global_match_memory/Finished_Memory_Mouse.py

import pygame
import random
import sys
import os

# -------------------------------
# Country–Capital Memory Game
# -------------------------------

CARD_BACK_COLOR = (100, 100, 200)
CARD_FRONT_COLOR = (230, 230, 250)
MATCH_COLOR = (120, 200, 120)
TEXT_COLOR = (0, 0, 0)
BG_COLOR = (50, 50, 80)
SCREEN_WIDTH, SCREEN_HEIGHT = 800, 600
FPS = 30
# Design-Bild (für Kartenrückseite + optionalen Hintergrund)
DESIGN_FILE = "GlobalHintergrund.png"



class MemoryGame:
    def __init__(self):
        self.deck = []
        self.pair_map = {}
        self.matched = []
        self.revealed = []
        self.scores = [0, 0]
        self.current_player = 0
        self.font = None
        self.card_rects = []
        self.selected = []
        self.found_pairs = 0
        self.total_pairs = 0
        self.running = True
        self.awaiting_confirmation = False
        self.confirmation_result = None
        self.correct_answer_expected = None
        self.state = "continent"  # continent → americas → difficulty → pairs → game
        self.buttons = []
        self.selected_continents = []
        self.level = None
        self.pair_count = 6  # Default

    # -------------------------------
    # Card Loading
    # -------------------------------
    def load_cards(self, filename):
        """Loads pairs from a text file."""
        if not os.path.exists(filename):
            print(f"⚠️ File not found: {filename}")
            return []

        pairs = []
        with open(filename, "r", encoding="utf-8") as f:
            for line in f:
                parts = line.strip().split()
                if len(parts) >= 2:
                    pairs.append((parts[0], parts[1]))
        return pairs

    def prepare_deck(self):
        """Loads all relevant continent + difficulty files."""
        self.deck = []
        for continent in self.selected_continents:
            base = continent
            if self.level == "Easy":
                self.deck += self.load_cards(base + "-major.txt")
            elif self.level == "Normal":
                self.deck += self.load_cards(base + "-major.txt")
                self.deck += self.load_cards(base + "-Minor.txt")
            elif self.level == "Hard":
                self.deck += self.load_cards(base + "-major.txt")
                self.deck += self.load_cards(base + "-Minor.txt")
                self.deck += self.load_cards(base + "-Dependent.txt")

        if not self.deck:
            print("⚠️ No cards loaded, check text files.")
            sys.exit()

        random.shuffle(self.deck)
        # Limit to selected pair count
        self.deck = self.deck[:self.pair_count]

    def setup_game(self):
        self.cards = []
        self.pair_map = {}
        for country, capital in self.deck:
            self.cards.append(country)
            self.cards.append(capital)
            self.pair_map[country] = capital
            self.pair_map[capital] = country
        random.shuffle(self.cards)
        self.matched = [False] * len(self.cards)
        self.revealed = [False] * len(self.cards)
        self.total_pairs = len(self.deck)
        self.card_rects = []
        self.selected = []

        cols = 4
        rows = (len(self.cards) + cols - 1) // cols
        margin = 10
        card_width = (SCREEN_WIDTH - (cols + 1) * margin) // cols
        card_height = (SCREEN_HEIGHT - (rows + 1) * margin - 100) // rows
        y_offset = 80

        for i, _ in enumerate(self.cards):
            col = i % cols
            row = i // cols
            x = margin + col * (card_width + margin)
            y = y_offset + margin + row * (card_height + margin)
            rect = pygame.Rect(x, y, card_width, card_height)
            self.card_rects.append(rect)

    # -------------------------------
    # Drawing Menus
    # -------------------------------
    def draw_menu(self, screen, title, options):
        screen.fill(BG_COLOR)
        title_text = self.font.render(title, True, (255, 255, 255))
        screen.blit(title_text, (SCREEN_WIDTH // 2 - title_text.get_width() // 2, 100))
        self.buttons = []

        for i, option in enumerate(options):
            rect = pygame.Rect(SCREEN_WIDTH // 2 - 150, 200 + i * 70, 300, 50)
            pygame.draw.rect(screen, (100, 100, 250), rect)
            pygame.draw.rect(screen, (255, 255, 255), rect, 2)
            text = self.font.render(option, True, (255, 255, 255))
            screen.blit(text, (rect.centerx - text.get_width() // 2, rect.centery - text.get_height() // 2))
            self.buttons.append((rect, option))
        pygame.display.flip()

    def draw_game(self, screen):
        screen.fill(BG_COLOR)
        title = self.font.render(f"Player {self.current_player + 1}'s turn", True, (255, 255, 255))
        screen.blit(title, (20, 20))
        score_text = self.font.render(f"Scores: P1={self.scores[0]}  P2={self.scores[1]}", True, (200, 200, 200))
        screen.blit(score_text, (20, 50))

        for i, rect in enumerate(self.card_rects):
            if self.matched[i]:
                color = MATCH_COLOR
            elif self.revealed[i]:
                color = CARD_FRONT_COLOR
            else:
                color = CARD_BACK_COLOR
            pygame.draw.rect(screen, color, rect)
            pygame.draw.rect(screen, (0, 0, 0), rect, 2)
            if self.revealed[i] or self.matched[i]:
                text = self.font.render(self.cards[i], True, TEXT_COLOR)
                text_rect = text.get_rect(center=rect.center)
                screen.blit(text, text_rect)

        if self.awaiting_confirmation:
            self.draw_confirmation_box(screen)
        pygame.display.flip()

    def draw_confirmation_box(self, screen):                            #y-axis Box
        box_rect = pygame.Rect(SCREEN_WIDTH // 2 - 150, SCREEN_HEIGHT // 2 - 320, 300, 160)
        pygame.draw.rect(screen, (250, 250, 250), box_rect)
        pygame.draw.rect(screen, (0, 0, 0), box_rect, 3)
        text = self.font.render("Is that correct?", True, (0, 0, 0))
        screen.blit(text, (box_rect.centerx - text.get_width() // 2, box_rect.y + 20))

        yes_rect = pygame.Rect(box_rect.x + 50, box_rect.y + 90, 80, 40)
        no_rect = pygame.Rect(box_rect.x + 170, box_rect.y + 90, 80, 40)
        pygame.draw.rect(screen, (0, 200, 0), yes_rect)
        pygame.draw.rect(screen, (200, 0, 0), no_rect)
        yes_text = self.font.render("Yes", True, (255, 255, 255))
        no_text = self.font.render("No", True, (255, 255, 255))
        screen.blit(yes_text, (yes_rect.centerx - yes_text.get_width() // 2, yes_rect.centery - yes_text.get_height() // 2))
        screen.blit(no_text, (no_rect.centerx - no_text.get_width() // 2, no_rect.centery - no_text.get_height() // 2))
        self.yes_rect, self.no_rect = yes_rect, no_rect

    # -------------------------------
    # Handling Clicks
    # -------------------------------
    def handle_click(self, pos):
        if self.state in ["continent", "americas", "difficulty", "pairs"]:
            for rect, option in self.buttons:
                if rect.collidepoint(pos):
                    if self.state == "continent":
                        if option == "Americas":
                            self.state = "americas"
                        elif option == "All Continents":
                            self.selected_continents = ["Europe", "Asia", "Africa", "Oceania", "North-America", "South-America"]
                            self.state = "difficulty"
                        else:
                            self.selected_continents = [option]
                            self.state = "difficulty"

                    elif self.state == "americas":
                        if option == "North-America":
                            self.selected_continents = ["North-America"]
                        elif option == "South-America":
                            self.selected_continents = ["South-America"]
                        elif option == "Americas":
                            self.selected_continents = ["North-America", "South-America"]
                        self.state = "difficulty"

                    elif self.state == "difficulty":
                        self.level = option
                        self.state = "pairs"

                    elif self.state == "pairs":
                        self.pair_count = int(option)
                        self.prepare_deck()
                        self.setup_game()
                        self.state = "game"
                    return

        elif self.state == "game":
            if self.awaiting_confirmation:
                if self.yes_rect.collidepoint(pos):
                    self.confirmation_result = "yes"
                elif self.no_rect.collidepoint(pos):
                    self.confirmation_result = "no"
                return

            for i, rect in enumerate(self.card_rects):
                if rect.collidepoint(pos) and not self.revealed[i] and not self.matched[i]:
                    self.revealed[i] = True
                    self.selected.append(i)
                    return

    # -------------------------------
    # Game Logic    Most important
    # -------------------------------
    def check_selected(self):
        if self.state != "game":
            return

        # Wenn zwei Karten ausgewählt wurden → prüfen
        if len(self.selected) == 2 and not self.awaiting_confirmation:
            a, b = self.selected
            is_match = self.pair_map.get(self.cards[a]) == self.cards[b]
            self.correct_answer_expected = "yes" if is_match else "no"
            self.awaiting_confirmation = True

        # Wenn der Spieler im "Is that correct?"-Dialog geantwortet hat
        elif self.awaiting_confirmation and self.confirmation_result:
            a, b = self.selected
            expected = self.correct_answer_expected
            player_correct = self.confirmation_result == expected

            if player_correct:
                # Spieler hat korrekt geantwortet
                if expected == "yes":
                    # Richtiges Paar bestätigt
                    self.matched[a] = self.matched[b] = True
                    self.scores[self.current_player] += 1
                    self.found_pairs += 1
                else:
                    # "No" richtig bestätigt → kein Paar
                    self.revealed[a] = self.revealed[b] = False
            else:
                # Spieler hat sich vertan → Karten umdrehen & Punkt abziehen
                self.scores[self.current_player] -= 1
                self.revealed[a] = self.revealed[b] = False

            # Reset für nächsten Zug
            self.awaiting_confirmation = False
            self.confirmation_result = None
            self.selected = []
            self.current_player = 1 - self.current_player

    # -------------------------------
    # Main Game Loop
    # -------------------------------
    def run(self):
        pygame.init()
        screen = pygame.display.set_mode((SCREEN_WIDTH, SCREEN_HEIGHT))
        pygame.display.set_caption("Country–Capital Memory Game")
        clock = pygame.time.Clock()
        self.font = pygame.font.SysFont(None, 32)

        while self.running:
            for event in pygame.event.get():
                if event.type == pygame.QUIT:
                    self.running = False
                elif event.type == pygame.MOUSEBUTTONDOWN:
                    self.handle_click(event.pos)

            if self.state == "continent":
                self.draw_menu(screen, "Select Continent", ["Europe", "Americas", "Asia", "Africa", "Oceania", "All Continents"])
            elif self.state == "americas":
                self.draw_menu(screen, "Select Region", ["North-America", "South-America", "Americas"])
            elif self.state == "difficulty":
                self.draw_menu(screen, "Select Difficulty", ["Easy", "Normal", "Hard"])
            elif self.state == "pairs":
                self.draw_menu(screen, "Select Number of Pairs", ["4", "6", "8", "10", "12"])
            elif self.state == "game":
                self.draw_game(screen)
                self.check_selected()
                if self.found_pairs == self.total_pairs:
                    self.display_winner(screen)
                    pygame.display.flip()
                    pygame.time.wait(4000)
                    self.running = False

            clock.tick(FPS)

        pygame.quit()
        sys.exit()

    # -------------------------------
    # Winner Display
    # -------------------------------
    def display_winner(self, screen):
        if self.scores[0] > self.scores[1]:
            text = "🏆 Player 1 Wins!"
        elif self.scores[1] > self.scores[0]:
            text = "🏆 Player 2 Wins!"
        else:
            text = "🤝 Draw!"
        win_text = self.font.render(text, True, (255, 255, 0))
        rect = win_text.get_rect(center=(SCREEN_WIDTH // 2, SCREEN_HEIGHT // 2))
        screen.blit(win_text, rect)


# -------------------------------
# Run the Game
# -------------------------------
if __name__ == "__main__":
    game = MemoryGame()
    game.run()