You can check yourself using a little helper MEX-function (or the undocumented format debug
mode):
dump.c
#include "mex.h"
void mexFunction(int nlhs, mxArray *plhs[], int nrhs, const mxArray *prhs[])
{
if (nrhs != 1 || nlhs > 0)
mexErrMsgIdAndTxt("dump:error", "Wrong number of arguments.");
if (!mxIsNumeric(prhs[0]))
mexErrMsgIdAndTxt("dump:error", "Expects a numeric array.");
mexPrintf("header = 0x%p\n", prhs[0]);
mexPrintf("data = 0x%p\n", mxGetData(prhs[0]));
}
Now:
>> A = 1:5
A =
1 2 3 4 5
>> dump(A)
header = 0x00000000148312F0
data = 0x000000007C97CEC0
>> A(5) = []
A =
1 2 3 4
>> dump(A)
header = 0x00000000148312F0
data = 0x000000007CEBA840
Similarly:
>> A = 1:5
A =
1 2 3 4 5
>> dump(A)
header = 0x000000001482A400
data = 0x000000007DDC7740
>> A = A(1:4)
A =
1 2 3 4
>> dump(A)
header = 0x000000001482A400
data = 0x000000007D7C9C60
In general, doing any array slicing will reallocate data (except for the special case of A=A(:)
where only the size in the header is changed without touching the data).
EDIT 1:
Now consider this MEX-function:
droplastcol.c
#include "mex.h"
void mexFunction(int nlhs, mxArray *plhs[], int nrhs, const mxArray *prhs[])
{
mwSize N;
if (nrhs != 1 || nlhs > 0)
mexErrMsgIdAndTxt("dump:error", "Wrong number of arguments.");
if (mxIsSparse(prhs[0]) || !mxIsNumeric(prhs[0]) || mxGetNumberOfDimensions(prhs[0])>2)
mexErrMsgIdAndTxt("dump:error", "Expects a dense numeric matrix.");
N = mxGetN(prhs[0]);
if (N > 0)
mxSetN((mxArray*)prhs[0], N-1);
}
It will drop the last column of a matrix without reallocating the data:
>> A = 1:5
A =
1 2 3 4 5
>> dump(A)
header = 0x0000000014829FA0
data = 0x000000007D4E1000
>> droplastcol(A)
>> A
A =
1 2 3 4
>> dump(A)
header = 0x0000000014829FA0
data = 0x000000007D4E1000
Using mxSetN
this way is completely safe with no memory leaks (it will even play nice with "data sharing" and "lazy copy-on-write", e.g A=1:5;B=A;droplastcol(A);
). To quote the docs:
If calling mxSetN
reduces the number of elements in the mxArray
, you might want to reduce the sizes of the pr
, pi
, ir
, and/or jc
arrays to use heap space more efficiently. However, reducing the size is not mandatory.
Meaning that the heap memory allocated for the data is still claimed as used, but it won't leak when the array is destroyed (clear A
).
NOTE: The above code was tested in MATLAB R2014a. It seems that something changed in recent releases, and the droplastcol
MEX-function does not work correctly in newer versions (I tried it in R2015b and the size isn't affected when the function returns!).
EDIT2
It seems on newer MATLAB versions, we have to use the undocumented mxCreateSharedDataCopy
. Here is the modified MEX-function:
droplastcol.c
#include "mex.h"
EXTERN_C mxArray* mxCreateSharedDataCopy(const mxArray*);
void mexFunction(int nlhs, mxArray *plhs[], int nrhs, const mxArray *prhs[])
{
mwSize N;
if (nrhs != 1 || nlhs > 1)
mexErrMsgIdAndTxt("dump:err", "Wrong number of arguments.");
if (mxIsSparse(prhs[0]) || !mxIsNumeric(prhs[0]) || mxGetNumberOfDimensions(prhs[0])>2)
mexErrMsgIdAndTxt("dump:err", "Expects a numeric matrix.");
plhs[0] = mxCreateSharedDataCopy(prhs[0]);
N = mxGetN(plhs[0]);
if (N > 0)
mxSetN((mxArray*)plhs[0], N-1);
}
Now we test it in R2015b:
>> mex -largeArrayDims droplastcol2.c
Building with 'Microsoft Visual C++ 2010 (C)'.
MEX completed successfully.
>> A = 1:5
A =
1 2 3 4 5
>> dump(A)
header = 0x00000000693A0B80
data = 0x00000000943A5D60
>> B = droplastcol2(A)
B =
1 2 3 4
>> A
A =
1 2 3 4 5
>> dump(A)
header = 0x00000000693A1600
data = 0x00000000943A5D60
>> dump(B)
header = 0x00000000693A0C60
data = 0x00000000943A5D60
You could have also done: A = droplastcol2(A)
, the data will not be reallocated, only a new header will be created pointing to the same data in memory.