//<Summary> //get value from a simulation //</Summary> public override void recvFromSim(sinter_Sim o_sim) { //this reads back the inputs // It's handy for default generation. // try // { if (!isSetting) { if (type == sinter_IOType.si_DY_DOUBLE) { o_value = o_sim.recvValueFromSim <double>(addressStrings[0]); ((double[])o_TimeSeriesValues)[o_TimeSeriesIndex] = (double)o_value; //Store it properly in the timevalues } else if (type == sinter_IOType.si_DY_INTEGER) { o_value = o_sim.recvValueFromSim <int>(addressStrings[0]); ((int[])o_TimeSeriesValues)[o_TimeSeriesIndex] = (int)o_value; //Store it properly in the timevalues } else if (type == sinter_IOType.si_DY_STRING) { o_value = o_sim.recvValueFromSim <String>(addressStrings[0]); ((string[])o_TimeSeriesValues)[o_TimeSeriesIndex] = (string)o_value; //Store it properly in the timevalues } } }
//<Summary> //get value from a simulation //</Summary> public virtual void recvFromSim(sinter_Sim o_sim) { //this reads back the inputs // It's handy for default generation. // try // { if (!isSetting) { if (type == sinter_IOType.si_DOUBLE) { o_value = o_sim.recvValueFromSim <double>(addressStrings[0]); } else if (type == sinter_IOType.si_INTEGER) { o_value = o_sim.recvValueFromSim <int>(addressStrings[0]); } else if (type == sinter_IOType.si_STRING) { o_value = o_sim.recvValueFromSim <String>(addressStrings[0]); } } }