simu.py

import libtcodpy as libtcod

# actual size of the window
SCREEN_WIDTH = 80
SCREEN_HEIGHT = 50

# size of the map
MAP_WIDTH = 80
MAP_HEIGHT = 45

# parameters for dungeon generator
ROOM_MAX_SIZE = 10
ROOM_MIN_SIZE = 6
MAX_ROOMS = 30


FOV_ALGO = 0  # default FOV algorithm
FOV_LIGHT_WALLS = True  # light walls or not
TORCH_RADIUS = 10

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, color):
        self.x = x
        self.y = y
        self.char = char
        self.color = color

    def move(self, dx, dy):
        # move by the given amount, if the destination is not blocked
        if not map[self.x + dx][self.y + dy].blocked:
            self.x += dx
            self.y += dy

    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)


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, 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
                break

        if not failed:
            # this means there are no intersections, so this room is valid

            # "paint" it to the map's tiles
            create_room(new_room)

            # center coordinates of new room, will be useful later
            (new_x, new_y) = new_room.center()

            if num_rooms == 0:
                # this is the first room, where the player starts at
                player.x = new_x
                player.y = new_y
            else:
                # 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)
                else:
                    # first move vertically, then horizontally
                    create_v_tunnel(prev_y, new_y, prev_x)
                    create_h_tunnel(prev_x, new_x, new_y)

            # finally, append the new room to the list
            rooms.append(new_room)
            num_rooms += 1


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)
                        else:
                            libtcod.console_set_char_background(con, x, y, color_dark_ground, libtcod.BKGND_SET)
                else:
                    # it's visible
                    if wall:
                        libtcod.console_set_char_background(con, x, y, color_light_wall, libtcod.BKGND_SET )
                    else:
                        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
    for object in objects:
        object.draw()

    # blit the contents of "con" to the root console
    libtcod.console_blit(con, 0, 0, SCREEN_WIDTH, SCREEN_HEIGHT, 0, 0, 0)


def handle_keys():
    global fov_recompute

    # key = libtcod.console_check_for_keypress()  # real-time
    key = libtcod.console_wait_for_keypress(True)  # turn-based

    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 True  # exit game

    # movement keys
    if libtcod.console_is_key_pressed(libtcod.KEY_UP):
        player.move(0, -1)
        fov_recompute = True

    elif libtcod.console_is_key_pressed(libtcod.KEY_DOWN):
        player.move(0, 1)
        fov_recompute = True

    elif libtcod.console_is_key_pressed(libtcod.KEY_LEFT):
        player.move(-1, 0)
        fov_recompute = True

    elif libtcod.console_is_key_pressed(libtcod.KEY_RIGHT):
        player.move(1, 0)
        fov_recompute = True


# # # # # # # # # # # # # # # # # # # # # # # # # # # # # # # # # # # # # # # # # # # # #
#  Initialization & Main Loop
# # # # # # # # # # # # # # # # # # # # # # # # # # # # # # # # # # # # # # # # # # # # #

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)
libtcod.sys_set_fps(LIMIT_FPS)
con = libtcod.console_new(SCREEN_WIDTH, SCREEN_HEIGHT)

# create object representing the player
player = Object(SCREEN_WIDTH/2, SCREEN_HEIGHT/2, '@', libtcod.white)

# create an NPC
npc = Object(SCREEN_WIDTH/2 - 5, SCREEN_HEIGHT/2, '@', libtcod.yellow)

# the list of objects with those two
objects = [npc, player]

# generate map (at this point it's not drawn to the screen)
make_map()

# 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)


fov_recompute = True

while not libtcod.console_is_window_closed():

    # render the screen
    render_all()

    libtcod.console_flush()

    # erase all objects at their old locations, before they move
    for object in objects:
        object.clear()

    # handle keys and exit game if needed
    exit = handle_keys()
    if exit:
        break