<int>(keys, Superior);
if (superiorindex < 0) {
    // superiorindex is the binary complement of the next higher.
    // -1 because we want the highest.
    superiorindex = ~superiorindex - 1;

int count = superiorindex - inferiorindex + 1;
share|improve this answer
It finally worked! Thanks a lot! I have to understand the code better because to be honest I'm a bit confused. –  Jean Carlos Suárez Marranzini Jan 18 '12 at 16:44
Look at the description of Array.BinarySearch and use the debugger in order to analyse the code step by step. –  Olivier Jacot-Descombes Jan 18 '12 at 17:48
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