# Finding out where would a value “fit” in an Array?

I'm having a trouble with what should be a very simple algorithm, but for some reason my head is not working properly (too much work?)

I have an Array of numeric values: [ 10, 20, 30, 40, 100, 1000, 5000, 100000] I want to check which is the next "item" in the array.

For example,

• given the number 10, my algorithm should return 10.
• given the number 1, my algorithm should return 10
• given the number 50, my algorithm should return 100.
• given the number 99999999, my algorithm should return 100000

In pseudo-code I was thinking:

``````for previousValue, nextValue in values:
if ( previousValue < value && nextValue >= value ):
return nextValue
return values[max]
``````

If anyone can point out to my exhausted brain what I'm missing it would be great. thanks!

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Is your array always sorted? –  Matti Virkkunen Oct 8 '13 at 22:29
Even if it's not sorted, one could always sort beforehand and use binary search I suppose. –  favoretti Oct 8 '13 at 22:37
please check my answer. –  Shikhar Subedi Oct 9 '13 at 6:37

Assuming the array is already sorted, your solution works fine. But to make it more clear I would rewrite it as follows:

``````  prev = 0
for(v in values){
if(target > prev && target <= v)
return v
prev = v
}
return values[values.length-1]
``````
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In ruby :

``````find 0,values.length,val
def find left,right,val
if left == right || left > right then return values[left]
if val > values[(right + left)/2]
find (right + left)/2, right, val
else
find left, (right + left)/2, val
end
end
``````
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the array need not be sorted. sorting an array has O(nlogn) time complexity. You can check each element in the array in theta(n) time.

Assuming the array is `arr` and the comparison item is `item` and the array `arr` contains at least one element greater than or equal to `item`:

In java

``````public static int find_greater(int[] arr,int item)
{
int j=0;
int previous =0;
for(int i=0;i<arr.length;i++){
if(arr[i]>=item){
if(j==0){
previous = arr[i];

}else{
if(arr[i]<previous)
{
previous = arr[i];
}
}
j++;

}
}
return previous;
}
``````

Here I go through the array and keep a variable `previous` which is the smallest number greater or equal `item`. The running time for this procedure is `theta(N)` where N is `arr.length`.

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I would probably represent this array as a tree. To find out the closest biggest value, I will just look in the tree the same way I will do to find a key, and always keep track of my closest value. When I reach the end of the node, I return the closest value.

This is another alternative, compared to the other answers. You can check it in this thread How to find the closest element to a given key value in a binary search tree?

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