def test_dataset_object_by_name_queries_with_name_returns_model_object(
self, mocked):
service = DatasetService()
actual = service.dataset_object_by_name(DATABASE_NAME, DATASET_NAME)
expected = mocked.query.filter.return_value.one.return_value
self.assertEqual(actual, expected)
def test_create_dataset_should_create_model(self, mocked):
service = DatasetService()
service.create_dataset(DATASET_NAME,
DATASET_URL,
identifier_id=IDENTIFIER)
mocked.assert_called_with(name=DATASET_NAME,
file_url=DATASET_URL,
identifier_id=IDENTIFIER)
mocked.return_value.save.assert_called_once()
def test_delete_dataset_object_by_id(self, mocked):
service = DatasetService()
actual = service.delete_dataset(DATASET_ID)
mocked.query.filter.assert_called_with(mocked._id == DATASET_ID)
expected = mocked.query.filter.return_value.one.return_value.delete.assert_called_once(
)
self.assertEqual(actual, expected)
def test_dataset_by_name_queries_model_with_name_and_return_id(
self, mocked):
service = DatasetService()
expected_output = 1
mocked.query.with_entities.return_value.filter.return_value.one \
.return_value = [expected_output]
result = service.dataset_by_name(DATASET_NAME)
mocked.query.with_entities.assert_called_with(mocked._id)
mocked.query.with_entities.return_value.filter.assert_called_with(
mocked._name == DATASET_NAME)
self.assertEqual(result, expected_output)
def test_dataset_by_id_should_query_model_with_id(self, mocked):
service = DatasetService()
service.dataset_by_id(DATASET_ID)
mocked.query.filter.assert_called_with(mocked._id == DATASET_ID)
mocked.query.filter.return_value.one.assert_called_once()
def __init__(self):
self._dataset_service = DatasetService()
self._column_service = DatasetColumnService()
self._udf_service = UdfService()
self._udf_io_service = UdfIOService()
class CatalogManager(object):
_instance = None
_catalog = None
_catalog_dictionary = {}
def __new__(cls):
if cls._instance is None:
cls._instance = super(CatalogManager, cls).__new__(cls)
cls._instance.bootstrap_catalog()
return cls._instance
def __init__(self):
self._dataset_service = DatasetService()
self._column_service = DatasetColumnService()
self._udf_service = UdfService()
self._udf_io_service = UdfIOService()
def bootstrap_catalog(self):
"""Bootstraps catalog.
This method runs all tasks required for using catalog. Currently,
it includes only one task ie. initializing database. It creates the
catalog database and tables if they do not exist.
"""
LoggingManager().log("Bootstrapping catalog", LoggingLevel.INFO)
init_db()
def create_metadata(self, name: str, file_url: str,
column_list: List[DataFrameColumn]) -> \
DataFrameMetadata:
"""Creates metadata object when called by create executor.
Creates a metadata object and column objects and persists them in
database. Sets the schema field of the metadata object.
Args:
name: name of the dataset/video to which this metdata corresponds
file_url: #todo
column_list: list of columns
Returns:
The persisted DataFrameMetadata object with the id field populated.
"""
metadata = self._dataset_service.create_dataset(name, file_url)
for column in column_list:
column.metadata_id = metadata.id
column_list = self._column_service.create_column(column_list)
metadata.schema = column_list
return metadata
def get_table_bindings(self, database_name: str, table_name: str,
column_names: List[str] = None) -> Tuple[int,
List[int]]:
"""This method fetches bindings for strings.
Args:
database_name: currently not in use
table_name: the table that is being referred to
column_names: the column names of the table for which
bindings are required
Returns:
returns metadata_id of table and a list of column ids
"""
metadata_id = self._dataset_service.dataset_by_name(table_name)
column_ids = []
if column_names is not None:
if not isinstance(column_names, list):
LoggingManager().log(
"CatalogManager::get_table_binding() expected list",
LoggingLevel.WARNING)
column_ids = self._column_service.columns_by_dataset_id_and_names(
metadata_id,
column_names)
return metadata_id, column_ids
def get_metadata(self, metadata_id: int,
col_id_list: List[int] = None) -> DataFrameMetadata:
"""This method returns the metadata object given a metadata_id,
when requested by the executor.
Args:
metadata_id: metadata id of the table
col_id_list: optional column ids of the table referred.
If none we all the columns are required
Returns:
metadata object with all the details of video/dataset
"""
metadata = self._dataset_service.dataset_by_id(metadata_id)
df_columns = self._column_service.columns_by_id_and_dataset_id(
metadata_id, col_id_list)
metadata.schema = df_columns
return metadata
def get_column_types(self, table_metadata_id: int,
col_id_list: List[int]) -> List[ColumnType]:
"""
This method consumes the input table_id and the input column_id_list
and
returns a list of ColumnType for each provided column_id.
Arguments:
table_metadata_id {int} -- [metadata_id of the table]
col_id_list {List[int]} -- [metadata ids of the columns; If list
= None, return type for all columns in the table]
Returns:
List[ColumnType] -- [list of required column type for each input
column]
"""
metadata = self._dataset_service.dataset_by_id(table_metadata_id)
col_types = []
df_columns = self._column_service.columns_by_id_and_dataset_id(
metadata.id, col_id_list
)
for col in df_columns:
col_types.append(col.type)
return col_types
def get_column_ids(self, table_metadata_id: int) -> List[int]:
"""
This method returns all the column_ids associated with the given
table_metadata_id
Arguments:
table_metadata_id {int} -- [table metadata id for which columns
are required]
Returns:
List[int] -- [list of columns ids for this table]
"""
col_ids = []
df_columns = self._column_service.columns_by_id_and_dataset_id(
table_metadata_id)
for col in df_columns:
col_ids.append(col[0])
return col_ids
def create_column_metadata(
self, column_name: str, data_type: ColumnType,
dimensions: List[int]):
"""Create a dataframe column object this column.
This function won't commit this object in the catalog database.
If you want to commit it into catalog table call create_metadata with
corresponding table_id
Arguments:
column_name {str} -- column name to be created
data_type {ColumnType} -- type of column created
dimensions {List[int]} -- dimensions of the column created
"""
return DataFrameColumn(column_name, data_type,
array_dimensions=dimensions)
def get_dataset_metadata(self, database_name: str, dataset_name: str,
column_names: List[str] = None) -> \
DataFrameMetadata:
"""
Returns the Dataset metadata for the given dataset name
Arguments:
dataset_name (str): name of the dataset
Returns:
DataFrameMetadata
"""
return self._dataset_service.dataset_object_by_name(
database_name, dataset_name)
def udf_io(
self, io_name: str, data_type: ColumnType,
dimensions: List[int], is_input: bool):
"""Constructs an in memory udf_io object with given info.
This function won't commit this object in the catalog database.
If you want to commit it into catalog call create_udf with
corresponding udf_id and io list
Arguments:
name(str): io name to be created
data_type(ColumnType): type of io created
dimensions(List[int]):dimensions of the io created
is_input(bool): whether a input or output, if true it is an input
"""
return UdfIO(io_name, data_type,
array_dimensions=dimensions, is_input=is_input)
def create_udf(self, name: str, impl_file_path: str,
type: str, udf_io_list: List[UdfIO]) -> UdfMetadata:
"""Creates an udf metadata object and udf_io objects and persists them
in database.
Arguments:
name(str): name of the udf to which this metdata corresponds
impl_file_path(str): implementation path of the udf,
relative to src/udf
type(str): what kind of udf operator like classification,
detection etc
udf_io_list(List[UdfIO]): input/output info of this udf
Returns:
The persisted UdfMetadata object with the id field populated.
"""
metadata = self._udf_service.create_udf(name, impl_file_path, type)
for udf_io in udf_io_list:
udf_io.udf_id = metadata.id
self._udf_io_service.add_udf_io(udf_io_list)
return metadata
class CatalogManager(object):
_instance = None
def __new__(cls):
if cls._instance is None:
cls._instance = super(CatalogManager, cls).__new__(cls)
cls._instance._bootstrap_catalog()
return cls._instance
def __init__(self):
self._dataset_service = DatasetService()
self._column_service = DatasetColumnService()
self._udf_service = UdfService()
self._udf_io_service = UdfIOService()
def reset(self):
"""
This method resets the state of the singleton instance.
It should drop the catalog table and reinitialize all the member
variables and services.
"""
self._shutdown_catalog()
self._bootstrap_catalog()
self.__init__()
def _bootstrap_catalog(self):
"""Bootstraps catalog.
This method runs all tasks required for using catalog. Currently,
it includes only one task ie. initializing database. It creates the
catalog database and tables if they do not exist.
"""
LoggingManager().log("Bootstrapping catalog", LoggingLevel.INFO)
init_db()
def _shutdown_catalog(self):
"""
This method is responsible for gracefully shutting the
catalog manager. Currently, it includes dropping the catalog database
"""
LoggingManager().log("Shutting catalog", LoggingLevel.INFO)
drop_db()
def create_metadata(self, name: str, file_url: str,
column_list: List[DataFrameColumn],
identifier_column='id') -> \
DataFrameMetadata:
"""Creates metadata object
Creates a metadata object and column objects and persists them in
database. Sets the schema field of the metadata object.
Args:
name: name of the dataset/video to which this metdata corresponds
file_url: #todo
column_list: list of columns
identifier_column (str): A unique identifier column for each row
Returns:
The persisted DataFrameMetadata object with the id field populated.
"""
metadata = self._dataset_service.create_dataset(
name, file_url, identifier_id=identifier_column)
for column in column_list:
column.metadata_id = metadata.id
column_list = self._column_service.create_column(column_list)
metadata.schema = column_list
return metadata
def get_table_bindings(
self,
database_name: str,
table_name: str,
column_names: List[str] = None) -> Tuple[int, List[int]]:
"""This method fetches bindings for strings.
Args:
database_name: currently not in use
table_name: the table that is being referred to
column_names: the column names of the table for which
bindings are required
Returns:
returns metadata_id of table and a list of column ids
"""
metadata_id = self._dataset_service.dataset_by_name(table_name)
column_ids = []
if column_names is not None:
if not isinstance(column_names, list):
LoggingManager().log(
"CatalogManager::get_table_binding() expected list",
LoggingLevel.WARNING)
column_ids = self._column_service.columns_by_dataset_id_and_names(
metadata_id, column_names)
return metadata_id, column_ids
def get_metadata(self,
metadata_id: int,
col_id_list: List[int] = None) -> DataFrameMetadata:
"""This method returns the metadata object given a metadata_id.
Arguments:
metadata_id: metadata id of the table
col_id_list: optional column ids of the table referred.
If none all the columns are required
Returns:
metadata object with all the details of video/dataset
"""
metadata = self._dataset_service.dataset_by_id(metadata_id)
df_columns = self._column_service.columns_by_id_and_dataset_id(
metadata_id, col_id_list)
metadata.schema = df_columns
return metadata
def get_column_types(self, table_metadata_id: int,
col_id_list: List[int]) -> List[ColumnType]:
"""
This method consumes the input table_id and the input column_id_list
and
returns a list of ColumnType for each provided column_id.
Arguments:
table_metadata_id {int} -- [metadata_id of the table]
col_id_list {List[int]} -- [metadata ids of the columns; If list
= None, return type for all columns in the table]
Returns:
List[ColumnType] -- [list of required column type for each input
column]
"""
metadata = self._dataset_service.dataset_by_id(table_metadata_id)
col_types = []
df_columns = self._column_service.columns_by_id_and_dataset_id(
metadata.id, col_id_list)
for col in df_columns:
col_types.append(col.type)
return col_types
def get_column_ids(self, table_metadata_id: int) -> List[int]:
"""
This method returns all the column_ids associated with the given
table_metadata_id
Arguments:
table_metadata_id {int} -- [table metadata id for which columns
are required]
Returns:
List[int] -- [list of columns ids for this table]
"""
col_ids = []
df_columns = self._column_service.columns_by_id_and_dataset_id(
table_metadata_id)
for col in df_columns:
col_ids.append(col[0])
return col_ids
def create_column_metadata(self, column_name: str, data_type: ColumnType,
array_type: NdArrayType,
dimensions: List[int]) -> DataFrameColumn:
"""Create a dataframe column object this column.
This function won't commit this object in the catalog database.
If you want to commit it into catalog table call create_metadata with
corresponding table_id
Arguments:
column_name {str} -- column name to be created
data_type {ColumnType} -- type of column created
array_type {NdArrayType} -- type of ndarray
dimensions {List[int]} -- dimensions of the column created
"""
return DataFrameColumn(column_name,
data_type,
array_type=array_type,
array_dimensions=dimensions)
def get_dataset_metadata(self, database_name: str, dataset_name: str) -> \
DataFrameMetadata:
"""
Returns the Dataset metadata for the given dataset name
Arguments:
dataset_name (str): name of the dataset
Returns:
DataFrameMetadata
"""
metadata = self._dataset_service.dataset_object_by_name(
database_name, dataset_name)
if metadata is None:
return None
# we are forced to set schema every time metadata is fetched
# ToDo: maybe keep schema as a part of persistent metadata object
df_columns = self._column_service.columns_by_id_and_dataset_id(
metadata.id, None)
metadata.schema = df_columns
return metadata
def udf_io(self, io_name: str, data_type: ColumnType,
array_type: NdArrayType, dimensions: List[int], is_input: bool):
"""Constructs an in memory udf_io object with given info.
This function won't commit this object in the catalog database.
If you want to commit it into catalog call create_udf with
corresponding udf_id and io list
Arguments:
name(str): io name to be created
data_type(ColumnType): type of io created
array_type(NdArrayType): type of array content
dimensions(List[int]):dimensions of the io created
is_input(bool): whether a input or output, if true it is an input
"""
return UdfIO(io_name,
data_type,
array_type=array_type,
array_dimensions=dimensions,
is_input=is_input)
def create_udf(self, name: str, impl_file_path: str, type: str,
udf_io_list: List[UdfIO]) -> UdfMetadata:
"""Creates an udf metadata object and udf_io objects and persists them
in database.
Arguments:
name(str): name of the udf to which this metdata corresponds
impl_file_path(str): implementation path of the udf,
relative to src/udf
type(str): what kind of udf operator like classification,
detection etc
udf_io_list(List[UdfIO]): input/output info of this udf
Returns:
The persisted UdfMetadata object with the id field populated.
"""
metadata = self._udf_service.create_udf(name, impl_file_path, type)
for udf_io in udf_io_list:
udf_io.udf_id = metadata.id
self._udf_io_service.add_udf_io(udf_io_list)
return metadata
def get_udf_by_name(self, name: str) -> UdfMetadata:
"""
Get the UDF information based on name.
Arguments:
name (str): name of the UDF
Returns:
UdfMetadata object
"""
return self._udf_service.udf_by_name(name)
def delete_metadata(self, table_name: str) -> bool:
"""
This method deletes the table along with its columns from df_metadata
and df_columns respectively
Arguments:
table_name: table name to be deleted.
Returns:
True if successfully deleted else False
"""
metadata_id = self._dataset_service.dataset_by_name(table_name)
return self._dataset_service.delete_dataset_by_id(metadata_id)
def delete_udf(self, udf_name: str) -> bool:
"""
This method drops the udf entry from the catalog
Arguments:
udf_name: udf name to be dropped.
Returns:
True if successfully deleted else False
"""
return self._udf_service.delete_udf_by_name(udf_name)
def get_udf_io_by_name(self, udf_io_name: str) -> UdfIO:
"""Returns the catalog object for the input udfio name
Args:
udf_io_name (str): name to query the UDFIO catalog table
Returns:
UdfIO: catalog object found
"""
return self._udf_io_service.udf_io_by_name(udf_io_name)
def test_delete_dataset_object_by_id_should_raise_exception(self, mock_id):
service = DatasetService()
mock_id.return_value.delete.side_effect = Exception()
self.assertFalse(service.delete_dataset_by_id(DATASET_ID))
mock_id.assert_called_once_with(DATASET_ID)
mock_id.return_value.delete.assert_called_once()
def test_delete_dataset_object_by_id(self, mock_id):
service = DatasetService()
self.assertTrue(service.delete_dataset_by_id(DATASET_ID))
mock_id.assert_called_once_with(DATASET_ID)
mock_id.return_value.delete.assert_called_once()
