Hahaha sorry, no solution. Don't have MATLAB on me right now so can't check code for errors. But here's the general idea:

- Generate k (in your case 10) subsamples
- Start two counters at 1 and preallocate new matrix:
`index = 1; subsample = 1; newmat = zeros("150","6")`

< 150 is the number of samples, 6 = 4 wide data + 1 wide labels + 1 we will use later
- While you still have data:
`while ( length(labels) > 0 )`

- Generate a random number within the amount of data left:
`randNum = randi(length(labels))`

? I think that's a random int that goes from 1 to the size of your labels array (it could be 0, please check the doc - if it is, do simple math to make it 1 < rand < length)
- Add that row to a new data set with labels:
`newmat(index,:) = [data(randNum,:) labels(randNum) subsample]`

< that last column is the subsample number from 1-10
- Delete the row from data and labels:
`data(randNum,:) = []; same for labels`

< note this will physically remove a row from the matrices, which is why we have to use a while loop and check for length > 0 rather than a for loop and simple indices
- Increment counters:
`index = index + 1; subsample = subsample + 1;`

- if subsample = 11, make it 1 again.

At the end of this, you should have a large data matrix that looks almost exactly like your original, but has randomly assigned "fold labels".

- Loop over all this and your executing code k (10) times.

EDIT: code placed in more accessible manner. NOTE it's still pseudo-y code and is not complete! Also, you should note that this is NOT AT ALL the most efficient way, but shouldn't be too bad if you can't use matlab functions.

```
for k = 1:10
index = 1; subsample = 1; newmat = zeros("150","6");
while ( length(labels) > 0 )
randNum = randi(length(labels));
newmat(index,:) = [data(randNum,:) labels(randNum) subsample];
data(randNum,:) = []; same for labels
index = index + 1; subsample = subsample + 1;
if ( subsample == 11 )
subsample = 1;
end
end
% newmat is complete, now run code here using the sampled data
%(ie pick a random number from 1:10 and use that as your validation fold. the rest for training
end
```

EDIT FOR ANSWER #2:

Ok another way, is to create a vector that is as long as your data set

```
foldLabels = zeros("150",1);
```

Then, looping for that long (150), assign labels to random indices!

```
foldL = 1;
numAssigned = 0;
while ( numAssigned < 150 )
idx = randi(150);
% no need to reassign a given label, so check if is still 0
if ( foldLabels(idx) == 0 )
foldLabels(idx) = foldL;
numAssigned++; % not matlab code, just got lazy. you get it
foldL++;
if ( foldL > 10 )
foldL = 1;
end
end
end
```

EDIT FOR ANSWER #2.5

```
foldLabels = zeros("150",1);
for i = 1:150
notChosenLabels = [notChosenLabels i];
end
foldL = 1;
numAssigned = 0;
while ( length(notChosenLabels) > 0 )
labIdx = randi(length(notChosenLabels));
idx = notChosenLabels(labIdx);
foldLabels(idx) = foldL;
numAssigned++; % not matlab code, just got lazy. you get it
foldL++;
if ( foldL > 10 )
foldL = 1;
end
notChosenLabels(labIdx) = [];
end
```

EDIT FOR RANDPERM

generate the indices with randperm

```
idxs = randperm(150);
```

now just assign

```
foldLabels = zeros(150,1);
for i = 1:150
foldLabels(idxs(i)) = sampleLabel;
sampleLabel = sampleLabel + 1;
if ( sampleLabel > 10 )
sampleLabel = 1;
end
end
```