# Find upper bound index in sorted vector

I have a vector like the following in Matlab.

``` Columns 1 through 4

0.160000000000000   0.208000000000000   0.244000000000000   0.268000000000000

Column 5

0.280000000000000
```

And I want to find the upper bound index of the following value:

``````0.16230400000000
``````

I know this value is between the 1° and 2° indices, but I want to find the upper bound which in this case is index 2, even when the closest value is at index 1. How do I get that in Matlab without a loop?

I found the following method to find the closest value but I need always the upper bound.

``````[c ind] = min(abs(probCum-codComp));
``````
-
do you have an error there? the value you search for is not greater, but less than vector(1). –  angainor Oct 2 '12 at 14:58
Are you saying that 0.106230400000000 is between 0.160000000000000 and 0.208000000000000 ?! –  caoy Oct 2 '12 at 14:58
Sorry I added an extra zero check my question again pelase –  Jorge Zapata Oct 2 '12 at 15:00

If your array is sorted in an ascending fashion, the find command is especially powerful:

``````find (a>0.162,1)
``````
-
I found your answer the most elegant, thanks –  Jorge Zapata Oct 2 '12 at 17:35

You can get the index of the upper bound by counting how many entries are smaller than the value of interest increased by one:

``````id = sum(value < data)+1;
``````

Note that, if all elements are smaller than the value of interest, `data(id)` will return an error because `id` is larger than the size of `data`.

-
You need a +1 there I think, but otherwise nice. –  angainor Oct 2 '12 at 15:05
@angainor: Yes, already noted. The edit was just underway when your comment came in. Thanks anyway... –  H.Muster Oct 2 '12 at 15:07
+1 then, wonder what is faster ;-) –  angainor Oct 2 '12 at 15:22
+1 very elegant! –  Rody Oldenhuis Oct 2 '12 at 15:27

You can subtract the value you search for from the vector and observe the sign

``````V =  [0.1600    0.2080    0.2440    0.2680    0.2800];
v =  0.162304;
V-v
ans =

-0.0023    0.0457    0.0817    0.1057    0.1177
``````

Now you can `find` the first non-negative entry in this vector - this is your upper bound

``````find(V-v>=0, 1, 'first')
ans =

2
``````

You can also change the inequality in the expression above to suite your needs.

-
You can use the second output from `min` to get the indices to the "proper" index:
``````[~,index] = min(abs(data-value));
then check if the lower or upper was taken, and adjust `index` accordingly:
``````if value > data(index)