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# AppendingTiffWriter | |
# -*- coding: utf-8 -*- | |
# | |
# "file object wrapper class" that is able to append a TIF to an existing one | |
# | |
# Code by @vashek (https://github.com/vashek) published at | |
# https://github.com/python-pillow/Pillow/issues/733#issuecomment-249380397 | |
# | |
# Fixed PEP8 and clean by Jesús Leganés-Combarro 'piranna' <[email protected]> | |
from enum import IntEnum | |
from io import open, SEEK_CUR, SEEK_END, SEEK_SET | |
from struct import pack, unpack | |
try: | |
from logging import trace | |
except ImportError as e: | |
def trace(*args, **kwargs): | |
pass | |
class AppendingTiffWriter: | |
fieldSizes = [ | |
0, # None | |
1, # byte | |
1, # ascii | |
2, # short | |
4, # long | |
8, # rational | |
1, # sbyte | |
1, # undefined | |
2, # sshort | |
4, # slong | |
8, # srational | |
4, # float | |
8, # double | |
] | |
class Tags(IntEnum): | |
StripOffsets = 273 | |
FreeOffsets = 288 | |
TileOffsets = 324 | |
JPEGQTables = 519 | |
JPEGDCTables = 520 | |
JPEGACTables = 521 | |
def __init__(self, fn, new=False): | |
self.whereToWriteNewIFDOffset = None | |
self.offsetOfNewPage = 0 | |
self.name = fn | |
mode = "w+b" if new else "r+b" | |
if hasattr(fn, 'read'): | |
self.f = fn | |
else: | |
try: | |
self.f = open(fn, mode) | |
except IOError: | |
self.f = open(fn, "w+b") | |
self.IIMM = IIMM = self.f.read(4) | |
if not IIMM: | |
# empty file - first page | |
self.isFirst = True | |
return | |
self.isFirst = False | |
if IIMM == "II\x2a\x00": | |
self.setEndian("<") | |
elif IIMM == "MM\x00\x2a": | |
self.setEndian(">") | |
else: | |
raise RuntimeError("Invalid TIFF file header") | |
self.skipIFDs() | |
self.goToEnd() | |
def __enter__(self): | |
return self | |
def __exit__(self, exc_type, exc_value, traceback): | |
self.close() | |
return False | |
def tell(self): | |
return self.f.tell() - self.offsetOfNewPage | |
def seek(self, offset, whence): | |
if whence == SEEK_SET: | |
offset += self.offsetOfNewPage | |
self.f.seek(offset, whence) | |
return self.tell() | |
def goToEnd(self): | |
self.f.seek(0, SEEK_END) | |
pos = self.f.tell() | |
# pad to 16 byte boundary | |
padBytes = 16 - pos % 16 | |
if 0 < padBytes < 16: | |
self.f.write(bytes(bytearray(padBytes))) | |
self.offsetOfNewPage = self.f.tell() | |
def setEndian(self, endian): | |
self.endian = endian | |
self.longFmt = self.endian + "L" | |
self.shortFmt = self.endian + "H" | |
self.tagFormat = self.endian + "HHL" | |
def skipIFDs(self): | |
while True: | |
IFDoffset = self.readLong() | |
if IFDoffset == 0: | |
self.whereToWriteNewIFDOffset = self.f.tell() - 4 | |
break | |
self.f.seek(IFDoffset) | |
numTags = self.readShort() | |
self.f.seek(numTags * 12, SEEK_CUR) | |
def write(self, data): | |
return self.f.write(data) | |
def readShort(self): | |
value, = unpack(self.shortFmt, self.f.read(2)) | |
return value | |
def readLong(self): | |
value, = unpack(self.longFmt, self.f.read(4)) | |
return value | |
def rewriteLastShortToLong(self, value): | |
self.f.seek(-2, SEEK_CUR) | |
bytesWritten = self.f.write(pack(self.longFmt, value)) | |
if bytesWritten != 4: | |
raise RuntimeError("wrote only %u bytes but wanted 4" % | |
bytesWritten) | |
def rewriteLastShort(self, value): | |
self.f.seek(-2, SEEK_CUR) | |
bytesWritten = self.f.write(pack(self.shortFmt, value)) | |
if bytesWritten != 2: | |
raise RuntimeError("wrote only %u bytes but wanted 2" % | |
bytesWritten) | |
def rewriteLastLong(self, value): | |
self.f.seek(-4, SEEK_CUR) | |
bytesWritten = self.f.write(pack(self.longFmt, value)) | |
if bytesWritten != 4: | |
raise RuntimeError("wrote only %u bytes but wanted 4" % | |
bytesWritten) | |
def writeShort(self, value): | |
bytesWritten = self.f.write(pack(self.shortFmt, value)) | |
if bytesWritten != 2: | |
raise RuntimeError("wrote only %u bytes but wanted 2" % | |
bytesWritten) | |
def writeLong(self, value): | |
bytesWritten = self.f.write(pack(self.longFmt, value)) | |
if bytesWritten != 4: | |
raise RuntimeError("wrote only %u bytes but wanted 4" % | |
bytesWritten) | |
def close(self): | |
if not self.isFirst: | |
# fix offsets | |
self.f.seek(self.offsetOfNewPage) | |
IIMM = self.f.read(4) | |
if not IIMM: | |
raise RuntimeError("nothing written into new page") | |
if IIMM != self.IIMM: | |
raise RuntimeError("IIMM of new page doesn't match IIMM of " | |
"first page") | |
IFDoffset = self.readLong() | |
IFDoffset += self.offsetOfNewPage | |
self.f.seek(self.whereToWriteNewIFDOffset) | |
self.writeLong(IFDoffset) | |
self.f.seek(IFDoffset) | |
self.fixIFD() | |
self.f.close() | |
def fixIFD(self): | |
numTags = self.readShort() | |
trace("fixing IFD at %X; number of tags: %u (0x%X)", self.f.tell()-2, | |
numTags, numTags) | |
edit_tags = set(self.Tags) | |
for i in range(numTags): | |
tag, fieldType, count = unpack(self.tagFormat, self.f.read(8)) | |
trace(" at %X: tag %u (0x%X), type %u, count %u", self.f.tell()-8, | |
tag, tag, fieldType, count) | |
fieldSize = self.fieldSizes[fieldType] | |
totalSize = fieldSize * count | |
isLocal = (totalSize <= 4) | |
if not isLocal: | |
offset = self.readLong() | |
offset += self.offsetOfNewPage | |
self.rewriteLastLong(offset) | |
if tag in edit_tags: | |
curPos = self.f.tell() | |
if isLocal: | |
self.fixOffsets(count, isShort=(fieldSize == 2), | |
isLong=(fieldSize == 4)) | |
self.f.seek(curPos + 4) | |
else: | |
self.f.seek(offset) | |
self.fixOffsets(count, isShort=(fieldSize == 2), | |
isLong=(fieldSize == 4)) | |
self.f.seek(curPos) | |
offset = curPos = None | |
elif isLocal: | |
# skip the locally stored value that is not an offset | |
self.f.seek(4, SEEK_CUR) | |
def fixOffsets(self, count, isShort=False, isLong=False): | |
if not isShort and not isLong: | |
raise RuntimeError("offset is neither short nor long") | |
for i in range(count): | |
offset = self.readShort() if isShort else self.readLong() | |
offset += self.offsetOfNewPage | |
if isShort and offset >= 65536: | |
# offset is now too large - we must convert shorts to longs | |
if count != 1: | |
raise RuntimeError("not implemented") # XXX TODO | |
# simple case - the offset is just one and therefore it is | |
# local (not referenced with another offset) | |
self.rewriteLastShortToLong(offset) | |
self.f.seek(-10, SEEK_CUR) | |
self.writeShort(4) # rewrite the type to LONG | |
self.f.seek(8, SEEK_CUR) | |
elif isShort: | |
self.rewriteLastShort(offset) | |
else: | |
self.rewriteLastLong(offset) | |
if __name__ == '__main__': | |
from PIL import Image | |
import os | |
testfile = "test.tiff" | |
if os.path.exists(testfile): | |
os.unlink(testfile) | |
with Image.open("multipage.tiff") as ti: | |
for idx in range(ti.n_frames): | |
ti.seek(idx) | |
print ("%i: %s %s" % (idx, repr(ti.size), ti.mode)) | |
with AppendingTiffWriter(testfile) as tf: | |
ti.save(tf) |
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Could you explain how the test works? Seems that's picking the current number of frames and it's adding them, duplicating the number of frames of the file, isn't it?