nannyml.performance_calculation.calculator module¶
Calculates realized performance metrics when target data is available.
- class nannyml.performance_calculation.calculator.PerformanceCalculator(metrics: Union[str, List[str]], y_true: str, y_pred: str, problem_type: Union[str, nannyml._typing.ProblemType], y_pred_proba: Optional[Union[str, Dict[str, str]]] = None, timestamp_column_name: Optional[str] = None, chunk_size: Optional[int] = None, chunk_number: Optional[int] = None, chunk_period: Optional[str] = None, chunker: Optional[nannyml.chunk.Chunker] = None)[source]¶
Bases:
nannyml.base.AbstractCalculator
Calculates realized performance metrics when target data is available.
Creates a new performance calculator.
- Parameters
y_true (str) – The name of the column containing target values.
y_pred_proba (ModelOutputsType) – Name(s) of the column(s) containing your model output. Pass a single string when there is only a single model output column, e.g. in binary classification cases. Pass a dictionary when working with multiple output columns, e.g. in multiclass classification cases. The dictionary maps a class/label string to the column name containing model outputs for that class/label.
y_pred (str) – The name of the column containing your model predictions.
timestamp_column_name (str, default=None) – The name of the column containing the timestamp of the model prediction.
metrics (Union[str, List[str]]) – A metric or list of metrics to calculate.
chunk_size (int, default=None) – Splits the data into chunks containing chunks_size observations. Only one of chunk_size, chunk_number or chunk_period should be given.
chunk_number (int, default=None) – Splits the data into chunk_number pieces. Only one of chunk_size, chunk_number or chunk_period should be given.
chunk_period (str, default=None) – Splits the data according to the given period. Only one of chunk_size, chunk_number or chunk_period should be given.
chunker (Chunker, default=None) – The Chunker used to split the data sets into a lists of chunks.
Examples
>>> import nannyml as nml >>> from IPython.display import display >>> reference_df = nml.load_synthetic_binary_classification_dataset()[0] >>> analysis_df = nml.load_synthetic_binary_classification_dataset()[1] >>> analysis_target_df = nml.load_synthetic_binary_classification_dataset()[2] >>> analysis_df = analysis_df.merge(analysis_target_df, on='identifier') >>> display(reference_df.head(3)) >>> calc = nml.PerformanceCalculator( ... y_pred_proba='y_pred_proba', ... y_pred='y_pred', ... y_true='work_home_actual', ... timestamp_column_name='timestamp', ... problem_type='classification_binary', ... metrics=['roc_auc', 'f1', 'precision', 'recall', 'specificity', 'accuracy'], ... chunk_size=5000) >>> calc.fit(reference_df) >>> results = calc.calculate(analysis_df) >>> display(results.data) >>> display(results.calculator.previous_reference_results) >>> for metric in calc.metrics: ... figure = results.plot(kind='performance', plot_reference=True, metric=metric) ... figure.show()