Matlab/Octave algorithm example:

```
input vector: [ 1 0 2 0 7 7 7 0 5 0 0 0 9 ]
output vector: [ 1 1 2 2 7 7 7 7 5 5 5 5 9 ]
```

The algorithm is very simple: it goes through the vector and replaces all zeros with the last non-zero value. It seems trivial, and is so when done with a slow for (i=1:length) loop and being able to refer to the previous element (i-1), but looks impossible to be formulated in the fast vectorized form. I tried the merge() and shift() but it only works for the first occurrence of zero, not an arbitrary number of them.

Can it be done in a vectorized form in Octave/Matlab or must C be used for this to have sufficient performance on big amount of data?

I have another similar slow for-loop algorithm to speed up and it seems generally impossible to refer to previous values in a vectorized form, like an SQL `lag()`

or `group by`

or `loop (i-1)`

would easily do. But Octave/Matlab loops are terribly slow.

Has anyone found a solution to this general problem or is this futile for fundamental Octave/Matlab design reasons?

Performance benchmark:

## SOLUTION 1 (slow loop)

```
in = repmat([ 1 0 2 0 7 7 7 0 5 0 0 0 9 ] ,1 ,100000);
out = in;
tic
for i=2:length(out)
if (out(i)==0)
out(i)=out(i-1);
end
end
toc
[in(1:20); out(1:20)] % test to show side by side if ok
```

Elapsed time is 15.047 seconds.

## SOLUTION 2 by Dan (~80 times faster)

```
in = V = repmat([ 1 0 2 0 7 7 7 0 5 0 0 0 9 ] ,1 ,100000);
tic;
d = double(diff([0,V])>0);
d(find(d(2:end))+1) = find(diff([0,~V])==-1) - find(diff([0,~V])==1);
out = V(cumsum(~~V+d)-1);
toc;
[in(1:20); out(1:20)] % shows it works ok
```

Elapsed time is 0.188167 seconds.

15.047 / 0.188167 = 79.97 times improvement

## SOLUTION 3 by GameOfThrows (~115 times faster)

```
in = repmat([ 1 0 2 0 7 7 7 0 5 0 0 0 9 ] ,1 ,100000);
a = in;
tic;
pada = [a,888];
b = pada(pada >0);
bb = b(:,1:end-1);
c = find (pada==0);
d = find(pada>0);
len = d(2:end) - (d(1:end-1));
t = accumarray(cumsum([1,len])',1);
out = bb(cumsum(t(1:end-1)));
toc;
```

Elapsed time is 0.130558 seconds.

15.047 / 0.130558 = 115.25 times improvement

**Magical** SOLUTION 4 by Luis Mendo **(~250 times faster)**

```
in = repmat([ 1 0 2 0 7 7 7 0 5 0 0 0 9 ] , 1, 100000);
tic;
u = nonzeros(in);
out = u(cumsum(in~=0)).';
toc;
```

Elapsed time is 0.0597501 seconds.

15.047 / 0.0597501 = 251.83 times improvement

## (Update 2019/03/13) Timings with MATLAB R2017a:

```
Slow loop: 0.010862 seconds.
Dan: 0.072561 seconds.
GameOfThrows: 0.066282 seconds.
Luis Mendo: 0.032257 seconds.
fillmissing: 0.053366 seconds.
```

So we draw yet again the same conclusion: loops in MATLAB are no longer slow!

See also: Trivial/impossible algorithm challenge in Octave/Matlab Part II: iterations memory

`timeit`

comparison between the two answers and a naive`for`

-loop solution in your Octave for us? It will be interesting to see if these options give any performance improvements`isequal`

than`[in(1:20); out(1:20)] # test to show side by side if ok`

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