in matlab/strred/matlabPyrTools/MEX/corrDn.c [16:148]
void mexFunction(int nlhs, /* Num return vals on lhs */
mxArray *plhs[], /* Matrices on lhs */
int nrhs, /* Num args on rhs */
const mxArray *prhs[] /* Matrices on rhs */
)
{
double *image,*filt, *temp, *result;
int x_fdim, y_fdim, x_idim, y_idim;
int x_rdim, y_rdim;
int x_start = 1;
int x_step = 1;
int y_start = 1;
int y_step = 1;
int x_stop, y_stop;
mxArray *arg;
double *mxMat;
char edges[15] = "reflect1";
if (nrhs<2) mexErrMsgTxt("requres at least 2 args.");
/* ARG 1: IMAGE */
arg = prhs[0];
if notDblMtx(arg) mexErrMsgTxt("IMAGE arg must be a non-sparse double float matrix.");
image = mxGetPr(arg);
x_idim = (int) mxGetM(arg); /* X is inner index! */
y_idim = (int) mxGetN(arg);
/* ARG 2: FILTER */
arg = prhs[1];
if notDblMtx(arg) mexErrMsgTxt("FILTER arg must be non-sparse double float matrix.");
filt = mxGetPr(arg);
x_fdim = (int) mxGetM(arg);
y_fdim = (int) mxGetN(arg);
if ((x_fdim > x_idim) || (y_fdim > y_idim))
{
mexPrintf("Filter: [%d %d], Image: [%d %d]\n",x_fdim,y_fdim,x_idim,y_idim);
mexErrMsgTxt("FILTER dimensions larger than IMAGE dimensions.");
}
/* ARG 3 (optional): EDGES */
if (nrhs>2)
{
if (!mxIsChar(prhs[2]))
mexErrMsgTxt("EDGES arg must be a string.");
mxGetString(prhs[2],edges,15);
}
/* ARG 4 (optional): STEP */
if (nrhs>3)
{
arg = prhs[3];
if notDblMtx(arg) mexErrMsgTxt("STEP arg must be a double float matrix.");
if (mxGetM(arg) * mxGetN(arg) != 2)
mexErrMsgTxt("STEP arg must contain two elements.");
mxMat = mxGetPr(arg);
x_step = (int) mxMat[0];
y_step = (int) mxMat[1];
if ((x_step<1) || (y_step<1))
mexErrMsgTxt("STEP values must be greater than zero.");
}
/* ARG 5 (optional): START */
if (nrhs>4)
{
arg = prhs[4];
if notDblMtx(arg) mexErrMsgTxt("START arg must be a double float matrix.");
if (mxGetM(arg) * mxGetN(arg) != 2)
mexErrMsgTxt("START arg must contain two elements.");
mxMat = mxGetPr(arg);
x_start = (int) mxMat[0];
y_start = (int) mxMat[1];
if ((x_start<1) || (x_start>x_idim) ||
(y_start<1) || (y_start>y_idim))
mexErrMsgTxt("START values must lie between 1 and the image dimensions.");
}
x_start--; /* convert from Matlab to standard C indexes */
y_start--;
/* ARG 6 (optional): STOP */
if (nrhs>5)
{
if notDblMtx(prhs[5]) mexErrMsgTxt("STOP arg must be double float matrix.");
if (mxGetM(prhs[5]) * mxGetN(prhs[5]) != 2)
mexErrMsgTxt("STOP arg must contain two elements.");
mxMat = mxGetPr(prhs[5]);
x_stop = (int) mxMat[0];
y_stop = (int) mxMat[1];
if ((x_stop<x_start) || (x_stop>x_idim) ||
(y_stop<y_start) || (y_stop>y_idim))
mexErrMsgTxt("STOP values must lie between START and the image dimensions.");
}
else
{
x_stop = x_idim;
y_stop = y_idim;
}
x_rdim = (x_stop-x_start+x_step-1) / x_step;
y_rdim = (y_stop-y_start+y_step-1) / y_step;
/* mxFreeMatrix(plhs[0]); */
plhs[0] = (mxArray *) mxCreateDoubleMatrix(x_rdim,y_rdim,mxREAL);
if (plhs[0] == NULL) mexErrMsgTxt("Cannot allocate result matrix");
result = mxGetPr(plhs[0]);
temp = mxCalloc(x_fdim*y_fdim, sizeof(double));
if (temp == NULL)
mexErrMsgTxt("Cannot allocate necessary temporary space");
/*
printf("i(%d, %d), f(%d, %d), r(%d, %d), X(%d, %d, %d), Y(%d, %d, %d), %s\n",
x_idim,y_idim,x_fdim,y_fdim,x_rdim,y_rdim,
x_start,x_step,x_stop,y_start,y_step,y_stop,edges);
*/
/* Edited by Rajiv on April 10,2010
if (strcmp(edges,"circular") == 0)
internal_wrap_reduce(image, x_idim, y_idim, filt, x_fdim, y_fdim,
x_start, x_step, x_stop, y_start, y_step, y_stop,
result);
else internal_reduce(image, x_idim, y_idim, filt, temp, x_fdim, y_fdim,
x_start, x_step, x_stop, y_start, y_step, y_stop,
result, edges);*/
internal_reduce(image, x_idim, y_idim, filt, temp, x_fdim, y_fdim,
x_start, x_step, x_stop, y_start, y_step, y_stop,
result, edges);
/* End edit */
mxFree((char *) temp);
return;
}