I am converting a function from MatLab to C++ that takes a vector and separates into blocks containing 600 values and changing at intervals of 200. Here is the function (In MatLab):

```
function f = block(v, N, M)
% This function separates the vector
% into blocks. Each block has size N.
% and consecutive blocks differ in
% their starting positions by M
%
% Typically
% N = 30 msec (600 samples)
% M = 10 msec (200 samples)
n = length(v);
maxblockstart = n - N + 1;
lastblockstart = maxblockstart - mod(maxblockstart-1 , M);
% Remove the semicolon to see the number of blocks
% numblocks = (lastblockstart-1)/M + 1
numblocks = (lastblockstart-1)/M + 1;
f = zeros(numblocks,N);
for i = 1:numblocks
for j = 1:N
f(i,j) = v((i-1)*M+j);
end
```

end

And the function in C++:

```
vector< iniMatrix > Audio::something(vector<double>& theData, int N, int M)
{
//How many blocks of size N can we get?
int num_blocks = theData.size() / N;
int n = theData.size();
int maxblockstart = n - N;
int lastblockstart = maxblockstart - (maxblockstart % M);
int numbblocks = (lastblockstart)/M + 1;
this->width = N;
//Create the vector with enough empty slots for num_blocks blocks
vector<iniMatrix> blocked(num_blocks);
//Loop over all the blocks
for(int i = 0; i < num_blocks; i++) {
//Resize the inner vector to fit this block
blocked[i].resize(N);
//Pull each sample for this block
for(int j = 0; j < N; j++) {
blocked[i][j] = theData[i*N+j];
}
}
return blocked;
```

}

Does this look correct? I know it's a weird question, and I'll probably get negative feedback BUT, I tried counting the number of zero-crossings and it displayed the wrong answer, so, maybe there is something wrong with how I'm splitting the vector.

EDIT:

iniMatrix is a typedef of a 2D vector

Produces 96 blocks (containing 600 values)

N+j]. It seems there is misprint that can lead to error. E.g., you need to have theData[iM+j]. – Danil Asotsky Nov 14 '12 at 19:10