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view_renderer.py
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111 lines (93 loc) · 4.21 KB
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from settings import *
import random
from random import randrange as rnd
import pygame.gfxdraw as gfx
from numba import njit
class ViewRenderer:
def __init__(self, engine):
self.engine = engine
self.asset_data = engine.wad_data.asset_data
self.palette = self.asset_data.palette
self.sprites = self.asset_data.sprites
self.textures = self.asset_data.textures
self.player = engine.player
self.screen = engine.screen
self.framebuffer = engine.framebuffer
self.x_to_angle = self.engine.seg_handler.x_to_angle
self.colors = {}
self.sky_id = self.asset_data.sky_id
self.sky_tex = self.asset_data.sky_tex
self.sky_inv_scale = 160 / HEIGHT
self.sky_tex_alt = 100
def draw_sprite(self):
img = self.sprites['SHTGA0']
pos = (H_WIDTH - img.get_width() // 2, HEIGHT - img.get_height())
self.screen.blit(img, pos)
def draw_palette(self):
pal, size = self.palette, 10
for ix in range(16):
for iy in range(16):
col = pal[iy * 16 + ix]
gfx.box(self.screen, (ix * size, iy * size, size, size), col)
def get_color(self, tex, light_level):
str_light = str(light_level)
if tex + str_light not in self.colors:
tex_id = hash(tex)
random.seed(tex_id)
color = self.palette[rnd(0, 256)]
color = color[0] * light_level, color[1] * light_level, color[2] * light_level
self.colors[tex + str_light] = color
return self.colors[tex + str_light]
def draw_vline(self, x, y1, y2, tex, light):
if y1 < y2:
color = self.get_color(tex, light)
self.draw_column(self.framebuffer, x, y1, y2, color)
@staticmethod
@njit
def draw_column(framebuffer, x, y1, y2, color):
for iy in range(y1, y2 + 1):
framebuffer[x, iy] = color
def draw_flat(self, tex_id, light_level, x, y1, y2, world_z):
if y1 < y2:
if tex_id == self.sky_id:
tex_column = 2.2 * (self.player.angle + self.engine.seg_handler.x_to_angle[x])
self.draw_wall_col(self.framebuffer, self.sky_tex, tex_column, x, y1, y2,
self.sky_tex_alt, self.sky_inv_scale, light_level=1.0)
else:
flat_tex = self.textures[tex_id]
self.draw_flat_col(self.framebuffer, flat_tex,
x, y1, y2, light_level, world_z,
self.player.angle, self.player.pos.x, self.player.pos.y)
@staticmethod
@njit(fastmath=True)
def draw_flat_col(screen, flat_tex, x, y1, y2, light_level, world_z,
player_angle, player_x, player_y):
player_dir_x = math.cos(math.radians(player_angle))
player_dir_y = math.sin(math.radians(player_angle))
for iy in range(y1, y2 + 1):
z = H_WIDTH * world_z / (H_HEIGHT - iy)
px = player_dir_x * z + player_x
py = player_dir_y * z + player_y
left_x = -player_dir_y * z + px
left_y = player_dir_x * z + py
right_x = player_dir_y * z + px
right_y = -player_dir_x * z + py
dx = (right_x - left_x) / WIDTH
dy = (right_y - left_y) / WIDTH
tx = int(left_x + dx * x) & 63
ty = int(left_y + dy * x) & 63
col = flat_tex[tx, ty]
col = col[0] * light_level, col[1] * light_level, col[2] * light_level
screen[x, iy] = col
@staticmethod
@njit(fastmath=True)
def draw_wall_col(framebuffer, tex, tex_col, x, y1, y2, tex_alt, inv_scale, light_level):
if y1 < y2:
tex_w, tex_h = len(tex), len(tex[0])
tex_col = int(tex_col) % tex_w
tex_y = tex_alt + (float(y1) - H_HEIGHT) * inv_scale
for iy in range(y1, y2 + 1):
col = tex[tex_col, int(tex_y) % tex_h]
col = col[0] * light_level, col[1] * light_level, col[2] * light_level
framebuffer[x, iy] = col
tex_y += inv_scale