Source code for woodwork.accessor_utils

from functools import wraps

import numpy as np
import pandas as pd

from woodwork.exceptions import ColumnNotPresentInSchemaError, WoodworkNotInitError
from woodwork.utils import _get_column_logical_type


[docs]def init_series( series, logical_type=None, semantic_tags=None, use_standard_tags=True, null_invalid_values=False, description=None, origin=None, metadata=None, ): """Initializes Woodwork typing information for a series, numpy.ndarray or pd.api.extensions. ExtensionArray, returning a new Series. The dtype of the returned series will be converted to match the dtype associated with the LogicalType. Args: series (pd.Series, dd.Series, ps.Series, numpy.ndarray or pd.api.extensions.ExtensionArray): The original series from which to create the Woodwork initialized series. logical_type (LogicalType or str, optional): The logical type that should be assigned to the series. If no value is provided, the LogicalType for the series will be inferred. semantic_tags (str or list or set, optional): Semantic tags to assign to the series. Defaults to an empty set if not specified. There are two options for specifying the semantic tags: (str) If only one semantic tag is being set, a single string can be passed. (list or set) If multiple tags are being set, a list or set of strings can be passed. use_standard_tags (bool, optional): If True, will add standard semantic tags to the series based on the inferred or specified logical type of the series. Defaults to True. description (str, optional): Optional text describing the contents of the series. origin (str, optional): Optional text specifying origin of the column (i.e. "base" or "engineered"). metadata (dict[str -> json serializable], optional): Metadata associated with the series. null_invalid_values (bool, optional): If True, replaces any invalid values with null. Defaults to False. Returns: Series: A series with Woodwork typing information initialized """ if not _is_series(series): if ( isinstance(series, (np.ndarray, pd.api.extensions.ExtensionArray)) and series.ndim == 1 ): series = pd.Series(series) elif isinstance(series, np.ndarray) and series.ndim != 1: raise ValueError( f"np.ndarray input must be 1 dimensional. Current np.ndarray is {series.ndim} dimensional", ) else: raise TypeError( f"Input must be of series type. The current input is of type {type(series)}", ) logical_type = _get_column_logical_type(series, logical_type, series.name) new_series = logical_type.transform(series, null_invalid_values=null_invalid_values) new_series.ww.init( logical_type=logical_type, semantic_tags=semantic_tags, use_standard_tags=use_standard_tags, description=description, origin=origin, metadata=metadata, ) return new_series
def _is_series(data): if isinstance(data, pd.Series): return True return False def _is_dataframe(data): if isinstance(data, pd.DataFrame): return True return False
[docs]def get_invalid_schema_message(dataframe, schema): """Return a message indicating the reason that the provided schema cannot be used to initialize Woodwork on the dataframe. If the schema is valid for the dataframe, None will be returned. Args: dataframe (DataFrame): The dataframe against which to check the schema. schema (ww.TableSchema): The schema to use in the validity check. Returns: str or None: The reason that the schema is invalid for the dataframe """ dataframe_cols = set(dataframe.columns) schema_cols = set(schema.columns.keys()) df_cols_not_in_schema = dataframe_cols - schema_cols if df_cols_not_in_schema: return ( f"The following columns in the DataFrame were missing from the typing information: " f"{df_cols_not_in_schema}" ) schema_cols_not_in_df = schema_cols - dataframe_cols if schema_cols_not_in_df: return ( f"The following columns in the typing information were missing from the DataFrame: " f"{schema_cols_not_in_df}" ) logical_types = schema.logical_types for name in dataframe.columns: df_dtype = dataframe[name].dtype valid_dtype = logical_types[name]._get_valid_dtype(type(dataframe[name])) if str(df_dtype) != valid_dtype: return ( f"dtype mismatch for column {name} between DataFrame dtype, " f"{df_dtype}, and {logical_types[name]} dtype, {valid_dtype}" ) if schema.index is not None: if not pd.Series(dataframe.index, dtype=dataframe[schema.index].dtype).equals( pd.Series(dataframe[schema.index].values), ): return "Index mismatch between DataFrame and typing information" elif not dataframe[schema.index].is_unique: return "Index column is not unique" elif dataframe[schema.index].isnull().any(): return "Index contains null values"
[docs]def is_schema_valid(dataframe, schema): """Check if a schema is valid for initializing Woodwork on a dataframe Args: dataframe (DataFrame): The dataframe against which to check the schema. schema (ww.TableSchema): The schema to use in the validity check. Returns: boolean: Boolean indicating whether the schema is valid for the dataframe """ invalid_schema_message = get_invalid_schema_message(dataframe, schema) if invalid_schema_message: return False return True
def _check_column_schema(method): """Decorator for WoodworkColumnAccessor that checks schema initialization""" @wraps(method) def wrapper(self, *args, **kwargs): if self._schema is None: msg = ( "Woodwork not initialized for this Series. Initialize by " "calling Series.ww.init" ) raise WoodworkNotInitError(msg) return method(self, *args, **kwargs) return wrapper def _check_table_schema(method): """Decorator for WoodworkTableAccessor that checks schema initialization""" @wraps(method) def wrapper(self, *args, **kwargs): if self._schema is None: msg = ( "Woodwork not initialized for this DataFrame. Initialize by " "calling DataFrame.ww.init" ) raise WoodworkNotInitError(msg) diff_cols = set(self._dataframe.columns).difference( set(self._schema.columns.keys()), ) if diff_cols: raise ColumnNotPresentInSchemaError(sorted(list(diff_cols))) return method(self, *args, **kwargs) return wrapper