// license:GPL-2.0+ // copyright-holders:Couriersud /* * nld_ms_direct1.h * */ #ifndef NLD_MS_DIRECT1_H_ #define NLD_MS_DIRECT1_H_ #include "solver/nld_ms_direct.h" #include "solver/nld_solver.h" namespace netlist { namespace devices { class matrix_solver_direct1_t: public matrix_solver_direct_t<1,1> { public: matrix_solver_direct1_t(netlist_t &anetlist, const pstring &name, const solver_parameters_t *params) : matrix_solver_direct_t<1, 1>(anetlist, name, params, 1) {} virtual int vsolve_non_dynamic(const bool newton_raphson) override; }; // ---------------------------------------------------------------------------------------- // matrix_solver - Direct1 // ---------------------------------------------------------------------------------------- inline int matrix_solver_direct1_t::vsolve_non_dynamic(ATTR_UNUSED const bool newton_raphson) { build_LE_A(); build_LE_RHS(); //NL_VERBOSE_OUT(("{1} {2}\n", new_val, m_RHS[0] / m_A[0][0]); nl_double new_val[1] = { RHS(0) / A(0,0) }; if (has_dynamic_devices()) { nl_double err = this->delta(new_val); store(new_val); if (err > m_params.m_accuracy ) return 2; else return 1; } store(new_val); return 1; } } //namespace devices } // namespace netlist #endif /* NLD_MS_DIRECT1_H_ */