squirrel-battle/squirrelbattle/display/mapdisplay.py
2021-01-07 16:49:40 +01:00

88 lines
3.7 KiB
Python

# Copyright (C) 2020 by ÿnérant, eichhornchen, nicomarg, charlse
# SPDX-License-Identifier: GPL-3.0-or-later
from squirrelbattle.interfaces import Map
from .display import Display
from ..game import Game
class MapDisplay(Display):
"""
A class to handle the display of the map.
"""
map: Map
def __init__(self, *args):
super().__init__(*args)
def update(self, game: Game) -> None:
self.map = game.map
self.pad = self.newpad(self.map.height,
self.pack.tile_width * self.map.width + 1)
def update_pad(self) -> None:
for j in range(len(self.map.tiles)):
for i in range(len(self.map.tiles[j])):
if not self.map.seen_tiles[j][i]:
continue
fg, bg = self.map.tiles[j][i].visible_color(self.pack) if \
self.map.visibility[j][i] else \
self.map.tiles[j][i].hidden_color(self.pack)
self.addstr(self.pad, j, self.pack.tile_width * i,
self.map.tiles[j][i].char(self.pack), fg, bg)
for e in self.map.entities:
if self.map.visibility[e.y][e.x]:
self.addstr(self.pad, e.y, self.pack.tile_width * e.x,
self.pack[e.name.upper()],
self.pack.entity_fg_color,
self.pack.entity_bg_color)
# Display Path map for debug purposes
# from squirrelbattle.entities.player import Player
# players = [ p for p in self.map.entities if isinstance(p,Player) ]
# player = players[0] if len(players) > 0 else None
# if player:
# for x in range(self.map.width):
# for y in range(self.map.height):
# if (y,x) in player.paths:
# deltay, deltax = (y - player.paths[(y, x)][0],
# x - player.paths[(y, x)][1])
# if (deltay, deltax) == (-1, 0):
# character = '↓'
# elif (deltay, deltax) == (1, 0):
# character = '↑'
# elif (deltay, deltax) == (0, -1):
# character = '→'
# else:
# character = '←'
# self.addstr(self.pad, y, self.pack.tile_width * x,
# character, self.pack.tile_fg_color,
# self.pack.tile_bg_color)
def display(self) -> None:
y, x = self.map.currenty, self.pack.tile_width * self.map.currentx
deltay, deltax = (self.height // 2) + 1, (self.width // 2) + 1
pminrow, pmincol = y - deltay, x - deltax
sminrow, smincol = max(-pminrow, 0), max(-pmincol, 0)
deltay, deltax = self.height - deltay, self.width - deltax
smaxrow = self.map.height - (y + deltay) + self.height - 1
smaxrow = min(smaxrow, self.height - 1)
smaxcol = self.pack.tile_width * self.map.width - \
(x + deltax) + self.width - 1
# Wrap perfectly the map according to the width of the tiles
pmincol = self.pack.tile_width * (pmincol // self.pack.tile_width)
smincol = self.pack.tile_width * (smincol // self.pack.tile_width)
smaxcol = self.pack.tile_width \
* (smaxcol // self.pack.tile_width + 1) - 1
smaxcol = min(smaxcol, self.width - 1)
pminrow = max(0, min(self.map.height, pminrow))
pmincol = max(0, min(self.pack.tile_width * self.map.width, pmincol))
self.pad.erase()
self.update_pad()
self.refresh_pad(self.pad, pminrow, pmincol, sminrow, smincol, smaxrow,
smaxcol)