Exemplo n.º 1
0
	//puts an additional worker into industry, to prevent not finishing the project because
	//industry prod decreased due to loss of moral
	void SafeMoral()
	{
		const CAssemblyList& assembly_list = *m_pSystem->GetAssemblyList();
		AssertBotE(m_WorkersLeftToSet >= 0);
		if(assembly_list.IsEmpty() || m_WorkersLeftToSet == 0)
			return;
		const int max_buildings = m_pSystem->GetNumberOfWorkbuildings(WORKER::INDUSTRY_WORKER, 0);
		if(m_pSystem->GetWorker(WORKER::INDUSTRY_WORKER) < max_buildings)
			SetWorker(WORKER::INDUSTRY_WORKER, CSystem::SET_WORKER_MODE_INCREMENT);
	}
Exemplo n.º 2
0
	//fills all remaining empty buildings of the given cathegory, only considering available workers and buildings
	bool FillRemainingSlots(WORKER::Typ type)
	{
		AssertBotE(m_WorkersLeftToSet >= 0);
		if(m_WorkersLeftToSet == 0)
			return false;
		m_WorkersLeftToSet += m_pSystem->GetWorker(type);
		m_pSystem->SetWorker(type, CSystem::SET_WORKER_MODE_SET, 0);
		const int buildings = m_pSystem->GetNumberOfWorkbuildings(type, 0);
		const int to_set = min(buildings, m_WorkersLeftToSet);
		SetWorker(type, CSystem::SET_WORKER_MODE_SET,to_set);
		return true;
	}
Exemplo n.º 3
0
	//Indreases workers in cathegories energy and food until we produce enough to suffice for the consumption we have
	bool IncreaseWorkersUntilSufficient(WORKER::Typ type, bool allow_insufficient)
	{
		AssertBotE(type == WORKER::ENERGY_WORKER || type == WORKER::FOOD_WORKER);
		if(m_pSystem->GetDisabledProductions()[type])
			return true;
		while(true)
		{
			const int value = (type == WORKER::ENERGY_WORKER) ? m_pProd->GetEnergyProd() : m_pProd->GetFoodProd();
			if(value >= 0)
				return true;
			if(m_WorkersLeftToSet <= 0)
				return allow_insufficient;
			const int number_of_buildings = m_pSystem->GetNumberOfWorkbuildings(type, 0);
			const int workers_set = m_pSystem->GetWorker(type);
			AssertBotE(workers_set <= number_of_buildings);
			if(workers_set == number_of_buildings)
				return allow_insufficient;
			SetWorker(type, CSystem::SET_WORKER_MODE_INCREMENT);
			m_pSystem->CalculateVariables();
		}
	}
Exemplo n.º 4
0
	//distributes workers onto priorities remaining after max priorities have been processed
	//workers that cannot be set because of number of buildings are tried to be set into
	//the cathegory with next less workers
	void DoPriorities(const std::map<WORKER::Typ, int>& priorities, bool max_industry, bool safe_moral)
	{
		SafeMoralWorkerReserve reserve(*this, safe_moral);
		std::map<WORKER::Typ, int> prios(priorities);
		DoMaxPriorities(prios, max_industry);
		DefaultDistributionCalculator decalc(m_WorkersLeftToSet, prios);
		const std::vector<DistributionElem>& result = decalc.Calc();
		int failed_to_set = 0;
		for(std::vector<DistributionElem>::const_iterator it = result.begin(); it != result.end(); ++it)
		{
			const int buildings = m_pSystem->GetNumberOfWorkbuildings(it->m_Type, 0);
			if(buildings >= it->m_iCount) {
				int try_set = it->m_iCount;
				if(it->m_Type != WORKER::INDUSTRY_WORKER)
					try_set += failed_to_set;
				if(buildings >= try_set) {
					if(it->m_Type != WORKER::INDUSTRY_WORKER)
						failed_to_set = 0;
					SetWorker(it->m_Type, CSystem::SET_WORKER_MODE_SET, try_set);
				}
				else {
					if(it->m_Type != WORKER::INDUSTRY_WORKER)
						failed_to_set -= buildings -it->m_iCount;
					SetWorker(it->m_Type, CSystem::SET_WORKER_MODE_SET, buildings);
				}
			}
			else {
				failed_to_set += it->m_iCount - buildings;
				SetWorker(it->m_Type, CSystem::SET_WORKER_MODE_SET, buildings);
			}
			AssertBotE(m_WorkersLeftToSet >= 0 && failed_to_set >= 0);
			failed_to_set += DecrementDueToFullStore(it->m_Type);
			if(it->m_Type == WORKER::INDUSTRY_WORKER) {
				failed_to_set += DecrementDueToWastedIndustry(max_industry);
			}
		}
	}