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Suppose there is number s=12 , now i want to make sequence with the element a1+a2+.....+an=12.

The criteria is as follows-

  1. n must be minimum.
  2. a1 and an must be 1;
  3. ai can differs a(i-1) by only 1,0 and -1.

for s=12 the result is 6.

So how to find the minimum value of n.

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This is a more of a math problem than programming. –  ypercube Sep 30 '11 at 11:44
If s is between q^2+1 and q^2+q, you have minimum n=2q. If s is between q^2+q+1 and (q+1)^2, you have minimum n=2q+1. –  ypercube Sep 30 '11 at 11:47
Are you sure you need 6 elements to get 12? I can get it in 5: 1 2 2 3 4. Or am I missing something? –  jpalecek Sep 30 '11 at 11:52
jpalecek: an must be 1. I expect the optimal sequence is then 1 2 3 3 2 1. –  Kevin Sep 30 '11 at 11:55
@jpalecek yea, you have missed one thing a1 and an must be 1. –  russell Sep 30 '11 at 11:55

5 Answers 5

up vote 3 down vote accepted

Algorithm for finding n from given s:

1.Find q = FLOOR( SQRT(s-1) )

2.Find r = q^2 + q

3.If s <= r then n = 2q, else n = 2q + 1

Example: s = 12

  1. q = FLOOR( SQRT(12-1) ) = FLOOR(SQRT(11) = 3
  2. r = 3^2 + 3 = 12
  3. 12 <= 12, therefore n = 2*3 = 6

Example: s = 160

  1. q = FLOOR( SQRT(160-1) ) = FLOOR(SQRT(159) = 12
  2. r = 12^2 + 12 = 156
  3. 159 > 156, therefore n = 2*12 + 1 = 25

and the 25-numbers sequence for

159:    1,2,3,4,5,6,7,8,9,10,10,10,9,10,10,10,9,8,7,6,5,4,3,2,1
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The maximum possible for any given series of length n is:

n is even => (n^2+2n)/4 n is odd => (n+1)^2/4

These two results are arrived at easily enough by looking at the simple arithmetic sum of series where in the case of n even it is twice the sum of the series 1...n/2. In the case of n odd it is twice the sum of the series 1...(n-1)/2 and add on n+1/2 (the middle element).

Clearly you can generate any positive number that is less than this max as long as n>3.

So the problem then becomes finding the smallest n with a max greater than your target.

Algorithmically I'd go for:

Find (sqrt(4*s)-1) and round up to the next odd number. Call this M. This is an easy to work out value and will represent the lowest odd n that will work.

Check M-1 to see if its max sum is greater than s. If so then that your n is M-1. Otherwise your n is M.

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There are two cases: s odd and s even. When s is odd, you have the sequence:

1, 2, 3, ..., (s-1)/2, (s-1)/2, (s-1)/2-1, (s-1)/2-2, ..., 1

when n is even you have:

1, 2, 3, ..., s/2, s/2-1, s/2-2, ..., 1

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that i know , but how to find value of n. –  russell Sep 30 '11 at 11:51

Here's a way to visualize the solution.

First, draw the smallest triangle (rows containing successful odd numbers of stars) that has a greater or equal number of stars to n. In this case, we draw a 16-star triangle.


Then we have to remove 16 - 12 = 4 more stars. We do this diagonally starting from the top.


The result is:


Finally, add up the column heights to get the final answer:

1, 2, 3, 3, 2, 1.

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Good visuals but I don't think you want to use this method if s = 123452. ;-) –  Chris Sep 30 '11 at 12:07

Thank all you answer me. I derived a simpler solution. The algorithm looks like-

First find what is the maximum  sum that can be made using n element-

if n=1 ->    1            sum=1;
if n=2 ->    1,1          sum=2;
if n=3 ->    1,2,1        sum=4;
if n=4 ->    1,2,2,1      sum=6;
if n=5 ->    1,2,3,2,1    sum=9;
if n=6 ->    1,2,3,3,2,1  sum=12;

So from observation it is clear that form any number,n  9<n<=12 can be 
made using  6 element, similarly number 
6<n<=9  can be made at using 5 element.
So it require only a binary search to find the number of
 element that make a particular number. 
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Is this implying that s is generally going to be small then? I wouldn't have thought this would be a great solution for values of s in the millions for example. If there is a constraint on s being small you should really include that kind of information in the original question since it makes a massive difference in what answer you will get. FWIW several of the answers above work on the above theory but without the lookup table and just using a bit of algebra to find the right value of n based on that maximum sum. –  Chris Oct 3 '11 at 8:38
Its capable of handling a large number easily like if when n is only 100000 the maximum sum can be made to 2500050000 (a large number 32 bit number). And its also possible to handle larger number.And its running time is also good since no costly floating operation like sqrt() needed. It only require O(lgn) binary search. –  russell Oct 3 '11 at 9:50
I was more thinking that it might not necessarily be practical to have a lookup table. I'd imagine that your table would be about 8 meg in size which isn't much in the grand scheme of things but for one lookup object it feels quite a lot. Also I assume that this lookup table is hardcoded rather than being calculated on each use. I guess my only other comment is that I wouldn't say this was an algorithm, its just a lookup. These are often very good but you did tag the question as algorithm. :) –  Chris Oct 3 '11 at 10:00
Yea, its not necessary if there is only single query but for large number of query say thousands/millions it's required. And what else can i tag for this question??? ok, i can tag this as math, but it also need to generate a pattern, examine/observe the pattern for its correctness. is not it a type of algorithm??? –  russell Oct 3 '11 at 11:36
I'd say it was maths really. If you'd wanted an algorithm to generate your lookup table then that's algorithm but I assume that is simple enough not to need one. And one step to look something up in the lookup table definitely doesn't feel like it should be called an algorithm. –  Chris Oct 3 '11 at 14:02

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