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#!/usr/bin/env python
# $Rev: 184 $
# $URL: http://pypng.googlecode.com/svn/trunk/code/plan9topng.py $
# Imported from //depot/prj/plan9topam/master/code/plan9topam.py#4 on
# 2009-06-15.
"""Command line tool to convert from Plan 9 image format to PNG format.
Plan 9 image format description:
http://plan9.bell-labs.com/magic/man2html/6/image
"""
# http://www.python.org/doc/2.3.5/lib/module-itertools.html
import itertools
# http://www.python.org/doc/2.3.5/lib/module-re.html
import re
# http://www.python.org/doc/2.3.5/lib/module-sys.html
import sys
def block(s, n):
# See http://www.python.org/doc/2.6.2/library/functions.html#zip
return zip(*[iter(s)]*n)
def convert(f, output=sys.stdout) :
"""Convert Plan 9 file to PNG format. Works with either uncompressed
or compressed files.
"""
r = f.read(11)
if r == 'compressed\n' :
png(output, *decompress(f))
else :
png(output, *glue(f, r))
def glue(f, r) :
"""Return (metadata, stream) pair where `r` is the initial portion of
the metadata that has already been read from the stream `f`.
"""
r = r + f.read(60-len(r))
return (r, f)
def meta(r) :
"""Convert 60 character string `r`, the metadata from an image file.
Returns a 5-tuple (*chan*,*minx*,*miny*,*limx*,*limy*). 5-tuples may
settle into lists in transit.
As per http://plan9.bell-labs.com/magic/man2html/6/image the metadata
comprises 5 words separated by blanks. As it happens each word starts
at an index that is a multiple of 12, but this routine does not care
about that."""
r = r.split()
# :todo: raise FormatError
assert len(r) == 5
r = [r[0]] + map(int, r[1:])
return r
def bitdepthof(pixel) :
"""Return the bitdepth for a Plan9 pixel format string."""
maxd = 0
for c in re.findall(r'[a-z]\d*', pixel) :
if c[0] != 'x':
maxd = max(maxd, int(c[1:]))
return maxd
def maxvalof(pixel):
"""Return the netpbm MAXVAL for a Plan9 pixel format string."""
bitdepth = bitdepthof(pixel)
return (2**bitdepth)-1
def pixmeta(metadata, f) :
"""Convert (uncompressed) Plan 9 image file to pair of (*metadata*,
*pixels*). This is intended to be used by PyPNG format. *metadata*
is the metadata returned in a dictionary, *pixels* is an iterator that
yields each row in boxed row flat pixel format.
`f`, the input file, should be cued up to the start of the image data.
"""
chan,minx,miny,limx,limy = metadata
rows = limy - miny
width = limx - minx
nchans = len(re.findall('[a-wyz]', chan))
alpha = 'a' in chan
# Iverson's convention for the win!
ncolour = nchans - alpha
greyscale = ncolour == 1
bitdepth = bitdepthof(chan)
maxval = 2**bitdepth - 1
# PNG style metadata
meta=dict(size=(width,rows), bitdepth=bitdepthof(chan),
greyscale=greyscale, alpha=alpha, planes=nchans)
return itertools.imap(lambda x: itertools.chain(*x),
block(unpack(f, rows, width, chan, maxval), width)), meta
def png(out, metadata, f):
"""Convert to PNG format. `metadata` should be a Plan9 5-tuple; `f`
the input file (see :meth:`pixmeta`).
"""
import png
pixels,meta = pixmeta(metadata, f)
p = png.Writer(**meta)
p.write(out, pixels)
def spam():
"""Not really spam, but old PAM code, which is in limbo."""
if nchans == 3 or nchans == 1 :
# PGM (P5) or PPM (P6) format.
output.write('P%d\n%d %d %d\n' % (5+(nchans==3), width, rows, maxval))
else :
# PAM format.
output.write("""P7
WIDTH %d
HEIGHT %d
DEPTH %d
MAXVAL %d
""" % (width, rows, nchans, maxval))
def unpack(f, rows, width, pixel, maxval) :
"""Unpack `f` into pixels. Assumes the pixel format is such that the depth
is either a multiple or a divisor of 8.
`f` is assumed to be an iterator that returns blocks of input such
that each block contains a whole number of pixels. An iterator is
returned that yields each pixel as an n-tuple. `pixel` describes the
pixel format using the Plan9 syntax ("k8", "r8g8b8", and so on).
"""
def mask(w) :
"""An integer, to be used as a mask, with bottom `w` bits set to 1."""
return (1 << w)-1
def deblock(f, depth, width) :
"""A "packer" used to convert multiple bytes into single pixels.
`depth` is the pixel depth in bits (>= 8), `width` is the row width in
pixels.
"""
w = depth // 8
i = 0
for block in f :
for i in range(len(block)//w) :
p = block[w*i:w*(i+1)]
i += w
# Convert p to little-endian integer, x
x = 0
s = 1 # scale
for j in p :
x += s * ord(j)
s <<= 8
yield x
def bitfunge(f, depth, width) :
"""A "packer" used to convert single bytes into multiple pixels.
Depth is the pixel depth (< 8), width is the row width in pixels.
"""
for block in f :
col = 0
for i in block :
x = ord(i)
for j in range(8/depth) :
yield x >> (8 - depth)
col += 1
if col == width :
# A row-end forces a new byte even if we haven't consumed
# all of the current byte. Effectively rows are bit-padded
# to make a whole number of bytes.
col = 0
break
x <<= depth
# number of bits in each channel
chan = map(int, re.findall(r'\d+', pixel))
# type of each channel
type = re.findall('[a-z]', pixel)
depth = sum(chan)
# According to the value of depth pick a "packer" that either gathers
# multiple bytes into a single pixel (for depth >= 8) or split bytes
# into several pixels (for depth < 8)
if depth >= 8 :
#
assert depth % 8 == 0
packer = deblock
else :
assert 8 % depth == 0
packer = bitfunge
for x in packer(f, depth, width) :
# x is the pixel as an unsigned integer
o = []
# This is a bit yucky. Extract each channel from the _most_
# significant part of x.
for j in range(len(chan)) :
v = (x >> (depth - chan[j])) & mask(chan[j])
x <<= chan[j]
if type[j] != 'x' :
# scale to maxval
v = v * float(maxval) / mask(chan[j])
v = int(v+0.5)
o.append(v)
yield o
def decompress(f) :
"""Decompress a Plan 9 image file. Assumes f is already cued past the
initial 'compressed\n' string.
"""
r = meta(f.read(60))
return r, decomprest(f, r[4])
def decomprest(f, rows) :
"""Iterator that decompresses the rest of a file once the metadata
have been consumed."""
row = 0
while row < rows :
row,o = deblock(f)
yield o
def deblock(f) :
"""Decompress a single block from a compressed Plan 9 image file.
Each block starts with 2 decimal strings of 12 bytes each. Yields a
sequence of (row, data) pairs where row is the total number of rows
processed according to the file format and data is the decompressed
data for a set of rows."""
row = int(f.read(12))
size = int(f.read(12))
if not (0 <= size <= 6000) :
raise 'block has invalid size; not a Plan 9 image file?'
# Since each block is at most 6000 bytes we may as well read it all in
# one go.
d = f.read(size)
i = 0
o = []
while i < size :
x = ord(d[i])
i += 1
if x & 0x80 :
x = (x & 0x7f) + 1
lit = d[i:i+x]
i += x
o.extend(lit)
continue
# x's high-order bit is 0
l = (x >> 2) + 3
# Offset is made from bottom 2 bits of x and all 8 bits of next
# byte. http://plan9.bell-labs.com/magic/man2html/6/image doesn't
# say whether x's 2 bits are most signiificant or least significant.
# But it is clear from inspecting a random file,
# http://plan9.bell-labs.com/sources/plan9/sys/games/lib/sokoban/images/cargo.bit
# that x's 2 bit are most significant.
#
offset = (x & 3) << 8
offset |= ord(d[i])
i += 1
# Note: complement operator neatly maps (0 to 1023) to (-1 to
# -1024). Adding len(o) gives a (non-negative) offset into o from
# which to start indexing.
offset = ~offset + len(o)
if offset < 0 :
raise 'byte offset indexes off the begininning of the output buffer; not a Plan 9 image file?'
for j in range(l) :
o.append(o[offset+j])
return row,''.join(o)
def main(argv=None) :
if argv is None :
argv = sys.argv
if len(sys.argv) <= 1 :
return convert(sys.stdin)
else :
return convert(open(argv[1], 'rb'))
if __name__ == '__main__' :
sys.exit(main())
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