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preprocessing

TimeSeriesDifferentiator(order=1)

Bases: BaseEstimator, TransformerMixin

Transforms a time series into a differentiated time series of order n. It also reverts the differentiation.

Parameters:

Name Type Description Default
order int

Order of differentiation.

 1

Attributes:

Name Type Description
order int

Order of differentiation.
initial_values list

List with the initial value of the time series after each differentiation. This is used to revert the differentiation.
last_values list

List with the last value of the time series after each differentiation. This is used to revert the differentiation of a new window of data. A new window of data is a time series that starts right after the time series used to fit the transformer.
Source code in skforecast\preprocessing\preprocessing.py 
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def __init__(
    self, 
    order: int=1
) -> None:

    if not isinstance(order, int):
        raise TypeError(f"Parameter 'order' must be an integer greater than 0. Found {type(order)}.")
    if order < 1:
        raise ValueError(f"Parameter 'order' must be an integer greater than 0. Found {order}.")

    self.order = order
    self.initial_values = []
    self.last_values = []

fit(X, y=None)

Fits the transformer. This method only removes the values stored in self.initial_values.

Parameters:

Name Type Description Default
X numpy ndarray

Time series to be differentiated.

 required
y Ignored

Not used, present here for API consistency by convention.

 None

Returns:

Name Type Description
self TimeSeriesDifferentiator
Source code in skforecast\preprocessing\preprocessing.py 
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@_check_X_numpy_ndarray_1d
def fit(
    self, 
    X: np.ndarray, 
    y: Any=None
) -> Self:
    """
    Fits the transformer. This method only removes the values stored in
    `self.initial_values`.

    Parameters
    ----------
    X : numpy ndarray
        Time series to be differentiated.
    y : Ignored
        Not used, present here for API consistency by convention.

    Returns
    -------
    self : TimeSeriesDifferentiator

    """

    self.initial_values = []
    self.last_values = []

    for i in range(self.order):
        if i == 0:
            self.initial_values.append(X[0])
            self.last_values.append(X[-1])
            X_diff = np.diff(X, n=1)
        else:
            self.initial_values.append(X_diff[0])
            self.last_values.append(X_diff[-1])
            X_diff = np.diff(X_diff, n=1)

    return self

transform(X, y=None)

Transforms a time series into a differentiated time series of order n and stores the values needed to revert the differentiation.

Parameters:

Name Type Description Default
X numpy ndarray

Time series to be differentiated.

 required
y Ignored

Not used, present here for API consistency by convention.

 None

Returns:

Name Type Description
X_diff numpy ndarray

Differentiated time series. The length of the array is the same as the original time series but the first n=order values are nan.
Source code in skforecast\preprocessing\preprocessing.py 
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@_check_X_numpy_ndarray_1d
def transform(
    self, 
    X: np.ndarray, 
    y: Any=None
) -> np.ndarray:
    """
    Transforms a time series into a differentiated time series of order n and
    stores the values needed to revert the differentiation.

    Parameters
    ----------
    X : numpy ndarray
        Time series to be differentiated.
    y : Ignored
        Not used, present here for API consistency by convention.

    Returns
    -------
    X_diff : numpy ndarray
        Differentiated time series. The length of the array is the same as
        the original time series but the first n=`order` values are nan.

    """

    X_diff = np.diff(X, n=self.order)
    X_diff = np.append((np.full(shape=self.order, fill_value=np.nan)), X_diff)

    return X_diff

inverse_transform(X, y=None)

Reverts the differentiation. To do so, the input array is assumed to be a differentiated time series of order n that starts right after the the time series used to fit the transformer.

Parameters:

Name Type Description Default
X numpy ndarray

Differentiated time series.

 required
y Ignored

Not used, present here for API consistency by convention.

 None

Returns:

Name Type Description
X_diff numpy ndarray

Reverted differentiated time series.
Source code in skforecast\preprocessing\preprocessing.py 
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@_check_X_numpy_ndarray_1d
def inverse_transform(
    self, 
    X: np.ndarray, 
    y: Any=None
) -> np.ndarray:
    """
    Reverts the differentiation. To do so, the input array is assumed to be
    a differentiated time series of order n that starts right after the
    the time series used to fit the transformer.

    Parameters
    ----------
    X : numpy ndarray
        Differentiated time series.
    y : Ignored
        Not used, present here for API consistency by convention.

    Returns
    -------
    X_diff : numpy ndarray
        Reverted differentiated time series.

    """

    # Remove initial nan values if present
    X = X[np.argmax(~np.isnan(X)):]
    for i in range(self.order):
        if i == 0:
            X_undiff = np.insert(X, 0, self.initial_values[-1])
            X_undiff = np.cumsum(X_undiff, dtype=float)
        else:
            X_undiff = np.insert(X_undiff, 0, self.initial_values[-(i+1)])
            X_undiff = np.cumsum(X_undiff, dtype=float)

    return X_undiff

inverse_transform_next_window(X, y=None)

Reverts the differentiation. The input array x is assumed to be a differentiated time series of order n that starts right after the the time series used to fit the transformer.

Parameters:

Name Type Description Default
X numpy ndarray

Differentiated time series. It is assumed o start right after the time series used to fit the transformer.

 required
y Ignored

Not used, present here for API consistency by convention.

 None

Returns:

Name Type Description
X_undiff numpy ndarray

Reverted differentiated time series.
Source code in skforecast\preprocessing\preprocessing.py 
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@_check_X_numpy_ndarray_1d
def inverse_transform_next_window(
    self,
    X: np.ndarray,
    y: Any=None
) -> np.ndarray:
    """
    Reverts the differentiation. The input array `x` is assumed to be a 
    differentiated time series of order n that starts right after the
    the time series used to fit the transformer.

    Parameters
    ----------
    X : numpy ndarray
        Differentiated time series. It is assumed o start right after
        the time series used to fit the transformer.
    y : Ignored
        Not used, present here for API consistency by convention.

    Returns
    -------
    X_undiff : numpy ndarray
        Reverted differentiated time series.

    """

    # Remove initial nan values if present
    X = X[np.argmax(~np.isnan(X)):]

    for i in range(self.order):
        if i == 0:
            X_undiff = np.cumsum(X, dtype=float) + self.last_values[-1]
        else:
            X_undiff = np.cumsum(X_undiff, dtype=float) + self.last_values[-(i+1)]

    return X_undiff

series_long_to_dict(data, series_id, index, values, freq)

Convert long format series to dictionary.

Parameters:

Name Type Description Default
data DataFrame

Long format series.

 required
series_id str

Column name with the series identifier.

 required
index str

Column name with the time index.

 required
values str

Column name with the values.

 required
freq str

Frequency of the series.

 required

Returns:

Name Type Description
series_dict dict

Dictionary with the series.
Source code in skforecast\preprocessing\preprocessing.py 
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def series_long_to_dict(
    data: pd.DataFrame,
    series_id: str,
    index: str,
    values: str,
    freq: str,
) -> dict:
    """
    Convert long format series to dictionary.

    Parameters
    ----------
    data: pandas DataFrame
        Long format series.
    series_id: str
        Column name with the series identifier.
    index: str
        Column name with the time index.
    values: str
        Column name with the values.
    freq: str
        Frequency of the series.

    Returns
    -------
    series_dict: dict
        Dictionary with the series.

    """

    if not isinstance(data, pd.DataFrame):
        raise TypeError("`data` must be a pandas DataFrame.")

    for col in [series_id, index, values]:
        if col not in data.columns:
            raise ValueError(f"Column '{col}' not found in `data`.")

    series_dict = {}
    for k, v in data.groupby(series_id):
        series_dict[k] = v.set_index(index)[values].asfreq(freq).rename(k)
        series_dict[k].index.name = None

    return series_dict

exog_long_to_dict(data, series_id, index, freq, dropna=False)

Convert long format exogenous variables to dictionary.

Parameters:

Name Type Description Default
data DataFrame

Long format exogenous variables.

 required
series_id str

Column name with the series identifier.

 required
index str

Column name with the time index.

 required
freq str

Frequency of the series.

 required
dropna bool

If True, drop columns with all values as NaN. This is useful when there are series without some exogenous variables.

 False

Returns:

Name Type Description
exog_dict dict

Dictionary with the exogenous variables.
Source code in skforecast\preprocessing\preprocessing.py 
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def exog_long_to_dict(
    data: pd.DataFrame,
    series_id: str,
    index: str,
    freq: str,
    dropna: bool=False,
) -> dict:
    """
    Convert long format exogenous variables to dictionary.

    Parameters
    ----------
    data: pandas DataFrame
        Long format exogenous variables.
    series_id: str
        Column name with the series identifier.
    index: str
        Column name with the time index.
    freq: str
        Frequency of the series.
    dropna: bool, default `False`
        If True, drop columns with all values as NaN. This is useful when
        there are series without some exogenous variables.

    Returns
    -------
    exog_dict: dict
        Dictionary with the exogenous variables.

    """

    if not isinstance(data, pd.DataFrame):
        raise TypeError("`data` must be a pandas DataFrame.")

    for col in [series_id, index]:
        if col not in data.columns:
            raise ValueError(f"Column '{col}' not found in `data`.")

    exog_dict = dict(tuple(data.groupby(series_id)))
    exog_dict = {
        k: v.set_index(index).asfreq(freq).drop(columns=series_id)
        for k, v in exog_dict.items()
    }

    for k in exog_dict.keys():
        exog_dict[k].index.name = None

    if dropna:
        exog_dict = {k: v.dropna(how="all", axis=1) for k, v in exog_dict.items()}

    return exog_dict