Ejemplo n.º 1
0
ATTR_COLD void matrix_solver_t::setup_base(analog_net_t::list_t &nets)
{
	log().debug("New solver setup\n");

	m_nets.clear();
	m_terms.clear();

	for (auto & net : nets)
	{
		m_nets.push_back(net);
		m_terms.push_back(palloc(terms_t));
		m_rails_temp.push_back(palloc(terms_t));
	}

	for (std::size_t k = 0; k < nets.size(); k++)
	{
		log().debug("setting up net\n");

		analog_net_t *net = nets[k];

		net->m_solver = this;

		for (core_terminal_t *p : net->m_core_terms)
		{
			log().debug("{1} {2} {3}\n", p->name(), net->name(), (int) net->isRailNet());
			switch (p->type())
			{
				case terminal_t::TERMINAL:
					switch (p->device().family())
					{
						case device_t::CAPACITOR:
							if (!m_step_devices.contains(&p->device()))
								m_step_devices.push_back(&p->device());
							break;
						case device_t::BJT_EB:
						case device_t::DIODE:
						case device_t::LVCCS:
						case device_t::BJT_SWITCH:
							log().debug("found BJT/Diode/LVCCS\n");
							if (!m_dynamic_devices.contains(&p->device()))
								m_dynamic_devices.push_back(&p->device());
							break;
						default:
							break;
					}
					{
						terminal_t *pterm = dynamic_cast<terminal_t *>(p);
						add_term(k, pterm);
					}
					log().debug("Added terminal\n");
					break;
				case terminal_t::INPUT:
					{
						analog_output_t *net_proxy_output = nullptr;
						for (auto & input : m_inps)
							if (input->m_proxied_net == &p->net().as_analog())
							{
								net_proxy_output = input;
								break;
							}

						if (net_proxy_output == nullptr)
						{
							//net_proxy_output = palloc(analog_output_t(*this,
							//      this->name() + "." + pfmt("m{1}")(m_inps.size())));

							net_proxy_output = palloc(analog_output_t);
							net_proxy_output->init_object(*this, this->name() + "." + pfmt("m{1}")(m_inps.size()));
							m_inps.push_back(net_proxy_output);
							net_proxy_output->m_proxied_net = &p->net().as_analog();
						}
						net_proxy_output->net().register_con(*p);
						// FIXME: repeated
						net_proxy_output->net().rebuild_list();
						log().debug("Added input\n");
					}
					break;
				default:
					log().fatal("unhandled element found\n");
					break;
			}
		}
		log().debug("added net with {1} populated connections\n", net->m_core_terms.size());
	}

	/* now setup the matrix */
	setup_matrix();
}
Ejemplo n.º 2
0
ATTR_COLD void matrix_solver_t::setup(analog_net_t::list_t &nets)
{
	NL_VERBOSE_OUT(("New solver setup\n"));

	m_nets.clear();

	for (std::size_t k = 0; k < nets.size(); k++)
	{
		m_nets.add(nets[k]);
	}

	for (std::size_t k = 0; k < nets.size(); k++)
	{
		NL_VERBOSE_OUT(("setting up net\n"));

		analog_net_t *net = nets[k];

		net->m_solver = this;

		for (std::size_t i = 0; i < net->m_core_terms.size(); i++)
		{
			core_terminal_t *p = net->m_core_terms[i];
			NL_VERBOSE_OUT(("%s %s %d\n", p->name().cstr(), net->name().cstr(), (int) net->isRailNet()));
			switch (p->type())
			{
				case terminal_t::TERMINAL:
					switch (p->device().family())
					{
						case device_t::CAPACITOR:
							if (!m_step_devices.contains(&p->device()))
								m_step_devices.add(&p->device());
							break;
						case device_t::BJT_EB:
						case device_t::DIODE:
						case device_t::LVCCS:
						case device_t::BJT_SWITCH:
							NL_VERBOSE_OUT(("found BJT/Diode/LVCCS\n"));
							if (!m_dynamic_devices.contains(&p->device()))
								m_dynamic_devices.add(&p->device());
							break;
						default:
							break;
					}
					{
						terminal_t *pterm = dynamic_cast<terminal_t *>(p);
						add_term(k, pterm);
					}
					NL_VERBOSE_OUT(("Added terminal\n"));
					break;
				case terminal_t::INPUT:
					{
						analog_output_t *net_proxy_output = NULL;
						for (std::size_t i = 0; i < m_inps.size(); i++)
							if (m_inps[i]->m_proxied_net == &p->net().as_analog())
							{
								net_proxy_output = m_inps[i];
								break;
							}

						if (net_proxy_output == NULL)
						{
							net_proxy_output = palloc(analog_output_t);
							net_proxy_output->init_object(*this, this->name() + "." + pstring::sprintf("m%" SIZETFMT, SIZET_PRINTF(m_inps.size())));
							m_inps.add(net_proxy_output);
							net_proxy_output->m_proxied_net = &p->net().as_analog();
						}
						net_proxy_output->net().register_con(*p);
						// FIXME: repeated
						net_proxy_output->net().rebuild_list();
						NL_VERBOSE_OUT(("Added input\n"));
					}
					break;
				default:
					netlist().error("unhandled element found\n");
					break;
			}
		}
		NL_VERBOSE_OUT(("added net with %" SIZETFMT " populated connections\n", net->m_core_terms.size()));
	}

}