gaitmap_datasets.EgaitParameterValidation2013#
- class gaitmap_datasets.EgaitParameterValidation2013(data_folder: Optional[Union[str, Path]] = None, *, include_bad_data: bool = False, use_alternative_calibrations: bool = True, memory: Memory = Memory(location=None), groupby_cols: Optional[Union[List[str], str]] = None, subset_index: Optional[DataFrame] = None)[source]#
Egait parameter validation 2013 dataset.
- Parameters:
- data_folder
The path to the data folder. If None, the path from the config is used.
- include_bad_data
A couple of participants appear to have bad data. If True, these participants are included (as in the original publication). If False, these participants are excluded (recommended).
- use_alternative_calibrations
The original calibration files showed a big acc offset. Therefore, we recommend to use the alternative calibration files. If True, the alternative calibration files are used. If False, the original calibration files are used (as in the original publication).
- Attributes:
data
Get the imu data.
gaitrite_parameters_
Get the gaitrite parameters.
group
Get the current group.
grouped_index
Return the index with the
groupby
columns set as multiindex.groups
Get all groups based on the set groupby level.
index
Get index.
sampling_rate_hz
Get the sampling rate of the IMUs.
segmented_stride_list_
Get the segmented stride list.
shape
Get the shape of the dataset.
Methods
as_attrs
()Return a version of the Dataset class that can be subclassed using
attrs
defined classes.Return a version of the Dataset class that can be subclassed using dataclasses.
assert_is_single
(groupby_cols, property_name)Raise error if index does contain more than one group/row with the given groupby settings.
assert_is_single_group
(property_name)Raise error if index does contain more than one group/row.
clone
()Create a new instance of the class with all parameters copied over.
create_group_labels
(label_cols)Generate a list of labels for each group/row in the dataset.
Create index.
get_params
([deep])Get parameters for this algorithm.
get_subset
(*[, groups, index, bool_map])Get a subset of the dataset.
groupby
(groupby_cols)Return a copy of the dataset grouped by the specified columns.
is_single
(groupby_cols)Return True if index contains only one row/group with the given groupby settings.
Return True if index contains only one group.
iter_level
(level)Return generator object containing a subset for every category from the selected level.
set_params
(**params)Set the parameters of this Algorithm.
- static as_attrs()[source]#
Return a version of the Dataset class that can be subclassed using
attrs
defined classes.Note, this requires
attrs
to be installed!
- static as_dataclass()[source]#
Return a version of the Dataset class that can be subclassed using dataclasses.
- assert_is_single(groupby_cols: Optional[Union[List[str], str]], property_name) None [source]#
Raise error if index does contain more than one group/row with the given groupby settings.
This should be used when implementing access to data values, which can only be accessed when only a single trail/participant/etc. exist in the dataset.
- Parameters:
- groupby_cols
None (no grouping) or a valid subset of the columns available in the dataset index.
- property_name
Name of the property this check is used in. Used to format the error message.
- assert_is_single_group(property_name) None [source]#
Raise error if index does contain more than one group/row.
Note that this is different from
assert_is_single
as it is aware of the current grouping. Instead of checking that a certain combination of columns is left in the dataset, it checks that only a single group exists with the already selected grouping as defined byself.groupby_cols
.- Parameters:
- property_name
Name of the property this check is used in. Used to format the error message.
- clone() Self [source]#
Create a new instance of the class with all parameters copied over.
This will create a new instance of the class itself and all nested objects
- create_group_labels(label_cols: Union[str, List[str]]) List[str] [source]#
Generate a list of labels for each group/row in the dataset.
Note
This has a different use case than the dataset-wide groupby. Using
groupby
reduces the effective size of the dataset to the number of groups. This method produces a group label for each group/row that is already in the dataset, without changing the dataset.The output of this method can be used in combination with
GroupKFold
as the group label.- Parameters:
- label_cols
The columns that should be included in the label. If the dataset is already grouped, this must be a subset of
self.groupby_cols
.
- property gaitrite_parameters_: Dict[Literal['left_sensor', 'right_sensor'], DataFrame]#
Get the gaitrite parameters.
- get_params(deep: bool = True) Dict[str, Any] [source]#
Get parameters for this algorithm.
- Parameters:
- deep
Only relevant if object contains nested algorithm objects. If this is the case and deep is True, the params of these nested objects are included in the output using a prefix like
nested_object_name__
(Note the two “_” at the end)
- Returns:
- params
Parameter names mapped to their values.
- get_subset(*, groups: Optional[List[Union[str, Tuple[str, ...]]]] = None, index: Optional[DataFrame] = None, bool_map: Optional[Sequence[bool]] = None, **kwargs: Union[List[str], str]) Self [source]#
Get a subset of the dataset.
Note
All arguments are mutable exclusive!
- Parameters:
- groups
A valid row locator or slice that can be passed to
self.grouped_index.loc[locator, :]
. This basically needs to be a subset ofself.groups
. Note that this is the only indexer that works on the grouped index. All other indexers work on the pure index.- index
pd.DataFrame
that is a valid subset of the current dataset index.- bool_map
bool-map that is used to index the current index-dataframe. The list must be of same length as the number of rows in the index.
- **kwargs
The key must be the name of an index column. The value is a list containing strings that correspond to the categories that should be kept. For examples see above.
- Returns:
- subset
New dataset object filtered by specified parameters.
- property group: Union[str, Tuple[str, ...]]#
Get the current group.
Note, this attribute can only be used, if there is just a single group. If there is only a single groupby column or column in the index, this will return a string. Otherwise, this will return a named tuple.
- groupby(groupby_cols: Optional[Union[List[str], str]]) Self [source]#
Return a copy of the dataset grouped by the specified columns.
Each unique group represents a single data point in the resulting dataset.
- Parameters:
- groupby_cols
None (no grouping) or a valid subset of the columns available in the dataset index.
- property groups: List[Union[str, Tuple[str, ...]]]#
Get all groups based on the set groupby level.
This will either return a list of strings/integers, if there is only a single group level or index column. If there are multiple groupy levels/index columns, it will return a list of named tuples.
Note, that if one of the groupby levels/index columns is not a valid Python attribute name (e.g. in contains spaces or starts with a number), the named tuple will not contain the correct column name! For more information see the documentation of the
rename
parameter ofcollections.namedtuple
.
- is_single(groupby_cols: Optional[Union[List[str], str]]) bool [source]#
Return True if index contains only one row/group with the given groupby settings.
If
groupby_cols=None
this checks if there is only a single row left. If you want to check if there is only a single group within the current grouping, useis_single_group
instead.- Parameters:
- groupby_cols
None (no grouping) or a valid subset of the columns available in the dataset index.
- iter_level(level: str) Iterator[Self] [source]#
Return generator object containing a subset for every category from the selected level.
- Parameters:
- level
Optional
str
that sets the level which shall be used for iterating. This must be one of the columns names of the index.
- Returns:
- subset
New dataset object containing only one category in the specified
level
.
- property segmented_stride_list_: Dict[Literal['left_sensor', 'right_sensor'], DataFrame]#
Get the segmented stride list.