Пример #1
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def read_dm3_as_ndimage(filepath):
    """Read a .dm3 file."""

    filename = os.path.split(filepath)[1]
    fileref = os.path.splitext(filename)[0]
    dm3f = dm3.DM3(filepath, debug=0)
    im = dm3f.imagedata

    return im, dm3f
Пример #2
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def get_image(fpath, datatype):

    if fpath.endswith('.dm3'):
        dm3f = dm3.DM3(fpath, debug=0)
        im = dm3f.imagedata
    else:
        im = io.imread(fpath)

    return im.astype(datatype)
Пример #3
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def dm3ToTiff(filename, newpath=getcwd()):

    dm3f = dm3.DM3(filename+".dm3", debug=0)
    A = dm3f.imagedata


    # get some useful tag data and print
    print "datatype:", dm3f.tags["root.ImageList.1.ImageData.DataType"]

#    A = rescale(A)
    
#    im = Image.fromarray(A, mode="I;16")     # "I;16" is PIL's 16 bit unsigned int mode - do we need this for dm3 files?
    im = Image.fromarray(A)
    im.save(newpath+"/"+filename+".tif", format="TIFF")
    
    return
Пример #4
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def get_metadata(files, datatype, outlayout, elsize):

    # derive the stop-values from the image data if not specified
    if files[0].endswith('.dm3'):

        try:
            import DM3lib as dm3
        except ImportError:
            raise

        dm3f = dm3.DM3(files[0], debug=0)

#         yxdims = dm3f.imagedata.shape
        alt_dtype = dm3f.imagedata.dtype
#         yxelsize = dm3f.pxsize[0]

        id = 'root.ImageList.1.ImageData'
        tag = '{}.Dimensions.{:d}'
        yxdims = []
        for dim in [0, 1]:
            yxdims += [int(dm3f.tags.get(tag.format(id, dim)))]

        tag = '{}.Calibrations.Dimension.{:d}.Scale'
        for lab, dim in zip('xy', [0, 1]):
            if elsize[outlayout.index(lab)] == -1:
                pxsize = float(dm3f.tags.get(tag.format(id, dim)))
                elsize[outlayout.index(lab)] = pxsize
        tag = 'root.ImageList.1.ImageTags.SBFSEM.Record.Slice thickness'
        slicethickness = float(dm3f.tags.get(tag.format(id, dim)))
        elsize[outlayout.index('z')] = slicethickness / 1000

    else:
        yxdims = io.imread(files[0]).shape

        alt_dtype = io.imread(files[0]).dtype

    zyxdims = [len(files)] + list(yxdims)

    datatype = datatype or alt_dtype

    elsize = [0 if el is None else el for el in elsize]

    return zyxdims, datatype, elsize
Пример #5
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def dm3ToPNG(filename, newpath=getcwd()):

    dm3f = dm3.DM3(filename + ".dm3", debug=0)
    A = dm3f.imagedata
    cuts = dm3f.cuts

    A_norm = A.copy()

    if cuts[0] != cuts[1]:
        A_norm[(A <= min(cuts))] = float(min(cuts))
        A_norm[(A >= max(cuts))] = float(max(cuts))
    # -- normalize
    A_norm = (A_norm - np.min(A_norm)) / (np.max(A_norm) - np.min(A_norm))
    # -- scale to 0--255, convert to (8-bit) integer
    A_norm = np.uint8(np.round(A_norm * 255))

    # - save as PNG and JPG
    im = Image.fromarray(A_norm)
    im.save(newpath + "/" + filename + ".png", format="PNG")

    return
Пример #6
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def save_im(savedir, filepath, imformat='.jpg', dumptags=False):

    # get filename
    filename = os.path.split(filepath)[1]
    fileref = os.path.splitext(filename)[0]

    dm3f = dm3.DM3(filepath, debug=0)
    cuts = dm3f.cuts
    if dumptags:
        dm3f.dumpTags(savedir)
    aa = dm3f.imagedata

    # save image as TIFF
    if '.tif' in imformat:
        tif_file = os.path.join(savedir, fileref + imformat)
        im = Image.fromarray(aa)
        im.save(tif_file)
        # check TIFF dynamic range
        if Image.open(tif_file).mode == 'L':
            tif_range = "8-bit"
        else:
            tif_range = "32-bit"
    else:
        # - normalize image for conversion to 8-bit
        aa_norm = aa.copy()
        # -- apply cuts (optional)
        if cuts[0] != cuts[1]:
            aa_norm[ (aa <= min(cuts)) ] = float(min(cuts))
            aa_norm[ (aa >= max(cuts)) ] = float(max(cuts))
        # -- normalize
        aa_norm = (aa_norm - np.min(aa_norm)) / (np.max(aa_norm) - np.min(aa_norm))
        # -- scale to 0--255, convert to (8-bit) integer
        aa_norm = np.uint8(np.round( aa_norm * 255 ))
        # - save as <imformat>
        im_dsp = Image.fromarray(aa_norm)
        im_dsp.save(os.path.join(savedir, fileref + imformat))
Пример #7
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# parse command line arguments
args = parser.parse_args()
if args.verbose:
    debug = 1
filepath = args.file

# get filename
filename = os.path.split(filepath)[1]
fileref = os.path.splitext(filename)[0]

# pyplot interactive mode
plt.ion()
plt.close('all')

# parse DM3 file
dm3f = dm3.DM3(filepath, debug=debug)

# get some useful tag data and print
print "file:", dm3f.filename
print "file info.:"
print dm3f.info
print "scale: %.3g %s/px" % dm3f.pxsize
cuts = dm3f.cuts
print "cuts:", cuts

# dump image Tags in txt file
if args.dump:
    dm3f.dumpTags(savedir)

# get image data
aa = dm3f.imagedata