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import struct
def padto(n, m):
return (n+m-1) & ~(m-1)
def resourceclass(rtype):
return globals().get(rtype.strip() + 'Resource', Resource)
class TypeList:
def __init__(self, type, fmap, fdata, namebase, start, count):
self.type = type
self.fmap = fmap
self.fdata = fdata
self.namebase = namebase
self.start = start
self.count = count
self.ids = None
def resources(self):
if self.ids is None:
ResourceCls = resourceclass(self.type)
d = {}
self.fmap.seek(self.start)
for resid, resname, resattr, resofshi, resofslo in [
struct.unpack(">HHBBHxxxx", self.fmap.read(12))
for i in range(self.count)]:
if resname == 0xffff:
name = None
else:
self.fmap.seek(self.namebase + resname)
namelen, = struct.unpack(">B", self.fmap.read(1))
name = self.fmap.read(namelen)
assert resid not in d
d[resid] = ResourceCls(self.type, resid, name, resattr,
self.fdata, resofslo + (resofshi<<16))
self.ids = d
return self.ids
def __getitem__(self, id):
return self.resources()[id]
def keys(self):
return self.resources().keys()
def values(self):
return self.resources().values()
def items(self):
return self.resources().items()
def namedict(self):
return dict([(r.name, r) for r in self.resources().values() if r.name is not None])
class MacBinary:
def __init__(self, f):
if type(f) is type(''):
f = open(f, 'rb')
self.f = f
self.f.seek(0x53)
self.dataforksize, self.resforksize = struct.unpack(">ll", self.f.read(8))
self.loadresources()
def getdata(self):
self.f.seek(0x80)
return self.f.read(self.dataforksize)
def loadresources(self):
f = Subfile(self.f, padto(0x80 + self.dataforksize, 0x80), self.resforksize)
ofsdata, ofsmap, lendata, lenmap = struct.unpack(">llll", f.read(16))
fdata = Subfile(f, ofsdata, lendata)
fmap = Subfile(f, ofsmap, lenmap)
fmap.seek(24)
ofstype, ofsname = struct.unpack(">HH", fmap.read(4))
self.dtypes = {}
fmap.seek(ofstype)
numtypes, = struct.unpack(">H", fmap.read(2))
numtypes = numtypes + 1
for rtype, num, ofsref in [struct.unpack(">4sHH", fmap.read(8))
for i in range(numtypes)]:
assert rtype not in self.dtypes
self.dtypes[rtype] = TypeList(rtype, fmap, fdata, ofsname,
ofstype + ofsref, num + 1)
def __getitem__(self, rtype):
return self.dtypes[rtype]
def types(self):
return self.dtypes
def keys(self):
return self.dtypes.keys()
def values(self):
return self.dtypes.values()
def items(self):
return self.dtypes.items()
class Subfile:
def __init__(self, f, start, length):
if start < 0:
raise ValueError, 'negative position'
if isinstance(f, Subfile):
if start + length > f.length:
raise ValueError, 'subfile out of bounds'
f, start = f.f, f.start+start
self.f = f
self.start = start
self.length = length
self.position = 0
def read(self, size=None):
if size is None or self.position + size > self.length:
size = self.length - self.position
if size <= 0:
return ''
self.f.seek(self.start + self.position)
self.position = self.position + size
return self.f.read(size)
def seek(self, npos):
if npos < 0:
raise ValueError, 'negative position'
self.position = npos
class Resource:
def __init__(self, type, id, name, attr, srcfile, srcofs):
self.type = type
self.id = id
self.name = name
self.attr = attr
self.srcfile = srcfile
self.srcofs = srcofs
def subfile(self):
self.srcfile.seek(self.srcofs)
length, = struct.unpack(">l", self.srcfile.read(4))
return Subfile(self.srcfile, self.srcofs + 4, length)
def load(self):
return self.subfile().read()
class RGBImage:
def __init__(self, w, h, data):
assert len(data) == 3*w*h
self.w = w
self.h = h
self.data = data
def loadcolormap(f):
size, = struct.unpack(">xxxxxxH", f.read(8))
size = size + 1
d = {}
for index, r, g, b in [struct.unpack(">HHHH", f.read(8)) for i in range(size)]:
assert index not in d, 'duplicate color index'
d[index] = r/256.0, g/256.0, b/256.0
return d
def image2rgb(image):
# returns (w, h, data)
h = len(image)
result1 = []
for line in image:
for r, g, b in line:
result1.append(chr(int(r)) + chr(int(g)) + chr(int(b)))
return len(image[0]), len(image), ''.join(result1)
class clutResource(Resource):
# a color table
def gettable(self):
return loadcolormap(self.subfile())
class ppatResource(Resource):
# a pattern
def getimage(self):
f = self.subfile()
pattype, patmap, patdata = struct.unpack(">Hll", f.read(10))
if pattype != 1:
raise ValueError, 'Pattern type not supported'
f.seek(patmap)
(rowBytes, h, w, packType, packSize,
pixelType, pixelSize, cmpCount, cmpSize, pmTable) = (
struct.unpack(">xxxxHxxxxHHxxHlxxxxxxxxHHHHxxxxlxxxx", f.read(50)))
isBitmap = (rowBytes & 0x8000) != 0
rowBytes &= 0x3FFF
if packType != 0:
raise ValueError, 'packed image not supported'
if pixelType != 0 or cmpCount != 1:
raise ValueError, 'direct RGB image not supported'
assert cmpSize == pixelSize and pixelSize in [1,2,4,8]
f.seek(pmTable)
colormap = loadcolormap(f)
bits_per_pixel = pixelSize
pixels_per_byte = 8 // bits_per_pixel
image = []
f.seek(patdata)
for y in range(h):
line = f.read(rowBytes)
imgline = []
for x in range(w):
n = x//pixels_per_byte
idx = ((ord(line[n]) >> ((pixels_per_byte - 1 - x%pixels_per_byte) * bits_per_pixel))
& ((1<<bits_per_pixel)-1))
imgline.append(colormap[idx])
image.append(imgline)
return image
class LEVLResource(Resource):
# bub & bob level
WIDTH = 32
HEIGHT = 25
MONSTERS = 30
WALLS = { 1:'#', 0:' '}
WINDS = { 0:' ', 1:'>', 2:'<', 3:'v', 4:'^', 5:'x', 0x66:' '}
FLAGS = ['flag0', 'letter', 'fire', 'lightning', 'water', 'top', 'flag6', 'flag7']
def getlevel(self, mnstrlist):
f = self.subfile()
result = {}
walls = []
for y in range(self.HEIGHT):
line = f.read(self.WIDTH//8)
line = [self.WALLS[(ord(line[x//8]) >> (x%8)) & 1]
for x in range(self.WIDTH)]
walls.append(''.join(line))
result['walls'] = '\n'.join(walls)
winds = []
for y in range(self.HEIGHT):
line = f.read(self.WIDTH)
line = [self.WINDS[ord(v)] for v in line]
winds.append(''.join(line))
result['winds'] = '\n'.join(winds)
monsters = []
for i in range(self.MONSTERS):
x,y,monster_type,f1,f2,f3 = struct.unpack(">BBBBBB", f.read(6))
if monster_type != 0:
assert f1 == 0, f1
cls = mnstrlist[monster_type-1]
monsters.append(cls(x=x, y=y, dir=f2, player=f3))
result['monsters'] = monsters
result['level'], = struct.unpack('>H', f.read(2))
for i in range(8):
result[self.FLAGS[i]] = ord(f.read(1))
return result
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