Mercurial > hg > aimc
view branches/carfac_cpp/src/CAR.cpp @ 586:f3dde307f4b8
some refactoring
| author | Ulf.Hammarqvist@gmail.com |
|---|---|
| date | Thu, 11 Oct 2012 20:55:03 +0000 |
| parents | 9c4c3675c3f8 |
| children | d59c0d65624b |
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#include "CAR.h" #include "CARFAC_common.h" #include "CARFAC.h" #include <cmath> CAR_parameters::CAR_parameters(): velocity_scale_(0.2), v_offset_(0.01), v2_corner_(0.2), v_damp_max_(0.01), min_zeta_(0.10), first_pole_theta_(0.085*kPi), zero_ratio_(sqrt(2)), high_f_damping_compression_(0.5), erb_per_step_(0.5), min_pole_hz_(30), erb_break_freq_(kDefaultErbBreakFreq), erb_q_(kDefaultErbQ) { // do nothing more! } CAR_coefficients::CAR_coefficients(CAR_parameters* car_params_p, float fs, FloatArray pole_freqs) { float f = pow(car_params_p->zero_ratio_, 2) + 1; // TODO: dirty FloatArray initialization. r1_coeffs_= pole_freqs; a0_coeffs_= pole_freqs; c0_coeffs_= pole_freqs; h_coeffs_= pole_freqs; g0_coeffs_= pole_freqs; zr_coeffs_= pole_freqs; FloatArray theta = pole_freqs; float min_zeta_mod; float x; float ff = car_params_p->high_f_damping_compression_; // TODO: temp loop until we get eigen in (or we just leave it like this) for(float i=0; i<pole_freqs.size(); i++){ theta[i] *= (2*kPi*fs); // scalar mult. c0_coeffs_[i] = sin(theta[i]); a0_coeffs_[i] = cos(theta[i]); x = theta[i]/kPi; zr_coeffs_[i] = kPi * (x - ff * x*x*x); min_zeta_mod = (car_params_p->min_zeta_ + 0.25 * (CARFAC::ERB_Hz( pole_freqs[i], car_params_p->erb_break_freq_, car_params_p->erb_q_) / pole_freqs[i] - car_params_p->min_zeta_)); r1_coeffs_[i] = 1-zr_coeffs_[i]*min_zeta_mod; h_coeffs_[i] = c0_coeffs_[i] * f; //TODO: g0_coeffs_ calculated here for now. Let's talk about this, need // to see the whole picture of what makes sense. // Related: I believe CAR, IHC and AGC classes would be beneficial! float tmp = 1 - 2*r1_coeffs_[i]*a0_coeffs_[i] + r1_coeffs_[i]*r1_coeffs_[i]; g0_coeffs_[i] = tmp / ( tmp + h_coeffs_[i]*r1_coeffs_[i]*c0_coeffs_[i]); } }