#include "Canvas.hpp" #include "Game.hpp" #include "Scaling.hpp" #include #include #include namespace pacman { Canvas::Canvas() : window(sf::VideoMode((viewDimensions().width / 2.0), (viewDimensions().height / 2.0)), "Pacman", sf::Style::Titlebar | sf::Style::Close), view(sf::FloatRect(0, 0, viewDimensions().width, viewDimensions().height)) { window.setView(view); window.setFramerateLimit(60); window.setVerticalSyncEnabled(true); // We render the game in view at twice the native resolution, // Then project it on a scaled window - on some mac we get the // scaling factor of the window to adjust the resolution const auto scale = scaling_factor_for_window(window.getSystemHandle()); const auto width = viewDimensions().width / 2.0 * scale; const auto height = viewDimensions().height / 2.0 * scale; window.setSize(sf::Vector2u(width, height)); maze_texture = loadTexture("maze.png"); sprites_texture = loadTexture("sprites32.png"); game_font = loadFont("retro_font.ttf"); } void Canvas::update(const GameState & gameState, const Score & score) { clear(); renderMaze(); renderPellets(gameState.pellets); renderSuperPellets(gameState.superPellets); renderGhost(gameState.blinky); renderGhost(gameState.pinky); renderGhost(gameState.inky); renderGhost(gameState.clyde); renderScore(score.points); renderLives(score.lives); renderPacMan(gameState.pacMan); render(); } void Canvas::clear() { window.clear(sf::Color::Black); } void Canvas::render() { window.display(); } std::optional Canvas::pollEvent() { sf::Event event{}; if (window.pollEvent(event)) return event; return std::nullopt; } void Canvas::renderMaze() { Sprite maze; maze.setTexture(maze_texture); maze.setTextureRect(sf::IntRect{ 0, 0, MAZE_WIDTH, MAZE_HEIGHT }); maze.setScale(MAZE_SCALE_UP, MAZE_SCALE_UP); maze.setPosition(LEFT_MARGIN, TOP_MARGIN); window.draw(maze); } void Canvas::renderPellets(const Pellets & pellets) { Sprite pellet = getSprite(pellets.currentSprite()); std::vector pelletPositions = pellets.currentPositions(); for (const auto & pos : pelletPositions) { renderSprite(pellet, gridPositionToPosition(pos)); } } void Canvas::renderSuperPellets(const SuperPellets & superPellets) { Sprite pellet = getSprite(superPellets.currentSprite()); std::vector superPelletPositions = superPellets.currentPositions(); for (const auto & pos : superPelletPositions) { renderSprite(pellet, gridPositionToPosition(pos)); } } void Canvas::renderPacMan(const PacMan & pac_man) { Sprite pacmanSprite = getSprite(pac_man.currentSprite()); const auto & pos = pac_man.position(); renderSprite(pacmanSprite, pos); } void Canvas::renderGhost(const Ghost & ghost) { Sprite sprite = getSprite(ghost.currentSprite()); const auto & pos = ghost.position(); renderSprite(sprite, pos); } void Canvas::renderScore(int score) { const int x = (LEFT_MARGIN + TARGET_MAZE_WIDTH + LEFT_MARGIN); const int y = (TOP_MARGIN * 2); sf::Text text; text.setPosition(x, y); text.setFont(game_font); text.setString(fmt::format("SCORE\n{}", score)); text.setCharacterSize(40); text.setFillColor(sf::Color::White); window.draw(text); } void Canvas::renderLives(int lives) { constexpr GridPosition liveSprite = Atlas::pacman_left_narrow; const size_t x = (LEFT_MARGIN + TARGET_MAZE_WIDTH + LEFT_MARGIN); const size_t y = TARGET_MAZE_HEIGHT; Sprite pacmanSprite = getSprite(liveSprite); for (int i = 0; i < lives - 1; i++) { size_t life_position = i * SPRITE_WIDTH * 1.5; GridPosition pos{ x + life_position, y }; pacmanSprite.setPosition(pos.x, pos.y); window.draw(pacmanSprite); } } Rect Canvas::viewDimensions() { const double width = (LEFT_MARGIN + TARGET_MAZE_WIDTH + SCORE_WIDTH); const double height = (TOP_MARGIN + TARGET_MAZE_HEIGHT + BOTTOM_MARGIN); return { 0, 0, int(width), int(height) }; } Sprite Canvas::getSprite(GridPosition coordinate) const { sf::Sprite sprite; sprite.setTexture(sprites_texture); sprite.setTextureRect(sf::IntRect{ int(coordinate.x * SPRITE_WIDTH), int(coordinate.y * SPRITE_HEIGHT), SPRITE_WIDTH, SPRITE_HEIGHT }); return sprite; } void Canvas::renderSprite(Sprite sprite, Position pos) { pos.x = LEFT_MARGIN + (pos.x * SPRITE_WIDTH); pos.y = TOP_MARGIN + (pos.y * SPRITE_HEIGHT); sprite.setPosition(pos.x, pos.y); window.draw(sprite); } static void exitFailure(const std::string & message) { fmt::print("{}\n", message); exit(1); } sf::Texture Canvas::loadTexture(std::string_view path) { sf::Texture texture; if (!texture.loadFromFile(std::string{ path })) { exitFailure(fmt::format("Failed to load image {}", path)); } return texture; } sf::Font Canvas::loadFont(std::string_view path) { sf::Font font; if (!font.loadFromFile("retro_font.ttf")) { exitFailure(fmt::format("Failed to load font {}", path)); } return font; } } // namespace pacman