// file: $isip/class/asr/Machine/mach_04.cc // // isip include files // #include "Machine.h" // method: write // // arguments: // Sof& sof: (input) sof file object // int32 tag: (input) sof object instance tag // const String& name: (input) sof object instance name // // return: bool8 value indicating status // // this method has the object write itself to an Sof file // bool8 Machine::write(Sof& sof_a, int32 tag_a, const String& name_a) const { int32 obj_size = 0; // write the instance of the object into the Sof file // if (sof_a.isText()) { // set the size to by dynamic // obj_size = Sof::ANY_SIZE; } else { // the size index and the size of each element // obj_size = sofSize(); } // write the object into the sof file's index // if (!sof_a.put(name_a, tag_a, obj_size)) { return false; } // exit gracefully // return writeData(sof_a); } // method: writeData // // arguments: // Sof& sof: (input) sof file object // const String& pname: (input) parameter name // // return: bool8 value indicating status // // this method has the object write itself to an Sof file. it assumes // that the Sof file is already positioned correctly. // bool8 Machine::writeData(Sof& sof_a, const String& pname_a) const { // write a start string if necessary // sof_a.writeLabelPrefix(pname_a); // write the protocol // PROTOCOL_MAP.writeElementData(sof_a, PARAM_PROTOCOL, (int32)protocol_d); // write the node name // node_name_d.writeData(sof_a, PARAM_NODE_NAME); // write the architecture // architecture_d.writeData(sof_a, PARAM_ARCHITECTURE); // write the number of processors // num_processors_d.writeData(sof_a, PARAM_NUM_PROCESSORS); // write the speed // speed_d.writeData(sof_a, PARAM_PROCESSOR_SPEED); // write the main memory // main_memory_d.writeData(sof_a, PARAM_MAIN_MEMORY); // write the swap memory // swap_memory_d.writeData(sof_a, PARAM_SWAP_MEMORY); // write the OS // os_d.writeData(sof_a, PARAM_OS_NAME); // write the OS version // os_version_d.writeData(sof_a, PARAM_OS_VERSION); // exit gracefully // return true; }