squirrel-battle/dungeonbattle/interfaces.py

237 lines
6.7 KiB
Python

#!/usr/bin/env python
from enum import Enum, auto
from math import sqrt
from random import choice, randint
from typing import List
from dungeonbattle.display.texturepack import TexturePack
class Map:
"""
Object that represents a Map with its width, height
and the whole tiles, with their custom properties.
"""
width: int
height: int
start_y: int
start_x: int
tiles: List[List["Tile"]]
entities: List["Entity"]
# coordinates of the point that should be
# on the topleft corner of the screen
currentx: int
currenty: int
def __init__(self, width: int, height: int, tiles: list,
start_y: int, start_x: int):
self.width = width
self.height = height
self.start_y = start_y
self.start_x = start_x
self.tiles = tiles
self.entities = []
def add_entity(self, entity: "Entity") -> None:
"""
Register a new entity in the map.
"""
self.entities.append(entity)
entity.map = self
def remove_entity(self, entity: "Entity") -> None:
"""
Unregister an entity from the map.
"""
self.entities.remove(entity)
def is_free(self, y: int, x: int) -> bool:
"""
Indicates that the case at the coordinates (y, x) is empty.
"""
return 0 <= y < self.height and 0 <= x < self.width and \
self.tiles[y][x].can_walk() and \
not any(entity.x == x and entity.y == y for entity in self.entities)
@staticmethod
def load(filename: str) -> "Map":
"""
Read a file that contains the content of a map, and build a Map object.
"""
with open(filename, "r") as f:
file = f.read()
return Map.load_from_string(file)
@staticmethod
def load_from_string(content: str) -> "Map":
"""
Load a map represented by its characters and build a Map object.
"""
lines = content.split("\n")
first_line = lines[0]
start_y, start_x = map(int, first_line.split(" "))
lines = [line for line in lines[1:] if line]
height = len(lines)
width = len(lines[0])
tiles = [[Tile.from_ascii_char(c)
for x, c in enumerate(line)] for y, line in enumerate(lines)]
return Map(width, height, tiles, start_y, start_x)
def draw_string(self, pack: TexturePack) -> str:
"""
Draw the current map as a string object that can be rendered
in the window.
"""
return "\n".join("".join(tile.char(pack) for tile in line)
for line in self.tiles)
def spawn_random_entities(self, count: int) -> None:
"""
Put randomly {count} hedgehogs on the map, where it is available.
"""
for _ in range(count):
y, x = 0, 0
while True:
y, x = randint(0, self.height - 1), randint(0, self.width - 1)
tile = self.tiles[y][x]
if tile.can_walk():
break
entity = choice(Entity.get_all_entity_classes())()
entity.move(y, x)
self.add_entity(entity)
def tick(self) -> None:
"""
Trigger all entity events.
"""
for entity in self.entities:
entity.act(self)
class Tile(Enum):
EMPTY = auto()
WALL = auto()
FLOOR = auto()
@classmethod
def from_ascii_char(cls, ch: str) -> "Tile":
for tile in Tile:
if tile.char(TexturePack.ASCII_PACK) == ch:
return tile
raise ValueError(ch)
def char(self, pack: TexturePack) -> str:
return getattr(pack, self.name)
def is_wall(self) -> bool:
return self == Tile.WALL
def can_walk(self) -> bool:
"""
Check if an entity (player or not) can move in this tile.
"""
return not self.is_wall() and self != Tile.EMPTY
class Entity:
y: int
x: int
name: str
map: Map
def __init__(self):
self.y = 0
self.x = 0
def check_move(self, y: int, x: int, move_if_possible: bool = False)\
-> bool:
free = self.map.is_free(y, x)
if free and move_if_possible:
self.move(y, x)
return free
def move(self, y: int, x: int) -> bool:
self.y = y
self.x = x
return True
def move_up(self, force: bool = False) -> bool:
return self.move(self.y - 1, self.x) if force else \
self.check_move(self.y - 1, self.x, True)
def move_down(self, force: bool = False) -> bool:
return self.move(self.y + 1, self.x) if force else \
self.check_move(self.y + 1, self.x, True)
def move_left(self, force: bool = False) -> bool:
return self.move(self.y, self.x - 1) if force else \
self.check_move(self.y, self.x - 1, True)
def move_right(self, force: bool = False) -> bool:
return self.move(self.y, self.x + 1) if force else \
self.check_move(self.y, self.x + 1, True)
def act(self, m: Map) -> None:
"""
Define the action of the entity that is ran each tick.
By default, does nothing.
"""
pass
def distance_squared(self, other: "Entity") -> int:
"""
Get the square of the distance to another entity.
Useful to check distances since square root takes time.
"""
return (self.y - other.y) ** 2 + (self.x - other.x) ** 2
def distance(self, other: "Entity") -> float:
"""
Get the cartesian distance to another entity.
"""
return sqrt(self.distance_squared(other))
def is_fighting_entity(self) -> bool:
return isinstance(self, FightingEntity)
def is_item(self) -> bool:
from dungeonbattle.entities.items import Item
return isinstance(self, Item)
@staticmethod
def get_all_entity_classes():
from dungeonbattle.entities.items import Heart, Bomb
from dungeonbattle.entities.monsters import Beaver, Hedgehog, \
Rabbit, TeddyBear
return [Beaver, Bomb, Heart, Hedgehog, Rabbit, TeddyBear]
class FightingEntity(Entity):
maxhealth: int
health: int
strength: int
dead: bool
intelligence: int
charisma: int
dexterity: int
constitution: int
level: int
def __init__(self):
super().__init__()
self.health = self.maxhealth
self.dead = False
def hit(self, opponent: "FightingEntity") -> None:
opponent.take_damage(self, self.strength)
def take_damage(self, attacker: "Entity", amount: int) -> None:
self.health -= amount
if self.health <= 0:
self.die()
def die(self) -> None:
self.dead = True
self.map.remove_entity(self)