A Simple Dungeon Generator for Python 2 or 3

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A Simple GPL 3 Dungeon Generator Written for Python 2 or 3 by James Spencer

NOTES

This is a descendant of my first dungeon generator. It's GPL 3, and you should be able to save it to a file and just run it by: python <filename.py>.

This Dungeon Generator allows you to set:

  • The width of the area (width=64)
  • The height of the area (height=64)
  • The maximum number of rooms (max_rooms=15)
  • The minimum room width / height (min_room_xy=5)
  • The maximum room width / height (max_room_xy=10)
  • If the rooms can overlap (rooms_overlap=False)
  • The number of randomly connected rooms (random_connections=1)
  • The number of random spurs from a room to a random point (random_spurs=3)

At it's heart this dungeon generator is a simple beast, it merely tries to randomly place rooms, optionally removing rooms that overlap. It then joins the rooms with corridors.

What is nice about this generator is that it maintains a list of rooms and corridors. To add doors the rooms all you have to do is walk over the list of rooms, look at the edges of the rooms, and decorate them with doors (which is what I do in the descendants of this generator). Another useful function would be to walk over the corridor list removing corridors that only connect rooms that other corridors connect (also something I did in the descendants of this generator). That helps prevent rooms from looking too chopped up with corridors. Since the corridor list is generated by walking over the room list and joining one room to the next you can get dungeons of very different character by modifying the order of the room list (eg, by sorting the room list in order of the next nearest room), then re-generating the corridors. By maintaining a corridor and room list it makes it trivial to go back after you generate a dungeon and decorate and populate rooms and corridors.


The Python source code follows:

#! /usr/bin/env python
# coding: utf-8

# generator-1.py, a simple python dungeon generator.
# Copyright (C) 2016  James Spencer <jamessp [at] gmail.com>

# This program is free software: you can redistribute it and/or modify
# it under the terms of the GNU General Public License as published by
# the Free Software Foundation, either version 3 of the License, or
# (at your option) any later version.

# This program is distributed in the hope that it will be useful,
# but WITHOUT ANY WARRANTY; without even the implied warranty of
# MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE.  See the
# GNU General Public License for more details.

# To receive a copy of the GNU General Public License write to the
# Free Software Foundation, Inc., 51 Franklin Street, Fifth Floor,
# Boston, MA 02110-1301  USA

from __future__ import print_function
import random

CHARACTER_TILES = {0: ' ',
                   1: '.',
                   2: '#'}


class Generator():
    def __init__(self, width=64, height=64, max_rooms=15, min_room_xy=5,
                 max_room_xy=10, rooms_overlap=False, random_connections=1,
                 random_spurs=3, tiles=CHARACTER_TILES):
        self.width = width
        self.height = height
        self.max_rooms = max_rooms
        self.min_room_xy = min_room_xy
        self.max_room_xy = max_room_xy
        self.rooms_overlap = rooms_overlap
        self.random_connections = random_connections
        self.random_spurs = random_spurs
        self.tiles = CHARACTER_TILES
        self.level = []
        self.room_list = []
        self.corridor_list = []
        self.tiles_level = []

    def gen_room(self):
        x, y, w, h = 0, 0, 0, 0

        w = random.randint(self.min_room_xy, self.max_room_xy)
        h = random.randint(self.min_room_xy, self.max_room_xy)
        x = random.randint(1, (self.width - w - 1))
        y = random.randint(1, (self.height - h - 1))

        return [x, y, w, h]

    def room_overlapping(self, room, room_list):

        x = room[0]
        y = room[1]
        w = room[2]
        h = room[3]

        for room_num, room in enumerate(room_list):

            # The rectangles don't overlap if
            # one rectangle's minimum in some dimension
            # is greater than the other's maximum in
            # that dimension.
            

            if (x > (room[0] + room[2]) or
                room[0] > (x + w) or
                y > (room[1] + room[3]) or
                room[1] > (y + h)):

                return False
            else:
                return True

    def join_rooms(self, room_1, room_2):

        x_overlap = False
        y_overlap = False

        x1 = room_1[0]
        y1 = room_1[1]
        w1 = room_1[2]
        h1 = room_1[3]

        x2 = room_2[0]
        y2 = room_2[1]
        w2 = room_2[2]
        h2 = room_2[3]

        if (((x1 >= x2) and
            x1 <= (x2 + w2 - 1)) or
            ((x1 + w1 - 1) >= x2) and
            ((x1 + w1 - 1) <= (x2 + w2 - 1))):

            x_overlap = True

        if (((y1 >= y2) and
            y1 <= (y2 + h2 - 1)) or
            ((y1 + h1 - 1) >= y2) and
            ((y1 + h1 - 1) <= (y2 + h2 - 1))):

            y_overlap = True

        if x_overlap is True:
            tmp_x_coords = [x1, x1 + w1 - 1, x2, x2 + w2 - 1]
            tmp_x_coords.sort()
            if tmp_x_coords[1:2].pop() == tmp_x_coords[2:3].pop():
                rand_x = tmp_x_coords[1:2].pop()
            else:
                rand_x = random.randint(tmp_x_coords[1:2].pop(), (
                    tmp_x_coords[2:3].pop()))

            if y2 >= y1 + h1 - 1:
                tmp_y = y1 + h1
                tmp_h = y2 - (y1 + h1)
            else:
                tmp_y = y2 + h2
                tmp_h = y1 - (y2 + h2)

            self.corridor_list.append([rand_x, tmp_y, 1, tmp_h])

        elif y_overlap is True:
            tmp_y_coords = [y1, y1 + h1 - 1, y2, y2 + h2 - 1]
            tmp_y_coords.sort()
            if tmp_y_coords[1:2].pop() == tmp_y_coords[2:3].pop():
                rand_y = tmp_y_coords[1:2].pop()
            else:
                rand_y = random.randint(tmp_y_coords[1:2].pop(), (
                    tmp_y_coords[2:3].pop()))

            if x2 >= x1 + w1:
                tmp_x = x1 + w1
                tmp_w = x2 - (x1 + w1)
            else:
                tmp_x = x2 + w2
                tmp_w = x1 - (x2 + w2)

            self.corridor_list.append([tmp_x, rand_y, tmp_w, 1])

        else:
            sortable = [room_1, room_2]
            sortable.sort()

            left_bottom = False
            start_on_x = False
            if sortable[0][1] > sortable[1][1]:
                left_bottom = True
            if random.randint(0, 1) == 1:
                start_on_x = True

            if left_bottom is True:
                if start_on_x is True:
                    x1 = (sortable[0][0] + sortable[0][2] - 1) + 1
                    y1 = random.randint(sortable[0][1], (
                         sortable[0][1] + sortable[0][3] - 1))
                    tmp = random.randint(sortable[1][0], (
                          sortable[1][0] + sortable[1][2] - 1))
                    w1 = (tmp - x1) + 1
                    h1 = 1

                    x2 = tmp
                    y2 = (sortable[1][1] + sortable[1][3] - 1) + 1
                    w2 = 1
                    h2 = y1 - y2

                else:
                    x1 = random.randint(sortable[0][0], (
                         sortable[0][0] + sortable[0][2] - 1))
                    y1 = random.randint(sortable[1][1], (
                         sortable[1][1] + sortable[1][3] - 1))
                    w1 = 1
                    h1 = sortable[0][1] - y1

                    x2 = x1
                    y2 = y1
                    w2 = sortable[1][0] - x1
                    h2 = 1

                self.corridor_list.append([x1, y1, w1, h1])
                self.corridor_list.append([x2, y2, w2, h2])

            else:
                if start_on_x is True:
                    x1 = (sortable[0][0] + sortable[0][2] - 1) + 1
                    y1 = random.randint(sortable[0][1], (
                         sortable[0][1] + sortable[0][3] - 1))
                    tmp = random.randint(sortable[1][0], (
                         sortable[1][0] + sortable[1][2] - 1))
                    w1 = tmp - x1
                    h1 = 1

                    x2 = tmp
                    y2 = y1
                    w2 = 1
                    h2 = sortable[1][1] - y1

                else:
                    x1 = random.randint(
                         sortable[0][0], (sortable[0][0] + sortable[0][2] - 1))
                    y1 = (sortable[0][1] + sortable[0][3] - 1) + 1
                    w1 = 1
                    tmp = random.randint(sortable[1][1], (
                          sortable[1][1] + sortable[1][3] - 1))
                    h1 = tmp - (sortable[0][1] + sortable[0][3] - 1) - 1

                    x2 = x1
                    y2 = y1 + h1
                    w2 = sortable[1][0] - x2
                    h2 = 1

                self.corridor_list.append([x1, y1, w1, h1])
                self.corridor_list.append([x2, y2, w2, h2])

    def gen_level(self):

        # build an empty dungeon, blank the room and corridor lists
        for i in range(self.height):
            self.level.append([0] * self.width)
        self.room_list = []
        self.corridor_list = []

        max_iters = self.max_rooms * 5

        for a in range(max_iters):
            tmp_room = self.gen_room()

            if self.rooms_overlap is True or not self.room_list:
                self.room_list.append(tmp_room)
            else:
                tmp_room = self.gen_room()
                tmp_room_list = self.room_list[:]

                if self.room_overlapping(tmp_room, tmp_room_list) is False:
                    self.room_list.append(tmp_room)

            if len(self.room_list) >= self.max_rooms:
                break

        # connect the rooms
        for a in range(len(self.room_list) - 1):
            self.join_rooms(self.room_list[a], self.room_list[a + 1])

        # do the random joins
        for a in range(self.random_connections):
            room_1 = self.room_list[random.randint(0, len(self.room_list) - 1)]
            room_2 = self.room_list[random.randint(0, len(self.room_list) - 1)]
            self.join_rooms(room_1, room_2)

        # do the spurs
        for a in range(self.random_spurs):
            room_1 = [random.randint(2, self.width - 2), random.randint(
                     2, self.height - 2), 1, 1]
            room_2 = self.room_list[random.randint(0, len(self.room_list) - 1)]
            self.join_rooms(room_1, room_2)

        # fill the map
        # paint rooms
        for room_num, room in enumerate(self.room_list):
            for b in range(room[2]):
                for c in range(room[3]):
                    self.level[room[1] + c][room[0] + b] = 1

        # paint corridors
        for corr_num, corridor in enumerate(self.corridor_list):
            for b in range(corridor[2]):
                for c in range(corridor[3]):
                    self.level[corridor[1] + c][corridor[0] + b] = 1

        # paint the walls
        for a in range(1, len(self.level) - 1):
            for b in range(1, len(self.level[a]) - 1):
                if self.level[a][b] == 1:
                    if self.level[a - 1][b - 1] == 0:
                        self.level[a - 1][b - 1] = 2

                    if self.level[a - 1][b] == 0:
                        self.level[a - 1][b] = 2

                    if self.level[a - 1][b + 1] == 0:
                        self.level[a - 1][b + 1] = 2

                    if self.level[a][b - 1] == 0:
                        self.level[a][b - 1] = 2

                    if self.level[a][b + 1] == 0:
                        self.level[a][b + 1] = 2

                    if self.level[a + 1][b - 1] == 0:
                        self.level[a + 1][b - 1] = 2

                    if self.level[a + 1][b] == 0:
                        self.level[a + 1][b] = 2

                    if self.level[a + 1][b + 1] == 0:
                        self.level[a + 1][b + 1] = 2

    def gen_tiles_level(self):

        for row_num, row in enumerate(self.level):
            tmp_tiles = []

            for col_num, col in enumerate(row):
                if col == 0:
                    tmp_tiles.append(self.tiles[0])
                if col == 1:
                    tmp_tiles.append(self.tiles[1])
                if col == 2:
                    tmp_tiles.append(self.tiles[2])

            self.tiles_level.append(''.join(tmp_tiles))


if __name__ == '__main__':
    gen = Generator()
    gen.gen_level()
    gen.gen_tiles_level()

    print('Room List: ', gen.room_list)
    print('Corridor List: ', gen.corridor_list)

    for i in range(gen.height):
        print(gen.tiles_level[i])


The output should look something like:

python3 ./generator-1.py 
Room List:  [[4, 20, 8, 9], [25, 17, 10, 9], [53, 17, 5, 9], [16, 35, 9, 10], [27, 4, 5, 9], [18, 33, 8, 10], [16, 52, 10, 6], [53, 33, 5, 6], [32, 1, 9, 6], [40, 40, 8, 6], [47, 55, 10, 6], [52, 18, 5, 7], [57, 32, 6, 6], [47, 33, 5, 10], [41, 16, 7, 10]]
Corridor List:  [[12, 22, 13, 1], [35, 24, 18, 1], [24, 20, 1, 15], [24, 20, 29, 1], [21, 10, 1, 25], [21, 10, 6, 1], [26, 36, 4, 1], [29, 13, 1, 23], [21, 43, 1, 9], [16, 33, 1, 19], [16, 33, 37, 1], [41, 5, 16, 1], [57, 5, 1, 28], [40, 7, 1, 33], [47, 46, 1, 9], [53, 25, 1, 30], [57, 21, 1, 1], [58, 21, 1, 11], [52, 36, 5, 1], [47, 26, 1, 7], [42, 26, 1, 14], [33, 15, 15, 1], [48, 15, 1, 18], [3, 23, 46, 1], [49, 23, 1, 32], [16, 19, 3, 1], [19, 19, 1, 14]]
                               ###########                      
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               ####.#.##.####.##########.#.####...###.###......#
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               #.#  #.#                       #.#.# #.#         
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               #.####.#####                   #.#.# #.#         
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               ############                   #..........#      
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                                              ############


I'm still using a descendant of this generator for my as yet unreleased roguelike. I hope others find it useful.