int main () { DFHack::Process * p; unsigned int i; DFHack::ContextManager DFMgr("Memory.xml"); DFHack::Context * DF; try { DF = DFMgr.getSingleContext(); DF->Attach(); } catch (exception& e) { cerr << e.what() << endl; #ifndef LINUX_BUILD cin.ignore(); #endif return 1; } DFHack::VersionInfo * mem = DF->getMemoryInfo(); p = DF->getProcess(); uint32_t item_vec_offset = 0; try { item_vec_offset = p->getDescriptor()->getAddress ("items_vector"); } catch(DFHack::Error::AllMemdef & e) { cerr << "missing offset for the item vector, exiting :(" << endl; #ifndef LINUX_BUILD cin.ignore(); #endif return 1; } DFHack::DfVector <uint32_t> p_items (p, item_vec_offset); uint32_t size = p_items.size(); int numtasked = 0; for (i=0;i<size;i++) { DFHack::t_itemflags flags; flags.whole = p->readDWord(p_items[i] + 0x0C); if (flags.bits.in_job) { flags.bits.in_job = 0; p->writeDWord(p_items[i] + 0x0C, flags.whole); numtasked++; } } cout << "Found and untasked " << numtasked << " items." << endl; #ifndef LINUX_BUILD cout << "Done. Press any key to continue" << endl; cin.ignore(); #endif return 0; }
int main ( int argc, char** argv ) { DFHack::memory_info *mem; DFHack::Process *proc; uint32_t creature_pregnancy_offset; //bool femaleonly = 0; bool showcreatures = 0; int maxpreg = 1000; // random start value, since its not required and im not sure how to set it to infinity list<string> s_creatures; // parse input, handle this nice and neat before we get to the connecting argstream as(argc,argv); as // >>option('f',"female",femaleonly,"Impregnate females only") >>option('s',"show",showcreatures,"Show creature list (read only)") >>parameter('m',"max",maxpreg,"The maximum limit of pregnancies ", false) >>values<string>(back_inserter(s_creatures), "any number of creatures") >>help(); // make the creature list unique s_creatures.unique(); if (!as.isOk()) { cout << as.errorLog(); return(0); } else if (as.helpRequested()) { cout<<as.usage()<<endl; return(1); } else if(showcreatures==1) { } else if (s_creatures.size() == 0 && showcreatures != 1) { cout << as.usage() << endl << "---------------------------------------" << endl; cout << "Creature list empty, assuming CATs" << endl; s_creatures.push_back("CAT"); } DFHack::ContextManager DFMgr("Memory.xml"); DFHack::Context *DF; try { DF = DFMgr.getSingleContext(); DF->Attach(); } catch (exception& e) { cerr << e.what() << endl; #ifndef LINUX_BUILD cin.ignore(); #endif return 1; } proc = DF->getProcess(); mem = DF->getMemoryInfo(); DFHack::Materials *Mats = DF->getMaterials(); DFHack::Creatures *Cre = DF->getCreatures(); creature_pregnancy_offset = mem->getOffset("creature_pregnancy"); if(!Mats->ReadCreatureTypesEx()) { cerr << "Can't get the creature types." << endl; #ifndef LINUX_BUILD cin.ignore(); #endif return 1; } uint32_t numCreatures; if(!Cre->Start(numCreatures)) { cerr << "Can't get creatures" << endl; #ifndef LINUX_BUILD cin.ignore(); #endif return 1; } int totalcount=0; int totalchanged=0; string sextype; // shows all the creatures and returns. int maxlength = 0; map<string, vector <t_creature> > male_counts; map<string, vector <t_creature> > female_counts; // classify for(uint32_t i =0;i < numCreatures;i++) { DFHack::t_creature creature; Cre->ReadCreature(i,creature); DFHack::t_creaturetype & crt = Mats->raceEx[creature.race]; string castename = crt.castes[creature.sex].rawname; if(castename == "FEMALE") { female_counts[Mats->raceEx[creature.race].rawname].push_back(creature); male_counts[Mats->raceEx[creature.race].rawname].size(); } else // male, other, etc. { male_counts[Mats->raceEx[creature.race].rawname].push_back(creature); female_counts[Mats->raceEx[creature.race].rawname].size(); //auto initialize the females as well } } // print (optional) if (showcreatures == 1) { cout << "Type\t\tMale #\tFemale #" << endl; for(map<string, vector <t_creature> >::iterator it1 = male_counts.begin();it1!=male_counts.end();it1++) { cout << it1->first << "\t\t" << it1->second.size() << "\t" << female_counts[it1->first].size() << endl; } } // process for (list<string>::iterator it = s_creatures.begin(); it != s_creatures.end(); ++it) { std::string clinput = *it; std::transform(clinput.begin(), clinput.end(), clinput.begin(), ::toupper); vector <t_creature> &females = female_counts[clinput]; uint32_t sz_fem = females.size(); totalcount += sz_fem; for(uint32_t i = 0; i < sz_fem && totalchanged != maxpreg; i++) { t_creature & female = females[i]; uint32_t preg_timer = proc->readDWord(female.origin + creature_pregnancy_offset); if(preg_timer != 0) { proc->writeDWord(female.origin + creature_pregnancy_offset, rand() % 100 + 1); totalchanged++; } } } cout << totalchanged << " pregnancies accelerated. Total creatures checked: " << totalcount << "." << endl; Cre->Finish(); DF->Detach(); #ifndef LINUX_BUILD cout << "Done. Press any key to continue" << endl; cin.ignore(); #endif return 0; }