Beispiel #1
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def generate_cell_parameters(outputfile, **kwargs):
    """
    Generates random cell parameters and save them into a given csv file.
    
    Parameters
    ----------
    outputfile : str
        Path to save cell parameters.
    kwargs : key, value pairings
        Keyword arguments passed to the `CellParams` class.

    """
    if not outputfile.endswith('.csv'):
        outputfile += '.csv'
    params = CellParams(**kwargs)
    params.save(outputfile)
Beispiel #2
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 def test_cell_from_params(self):
     celldata = CellParams(number_of_cells=5,
                           spikiness_range=(0, 1),
                           spike_size_range=(0.1, 1),
                           coordinates=False)
     cell = Cell(input_voxel_size=0.5, **dict(celldata.iloc[0]))
     self.assertIsNotNone(cell.image)
Beispiel #3
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 def test_read_write(self):
     celldata = CellParams(number_of_cells=5, spikiness_range=(0, 0.5), spike_size_range=(0.1, 1))
     celldata.save('data/celldata.csv')
     celldata2 = CellParams()
     celldata2.read_from_csv('data/celldata.csv')
     self.assertEqual(len(celldata), len(celldata2))
     for c in celldata.columns:
         self.assertEqual(c in celldata2.columns, True)
     shutil.rmtree('data/')
Beispiel #4
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def generate_cells_batch(params_file, **kwargs):
    """
    Generate synthetic cells with given parameters in a parallel mode and saves them in a given directory.
    
    Parameters
    ----------
    params_file : str
        Path to a csv file with cell parameters.

    Keyword arguments
    -----------------
    outputfolder : str
        Output directory to save the generated cells.
    input_voxel_size : scalar or sequence of scalars, optional
        Voxel size in z, y and x used to generate the cell image.
        If one value is provided, the voxel size is assume to be equal along all axes.
    max_threads : int, optional
        The maximal number of processes to run in parallel.
        Default is 8.
    print_progress : bool, optional
        If True, the progress of the computation will be printed.
        Default is True.

    """
    if not os.path.exists(params_file):
        raise ValueError('Parameter file does not exist!')
    params = CellParams()
    params.read_from_csv(filename=params_file)
    if 'stack' in params.columns:
        items = []
        for st in params['stack'].unique():
            items.append(('stack_%03d.tif' % st,
                          params[params['stack'] == st].reset_index()))
        kwargs['items'] = items
        run_parallel(process=__generate_stacks_batch_helper,
                     process_name='Generation of stacks',
                     **kwargs)

    else:
        items = []
        for i in range(len(params)):
            items.append(('cell_%03d.tif' % i, params.iloc[i]))

        kwargs['items'] = items
        run_parallel(process=__generate_cells_batch_helper,
                     process_name='Generation of cells',
                     **kwargs)
Beispiel #5
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 def test_valid_types(self, kind):
     celldata = CellParams(kind=kind)
     celldata.save('data/celldata.csv')
     self.assertEqual(os.path.exists('data/celldata.csv'), True)
     shutil.rmtree('data/')
Beispiel #6
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 def test_cell_data(self, size):
     celldata = CellParams(number_of_cells=1, size_mean_and_std=size)
     celldata.save('data/celldata.csv')
     celldata.plot_size_distribution()
     shutil.rmtree('data/')
Beispiel #7
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 def test_range_for_number_of_cells(self):
     params = CellParams(number_of_stacks=3, number_of_cells=[5, 10])
     stack = Stack(cell_params=params[params['stack'] == 2].reset_index(),
                   input_voxel_size=0.5,
                   stack_size=[10, 10, 10])
     self.assertIsNotNone(stack.image)
Beispiel #8
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 def test_from_stack_params(self):
     params = CellParams(number_of_stacks=1, number_of_cells=5)
     stack = Stack(cell_params=params[params['stack'] == 0],
                   input_voxel_size=0.5,
                   stack_size=[10, 10, 10])
     self.assertIsNotNone(stack.image)