void act() { while (true) { cout << "MemAdaptor: waiting for requests..." << endl; // wait for a request to come while (req.read() != true) wait(); // request now accepted address_t memaddr = addr.read(); // read recipient address // SIZE request? if (memsize.read() == true) { // SIZE request! cout << "MemAdaptor: SIZE request income, processing..."; addr.write(memory->size()); cout << " done." << endl; goto act_oper_ok; } // READ request? if (r_w.read() == true) { // READ request! cout << "MemAdaptor: READ request income, processing..."; char val; try { memory->read(val, memaddr); } catch (std::runtime_error &e) { // an error occurred, reporting on the bus goto act_oper_err; } data.write(val); cout << " done." << endl; goto act_oper_ok; } // in any other case.. // WRITE request! cout << "MemAdaptor: WRITE request income, processing..."; try { memory->write(data.read(), memaddr); } catch (std::runtime_error &e) { // an error occurred, reporting on the bus goto act_oper_err; } cout << " done." << endl; goto act_oper_ok; act_oper_err: // an error happened operating the service err.write(true); while (req.read() != false) wait(); err.write(false); continue; act_oper_ok: // service went ok ack.write(true); // request served // wait for peer assertion while (req.read() != false) wait(); ack.write(false); // terminate the operation } }
void process() { if (isHead == false) { while (in.read() == false) { #ifdef KASCPAR wait(5, SC_NS); #else //sc_core::wait(5, SC_NS); #endif } } notified = true; out.write(true); }
void test::reset_loop() { sc_uint<16> tmp; sc_uint<8> inp; done = 0; dato = 0; tmp = 0; wait(); operational_loop : while (1 != 0) { inp = dati.read(); wait(); tc_mult_8x8( inp, -2, tmp); wait(); done_loop: while (1) { dato = tmp; done = 1; wait(); } } }
void run(){ while(true){ cout << " Output sequence is: " << z.read() << " @" << sc_time_stamp() << endl; wait(); } }
void foo::entry() { c = f(a.read(), b.read()); wait(); }