def play_game():
player_action = None
#main loop
while True:
render_all()
check_level_up()
#terminal.layer(5)
#terminal.put(10, 10, 24) #place individual tile slime: 160:, troll=162: .
terminal.refresh()
for object in objects:
object.clear()
player_action = handle_keys()
if player_action == 'exit':
save_game()
break
#let monsters take their turn
if game_state == 'playing' and player_action != 'didnt-take-turn':
for object in objects:
if object.ai:
object.ai.take_turn()
def check_level_up():
#see if the player's experience is enough to level up
level_up_xp = LEVEL_UP_BASE + player.level * LEVEL_UP_FACTOR
if player.fighter.xp >= level_up_xp:
#it is! level up
player.level += 1
player.fighter.xp -= level_up_xp
message('Your battle skills have improved! You reached level ' + str(player.level) + '!', 4294967040)
choice = None
while choice == None:
choice = menu('Level up! Choose a stat to raise:\n',
['Constitution (+20 HP, from ' + str(player.fighter.max_hp) + ')',
'Strength (+1 attack, from ' + str(player.fighter.power) + ')',
'Agility (+1 defense, from ' + str(player.fighter.defense) + ')'], LEVEL_SCREEN_WIDTH)
if choice == 0:
player.fighter.base_max_hp += 20
player.fighter.hp += 20
elif choice == 1:
player.fighter.base_power += 1
elif choice == 2:
player.fighter.base_defense += 1
#clear level menu before refresh
terminal.layer(6)
terminal.clear_area(0, 0, MAP_WIDTH, MAP_HEIGHT)
def run(self):
UPDATE_INTERVAL_MS = self.update_interval_ms
UPDATE_PER_FRAME_LIMIT = self.update_per_frame_limit
clock = 0
previous_time = perf_counter()
next_update = 0
proceed = True
while proceed:
current_time = perf_counter()
if current_time - previous_time > (UPDATE_INTERVAL_MS * UPDATE_PER_FRAME_LIMIT):
clock += UPDATE_INTERVAL_MS * UPDATE_PER_FRAME_LIMIT
else:
clock += current_time - previous_time
while clock >= next_update:
time_elapsed = UPDATE_INTERVAL_MS
time_current = next_update
self.update(time_elapsed, time_current)
next_update += UPDATE_INTERVAL_MS
previous_time = perf_counter()
self.render()
if terminal.has_input():
key = terminal.read()
if key is terminal.TK_CLOSE:
proceed = False
else:
proceed = self.process_input(key)
def update_mouse_hovering(self):
mouse_x = bl.state(bl.TK_MOUSE_X)
mouse_y = bl.state(bl.TK_MOUSE_Y)
if mouse_x >= self.x and \
mouse_x <= self.x2 and \
mouse_y >= self.y and \
mouse_y <= self.y2:
self.mouse_hovering = True
else:
self.mouse_hovering = False
def initialize_blt(self):
terminal.open()
terminal.set(
"window: size={}x{}, cellsize={}, title='Roguelike';"
"font: default;"
"input: filter=[keyboard+];"
"".format(str(self.window_width), str(self.window_height), self.cellsize)
)
terminal.clear()
terminal.refresh()
terminal.color("white")
def next_level():
#advance to the next level
global dungeon_level
terminal.clear()
message('You take a moment to rest, and recover your strength.', 4288626687)
player.fighter.heal(player.fighter.max_hp / 2) #heal the player by 50%
dungeon_level += 1
message('After a rare moment of peace, you descend deeper into the horrid caverns.', 4294901760)
make_map() #create a fresh new level!
initialize_fov()
def monster_death(monster):
#transform it into a nasty corpse! it doesn't block, can't be
#attacked and doesn't move
message(monster.name.capitalize() + ' is dead! You again ' + str(monster.fighter.xp) + 'xp.', 4294901760)
monster.char = 22
monster.blocks = False
monster.fighter = None
monster.ai = None
monster.name = 'remains of ' + monster.name
monster.send_to_back()
#clearing monster sprite from its layer, since corpse is not 'fighter' type
terminal.layer(4)
terminal.clear_area(monster.x, monster.y, 1, 1)
def get_names_under_mouse():
#global mouse
#mouse = terminal.read()
#if mouse == terminal.TK_MOUSE_MOVE:
# print terminal.state
#return a string with the names of all objects under the mouse
(x, y) = (terminal.state(terminal.TK_MOUSE_X), terminal.state(terminal.TK_MOUSE_Y)) #!!
#create a list with the names of all objects at the mouse's coordinates and in FOV
names = [obj.name 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 load_game():
#open the previously saved shelve and load the game data
global map, objects, player, stairs, inventory, game_msgs, game_state, dungeon_level
file = shelve.open('savegame', 'r')
map = file['map']
objects = file['objects']
player = objects[file['player_index']] #get index of player in objects list and access it
stairs = objects[file['stairs_index']] #same for the stairs
inventory = file['inventory']
game_msgs = file['game_msgs']
game_state = file['game_state']
dungeon_level = file['dungeon_level']
file.close()
terminal.clear()
initialize_fov()
def color_map(color_list, keylist):
# TODO: List shoudl be tuple ( str , inex )
total_len = keylist[-1]
current_key = 0
color_map = []
for i, key in enumerate(keylist):
color_map.append(bltColor(color_list[i]))
try:
interp_num = keylist[current_key+1] - keylist[current_key] - 1
bias_inc = 1.0 / (interp_num + 2)
print "Bias_iv: {0}".format(bias_inc)
bias = bias_inc
for i in xrange(interp_num):
colorA = bltColor(color_list[current_key]).getRGB()
colorB = bltColor(color_list[current_key+1]).getRGB()
a = max(min(int(colorA[3] + ((colorB[3] - colorA[3]) * bias)), 255), 0)
r = max(min(int(colorA[0] + ((colorB[0] - colorA[0]) * bias)), 255), 0)
g = max(min(int(colorA[1] + ((colorB[1] - colorA[1]) * bias)), 255), 0)
b = max(min(int(colorA[2] + ((colorB[2] - colorA[2]) * bias)), 255), 0)
color_map.append(bltColor(str(terminal.color_from_argb(a, r, g, b))))
#print "Bias_iv: {1} -> {0}".format(bias_inc, i)
bias += bias_inc
current_key+=1
print "InterOp: {0}".format(interp_num)
index += interp_num
except:
pass
print color_map
return color_map
def draw(self):
#set the color and then draw the character that represents this object at its position
if (libtcod.map_is_in_fov(fov_map, self.x, self.y) or
(self.always_visible and map[self.x][self.y].explored)):
#set color and then draw character at location
if self.fighter:
terminal.layer(4)
else:
terminal.layer(3)
terminal.color("#FFFFFF")
terminal.put(self.x, self.y, self.char)
def process_input(self, key):
if key == terminal.TK_Q and terminal.check(terminal.TK_SHIFT):
return False
elif key == terminal.TK_ESCAPE:
return False
if self.state == Game_States.MAIN_MENU:
self.menu_input(key)
elif self.state == Game_States.IN_GAME:
self.in_game_input(key)
return True
def __mul__(self, color2):
if isinstance(color2, bltColor):
r1, g1, b1, a1 = self.getRGB()
r2, g2, b2, a2 = color2.getRGB()
return bltColor(str(terminal.color_from_argb(
a1,
max(min(int(r1 * r2) // 255, 255), 0),
max(min(int(g1 * g2) // 255, 255), 0),
max(min(int(b1 * b2) // 255, 255), 0),
)))
else:
r1, g1, b1, a1 = self.getRGB()
r2, g2, b2, a2 = color2, color2, color2, 1.0
return bltColor(str(terminal.color_from_argb(
a1,
max(min(int(r1 * r2), 255), 0),
max(min(int(g1 * g2), 255), 0),
max(min(int(b1 * b2), 255), 0),
)))
def __sub__(self, color2):
r1, g1, b1, a1 = self.getRGB()
r2, g2, b2, a2 = color2.getRGB()
return bltColor(str(terminal.color_from_argb(
a1,
max(r1 - r2, 0),
max(g1 - g2, 0),
max(b1 - b2, 0),
)))
def __add__(self, color2):
r1, g1, b1, a1 = self.getRGB()
r2, g2, b2, a2 = color2.getRGB()
return bltColor(str(terminal.color_from_argb(
a1,
min(r1 + r2, 255),
min(g1 + g2, 255),
min(b1 + b2, 255),
)))
def blend(self, color2, bias=0.5, alpha=255 ):
"""Returns bltColor halfway between this color and color2"""
colorA = self.getRGB()
colorB = color2.getRGB()
a = max(min(int(colorA[3] + ((colorB[3] - colorA[3]) * bias)), 255), 0)
r = max(min(int(colorA[0] + ((colorB[0] - colorA[0]) * bias)), 255), 0)
g = max(min(int(colorA[1] + ((colorB[1] - colorA[1]) * bias)), 255), 0)
b = max(min(int(colorA[2] + ((colorB[2] - colorA[2]) * bias)), 255), 0)
return bltColor(str(terminal.color_from_argb(a, r, g, b)))
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.
render_all()
terminal.refresh()
key = terminal.read() #temporary halt of operation, wait for keypress/click
#render_all()
(x, y) = (terminal.state(terminal.TK_MOUSE_X), terminal.state(terminal.TK_MOUSE_Y))
#if mouse.rbutton_pressed or key.vk == libtcod.KEY_ESCAPE:
if key == terminal.TK_ESCAPE or key == terminal.TK_MOUSE_RIGHT:
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
if (key == terminal.TK_MOUSE_LEFT 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 clear(self):
#erase the character that represents this object
if self.fighter:
terminal.layer(4)
else:
terminal.layer(3)
terminal.put(self.x, self.y, ' ')
def in_game_input(self, key):
key_released = (terminal.TK_KEY_RELEASED, 0)[terminal.check(terminal.TK_SHIFT)]
if key == terminal.TK_L | key_released:
self.move_pc(1, 0)
elif key == terminal.TK_N | key_released:
self.move_pc(1, 1)
elif key == terminal.TK_J | key_released:
self.move_pc(0, 1)
elif key == terminal.TK_B | key_released:
self.move_pc(-1, 1)
elif key == terminal.TK_H | key_released:
self.move_pc(-1, 0)
elif key == terminal.TK_Y | key_released:
self.move_pc(-1, -1)
elif key == terminal.TK_K | key_released:
self.move_pc(0, -1)
elif key == terminal.TK_U | key_released:
self.move_pc(1, -1)
def debug():
terminal.put(10, 10, 133) #
terminal.print_(11, 10, ': dark wall') # dark wall
terminal.put(10, 11, 130) #
terminal.print_(11, 11, ': light wall') # light wall
terminal.put(10, 12, 136) #
terminal.print_(11, 12, ': dark ground') # dark ground
terminal.put(10, 13, 137) #
terminal.print_(11, 13, ': light ground') # light ground
#terminal.layer(2)
terminal.put(10, 10, 389)
def main_menu():
while True:
terminal.clear()
for y in range(50):
for x in range(80):
terminal.color(1678238975 - x)
terminal.put(x, y, 20)
terminal.refresh()
#show the game's title and some credits
terminal.layer(6)
terminal.color(4294967103)
terminal.print_(SCREEN_WIDTH/2 - 10, SCREEN_HEIGHT/2-4, 'CAVES OF THE SNAILMEN')
terminal.print_(SCREEN_WIDTH/2, SCREEN_HEIGHT-2, 'By Tommy Z')
#show options and wait for player's choice
choice = menu('', ['Play a new game', 'Continue last game', 'Save & Quit'], 24)
if choice == 0: #new game
terminal.clear()
new_game()
play_game()
if choice == 1: #load last game
try:
load_game()
except:
msgbox('\n No saved game to load.\n', 24)
continue
play_game()
elif choice == 2: #quit
terminal.close()
break
def trans(self, alpha_value):
"""Returns a color with the alpha_value"""
r, g, b, a= self.getRGB()
#print alpha_value, r, g, b
alpha_value = max(min(alpha_value, 255), 1)
return bltColor(str(terminal.color_from_argb(alpha_value, r, g, b)))
def draw(drawables):
for obj in drawables:
bl.put(obj.screen_x, obj.screen_y, obj.char)
bl.refresh()
def handle_keys():
#global fov_recompute
# Read keyboard input
global key
key = terminal.read()
if key == terminal.TK_ESCAPE:
# Close terminal
return 'exit'
if game_state == 'playing':
#??? it was 'exit()'
a = 'player moved'
if key == terminal.TK_KP_2:
player_move_or_attack(0, 1)
return a
elif key == terminal.TK_KP_8:
player_move_or_attack(0, -1)
return a
elif key == terminal.TK_KP_6:
player_move_or_attack(1, 0)
return a
elif key == terminal.TK_KP_4:
player_move_or_attack(-1, 0)
return a
elif key == terminal.TK_KP_7:
player_move_or_attack(-1, -1)
return a
elif key == terminal.TK_KP_9:
player_move_or_attack(1, -1)
return a
elif key == terminal.TK_KP_1:
player_move_or_attack(-1, 1)
return a
elif key == terminal.TK_KP_3:
player_move_or_attack(1, 1)
return a
elif key == terminal.TK_KP_5:
return a
else: #test for other keys
if key == terminal.TK_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:
object.item.pick_up()
break
if key == terminal.TK_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:
chosen_item.use()
if key == terminal.TK_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:
chosen_item.drop()
if key == terminal.TK_C:
#show character info
level_up_xp = LEVEL_UP_BASE + player.level * LEVEL_UP_FACTOR
msgbox('Character Information\n\nLevel: ' + str(player.level) +
'\nExperience: ' + str(player.fighter.xp) + ' / ' + str(level_up_xp) +
'\n\nMaximum HP: ' + str(player.fighter.max_hp) +
'\nAttack: ' + str(player.fighter.power) + '\nDefense: ' + str(player.fighter.defense), CHARACTER_SCREEN_WIDTH)
if key == terminal.TK_SHIFT:
key = terminal.read()
if key == terminal.TK_PERIOD and stairs.x == player.x and stairs.y == player.y:
#go down stairs, if the player is on them
next_level()
if key == terminal.TK_BACKSPACE:
debug()
return 'didnt-take-turn'
return 'didnt-take-turn'
def paint(positions):
bl.bkcolor('darker red')
for pos in positions:
bl.put(pos[0], pos[1], ' ')
bl.bkcolor('black')
def main():
global WINDOW_WIDTH, WINDOW_HEIGHT, CELLSIZE
blt.open_()
blt.set_("window: size={}x{}, cellsize={}, title='Grid Test';"
"font: default".format(
str(WINDOW_WIDTH), str(WINDOW_HEIGHT), CELLSIZE))
blt.clear()
blt.refresh()
blt.color("white")
g = Quadrant()
blt.clear()
for x in range(30):
for y in range(30):
if [x, y] in g.all_nodes:
blt.print_(x * 2, y * 2, 'O')
elif [x, y] in g.roads:
# if x != 0 and x != 10 and y != 0 and y != 10:
# blt.layer(1)
# blt.print_(x * 2, y * 2, str(g.roads.index([x, y])))
# blt.layer(0)
# else:
blt.print_(x * 2, y * 2, '+')
blt.refresh()
proceed = True
while proceed:
key = 0
while blt.has_input():
key = blt.read()
if key == blt.TK_CLOSE or key == blt.TK_Q:
proceed = False
blt.close()
def cleanup(self):
terminal.close()
def drawchar(xy, color, alpha=1):
x, y = xy
terminal.color(color.trans(alpha))
#terminal.bkcolor('black')
terminal.put(x, y, 'O')
def __init__(self, color):
#long.__init__(self, terminal.color_from_name(color))
self.colorname = color
self.color = terminal.color_from_name(color)
class AtMan(MapChild):
def __init__(self, x, y, parent_map):
MapChild.__init__(self, x, y, '@', parent_map)
eventhandler.register(self, *ARROW_EVENTS)
def receive_event(self, event):
if event == bl.TK_RIGHT: new_pos = (self.x + 1, self.y)
elif event == bl.TK_LEFT: new_pos = (self.x - 1, self.y)
elif event == bl.TK_UP: new_pos = (self.x, self.y - 1)
elif event == bl.TK_DOWN: new_pos = (self.x, self.y + 1)
self.parent_map.move(self, new_pos)
bl.open()
bl.refresh()
SCREEN_WIDTH = bl.state(bl.TK_WIDTH)
SCREEN_HEIGHT = bl.state(bl.TK_HEIGHT)
the_map = Map(SCREEN_WIDTH, SCREEN_HEIGHT, 3, 3, 9, 9)
at = AtMan(5, 5, the_map)
left_apostrophe = MapChild(0, 1, "'", the_map)
right_apostrophe = MapChild(2, 1, "'", the_map)
dud = MapChild(4, 4, "\u2193", the_map)
the_map.draw_view()
eventhandler.register(the_map, *ARROW_EVENTS + WASD_EVENTS)
menu = ui.Menu(60, 0, SCREEN_WIDTH - 1, SCREEN_HEIGHT - 1)
paint(gridtools.hollow_rectangle(2, 2, 10, 10))
def drawchar(xy, color, alpha=1):
x, y = xy
terminal.color(color.trans(alpha))
#terminal.bkcolor('black')
terminal.put(x, y, 'O')
def ui_draw(ui_elements):
for ui_element in ui_elements:
bl.put(ui_element.x, ui_element.y, CHAR_CORNER_TL)
bl.put(ui_element.x2, ui_element.y, CHAR_CORNER_TR)
bl.put(ui_element.x, ui_element.y2, CHAR_CORNER_BL)
bl.put(ui_element.x2, ui_element.y2, CHAR_CORNER_BR)
for x in range(ui_element.x + 1, ui_element.x2):
bl.put(x, ui_element.y, CHAR_HORIZONTAL)
bl.put(x, ui_element.y2, CHAR_HORIZONTAL)
for y in range(ui_element.y + 1, ui_element.y2):
bl.put(ui_element.x, y, CHAR_VERTICAL)
bl.put(ui_element.x2, y, CHAR_VERTICAL)
terminal.print_(11, 10, ': dark wall') # dark wall
terminal.put(10, 11, 130) #
terminal.print_(11, 11, ': light wall') # light wall
terminal.put(10, 12, 136) #
terminal.print_(11, 12, ': dark ground') # dark ground
terminal.put(10, 13, 137) #
terminal.print_(11, 13, ': light ground') # light ground
#terminal.layer(2)
terminal.put(10, 10, 389)
#############################
# Initialisation #
#############################
terminal.open()
# !! set this \/ for ng
terminal.set("window: size=80x50; window.title='Caves of the Snailmen'; font: tilesets/tiles.png, size=16x16; input: filter=[keyboard, mouse_left]")
#############################
# Main Loop #
#############################
main_menu()
#new_game()
#play_game()
def render_all():
global fov_map, color_dark_wall, color_light_wall
global color_dark_ground, color_light_ground
global fov_recompute, game_msgs
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)
terminal.color("#FFFFFF")
#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
terminal.layer(2)
if map[x][y].explored:
if wall:
terminal.put(x, y, tile_dark_wall)
else:
terminal.put(x, y, tile_dark_ground)
else:
#it's visible
if wall:
terminal.put(x, y, tile_light_wall)
else:
terminal.put(x, y, tile_light_ground)
#since it's visible, explore it
map[x][y].explored = True
#draw all objects in the list, except the player. we want it to
for object in objects:
object.draw()
#prepare to render the GUI text
terminal.layer(6)
terminal.clear_area(0, 0, SCREEN_WIDTH, SCREEN_HEIGHT)
#print the game messages, one line at a time
y = 1
for (line, color) in game_msgs:
terminal.color(color)
terminal.print_(MSG_X, y+PANEL_Y, line)
y += 1
#show the player's hp
render_bar(1, 3, BAR_WIDTH, 'HP', player.fighter.hp, player.fighter.max_hp, 4294917951, 4286513152)
#show xp
level_up_xp = LEVEL_UP_BASE + player.level * LEVEL_UP_FACTOR
render_bar( 1, 4, BAR_WIDTH, 'XP', player.fighter.xp, level_up_xp, 4282384191, 4278222592)
#print dungeon level
terminal.layer(6)
terminal.color(4282335231)
terminal.print_(1,PANEL_Y +1,' S N A I L M A N ')
terminal.color(4294967295)
terminal.print_(1,PANEL_Y + 5, 'Dungeon level ' + str(dungeon_level))
#display names of objects under the mouse
#still on layer 6 ***** (text layer)
terminal.print_(1, PANEL_Y, get_names_under_mouse())
def receive_event(self, event):
bl.printf(0, 0, ' ')
bl.printf(0, 0, str(event))
for w in xrange(width):
for h in xrange(height):
terminal.printf(x + w, y + h, "[U+2588]")
color1 = bltColor("red")
color2 = bltColor("#80905025")
color3 = bltColor("blue")
terminal.open()
terminal.set("window: size=80x25, cellsize=auto, title='Omni: menu';"
"font: default;"
"input: filter={keyboard}")
terminal.composition(True)
alphas = [16, 32, 64,80, 96, 112, 128, 144, 160, 176, 192, 208, 224, 240, 255, 240, 224, 208, 192, 176, 160, 144, 128, 112, 96, 80, 64, 32]
_alphas = cycle(alphas)
terminal.color(terminal.color_from_argb(128, 255,30,30))
drawRect(5,5,10,10)
color10 = bltColor('blue')
def drawRect(x, y, width, height):
for w in xrange(width):
for h in xrange(height):
terminal.printf(x + w, y + h, "[U+2588]")
def render_bar(x, y, total_width, name, value, maximum, bar_color, back_color):
#adjust: move panel to desired location (bottom of console)
y = y + PANEL_Y
#set console to GUI layer
terminal.layer(5)
#render a bar (HP, experience, etc). first calculate the width of the bar
bar_width = int(float(value) / maximum * total_width)
#set total-width back bar color
terminal.color(back_color)
#terminal: draw a row of given length
a = 0
for b in range(total_width):
terminal.put(x + a, y, BAR_CHAR)
a += 1
#now render the bar on top
#set bar itself color
terminal.color(bar_color)
#libtcod.console_set_default_background(panel, bar_color)
if bar_width > 0:
a = 0
for b in range(bar_width):
terminal.put(x + a, y, BAR_CHAR)
a += 1
#finally, some centered text with the values
#first clear previous text, then draw new text, centred.
terminal.color("#FFFFFF")
terminal.layer(6)
terminal.clear_area(x, y, total_width, 1)
bar_center = len(name + ': ' + str(value) + '/' + str(maximum))/2
terminal.print_(x + total_width/2 - bar_center, y, name + ': ' + str(value) + '/' + str(maximum))
def render(self):
terminal.clear()
self.render_viewport()
self.render_UI()
self.render_message_bar()
terminal.refresh()
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)!!!
header_height = len(textwrap.wrap(header, width))
height = len(options) + header_height
#set co-ords of menu
menu_x = SCREEN_WIDTH/2 - width/2
menu_y = SCREEN_HEIGHT/2 - height/2
#paint menu background
terminal.layer(5)
terminal.color(MENU_BACKGROUND_COLOR) #menu
for y_bg in range(height):
for x_bg in range(width):
terminal.put(menu_x + x_bg, menu_y + y_bg, 20)
#print the header, with auto-wrap
terminal.layer(6)
terminal.color('#FFFFFF')
y = 0
for line in textwrap.wrap(header, width):
terminal.print_(menu_x, menu_y + y, line)
y += 1
#position of options, below header (y)
y = menu_y + header_height
letter_index = ord('a')
#print all the options
for option_text in options:
text = '(' + chr(letter_index) + ') ' + option_text
#libtcod.console_print_ex(window, 0, y, libtcod.BKGND_NONE, libtcod.LEFT, text)
terminal.print_(menu_x, y, text)
y += 1
letter_index += 1
#present the root console to the player and wait for a key-press
terminal.refresh()
key = terminal.read() #temporary halt of operation, wait for keypress/click
#clear the menu from screen
terminal.layer(5)
terminal.clear_area(menu_x, menu_y, width, height)
if terminal.state(terminal.TK_CHAR): #!! maybe no if statement here?
#convert the ASCII code to an index; if it corresponds to an option, return it
index = terminal.state(terminal.TK_CHAR) - ord('a')
if index >= 0 and index < len(options): return index
return None
def render_viewport(self):
self.set_offset()
for r_idx, row in enumerate(self.current_world):
for c_idx, tile in enumerate(row):
terminal.put(r_idx, c_idx, tile.glyph)
terminal.put(self.pc.x, self.pc.y, self.pc.glyph)
