# create matrix with row length L from 1D vector

suppose that we have following 1D array

``````x(1),x(2),......x(n)
``````

where n is length of sample,and suppose that we want create matrix consisting from this elements using following rule,using some parameter L,our two dimensional array consists by following elements

``````(1 row) x(1),x(2),.....x(l)
(2 row)  x(2),x(3),.....x(l+1)
(3 row) x(3),x(4),.......x(l+2)
.
.
.
.(m row)  x(m),x(m+1).... x(n)
``````

i have tried following code

``````function [ x ]=create_matrix(b,n,L)
for i=1:n/2
x(i,end)=b(i:L);
end;
``````

where b is input 1D vector,n is length(b),L is matrix row length,but when i run this code,i got following error

``````??? Undefined function or variable "x".

Error in ==> create_matrix at 4
x(i,end)=b(i:L);
``````

maybe something wrong declaration of two dimensional array in matlab,or something else?actually i know that it is very simple for implement,but i could not it myself,please help

-

Code:

``````function [ x ]=create_matrix(b,l)
n = length(b);
m = n-l+1;
x = zeros(m,l);
for i=1:m
x(i,:)=b(i:i+l-1);
end;
end
``````

Example:

``````EDU>> create_matrix(1:10,4)

ans =

1     2     3     4
2     3     4     5
3     4     5     6
4     5     6     7
5     6     7     8
6     7     8     9
7     8     9    10
``````

Also, this matrix is a flipped toeplitz matrix. So the same thing can be achieved with:

``````fliplr(toeplitz(4:10,4:-1:1))
``````

Output:

``````ans =

1     2     3     4
2     3     4     5
3     4     5     6
4     5     6     7
5     6     7     8
6     7     8     9
7     8     9    10
``````
-
so m should have different value right? –  dato datuashvili Mar 22 '13 at 17:31
aa yes,because as much we change l,m would be changed yes i see –  dato datuashvili Mar 22 '13 at 17:33
@dato also, a more efficient implementation would probably be to assign the columns to x instead of the rows as I have above. This is because MATLAB is column major. –  jucestain Mar 22 '13 at 17:37
yes for what i need it,does not matter it would be row major order or column major,important is that it should be non square for singular value decomposition.thanks very much –  dato datuashvili Mar 22 '13 at 17:38

Another option (probably faster in performance) is to use `bsxfun`, for example

``````m=7;
l=4;
bsxfun(@plus,[1:m]',0:l-1)

ans =
1     2     3     4
2     3     4     5
3     4     5     6
4     5     6     7
5     6     7     8
6     7     8     9
7     8     9    10
``````

or for a generic vector `x` use

``````x(bsxfun(@plus,x(1:m)',0:x(l-1)))
``````
-
If `x` is a random vector I'm not sure this method will work. –  jucestain Mar 23 '13 at 2:48
I think it will, because the `bsxfun` solution is for the index of `x`, so for `x` just do `x(bsxfun(@...) ) –  bla Mar 23 '13 at 3:45
Wow, that's clever. –  jucestain Mar 23 '13 at 4:06