# How to initialize a vector in MATLAB as per a pattern?

I am completely new to MATLAB.This may be a rather basic question.

Given numerical values for `size`, `extras` and `max`, I need to initialize a 1 X N vector such that the first `size` elements are 1, the next `size` are 2, the next `size` are 3 and so on till the last `size` elements are set to `max`. So I need to initialize `size` number of elements successively to `x` such that `x` increments from 1 to `max`. The extras are the number of leftover cells which are initialized to 0. To illustrate:

``````size = 3; %# (is same as the quotient of N/max)
extras = 1; %# (is same as remainder of N/max)
max = 3;
N = 10;

original_vector = [0 0 0 0 0 0 0 0 0 0];
``````

The desired output is

``````Required_vector = [1 1 1 2 2 2 3 3 3 0]
``````
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It is best to avoid using 'max' and 'size' as variable names since these are names of Matlab functions. –  MatlabSorter Sep 28 '11 at 0:10
@MatlabSorter Good advice...Just used them here for example..my actual code has domain specific names. –  atlantis Sep 28 '11 at 0:43
similar question: Element-wise array replication in Matlab –  Amro Sep 28 '11 at 2:16

Maybe something using the Kronecker product:

``````N = 10;
max = 3;
extras = rem(N, max);
size = floor(N/max);

v = [kron([1 : max], ones(1,size)) zeros(1, extras)];
``````

I took a guess about how extras and size are calculated. You said size is N % max and extras is N rem max, but those are the same thing(?).

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ok...my bad...I got confused about the %...so dividing N by max, size is the quotient and extras the remainder –  atlantis Sep 28 '11 at 0:41

This is a quite dirty implementation, but as you say you are very new to MATLAB, it might be better for you to see how you can more or less brute force a solution out. The trick here is the index reference done on Vec to place the numbers in. I have ignored the parameter extras and instead fill the vector up as best can be with the elements

``````N = 23;
max = 3;
size = 4;

Vec = zeros(N,1);
for i=1:max
for j=1:size
Vec((i-1)*size +1 + (j-1)) = i;
end
end

Vec'
extra = sum(Vec==0)
``````

Output: ans =

``````1  1  1  1  2  2  2  2  3  3  3  3  0  0  0  0  0  0  0  0  0  0  0
``````

extra =

``````11
``````
-
Couple of things: size and extras aren't arbitrary..they depend on N and max. size is same as N % max and extras is same as N 'rem' max. Past that, I agree this implementation may work...but I just cringe at the thought of having to use nested for loops in matlab code. Isn't there a better way? –  atlantis Sep 27 '11 at 21:39
You could replace the inner loop with `Vec((i-1)*size + [1 : size]) = i*ones(1,size);`. –  dantswain Sep 27 '11 at 22:01

Some reshaping acrobatics should do it:

```>> size = 3;
>> max = 3;
>> N = 10;
>> v = zeros(1, N);
>> v(1:size*max) = reshape(cumsum(ones(max, size))', size*max, 1)

v =

1     1     1     2     2     2     3     3     3     0

```

Another example:

```>> size = 4;
>> max = 5;
>> N = 23;
>> v(1:size*max) = reshape(cumsum(ones(max, size))', size*max, 1)

v =

Columns 1 through 18

1     1     1     1     2     2     2     2     3     3     3     3     4     4     4     4     5     5

Columns 19 through 23

5     5     0     0     0
```
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``````N = 10;