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snake_game.cpp
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snake_game.cpp
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#include <iostream>
#include <conio.h>
#include <windows.h>
#include <vector>
#include <cstdlib>
#include <ctime>
#include <algorithm>
#include <fstream>
using namespace std;
const int WIDTH = 20;
const int HEIGHT = 20;
int x, y, fruitX, fruitY, score;
vector<pair<int, int>> snake;
enum Direction { STOP = 0, LEFT, RIGHT, UP, DOWN };
Direction dir;
vector<pair<int, int>> obstacles;
int level = 1;
int speed = 100; // Initial speed
// Function declarations
void Setup();
void RespawnFruit();
void CreateObstacles();
void Draw();
void Input();
void Logic();
void GameOver();
void SaveHighScore(int score);
void LoadHighScore(int &highScore);
// Main function
int main() {
srand(static_cast<unsigned int>(time(0)));
Setup();
while (dir != STOP) {
Draw();
Input();
Logic();
Sleep(speed); // Adjust for game speed
}
GameOver();
return 0;
}
// Function definitions
void Setup() {
dir = STOP;
x = WIDTH / 2;
y = HEIGHT / 2;
score = 0;
snake.clear();
snake.push_back(make_pair(x, y));
RespawnFruit();
CreateObstacles();
}
void RespawnFruit() {
do {
fruitX = rand() % WIDTH;
fruitY = rand() % HEIGHT;
} while (find(snake.begin(), snake.end(), make_pair(fruitX, fruitY)) != snake.end() ||
find(obstacles.begin(), obstacles.end(), make_pair(fruitX, fruitY)) != obstacles.end());
}
void CreateObstacles() {
obstacles.clear();
for (int i = 0; i < level; ++i) {
int obsX, obsY;
do {
obsX = rand() % WIDTH;
obsY = rand() % HEIGHT;
} while (find(snake.begin(), snake.end(), make_pair(obsX, obsY)) != snake.end() ||
(obsX == fruitX && obsY == fruitY));
obstacles.push_back(make_pair(obsX, obsY));
}
}
void Draw() {
system("cls"); // Clear the console
cout << string(WIDTH + 2, '#') << endl; // Top border
for (int i = 0; i < HEIGHT; i++) {
for (int j = 0; j < WIDTH; j++) {
if (j == 0) cout << "#"; // Left wall
// Drawing the snake head and body
if (i == y && j == x)
cout << "O"; // Snake head
else if (i == fruitY && j == fruitX)
cout << "F"; // Fruit
else {
bool isSnakePart = false;
for (const auto& part : snake) {
if (part.first == j && part.second == i) {
cout << "o"; // Snake body
isSnakePart = true;
break;
}
}
// Drawing obstacles
if (!isSnakePart) {
bool isObstacle = false;
for (const auto& obs : obstacles) {
if (obs.first == j && obs.second == i) {
cout << "#"; // Obstacle
isObstacle = true;
break;
}
}
if (!isObstacle) cout << " "; // Empty space
}
}
if (j == WIDTH - 1) cout << "#"; // Right wall
}
cout << endl; // End of the row
}
cout << string(WIDTH + 2, '#') << endl; // Bottom border
cout << "Score: " << score << " | Level: " << level << endl;
cout << "Controls: WASD to move | P to pause | X to exit" << endl;
}
void Input() {
if (_kbhit()) {
switch (_getch()) {
case 'a': if (dir != RIGHT) dir = LEFT; break;
case 'd': if (dir != LEFT) dir = RIGHT; break;
case 'w': if (dir != DOWN) dir = UP; break;
case 's': if (dir != UP) dir = DOWN; break;
case 'p':
while (_getch() != 'p'); // Pause until 'p' is pressed again
break;
case 'x': dir = STOP; break;
}
}
}
void Logic() {
int prevX = snake.empty() ? x : snake[0].first;
int prevY = snake.empty() ? y : snake[0].second;
snake.insert(snake.begin(), make_pair(x, y));
switch (dir) {
case LEFT: x--; break;
case RIGHT: x++; break;
case UP: y--; break;
case DOWN: y++; break;
default: break;
}
// Check if the snake eats the fruit
if (x == fruitX && y == fruitY) {
score += 10;
RespawnFruit();
if (score % 50 == 0) { // Increase level every 50 points
level++;
speed = max(50, speed - 10); // Speed up the game
CreateObstacles(); // Add more obstacles
}
} else {
snake.pop_back(); // Remove the last segment if not eating
}
// Wall collision handling
if (x >= WIDTH) x = 0;
else if (x < 0) x = WIDTH - 1;
if (y >= HEIGHT) y = 0;
else if (y < 0) y = HEIGHT - 1;
// Self-collision and obstacle collision
for (size_t i = 1; i < snake.size(); i++) {
if (snake[i].first == x && snake[i].second == y) {
dir = STOP; // Stop the game on collision
}
}
for (const auto& obs : obstacles) {
if (obs.first == x && obs.second == y) {
dir = STOP; // Stop the game on collision with obstacle
}
}
}
void GameOver() {
system("cls");
cout << "Game Over!" << endl;
cout << "Final Score: " << score << endl;
int highScore;
LoadHighScore(highScore);
SaveHighScore(score);
cout << "High Score: " << highScore << endl;
cout << "Press any key to exit...";
_getch();
}
void SaveHighScore(int score) {
int highScore = 0;
ifstream inFile("highscore.txt");
if (inFile.is_open()) {
inFile >> highScore;
inFile.close();
}
if (score > highScore) {
ofstream outFile("highscore.txt");
outFile << score;
outFile.close();
}
}
void LoadHighScore(int &highScore) {
ifstream inFile("highscore.txt");
if (inFile.is_open()) {
inFile >> highScore;
inFile.close();
} else {
highScore = 0; // No high score yet
}
}