示例#1
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    def _checkCreateDataTable(self, f):
        if (not 'ImageData' in dir(self.h5f.root)) and (not 'PZFImageData'
                                                        in dir(self.h5f.root)):
            if isinstance(f, str):
                #is a PZF file
                f = PZFFormat.loads(f)[0]
                f.reshape((1, ) + f.shape[:2])

            framesize = f.shape[1:3]
            self.dshape[:2] = framesize

            if not self.usePZFFormat:
                filt = tables.Filters(self.complevel,
                                      self.complib,
                                      shuffle=True)
                self.imageData = self.h5f.create_earray(
                    self.h5f.root,
                    'ImageData',
                    tables.UInt16Atom(), (0, ) + tuple(framesize),
                    filters=filt,
                    chunkshape=(1, ) + tuple(framesize))
            else:
                self.compImageData = self.h5f.create_vlarray(
                    self.h5f.root, 'PZFImageData', tables.VLStringAtom())
                self.compImageData.attrs.framesize = framesize
示例#2
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def test_PZFFormat_lossy_uint16_qs():
    from PYME.IO import PZFFormat
    test_data = np.random.poisson(100, 100).reshape(10, 10).astype('uint16')

    qs = .2

    result, header = PZFFormat.loads(
        PZFFormat.dumps(test_data,
                        compression=PZFFormat.DATA_COMP_HUFFCODE,
                        quantization=PZFFormat.DATA_QUANT_SQRT,
                        quantizationOffset=0,
                        quantizationScale=qs))

    #print result
    test_quant = (
        (np.floor(np.sqrt(test_data.astype('f') - .1) / qs).astype('i') *
         qs)**2).astype('i')

    print(test_data.min(), test_data.max(), result.min(), result.max(),
          test_quant.min(), test_quant.max())

    #print(test_quant.squeeze() - result.squeeze())
    #print(test_data.squeeze())
    #print(test_quant.squeeze())
    #print(result.squeeze())

    print(result.squeeze() - test_quant.squeeze())

    assert np.allclose(result.squeeze(), test_quant.squeeze())
    def getSlice(self, ind):
        frameName = '%s/frame%05d.pzf' % (self.sequenceName, ind)
        sl = PZFFormat.loads(clusterIO.get_file(frameName,
                                                self.clusterfilter))[0]

        #print sl.shape, sl.dtype
        return sl.squeeze()
示例#4
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    def queue_base_tile_update(self, data, query):
        import json
        data, _ = PZFFormat.loads(data)
        data = data.squeeze()
        weights = query.get('weights', [
            'auto',
        ])[0]

        tile_x, tile_y = int(query['x'][0]), int(query['y'][0])
        tile_offset = (int(query.get('tox', [
            0,
        ])[0]), int(query.get('toy', [
            0,
        ])[0]))
        frame_offset = (int(query.get('fox', [
            0,
        ])[0]), int(query.get('foy', [
            0,
        ])[0]))

        frame_shape = (int(query['fsx'][0]), int(query['fsy'][0]))

        tile_data = tile_x, tile_y, data, weights, tile_offset, frame_offset, frame_shape

        #logger.debug('putting data on update_queue, shape=%s' % str(data.shape))
        self.update_queue.put(tile_data)
示例#5
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 def getFrame(self, frameNo):
     if frameNo >= self.dshape[2]:
         raise IndexError('Index out of bounds')
     if not self.usePZFFormat:
         return self.h5f.root.ImageData[frameNo, :, :].dumps()
     else:
         f, h = PZFFormat.loads(self.h5f.root.PZFImageData[frameNo])
         return f.dumps()  # f.reshape((1,) + f.shape[:2]).dumps()
示例#6
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def test_PZFFormat_raw_uint8():
    from PYME.IO import PZFFormat
    test_data = np.random.poisson(50, 100).reshape(10, 10).astype('uint8')

    result, header = PZFFormat.loads(PZFFormat.dumps(test_data))

    #print result.squeeze(), test_data, result.shape, test_data.shape

    assert np.allclose(result.squeeze(), test_data.squeeze())
示例#7
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def test_PZFFormat_lossless_uint16():
    from PYME.IO import PZFFormat
    test_data = np.random.poisson(100, 10000).reshape(100,100).astype('uint16')

    result, header = PZFFormat.loads(PZFFormat.dumps(test_data, compression = PZFFormat.DATA_COMP_HUFFCODE))

    #print result

    assert np.allclose(result.squeeze(), test_data.squeeze())
示例#8
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def test_PZFFormat_raw_uint16():
    from PYME.IO import PZFFormat
    test_data = np.random.poisson(100, 10000).reshape(100,100).astype('uint16')

    result, header = PZFFormat.loads(PZFFormat.dumps(test_data))

    print(test_data, result.squeeze())
    print(header, result.dtype)

    assert np.allclose(result.squeeze(), test_data.squeeze())
示例#9
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    def putPZFFrame(self, frame):
        self._checkCreateDataTable(frame)

        if self.usePZFFormat:
            self.compImageData.append(frame)
            self.compImageData.flush()
        else:
            f, h = PZFFormat.loads(frame)
            self.imageData.append(f.reshape((1, ) + f.shape[:2]))
            self.imageData.flush()
        self.dshape[2] += 1
示例#10
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 def get_tile(self, layer, x, y):
     from PYME.IO import PZFFormat
     table = 'layer%d' % layer
     if not table in self._known_tables:
         return None
     
     self._cur.execute('SELECT data FROM layer%d WHERE x=? AND y=?' % layer, (x, y))
     r = self._cur.fetchone()
     if r is None:
         return None
     else:
         return PZFFormat.loads(r[0])[0].squeeze()
示例#11
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    def _loadPZF(self, filename):
        """Load .pzf data.


        """
        from PYME.IO import unifiedIO
        from PYME.IO import PZFFormat
        mdfn = self._findAndParseMetadata(filename)

        with unifiedIO.openFile(filename) as f:
            self.data = PZFFormat.loads(f.read())[0]

        #from PYME.ParallelTasks.relativeFiles import getRelFilename
        self.seriesName = getRelFilename(filename)

        self.mode = 'default'
    def __init__(self, h5Filename, taskQueue=None):
        self.h5Filename = getFullExistingFilename(
            h5Filename)  #convert relative path to full path
        self.h5File = tables.open_file(self.h5Filename)

        self._pzf_index = None

        if getattr(self.h5File.root, 'PZFImageIndex', False):
            self.usePZFFormat = True
            try:
                self.framesize = self.h5File.root.PZFImageData.attrs.framesize
            except AttributeError:
                self.framesize = PZFFormat.loads(
                    self.h5File.root.PZFImageData[0])[0].squeeze().shape
        else:
            self.usePZFFormat = False
示例#13
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    def getSlice(self, ind):
        if self.usePZFFormat:
            if ind >= self.h5File.root.PZFImageData.shape[0]:
                self.reloadData()  #try

            if not self.pzf_index is None:
                ind = self.pzf_index['Position'][np.searchsorted(
                    self.pzf_index['FrameNum'], ind)]

            return PZFFormat.loads(
                self.h5File.root.PZFImageData[ind])[0].squeeze()
        else:
            if ind >= self.h5File.root.ImageData.shape[0]:
                self.reloadData()  #try reloading the data in case it's grown

            return self.h5File.root.ImageData[ind, :, :]
示例#14
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    def __init__(self, h5Filename, taskQueue=None):
        self.h5Filename = getFullExistingFilename(
            h5Filename)  #convert relative path to full path
        self.h5File = tables.open_file(self.h5Filename)

        self._pzf_index = None

        if getattr(self.h5File.root, 'PZFImageIndex', False):
            self.usePZFFormat = True
            try:
                self.framesize = self.h5File.root.PZFImageData.attrs.framesize
            except AttributeError:
                self.framesize = PZFFormat.loads(
                    self.h5File.root.PZFImageData[0])[0].squeeze().shape
        else:
            self.usePZFFormat = False

        try:
            dimorder = self._img_data.attrs.DimOrder
            if isinstance(dimorder, bytes):
                dimorder = dimorder.decode()

            assert (dimorder[:2] == 'XY')

            size_c = int(self._img_data.attrs.SizeC)
            size_z = int(self._img_data.attrs.SizeZ)
            size_t = int(self._img_data.attrs.SizeT)

        except:
            logger.exception(
                'Error reading dim info (can be safely ignored for old files)')

            dimorder = 'XYZTC'
            size_z = self.getNumSlices()
            size_t = 1
            size_c = 1

        XYZTCDataSource.__init__(self,
                                 dimorder,
                                 size_z=size_z,
                                 size_t=size_t,
                                 size_c=size_c)

        self._shape = tuple(self.getSliceShape()) + (size_z, size_t, size_c)
        self._dtype = self.getSlice(0).dtype
示例#15
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def test_PZFFormat_lossy_uint16():
    from PYME.IO import PZFFormat
    test_data = np.random.poisson(100, 100).reshape(10,10).astype('uint16')

    result, header = PZFFormat.loads(PZFFormat.dumps(test_data,
                                                     compression = PZFFormat.DATA_COMP_HUFFCODE,
                                                     quantization = PZFFormat.DATA_QUANT_SQRT,
                                                     quantizationOffset=0, quantizationScale=1))

    #print result
    test_quant = (np.round(np.sqrt(test_data.astype('f'))).astype('i'))**2

    #print(test_quant.squeeze() - result.squeeze())
    #print(test_data.squeeze())
    #print(test_quant.squeeze())
    #print(result.squeeze())

    assert np.allclose(result.squeeze(), test_quant.squeeze())
示例#16
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    def __init__(self, h5Filename, taskQueue=None):
        self.h5Filename = getFullExistingFilename(
            h5Filename)  #convert relative path to full path
        self.h5File = tables.open_file(self.h5Filename)

        self._pzf_index = None

        if getattr(self.h5File.root, 'PZFImageIndex', False):
            self.usePZFFormat = True
            try:
                self.framesize = self.h5File.root.PZFImageData.attrs.framesize
            except AttributeError:
                self.framesize = PZFFormat.loads(
                    self.h5File.root.PZFImageData[0])[0].squeeze().shape
        else:
            self.usePZFFormat = False

        try:
            self.dimorder = self._img_data.attrs.DimOrder
            if isinstance(self.dimorder, bytes):
                self.dimorder = self.dimorder.decode()

            assert (self.dimorder[:2] == 'XY')

            self.sizeC = int(self._img_data.attrs.SizeC)
            self.sizeZ = int(self._img_data.attrs.SizeZ)
            self.sizeT = int(self._img_data.attrs.SizeT)

            # FIXME - we currently ignore SizeZ and SizeT and collapse to one dimension (to fit with the XY[Z/T]C data model)
            # This should be changed once we fully move to an xyztc model. In the meantime, it's probably safest if C is
            # always the last dimension.

            if self.sizeC > 1:
                if self.dimorder[-1] == 'C':
                    self.additionalDims = 'TC'
                else:
                    self.additionalDims = 'CT'
            else:
                self.additionalDims = 'T'

        except:
            logger.exception(
                'Error reading dim info (can be safely ignored for old files)')
            pass
示例#17
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    def putPZFFrames(self, frames):
        t1 = time.time()
        fs = pickle.loads(frames)
        t2 = time.time()
        self._checkCreateDataTable(fs[0])

        if self.usePZFFormat:
            for f in fs:
                self.compImageData.append(f)
                self.dshape[2] += 1

            self.compImageData.flush()
        else:
            for f in fs:
                f, h = PZFFormat.loads(f)
                self.imageData.append(f.reshape([
                    0,
                ] + f.shape[:2]))
                self.dshape[2] += 1

            self.imageData.flush()
示例#18
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 def _load(self, filename):
     from PYME.IO import PZFFormat
     with open(filename, 'rb') as f:
         return PZFFormat.loads(f.read())[0].squeeze()
示例#19
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    def _load(self, filename):
        from PYME.IO import clusterIO, PZFFormat

        s = clusterIO.get_file(filename)
        return PZFFormat.loads(s)[0].squeeze()