child.second->setInitState();
}
+ void setState(std::vector<std::pair<SigBit,bool>> bits, std::string values)
+ {
+ for(size_t i=0;i<bits.size();i++) {
+ switch(values.at(i)) {
+ case '0' : set_state(bits.at(i).first,bits.at(i).second ? State::S1 : State::S0); break;
+ case '1' : set_state(bits.at(i).first,bits.at(i).second ? State::S0 : State::S1); break;
+ default:
+ set_state(bits.at(i).first,State::Sx); break;
+ }
+ }
+ }
+
bool checkSignals()
{
bool retVal = false;
pool<IdString> clock, clockn, reset, resetn;
std::string timescale;
std::string sim_filename;
+ std::string map_filename;
std::string scope;
~SimWorker()
top->writeback(wbmods);
}
}
+
+ void run_cosim_witness(Module *topmod)
+ {
+ log_assert(top == nullptr);
+ std::ifstream mf(map_filename);
+ std::string type, symbol;
+ int variable, index;
+ std::vector<std::pair<SigBit,bool>> inputs;
+ std::vector<std::pair<SigBit,bool>> latches;
+ while (mf >> type >> variable >> index >> symbol) {
+ RTLIL::IdString escaped_s = RTLIL::escape_id(symbol);
+ Wire *w = topmod->wire(escaped_s);
+ if (!w)
+ log_error("Wire %s not present in module %s\n",log_signal(w),log_id(topmod));
+ if (index < w->start_offset || index > w->start_offset + w->width)
+ log_error("Index %d for wire %s is out of range\n", index, log_signal(w));
+ if (type == "input") {
+ inputs.emplace_back(SigBit(w,index),false);
+ } else if (type == "latch") {
+ latches.emplace_back(SigBit(w,index),false);
+ } else if (type == "invlatch") {
+ latches.emplace_back(SigBit(w,index),true);
+ }
+ }
+
+ std::ifstream f;
+ f.open(sim_filename.c_str());
+ if (f.fail() || GetSize(sim_filename) == 0)
+ log_error("Can not open file `%s`\n", sim_filename.c_str());
+
+ bool init = true;
+ int cycle = 0;
+ top = new SimInstance(this, scope, topmod);
+ while (!f.eof())
+ {
+ std::string line;
+ std::getline(f, line);
+ if (line.size()==0 || line[0]=='#') continue;
+ log("Simulating cycle %d.\n", cycle);
+ if (init) {
+ if (line.size()!=latches.size())
+ log_error("Wrong number of initialization bits in file.\n");
+ write_output_header();
+ top->setState(latches, line);
+ set_inports(clock, State::S0);
+ set_inports(clockn, State::S1);
+ update();
+ write_output_step(0);
+ init = false;
+ } else {
+ if (line.size()!=inputs.size())
+ log_error("Wrong number of input data bits in file.\n");
+ top->setState(inputs, line);
+ set_inports(clock, State::S1);
+ set_inports(clockn, State::S0);
+ update();
+ write_output_step(10*cycle);
+ set_inports(clock, State::S0);
+ set_inports(clockn, State::S1);
+ update();
+ write_output_step(10*cycle + 5);
+ }
+ cycle++;
+ }
+ write_output_step(10*cycle);
+ write_output_end();
+ }
};
struct SimPass : public Pass {
log(" -r\n");
log(" read simulation results file (file formats supported: FST)\n");
log("\n");
+ log(" -map <filename>\n");
+ log(" read file with port and latch symbols, needed for AIGER witness input\n");
+ log("\n");
log(" -scope\n");
log(" scope of simulation top model\n");
log("\n");
worker.sim_filename = sim_filename;
continue;
}
+ if (args[argidx] == "-map" && argidx+1 < args.size()) {
+ std::string map_filename = args[++argidx];
+ rewrite_filename(map_filename);
+ worker.map_filename = map_filename;
+ continue;
+ }
if (args[argidx] == "-scope" && argidx+1 < args.size()) {
worker.scope = args[++argidx];
continue;
if (worker.sim_filename.empty())
worker.run(top_mod, numcycles);
else
- worker.run_cosim(top_mod, numcycles);
+ if (worker.map_filename.empty())
+ worker.run_cosim(top_mod, numcycles);
+ else
+ worker.run_cosim_witness(top_mod);
}
} SimPass;