#include #include #include #include #include #include #include #include #include #include #include #include #include #include #include using namespace std; int score = 0; int rozmiarPopulacji = 50; string * zebrane = new string[rozmiarPopulacji]; string * doSadzenia = new string[20]; const float maxFloat=100000000000; const int ROW = 27; const int COL = 27; typedef pair Pair; typedef pair > pPair; struct cell { int parent_i, parent_j; double f, g, h; }; char pole[27][27][2]; int pozycjaTraktoraX = 1, pozycjaTraktoraY = 1; char currentWay = 'S'; string kod_genetyczny[27][27]; //algorytm genetyczny string generateValue() { char trash[100]; string x = itoa(rand() % 1000,trash,10); if (x.size() == 2) { x = "0" + x; } else if (x.size() == 1) { x = "00" + x; } return x; } string generateVegetable() { string taste = generateValue(); string colour = generateValue(); string size = generateValue(); return taste + colour + size; } void generatePopulation(string * population,int length) { int i; for(i=0;i&i, const pair&j) { return i.first > j.first; } void ranking(string * population,string * parents, int populationSize, int parentsNumber) { int i; pair fitnessTable[populationSize]; for(i=0;i fitnessTable[populationSize]; for(i=0;i=0;j--) { if(not exists(parentsNumber,taken,j)) { sum += fitnessTable[j].first; fitnessTable[j].first = sum; } } roulette = rand() % fitnessTable[0].first; j = 0; while(exists(parentsNumber,taken,j)) { j += 1; } while(roulette > fitnessTable[j].first and j= nextGenSize) { break; } else { nextGen[counter] = parents[i]; counter +=1; } } while(counter < nextGenSize) { for(i=0;i= nextGenSize) { break; } else { for(j=i;j= nextGenSize) { break; } else { string couple[2]; couple[0] = parents[i]; couple[1] = parents[j]; nextGen[counter] = cross(couple); counter += 1; } } } } } } void genetic_algorithm(string * population, int populationSize, int parentsNumber,string * outcome, int outcomeSize) { int iteration,i; for(iteration=0;iteration<5;iteration++) { string * parents = new string[parentsNumber]; selection(population,parents,populationSize,parentsNumber); string * nextGen = new string[populationSize]; crossover(parents,nextGen,parentsNumber,populationSize); delete[] population; population = new string[populationSize]; for(i=0;i "000000000" and doSadzenia[0] <= "999999999") { int i = 0; while(i<19, doSadzenia[i+1] >= "000000000" and doSadzenia[i+1] <= "999999999") { i+=1; } string temp = doSadzenia[i]; doSadzenia[i] = "000000000"; return temp; } else { return generateVegetable(); } } //--------------------------------------------------------------------- void color(string foregroundColor, string backgroundColor) { HANDLE hOut; hOut = GetStdHandle(STD_OUTPUT_HANDLE); int foregroundCode = 15; if (foregroundColor == "black") foregroundCode = 0; if (foregroundColor == "dark_blue") foregroundCode = 1; if (foregroundColor == "green") foregroundCode = 2; if (foregroundColor == "cyan") foregroundCode = 3; if (foregroundColor == "dark_red") foregroundCode = 4; if (foregroundColor == "purple") foregroundCode = 5; if (foregroundColor == "dark_yellow") foregroundCode = 6; if (foregroundColor == "light_gray") foregroundCode = 7; if (foregroundColor == "gray") foregroundCode = 8; if (foregroundColor == "blue") foregroundCode = 9; if (foregroundColor == "lime") foregroundCode = 10; if (foregroundColor == "light_blue") foregroundCode = 11; if (foregroundColor == "red") foregroundCode = 12; if (foregroundColor == "magenta") foregroundCode = 13; if (foregroundColor == "yellow") foregroundCode = 14; if (foregroundColor == "white") foregroundCode = 15; int backgroundCode = 0; if (backgroundColor == "black") backgroundCode = 0; if (backgroundColor == "dark_blue") backgroundCode = 1; if (backgroundColor == "green") backgroundCode = 2; if (backgroundColor == "cyan") backgroundCode = 3; if (backgroundColor == "dark_red") backgroundCode = 4; if (backgroundColor == "purple") backgroundCode = 5; if (backgroundColor == "dark_yellow") backgroundCode = 6; if (backgroundColor == "light_gray") backgroundCode = 7; if (backgroundColor == "gray") backgroundCode = 8; if (backgroundColor == "blue") backgroundCode = 9; if (backgroundColor == "lime") backgroundCode = 10; if (backgroundColor == "light_blue") backgroundCode = 11; if (backgroundColor == "red") backgroundCode = 12; if (backgroundColor == "magenta") backgroundCode = 13; if (backgroundColor == "yellow") backgroundCode = 14; if (backgroundColor == "white") backgroundCode = 15; SetConsoleTextAttribute(hOut, foregroundCode + backgroundCode * 16); } void SetWindow(int Width, int Height) { _COORD coord; coord.X = Width; coord.Y = Height; _SMALL_RECT Rect; Rect.Top = 0; Rect.Left = 0; Rect.Bottom = Height - 1; Rect.Right = Width - 1; HANDLE Handle = GetStdHandle(STD_OUTPUT_HANDLE); // Get Handle SetConsoleScreenBufferSize(Handle, coord); // Set Buffer Size SetConsoleWindowInfo(Handle, TRUE, &Rect); // Set Window Size } void updatePola() { system("cls"); for (int i = 0; i < 27; i++) { for (int j = 0; j < 27; j++) { char item = pole[i][j][0]; switch (item) { case 'B': { color("purple", "dark_yellow"); }break; case 'T': { color("red", "dark_yellow"); }break; case 'G': { color("lime", "dark_yellow"); }break; case '.': { color("yellow", "dark_yellow"); }break; case '#': { color("light_gray", "gray"); }break; } cout << pole[i][j][0]; } cout << endl; color("white", "black"); } } void correctMovement(char wantedWay) { while (currentWay != wantedWay) { switch (currentWay) { case 'N': { if (wantedWay == 'S') currentWay = wantedWay; else currentWay = 'W'; }break; case 'S': { if (wantedWay == 'N') currentWay = wantedWay; else currentWay = 'W'; }break; case 'W': { if (wantedWay == 'E') currentWay = wantedWay; else currentWay = 'N'; }break; case 'E': { if (wantedWay == 'W') currentWay = wantedWay; else currentWay = 'N'; }break; } } } void Move(char kierunek) { switch (kierunek) { //góra-(w) case 'w': { if (pole[pozycjaTraktoraY - 1][pozycjaTraktoraX][0] != '#') { if (pole[pozycjaTraktoraY - 1][pozycjaTraktoraX][0] == 'B') { zebrane[score] = kod_genetyczny[pozycjaTraktoraY - 1][pozycjaTraktoraX]; score+=1; kod_genetyczny[pozycjaTraktoraY - 1][pozycjaTraktoraX] = "000000000"; correctMovement('N'); pole[pozycjaTraktoraY][pozycjaTraktoraX][0] = '.'; } else { correctMovement('N'); pole[pozycjaTraktoraY][pozycjaTraktoraX][0] = 'B'; kod_genetyczny[pozycjaTraktoraY][pozycjaTraktoraX] = przypiszKod(); } pozycjaTraktoraY--; pole[pozycjaTraktoraY][pozycjaTraktoraX][0] = 'T'; } updatePola(); }break; //dół-(s) case 's': { if (pole[pozycjaTraktoraY + 1][pozycjaTraktoraX][0] != '#') { if (pole[pozycjaTraktoraY +1][pozycjaTraktoraX][0] == 'B') { zebrane[score] = kod_genetyczny[pozycjaTraktoraY + 1][pozycjaTraktoraX]; score+=1; kod_genetyczny[pozycjaTraktoraY + 1][pozycjaTraktoraX] = "000000000"; correctMovement('N'); pole[pozycjaTraktoraY][pozycjaTraktoraX][0] = '.'; } else { correctMovement('N'); pole[pozycjaTraktoraY][pozycjaTraktoraX][0] = 'B'; kod_genetyczny[pozycjaTraktoraY][pozycjaTraktoraX] = przypiszKod(); } pozycjaTraktoraY++; pole[pozycjaTraktoraY][pozycjaTraktoraX][0] = 'T'; } updatePola(); }break; //lewo-(a) case 'a': { if (pole[pozycjaTraktoraY][pozycjaTraktoraX - 1][0] != '#') { if (pole[pozycjaTraktoraY][pozycjaTraktoraX - 1][0] == 'B') { zebrane[score] = kod_genetyczny[pozycjaTraktoraY][pozycjaTraktoraX - 1]; score+=1; kod_genetyczny[pozycjaTraktoraY][pozycjaTraktoraX - 1] = "000000000"; correctMovement('N'); pole[pozycjaTraktoraY][pozycjaTraktoraX][0] = '.'; } else { correctMovement('N'); pole[pozycjaTraktoraY][pozycjaTraktoraX][0] = 'B'; kod_genetyczny[pozycjaTraktoraY][pozycjaTraktoraX] = przypiszKod(); } pozycjaTraktoraX--; pole[pozycjaTraktoraY][pozycjaTraktoraX][0] = 'T'; } updatePola(); }break; //prawo-(d) case 'd': { if (pole[pozycjaTraktoraY][pozycjaTraktoraX + 1][0] != '#') { if (pole[pozycjaTraktoraY][pozycjaTraktoraX + 1][0] == 'B') { zebrane[score] = kod_genetyczny[pozycjaTraktoraY][pozycjaTraktoraX + 1]; score+=1; kod_genetyczny[pozycjaTraktoraY ][pozycjaTraktoraX + 1] = "000000000"; correctMovement('N'); pole[pozycjaTraktoraY][pozycjaTraktoraX][0] = '.'; } else { correctMovement('N'); pole[pozycjaTraktoraY][pozycjaTraktoraX][0] = 'B'; kod_genetyczny[pozycjaTraktoraY][pozycjaTraktoraX] = przypiszKod(); } pozycjaTraktoraX++; pole[pozycjaTraktoraY][pozycjaTraktoraX][0] = 'T'; } updatePola(); }break; } } bool isValid(int x, int y) { if (pole[x][y][0] != '#') { return true; } return false; } bool isDestination(int x, int y,Pair dest) { if (dest.first == x && dest.second == y) { return true; } return false; } double calculateHValue(int x, int y, Pair dest) { return abs(x - dest.first) + abs(y - dest.second); } void tracePath(cell cellDetails[][COL], Pair dest) { //printf("\nThe Path is "); //----start info int row = dest.first; int col = dest.second; stack Path; while (!(cellDetails[row][col].parent_i == row && cellDetails[row][col].parent_j == col)) { Path.push(make_pair(row, col)); int temp_row = cellDetails[row][col].parent_i; int temp_col = cellDetails[row][col].parent_j; row = temp_row; col = temp_col; } Path.push(make_pair(row, col)); while (!Path.empty()) { pair p = Path.top(); Path.pop(); if (p.first > pozycjaTraktoraX) Move('d'); if (p.first < pozycjaTraktoraX) Move('a'); if (p.second > pozycjaTraktoraY) Move('s'); if (p.second < pozycjaTraktoraY) Move('w'); //printf("-> (%d,%d) ", p.first, p.second); //---- informacja wierzchoÅ‚ku Sleep(1000); } return; } void aStarSearch(int grid[][COL],Pair src, Pair dest) { bool closedList[ROW][COL]; memset(closedList, false, sizeof(closedList)); cell cellDetails[ROW][COL]; int i, j; for (i = 0; i < ROW; i++) { for (j = 0; j < COL; j++) { cellDetails[i][j].f = maxFloat; cellDetails[i][j].g = maxFloat; cellDetails[i][j].h = maxFloat; cellDetails[i][j].parent_i = -1; cellDetails[i][j].parent_j = -1; } } i = src.first, j = src.second; cellDetails[i][j].f = 0.0; cellDetails[i][j].g = 0.0; cellDetails[i][j].h = 0.0; cellDetails[i][j].parent_i = i; cellDetails[i][j].parent_j = j; set openList; openList.insert(make_pair(0.0, make_pair(i, j))); bool foundDest = false; while (!openList.empty()) { pPair p = *openList.begin(); openList.erase(openList.begin()); i = p.second.first; j = p.second.second; closedList[i][j] = true; double gNew, hNew, fNew; double waga = 1.0; waga = ((double)pole[j][i][1] - 48)*1.0;//----waga //----------- 1st Successor (North) ------------ if (isValid(i - 1, j) == true) { if (isDestination(i - 1, j, dest) == true) { cellDetails[i - 1][j].parent_i = i; cellDetails[i - 1][j].parent_j = j; //printf("The destination cell is found\n"); tracePath(cellDetails, dest); foundDest = true; return; } else if (closedList[i - 1][j] == false) { gNew = cellDetails[i][j].g + waga; hNew = calculateHValue(i - 1, j, dest); fNew = gNew + hNew; if (cellDetails[i - 1][j].f == maxFloat || cellDetails[i - 1][j].f > fNew) { openList.insert(make_pair(fNew, make_pair(i - 1, j))); cellDetails[i - 1][j].f = fNew; cellDetails[i - 1][j].g = gNew; cellDetails[i - 1][j].h = hNew; cellDetails[i - 1][j].parent_i = i; cellDetails[i - 1][j].parent_j = j; } } } //----------- 2nd Successor (South) ------------ if (isValid(i + 1, j) == true) { if (isDestination(i + 1, j, dest) == true) { cellDetails[i + 1][j].parent_i = i; cellDetails[i + 1][j].parent_j = j; //printf("The destination cell is found\n"); tracePath(cellDetails, dest); foundDest = true; return; } else if (closedList[i + 1][j] == false) { gNew = cellDetails[i][j].g + waga; hNew = calculateHValue(i + 1, j, dest); fNew = gNew + hNew; if (cellDetails[i + 1][j].f == maxFloat || cellDetails[i + 1][j].f > fNew) { openList.insert(make_pair(fNew, make_pair(i + 1, j))); cellDetails[i + 1][j].f = fNew; cellDetails[i + 1][j].g = gNew; cellDetails[i + 1][j].h = hNew; cellDetails[i + 1][j].parent_i = i; cellDetails[i + 1][j].parent_j = j; } } } //----------- 3rd Successor (East) ------------ if (isValid(i, j + 1) == true) { if (isDestination(i, j + 1, dest) == true) { cellDetails[i][j + 1].parent_i = i; cellDetails[i][j + 1].parent_j = j; //printf("The destination cell is found\n"); tracePath(cellDetails, dest); foundDest = true; return; } else if (closedList[i][j + 1] == false) { gNew = cellDetails[i][j].g + waga; hNew = calculateHValue(i, j + 1, dest); fNew = gNew + hNew; if (cellDetails[i][j + 1].f == maxFloat || cellDetails[i][j + 1].f > fNew) { openList.insert(make_pair(fNew, make_pair(i, j + 1))); cellDetails[i][j + 1].f = fNew; cellDetails[i][j + 1].g = gNew; cellDetails[i][j + 1].h = hNew; cellDetails[i][j + 1].parent_i = i; cellDetails[i][j + 1].parent_j = j; } } } //----------- 4th Successor (West) ------------ if (isValid(i, j - 1) == true) { if (isDestination(i, j - 1, dest) == true) { cellDetails[i][j - 1].parent_i = i; cellDetails[i][j - 1].parent_j = j; //printf("The destination cell is found\n"); tracePath(cellDetails, dest); foundDest = true; return; } else if (closedList[i][j - 1] == false) { gNew = cellDetails[i][j].g + waga; hNew = calculateHValue(i, j - 1, dest); fNew = gNew + hNew; if (cellDetails[i][j - 1].f == maxFloat || cellDetails[i][j - 1].f > fNew) { openList.insert(make_pair(fNew, make_pair(i, j - 1))); cellDetails[i][j - 1].f = fNew; cellDetails[i][j - 1].g = gNew; cellDetails[i][j - 1].h = hNew; cellDetails[i][j - 1].parent_i = i; cellDetails[i][j - 1].parent_j = j; } } } } /*if (foundDest == false) printf("Failed to find the Destination Cell\n");*/ return; } void gogo(int endX,int endY) { updatePola(); Sleep(1000); int grid[27][27]; for (int i = 0; i < 27; i++) { for (int j = 0; j < 27; j++) { grid[i][j] = 0; } } Pair src = make_pair(pozycjaTraktoraX, pozycjaTraktoraY); Pair dest = make_pair(endX, endY); aStarSearch(grid, src, dest); } void test1() { pole[1][3][0] = 'B'; pole[1][3][1] = '9'; pole[3][1][0] = 'B'; pole[3][1][1] = '9'; } void test2() { for (int i = 1; i < 26; i++) { for (int j = 1; j < i; j++) { pole[i][j][0] = 'B'; pole[i][j][1] = '9'; } } test1(); updatePola(); //generowanie kodów dla buraków for(int i=0;i<27;i++) { for(int j=0;j<27;j++) { if (pole[i][j][0] == 'B') { kod_genetyczny[i][j] = przypiszKod(); } } } } void start1() { int goalX = 3, goalY = 4; test1(); pole[1][1][0] = 'T'; pole[1][1][1] = '1'; pole[goalY][goalX][0] = 'G'; pole[goalY][goalX][1] = '9'; gogo(goalX, goalY); } void start2() { int goalX = 6, goalY = 6; test2(); pole[1][1][0] = 'T'; pole[1][1][1] = '1'; pole[goalY][goalX][0] = 'G'; pole[goalY][goalX][1] = '9'; gogo(goalX, goalY); } void start3() { int goalX = 6, goalY = 9; test2(); pole[1][1][0] = 'T'; pole[1][1][1] = '1'; pole[goalY][goalX][0] = 'G'; pole[goalY][goalX][1] = '9'; gogo(goalX, goalY); } int main() { srand(time(0)); SetWindow(50, 30); //create pola// for (int i = 0; i < 27; i++) { pole[i][0][0] = '#'; pole[0][i][0] = '#'; pole[26][i][0] = '#'; pole[i][26][0] = '#'; pole[i][0][1] = '9'; pole[0][i][1] = '9'; pole[26][i][1] = '9'; pole[i][26][1] = '9'; } for (int i = 1; i < 26; i++) { for (int j = 1; j < 26; j++) { pole[i][j][0] = '.'; pole[i][j][1] = '1'; } } for (int i = 0; i < 25; i++) { pole[i + 1][i + 1][0] = 'B'; pole[i + 1][i + 1][1] = '9'; } updatePola(); //UWAGA - generowanie kodow dla burakow jest w test2! start3(); // testy start 1-3 //---------start---------// bool traktorDziala = true; char akcja; do { akcja = _getch(); if (akcja == 'w' || akcja == 's' || akcja == 'a' || akcja == 'd') { Move(akcja); } if (akcja == '0') { traktorDziala = false; } cout << "Zebrane buraki: " << score << endl; if(score>=rozmiarPopulacji) { score = 0; delete[] doSadzenia; string * doSadzenia = new string[20]; for(int i = 0;i<20;i++) { doSadzenia[i] = "000000000"; } genetic_algorithm(zebrane, rozmiarPopulacji, rozmiarPopulacji - 5, doSadzenia, 20); delete[] zebrane; string * zebrane = new string[rozmiarPopulacji]; for(int i=0;i<20;i++) { cout << doSadzenia[i] << endl; } } } while (traktorDziala); //---------end---------// return 0; }