def main():
"""
Entry point
"""
try:
SIZE_Y = 30
SIZE_X = 60
screen = [[True for _ in range(SIZE_Y + 2)] for _ in range(SIZE_X + 2)]
for _ in range(4):
p1 = Vect(0, 0) | Vect(SIZE_X, SIZE_Y)
p2 = Vect(0, 0) | Vect(SIZE_X, SIZE_Y)
for pos in p1.g_bresenham_line(p2):
screen[pos.x][pos.y] = False
screen[pos.x + 1][pos.y] = False
# Calculs
center = Vect(30, 15)
for pos in g_case_visible(screen, center, 10):
screen[pos.x][pos.y] = 'F'
screen[center.x][center.y] = '@'
# affichage
for y in range(SIZE_Y):
for x in range(SIZE_X):
char = screen[x][SIZE_Y - y - 1]
if char is False:
print_char = "\033[0;34;41m" + ' ' + "\033[0m"
if char is True:
print_char = ' '
if char == 'F':
print_char = "\033[0;34;43m" + ' ' + "\033[0m"
if char == '@':
print_char = "\033[0;31;45m" + ' ' + "\033[0m"
if char == 'B':
print_char = "\033[0;34;40m" + 'X' + "\033[0m"
print(print_char, end='')
print("")
finally:
print("END")
class Player():
"""
Classe Player :
"""
BULLET_MAX = 10
HP_MAX = 10
START_MONEY = 0
def __init__(self):
"""
Personnage
"""
self.pos = Vect(0, 0)
self.direction = Vect(1, 0)
self.distance_view = 7
self.bullet = self.BULLET_MAX
self.hp = self.HP_MAX
self.level = 0
self.money = self.START_MONEY
self.sword_damage = 1
self.gun_damage = 2
def level_up(self, pos):
"""
Le personnage gagne un level
"""
self.level += 1
self.pos = pos
def g_case_visible(self, mat_collide):
"""
retourne sur toutes les cases visibles
par self dans mat_collide
"""
# Nb : prend les segments depuis un cercle et non un rect
# n'est pas OK
border = self.pos.g_rect(Vect(self.distance_view, self.distance_view))
for bordure_pos in border:
for pos in self.pos.g_bresenham_line(bordure_pos):
if self.pos.distance(pos) >= self.distance_view:
break
if not Vect(0, 0) <= pos < Vect(len(mat_collide),
len(mat_collide[0])):
break
if not mat_collide[pos.x][pos.y]:
yield pos
break
yield pos
def shoot(self):
"""
Tire une nouvelle balle
"""
self.bullet -= 1
return Bullet(self.pos, self.direction, self.gun_damage)
def strike(self, mat_collide):
"""
Donne un coup d'épée
"""
return Sword(self.pos + self.direction, self.sword_damage)
def add_money(self, value):
"""
Ajoute des pièces au Player
"""
assert value >= 0
self.money += value
return True
def add_hp(self, value):
"""
Ajoute des HP au Player
"""
assert value >= 0
if self.hp == self.HP_MAX:
return False
self.hp = min(self.hp + value, self.HP_MAX)
return True
def add_bullets(self, value):
"""
Ajoute des balles au Player
"""
assert value >= 0
if self.bullet == self.BULLET_MAX:
return False
self.bullet = min(self.bullet + value, self.BULLET_MAX)
return True
def update(self, mat_collide, depl_vect):
"""
Met à jour la position du personnage en fonction des evenements
et de mat_collide
"""
if depl_vect != Vect(0, 0):
self.direction = depl_vect
new_pos = self.pos + depl_vect
# Tests de collision (Diagonales)
if mat_collide[new_pos.x][self.pos.y]:
# premier chemin libre en x
if mat_collide[new_pos.x][new_pos.y]:
# deuxieme chemin libre en y
self.pos = new_pos
else:
# deuxieme chemin bloque en y
self.pos.x = new_pos.x
elif mat_collide[self.pos.x][new_pos.y]:
# premier chemin libre en y
if mat_collide[new_pos.x][new_pos.y]:
# deuxieme chemin libre en x
self.pos = new_pos
else:
# deuxieme chemin bloque en x
self.pos.y = new_pos.y
else:
# Aucun chemin libre
# Do nothind
pass
def render(self):
"""
Retourne le char à afficher
"""
return chars.C_PLAYER
def __str__(self):
"""
Retourne une chaine d'affichage
"""
heal_str = ('\u2665' * int(self.hp / self.HP_MAX * 10) + ' ' *
(10 - int(self.hp / self.HP_MAX * 10)))
bullet_str = ('|' * int(self.bullet) +
' ' * int(self.BULLET_MAX - self.bullet))
return ('Position : {} | HP : [' + heal_str + '] | Bullets [' +
bullet_str + ']')