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Actually generate a map, completing part 3

This commit is contained in:
Timothy Warren 2022-01-06 15:37:22 -05:00
parent 56267fe8a7
commit 3506edd85f
2 changed files with 88 additions and 8 deletions

15
main.py
View File

@ -12,7 +12,11 @@ def main() -> None:
screen_height = 50 screen_height = 50
map_width = 80 map_width = 80
map_height = 50 map_height = 45
room_max_size = 10
room_min_size = 6
max_rooms = 30
tileset = tcod.tileset.load_tilesheet( tileset = tcod.tileset.load_tilesheet(
"dejavu10x10_gs_tc.png", "dejavu10x10_gs_tc.png",
@ -27,7 +31,14 @@ def main() -> None:
npc = Entity(int(screen_width / 2 - 5), int(screen_height / 2), "@", (255, 255, 0)) npc = Entity(int(screen_width / 2 - 5), int(screen_height / 2), "@", (255, 255, 0))
entities = {npc, player} entities = {npc, player}
game_map = generate_dungeon(map_width, map_height) game_map = generate_dungeon(
max_rooms,
room_min_size,
room_max_size,
map_width,
map_height,
player,
)
engine = Engine(entities, event_handler, game_map, player) engine = Engine(entities, event_handler, game_map, player)

View File

@ -1,8 +1,16 @@
from typing import Tuple from __future__ import annotations
import random
from typing import Iterator, List, Tuple, TYPE_CHECKING
import tcod
from game_map import GameMap from game_map import GameMap
import tile_types import tile_types
if TYPE_CHECKING:
from entity import Entity
class RectangularRoom: class RectangularRoom:
def __init__(self, x: int, y: int, width: int, height: int): def __init__(self, x: int, y: int, width: int, height: int):
@ -23,14 +31,75 @@ class RectangularRoom:
"""Return the inner area of this room as a 2D array index.""" """Return the inner area of this room as a 2D array index."""
return slice(self.x1 + 1, self.x2), slice(self.y1 + 1, self.y2) return slice(self.x1 + 1, self.x2), slice(self.y1 + 1, self.y2)
def intersects(self, other: RectangularRoom) -> bool:
"""Return True if this room overlaps with another RectangularRoom."""
return (
self.x1 <= other.x2
and self.x2 >= other.x1
and self.y1 <= other.y2
and self.y2 >= other.y1
)
def generate_dungeon(map_width, map_height) -> GameMap:
def tunnel_between(start: Tuple[int, int], end: Tuple[int, int]) -> Iterator[Tuple[int, int]]:
"""Return an L-shaped tunnel between these two points."""
x1, y1 = start
x2, y2 = end
if random.random() < 0.5: # 50% chance.
# Move horizontally, then vertically
corner_x, corner_y = x2, y1
else:
# Move vertically, then horizontally
corner_x, corner_y = x1, y2
# Generate the coordinates for this tunnel
for x, y in tcod.los.bresenham((x1, y1), (corner_x, corner_y)).tolist():
yield x, y
for x, y in tcod.los.bresenham((corner_x, corner_y), (x2, y2)).tolist():
yield x, y
def generate_dungeon(
max_rooms: int,
room_min_size: int,
room_max_size: int,
map_width: int,
map_height: int,
player: Entity,
) -> GameMap:
"""Generate a new dungeon map."""
dungeon = GameMap(map_width, map_height) dungeon = GameMap(map_width, map_height)
room_1 = RectangularRoom(x=20, y=15, width=10, height=15) rooms: List[RectangularRoom] = []
room_2 = RectangularRoom(x=35, y=15, width=10, height=15)
dungeon.tiles[room_1.inner] = tile_types.floor for r in range(max_rooms):
dungeon.tiles[room_2.inner] = tile_types.floor room_width = random.randint(room_min_size, room_max_size)
room_height = random.randint(room_min_size, room_max_size)
x = random.randint(0, dungeon.width - room_width - 1)
y = random.randint(0, dungeon.height - room_height - 1)
# "RectangularRoom" class makes rectangles easier to work with
new_room = RectangularRoom(x, y, room_width, room_height)
# Run through the other rooms and see if they intersect with this one.
# If there are no intersections then the room is valid
if any(new_room.intersects(other_room) for other_room in rooms):
continue # This room intersects, so go to the next attempt.
# Dig out this room's inner area.
dungeon.tiles[new_room.inner] = tile_types.floor
if len(rooms) == 0:
# The first room, where the player starts.
player.x, player.y = new_room.center
else: # All rooms after the first.
# Dig out a tunnel between this room and the previous one
for x, y in tunnel_between(rooms[-1].center, new_room.center):
dungeon.tiles[x, y] = tile_types.floor
# Finally, append the new room to the list.
rooms.append(new_room)
return dungeon return dungeon