LogalDeveloper/Minecraft-Overviewer
Archived
0
Fork 0
Code Activity

Merge commit 'eminence/direct-to-tiles' into dtt-c-render

Browse Source 
Conflicts:
	chunk.py
This commit is contained in:
Aaron Griffith
2011-03-08 16:34:26 -05:00
parent 5a05105b62 66a9306a29
commit 4e63e6e9fa
3 changed files with 376 additions and 209 deletions
Download Patch File Download Diff File Expand all files Collapse all files

211
chunk.py
View File

@@ -25,6 +25,7 @@ import nbt
import textures
import world
import composite
import _iterate
"""
This module has routines related to rendering one particular chunk into an
@@ -544,215 +545,7 @@ class ChunkRenderer(object):
if not img:
img = Image.new("RGBA", (384, 1728), (38,92,255,0))
for x in xrange(15,-1,-1):
for y in xrange(16):
imgx = xoff + x*12 + y*12
imgy = yoff - x*6 + y*6 + 128*12 + 16*12//2
imgy += 12
# make sure we're drawing within the image boundaries
# 24 == approximate width, height of one block
if imgx >= img.size[0] + 24 or imgx <= -24:
continue
for z in xrange(128):
imgy -= 12
# similar check for y, as above
if imgy >= img.size[1] + 24 or imgy <= -24:
continue
blockid = blocks[x,y,z]
# the following blocks don't have textures that can be pre-computed from the blockid
# alone. additional data is required.
# TODO torches, redstone torches, crops, ladders, stairs,
# levers, doors, buttons, and signs all need to be handled here (and in textures.py)
## minecart track, crops, ladder, doors, etc.
if blockid in textures.special_blocks:
# also handle furnaces here, since one side has a different texture than the other
ancilData = blockData_expanded[x,y,z]
try:
if blockid in pseudo_ancildata_blocks:
pseudo_ancilData = self.generate_pseudo_ancildata(x,y,z,blockid)
ancilData = pseudo_ancilData
t = textures.specialblockmap[(blockid, ancilData)]
except KeyError:
t = None
else:
t = textures.blockmap[blockid]
if not t:
continue
if self.world.useBiomeData:
# 16 : number of blocks in a chunk (in one direction)
# 32 : number of chunks in a region (and biome file) in one direction
# so 16 * 32 == 512 : number of blocks in biome file, in one direction
if blockid == 2: #grass
index = biomeColorData[ ((startY*16)+y) * 512 + (startX*16) + x]
c = textures.grasscolor[index]
# only tint the top texture
t = textures.prepareGrassTexture(c)
elif blockid == 18: # leaves
index = biomeColorData[ ((startY*16)+y) * 512 + (startX*16) + x]
c = textures.foliagecolor[index]
t = textures.prepareLeafTexture(c)
# Check if this block is occluded
if cave and (
x == 0 and y != 15 and z != 127
):
# If it's on the x face, only render if there's a
# transparent block in the y+1 direction OR the z-1
# direction
if (
blocks[x,y+1,z] not in transparent_blocks and
blocks[x,y,z+1] not in transparent_blocks
):
continue
elif cave and (
y == 15 and x != 0 and z != 127
):
# If it's on the facing y face, only render if there's
# a transparent block in the x-1 direction OR the z-1
# direction
if (
blocks[x-1,y,z] not in transparent_blocks and
blocks[x,y,z+1] not in transparent_blocks
):
continue
elif cave and (
y == 15 and x == 0 and z != 127
):
# If it's on the facing edge, only render if what's
# above it is transparent
if (
blocks[x,y,z+1] not in transparent_blocks
):
continue
elif (left_blocks == None and right_blocks == None):
# Normal block or not cave mode, check sides for
# transparentcy or render if it's a border chunk.
if (
x != 0 and y != 15 and z != 127 and
blocks[x-1,y,z] not in transparent_blocks and
blocks[x,y+1,z] not in transparent_blocks and
blocks[x,y,z+1] not in transparent_blocks
):
continue
elif (left_blocks != None and right_blocks == None):
if (
# If it has the left face covered check for
# transparent blocks in left face
y != 15 and z != 127 and
(left_blocks[15,y,z] if x == 0 else blocks[x - 1,y,z]) not in transparent_blocks and
blocks[x,y+1,z] not in transparent_blocks and
blocks[x,y,z+1] not in transparent_blocks
):
continue
elif (left_blocks == None and right_blocks != None):
if (
# If it has the right face covered check for
# transparent blocks in right face
x != 0 and z != 127 and
blocks[x-1,y,z] not in transparent_blocks and
(right_blocks[x,0,z] if y == 15 else blocks[x,y + 1,z]) not in transparent_blocks and
blocks[x,y,z+1] not in transparent_blocks
):
continue
elif (
# If it's a interior chunk check for transparent blocks
# in the adjacent chunks.
z != 127 and
(left_blocks[15,y,z] if x == 0 else blocks[x - 1,y,z]) not in transparent_blocks and
(right_blocks[x,0,z] if y == 15 else blocks[x,y + 1,z]) not in transparent_blocks and
blocks[x,y,z+1] not in transparent_blocks
# Don't render if all sides aren't transparent
):
continue
# Draw the actual block on the image. For cave images,
# tint the block with a color proportional to its depth
if cave:
# no lighting for cave -- depth is probably more useful
composite.alpha_over(img, Image.blend(t[0],depth_colors[z],0.3), (imgx, imgy), t[1])
else:
if not self.quadtree.lighting:
# no lighting at all
composite.alpha_over(img, t[0], (imgx, imgy), t[1])
elif blockid in transparent_blocks:
# transparent means draw the whole
# block shaded with the current
# block's light
black_coeff, _ = self.get_lighting_coefficient(x, y, z)
if self.quadtree.spawn and black_coeff > 0.8 and blockid in solid_blocks and not (
blockid in nospawn_blocks or (
z != 127 and (blocks[x,y,z+1] in solid_blocks or blocks[x,y,z+1] in fluid_blocks)
)
):
composite.alpha_over(img, Image.blend(t[0], red_color, black_coeff), (imgx, imgy), t[1])
else:
composite.alpha_over(img, Image.blend(t[0], black_color, black_coeff), (imgx, imgy), t[1])
else:
# draw each face lit appropriately,
# but first just draw the block
composite.alpha_over(img, t[0], (imgx, imgy), t[1])
# top face
black_coeff, face_occlude = self.get_lighting_coefficient(x, y, z + 1)
# Use red instead of black for spawnable blocks
if self.quadtree.spawn and black_coeff > 0.8 and blockid in solid_blocks and not (
blockid in nospawn_blocks or (
z != 127 and (blocks[x,y,z+1] in solid_blocks or blocks[x,y,z+1] in fluid_blocks)
)
):
over_color = red_color
else:
over_color = black_color
if not face_occlude:
composite.alpha_over(img, over_color, (imgx, imgy), ImageEnhance.Brightness(facemasks[0]).enhance(black_coeff))
# left face
black_coeff, face_occlude = self.get_lighting_coefficient(x - 1, y, z)
if not face_occlude:
composite.alpha_over(img, over_color, (imgx, imgy), ImageEnhance.Brightness(facemasks[1]).enhance(black_coeff))
# right face
black_coeff, face_occlude = self.get_lighting_coefficient(x, y + 1, z)
if not face_occlude:
composite.alpha_over(img, over_color, (imgx, imgy), ImageEnhance.Brightness(facemasks[2]).enhance(black_coeff))
# Draw edge lines
if blockid in (44,): # step block
increment = 6
elif blockid in (78,): # snow
increment = 9
else:
increment = 0
if blockid not in transparent_blocks or blockid in (78,): #special case snow so the outline is still drawn
draw = ImageDraw.Draw(img)
if x != 15 and blocks[x+1,y,z] == 0:
draw.line(((imgx+12,imgy+increment), (imgx+22,imgy+5+increment)), fill=(0,0,0), width=1)
if y != 0 and blocks[x,y-1,z] == 0:
draw.line(((imgx,imgy+6+increment), (imgx+12,imgy+increment)), fill=(0,0,0), width=1)
_iterate.render_loop(self, img, xoff, yoff, blockData_expanded)
for entity in tileEntities:
if entity['id'] == 'Sign':