I ve converted a computationally expensive part of my Matlab code into a C mex file, which greatly speeded up the calculation. The problem is that in some runs the C mex code gives exactly the same result as the Matlab code (within the machine accuracy), whereas in some others there is a significant discrepancy between the two (reaching even 1e-3). Furthermore, there are times that the C mex code disagrees with itself by giving in consecutive runs different results with exactly the same inputs. I guess that the problem is probably caused by some incorrect memory handling due to my programming. This is highly likely as thats my first attempt to create a C mex file.

I attach my mexFunction which calls another C function (in the same file) to perform the calculations. I would be grateful if you could give me some insight on my problem. Please let me know if you need any other part of the code.

Thanks in advance,

Panos

```
void BladeElementGC(const mwIndex InterestBE, const mwIndex BladeElement,
const double *WakeXYZ, const double *RQuarter, const double *BE_RControl, const double *BE_Gamma,
const mwSize NoOfBlades, const mwSize NoOfFilaments, const mwSize NoOfSegments, const mwSize NoOfWakeItems,
const mwSize NoOfElements,
const double conf_CompressibleBiot, const double conf_M, const double conf_CompressibleWakeMachMax,
const double conf_VortexCoreOffset,
const double conf_VortexDelta,
const double conf_kin_visc,
const double conf_VatistasN,
const double conf_BoundVorticity,
double *GCBladeElement)
{
mwIndex Filament;
double Temp1[3], Temp2[3], Temp3[3];
GCBladeElement[0] = 0.;
GCBladeElement[1] = 0.;
GCBladeElement[2] = 0.;
Filament = BladeElement;
TrailingFilamentGC(InterestBE, Filament,
WakeXYZ, BE_RControl, BE_Gamma,
NoOfBlades, NoOfFilaments, NoOfSegments, NoOfWakeItems,
NoOfElements,
conf_CompressibleBiot, conf_M, conf_CompressibleWakeMachMax,
conf_VortexCoreOffset,
conf_VortexDelta,
conf_kin_visc,
conf_VatistasN,
Temp1);
TrailingFilamentGC(InterestBE, Filament+1,
WakeXYZ, BE_RControl, BE_Gamma,
NoOfBlades, NoOfFilaments, NoOfSegments, NoOfWakeItems,
NoOfElements,
conf_CompressibleBiot, conf_M, conf_CompressibleWakeMachMax,
conf_VortexCoreOffset,
conf_VortexDelta,
conf_kin_visc,
conf_VatistasN,
Temp2);
if (conf_BoundVorticity>0)
{
BoundElementGC(InterestBE, BladeElement,
WakeXYZ, RQuarter, BE_RControl, BE_Gamma,
NoOfBlades, NoOfFilaments, NoOfSegments, NoOfWakeItems,
NoOfElements,
conf_CompressibleBiot, conf_M, conf_CompressibleWakeMachMax,
conf_VortexCoreOffset,
conf_VortexDelta,
conf_kin_visc,
conf_VatistasN,
Temp3);
}
else
{
Temp3[0] = 0.;
Temp3[1] = 0.;
Temp3[2] = 0.;
}
GCBladeElement[0] = Temp2[0] - Temp1[0] + Temp3[0];
GCBladeElement[1] = Temp2[1] - Temp1[1] + Temp3[1];
GCBladeElement[2] = Temp2[2] - Temp1[2] + Temp3[2];
}
/* The gateway function */
void mexFunction( int nlhs, mxArray *plhs[],
int nrhs, const mxArray *prhs[])
{
mwIndex InterestBE;
mwIndex BladeElement;
double *WakeXYZ;
double *RQuarter;
double *BE_RControl;
double *BE_Gamma;
double *GCBladeElement;
const mwSize *dimsWakeXYZ;
const mwSize *dimsBE_RControl;
mwSize NoOfBlades, NoOfFilaments, NoOfSegments, NoOfWakeItems;
mwSize NoOfElements, NoOfDimensions;
double p_CompressibleBiot;
double *p_M;
double *p_CompressibleWakeMachMax;
mwSize p_WakePointsNo;
double p_BoundVorticity;
double *p_VortexCoreOffset;
double *p_VortexDelta;
double *p_kin_visc;
double *p_VatistasN;
//----------------------------------------------------------
// First retrieve inputs
//----------------------------------------------------------
/* Get the value of the scalar input InterestBE */
InterestBE = (mwIndex)mxGetScalar(prhs[0]);
/* Get the value of the scalar input Filament */
BladeElement = (mwIndex)mxGetScalar(prhs[1]);
/* create a pointer to the real data in the WakeXYZ matrix */
WakeXYZ = mxGetPr(prhs[2]);
/* create a pointer to the real data in the RQuarter matrix */
RQuarter = mxGetPr(prhs[3]);
/* create a pointer to the real data in the BE_RControl matrix */
BE_RControl = mxGetPr(prhs[4]);
/* create a pointer to the real data in the BE_RControl matrix */
BE_Gamma = mxGetPr(prhs[5]);
/* create pointers to the fields of the conf structure */
p_CompressibleBiot = mxGetScalar(mxGetField(prhs[6], 0, "CompressibleBiot"));
p_M = mxGetPr(mxGetField(prhs[6], 0, "M"));
p_CompressibleWakeMachMax = mxGetPr(mxGetField(prhs[6], 0, "CompressibleWakeMachMax"));
p_VortexCoreOffset = mxGetPr(mxGetField(prhs[6], 0, "VortexCoreOffset"));
p_VortexDelta = mxGetPr(mxGetField(prhs[6], 0, "VortexDelta"));
p_kin_visc = mxGetPr(mxGetField(prhs[6], 0, "kin_visc"));
p_VatistasN = mxGetPr(mxGetField(prhs[6], 0, "VatistasN"));
p_WakePointsNo = (mwSize)mxGetScalar(mxGetField(prhs[6],0,"WakePoints"));
p_BoundVorticity = mxGetScalar(mxGetField(prhs[6],0,"BoundVorticity"));
// Get the dimensions of the WakeXYZ array
dimsWakeXYZ = mxGetDimensions(prhs[2]);
// Get the dimensions of the BE_RControl array
dimsBE_RControl = mxGetDimensions(prhs[4]);
NoOfBlades = dimsWakeXYZ[0];
NoOfFilaments = dimsWakeXYZ[1];
NoOfSegments = dimsWakeXYZ[2];
NoOfWakeItems = dimsWakeXYZ[3];
NoOfElements = dimsBE_RControl[1];
//----------------------------------------------------------
// Call the calculation subroutine
//----------------------------------------------------------
/* create the output matrix */
plhs[0] = mxCreateDoubleMatrix(1,3,mxREAL);
GCBladeElement = mxGetPr(plhs[0]);
BladeElementGC(InterestBE, BladeElement,
WakeXYZ, RQuarter, BE_RControl, BE_Gamma,
NoOfBlades, NoOfFilaments, NoOfSegments, NoOfWakeItems,
NoOfElements,
p_CompressibleBiot, *p_M, *p_CompressibleWakeMachMax,
*p_VortexCoreOffset,
*p_VortexDelta,
*p_kin_visc,
*p_VatistasN,
p_BoundVorticity,
GCBladeElement);
}
```

`mxGetPr`

, so try doing that. How does BladeElementGC assign GCBladeElement? Finally, inside BladeElementGC can you print all the input variables and check if they're getting passed correctly all the time? – Ansari Jun 16 '12 at 16:07