I have a `double matrix B`

that has in `C1`

the year 1998 and in `C2`

a code (unrepeated). Each `C2`

is given a value in `C3`

.

```
% C1 C2 C3
B=[ 1998 22 37
1998 34 7
1998 76 12
1998 98 29
1998 107 14
…]
```

This is how I got to `B`

:

```
N1=[N{:,1} N{:,2} N{:,3}];
N1=unique(N1(:,1:3),'rows');
N3= unique(N1(:,1:2),'rows');
for m=1:size(N3,1)
N3(m,3)=sum(N1(:,1) == N3(m,1) & N1(:,2)==N3(m,2));
end
B=N3((N3(:,1) == 1998),:);
```

I have a `cell-array A`

with the years horizontally disposed in `R1`

, un-repeated values in `Y`

, and corresponding codes in the columns that follow. **The codes match the ones in C2 from variable B.**

```
A={Y 1996 1997 1998 1999 %R1
1 107 107 22 22
13 98 98 76 1267
… }
```

Is there a way I could get a new variable that recognizes the change in the codes in variable `A`

, and presents the corresponding values from `C3`

in `B`

? For instance:

```
AB={Y Initial C2 Change C2
1 107 14 22 37
13 98 29 76 12 }
```

`N1`

change? There is a possibility to have more than 1 output in`unique`

. the call`[a,b,c] = unique(M,'first')`

, gives:`a`

- the unique values in`M`

,`b`

- the indices where`a`

occurs the first time in`M`

,`c`

- as`M=a(c)`

. – patrik Jul 21 '14 at 8:23