int perImgProcessing(const Mat img, const string faceDetectModel, const string detectionModelPath, 
					 const string trackingModelPath, const float ec_mc_y, const float ec_y, vecM &result)
{

	// face detection

#if OPENCV

	FACE_HANDLE face_detection_handle;
	int ret_fd_init = getDetectionHandle(&face_detection_handle, faceDetectModel);
	if(0 != ret_fd_init || NULL == &face_detection_handle) {
		cout << "Error init for face alignment!" << endl;
		return -1;
	}

	vecR rect;
	string error;
	int ret_fd = detectFace(face_detection_handle, img, rect, error);

	if(0 != ret_fd)
	{
		cout << error <<endl;
		return -1;
	}
#else


#endif

	// face alignment
	FACE_HANDLE face_alignment_handle;
	int ret_fa = getAlignmentHandle(&face_alignment_handle, detectionModelPath, trackingModelPath);
	if(0 != ret_fa || NULL == face_alignment_handle) {
		cout << "Error init for face alignment!" << endl;
		return -1;
	}

	for(int i = 0; i < rect.size(); ++i)
	{
		Mat temp;
		faceAlignment(face_alignment_handle, img, rect[i], ec_mc_y, ec_y, temp, error);
		/*if(0 != ret)
		{
			cout << error << endl;
			continue;
		}*/	
		result.push_back(temp);
	}

	releaseDetectionHandle(&face_detection_handle);
	releaseAlignmentHandle(&face_alignment_handle);

	return 0;
}
Example #2
0
// load format(imgW, i) and add information to the back of imgs and lens
void CmIllustr::LoadImgs(CStr &imgW, vecM &imgs, vecD &lens, int W, int H)
{
	bool toRow = W > H;
	double crnt = -space;
	if (imgs.size()){ // There exist a predefined image for sketch
		lens.push_back(toRow ? H*imgs[0].cols*1./imgs[0].rows : W*imgs[0].rows*1./imgs[0].cols);
		crnt += lens[0] + space;
	}

	for (int i = 0; i < 500; i++){
		string imgN = format(_S(imgW), i), inDir, maskN;
		vecS names;
		int subN = CmFile::GetNames(imgN, names, inDir);
		if (subN == 0)
			continue;
		Mat img = imread(inDir + names[0]);
		if (img.data == NULL){
			printf("Can't load image file %-70s\n", _S(names[0]));
			continue;
		}
		if (subN > 1){
			Mat mask1u = imread(inDir + names[1], CV_LOAD_IMAGE_GRAYSCALE), big1u;
			dilate(mask1u, big1u, Mat(), Point(-1, -1), 5);
			bitwise_xor(mask1u, big1u, mask1u);
			img.setTo(Scalar(0, 0, 255), mask1u);
		}

		lens.push_back(toRow ? H*img.cols*1./img.rows : W*img.rows*1./img.cols);
		imgs.push_back(img);
		crnt += lens[lens.size() - 1] + space;
		if (crnt >= max(H, W))
			break;
	}
	int num = imgs.size();
	if (num && abs(crnt - max(H,W)) > abs(crnt - lens[num - 1] - space - max(H,W)))
		imgs.resize(num - 1), lens.resize(num - 1);

	printf("%s: %d\n", _S(imgW), num);
	if (crnt < max(H, W))	{
		printf(_S(imgW + ": not enough images\n"));
		exit(0);
	}
}