#ifndef LIN_HH #define LIN_HH #include <iostream> #include "components.hh" // translated from lin.cr // one 2-port, R/C/I; two 2-port, TF/GY inline double lin(const component_t type, // parameters const causality_t gain_causality, const double gain, // output const causality_t out_causality, const int out_port, // input const double input, const causality_t in_causality, const int in_port) { if (out_port == in_port) { // R/C/I if (gain_causality == in_causality) { return input * gain; } else { return input / gain; } } else { // GY/TF if (out_causality == in_causality) { // gyrator if ((out_port == 1 && out_causality != gain_causality) ||(out_port == 2 && out_causality == gain_causality)) { return input * gain; } else { return input / gain; } } else { // transformer if (out_causality == gain_causality) { return input * gain; } else { return input / gain; } } } } // two 2-port, AE/AF inline double lin(const component_t type, // parameters const double gain, // output const causality_t out_causality, const int out_port, // input const double input, const causality_t in_causality, const int in_port) { return (out_port == 1) ? input * gain : input / gain; } // three 2-port, FMR inline double lin(const component_t type, // parameters const causality_t gain_causality, const double gain, // output const causality_t out_causality, const int out_port, // input const double input, const causality_t in_causality, const int in_port, const double modulation, const causality_t mod_causality, const int mod_port) { if (mod_causality == flow) { // uni-causal if (out_port == 2) { return 0; } else { double k = 1.0; if (gain_causality == in_causality) { k *= gain; } else { k /= gain; } if (in_causality == effort) { k *= modulation; } else { k /= modulation; } return input * k; } } else { // bi-causal if ((in_causality == effort) &&(mod_causality == flow) &&(gain_causality == effort) &&(in_port == 1) &&(mod_port == 1)) { return (input / modulation) / gain; } else { // three 2-port, EMTF if ((out_causality == gain_causality && out_port == 2) ||(out_causality != gain_causality && out_port == 1)) { return input * gain * modulation; } else if((out_causality != gain_causality && out_port == 2) ||(out_causality == gain_causality && out_port == 1)) { return input / (gain * modulation); } else { std::cerr << "* Error: __FILE__ does not cover this case" << std::endl; exit(-1); } } // EMTF } // bi-causal } #endif // LIN_HH