예제 #1
0
	void convolve(cv::Mat_<float> &im, const int axis, const float* kernel)
	{
		if(axis >= im.dims)
			throw std::invalid_argument("Matrix dimension is too small to convolve along this axis");
		assert(im.isContinuous());
		Convolver co(im.size[axis]);
		unsigned long int step = im.step1(axis);
		//whatever the real dimension, we fall back to a 3d situation where the axis of interest is y
		//and either x or z can be of size 1
		int nbplanes = 1;
		for(int d=0; d<axis; ++d)
			nbplanes *= im.size[d];
		int planestep = im.total()/nbplanes;
		//for each plane
		for(int i=0; i<nbplanes; ++i)
			//for each line
			for(size_t j=0; j<step; ++j)
				co(reinterpret_cast<float*>(im.data) + i*planestep + j, step, kernel);
	}
예제 #2
0
	std::vector<float> get_spectrum_1d(const cv::Mat_<float> &im, const int axis, const bool windowing)
	{
		if(axis >= im.dims)
			throw std::invalid_argument("Matrix dimension is too small to compute the spectrum along this axis");
		assert(im.isContinuous());
		Convolver co(im.size[axis]);
		if(windowing)
			co.set_hanning();
		std::vector<float> spectrum(co.fourier_size());
		std::vector<double> tot(co.fourier_size(), 0.0);
		std::vector<std::complex<double> > totf(co.fourier_size(), 0.0);
		unsigned long int step = im.step1(axis);
		//whatever the real dimension, we fall back to a 3d situation where the axis of interest is y
		//and either x or z can be of size 1
		int nbplanes = 1;
		for(int d=0; d<axis; ++d)
			nbplanes *= im.size[d];
		int planestep = im.total()/nbplanes;
		//for each plane
		for(int i=0; i<nbplanes; ++i)
		{
			//for each line
			for(size_t j=0; j<step; ++j)
			{
				co.spectrum(reinterpret_cast<float* const>(im.data) + i*planestep + j, step, &spectrum[0]);
				for(size_t u=0; u<spectrum.size(); ++u)
					tot[u] += spectrum[u];
				for(size_t u=0; u<spectrum.size(); ++u)
					totf[u] += co.get_fourier()[u];
			}
		}
		const double icount = 1.0 / (nbplanes * step);
		for(size_t i=0; i<tot.size(); ++i)
			spectrum[i] = tot[i]*icount - std::norm(totf[i]*icount);
		return spectrum;
	}