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# coding: utf-8
#
# Project: FabIO X-ray image reader
#
# Copyright (C) 2010-2016 European Synchrotron Radiation Facility
# Grenoble, France
#
# Permission is hereby granted, free of charge, to any person obtaining a copy
# of this software and associated documentation files (the "Software"), to deal
# in the Software without restriction, including without limitation the rights
# to use, copy, modify, merge, publish, distribute, sublicense, and/or sell
# copies of the Software, and to permit persons to whom the Software is
# furnished to do so, subject to the following conditions:
#
# The above copyright notice and this permission notice shall be included in
# all copies or substantial portions of the Software.
#
# THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR
# IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY,
# FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL THE
# AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER
# LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING FROM,
# OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN
# THE SOFTWARE.
#
"""
FabIO class for dealing with TIFF images.
In facts wraps TiffIO from V. Armando Solé (available in PyMca) or falls back to PIL
Authors:
........
* Henning O. Sorensen & Erik Knudsen:
Center for Fundamental Research: Metal Structures in Four Dimensions;
Risoe National Laboratory;
Frederiksborgvej 399;
DK-4000 Roskilde;
email:erik.knudsen@risoe.dk
* Jérôme Kieffer:
European Synchrotron Radiation Facility;
Grenoble (France)
License: MIT
"""
# Get ready for python3:
from __future__ import with_statement, print_function, division
__authors__ = ["Jérôme Kieffer", "Henning O. Sorensen", "Erik Knudsen"]
__date__ = "28/06/2016"
__license__ = "MIT"
__copyright__ = "ESRF, Grenoble & Risoe National Laboratory"
__status__ = "stable"
import time
import logging
import struct
logger = logging.getLogger("tifimage")
try:
from PIL import Image
except ImportError:
logger.warning("PIL is not installed ... trying to do without")
Image = None
import numpy
from .fabioimage import FabioImage
from .TiffIO import TiffIO
PIL_TO_NUMPY = {"I;8": numpy.uint8,
"I;16": numpy.uint16,
"I;16B": numpy.uint16, # big endian
"I;16L": numpy.uint16, # little endian
"I;32": numpy.uint32,
"I;32L": numpy.uint32, # little endian
"I;32B": numpy.uint32, # big endian
"F;32F": numpy.float32,
"F;32BF": numpy.float32, # big endian
"F;64F": numpy.float64,
"F;64BF": numpy.float64, # big endian
"F": numpy.float32,
"1": numpy.bool,
"I": numpy.int32,
"L": numpy.uint8,
}
LITTLE_ENDIAN = 1234
BIG_ENDIAN = 3412
TYPES = {0: 'invalid', 1: 'byte', 2: 'ascii', 3: 'short', 4: 'long', 5: 'rational',
6: 'sbyte', 7: 'undefined', 8: 'sshort', 9: 'slong', 10: 'srational',
11: 'float', 12: 'double'}
TYPESIZES = {0: 0, 1: 1, 2: 1, 3: 2, 4: 4, 5: 8, 6: 1, 7: 1, 8: 2, 9: 4, 10: 8, 11: 4, 12: 8}
baseline_tiff_tags = {
256: 'ImageWidth',
257: 'ImageLength',
306: 'DateTime',
315: 'Artist',
258: 'BitsPerSample',
265: 'CellLength',
264: 'CellWidth',
259: 'Compression',
262: 'PhotometricInterpretation',
296: 'ResolutionUnit',
282: 'XResolution',
283: 'YResolution',
278: 'RowsPerStrip',
273: 'StripOffset',
279: 'StripByteCounts',
270: 'ImageDescription',
271: 'Make',
272: 'Model',
320: 'ColorMap',
305: 'Software',
339: 'SampleFormat',
33432: 'Copyright'
}
class TifImage(FabioImage):
"""
Images in TIF format
Wraps TiffIO
"""
_need_a_seek_to_read = True
def __init__(self, *args, **kwds):
""" Tifimage constructor adds an nbits member attribute """
self.nbits = None
FabioImage.__init__(self, *args, **kwds)
self.lib = None
def _readheader(self, infile):
"""
Try to read Tiff images header...
"""
# try:
# self.header = { "filename" : infile.name }
# except AttributeError:
# self.header = {}
#
# t = Tiff_header(infile.read())
# self.header = t.header
# try:
# self.dim1 = int(self.header['ImageWidth'])
# self.dim2 = int(self.header['ImageLength'])
# except (KeyError):
# logger.warning("image dimensions could not be determined from header tags, trying to go on anyway")
# read the first 32 bytes to determine size
header = numpy.fromstring(infile.read(64), numpy.uint16)
self.dim1 = int(header[9])
self.dim2 = int(header[15])
# nbits is not a FabioImage attribute...
self.nbits = int(header[21]) # number of bits
def read(self, fname, frame=None):
"""
Wrapper for TiffIO.
"""
infile = self._open(fname, "rb")
self._readheader(infile)
infile.seek(0)
self.lib = None
try:
tiffIO = TiffIO(infile)
if tiffIO.getNumberOfImages() > 0:
# No support for now of multi-frame tiff images
self.data = tiffIO.getImage(0)
self.header = tiffIO.getInfo(0)
except Exception as error:
logger.warning("Unable to read %s with TiffIO due to %s, trying PIL" % (fname, error))
else:
if self.data.ndim == 2:
self.dim2, self.dim1 = self.data.shape
elif self.data.ndim == 3:
self.dim2, self.dim1, ncol = self.data.shape
logger.warning("Third dimension is the color")
else:
logger.warning("dataset has %s dimensions (%s), check for errors !!!!", self.data.ndim, self.data.shape)
self.lib = "TiffIO"
if (self.lib is None):
if Image:
try:
infile.seek(0)
self.pilimage = Image.open(infile)
except Exception:
logger.error("Error in opening %s with PIL" % fname)
self.lib = None
infile.seek(0)
else:
self.lib = "PIL"
dim1, dim2 = self.pilimage.size
if self.pilimage.mode in PIL_TO_NUMPY:
dtype = PIL_TO_NUMPY[self.pilimage.mode]
pilimage = self.pilimage
else:
dtype = numpy.float32
pilimage = self.pilimage.convert("F")
try:
data = numpy.asarray(pilimage, dtype)
except: # PIL does not support buffer interface (yet)
if "tobytes" in dir(pilimage):
data = numpy.fromstring(pilimage.tobytes(), dtype=dtype)
else:
data = numpy.fromstring(pilimage.tostring(), dtype=dtype)
# byteswap ?
if numpy.dtype(dtype).itemsize > 1:
if (numpy.little_endian and "B" in self.pilimage.mode) or\
(not numpy.little_endian and self.pilimage.mode.endswith("L")):
data.byteswap(True)
self.data = data.reshape((dim2, dim1))
else:
logger.error("Error in opening %s: no tiff reader managed to read the file.", fname)
self.lib = None
infile.seek(0)
self.resetvals()
return self
def write(self, fname):
"""
Overrides the FabioImage.write method and provides a simple TIFF image writer.
@param fname: name of the file to save the image to
@tag_type fname: string or unicode (file?)...
"""
tiffIO = TiffIO(fname, mode="w")
tiffIO.writeImage(self.data, info=self.header, software="fabio.tifimage", date=time.ctime())
# define a couple of helper classes here:
class Tiff_header(object):
def __init__(self, string):
if string[:4] == "II\x2a\x00":
self.byteorder = LITTLE_ENDIAN
elif string[:4] == 'MM\x00\x2a':
self.byteorder = BIG_ENDIAN
else:
logger.warning("Warning: This does not appear to be a tiff file")
# the next two bytes contains the offset of the oth IFD
offset_first_ifd = struct.unpack_from("h", string[4:])[0]
self.ifd = [Image_File_Directory()]
offset_next = self.ifd[0].unpack(string, offset_first_ifd)
while (offset_next != 0):
self.ifd.append(Image_File_Directory())
offset_next = self.ifd[-1].unpack(string, offset_next)
self.header = {}
# read the values of the header items into a dictionary
for entry in self.ifd[0].entries:
if entry.tag in baseline_tiff_tags.keys():
self.header[baseline_tiff_tags[entry.tag]] = entry.val
else:
self.header[entry.tag] = entry.val
class Image_File_Directory(object):
def __init__(self, instring=None, offset=-1):
self.entries = []
self.offset = offset
self.count = None
def unpack(self, instring, offset=-1):
if (offset == -1):
offset = self.offset
strInput = instring[offset:]
self.count = struct.unpack_from("H", strInput[:2])[0]
# 0th IFD contains count-1 entries (count includes the adress of the next IFD)
for i in range(self.count - 1):
e = Image_File_Directory_entry().unpack(strInput[2 + 12 * (i + 1):])
if (e is not None):
self.entries.append(e)
# extract data associated with tags
for e in self.entries:
if (e.val is None):
e.extract_data(instring)
# do we have some more ifds in this file
offset_next = struct.unpack_from("L", instring[offset + 2 + self.count * 12:])[0]
return offset_next
class Image_File_Directory_entry(object):
def __init__(self, tag=0, tag_type=0, count=0, offset=0):
self.tag = tag
self.tag_type = tag_type
self.count = count
self.val_offset = offset
self.val = None
def unpack(self, strInput):
idfentry = strInput[:12]
################################################################################
# # TOFIX: How is it possible that HHL (2+2+4 bytes has a size of )
################################################################################
(tag, tag_type, count) = struct.unpack_from("HHL", idfentry)
self.tag = tag
self.count = count
self.tag_type = tag_type
self.val = None
if (count <= 0):
logger.warning("Tag # %s has an invalid count: %s. Tag is ignored" % (tag, count))
return
if(count * TYPESIZES[tag_type] <= 4):
self.val_offset = 8
self.extract_data(idfentry)
self.val_offset = None
else:
self.val_offset = struct.unpack_from("L", idfentry[8:])[0]
return self
def extract_data(self, full_string):
tag_type = self.tag_type
if (TYPES[tag_type] == 'byte'):
self.val = struct.unpack_from("B", full_string[self.val_offset:])[0]
elif (TYPES[tag_type] == 'short'):
self.val = struct.unpack_from("H", full_string[self.val_offset:])[0]
elif (TYPES[tag_type] == 'long'):
self.val = struct.unpack_from("L", full_string[self.val_offset:])[0]
elif (TYPES[tag_type] == 'sbyte'):
self.val = struct.unpack_from("b", full_string[self.val_offset:])[0]
elif (TYPES[tag_type] == 'sshort'):
self.val = struct.unpack_from("h", full_string[self.val_offset:])[0]
elif (TYPES[tag_type] == 'slong'):
self.val = struct.unpack_from("l", full_string[self.val_offset:])[0]
elif (TYPES[tag_type] == 'ascii'):
self.val = full_string[self.val_offset:self.val_offset + max(self.count, 4)]
elif (TYPES[tag_type] == 'rational'):
if self.val_offset is not None:
(num, den) = struct.unpack_from("LL", full_string[self.val_offset:])
print(self.val_offset)
self.val = float(num) / den
elif (TYPES[tag_type] == 'srational'):
if self.val_offset is not None:
(num, den) = struct.unpack_from("ll", full_string[self.val_offset:])
self.val = float(num) / den,
elif (TYPES[tag_type] == 'float'):
self.val = struct.unpack_from("f", full_string[self.val_offset:])[0]
elif (TYPES[tag_type] == 'double'):
if self.val_offset is not None:
self.val = struct.unpack_from("d", full_string[self.val_offset:])[0]
else:
logger.warning("unrecognized type of strInputentry self: %s tag: %s type: %s TYPE: %s" % (self, baseline_tiff_tags[self.tag], self.tag_type, TYPES[tag_type]))
tifimage = TifImage
|
