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int main() {
int filterSize = 128;
int orientNum = 4;
int scaleStart = 3; // edited
int scaleFinish = 4; // edited
int scaleStep = 1;
int scaleNum = 1;
int imageSegments = 4;
int width=320;
int height=240;
int imgSize;
int bytesRead;
int numImages = 0;
unsigned char *imgData;
list<list<unsigned char*> > *gabors;
IplImage *gabImg, *gBuffer, *cur, *gPrev, *gCur, *diff, *binaryImg, *rotatedImg, *flippedImage, *extractedPortion;
// Sridhar added <start>
unsigned int count = 1;
char filename[100];
unsigned char *stimArray;
unsigned char *tmpImg;
unsigned char *sendStimulus;
char *loadStimulus;
int i, j;
int sort;
int resolution;
int min, max;
int sectionSize = 25;
int stimCount;
int stimArraySize;
// Sridhar added <end>
V4LStreamer *cam = new V4LStreamer(IO_METHOD_MMAP, "/dev/video0", true, width, height, 1, 4, V4L2_PIX_FMT_YUYV, V4L2_FIELD_INTERLACED, V4L2_STD_NTSC_M);
GaborFilter *gab = new GaborFilter(filterSize, orientNum, scaleStart, scaleFinish, scaleStep, scaleNum, imageSegments);
cur = cvCreateImage(cvSize(width, height), IPL_DEPTH_8U, 3);
gBuffer = cvCreateImage(cvSize(height, width), IPL_DEPTH_8U, 1);
gPrev = cvCreateImage(cvSize(width, height), IPL_DEPTH_8U, 1);
gCur = cvCreateImage(cvSize(width, height), IPL_DEPTH_8U, 1);
diff = cvCreateImage(cvSize(width, height), IPL_DEPTH_8U, 1);
gabImg = cvCreateImage(cvSize(filterSize, filterSize), IPL_DEPTH_8U, 1);
// Sridhar added <start>
flippedImage = cvCreateImage(cvSize(width, height), IPL_DEPTH_8U, 1);
extractedPortion = cvCreateImage(cvSize(filterSize, filterSize), IPL_DEPTH_8U, 1);
binaryImg = cvCreateImage(cvSize(filterSize, filterSize), IPL_DEPTH_8U, 1);
rotatedImg = cvCreateImage(cvSize(filterSize, filterSize), IPL_DEPTH_8U, 1);
resolution = gabImg->imageSize;
stimCount = abs(resolution/sectionSize) + 1;
stimArraySize = stimCount * sectionSize;
stimArray = new unsigned char[resolution];
tmpImg = new unsigned char[resolution];
loadStimulus = new char[stimArraySize];
sendStimulus = new unsigned char[sectionSize];
// Sridhar added <end>
imgSize = gPrev->imageSize;
imgData = new unsigned char[imgSize];
cvNamedWindow( "OpenCV Capture", CV_WINDOW_AUTOSIZE );
cam->startCapture();
//Sridhar added <start>
for(i = 0; i < resolution; i++)
stimArray[i] = 0;
for(i = 0; i < sectionSize; i++)
sendStimulus[i] = 0;
for(i = 0; i < stimArraySize; i++)
loadStimulus[i] = 0;
//Sridhar added <end>
for ( ; ; ) {
cam->readFrame(cur->imageData, bytesRead);
cvCvtColor(cur, gCur, CV_BGR2GRAY);
//gAbsDiff(gPrev, gCur, diff, width, height, width); // Used for sequence of frames
memcpy(diff->imageData, gCur->imageData, imgSize);
gFlip90(diff, gBuffer, width, height, height, width);
memcpy(imgData, gBuffer->imageData, imgSize);
gabors = gab->filter(imgData, gBuffer->height, gBuffer->width);
memcpy(gabImg->imageData, gabors->front().front(), filterSize*filterSize);
cvShowImage( "OpenCV Capture", gabImg);
// Sridhar added <start>
// Saving current frame grabbed by the camera
sprintf(filename,"./images/current_image_%d.png",count);
// cvSaveImage(filename, cur);
// Flip original image horizontally
flipOriginalImage(gCur, flippedImage, width, height, count);
// Extract central portion of the flipped image
extractCentralPortion(flippedImage, extractedPortion, filterSize, filterSize, width, height, count);
// Saving gabor filter image
sprintf(filename,"./images/gabor_image_%d.png",count);
// cvSaveImage(filename, gabImg);
//processColorImage(cur);
memcpy(stimArray, gabImg->imageData, resolution); // Array that needs to be modified
memcpy(tmpImg, stimArray, resolution); // Array that is used to sort the data and get maximum and minimum values of the array
// Sorting data in ascending order
for(i=0; i<resolution; i++)
{
for(j=i+1; j<resolution; j++)
{
if(tmpImg[i] > tmpImg[j])
{
sort = tmpImg[i];
tmpImg[i] = tmpImg[j];
tmpImg[j] = sort;
}
}
}
min = tmpImg[0];
max = tmpImg[resolution-1];
// Applying scaling factor to generate a binary image
for(i=0; i<resolution; i++)
{
stimArray[i] = 255.0 * abs((stimArray[i]-min)/(max-min));
}
// Transferring data to IplImage (binaryImg)
memcpy(binaryImg->imageData, stimArray, resolution);
// Saving binary result of the gabor filter image
sprintf(filename,"./images/binary_image_%d.png",count);
// cvSaveImage(filename, binaryImg);
// Rotate the gabor image by an angle
// rotate(gabImg, rotatedImg, count);
// Transforming data into binary format to send to NCS
for(i = 0; i < resolution; i++)
{
if(stimArray[i] == 255.0)
{
stimArray[i] = 1;
}
}
string s = string (stimArray);
cout << s;
// Press 'Esc' key to exit
if( (cvWaitKey(10) & 255) == 27 ) break;
cvReleaseImage(&gPrev);
gPrev = cvCloneImage(gCur);
numImages++;
printf("numImages: %d\n", numImages);
// Eliminate this if structure for capturing sequence of images
if(count == 1)
{
break;
}
count++;
// Sridhar added <end>
delete gabors;
}
cam->stopCapture();
cvDestroyWindow( "mywindow" );
return 0;
}
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