int loadParameters(cv::String filepath) override
    {
        cv::FileStorage fs;
        //if user specified a pathfile, try to use it.
        if (!filepath.empty())
        {
            fs.open(filepath, cv::FileStorage::READ);
        }
        // If the file opened, read the parameters.
        if (fs.isOpened())
        {
            fs["borderX"] >> Param.borderX;
            fs["borderY"] >> Param.borderY;
            fs["corrWinSizeX"] >> Param.corrWinSizeX;
            fs["corrWinSizeY"] >> Param.corrWinSizeY;
            fs["correlationThreshold"] >> Param.correlationThreshold;
            fs["textrureThreshold"] >> Param.textrureThreshold;

            fs["neighborhoodSize"] >> Param.neighborhoodSize;
            fs["disparityGradient"] >> Param.disparityGradient;

            fs["lkTemplateSize"] >> Param.lkTemplateSize;
            fs["lkPyrLvl"] >> Param.lkPyrLvl;
            fs["lkTermParam1"] >> Param.lkTermParam1;
            fs["lkTermParam2"] >> Param.lkTermParam2;

            fs["gftQualityThres"] >> Param.gftQualityThres;
            fs["gftMinSeperationDist"] >> Param.gftMinSeperationDist;
            fs["gftMaxNumFeatures"] >> Param.gftMaxNumFeatures;
            fs.release();
            return 1;
        }
Exemple #2
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static void glob_rec(const cv::String& directory, const cv::String& wildchart, std::vector<cv::String>& result, bool recursive)
{
    DIR *dir;
    struct dirent *ent;

    if ((dir = opendir (directory.c_str())) != 0)
    {
        /* find all the files and directories within directory */
        try
        {
            while ((ent = readdir (dir)) != 0)
            {
                const char* name = ent->d_name;
                if((name[0] == 0) || (name[0] == '.' && name[1] == 0) || (name[0] == '.' && name[1] == '.' && name[2] == 0))
                    continue;

                cv::String path = directory + native_separator + name;

                if (isDir(path, dir))
                {
                    if (recursive)
                        glob_rec(path, wildchart, result, recursive);
                }
                else
                {
                    if (wildchart.empty() || wildcmp(name, wildchart.c_str()))
                        result.push_back(path);
                }
            }
        }
        catch (...)
        {
            closedir(dir);
            throw;
        }
        closedir(dir);
    }
    else CV_Error(CV_StsObjectNotFound, cv::format("could not open directory: %s", directory.c_str()));
}
Exemple #3
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cv::String CameraWrapperConnector::getPathLibFolder()
{
    if (!pathLibFolder.empty())
        return pathLibFolder;

    Dl_info dl_info;
    if(0 != dladdr((void *)nextFrame, &dl_info))
    {
        LOGD("Library name: %s", dl_info.dli_fname);
        LOGD("Library base address: %p", dl_info.dli_fbase);

        const char* libName=dl_info.dli_fname;
        while( ((*libName)=='/') || ((*libName)=='.') )
        libName++;

        char lineBuf[2048];
        FILE* file = fopen("/proc/self/smaps", "rt");

        if(file)
        {
            while (fgets(lineBuf, sizeof lineBuf, file) != NULL)
            {
                //verify that line ends with library name
                int lineLength = strlen(lineBuf);
                int libNameLength = strlen(libName);

                //trim end
                for(int i = lineLength - 1; i >= 0 && isspace(lineBuf[i]); --i)
                {
                    lineBuf[i] = 0;
                    --lineLength;
                }

                if (0 != strncmp(lineBuf + lineLength - libNameLength, libName, libNameLength))
                {
                //the line does not contain the library name
                    continue;
                }

                //extract path from smaps line
                char* pathBegin = strchr(lineBuf, '/');
                if (0 == pathBegin)
                {
                    LOGE("Strange error: could not find path beginning in lin \"%s\"", lineBuf);
                    continue;
                }

                char* pathEnd = strrchr(pathBegin, '/');
                pathEnd[1] = 0;

                LOGD("Libraries folder found: %s", pathBegin);

                fclose(file);
                return pathBegin;
            }
            fclose(file);
            LOGE("Could not find library path");
        }
        else
        {
            LOGE("Could not read /proc/self/smaps");
        }
    }
    else
    {
        LOGE("Could not get library name and base address");
    }

    return cv::String();
}
Exemple #4
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// Detect faces in a photo
std::vector<FaceRect> detectFaces(cv::String inputName, cv::String cascadeName, double scale, bool infer = false) {
    cv::CascadeClassifier cascade;
	if (!cascade.load(cascadeName)) {
        std::cout << "error;Could not load classifier cascade. Filename: \"" << cascadeName << "\"" << std::endl;
	}

	if (inputName.empty()) {
        std::cout << "error;You must specify the file to process." << std::endl;
	}

    cv::Mat img = cv::imread(inputName, 1);
	if (img.empty()) {
        std::cout << "error;Could not load the file to process. Filename: \"" << inputName << "\"" << std::endl;
	}

    std::vector<cv::Rect> faces;
    cv::Size smallImgSize;
    static bool disableDnn;

#ifdef HAS_OPENCV_DNN
    disableDnn = faceDetectNet.empty();
#else
    disableDnn = true;
#endif
    if (disableDnn) {
        // Classical face detection
        cv::Mat gray;
        cvtColor(img, gray, CV_BGR2GRAY);

        cv::Mat smallImg(cvRound(img.rows / scale), cvRound(img.cols / scale), CV_8UC1);
        smallImgSize = smallImg.size();

        cv::resize(gray, smallImg, smallImgSize, 0, 0, cv::INTER_LINEAR);
        cv::equalizeHist(smallImg, smallImg);

        cascade.detectMultiScale(smallImg, faces, 1.1, 2, CV_HAAR_SCALE_IMAGE, cv::Size(30, 30));
    } else {
#ifdef HAS_OPENCV_DNN
        // DNN based face detection
        faces = detectFacesMat(img);
        smallImgSize = img.size(); // Not using the small image here
#endif
    }

    std::vector<FaceRect> scaled;
    for (std::vector<cv::Rect>::const_iterator r = faces.begin(); r != faces.end(); r++) {
        FaceRect i;
        i.x = (float) r->x / smallImgSize.width;
        i.y = (float) r->y / smallImgSize.height;
        i.width = (float) r->width / smallImgSize.width;
        i.height = (float) r->height / smallImgSize.height;
#ifdef HAS_OPENCV_DNN
        if (infer && !faceRecogNet.empty()) {
            // Get colour image for vector generation
            cv::Mat colourImg;
            cv::resize(img, colourImg, smallImgSize, 0, 0, cv::INTER_LINEAR);
            i.vec = faceToVecMat(colourImg(*r)); // Run vector conversion on the face
        } else {
            i.vec.assign(128, 0);
        }
#else
        i.vec.assign(128, 0);
#endif
        scaled.push_back(i);
    }

    return scaled;
}