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Assume we have a triangle that each node has K children.

An example for K = 2 is:

  1
 2 3
4 5 6

An example for K = 3 is:

    1
  2 3 4
5 6 7 8 9

An example for K = 4 is:

        1
     2 3 4 5
  5 6 7 8 9 1 2

etc.

  1. I would like to store those triangles in an array. I am looking to retrieve the total height of the triangle (assuming they are complete triangles) given the total number of elements T and the number of children per node K

  2. I am also looking to find what is the offset for each element in an array to each children. I know that for the example above where K = 2 the array is [1, 2, 3, 4, 5, 6] where for each level L the offset is L * (L + 1) / 2 (because Level 1 has 1 element, Level 2 has 2, Level 3 has 3 ...)

EDIT: The example is correct. Each node has access to K child nodes. for K = 3 1 has access to 2 3 and 4. 2 has access to 5 6 and 7. 3 has access to 6 7 and 8.

These are triangles and not graphs or trees.

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3  
Your examples don't show graphs (which you call triangles) with K nodes at each level for each node at the level above. Please state your question more accurately. –  High Performance Mark Aug 24 '12 at 10:28
    
Could you give some further examples (K = 4, 5, even 1?) to make your rule a bit clearer? –  Rawling Aug 24 '12 at 10:29
    
Is you example correct? Shouldn't the last row of the second example have the values 5 6 7 8 9 10 11 12 13? I guess your number are nodes and you say that each node have K children. –  Tomas Jansson Aug 24 '12 at 10:32
    
I think hes saying each node if you think more like trees, in the first one, 1 is the first node, it has 2 children (2 & 3) 2 has 2 children, (4 & 5) and 3 has 2 children (5 & 6).. so, if children is 3, 1 has, 2 3 4, 2 has 5 6 7, 3 as 6 7 8, 4 has 7 8 9 .... –  BugFinder Aug 24 '12 at 10:40
    
When you get to K = 4, do siblings share 2 or 3 of "their" 4 children with each other? –  Rawling Aug 24 '12 at 10:41
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2 Answers

Now that you have clarified your requirement ...

For K=2 there are

1
1+1
1+1+1
...

elements in each level, this is the series 1,2,3,.... If n is the level number then there are n elements at each level. Note that this can also be written as 1+1(n-1)

For K=3 there are

1
1+2
1+2+2
...

elements in each level, this is the series 1,3,5,...; there are 1+2(n-1) elements at each level.

For K=4 there are

1
1+3
1+3+3
...

elements in each level, this is the series 1,4,7,.... There are 1+3(n-1) elements at each level.

At each level in each triangle there are 1+(K-1)(n-1) elements. I expect you can carry on from here.

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Actually the question is more like how many numbers are there in all previous levels given the current level N and the current number of children for each node K –  user1622307 Aug 24 '12 at 11:11
    
I know that for K = 2 its N * (N + 1) / 2 –  user1622307 Aug 24 '12 at 11:11
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The total number of elements T for a triangle of height h will be:

T = ∑1...h (1 + (K-1)(n-1))
T = h + (K-1) * ∑1...h (n-1)
T = h + (K-1) * ∑0..h-1 (n)
T = h + (K-1) * ((h-1)² + h-1) / 2
T = h + (K-1) * (h² + 1 - 2h + h-1) / 2
T = h + (K-1) * (h² - h) / 2

Calculating the height

So to get the height h you insert the value of K and solve the equation. Here's an example of an easy case where K equals 3.

T = h + (K-1) * (h² - h) / 2
T = h + (3-1) * (h² - h) / 2
T = h + (h² - h)
T = h²
h = √T

Calculating the offsets

As for the offsets you use the same equation we used to calculate the total number of elements but set h to height-1. Here's an example of getting the offset for row 3 in a triangle with a K of 4.

offset(h) = h-1 + (K-1) * ((h-1)² - (h-1)) / 2
offset(3) = 3-1 + (4-1) * ((3-1)² - (3-1)) / 2
offset(3) = 2 + 3 * (4 - 2) / 2
offset(3) = 5

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