コード例 #1
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def test_write_wrong_counts():
    path = os.path.join(os.path.dirname(__file__), 'data', 'good_single.tif')
    info = tifftools.read_tiff(path)
    info['ifds'][0]['tags'][tifftools.Tag.StripByteCounts.value]['data'].pop()
    with pytest.raises(Exception) as exc:
        tifftools.write_tiff(info, '-')
    assert 'Offsets and byte counts do not correspond' in str(exc.value)
コード例 #2
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def test_write_allow_existing(tmp_path):
    path = datastore.fetch('d043-200.tif')
    info = tifftools.read_tiff(path)
    destpath = tmp_path / 'sample.tiff'
    tifftools.write_tiff(info, destpath)
    len = os.path.getsize(destpath)
    tifftools.write_tiff(info, destpath, allowExisting=True)
    assert len == os.path.getsize(destpath)
コード例 #3
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def test_write_already_exists(tmp_path):
    path = datastore.fetch('d043-200.tif')
    info = tifftools.read_tiff(path)
    destpath = tmp_path / 'sample.tiff'
    tifftools.write_tiff(info, destpath)
    with pytest.raises(Exception) as exc:
        tifftools.write_tiff(info, destpath)
    assert 'File already exists' in str(exc.value)
コード例 #4
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def test_write_switch_to_bigtiff(tmp_path):
    path = datastore.fetch('hamamatsu.ndpi')
    info = tifftools.read_tiff(path)
    info['ifds'].extend(info['ifds'])
    info['ifds'].extend(info['ifds'])
    info['ifds'].extend(info['ifds'])
    destpath = tmp_path / 'sample.tiff'
    tifftools.write_tiff(info, destpath)
    destinfo = tifftools.read_tiff(destpath)
    assert destinfo['bigtiff'] is True
コード例 #5
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def test_write_bigtiff_from_datatype(tmp_path):
    path = os.path.join(os.path.dirname(__file__), 'data', 'good_single.tif')
    info = tifftools.read_tiff(path)
    info['ifds'][0]['tags'][23456] = {
        'datatype': tifftools.Datatype.LONG8,
        'data': [8],
    }
    destpath = tmp_path / 'sample.tiff'
    tifftools.write_tiff(info, destpath)
    destinfo = tifftools.read_tiff(destpath)
    assert destinfo['bigtiff'] is True
コード例 #6
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def test_write_bad_strip_offset(tmp_path, caplog):
    path = os.path.join(os.path.dirname(__file__), 'data',
                        'bad_strip_offset.tif')
    info = tifftools.read_tiff(path)
    destpath = tmp_path / 'sample.tiff'
    with caplog.at_level(logging.WARNING):
        tifftools.write_tiff(info, destpath)
    assert 'from desired offset' in caplog.text
    destinfo = tifftools.read_tiff(destpath)
    assert destinfo['ifds'][0]['tags'][
        tifftools.Tag.StripOffsets.value]['data'][0] == 0
コード例 #7
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def test_write_bytecount_data(tmp_path):
    path = os.path.join(os.path.dirname(__file__), 'data', 'good_single.tif')
    info = tifftools.read_tiff(path)
    # Just use data from within the file itself; an actual sample file with
    # compression 6 and defined Q, AC, and DC tables would be better.
    info['ifds'][0]['tags'][tifftools.Tag.JPEGQTables.value] = {
        'datatype': tifftools.Datatype.LONG,
        'data': [8],
    }
    destpath = tmp_path / 'sample.tiff'
    tifftools.write_tiff(info, destpath)
    assert os.path.getsize(destpath) > os.path.getsize(path) + 64
コード例 #8
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def test_write_bigtiff_with_offset_data(tmp_path):
    path = datastore.fetch('hamamatsu.ndpi')
    info = tifftools.read_tiff(path)
    info['ifds'][0]['tags'][tifftools.Tag.FreeOffsets.value] = {
        'datatype': tifftools.Datatype.LONG,
        'data': [8] * 256,
    }
    info['ifds'][0]['tags'][tifftools.Tag.FreeByteCounts.value] = {
        'datatype': tifftools.Datatype.LONG,
        'data': [16777216] * 256,
    }
    destpath = tmp_path / 'sample.tiff'
    tifftools.write_tiff(info, destpath)
    destinfo = tifftools.read_tiff(destpath)
    assert destinfo['bigtiff'] is True
コード例 #9
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def test_write_single_subifd(tmp_path):
    path = os.path.join(os.path.dirname(__file__), 'data', 'good_single.tif')
    info = tifftools.read_tiff(path)
    info['ifds'][0]['tags'][tifftools.Tag.SubIFD.value] = {
        'ifds': [copy.deepcopy(info['ifds'][0])]
    }
    dest1path = tmp_path / 'sample1.tiff'
    tifftools.write_tiff(info, dest1path)
    dest1info = tifftools.read_tiff(dest1path)
    assert len(dest1info['ifds'][0]['tags'][tifftools.Tag.SubIFD.value]['ifds']
               [0]) == 1
    info = tifftools.read_tiff(path)
    info['ifds'][0]['tags'][tifftools.Tag.SubIFD.value] = {
        'ifds': [copy.deepcopy(info['ifds'])]
    }
    dest2path = tmp_path / 'sample2.tiff'
    tifftools.write_tiff(info, dest2path)
    dest2info = tifftools.read_tiff(dest2path)
    assert len(dest2info['ifds'][0]['tags'][tifftools.Tag.SubIFD.value]['ifds']
               [0]) == 1
コード例 #10
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ファイル: format_aperio.py プロジェクト: p829911/large_image
def create_thumbnail_and_label(tempPath, info, ifdCount, needsLabel,
                               labelPosition, **kwargs):
    """
    Create a thumbnail and, optionally, label image for the aperio file.

    :param tempPath: a temporary file in a temporary directory.
    :param info: the tifftools info that will be written to the tiff tile;
        modified.
    :param ifdCount: the number of ifds in the first tiled image.  This is 1 if
        there are subifds.
    :param needsLabel: true if a label image needs to be added.
    :param labelPosition: the position in the ifd list where a label image
        should be inserted.
    """
    thumbnailSize = 1024
    labelSize = 640
    maxLabelAspect = 1.5
    tileSize = info['ifds'][0]['tags'][
        tifftools.Tag.TileWidth.value]['data'][0]
    levels = int(
        math.ceil(
            math.log(max(thumbnailSize, labelSize) / tileSize) /
            math.log(2))) + 1

    neededList = ['thumbnail']
    if needsLabel:
        neededList[0:0] = ['label']
    tiledPath = tempPath + '-overview.tiff'
    firstFrameIfds = info['ifds'][max(0, ifdCount - levels):ifdCount]
    tifftools.write_tiff(firstFrameIfds, tiledPath)
    ts = large_image_source_tiff.open(tiledPath)
    for subImage in neededList:
        if subImage == 'label':
            x = max(0,
                    (ts.sizeX - min(ts.sizeX, ts.sizeY) * maxLabelAspect) // 2)
            y = max(0,
                    (ts.sizeY - min(ts.sizeX, ts.sizeY) * maxLabelAspect) // 2)
            regionParams = {
                'output':
                dict(maxWidth=labelSize, maxHeight=labelSize),
                'region':
                dict(left=x, right=ts.sizeX - x, top=y, bottom=ts.sizeY - y),
            }
        else:
            regionParams = {
                'output': dict(maxWidth=thumbnailSize, maxHeight=thumbnailSize)
            }
        image, _ = ts.getRegion(format=large_image.constants.TILE_FORMAT_PIL,
                                **regionParams)
        if image.mode not in {'RGB', 'L'}:
            image = image.convert('RGB')
        if subImage == 'label':
            image = image.rotate(90, expand=True)
        imagePath = tempPath + '-image_%s.tiff' % subImage
        image.save(imagePath,
                   'TIFF',
                   compression='tiff_jpeg',
                   quality=int(kwargs.get('quality', 90)))
        imageInfo = tifftools.read_tiff(imagePath)
        ifd = imageInfo['ifds'][0]
        if subImage == 'label':
            ifd['tags'][tifftools.Tag.Orientation.value] = {
                'data': [tifftools.constants.Orientation.RightTop.value],
                'datatype': tifftools.Datatype.LONG,
            }
            description = AperioHeader + AssociatedHeader.format(
                name='label',
                width=ifd['tags'][tifftools.Tag.ImageWidth.value]['data'][0],
                height=ifd['tags'][tifftools.Tag.ImageHeight.value]['data'][0],
            )
            ifd['tags'][tifftools.Tag.ImageDescription.value] = {
                'data': description,
                'datatype': tifftools.Datatype.ASCII,
            }
            ifd['tags'][tifftools.Tag.NewSubfileType.value] = {
                'data':
                [tifftools.constants.NewSubfileType.ReducedImage.value],
                'datatype': tifftools.Datatype.LONG,
            }
            info['ifds'][labelPosition:labelPosition] = imageInfo['ifds']
        else:
            fullDesc = info['ifds'][0]['tags'][
                tifftools.Tag.ImageDescription.value]['data']
            description = fullDesc.split('[', 1)[0] + ThumbnailHeader.format(
                width=ifd['tags'][tifftools.Tag.ImageWidth.value]['data'][0],
                height=ifd['tags'][tifftools.Tag.ImageHeight.value]['data'][0],
            ) + fullDesc.split('|', 1)[1]
            ifd['tags'][tifftools.Tag.ImageDescription.value] = {
                'data': description,
                'datatype': tifftools.Datatype.ASCII,
            }
            info['ifds'][1:1] = imageInfo['ifds']
コード例 #11
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ファイル: __init__.py プロジェクト: p829911/large_image
def _output_tiff(inputs,
                 outputPath,
                 tempPath,
                 lidata,
                 extraImages=None,
                 **kwargs):
    """
    Given a list of input tiffs and data as parsed by _data_from_large_image,
    generate an output tiff file with the associated images, correct scale, and
    other metadata.

    :param inputs: a list of pyramidal input files.
    :param outputPath: the final destination.
    :param tempPath: a temporary file in a temporary directory.
    :param lidata: large_image data including metadata and associated images.
    :param extraImages: an optional dictionary of keys and paths to add as
        extra associated images.
    """
    logger.debug('Reading %s', inputs[0])
    info = tifftools.read_tiff(inputs[0])
    ifdIndices = [0]
    imgDesc = info['ifds'][0]['tags'].get(tifftools.Tag.ImageDescription.value)
    description = _make_li_description(
        len(info['ifds']), len(inputs), lidata,
        (len(extraImages) if extraImages else 0) +
        (len(lidata['images']) if lidata else 0),
        imgDesc['data'] if imgDesc else None, **kwargs)
    info['ifds'][0]['tags'][tifftools.Tag.ImageDescription.value] = {
        'data': description,
        'datatype': tifftools.Datatype.ASCII,
    }
    if lidata:
        _set_resolution(info['ifds'], lidata['metadata'])
    if len(inputs) > 1:
        if kwargs.get('subifds') is not False:
            info['ifds'][0]['tags'][tifftools.Tag.SubIFD.value] = {
                'ifds': info['ifds'][1:]
            }
            info['ifds'][1:] = []
        for idx, inputPath in enumerate(inputs):
            if not idx:
                continue
            logger.debug('Reading %s', inputPath)
            nextInfo = tifftools.read_tiff(inputPath)
            if lidata:
                _set_resolution(nextInfo['ifds'], lidata['metadata'])
                if len(lidata['metadata'].get('frames', [])) > idx:
                    nextInfo['ifds'][0]['tags'][
                        tifftools.Tag.ImageDescription.value] = {
                            'data':
                            json.dumps(
                                {'frame': lidata['metadata']['frames'][idx]},
                                separators=(',', ':'),
                                sort_keys=True,
                                default=json_serial),
                            'datatype':
                            tifftools.Datatype.ASCII,
                        }
            ifdIndices.append(len(info['ifds']))
            if kwargs.get('subifds') is not False:
                nextInfo['ifds'][0]['tags'][tifftools.Tag.SubIFD.value] = {
                    'ifds': nextInfo['ifds'][1:]
                }
                info['ifds'].append(nextInfo['ifds'][0])
            else:
                info['ifds'].extend(nextInfo['ifds'])
    ifdIndices.append(len(info['ifds']))
    assocList = []
    if lidata:
        assocList += list(lidata['images'].items())
    if extraImages:
        assocList += list(extraImages.items())
    for key, assocPath in assocList:
        logger.debug('Reading %s', assocPath)
        assocInfo = tifftools.read_tiff(assocPath)
        assocInfo['ifds'][0]['tags'][tifftools.Tag.ImageDescription.value] = {
            'data': key,
            'datatype': tifftools.Datatype.ASCII,
        }
        info['ifds'] += assocInfo['ifds']
    if format_hook('modify_tiff_before_write', info, ifdIndices, tempPath,
                   lidata, **kwargs) is False:
        return
    logger.debug('Writing %s', outputPath)
    tifftools.write_tiff(info,
                         outputPath,
                         bigEndian=False,
                         bigtiff=False,
                         allowExisting=True)
コード例 #12
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ファイル: __init__.py プロジェクト: p829911/large_image
def _convert_to_jp2k(path, **kwargs):
    """
    Given a tiled tiff file without compression, convert it to jp2k compression
    using the gylmur library.  This expects a tiff as written by vips without
    any subifds.

    :param path: the path of the tiff file.  The file is altered.
    :param psnr: if set, the target psnr.  0 for lossless.
    :param cr: is set, the target compression ratio.  1 for lossless.
    """
    info = tifftools.read_tiff(path)
    jp2kargs = {}
    if 'psnr' in kwargs:
        jp2kargs['psnr'] = [int(kwargs['psnr'])]
    elif 'cr' in kwargs:
        jp2kargs['cratios'] = [int(kwargs['cr'])]
    tilecount = sum(
        len(ifd['tags'][tifftools.Tag.TileOffsets.value]['data'])
        for ifd in info['ifds'])
    processed = 0
    lastlog = 0
    tasks = []
    lock = threading.Lock()
    pool = _get_thread_pool(**kwargs)
    with open(path, 'r+b') as fptr:
        for ifd in info['ifds']:
            ifd['tags'][tifftools.Tag.Compression.value]['data'][0] = (
                tifftools.constants.Compression.JP2000)
            shape = (
                ifd['tags'][tifftools.Tag.TileWidth.value]['data'][0],
                ifd['tags'][tifftools.Tag.TileLength.value]['data'][0],
                len(ifd['tags'][tifftools.Tag.BitsPerSample.value]['data']))
            dtype = numpy.uint16 if ifd['tags'][
                tifftools.Tag.BitsPerSample.
                value]['data'][0] == 16 else numpy.uint8
            for idx, offset in enumerate(
                    ifd['tags'][tifftools.Tag.TileOffsets.value]['data']):
                tmppath = path + '%d.jp2k' % processed
                tasks.append(
                    (ifd, idx, processed, tmppath,
                     pool.submit(
                         _convert_to_jp2k_tile, lock, fptr, tmppath, offset,
                         ifd['tags'][tifftools.Tag.TileByteCounts.value]
                         ['data'][idx], shape, dtype, jp2kargs)))
                processed += 1
        while len(tasks):
            try:
                tasks[0][-1].result(0.1)
            except concurrent.futures.TimeoutError:
                continue
            ifd, idx, processed, tmppath, task = tasks.pop(0)
            data = open(tmppath, 'rb').read()
            os.unlink(tmppath)
            # Remove first comment marker.  It adds needless bytes
            compos = data.find(b'\xff\x64')
            if compos >= 0 and compos + 4 < len(data):
                comlen = struct.unpack('>H', data[compos + 2:compos + 4])[0]
                if compos + 2 + comlen + 1 < len(data) and data[
                        compos + 2 + comlen] == 0xff:
                    data = data[:compos] + data[compos + 2 + comlen:]
            with lock:
                fptr.seek(0, os.SEEK_END)
                ifd['tags'][tifftools.Tag.TileOffsets.
                            value]['data'][idx] = fptr.tell()
                ifd['tags'][tifftools.Tag.TileByteCounts.
                            value]['data'][idx] = len(data)
                fptr.write(data)
            if time.time() - lastlog >= 10 and tilecount > 1:
                logger.debug('Converted %d of %d tiles to jp2k', processed + 1,
                             tilecount)
                lastlog = time.time()
        pool.shutdown(False)
        fptr.seek(0, os.SEEK_END)
        for ifd in info['ifds']:
            ifd['size'] = fptr.tell()
        info['size'] = fptr.tell()
    tmppath = path + '.jp2k.tiff'
    tifftools.write_tiff(info, tmppath, bigtiff=False, allowExisting=True)
    os.unlink(path)
    os.rename(tmppath, path)