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#include <stdio.h> #include <conio.h> #include <math.h> #include <fstream> #include <cstdlib> #include <time.h> #include <string.h> #include <cstdlib> #include <iostream> #include <windows.h> using namespace std; //------------TASK-STRUCTURE----------- struct Task{ int start_time; int time_length; int real_number; bool isPause; Task *next; Task(); void add(int start_time, int time_length, int real_number, bool isPause, Task * &head); }; Task::Task() {} void Task::add(int start_time, int time_length, int real_number, bool isPause, Task * &head) { Task *new_task = new Task; Task *temp; new_task->start_time = start_time; new_task->time_length = time_length; new_task->real_number = real_number; new_task->isPause = isPause; new_task->next = NULL; temp = head; if(temp) { while(temp->next) temp = temp->next; temp->next = new_task; } else head = new_task; } //------------SOLUTION-STRUCTURE--------------- struct Solution { Task *machine_1_sequence; Task *machine_2_sequence; int fitness_value; Solution *next; Solution(); void add(Solution * &head); }; Solution::Solution() {} void Solution::add(Solution * &head) { Solution *new_solution = new Solution; Solution *temp; new_solution->machine_1_sequence = NULL; new_solution->machine_2_sequence = NULL; new_solution->fitness_value = 0; new_solution->next = NULL; temp = head; if(temp) { while(temp->next) temp = temp->next; temp->next = new_solution; } else head = new_solution; } //-----------POPULATION-STRUCTURE-------------- struct Population { Solution *solution; Population(); void add_solution(Solution * &old_solution); int population_size(); }; Population::Population() { solution = NULL; } void Population::add_solution(Solution * &old_solution) { Task *machine1_task = old_solution->machine_1_sequence; Task *machine2_task = old_solution->machine_2_sequence; solution->add(solution); Solution *new_solution = solution; while(new_solution->next) new_solution = new_solution->next; while(machine1_task) { new_solution->machine_1_sequence->add(machine1_task->start_time, machine1_task->time_length, machine1_task->real_number, false, new_solution->machine_1_sequence); machine1_task = machine1_task->next; } while(machine2_task) { new_solution->machine_2_sequence->add(machine2_task->start_time, machine2_task->time_length, machine2_task->real_number, false, new_solution->machine_2_sequence); machine2_task = machine2_task->next; } new_solution->fitness_value = old_solution->fitness_value; } int Population::population_size() { Solution *temp_solution = solution; int population_size = 0; while(temp_solution) { population_size++; temp_solution = temp_solution->next; } return population_size; } //---------GLOBAL-VARIABLES---------------- Task *machine1_operations; Task *machine2_operations; Task *machine1_pauses; Task *machine2_pauses; void swapTasks(Task *sequence, Task *task1, Task *task2) { Task *temp_sequence = sequence; Task *task1_prev, *task2_prev; Task *temp_task; //--ZAMIANA-GDY-ZADANIE-PIERWSZE-JEST-NA-PIERWSZYM-MIEJSCU-USZEREGOWANIA if(task1->real_number == temp_sequence->real_number) { if(task1->next == task2) { task1->next = task2->next; task2->next = task1; sequence = task2; int tempStartTime = task1->start_time; task1->start_time = task2->start_time; task2->start_time = tempStartTime; return; } while(temp_sequence) { if(temp_sequence->next->real_number == task2->real_number) { task2_prev = temp_sequence; break; } temp_sequence = temp_sequence->next; } temp_task = task1->next; task1->next = task2->next; task2->next = temp_task; task2_prev = task1; sequence = task2; int tempStartTime = task1->start_time; task1->start_time = task2->start_time; task2->start_time = tempStartTime; return; } //--ZAMIANA-GDY-ZADANIE-DRUGIE-JEST-NA-PIERWSZYM-MIEJSCU-USZEREGOWANIA if(task2->real_number == temp_sequence->real_number) { if(task2->next == task1) { task2->next = task1->next; task1->next = task2; sequence = task1; int tempStartTime = task1->start_time; task1->start_time = task2->start_time; task2->start_time = tempStartTime; return; } while(temp_sequence) { if(temp_sequence->next->real_number == task1->real_number) { task1_prev = temp_sequence; break; } temp_sequence = temp_sequence->next; } temp_task = task1->next; task1->next = task2->next; task2->next = temp_task; task1_prev = task2; sequence = task1; int tempStartTime = task1->start_time; task1->start_time = task2->start_time; task2->start_time = tempStartTime; return; } //--ZAMIANA-GDY-ZADANIA-NASTEPUJA-JEDEN-PO-DRUGIM if(task1->next == task2) { while(temp_sequence) { if (temp_sequence->next->real_number == task1->real_number) { task1_prev = temp_sequence; } temp_sequence = temp_sequence->next; } task1_prev = task2; temp_task = task2->next; task2->next = task1; task1->next = temp_task; int tempStartTime = task1->start_time; task1->start_time = task2->start_time; task2->start_time = tempStartTime; return; } if(task2->next == task1) { while(temp_sequence) { if (temp_sequence->next->real_number == task2->real_number) { task2_prev = temp_sequence; } temp_sequence = temp_sequence->next; } task2_prev = task1; temp_task = task1->next; task1->next = task2; task2->next = temp_task; int tempStartTime = task1->start_time; task1->start_time = task2->start_time; task2->start_time = tempStartTime; return; } //--ZAMIANA-W-KAZDYM-INNYM-PRZYPADKU while(temp_sequence) { if(!temp_sequence->next) break; if(temp_sequence->next->real_number == task1->real_number) task1_prev = temp_sequence; if(temp_sequence->next->real_number == task2->real_number) task2_prev = temp_sequence; temp_sequence = temp_sequence->next; } task1_prev = task2; task2_prev = task1; temp_task = task1->next; task1->next = task2->next; task2->next = temp_task; int tempStartTime = task1->start_time; task1->start_time = task2->start_time; task2->start_time = tempStartTime; } Task *takeFromSequence(Task *sequence, Task *task2){ Task *temp; Task *takenTask; temp = sequence; if(task2 == sequence){ if(sequence){ takenTask = sequence; sequence = sequence->next; } } else { while(temp->next != task2){ temp = temp->next; } takenTask = temp->next; temp->next = task2->next; } return takenTask; } bool isCollideWithPause(Task *task, Task *pauses){ Task *pause = pauses; while(pause){ if( ( (task->start_time > pause->start_time) && (task->start_time < pause->start_time + pause->time_length) ) || ( (task->start_time + task->time_length > pause->start_time) && (task->start_time + task->time_length < pause->start_time + pause->time_length) ) ){ return true; } pause = pause->next; } return false; } int returnPossibleStartTime(Solution *solution, Task *task){ Task *next_task = solution->machine_1_sequence; while (next_task->real_number != task->real_number) { next_task = next_task->next; if(!next_task) return 0; } return next_task->start_time + next_task->time_length; } void insertToSequence(Solution *solution, Task *task, int machine_number) { if(machine_number == 1) { int task_start_time = 0; int task_finish_time = task_start_time + task->time_length; bool checkEverythingAgain = true; while(checkEverythingAgain) { checkEverythingAgain = false; bool checkTasksAgain = true; while(checkTasksAgain) { Task *solution_task = solution->machine_1_sequence; while(solution_task) { for(int i = task_start_time ; i <= task_finish_time ; i++) { if(i >= solution_task->start_time && i <= solution_task->start_time + solution_task->time_length) { task_start_time = solution_task->start_time + solution_task->time_length + 1; task_finish_time = task_start_time + task->time_length; checkTasksAgain = true; checkEverythingAgain = true; break; } } checkTasksAgain = false; solution_task = solution_task->next; } } bool checkPausesAgain = true; while(checkPausesAgain) { Task *pauseM1 = machine1_pauses; while(pauseM1) { for(int i = task_start_time ; i <= task_finish_time ; i++) { if(i >= pauseM1->start_time && i <= pauseM1->start_time + pauseM1->time_length) { task_start_time = pauseM1->start_time + pauseM1->time_length + 1; task_finish_time = task_start_time + task->time_length; checkPausesAgain = true; checkEverythingAgain = true; break; } } checkPausesAgain = false; pauseM1 = pauseM1->next; } } } Task *solution_task = solution->machine_1_sequence; Task *new_task = new Task; new_task->start_time = task_start_time; new_task->real_number = task->real_number; new_task->isPause = false; new_task->time_length = task->time_length; new_task->next=NULL; if(task_start_time < solution_task->start_time) { new_task->next = solution_task; solution_task = new_task; } else { while(solution_task) { if(!solution_task->next) { solution_task->next = new_task; break; } if(solution_task->next->start_time > task_start_time) { Task *temp_task = solution_task->next; solution_task->next = new_task; new_task->next = temp_task; break; } solution_task = solution_task->next; } } // cout << "left"; // cout << task->real_number << " : " << task_start_time << endl; } else if(machine_number == 2) { int task_start_time = returnPossibleStartTime(solution, task); int task_finish_time = task_start_time + task->time_length; bool checkEverythingAgain = true; while(checkEverythingAgain) { checkEverythingAgain = false; bool checkTasksAgain = true; while(checkTasksAgain) { Task *solution_task = solution->machine_2_sequence; while(solution_task) { for(int i = task_start_time ; i <= task_finish_time ; i++) { if(i >= solution_task->start_time && i <= solution_task->start_time + solution_task->time_length) { task_start_time = solution_task->start_time + solution_task->time_length + 1; task_finish_time = task_start_time + task->time_length; checkTasksAgain = true; checkEverythingAgain = true; break; } } checkTasksAgain = false; solution_task = solution_task->next; } } bool checkPausesAgain = true; while(checkPausesAgain) { Task *pauseM2 = machine2_pauses; while(pauseM2) { for(int i = task_start_time ; i <= task_finish_time ; i++) { if(i >= pauseM2->start_time && i <= pauseM2->start_time + pauseM2->time_length) { task_start_time = pauseM2->start_time + pauseM2->time_length + 1; task_finish_time = task_start_time + task->time_length; checkPausesAgain = true; checkEverythingAgain = true; break; } } checkPausesAgain = false; pauseM2 = pauseM2->next; } } } Task *solution_task = solution->machine_2_sequence; Task *new_task = new Task; new_task->start_time = task_start_time; new_task->real_number = task->real_number; new_task->isPause = false; new_task->time_length = task->time_length; new_task->next=NULL; if(task_start_time < solution_task->start_time) { new_task->next = solution_task; solution_task = new_task; } else { while(solution_task) { if(!solution_task->next) { solution_task->next = new_task; break; } if(solution_task->next->start_time > task_start_time) { Task *temp_task = solution_task->next; solution_task->next = new_task; new_task->next = temp_task; break; } solution_task = solution_task->next; } } //cout << task->real_number << " : " << task_start_time << endl; //cout << "left"; } } void repair(Solution *solution, int numberOfTasks){ Task *temp; Task *pom; Task *temp2; bool tasks[numberOfTasks]; //--USUWANIE-POWIELEN-NA-MASZYNIE-1 for(int i = 0 ; i < numberOfTasks ; i++) tasks[i] = false; temp = solution->machine_1_sequence; while(temp) { if(tasks[temp->real_number]){ pom = temp->next; delete takeFromSequence(solution->machine_1_sequence, temp); temp = pom; } else { tasks[temp->real_number] = true; temp = temp->next; } } //--DOPISYWANIE-BRAKUJACYCH-ZADAN-DO-MASZYNY-1 for(int i = 0 ; i < numberOfTasks ; i++){ if(!tasks[i]){ temp = machine1_operations; while(temp->real_number != i){ temp = temp->next; } insertToSequence(solution, temp, 1); } } //--USUWANIE-POWIELEN-NA-MASZYNIE-2 for(int i = 0 ; i < numberOfTasks ; i++) tasks[i] = false; temp = solution->machine_2_sequence; while(temp) { if(tasks[temp->real_number]){ pom = temp->next; delete takeFromSequence(solution->machine_2_sequence, temp); temp = pom; } else { tasks[temp->real_number] = true; temp = temp->next; } } //--DOPISYWANIE-BRAKUJACYCH-ZADAN-NA-MASZYNIE-2 for(int i = 0 ; i < numberOfTasks ; i++){ if(!tasks[i]) { temp = machine2_operations; while(temp->real_number != i){ temp = temp->next; } insertToSequence(solution, temp, 2); } } //--PRZESTAWIANIE-NIEPASUJACYCH-ZADAN-NA-MASZYNIE-1 temp = solution->machine_1_sequence; while(temp->next){ if( (temp->start_time + temp->time_length > temp->next->start_time) || isCollideWithPause(temp, machine1_pauses) ){ temp2 = temp->next; pom = takeFromSequence(solution->machine_1_sequence, temp); Task *global_task=machine1_operations; while(global_task->real_number != pom->real_number) global_task = global_task->next; insertToSequence(solution, global_task, 1); delete pom; temp = temp2; } else temp=temp->next; } //--PRZESTAWIANIE-NIEPASUJACYCH-ZADAN-NA-MASZYNIE-2 temp = solution->machine_2_sequence; while(temp->next){ if( (temp->start_time + temp->time_length > temp->next->start_time) || isCollideWithPause(temp, machine2_pauses) || returnPossibleStartTime(solution, temp) < temp->start_time){ temp2 = temp->next; pom = takeFromSequence(solution->machine_2_sequence, temp); Task *global_task=machine2_operations; while(global_task->real_number != pom->real_number) global_task = global_task->next; insertToSequence(solution, global_task, 2); delete pom; temp = temp2; } else temp = temp->next; } } void mutate(Solution *old_solution, int numberOfTasks, Population *population) { population->add_solution(old_solution); Solution *new_solution = population->solution; while(new_solution->next) new_solution = new_solution->next; Task *z1_op1 = new_solution->machine_1_sequence; //---WSKAZNIK-NA-ZADANIE-1-NA-MASZYNIE-1 Task *z2_op1 = new_solution->machine_1_sequence; //---WSKAZNIK-NA-ZADANIE-2-NA-MASZYNIE-1 Task *z1_op2 = new_solution->machine_2_sequence; //---WSKAZNIK-NA-ZADANIE-1-NA-MASZYNIE-2 Task *z2_op2 = new_solution->machine_2_sequence; //---WSKAZNIK-NA-ZADANIE-2-NA-MASZYNIE-2 int z1_rand = rand() % (numberOfTasks - 1); //---LOSOWANIE-NUMERU-ZADANIA-1-NA-MASZYNIE-1 for(int i = 0 ; i < z1_rand ; i++) z1_op1 = z1_op1->next; //---PRZESUNIECIE-WSKAZNIKA-DO-TEGO-ZADANIA int z2_rand = rand() % (numberOfTasks - 1); //---LOSOWANIE-NUMERU-ZADANIA-2-NA-MASZYNIE-1 while (z1_rand == z2_rand) z2_rand = rand() % (numberOfTasks - 1); //---SPRAWDZANIE-CZY-NIE-WYLOSOWANO-TEGO-SAMEGO-ZADANIA for(int i = 0 ; i < z2_rand ; i++) z2_op1 = z2_op1->next; //---PRZESUNIECIE-WSKAZNIKA-DO-TEGO-ZADANIA //--WYSZUKANIE-TYCH-ZADAN-NA-MASZYNIE-DRUGIEJ-I-USTAWIENIE-WSKAZNIKA while(z1_op2->real_number != z1_op1->real_number) z1_op2 = z1_op2->next; while(z2_op2->real_number != z2_op1->real_number) z2_op2 = z2_op2->next; swapTasks(new_solution->machine_1_sequence, z1_op1, z2_op1); //---ZAMIANA-ZADAN-NA-MASZYNIE-1 swapTasks(new_solution->machine_2_sequence, z1_op2, z2_op2); //---ZAMIANA-ZADAN-NA-MASZYNIE-2 Task * temp1 = new_solution->machine_1_sequence; Task * temp2 = new_solution->machine_2_sequence; int a = 0, b = 0; while(temp1) { a++; temp1 = temp1->next; } while(temp2) { b++; temp2 = temp2->next; } cout << "M1: " << a << " M2: " << b << endl; getch(); repair(new_solution, numberOfTasks); //---NAPRAWIENIE-EWENTUALNIE-POWSTALYCH-BLEDOW-USZEREGOWANIA } void crossover(Solution *old_solution1, Population *old_population, int numberOfTasks, Population *population) { //--SZUKANIE-DRUGIEGO-,-INNEGO-ROZWIAZANIA-ZE-STAREJ-POPULACJI Solution *old_solution2; do { old_solution2 = old_population->solution; int rand_second_solution = rand() % (old_population->population_size() - 1); for(int i = 0 ; i < rand_second_solution ; i++) old_solution2 = old_solution2->next; } while (old_solution1->fitness_value == old_solution2->fitness_value); //--DODANIE-PIERWSZEGO-STAREGO-ROZWIAZANIA-DO-NOWEJ-POPULLACJI-I-ZNALEZIENIE-GO population->add_solution(old_solution1); Solution *new_solution1 = population->solution; while(new_solution1->next) new_solution1 = new_solution1->next; //--DODANIE-DRUGIEGO-STAREGO-ROZWIAZANIA-DO-NOWEJ-POPULACJI-I-ZNALEZIENIE-GO population->add_solution(old_solution2); Solution *new_solution2 = population->solution; while(new_solution2->next) new_solution2 = new_solution2->next; /*KRZYZOWANIE-NA-MASZYNIE-1*/ Task *start_task1 = new_solution1->machine_1_sequence; Task *over_task1 = new_solution1->machine_1_sequence; Task *start_task2 = new_solution2->machine_1_sequence; Task *over_task2 = new_solution2->machine_1_sequence; Task *before_start_task1 = new_solution1->machine_1_sequence; Task *before_start_task2 = new_solution2->machine_1_sequence; Task *after_over_task1; Task *after_over_task2; int task_start_time; int rand_start_range; int rand_over_range; do { rand_start_range = rand() % (numberOfTasks - 2) + 1; rand_over_range = rand() % (numberOfTasks - 2) + 1; } while(rand_start_range != rand_over_range || rand_start_range == rand_over_range + 1 || rand_start_range == rand_over_range - 1); if(rand_start_range > rand_over_range) { int temp = rand_start_range; rand_start_range = rand_over_range; rand_over_range = temp; } //--PRZESUNIECIE-WSKAZNIKA-NA-POCZATEK-ZAKRESU for(int i = 0 ; i < rand_start_range ; i++){ start_task1 = start_task1->next; start_task2 = start_task2->next; } //--PRZESUNIECIE-WSKAZNIKA-NA-KONIEC-ZAKRESU for(int i = 0 ; i < rand_over_range ; i++){ over_task1 = over_task1->next; over_task2 = over_task2->next; } while(before_start_task1->next != start_task1) before_start_task1 = before_start_task1->next; while(before_start_task2->next != start_task2) before_start_task2 = before_start_task2->next; after_over_task1 = over_task1->next; after_over_task2 = over_task2->next; task_start_time = start_task1->start_time; start_task1->start_time = start_task2->start_time; start_task2->start_time = task_start_time; before_start_task1->next = start_task2; before_start_task2->next = start_task1; over_task1->next = after_over_task2; over_task2->next = after_over_task1; //--AKTUALIZACJA-CZASOW-ROZPOCZECIA before_start_task1 = start_task1; while(before_start_task1 != over_task1) { // cout << before_start_task1->next << endl; before_start_task1->next->start_time = before_start_task1->start_time + before_start_task1->time_length; before_start_task1 = before_start_task1->next; } before_start_task2 = start_task2; while(before_start_task2 != over_task2) { before_start_task2->next->start_time = before_start_task2->start_time + before_start_task2->time_length; before_start_task2 = before_start_task2->next; } /*KRZYZOWANIE-NA-MASZYNIE-2*/ start_task1 = new_solution1->machine_2_sequence; start_task2 = new_solution2->machine_2_sequence; before_start_task1 = new_solution1->machine_2_sequence; before_start_task2 = new_solution2->machine_2_sequence; over_task1=new_solution1->machine_2_sequence; over_task2=new_solution2->machine_2_sequence; //--PRZESUNIECIE-WSKAZNIKA-NA-POCZATEK-ZAKRESU for(int i = 0 ; i < rand_start_range ; i++){ start_task1 = start_task1->next; start_task2 = start_task2->next; } //--PRZESUNIECIE-WSKAZNIKA-NA-KONIEC-ZAKRESU for(int i = 0 ; i < rand_over_range ; i++){ over_task1 = over_task1->next; over_task2 = over_task2->next; } while(before_start_task1->next != start_task1) before_start_task1 = before_start_task1->next; while(before_start_task2->next != start_task2) before_start_task2=before_start_task2->next; after_over_task1 = over_task1->next; after_over_task2 = over_task2->next; task_start_time = start_task1->start_time; start_task1->start_time = start_task2->start_time; start_task2->start_time = task_start_time; over_task1->next = after_over_task2; over_task2->next = after_over_task1; before_start_task1->next = start_task2; before_start_task2->next = start_task1; //--AKTUALIZACJA-CZASOW-ROZPOCZECIA before_start_task1 = start_task1; while(before_start_task1 != over_task1){ before_start_task1->next->start_time = before_start_task1->start_time + before_start_task1->time_length; before_start_task1 = before_start_task1->next; } before_start_task2=start_task2; while(before_start_task2 != over_task2){ before_start_task2->next->start_time = before_start_task2->start_time + before_start_task2->time_length; before_start_task2 = before_start_task2->next; } /* Task * temp1 = solution1->machine_1_sequence; Task * temp2 = solution1->machine_2_sequence; int a = 0, b = 0; while(temp1) { a++; temp1 = temp1->next; } while(temp2) { b++; temp2 = temp2->next; } cout << "M1: " << a << " M2: " << b << endl; getch(); temp1 = solution2->machine_1_sequence; temp2 = solution2->machine_2_sequence; a = 0, b = 0; while(temp1) { a++; temp1 = temp1->next; } while(temp2) { b++; temp2 = temp2->next; } cout << "M1: " << a << " M2: " << b << endl; getch();*/ repair(new_solution1, numberOfTasks); repair(new_solution2, numberOfTasks); } //---------------------SELECTION-OPERATOR--------------------------- void calculate_fitness(Population *population) { Solution *solution = population->solution; //---WSKAZNIK-NA-PIERWSZE-ROZWIAZANIE-W-POPULACJI int maxFitnessValue = 0; //---ZMIENNA-PRZECHOWUJACA-WARTOSC-NAJWIEKSZEJ-FUNKCJI //--DLA-KAZDEGO-ROZWIAZANIA-WYLICZANA-JEST-WARTOSC-FUNKCJI-CELU-(IM-WIEKSZA-WARTOSC-TYM-LEPSZE-USZEREGOWANIE) while(solution) { Task *machine1_task = solution->machine_1_sequence; //---WSKAZNIK-NA-ZADANIE-DLA-DANEGO-ROZWIAZANIA-DLA-MASZYNY-1 Task *machine2_task = solution->machine_2_sequence; //---WSKAZNIK-NA-ZADANIE-DLA-DANEGO-ROZWIAZANIA-DLA-MASZYNY-2 int fitnessValue = 0; //---WARTOSC-FUNKCJI-CELU //------SUMOWANIE-CZASOW-ZAKONCZENIA-OPERACJI-DLA-MASZYNY-1 while(machine1_task) { fitnessValue += machine1_task->start_time + machine1_task->time_length; machine1_task = machine1_task->next; } //------SUMOWANIE-CZASOW-ZAKONCZENIA-OPERACJI-DLA-MASZYNY-2 while(machine2_task) { fitnessValue += machine2_task->start_time + machine2_task->time_length; machine2_task = machine2_task->next; } //------SPRAWDZANIE-CZY-AKTUALNA-WARTOSC-FUNKCJI-CELU-JEST-NAJWIEKSZA if(fitnessValue > maxFitnessValue) { maxFitnessValue = fitnessValue + 1; } solution->fitness_value = fitnessValue; //---ZAPISANIE-WARTOSCI-FUNKCJI-CELU-(TU-JESZCZE-WIEKSZA-WARTOSC-JEST-GORSZYM-USZEREGOWANIEM) solution = solution->next; } solution = population->solution; //--ZAMIANA-WARTOSCI-FUNKCJI-CELU-(IM-WIEKSZA-TERAZ-JEST-LEPSZYM-USZEREGOWANIEM) while(solution) { solution->fitness_value = maxFitnessValue - solution->fitness_value; solution = solution->next; } } void roulette_selection(Population *population, int new_population_size) { int sumOfFitnessValues = 0; Solution *solution = population->solution; while(solution) { sumOfFitnessValues += solution->fitness_value; solution = solution->next; } for(int i = 0 ; i < new_population_size ; i++) { int rouletteMarble = rand(); } } void tournament_selection(Population *population, Population *new_population, int new_population_size) { Solution *solution1; Solution *solution2; int population_size = population->population_size(); int solution1_number; int solution2_number; int popArray[population_size]; for(int i = 0 ; i < population_size ; i++) { popArray[i] = 0; } for(int i = 0 ; i < new_population_size ; i++) { solution1 = population->solution; solution2 = population->solution; while(true) { solution1_number = rand() % (population_size - 1); if(popArray[solution1_number] == 0) { popArray[solution1_number] = 1; break; } } while(true) { solution2_number = rand() % (population_size - 1); if(popArray[solution2_number] == 0) { popArray[solution2_number] = 1; break; } } for(int i = 0 ; i < solution1_number ; i++) solution1 = solution1->next; for(int i = 0 ; i < solution2_number ; i++) solution2 = solution2->next; if(solution1->fitness_value > solution2->fitness_value) { popArray[solution2_number] = 0; new_population->add_solution(solution1); } else { popArray[solution1_number] = 0; new_population->add_solution(solution2); } } } void selection(Population *population, Population* new_population, int new_population_size) { calculate_fitness(population); //roulette_selection(population, new_population_size); tournament_selection(population, new_population, new_population_size); } //----------------------------------------------------------- int generate_population(int numberOfTasks, int sizeOfPopulation, Population * &population) { for(int i = 0 ; i < sizeOfPopulation ; i++) { population->solution->add(population->solution); //---DODANIE-NOWEGO-ROZWIAZANIA-DO-LISTY-ROZWIAZAŃ Solution *solution = population->solution; for(int j = 0 ; j < i; j++) solution = solution->next; //---PRZESUNIECIE-WSKAZNNIKA-DO-AKTUALNIE-GENEROWANEGO-ROZWIAZANIA int taskOrder[numberOfTasks], usedTasks[numberOfTasks]; for(int j = 0 ; j < numberOfTasks ; j++) usedTasks[j] = 0; //------GENEROWANIE-KOLEJNOŚCI-ZADAŃ-NA-PIERWSZEJ-MASZYNIE for(int j = 0 ; j < numberOfTasks ; j++) { while(true){ int taskNumber =(int) (rand()% numberOfTasks); if(usedTasks[taskNumber] == 0) { usedTasks[taskNumber] = 1; taskOrder[j] = taskNumber; break; } } } //------DODAWANIE-TASKÓW-DO-AKTUALNIE-GENEROWANEGO-ROZWIAZANIA for(int j = 0 ; j < numberOfTasks ; j++) { /*__________GENEROWANIE-USZEREGOWANIA-DLA-MASZYNY-1*/ int taskNumber = taskOrder[j]; //---RZECZYWISTY-NUMER-ZADANIA-KTORE-MA-ZOSTAC-DODANE-DO-ROZWIAZANIA int task_start_timeM1 = 0; //---MOMENT-CZASU-W-KTORYM-AKTUALNIE-DODAWANE-ZADANIE-MOZE-ROZPOCZAC-WYKONYWANIE Task *machine1Task, *sequenceM1; machine1Task = machine1_operations; //---WSKAŹNIK-NA-ZADANIE-Z-LISTY-ZADAŃ-WCZYTANYCH-Z-PLIKU sequenceM1 = solution->machine_1_sequence; //---WSKAŹNIK-POMOCNICZY-NA-AKTUALNIE-GENEROWANE-ROZWIAZANIE-DLA-MASZYNY-PIERWSZEJ //----------PRZESUNIECIE-WSKAZNIKA-NA-POZYCJE-KTOREMU-ODPOWIADA-WCZESNIEJ-WYGENEROWANY-NUMER-ZADANIA for(int k = 0; k < taskNumber ; k++) { machine1Task = machine1Task->next; } //----------ZNALEZIENIE-NAJBLIZSZEGO-MOZLIWEGO-CZASU-KIEDY-ZADANIE-MOZE-ROZPOCZAC-WYKONYWANIE while(sequenceM1) { task_start_timeM1 = sequenceM1->start_time + sequenceM1->time_length; sequenceM1 = sequenceM1->next; } Task *pauseM1; //---WSKAZNIK-NA-LISTE-PRZERW-DLA-MASZYNY-1 bool checkAgain = true; //----------ZNAJDOWANIE-NOWEGO-MOZLIWEGO-CZASU-ROZPOCZECIA-WYKONYWANIA-ZADANIA-W-ZALEZNOSCI-OD-PRZERW while(checkAgain){ pauseM1 = machine1_pauses; while(pauseM1) { for(int k = task_start_timeM1 ; k <= task_start_timeM1 + machine1Task->time_length ; k++) { if(k >= pauseM1->start_time && k <= pauseM1->start_time + pauseM1->time_length) { task_start_timeM1 = pauseM1->start_time + pauseM1->time_length; checkAgain = true; break; } } checkAgain = false; pauseM1 = pauseM1->next; } } solution->machine_1_sequence->add(task_start_timeM1, machine1Task->time_length, machine1Task->real_number, false, solution->machine_1_sequence); /*__________GENEROWANIE-USZEREGOWANIA-DLA-MASZYNY-2*/ Task *machine2Task, *sequenceM2; int task_start_timeM2 = 0; //---MOMENT-CZASU-W-KTORYM-AKTUALNIE-DODAWANE-ZADANIE-MOZE-ROZPOCZAC-WYKONYWANIE machine2Task = machine2_operations; //---WSKAZNIK-NA-ZADANIE-Z-LISTY-ZADAN-WCZYTANYCH-Z-PLIKU sequenceM2 = solution->machine_2_sequence; //---WSKAZNIK-POMOCNICZY-NA-AKTUALNIE-GENEROWANE-ROZWIAZANIE-DLA-MASZYNY-DRUGIEJ //---------PRZESUNIECIE-WSKAZNIKA-NA-POZYCJE-KTOREMU-ODPOWIADA-WCZESNIEJ-WYGENEROWANY-NUMER-ZADANIA for(int k = 0 ; k < taskNumber ; k++) { machine2Task = machine2Task->next; } //---------ZNALEZIENIE-NAJBLIZSZEGO-MOZLIWEGO-CZASU-KIEDY-ZADANIE-MOZE-ROZPOCZAC-WYKONYWANIE while(sequenceM2) { task_start_timeM2 = sequenceM2->start_time + sequenceM2->time_length; sequenceM2 = sequenceM2->next; } //----------SPRAWDZENIE-CZY-ZADANIE-NA-MASZYNIE-2-NIE-ZACZYNA-SIE-SZYBCIEJ-NIZ-KONCZY-SIE-ZADANIE-NA-MASZYNIE-1 if(task_start_timeM2 <= task_start_timeM1 + machine1Task->time_length) { task_start_timeM2 = task_start_timeM1 + machine1Task->time_length; } Task *pauseM2; //---WSKAZNIK-NA-LISTE-PRZERW-DLA-MASZYNY-2 checkAgain = true; //----------ZNAJDOWANIE-NOWEGO-MOZLIWEGO-CZASU-ROZPOCZECIA-WYKONYWANIA-ZADANIA-W-ZALEZNOSCI-OD-PRZERW while(checkAgain){ pauseM2 = machine2_pauses; while(pauseM2) { for(int k = task_start_timeM2 ; k <= task_start_timeM2 + machine2Task->time_length ; k++) { if(k >= pauseM2->start_time && k <= pauseM2->start_time + pauseM2->time_length) { task_start_timeM2 = pauseM2->start_time + pauseM2->time_length + 1; checkAgain = true; break; } } checkAgain = false; pauseM2 = pauseM2->next; } } solution->machine_2_sequence->add(task_start_timeM2, machine2Task->time_length, machine2Task->real_number, false, solution->machine_2_sequence); } } return numberOfTasks; } int load_instance(char fileName[20]) { char buf[100]; //---ZMIENNA-POMOCNICZA-PRZECHOWUJACA-DANE-NA-TEMAT-ZADAN-I-PRZERW int numberOfTasks; //---ILOSC-ZDAN-KTORE-WYSTEPUJA-W-DANEJ-INSTANCJI-PROBLEMU fstream plik; plik.open(fileName, ios::in); if(plik.good()) { plik.getline(buf, 6); numberOfTasks = atoi(buf); //---WCZYTANIE-ILOSCI-ZADAN-(PIERWSZY-WIERSZ-PLIKU) //------WCZYTANIE-I-DODANIE-WSZYSTKICH-ZADAN-DO-LISTY-ZADAN for(int i = 0 ; i < numberOfTasks ; i++) { int machine1_task, machine2_task; plik.getline(buf, 10, ';'); machine1_task = atoi(buf); plik.getline(buf, 10); machine2_task = atoi(buf); machine1_operations->add(0, machine1_task, i, false, machine1_operations); machine2_operations->add(0, machine2_task, i, false, machine2_operations); } //------WCZYTANIE-I-DODANIE-PRZERW-DO-LISTY-PRZERW while(!plik.eof()) { int pauseNumber, machineNumber, timeForPause, whenPauseStart; plik.getline(buf, 10, ';'); pauseNumber = atoi(buf); plik.getline(buf, 10, ';'); machineNumber = atoi(buf); plik.getline(buf, 10, ';'); timeForPause = atoi(buf); plik.getline(buf, 10); whenPauseStart = atoi(buf); if(timeForPause == 0 && machineNumber == 0 && whenPauseStart == 0) break; if(machineNumber == 0) machine1_pauses->add(whenPauseStart, timeForPause, pauseNumber, true, machine1_pauses); if(machineNumber == 1) machine2_pauses->add(whenPauseStart, timeForPause, pauseNumber, true, machine2_pauses); } } else cout << "Ups...Something went wrong."; plik.close(); return numberOfTasks; } void save_results(Population *population, char fileName[20]) { char new_fileName[30] ="solution/"; strncat(new_fileName, fileName, 20); calculate_fitness(population); Solution *best_solution = population->solution; Solution *solution = population->solution; while(solution) { if(solution->fitness_value > best_solution->fitness_value) { best_solution = solution; } solution = solution->next; } Task *machine1_seq = best_solution->machine_1_sequence; Task *machine2_seq = best_solution->machine_2_sequence; int fitness_value = 0; int maximum_time; while(machine1_seq) { fitness_value += machine1_seq->start_time + machine1_seq->time_length; machine1_seq = machine1_seq->next; } while(machine2_seq) { fitness_value += machine2_seq->start_time + machine2_seq->time_length; maximum_time = machine2_seq->start_time + machine2_seq->time_length; machine2_seq = machine2_seq->next; } machine1_seq = best_solution->machine_1_sequence; machine2_seq = best_solution->machine_2_sequence; fstream plik; plik.open(new_fileName, ios::out); plik << maximum_time << ";" << fitness_value << endl; //-----------WPISYWANIE-USZEREGOWANIA-NA-MASZYNIE-1 int actuallTimeMoment = 0; int pause_number_M1 = 1; int idle_pause_number_M1 = 1; int sum_pause_M1 = 0; int sum_idle_pause_M1 = 0; plik << "M1:"; while(machine1_seq) { bool idle = true; if(machine1_seq->start_time == actuallTimeMoment) { plik << "o1_z" << machine1_seq->real_number << "," << machine1_seq->start_time << "," << machine1_seq->time_length << ";"; actuallTimeMoment = machine1_seq->start_time + machine1_seq->time_length; machine1_seq = machine1_seq->next; idle = false; } Task *machine1_p = machine1_pauses; while(machine1_p) { if(machine1_p->start_time == actuallTimeMoment) { plik << "maint" << pause_number_M1 << "_M1," << machine1_p->start_time << "," << machine1_p->time_length << ";"; pause_number_M1++; sum_pause_M1 += machine1_p->time_length; actuallTimeMoment = machine1_p->start_time + machine1_p->time_length; idle = false; } machine1_p = machine1_p->next; } if(idle) { machine1_p = machine1_pauses; int closest_Pause = MAXINTATOM; int closest_Task = MAXINTATOM; Task *temp_machine1_seq = best_solution->machine_1_sequence; while(temp_machine1_seq) { if(temp_machine1_seq->start_time >= actuallTimeMoment) { closest_Task = temp_machine1_seq->start_time; break; } temp_machine1_seq = temp_machine1_seq->next; } while(machine1_p) { if(machine1_p->start_time < closest_Pause && machine1_p->start_time >= actuallTimeMoment) closest_Pause = machine1_p->start_time; machine1_p = machine1_p->next; } if(closest_Task < closest_Pause) { plik << "idle" << idle_pause_number_M1 << "_M1," << actuallTimeMoment << "," << closest_Task - actuallTimeMoment << ";"; idle_pause_number_M1++; sum_idle_pause_M1 += closest_Task - actuallTimeMoment; actuallTimeMoment = closest_Task; } else { plik << "idle" << idle_pause_number_M1 << "_M1," << actuallTimeMoment << "," << closest_Pause - actuallTimeMoment << ";"; idle_pause_number_M1++; sum_idle_pause_M1 += closest_Pause - actuallTimeMoment; actuallTimeMoment = closest_Pause; } } } plik << endl; //-----------WPISYWANIE-USZEREGOWANIA-NA-MASZYNIE-2 actuallTimeMoment = 0; int pause_number_M2 = 1; int idle_pause_number_M2 = 1; int sum_pause_M2 = 0; int sum_idle_pause_M2 = 0; plik << "M2:"; while(machine2_seq) { bool idle = true; if(machine2_seq->start_time == actuallTimeMoment) { plik << "o2_z" << machine2_seq->real_number << "," << machine2_seq->start_time << "," << machine2_seq->time_length << ";"; actuallTimeMoment = machine2_seq->start_time + machine2_seq->time_length; machine2_seq = machine2_seq->next; idle = false; } Task *machine2_p = machine2_pauses; while(machine2_p) { if(machine2_p->start_time == actuallTimeMoment) { plik << "maint" << pause_number_M2 << "_M2," << machine2_p->start_time << "," << machine2_p->time_length << ";"; pause_number_M2++; sum_pause_M2 += machine2_p->time_length; actuallTimeMoment = machine2_p->start_time + machine2_p->time_length; idle = false; } machine2_p = machine2_p->next; } if(idle) { machine2_p = machine2_pauses; int closest_Pause = MAXINTATOM; int closest_Task = MAXINTATOM; Task *temp_machine2_seq = best_solution->machine_2_sequence; while(temp_machine2_seq) { if(temp_machine2_seq->start_time >= actuallTimeMoment) { closest_Task = temp_machine2_seq->start_time; break; } temp_machine2_seq = temp_machine2_seq->next; } while(machine2_p) { if(machine2_p->start_time < closest_Pause && machine2_p->start_time >= actuallTimeMoment) closest_Pause = machine2_p->start_time; machine2_p = machine2_p->next; } if(closest_Task < closest_Pause) { plik << "idle" << idle_pause_number_M2 << "_M2," << actuallTimeMoment << "," << closest_Task - actuallTimeMoment << ";"; idle_pause_number_M2++; sum_idle_pause_M2 += closest_Task - actuallTimeMoment; actuallTimeMoment = closest_Task; } else { plik << "idle" << idle_pause_number_M2 << "_M2," << actuallTimeMoment << "," << closest_Pause - actuallTimeMoment << ";"; idle_pause_number_M2++; sum_idle_pause_M2 += closest_Task - actuallTimeMoment; actuallTimeMoment = closest_Pause; } } } plik << endl; plik << pause_number_M1 << "," << sum_pause_M1 << endl; plik << pause_number_M2 << "," << sum_pause_M2 << endl; plik << idle_pause_number_M1 << "," << sum_idle_pause_M1 << endl; plik << idle_pause_number_M2 << "," << sum_idle_pause_M2; plik.close(); } double getTime() { long long f, t; QueryPerformanceFrequency( (PLARGE_INTEGER) & f ); QueryPerformanceCounter( (PLARGE_INTEGER) & t); return (double)t / (double)f; } int main() { #define START_POPULATION_SIZE 50 //---ROZMIAR-POPULACJI-STARTOWEJ #define MAIN_POPULATION_SIZE 30 //---ROZMIAR-POPULACJI-DO-KTOREGO-ROZMIARU-OPERATOR-SELEKCJI-BEDZIE-ZMNIEJSZAC #define CROSSOVER_PROPABILITY 95 //---PRAWDOPODOBIENSTWO-WYSTAPIENIA-KRZYZOWANIA #define MUTATION_PROPABILITY 55 //---PRAWDOPODOBIENSTWO-WYSTAPIENIA-MUTACJI int numberOfFiles = 1; //---LICZBA-PLIKOW-ZAWIERAJACYCH-ROZNE-INSTANCJE-PROBLEMU char fileName[20]; srand(time(NULL)); for(int i = 1; i <= numberOfFiles; i++) { Population *population = new Population; //---WSKAZNIK-NA-POPULACJE-STARTOWA itoa(i * 100, fileName, 10); strncat(fileName, "RANDOM.txt", 10); int numberOfTasks = generate_population(load_instance(fileName), START_POPULATION_SIZE, population); //---GENEROWANIE-STARTOWEJ-POPULACJI double startTime = getTime(); double currentTime; //------PRZEZ-OKRESLONY-CZAS-WYKONYWANE-SA-OPERACJE-MUTACJI-KRZYZOWANIA-I-SELEKCJI // do { Population *new_population = new Population; //---UTWORZENIE-NOWEGO-MIEJSCA-W-PAMIECI-DLA-NOWEJ-POPULACJI /* SEL */ selection(population, new_population, MAIN_POPULATION_SIZE); //---SELEKCJA-STAREJ-POPULACJI-W-NOWA-POPULACJE delete population; population = new Population; //----------WYKONWANIE-OPERACJI-MUTACJI-I-KRZYZOWANIA-DLA-KAZDEGO-ZADANIA Solution *solution = new_population->solution; while(solution) { int crossoverPropability = (rand() % 100) + 1; /* CRO */ if(crossoverPropability <= CROSSOVER_PROPABILITY) crossover(solution, new_population, numberOfTasks, population); int mutationPropability = (rand() % 100) + 1; /* MUT */ if(mutationPropability <= MUTATION_PROPABILITY) {mutate(solution, numberOfTasks, population); cout << "MUTATAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAA";} solution = solution->next; } delete new_population; currentTime = getTime(); // } while(currentTime - startTime < 10); save_results(population, fileName); //---ZAPISANIE-WYNIKU-PRZEPROWADZENIA-ALGORYTMU-DO-PLIKU-TEKSTOWEGO Solution * temp; temp = population->solution; Task *temp1; temp1 = temp->machine_1_sequence; while(temp) { Task *temp1, *temp2; temp1 = temp->machine_1_sequence; temp2 = temp->machine_2_sequence; while(temp1) { cout << temp1->start_time << ":" << temp1->start_time + temp1->time_length <<"\t"; temp1 = temp1->next; } cout << endl << endl << "_________________________________________________" << endl << endl; while(temp2) { cout << temp2->start_time << ":" << temp2->start_time + temp2->time_length << "\t"; temp2 = temp2->next; } cout << endl << endl << endl << endl << temp->fitness_value << endl << endl << endl; temp = temp->next; } } return 0; }
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