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zamba.data.metadata

Functions

create_site_specific_splits(site: pd.Series, proportions: Dict[str, int], random_state: Optional[Union[int, np.random.mtrand.RandomState]] = 989)

Splits sites into distinct groups whose sizes roughly matching the given proportions. Null sites are randomly assigned to groups using the provided proportions.

Parameters:

Name Type Description Default
site pd.Series

A series of sites, one element per observation,

required
proportions dict

A dict whose keys are the resulting groups and whose values are the rough proportion of data in each group.

required
seed int

Seed for random split of null sites.

required
Example

Split data into groups where each site is in one and only one group with roughly 50-25-25 train-val-holdout proportions.

create_site_specific_splits(site, proportions={"train": 2, "val": 1, "holdout": 1})

Returns:

Type Description

pd.Series: A series containing the resulting split, one element per observation.

Source code in zamba/data/metadata.py
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def create_site_specific_splits(
    site: pd.Series,
    proportions: Dict[str, int],
    random_state: Optional[Union[int, np.random.mtrand.RandomState]] = 989,
):
    """Splits sites into distinct groups whose sizes roughly matching the given proportions. Null
    sites are randomly assigned to groups using the provided proportions.

    Args:
        site (pd.Series): A series of sites, one element per observation,
        proportions (dict): A dict whose keys are the resulting groups and whose values are the
            rough proportion of data in each group.
        seed (int): Seed for random split of null sites.

    Example:
        Split data into groups where each site is in one and only one group with roughly 50-25-25
        train-val-holdout proportions.

        >>> create_site_specific_splits(site, proportions={"train": 2, "val": 1, "holdout": 1})

    Returns:
        pd.Series: A series containing the resulting split, one element per observation.

    """

    assignments = {}
    sites = site.value_counts(dropna=True).sort_values(ascending=False).index
    n_subgroups = sum(proportions.values())
    for i, subset in enumerate(
        roundrobin(*([subset] * proportions[subset] for subset in proportions))
    ):
        for group in sites[i::n_subgroups]:
            assignments[group] = subset

    # Divide null sites among the groups
    null_sites = site.isnull()
    if null_sites.sum() > 0:
        logger.debug(f"{null_sites.sum():,} null sites randomly assigned to groups.")
        null_groups = []
        for group, group_proportion in proportions.items():
            null_group = f"{group}-{uuid4()}"
            null_groups.append(null_group)
            assignments[null_group] = group

        rng = (
            np.random.RandomState(random_state) if isinstance(random_state, int) else random_state
        )
        site = site.copy()
        site.loc[null_sites] = rng.choice(
            null_groups,
            p=np.asarray(list(proportions.values())) / sum(proportions.values()),
            size=null_sites.sum(),
            replace=True,
        )

    return site.replace(assignments)

one_hot_to_labels(one_hot: pd.DataFrame, column_prefix: Optional[str] = 'species_') -> pd.DataFrame

Source code in zamba/data/metadata.py
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def one_hot_to_labels(
    one_hot: pd.DataFrame, column_prefix: Optional[str] = r"species_"
) -> pd.DataFrame:
    if column_prefix:
        one_hot = one_hot.filter(regex=column_prefix)
        # remove prefix
        one_hot.columns = [c.split(column_prefix, 1)[1] for c in one_hot.columns]

    one_hot.index = one_hot.index.rename("filepath")
    one_hot.columns = one_hot.columns.rename("label")

    labels = (one_hot == 1).stack()
    labels = labels[labels]
    return labels.reset_index().drop(0, axis=1)

roundrobin(*iterables)

roundrobin('ABC', 'D', 'EF') --> A D E B F C

Source code in zamba/data/metadata.py
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def roundrobin(*iterables):
    "roundrobin('ABC', 'D', 'EF') --> A D E B F C"
    # From https://docs.python.org/3/library/itertools.html#recipes
    # Recipe credited to George Sakkis
    num_active = len(iterables)
    nexts = itertools.cycle(iter(it).__next__ for it in iterables)
    while num_active:
        try:
            for next in nexts:
                yield next()
        except StopIteration:
            # Remove the iterator we just exhausted from the cycle.
            num_active -= 1
            nexts = itertools.cycle(itertools.islice(nexts, num_active))