ladybird/Meta/jbig2_to_pdf.py
Nico Weber 7fc4ea5495 Meta/jbig2_to_pdf.py: Read jbig2 dimensions from file
Since we're parsing segment headers for random-access jbig2 inputs
already, just always do that and get the image dimensions from the
PageInformation segment data. Not all that much more code, and it
makes this script much more pleasant to use.
2024-04-02 15:00:23 -04:00

241 lines
6.1 KiB
Python
Executable file

#!/usr/bin/env python3
"""
Creates a PDF that embeds a jbig2 image. Useful for viewing .jbig2 files in
PDF viewers, since all PDF viewers support .jbig2 but few image viewers do.
Usage :
% Meta/jbig2_to_pdf.py -o foo.pdf path/to/bitmap.jbig2
% open foo.pdf
"""
from dataclasses import dataclass
import argparse
import struct
import textwrap
PageInformation = 48
EndOfFile = 51
def dedent(b):
return textwrap.dedent(b.decode('latin1')).encode('latin1')
@dataclass
class SegmentHeader:
segment_header_size: int
type: int
bytes: bytes
data_size: int
data: bytes
def read_segment_header(data, offset):
segment_number, = struct.unpack_from('>I', data, offset)
flags = data[offset + 4]
segment_page_association_size_is_32_bits = (flags & 0b100_0000) != 0
type = (flags & 0b11_1111)
referred_segments_count = data[offset + 5] >> 5
if referred_segments_count > 4:
raise Exception('cannot handle more than 4 referred-to segments')
if segment_number <= 256:
ref_size = 1
elif segment_number <= 65536:
ref_size = 2
else:
ref_size = 4
segment_header_size = 4 + 1 + 1 + ref_size * referred_segments_count
if segment_page_association_size_is_32_bits:
segment_header_size += 4
else:
segment_header_size += 1
data_size, = struct.unpack_from('>I', data, offset + segment_header_size)
if data_size == 0xffff_ffff:
raise Exception('cannot handle indeterminate length')
segment_header_size += 4
bytes = data[offset:offset + segment_header_size]
return SegmentHeader(segment_header_size, type, bytes, data_size, None)
def read_segment_headers(data, is_random_access):
offset = 0
segment_headers = []
while offset < len(data):
segment_header = read_segment_header(data, offset)
offset += segment_header.segment_header_size
if not is_random_access:
segment_header.data = data[offset:offset + segment_header.data_size]
offset += segment_header.data_size
segment_headers.append(segment_header)
if segment_header.type == EndOfFile:
break
if is_random_access:
for segment_header in segment_headers:
segment_header.data = data[offset:offset + segment_header.data_size]
offset += segment_header.data_size
return segment_headers
def random_access_to_sequential(segment_headers):
out_data = bytes()
for segment_header in segment_headers:
out_data += segment_header.bytes
out_data += segment_header.data
return out_data
def get_dimensions(segment_headers):
for segment_header in segment_headers:
if segment_header.type != PageInformation:
continue
return struct.unpack_from('>II', segment_header.data)
raise Exception('did not find PageInformation')
def main():
parser = argparse.ArgumentParser(
epilog=__doc__, formatter_class=argparse.RawDescriptionHelpFormatter
)
parser.add_argument("image", help="Input image")
parser.add_argument("-o", "--output", help="Path to output PDF")
args = parser.parse_args()
with open(args.image, 'rb') as f:
image_data = f.read()
# strip jbig2 header
image_data = image_data[8:]
is_random_access = image_data[0] & 1 == 0
if image_data[0] & 2 == 0:
image_data = image_data[4:]
image_data = image_data[1:]
segment_headers = read_segment_headers(image_data, is_random_access)
width, height = get_dimensions(segment_headers)
print(f'dims {width}x{height}')
if is_random_access:
image_data = random_access_to_sequential(segment_headers)
start = dedent(b'''\
%PDF-1.4
%\265\266
''')
operators = dedent(b'''\
%d 0 0 %d 0 0 cm
/Im Do''' % (width, height))
objs = [dedent(b'''\
1 0 obj
<<
/Type /Catalog
/Pages 2 0 R
>>
endobj
'''),
dedent(b'''\
2 0 obj
<<
/Type /Pages
/Kids [3 0 R]
/Count 1
>>
endobj
'''),
dedent(b'''\
3 0 obj
<<
/Type /Page
/Parent 2 0 R
/MediaBox [0 0 %d %d]
/Contents 4 0 R
/Resources <<
/XObject <<
/Im 5 0 R
>>
>>
>>
endobj
''' % (width, height)),
dedent(b'''\
4 0 obj
<</Length %d>>
stream
''' % len(operators)) +
operators +
dedent(b'''
endstream
endobj
'''),
dedent(b'''\
5 0 obj
<<
/Length %d
/Type /XObject
/Subtype /Image
/Width %d
/Height %d
/ColorSpace /DeviceGray
/Filter /JBIG2Decode
/BitsPerComponent 1
>>
stream
''' % (len(image_data), width, height)) +
image_data +
dedent(b'''
endstream
endobj
'''),
]
with open(args.output, 'wb') as f:
f.write(start)
offsets = []
for obj in objs:
offsets.append(f.tell())
f.write(obj)
f.write(b'\n')
xref_offset = f.tell()
f.write(b'xref\n')
f.write(b'0 %d\n' % (len(objs) + 1))
f.write(b'0000000000 65536 f \n')
for offset in offsets:
f.write(b'%010d 00000 n \n' % offset)
f.write(b'\n')
f.write(dedent(b'''\
trailer
<<
/Size %d
/Root 1 0 R
>>
startxref
%d
%%%%EOF
''' % (len(objs) + 1, xref_offset)))
if __name__ == '__main__':
main()