Complete Roguelike Tutorial, using python+libtcod, part 10 code

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This is part of a series of tutorials; the main page can be found here.

The tutorial uses libtcod version 1.6.0 and above.

If you choose to use 1.5.1, you can find the old version here.
If you choose to use 1.5.0, you can find the old version here.

Main menu and saving

import libtcodpy as libtcod
import math
import textwrap
import shelve
#actual size of the window
#size of the map
#sizes and coordinates relevant for the GUI
#parameters for dungeon generator
#spell values
FOV_ALGO = 0  #default FOV algorithm
FOV_LIGHT_WALLS = True  #light walls or not
LIMIT_FPS = 20  #20 frames-per-second maximum
color_dark_wall = libtcod.Color(0, 0, 100)
color_light_wall = libtcod.Color(130, 110, 50)
color_dark_ground = libtcod.Color(50, 50, 150)
color_light_ground = libtcod.Color(200, 180, 50)
class Tile:
    #a tile of the map and its properties
    def __init__(self, blocked, block_sight = None):
        self.blocked = blocked
        #all tiles start unexplored
        self.explored = False
        #by default, if a tile is blocked, it also blocks sight
        if block_sight is None: block_sight = blocked
        self.block_sight = block_sight
class Rect:
    #a rectangle on the map. used to characterize a room.
    def __init__(self, x, y, w, h):
        self.x1 = x
        self.y1 = y
        self.x2 = x + w
        self.y2 = y + h
    def center(self):
        center_x = (self.x1 + self.x2) / 2
        center_y = (self.y1 + self.y2) / 2
        return (center_x, center_y)
    def intersect(self, other):
        #returns true if this rectangle intersects with another one
        return (self.x1 <= other.x2 and self.x2 >= other.x1 and
                self.y1 <= other.y2 and self.y2 >= other.y1)
class Object:
    #this is a generic object: the player, a monster, an item, the stairs...
    #it's always represented by a character on screen.
    def __init__(self, x, y, char, name, color, blocks=False, fighter=None, ai=None, item=None):
        self.x = x
        self.y = y
        self.char = char = name
        self.color = color
        self.blocks = blocks
        self.fighter = fighter
        if self.fighter:  #let the fighter component know who owns it
            self.fighter.owner = self
 = ai
        if  #let the AI component know who owns it
   = self
        self.item = item
        if self.item:  #let the Item component know who owns it
            self.item.owner = self
    def move(self, dx, dy):
        #move by the given amount, if the destination is not blocked
        if not is_blocked(self.x + dx, self.y + dy):
            self.x += dx
            self.y += dy
    def move_towards(self, target_x, target_y):
        #vector from this object to the target, and distance
        dx = target_x - self.x
        dy = target_y - self.y
        distance = math.sqrt(dx ** 2 + dy ** 2)
        #normalize it to length 1 (preserving direction), then round it and
        #convert to integer so the movement is restricted to the map grid
        dx = int(round(dx / distance))
        dy = int(round(dy / distance))
        self.move(dx, dy)
    def distance_to(self, other):
        #return the distance to another object
        dx = other.x - self.x
        dy = other.y - self.y
        return math.sqrt(dx ** 2 + dy ** 2)
    def distance(self, x, y):
        #return the distance to some coordinates
        return math.sqrt((x - self.x) ** 2 + (y - self.y) ** 2)
    def send_to_back(self):
        #make this object be drawn first, so all others appear above it if they're in the same tile.
        global objects
        objects.insert(0, self)
    def draw(self):
        #only show if it's visible to the player
        if libtcod.map_is_in_fov(fov_map, self.x, self.y):
            #set the color and then draw the character that represents this object at its position
            libtcod.console_set_default_foreground(con, self.color)
            libtcod.console_put_char(con, self.x, self.y, self.char, libtcod.BKGND_NONE)
    def clear(self):
        #erase the character that represents this object
        libtcod.console_put_char(con, self.x, self.y, ' ', libtcod.BKGND_NONE)
class Fighter:
    #combat-related properties and methods (monster, player, NPC).
    def __init__(self, hp, defense, power, death_function=None):
        self.max_hp = hp
        self.hp = hp
        self.defense = defense
        self.power = power
        self.death_function = death_function
    def attack(self, target):
        #a simple formula for attack damage
        damage = self.power - target.fighter.defense
        if damage > 0:
            #make the target take some damage
            message( + ' attacks ' + + ' for ' + str(damage) + ' hit points.')
            message( + ' attacks ' + + ' but it has no effect!')
    def take_damage(self, damage):
        #apply damage if possible
        if damage > 0:
            self.hp -= damage
            #check for death. if there's a death function, call it
            if self.hp <= 0:
                function = self.death_function
                if function is not None:
    def heal(self, amount):
        #heal by the given amount, without going over the maximum
        self.hp += amount
        if self.hp > self.max_hp:
            self.hp = self.max_hp

class BasicMonster:
    #AI for a basic monster.
    def take_turn(self):
        #a basic monster takes its turn. if you can see it, it can see you
        monster = self.owner
        if libtcod.map_is_in_fov(fov_map, monster.x, monster.y):
            #move towards player if far away
            if monster.distance_to(player) >= 2:
                monster.move_towards(player.x, player.y)
            #close enough, attack! (if the player is still alive.)
            elif player.fighter.hp > 0:

class ConfusedMonster:
    #AI for a temporarily confused monster (reverts to previous AI after a while).
    def __init__(self, old_ai, num_turns=CONFUSE_NUM_TURNS):
        self.old_ai = old_ai
        self.num_turns = num_turns
    def take_turn(self):
        if self.num_turns > 0:  #still confused...
            #move in a random direction, and decrease the number of turns confused
            self.owner.move(libtcod.random_get_int(0, -1, 1), libtcod.random_get_int(0, -1, 1))
            self.num_turns -= 1
        else:  #restore the previous AI (this one will be deleted because it's not referenced anymore)
   = self.old_ai
            message('The ' + + ' is no longer confused!',

class Item:
    #an item that can be picked up and used.
    def __init__(self, use_function=None):
        self.use_function = use_function
    def pick_up(self):
        #add to the player's inventory and remove from the map
        if len(inventory) >= 26:
            message('Your inventory is full, cannot pick up ' + + '.',
            message('You picked up a ' + + '!',
    def drop(self):
        #add to the map and remove from the player's inventory. also, place it at the player's coordinates
        self.owner.x = player.x
        self.owner.y = player.y
        message('You dropped a ' + + '.', libtcod.yellow)
    def use(self):
        #just call the "use_function" if it is defined
        if self.use_function is None:
            message('The ' + + ' cannot be used.')
            if self.use_function() != 'cancelled':
                inventory.remove(self.owner)  #destroy after use, unless it was cancelled for some reason
def is_blocked(x, y):
    #first test the map tile
    if map[x][y].blocked:
        return True
    #now check for any blocking objects
    for object in objects:
        if object.blocks and object.x == x and object.y == y:
            return True
    return False
def create_room(room):
    global map
    #go through the tiles in the rectangle and make them passable
    for x in range(room.x1 + 1, room.x2):
        for y in range(room.y1 + 1, room.y2):
            map[x][y].blocked = False
            map[x][y].block_sight = False
def create_h_tunnel(x1, x2, y):
    global map
    #horizontal tunnel. min() and max() are used in case x1>x2
    for x in range(min(x1, x2), max(x1, x2) + 1):
        map[x][y].blocked = False
        map[x][y].block_sight = False
def create_v_tunnel(y1, y2, x):
    global map
    #vertical tunnel
    for y in range(min(y1, y2), max(y1, y2) + 1):
        map[x][y].blocked = False
        map[x][y].block_sight = False
def make_map():
    global map, objects
    #the list of objects with just the player
    objects = [player]
    #fill map with "blocked" tiles
    map = [[ Tile(True)
        for y in range(MAP_HEIGHT) ]
            for x in range(MAP_WIDTH) ]
    rooms = []
    num_rooms = 0
    for r in range(MAX_ROOMS):
        #random width and height
        w = libtcod.random_get_int(0, ROOM_MIN_SIZE, ROOM_MAX_SIZE)
        h = libtcod.random_get_int(0, ROOM_MIN_SIZE, ROOM_MAX_SIZE)
        #random position without going out of the boundaries of the map
        x = libtcod.random_get_int(0, 0, MAP_WIDTH - w - 1)
        y = libtcod.random_get_int(0, 0, MAP_HEIGHT - h - 1)
        #"Rect" class makes rectangles easier to work with
        new_room = Rect(x, y, w, h)
        #run through the other rooms and see if they intersect with this one
        failed = False
        for other_room in rooms:
            if new_room.intersect(other_room):
                failed = True
        if not failed:
            #this means there are no intersections, so this room is valid
            #"paint" it to the map's tiles

            #center coordinates of new room, will be useful later
            (new_x, new_y) =
            if num_rooms == 0:
                #this is the first room, where the player starts at
                player.x = new_x
                player.y = new_y
                #all rooms after the first:
                #connect it to the previous room with a tunnel
                #center coordinates of previous room
                (prev_x, prev_y) = rooms[num_rooms-1].center()
                #draw a coin (random number that is either 0 or 1)
                if libtcod.random_get_int(0, 0, 1) == 1:
                    #first move horizontally, then vertically
                    create_h_tunnel(prev_x, new_x, prev_y)
                    create_v_tunnel(prev_y, new_y, new_x)
                    #first move vertically, then horizontally
                    create_v_tunnel(prev_y, new_y, prev_x)
                    create_h_tunnel(prev_x, new_x, new_y)
            #add some contents to this room, such as monsters
            #finally, append the new room to the list
            num_rooms += 1
def place_objects(room):
    #choose random number of monsters
    num_monsters = libtcod.random_get_int(0, 0, MAX_ROOM_MONSTERS)
    for i in range(num_monsters):
        #choose random spot for this monster
        x = libtcod.random_get_int(0, room.x1+1, room.x2-1)
        y = libtcod.random_get_int(0, room.y1+1, room.y2-1)

        #only place it if the tile is not blocked
        if not is_blocked(x, y):
            if libtcod.random_get_int(0, 0, 100) < 80:  #80% chance of getting an orc
                #create an orc
                fighter_component = Fighter(hp=10, defense=0, power=3, death_function=monster_death)
                ai_component = BasicMonster()
                monster = Object(x, y, 'o', 'orc', libtcod.desaturated_green,
                    blocks=True, fighter=fighter_component, ai=ai_component)
                #create a troll
                fighter_component = Fighter(hp=16, defense=1, power=4, death_function=monster_death)
                ai_component = BasicMonster()
                monster = Object(x, y, 'T', 'troll', libtcod.darker_green,
                    blocks=True, fighter=fighter_component, ai=ai_component)
    #choose random number of items
    num_items = libtcod.random_get_int(0, 0, MAX_ROOM_ITEMS)
    for i in range(num_items):
        #choose random spot for this item
        x = libtcod.random_get_int(0, room.x1+1, room.x2-1)
        y = libtcod.random_get_int(0, room.y1+1, room.y2-1)
        #only place it if the tile is not blocked
        if not is_blocked(x, y):
            dice = libtcod.random_get_int(0, 0, 100)
            if dice < 70:
                #create a healing potion (70% chance)
                item_component = Item(use_function=cast_heal)
                item = Object(x, y, '!', 'healing potion', libtcod.violet, item=item_component)
            elif dice < 70+10:
                #create a lightning bolt scroll (10% chance)
                item_component = Item(use_function=cast_lightning)
                item = Object(x, y, '#', 'scroll of lightning bolt', libtcod.light_yellow, item=item_component)
            elif dice < 70+10+10:
                #create a fireball scroll (10% chance)
                item_component = Item(use_function=cast_fireball)
                item = Object(x, y, '#', 'scroll of fireball', libtcod.light_yellow, item=item_component)
                #create a confuse scroll (10% chance)
                item_component = Item(use_function=cast_confuse)
                item = Object(x, y, '#', 'scroll of confusion', libtcod.light_yellow, item=item_component)
            item.send_to_back()  #items appear below other objects

def render_bar(x, y, total_width, name, value, maximum, bar_color, back_color):
    #render a bar (HP, experience, etc). first calculate the width of the bar
    bar_width = int(float(value) / maximum * total_width)
    #render the background first
    libtcod.console_set_default_background(panel, back_color)
    libtcod.console_rect(panel, x, y, total_width, 1, False, libtcod.BKGND_SCREEN)
    #now render the bar on top
    libtcod.console_set_default_background(panel, bar_color)
    if bar_width > 0:
        libtcod.console_rect(panel, x, y, bar_width, 1, False, libtcod.BKGND_SCREEN)
    #finally, some centered text with the values
    libtcod.console_set_default_foreground(panel, libtcod.white)
    libtcod.console_print_ex(panel, x + total_width / 2, y, libtcod.BKGND_NONE, libtcod.CENTER,
        name + ': ' + str(value) + '/' + str(maximum))
def get_names_under_mouse():
    global mouse
    #return a string with the names of all objects under the mouse
    (x, y) = (,
    #create a list with the names of all objects at the mouse's coordinates and in FOV
    names = [ for obj in objects
        if obj.x == x and obj.y == y and libtcod.map_is_in_fov(fov_map, obj.x, obj.y)]
    names = ', '.join(names)  #join the names, separated by commas
    return names.capitalize()
def render_all():
    global fov_map, color_dark_wall, color_light_wall
    global color_dark_ground, color_light_ground
    global fov_recompute
    if fov_recompute:
        #recompute FOV if needed (the player moved or something)
        fov_recompute = False
        libtcod.map_compute_fov(fov_map, player.x, player.y, TORCH_RADIUS, FOV_LIGHT_WALLS, FOV_ALGO)
        #go through all tiles, and set their background color according to the FOV
        for y in range(MAP_HEIGHT):
            for x in range(MAP_WIDTH):
                visible = libtcod.map_is_in_fov(fov_map, x, y)
                wall = map[x][y].block_sight
                if not visible:
                    #if it's not visible right now, the player can only see it if it's explored
                    if map[x][y].explored:
                        if wall:
                            libtcod.console_set_char_background(con, x, y, color_dark_wall, libtcod.BKGND_SET)
                            libtcod.console_set_char_background(con, x, y, color_dark_ground, libtcod.BKGND_SET)
                    #it's visible
                    if wall:
                        libtcod.console_set_char_background(con, x, y, color_light_wall, libtcod.BKGND_SET )
                        libtcod.console_set_char_background(con, x, y, color_light_ground, libtcod.BKGND_SET )
                    #since it's visible, explore it
                    map[x][y].explored = True
    #draw all objects in the list, except the player. we want it to
    #always appear over all other objects! so it's drawn later.
    for object in objects:
        if object != player:
    #blit the contents of "con" to the root console
    libtcod.console_blit(con, 0, 0, MAP_WIDTH, MAP_HEIGHT, 0, 0, 0)
    #prepare to render the GUI panel
    #print the game messages, one line at a time
    y = 1
    for (line, color) in game_msgs:
        libtcod.console_set_default_foreground(panel, color)
        libtcod.console_print_ex(panel, MSG_X, y, libtcod.BKGND_NONE, libtcod.LEFT, line)
        y += 1
    #show the player's stats
    render_bar(1, 1, BAR_WIDTH, 'HP', player.fighter.hp, player.fighter.max_hp,
        libtcod.light_red, libtcod.darker_red)
    #display names of objects under the mouse
    libtcod.console_set_default_foreground(panel, libtcod.light_gray)
    libtcod.console_print_ex(panel, 1, 0, libtcod.BKGND_NONE, libtcod.LEFT, get_names_under_mouse())
    #blit the contents of "panel" to the root console
    libtcod.console_blit(panel, 0, 0, SCREEN_WIDTH, PANEL_HEIGHT, 0, 0, PANEL_Y)
def message(new_msg, color = libtcod.white):
    #split the message if necessary, among multiple lines
    new_msg_lines = textwrap.wrap(new_msg, MSG_WIDTH)
    for line in new_msg_lines:
        #if the buffer is full, remove the first line to make room for the new one
        if len(game_msgs) == MSG_HEIGHT:
            del game_msgs[0]
        #add the new line as a tuple, with the text and the color
        game_msgs.append( (line, color) )
def player_move_or_attack(dx, dy):
    global fov_recompute
    #the coordinates the player is moving to/attacking
    x = player.x + dx
    y = player.y + dy
    #try to find an attackable object there
    target = None
    for object in objects:
        if object.fighter and object.x == x and object.y == y:
            target = object
    #attack if target found, move otherwise
    if target is not None:
        player.move(dx, dy)
        fov_recompute = True
def menu(header, options, width):
    if len(options) > 26: raise ValueError('Cannot have a menu with more than 26 options.')
    #calculate total height for the header (after auto-wrap) and one line per option
    header_height = libtcod.console_get_height_rect(con, 0, 0, width, SCREEN_HEIGHT, header)
    if header == '':
        header_height = 0
    height = len(options) + header_height
    #create an off-screen console that represents the menu's window
    window = libtcod.console_new(width, height)
    #print the header, with auto-wrap
    libtcod.console_set_default_foreground(window, libtcod.white)
    libtcod.console_print_rect_ex(window, 0, 0, width, height, libtcod.BKGND_NONE, libtcod.LEFT, header)
    #print all the options
    y = header_height
    letter_index = ord('a')
    for option_text in options:
        text = '(' + chr(letter_index) + ') ' + option_text
        libtcod.console_print_ex(window, 0, y, libtcod.BKGND_NONE, libtcod.LEFT, text)
        y += 1
        letter_index += 1
    #blit the contents of "window" to the root console
    x = SCREEN_WIDTH/2 - width/2
    y = SCREEN_HEIGHT/2 - height/2
    libtcod.console_blit(window, 0, 0, width, height, 0, x, y, 1.0, 0.7)
    #present the root console to the player and wait for a key-press
    key = libtcod.console_wait_for_keypress(True)
    if key.vk == libtcod.KEY_ENTER and key.lalt:  #(special case) Alt+Enter: toggle fullscreen
        libtcod.console_set_fullscreen(not libtcod.console_is_fullscreen())
    #convert the ASCII code to an index; if it corresponds to an option, return it
    index = key.c - ord('a')
    if index >= 0 and index < len(options): return index
    return None
def inventory_menu(header):
    #show a menu with each item of the inventory as an option
    if len(inventory) == 0:
        options = ['Inventory is empty.']
        options = [ for item in inventory]
    index = menu(header, options, INVENTORY_WIDTH)
    #if an item was chosen, return it
    if index is None or len(inventory) == 0: return None
    return inventory[index].item
def msgbox(text, width=50):
    menu(text, [], width)  #use menu() as a sort of "message box"

def handle_keys():
    global key;
    if key.vk == libtcod.KEY_ENTER and key.lalt:
        #Alt+Enter: toggle fullscreen
        libtcod.console_set_fullscreen(not libtcod.console_is_fullscreen())
    elif key.vk == libtcod.KEY_ESCAPE:
        return 'exit'  #exit game
    if game_state == 'playing':
        #movement keys
        if key.vk == libtcod.KEY_UP:
            player_move_or_attack(0, -1)
        elif key.vk == libtcod.KEY_DOWN:
            player_move_or_attack(0, 1)
        elif key.vk == libtcod.KEY_LEFT:
            player_move_or_attack(-1, 0)
        elif key.vk == libtcod.KEY_RIGHT:
            player_move_or_attack(1, 0)
            #test for other keys
            key_char = chr(key.c)
            if key_char == 'g':
                #pick up an item
                for object in objects:  #look for an item in the player's tile
                    if object.x == player.x and object.y == player.y and object.item:
            if key_char == 'i':
                #show the inventory; if an item is selected, use it
                chosen_item = inventory_menu('Press the key next to an item to use it, or any other to cancel.\n')
                if chosen_item is not None:
            if key_char == 'd':
                #show the inventory; if an item is selected, drop it
                chosen_item = inventory_menu('Press the key next to an item to drop it, or any other to cancel.\n')
                if chosen_item is not None:

            return 'didnt-take-turn'
def player_death(player):
    #the game ended!
    global game_state
    message('You died!',
    game_state = 'dead'
    #for added effect, transform the player into a corpse!
    player.char = '%'
    player.color = libtcod.dark_red
def monster_death(monster):
    #transform it into a nasty corpse! it doesn't block, can't be
    #attacked and doesn't move
    message( + ' is dead!',
    monster.char = '%'
    monster.color = libtcod.dark_red
    monster.blocks = False
    monster.fighter = None = None = 'remains of ' +
def target_tile(max_range=None):
    #return the position of a tile left-clicked in player's FOV (optionally in a range), or (None,None) if right-clicked.
    global key, mouse
    while True:
        #render the screen. this erases the inventory and shows the names of objects under the mouse.
        (x, y) = (,

        if mouse.rbutton_pressed or key.vk == libtcod.KEY_ESCAPE:
            return (None, None)  #cancel if the player right-clicked or pressed Escape

        #accept the target if the player clicked in FOV, and in case a range is specified, if it's in that range
        if (mouse.lbutton_pressed and libtcod.map_is_in_fov(fov_map, x, y) and
            (max_range is None or player.distance(x, y) <= max_range)):
            return (x, y)
def target_monster(max_range=None):
    #returns a clicked monster inside FOV up to a range, or None if right-clicked
    while True:
        (x, y) = target_tile(max_range)
        if x is None:  #player cancelled
            return None
        #return the first clicked monster, otherwise continue looping
        for obj in objects:
            if obj.x == x and obj.y == y and obj.fighter and obj != player:
                return obj
def closest_monster(max_range):
    #find closest enemy, up to a maximum range, and in the player's FOV
    closest_enemy = None
    closest_dist = max_range + 1  #start with (slightly more than) maximum range
    for object in objects:
        if object.fighter and not object == player and libtcod.map_is_in_fov(fov_map, object.x, object.y):
            #calculate distance between this object and the player
            dist = player.distance_to(object)
            if dist < closest_dist:  #it's closer, so remember it
                closest_enemy = object
                closest_dist = dist
    return closest_enemy
def cast_heal():
    #heal the player
    if player.fighter.hp == player.fighter.max_hp:
        message('You are already at full health.',
        return 'cancelled'
    message('Your wounds start to feel better!', libtcod.light_violet)
def cast_lightning():
    #find closest enemy (inside a maximum range) and damage it
    monster = closest_monster(LIGHTNING_RANGE)
    if monster is None:  #no enemy found within maximum range
        message('No enemy is close enough to strike.',
        return 'cancelled'
    #zap it!
    message('A lighting bolt strikes the ' + + ' with a loud thunder! The damage is '
        + str(LIGHTNING_DAMAGE) + ' hit points.', libtcod.light_blue)
def cast_fireball():
    #ask the player for a target tile to throw a fireball at
    message('Left-click a target tile for the fireball, or right-click to cancel.', libtcod.light_cyan)
    (x, y) = target_tile()
    if x is None: return 'cancelled'
    message('The fireball explodes, burning everything within ' + str(FIREBALL_RADIUS) + ' tiles!',
    for obj in objects:  #damage every fighter in range, including the player
        if obj.distance(x, y) <= FIREBALL_RADIUS and obj.fighter:
            message('The ' + + ' gets burned for ' + str(FIREBALL_DAMAGE) + ' hit points.',
def cast_confuse():
    #ask the player for a target to confuse
    message('Left-click an enemy to confuse it, or right-click to cancel.', libtcod.light_cyan)
    monster = target_monster(CONFUSE_RANGE)
    if monster is None: return 'cancelled'
    #replace the monster's AI with a "confused" one; after some turns it will restore the old AI
    old_ai = = ConfusedMonster(old_ai) = monster  #tell the new component who owns it
    message('The eyes of the ' + + ' look vacant, as he starts to stumble around!', libtcod.light_green)
def save_game():
    #open a new empty shelve (possibly overwriting an old one) to write the game data
    file ='savegame', 'n')
    file['map'] = map
    file['objects'] = objects
    file['player_index'] = objects.index(player)  #index of player in objects list
    file['inventory'] = inventory
    file['game_msgs'] = game_msgs
    file['game_state'] = game_state
def load_game():
    #open the previously saved shelve and load the game data
    global map, objects, player, inventory, game_msgs, game_state
    file ='savegame', 'r')
    map = file['map']
    objects = file['objects']
    player = objects[file['player_index']]  #get index of player in objects list and access it
    inventory = file['inventory']
    game_msgs = file['game_msgs']
    game_state = file['game_state']
def new_game():
    global player, inventory, game_msgs, game_state
    #create object representing the player
    fighter_component = Fighter(hp=30, defense=2, power=5, death_function=player_death)
    player = Object(0, 0, '@', 'player', libtcod.white, blocks=True, fighter=fighter_component)
    #generate map (at this point it's not drawn to the screen)
    game_state = 'playing'
    inventory = []
    #create the list of game messages and their colors, starts empty
    game_msgs = []
    #a warm welcoming message!
    message('Welcome stranger! Prepare to perish in the Tombs of the Ancient Kings.',
def initialize_fov():
    global fov_recompute, fov_map
    fov_recompute = True
    #create the FOV map, according to the generated map
    fov_map = libtcod.map_new(MAP_WIDTH, MAP_HEIGHT)
    for y in range(MAP_HEIGHT):
        for x in range(MAP_WIDTH):
            libtcod.map_set_properties(fov_map, x, y, not map[x][y].block_sight, not map[x][y].blocked)
    libtcod.console_clear(con)  #unexplored areas start black (which is the default background color)
def play_game():
    global key, mouse

    player_action = None
    mouse = libtcod.Mouse()
    key = libtcod.Key()
    while not libtcod.console_is_window_closed():
        #render the screen
        #erase all objects at their old locations, before they move
        for object in objects:
        #handle keys and exit game if needed
        player_action = handle_keys()
        if player_action == 'exit':
        #let monsters take their turn
        if game_state == 'playing' and player_action != 'didnt-take-turn':
            for object in objects:
def main_menu():
    img = libtcod.image_load('menu_background.png')
    while not libtcod.console_is_window_closed():
        #show the background image, at twice the regular console resolution
        libtcod.image_blit_2x(img, 0, 0, 0)
        #show the game's title, and some credits!
        libtcod.console_set_default_foreground(0, libtcod.light_yellow)
        libtcod.console_print_ex(0, SCREEN_WIDTH/2, SCREEN_HEIGHT/2-4, libtcod.BKGND_NONE, libtcod.CENTER,
        libtcod.console_print_ex(0, SCREEN_WIDTH/2, SCREEN_HEIGHT-2, libtcod.BKGND_NONE, libtcod.CENTER,
            'By Jotaf')
        #show options and wait for the player's choice
        choice = menu('', ['Play a new game', 'Continue last game', 'Quit'], 24)
        if choice == 0:  #new game
        if choice == 1:  #load last game
                msgbox('\n No saved game to load.\n', 24)
        elif choice == 2:  #quit
libtcod.console_set_custom_font('arial10x10.png', libtcod.FONT_TYPE_GREYSCALE | libtcod.FONT_LAYOUT_TCOD)
libtcod.console_init_root(SCREEN_WIDTH, SCREEN_HEIGHT, 'python/libtcod tutorial', False)
con = libtcod.console_new(MAP_WIDTH, MAP_HEIGHT)
panel = libtcod.console_new(SCREEN_WIDTH, PANEL_HEIGHT)