def export_hdf5_v1(dataset, path, column_names=None, byteorder="=", shuffle=False, selection=False, progress=None, virtual=True): """ :param DatasetLocal dataset: dataset to export :param str path: path for file :param lis[str] column_names: list of column names to export or None for all columns :param str byteorder: = for native, < for little endian and > for big endian :param bool shuffle: export rows in random order :param bool selection: export selection or not :param progress: progress callback that gets a progress fraction as argument and should return True to continue, or a default progress bar when progress=True :param: bool virtual: When True, export virtual columns :return: """ if selection: if selection == True: # easier to work with the name selection = "default" # first open file using h5py api with h5py.File(path, "w") as h5file_output: h5data_output = h5file_output.require_group("data") # i1, i2 = dataset.current_slice N = len(dataset) if not selection else dataset.selected_length( selection) if N == 0: raise ValueError("Cannot export empty table") logger.debug("virtual=%r", virtual) logger.debug("exporting %d rows to file %s" % (N, path)) # column_names = column_names or (dataset.get_column_names() + (list(dataset.virtual_columns.keys()) if virtual else [])) column_names = column_names or dataset.get_column_names( virtual=virtual, strings=True) logger.debug("exporting columns(hdf5): %r" % column_names) for column_name in column_names: dtype = dataset.dtype(column_name) if column_name in dataset.get_column_names(strings=True): column = dataset.columns[column_name] shape = (N, ) + column.shape[1:] else: shape = (N, ) if dtype.type == np.datetime64: array = h5file_output.require_dataset("/data/%s" % column_name, shape=shape, dtype=np.int64) array.attrs["dtype"] = dtype.name else: try: array = h5file_output.require_dataset( "/data/%s" % column_name, shape=shape, dtype=dtype.newbyteorder(byteorder)) except: logging.exception( "error creating dataset for %r, with type %r " % (column_name, dtype)) array[0] = array[0] # make sure the array really exists random_index_name = None column_order = list(column_names) # copy if shuffle: random_index_name = "random_index" while random_index_name in dataset.get_column_names(): random_index_name += "_new" shuffle_array = h5file_output.require_dataset( "/data/" + random_index_name, shape=(N, ), dtype=byteorder + "i8") shuffle_array[0] = shuffle_array[0] column_order.append(random_index_name) # last item h5data_output.attrs["column_order"] = ",".join( column_order) # keep track or the ordering of columns # after this the file is closed,, and reopen it using out class dataset_output = vaex.hdf5.dataset.Hdf5MemoryMapped(path, write=True) column_names = vaex.export._export(dataset_input=dataset, dataset_output=dataset_output, path=path, random_index_column=random_index_name, column_names=column_names, selection=selection, shuffle=shuffle, byteorder=byteorder, progress=progress) import getpass import datetime user = getpass.getuser() date = str(datetime.datetime.now()) source = dataset.path description = "file exported by vaex, by user %s, on date %s, from source %s" % ( user, date, source) if dataset.description: description += "previous description:\n" + dataset.description dataset_output.copy_metadata(dataset) dataset_output.description = description logger.debug("writing meta information") dataset_output.write_meta() dataset_output.close_files() return
def export_hdf5_v1(dataset, path, column_names=None, byteorder="=", shuffle=False, selection=False, progress=None, virtual=True): """ :param DatasetLocal dataset: dataset to export :param str path: path for file :param lis[str] column_names: list of column names to export or None for all columns :param str byteorder: = for native, < for little endian and > for big endian :param bool shuffle: export rows in random order :param bool selection: export selection or not :param progress: progress callback that gets a progress fraction as argument and should return True to continue, or a default progress bar when progress=True :param: bool virtual: When True, export virtual columns :return: """ if selection: if selection == True: # easier to work with the name selection = "default" # first open file using h5py api with h5py.File(path, "w") as h5file_output: h5data_output = h5file_output.require_group("data") # i1, i2 = dataset.current_slice N = len(dataset) if not selection else dataset.selected_length(selection) if N == 0: raise ValueError("Cannot export empty table") logger.debug("virtual=%r", virtual) logger.debug("exporting %d rows to file %s" % (N, path)) # column_names = column_names or (dataset.get_column_names() + (list(dataset.virtual_columns.keys()) if virtual else [])) column_names = column_names or dataset.get_column_names(virtual=virtual, strings=True) logger.debug("exporting columns(hdf5): %r" % column_names) for column_name in column_names: dtype = dataset.dtype(column_name) if column_name in dataset.get_column_names(strings=True): column = dataset.columns[column_name] shape = (N,) + column.shape[1:] else: shape = (N,) if dtype.type == np.datetime64: array = h5file_output.require_dataset("/data/%s" % column_name, shape=shape, dtype=np.int64) array.attrs["dtype"] = dtype.name else: try: array = h5file_output.require_dataset("/data/%s" % column_name, shape=shape, dtype=dtype.newbyteorder(byteorder)) except: logging.exception("error creating dataset for %r, with type %r " % (column_name, dtype)) array[0] = array[0] # make sure the array really exists random_index_name = None column_order = list(column_names) # copy if shuffle: random_index_name = "random_index" while random_index_name in dataset.get_column_names(): random_index_name += "_new" shuffle_array = h5file_output.require_dataset("/data/" + random_index_name, shape=(N,), dtype=byteorder + "i8") shuffle_array[0] = shuffle_array[0] column_order.append(random_index_name) # last item h5data_output.attrs["column_order"] = ",".join(column_order) # keep track or the ordering of columns # after this the file is closed,, and reopen it using out class dataset_output = vaex.hdf5.dataset.Hdf5MemoryMapped(path, write=True) column_names = vaex.export._export(dataset_input=dataset, dataset_output=dataset_output, path=path, random_index_column=random_index_name, column_names=column_names, selection=selection, shuffle=shuffle, byteorder=byteorder, progress=progress) import getpass import datetime user = getpass.getuser() date = str(datetime.datetime.now()) source = dataset.path description = "file exported by vaex, by user %s, on date %s, from source %s" % (user, date, source) if dataset.description: description += "previous description:\n" + dataset.description dataset_output.copy_metadata(dataset) dataset_output.description = description logger.debug("writing meta information") dataset_output.write_meta() dataset_output.close_files() return
def export_hdf5(dataset, path, column_names=None, byteorder="=", shuffle=False, selection=False, progress=None, virtual=True, sort=None, ascending=True): """ :param DatasetLocal dataset: dataset to export :param str path: path for file :param lis[str] column_names: list of column names to export or None for all columns :param str byteorder: = for native, < for little endian and > for big endian :param bool shuffle: export rows in random order :param bool selection: export selection or not :param progress: progress callback that gets a progress fraction as argument and should return True to continue, or a default progress bar when progress=True :param: bool virtual: When True, export virtual columns :return: """ if selection: if selection == True: # easier to work with the name selection = "default" # first open file using h5py api with h5py.File(path, "w") as h5file_output: h5table_output = h5file_output.require_group("/table") h5table_output.attrs["type"] = "table" h5columns_output = h5file_output.require_group("/table/columns") # i1, i2 = dataset.current_slice N = len(dataset) if not selection else dataset.selected_length( selection) if N == 0: raise ValueError("Cannot export empty table") logger.debug("virtual=%r", virtual) logger.debug("exporting %d rows to file %s" % (N, path)) # column_names = column_names or (dataset.get_column_names() + (list(dataset.virtual_columns.keys()) if virtual else [])) column_names = column_names or dataset.get_column_names( virtual=virtual, strings=True) logger.debug("exporting columns(hdf5): %r" % column_names) sparse_groups = collections.defaultdict(list) sparse_matrices = { } # alternative to a set of matrices, since they are not hashable for column_name in list(column_names): sparse_matrix = dataset._sparse_matrix(column_name) if sparse_matrix is not None: # sparse columns are stored differently sparse_groups[id(sparse_matrix)].append(column_name) sparse_matrices[id(sparse_matrix)] = sparse_matrix continue dtype = dataset.dtype(column_name) if column_name in dataset.get_column_names(virtual=False): column = dataset.columns[column_name] shape = (N, ) + column.shape[1:] else: shape = (N, ) h5column_output = h5columns_output.require_group(column_name) if dtype == str_type: # TODO: if no selection or filter, we could do this # if isinstance(column, ColumnStringArrow): # data_shape = column.bytes.shape # indices_shape = column.indices.shape # else: byte_length = dataset[column_name].str.byte_length().sum( selection=selection) if byte_length > max_int32: dtype_indices = 'i8' else: dtype_indices = 'i4' data_shape = (byte_length, ) indices_shape = (N + 1, ) array = h5column_output.require_dataset('data', shape=data_shape, dtype='S1') if byte_length > 0: array[0] = array[0] # make sure the array really exists index_array = h5column_output.require_dataset( 'indices', shape=indices_shape, dtype=dtype_indices) index_array[0] = index_array[ 0] # make sure the array really exists null_value_count = N - dataset.count(column_name, selection=selection) if null_value_count > 0: null_shape = ((N + 7) // 8, ) # TODO: arrow requires padding right? null_bitmap_array = h5column_output.require_dataset( 'null_bitmap', shape=null_shape, dtype='u1') null_bitmap_array[0] = null_bitmap_array[ 0] # make sure the array really exists array.attrs["dtype"] = 'str' # TODO: masked support ala arrow? else: if dtype.kind in 'mM': array = h5column_output.require_dataset('data', shape=shape, dtype=np.int64) array.attrs["dtype"] = dtype.name elif dtype.kind == 'U': # numpy uses utf32 for unicode char_length = dtype.itemsize // 4 shape = (N, char_length) array = h5column_output.require_dataset('data', shape=shape, dtype=np.uint8) array.attrs["dtype"] = 'utf32' array.attrs["dlength"] = char_length else: try: array = h5column_output.require_dataset( 'data', shape=shape, dtype=dtype.newbyteorder(byteorder)) except: logging.exception( "error creating dataset for %r, with type %r " % (column_name, dtype)) del h5columns_output[column_name] column_names.remove(column_name) array[0] = array[0] # make sure the array really exists data = dataset.evaluate(column_name, 0, 1) if np.ma.isMaskedArray(data): mask = h5column_output.require_dataset('mask', shape=shape, dtype=np.bool) mask[0] = mask[0] # make sure the array really exists random_index_name = None column_order = list(column_names) # copy if shuffle: random_index_name = "random_index" while random_index_name in dataset.get_column_names(): random_index_name += "_new" shuffle_array = h5columns_output.require_dataset( random_index_name + "/data", shape=(N, ), dtype=byteorder + "i8") shuffle_array[0] = shuffle_array[0] column_order.append(random_index_name) # last item h5columns_output.attrs["column_order"] = ",".join( column_order) # keep track or the ordering of columns sparse_index = 0 for sparse_matrix in sparse_matrices.values(): columns = sorted(sparse_groups[id(sparse_matrix)], key=lambda col: dataset.columns[col].column_index) name = "sparse" + str(sparse_index) sparse_index += 1 # TODO: slice columns # sparse_matrix = sparse_matrix[:,] sparse_group = h5columns_output.require_group(name) sparse_group.attrs['type'] = 'csr_matrix' ar = sparse_group.require_dataset('data', shape=(len( sparse_matrix.data), ), dtype=sparse_matrix.dtype) ar[0] = ar[0] ar = sparse_group.require_dataset('indptr', shape=(len( sparse_matrix.indptr), ), dtype=sparse_matrix.indptr.dtype) ar[0] = ar[0] ar = sparse_group.require_dataset( 'indices', shape=(len(sparse_matrix.indices), ), dtype=sparse_matrix.indices.dtype) ar[0] = ar[0] for i, column_name in enumerate(columns): h5column = sparse_group.require_group(column_name) h5column.attrs['column_index'] = i # after this the file is closed,, and reopen it using out class dataset_output = vaex.hdf5.dataset.Hdf5MemoryMapped(path, write=True) column_names = vaex.export._export(dataset_input=dataset, dataset_output=dataset_output, path=path, random_index_column=random_index_name, column_names=column_names, selection=selection, shuffle=shuffle, byteorder=byteorder, progress=progress, sort=sort, ascending=ascending) import getpass import datetime user = getpass.getuser() date = str(datetime.datetime.now()) source = dataset.path description = "file exported by vaex, by user %s, on date %s, from source %s" % ( user, date, source) if dataset.description: description += "previous description:\n" + dataset.description dataset_output.copy_metadata(dataset) dataset_output.description = description logger.debug("writing meta information") dataset_output.write_meta() dataset_output.close_files() return
def export_hdf5(dataset, path, column_names=None, byteorder="=", shuffle=False, selection=False, progress=None, virtual=True, sort=None, ascending=True): """ :param DatasetLocal dataset: dataset to export :param str path: path for file :param lis[str] column_names: list of column names to export or None for all columns :param str byteorder: = for native, < for little endian and > for big endian :param bool shuffle: export rows in random order :param bool selection: export selection or not :param progress: progress callback that gets a progress fraction as argument and should return True to continue, or a default progress bar when progress=True :param: bool virtual: When True, export virtual columns :return: """ if selection: if selection == True: # easier to work with the name selection = "default" # first open file using h5py api with h5py.File(path, "w") as h5file_output: h5table_output = h5file_output.require_group("/table") h5table_output.attrs["type"] = "table" h5columns_output = h5file_output.require_group("/table/columns") # i1, i2 = dataset.current_slice N = len(dataset) if not selection else dataset.selected_length(selection) if N == 0: raise ValueError("Cannot export empty table") logger.debug("virtual=%r", virtual) logger.debug("exporting %d rows to file %s" % (N, path)) # column_names = column_names or (dataset.get_column_names() + (list(dataset.virtual_columns.keys()) if virtual else [])) column_names = column_names or dataset.get_column_names(virtual=virtual, strings=True) logger.debug("exporting columns(hdf5): %r" % column_names) sparse_groups = collections.defaultdict(list) sparse_matrices = {} # alternative to a set of matrices, since they are not hashable for column_name in list(column_names): sparse_matrix = dataset._sparse_matrix(column_name) if sparse_matrix is not None: # sparse columns are stored differently sparse_groups[id(sparse_matrix)].append(column_name) sparse_matrices[id(sparse_matrix)] = sparse_matrix continue dtype = dataset.dtype(column_name) if column_name in dataset.get_column_names(virtual=False): column = dataset.columns[column_name] shape = (N,) + column.shape[1:] else: shape = (N,) h5column_output = h5columns_output.require_group(column_name) if dtype == str_type: # TODO: if no selection or filter, we could do this # if isinstance(column, ColumnStringArrow): # data_shape = column.bytes.shape # indices_shape = column.indices.shape # else: byte_length = dataset[column_name].str.byte_length().sum(selection=selection) if byte_length > max_int32: dtype_indices = 'i8' else: dtype_indices = 'i4' data_shape = (byte_length, ) indices_shape = (N+1, ) array = h5column_output.require_dataset('data', shape=data_shape, dtype='S1') array[0] = array[0] # make sure the array really exists index_array = h5column_output.require_dataset('indices', shape=indices_shape, dtype=dtype_indices) index_array[0] = index_array[0] # make sure the array really exists null_value_count = N - dataset.count(column_name, selection=selection) if null_value_count > 0: null_shape = ((N + 7) // 8, ) # TODO: arrow requires padding right? null_bitmap_array = h5column_output.require_dataset('null_bitmap', shape=null_shape, dtype='u1') null_bitmap_array[0] = null_bitmap_array[0] # make sure the array really exists array.attrs["dtype"] = 'str' # TODO: masked support ala arrow? else: if dtype.kind in 'mM': array = h5column_output.require_dataset('data', shape=shape, dtype=np.int64) array.attrs["dtype"] = dtype.name elif dtype.kind == 'U': # numpy uses utf32 for unicode char_length = dtype.itemsize // 4 shape = (N, char_length) array = h5column_output.require_dataset('data', shape=shape, dtype=np.uint8) array.attrs["dtype"] = 'utf32' array.attrs["dlength"] = char_length else: try: array = h5column_output.require_dataset('data', shape=shape, dtype=dtype.newbyteorder(byteorder)) except: logging.exception("error creating dataset for %r, with type %r " % (column_name, dtype)) del h5columns_output[column_name] column_names.remove(column_name) array[0] = array[0] # make sure the array really exists data = dataset.evaluate(column_name, 0, 1) if np.ma.isMaskedArray(data): mask = h5column_output.require_dataset('mask', shape=shape, dtype=np.bool) mask[0] = mask[0] # make sure the array really exists random_index_name = None column_order = list(column_names) # copy if shuffle: random_index_name = "random_index" while random_index_name in dataset.get_column_names(): random_index_name += "_new" shuffle_array = h5columns_output.require_dataset(random_index_name + "/data", shape=(N,), dtype=byteorder + "i8") shuffle_array[0] = shuffle_array[0] column_order.append(random_index_name) # last item h5columns_output.attrs["column_order"] = ",".join(column_order) # keep track or the ordering of columns sparse_index = 0 for sparse_matrix in sparse_matrices.values(): columns = sorted(sparse_groups[id(sparse_matrix)], key=lambda col: dataset.columns[col].column_index) name = "sparse" + str(sparse_index) sparse_index += 1 # TODO: slice columns # sparse_matrix = sparse_matrix[:,] sparse_group = h5columns_output.require_group(name) sparse_group.attrs['type'] = 'csr_matrix' ar = sparse_group.require_dataset('data', shape=(len(sparse_matrix.data), ), dtype=sparse_matrix.dtype) ar[0] = ar[0] ar = sparse_group.require_dataset('indptr', shape=(len(sparse_matrix.indptr), ), dtype=sparse_matrix.indptr.dtype) ar[0] = ar[0] ar = sparse_group.require_dataset('indices', shape=(len(sparse_matrix.indices), ), dtype=sparse_matrix.indices.dtype) ar[0] = ar[0] for i, column_name in enumerate(columns): h5column = sparse_group.require_group(column_name) h5column.attrs['column_index'] = i # after this the file is closed,, and reopen it using out class dataset_output = vaex.hdf5.dataset.Hdf5MemoryMapped(path, write=True) column_names = vaex.export._export(dataset_input=dataset, dataset_output=dataset_output, path=path, random_index_column=random_index_name, column_names=column_names, selection=selection, shuffle=shuffle, byteorder=byteorder, progress=progress, sort=sort, ascending=ascending) import getpass import datetime user = getpass.getuser() date = str(datetime.datetime.now()) source = dataset.path description = "file exported by vaex, by user %s, on date %s, from source %s" % (user, date, source) if dataset.description: description += "previous description:\n" + dataset.description dataset_output.copy_metadata(dataset) dataset_output.description = description logger.debug("writing meta information") dataset_output.write_meta() dataset_output.close_files() return