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RenderTexture.py
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185 lines (158 loc) · 6.15 KB
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from PIL import Image, ImageDraw
from random import choice
import random, numpy, os
import LinAlgOps
from TextureHolder import TextureHolder
class RenderTexture:
# SHADE = 40
# SUN_ANGLE = 0.3
def __init__(self, heights, convert, tex_holder):#norms):
self.tex_holder = tex_holder
self.convert = convert
self.SUN_ANGLE = self. convert.open_gl_scale[1]*.0008
self.texture = Image.new("RGB", (self.convert.texture_x, self.convert.texture_z))
self.heights = heights
#self.norms = norms
def initial_run(self, name):
path = 'data/textures/maps/'+name
if not os.path.isfile(path):
self.create_texture(self.texture.load())
return self.save(path)
else:
return path
def run(self, name):
path = 'data/textures/maps/'+name
if not os.path.isfile(path):
#print 'New texture'
self.create_texture(self.texture.load())
#self.shadow(self.texture.load(), self.heights)
return self.save(path)
else:
return path
def save(self, path):
self.texture.save(path)
return path
'''
def run(self, heights, name):
path = 'data/textures/texture'+name+'.bmp'
self.load_bitmaps()
self.create_texture(self.texture.load())
self.shadow(self.texture.load(), heights)
self.texture.save(path)
print path
return path'''
'''old RUN
def run(self, heights):
self.load_bitmaps()
self.create_texture(self.texture.load())
self.shadow(self.texture.load(), heights)
path = 'data/textures/texture'+str(self.counter)+'.bmp'
self.texture.save(path)
self.counter += 1
return path'''
def create_texture(self, pix):
for x in range(self.convert.texture_z):
for z in range(self.convert.texture_x):
#get type of texture and its size
pixl,sizel = self.tex_holder.images[self.texture_type(self.heights[x/self.convert.texture_scale[0]][z/self.convert.texture_scale[2]], 0)]
#pixl = img.load()
#place according pixel of texture into terrain
pix[x,z] = pixl[x%sizel[0], z%sizel[1]]
def randomize_color(self, color, randomness=10):
r,g,b = color
r += random.randint(-randomness, randomness)
g += random.randint(-randomness, randomness)
b += random.randint(-randomness, randomness)
r = min(max(r, 0), 255)
g = min(max(g, 0), 255)
b = min(max(b, 0), 255)
return (r,g,b)
def texture_type(self, altitude, percip):
temp_blend = .04
max_elevation = 5000
elevation = max_elevation*(altitude/float(self.convert.gl_y))
d_temp = (elevation/1000) / 6.5 + random.uniform(-temp_blend,temp_blend)
temp = 20 - d_temp
if temp <= 19.5:
return 'tundra'
elif temp < 19.65:
return 'mountain'
elif temp < 19.75:
return 'treeline'
elif temp < 19.85:
return 'grass'
elif temp < 19.9:
return 'deciduous'
elif temp < 20:
return 'dirt'
elif temp < 20.1:
return 'deadgrass'
else:
return 'savanna'
def shadow(self, pixels, zs):
for y in range(1, self.size[0]):
highest = self.calc_height(self.size[1]-2, y, zs) - self.SUN_ANGLE
darkened = 4
for x in range(self.size[1]-1, 1, -1):
z = self.calc_height(x, y, zs)
# print x/self.scale[0], y/self.scale[2], z
if z > highest:
if darkened == 4:
pixels[y, x] = self.darken(pixels[y, x], self.SHADE/30)
elif darkened == 3:
pixels[y, x] = self.darken(pixels[y, x], self.SHADE/30)
if darkened == 2:
pixels[y, x] = self.darken(pixels[y, x], self.SHADE/30)
elif darkened == 1:
pixels[y, x] = self.darken(pixels[y, x], self.SHADE/20)
highest = z
darkened = max(0, darkened-1)
else:
if darkened == 0:
pixels[y, x] = self.darken(pixels[y, x], self.SHADE/20)
elif darkened == 1:
pixels[y, x] = self.darken(pixels[y, x], self.SHADE/15)
elif darkened == 2:
pixels[y, x] = self.darken(pixels[y, x], self.SHADE/10)
elif darkened == 3:
pixels[y, x] = self.darken(pixels[y, x], self.SHADE/5)
else:
pixels[y, x] = self.darken(pixels[y, x], self.SHADE)
darkened += 1
highest -= self.SUN_ANGLE
def calc_height(self, x, y, zs):
#pos_scale = (self.scale[0]
#print zs
x_gl = x/self.FACTOR
y_gl = y/self.FACTOR
x_hmap = x/self.scale[0]
y_hmap = y/self.scale[2]
p1 = (x_gl, zs[y_hmap][x_hmap], -y_gl)
p2 = (x_gl-1, zs[y_hmap][x_hmap-1], -y_gl)
p3 = (x_gl, zs[y_hmap+1][x_hmap], -y_gl-1)
p4 = (x_gl-1, zs[y_hmap+1][x_hmap-1], -y_gl-1)
scale_y = float(y)/self.FACTOR - y_gl
scale_x = float(x)/self.FACTOR - x_gl
if x % self.scale[0] == 0:
if y % self.scale[2] == 0:
return p1[1]
else:
return (p1[1]*(1-scale_y)+p2[1]*scale_y)
elif y % self.scale[2] == 0:
return (p1[1]*(1-scale_x)+p3[1]*scale_x)
else:
if scale_x + scale_y == 1:
norm = self.norms[(p2,p1,p3)]
if scale_x + scale_y < 1:
norm = self.norms[(p2,p1,p3)]
elif scale_x + scale_y > 1:
norm = self.norms[(p2,p3,p4)]
z = -(norm[0]*(x-p3[0])+norm[1]*(y-p3[1]))/norm[2] + p3[2]
print z
return z
def darken(self, pixel, amt):
r,g,b = pixel
r = max(0, r - amt)
g = max(0, g - amt)
b = max(0, b - amt)
return (r,g,b)