Custom Dataset - Basics#

Datasets represent a set of recordings that should all be processed in the same way. For example the data of multiple participants in a study, multiple days of recording, or multiple tests. The goal of datasets is to provide a consistent interface to access the raw data, metadata, and potential reference information in an object-oriented way. It is up to you to define, what is considered a single “data-point” for your dataset. Note, that datasets can be arbitrarily nested (e.g. multiple participants with multiple recordings).

Datasets work best in combination with Pipelines and are further compatible with concepts like GridSearch and cross_validation.

Defining your own dataset#

Fundamentally you only need to create a subclass of Dataset and define the create_index method. This method should return a dataframe describing all the data-points that should be available in the dataset.

Warning

Make absolutely sure that the dataframe you return is deterministic and does not change between runs! This can lead to some nasty bugs! We try to catch them internally, but it is not always possible. As tips, avoid reliance on random numbers and make sure that the order is not depend on things like file system order, when creating an index by scanning a directory. Particularly nasty are cases when using non-sorted container like set, that sometimes maintain their order, but sometimes don’t. At the very least, we recommend to sort the final dataframe you return in create_index.

In the following we will create an example dataset, without any real world data, but it can be used to demonstrate most functionality. At the end we will discuss, how gait specific data should be integrated.

We will define an index that contains 5 participants, with 3 recordings each. Recording 3 has 2 trials, while the others have only one. Note, that we implement this as a static index here, but most of the time, you would create the index by e.g. scanning and listing the files in your data directory. It is important that you don’t want to load the entire actual data (e.g. the imu samples) in memory, but just list the available data-points in the index. Then you can filter the dataset first and load the data once you know which data-points you want to access. We will discuss this later in the example.

from itertools import product
from typing import Optional, Union

import pandas as pd

trials = list(product(("rec_1", "rec_2", "rec_3"), ("trial_1",)))
trials.append(("rec_3", "trial_2"))
index = [(p, *t) for p, t in product((f"p{i}" for i in range(1, 6)), trials)]
index = pd.DataFrame(index, columns=["participant", "recording", "trial"])
index
participant recording trial
0 p1 rec_1 trial_1
1 p1 rec_2 trial_1
2 p1 rec_3 trial_1
3 p1 rec_3 trial_2
4 p2 rec_1 trial_1
5 p2 rec_2 trial_1
6 p2 rec_3 trial_1
7 p2 rec_3 trial_2
8 p3 rec_1 trial_1
9 p3 rec_2 trial_1
10 p3 rec_3 trial_1
11 p3 rec_3 trial_2
12 p4 rec_1 trial_1
13 p4 rec_2 trial_1
14 p4 rec_3 trial_1
15 p4 rec_3 trial_2
16 p5 rec_1 trial_1
17 p5 rec_2 trial_1
18 p5 rec_3 trial_1
19 p5 rec_3 trial_2


Now we use this index as the index of our new dataset. To see the dataset in action, we need to create an instance of it. Its string representation will show us the most important information.

from tpcp import Dataset


class CustomDataset(Dataset):
    def create_index(self):
        return index


dataset = CustomDataset()
dataset

CustomDataset [20 groups/rows]

participant recording trial
0 p1 rec_1 trial_1
1 p1 rec_2 trial_1
2 p1 rec_3 trial_1
3 p1 rec_3 trial_2
4 p2 rec_1 trial_1
5 p2 rec_2 trial_1
6 p2 rec_3 trial_1
7 p2 rec_3 trial_2
8 p3 rec_1 trial_1
9 p3 rec_2 trial_1
10 p3 rec_3 trial_1
11 p3 rec_3 trial_2
12 p4 rec_1 trial_1
13 p4 rec_2 trial_1
14 p4 rec_3 trial_1
15 p4 rec_3 trial_2
16 p5 rec_1 trial_1
17 p5 rec_2 trial_1
18 p5 rec_3 trial_1
19 p5 rec_3 trial_2


Subsets#

When working with a dataset, the first thing is usually to select the data you want to use. For this, you can primarily use the method get_subset. Here we want to select only recording 2 and 3 from participant 1 to 4. Note that the returned subset is an instance of your dataset class as well.

subset = dataset.get_subset(participant=["p1", "p2", "p3", "p4"], recording=["rec_2", "rec_3"])
subset

CustomDataset [12 groups/rows]

participant recording trial
0 p1 rec_2 trial_1
1 p1 rec_3 trial_1
2 p1 rec_3 trial_2
3 p2 rec_2 trial_1
4 p2 rec_3 trial_1
5 p2 rec_3 trial_2
6 p3 rec_2 trial_1
7 p3 rec_3 trial_1
8 p3 rec_3 trial_2
9 p4 rec_2 trial_1
10 p4 rec_3 trial_1
11 p4 rec_3 trial_2


The subset can then be filtered further. For more advanced filter approaches you can also filter the index directly and use a bool-map to index the dataset

example_bool_map = subset.index["participant"].isin(["p1", "p2"])
final_subset = subset.get_subset(bool_map=example_bool_map)
final_subset

CustomDataset [6 groups/rows]

participant recording trial
0 p1 rec_2 trial_1
1 p1 rec_3 trial_1
2 p1 rec_3 trial_2
3 p2 rec_2 trial_1
4 p2 rec_3 trial_1
5 p2 rec_3 trial_2


Iteration and Groups#

After selecting the part of the data you want to use, you usually want/need to iterate over the data to apply your processing steps.

By default, you can simply iterate over all rows. Note, that each row itself is a dataset again, but just with a single entry.

for row in final_subset:
    print(row)
    print(f"This row contains {len(row)} data-point", end="\n\n")
CustomDataset [1 groups/rows]

     participant recording    trial
   0          p1     rec_2  trial_1
This row contains 1 data-point

CustomDataset [1 groups/rows]

     participant recording    trial
   0          p1     rec_3  trial_1
This row contains 1 data-point

CustomDataset [1 groups/rows]

     participant recording    trial
   0          p1     rec_3  trial_2
This row contains 1 data-point

CustomDataset [1 groups/rows]

     participant recording    trial
   0          p2     rec_2  trial_1
This row contains 1 data-point

CustomDataset [1 groups/rows]

     participant recording    trial
   0          p2     rec_3  trial_1
This row contains 1 data-point

CustomDataset [1 groups/rows]

     participant recording    trial
   0          p2     rec_3  trial_2
This row contains 1 data-point

However, in many cases, we don’t want to iterate over all rows, but rather iterate over groups of the datasets ( e.g. all participants or all tests) individually. We can do that in 2 ways (depending on what is needed). For example, if we want to iterate over all recordings, we can do this:

for trial in final_subset.iter_level("recording"):
    print(trial, end="\n\n")
CustomDataset [2 groups/rows]

     participant recording    trial
   0          p1     rec_2  trial_1
   1          p2     rec_2  trial_1

CustomDataset [4 groups/rows]

     participant recording    trial
   0          p1     rec_3  trial_1
   1          p1     rec_3  trial_2
   2          p2     rec_3  trial_1
   3          p2     rec_3  trial_2

You can see that we get two subsets, one for each recording label. But what, if we want to iterate over the participants and the recordings together? In this case, we need to group our dataset first. Note that the grouped_subset shows the new groupby columns as the index in the representation and the length of the dataset is reported to be the number of groups.

grouped_subset = final_subset.groupby(["participant", "recording"])
print(f"The dataset contains {len(grouped_subset)} groups.")
grouped_subset
The dataset contains 4 groups.

CustomDataset [4 groups/rows]

participant recording trial
participant recording
p1 rec_2 p1 rec_2 trial_1
rec_3 p1 rec_3 trial_1
rec_3 p1 rec_3 trial_2
p2 rec_2 p2 rec_2 trial_1
rec_3 p2 rec_3 trial_1
rec_3 p2 rec_3 trial_2


If we now iterate the dataset, it will iterate over the unique groups.

Grouping also changes the meaning of a “single datapoint”. Each group reports a shape of (1,) independent of the number of rows in each group.

for group in grouped_subset:
    print(f"This group has the shape {group.shape}")
    print(group, end="\n\n")
This group has the shape (1,)
CustomDataset [1 groups/rows]

                         participant recording    trial
   participant recording
   p1          rec_2              p1     rec_2  trial_1

This group has the shape (1,)
CustomDataset [1 groups/rows]

                         participant recording    trial
   participant recording
   p1          rec_3              p1     rec_3  trial_1
               rec_3              p1     rec_3  trial_2

This group has the shape (1,)
CustomDataset [1 groups/rows]

                         participant recording    trial
   participant recording
   p2          rec_2              p2     rec_2  trial_1

This group has the shape (1,)
CustomDataset [1 groups/rows]

                         participant recording    trial
   participant recording
   p2          rec_3              p2     rec_3  trial_1
               rec_3              p2     rec_3  trial_2

At any point, you can view all unique groups/rows in the dataset using the group_labels attribute. The order shown here, is the same order used when iterating the dataset. When creating a new subset, the order might change!

[CustomDatasetGroupLabel(participant='p1', recording='rec_2'), CustomDatasetGroupLabel(participant='p1', recording='rec_3'), CustomDatasetGroupLabel(participant='p2', recording='rec_2'), CustomDatasetGroupLabel(participant='p2', recording='rec_3')]

Note

The group_labels attribute consists of a list of named tuples. The tuple elements are named after the groupby columns and are in the same order as the groupby columns. They can be accessed by name or index: For example, grouped_subset.group_labels[0].participant and grouped_subset.group_labels[0][0] are equivalent.

Also, grouped_subset.group_labels[0] and grouped_subset[0].group_label are equivalent.

Note that for an “un-grouped” dataset, this corresponds to all rows.

[CustomDatasetGroupLabel(participant='p1', recording='rec_2', trial='trial_1'), CustomDatasetGroupLabel(participant='p1', recording='rec_3', trial='trial_1'), CustomDatasetGroupLabel(participant='p1', recording='rec_3', trial='trial_2'), CustomDatasetGroupLabel(participant='p2', recording='rec_2', trial='trial_1'), CustomDatasetGroupLabel(participant='p2', recording='rec_3', trial='trial_1'), CustomDatasetGroupLabel(participant='p2', recording='rec_3', trial='trial_2')]

If you want to view the full set of labels of a dataset regardless of the grouping, you can use the index_as_tuples method.

[CustomDatasetDatapointLabel(participant='p1', recording='rec_2', trial='trial_1'), CustomDatasetDatapointLabel(participant='p1', recording='rec_3', trial='trial_1'), CustomDatasetDatapointLabel(participant='p1', recording='rec_3', trial='trial_2'), CustomDatasetDatapointLabel(participant='p2', recording='rec_2', trial='trial_1'), CustomDatasetDatapointLabel(participant='p2', recording='rec_3', trial='trial_1'), CustomDatasetDatapointLabel(participant='p2', recording='rec_3', trial='trial_2')]

Note that index_as_tuples() and group_labels return the same for an un-grouped dataset.

[CustomDatasetDatapointLabel(participant='p1', recording='rec_2', trial='trial_1'), CustomDatasetDatapointLabel(participant='p1', recording='rec_3', trial='trial_1'), CustomDatasetDatapointLabel(participant='p1', recording='rec_3', trial='trial_2'), CustomDatasetDatapointLabel(participant='p2', recording='rec_2', trial='trial_1'), CustomDatasetDatapointLabel(participant='p2', recording='rec_3', trial='trial_1'), CustomDatasetDatapointLabel(participant='p2', recording='rec_3', trial='trial_2')]

We can use the group labels (or a subset of them) to index our dataset. This can be in particular helpful, if you want to recreate specific train test splits provided by cross_validate.

CustomDataset [3 groups/rows]

participant recording trial
0 p1 rec_2 trial_1
1 p1 rec_3 trial_1
2 p1 rec_3 trial_2


If you want, you can also ungroup a dataset again. This can be useful for a nested iteration:

for outer, group in enumerate(grouped_subset):
    ungrouped = group.groupby(None)
    for inner, subgroup in enumerate(ungrouped):
        print(outer, inner)
        print(subgroup, end="\n\n")
0 0
CustomDataset [1 groups/rows]

     participant recording    trial
   0          p1     rec_2  trial_1

1 0
CustomDataset [1 groups/rows]

     participant recording    trial
   0          p1     rec_3  trial_1

1 1
CustomDataset [1 groups/rows]

     participant recording    trial
   0          p1     rec_3  trial_2

2 0
CustomDataset [1 groups/rows]

     participant recording    trial
   0          p2     rec_2  trial_1

3 0
CustomDataset [1 groups/rows]

     participant recording    trial
   0          p2     rec_3  trial_1

3 1
CustomDataset [1 groups/rows]

     participant recording    trial
   0          p2     rec_3  trial_2

Splitting#

If you are evaluating algorithms, it is often important to split your data into a train and a test set, or multiple distinct sets for a cross validation.

The Dataset objects directly support the sklearn helper functions for this. For example, to split our subset into training and testing we can do the following:

from sklearn.model_selection import train_test_split

train, test = train_test_split(final_subset, train_size=0.5)
print("Train:\n", train, end="\n\n")
print("Test:\n", test)
Train:
 CustomDataset [3 groups/rows]

     participant recording    trial
   0          p2     rec_2  trial_1
   1          p2     rec_3  trial_1
   2          p2     rec_3  trial_2

Test:
 CustomDataset [3 groups/rows]

     participant recording    trial
   0          p1     rec_3  trial_1
   1          p1     rec_2  trial_1
   2          p1     rec_3  trial_2

Such splitting always occurs on a data-point level and can therefore be influenced by grouping. If we want to split our datasets into training and testing, but only based on the participants, we can do this:

train, test = train_test_split(final_subset.groupby("participant"), train_size=0.5)
print("Train:\n", train, end="\n\n")
print("Test:\n", test)
Train:
 CustomDataset [1 groups/rows]

               participant recording    trial
   participant
   p2                   p2     rec_2  trial_1
   p2                   p2     rec_3  trial_1
   p2                   p2     rec_3  trial_2

Test:
 CustomDataset [1 groups/rows]

               participant recording    trial
   participant
   p1                   p1     rec_2  trial_1
   p1                   p1     rec_3  trial_1
   p1                   p1     rec_3  trial_2

In the same way you can use the dataset (grouped or not) with the cross validation helper functions (KFold is just an example, all should work):

from sklearn.model_selection import KFold

cv = KFold(n_splits=2)
grouped_subset = final_subset.groupby("participant")
for train, test in cv.split(grouped_subset):
    # We only print the train set here
    print(grouped_subset[train], end="\n\n")
CustomDataset [1 groups/rows]

               participant recording    trial
   participant
   p2                   p2     rec_2  trial_1
   p2                   p2     rec_3  trial_1
   p2                   p2     rec_3  trial_2

CustomDataset [1 groups/rows]

               participant recording    trial
   participant
   p1                   p1     rec_2  trial_1
   p1                   p1     rec_3  trial_1
   p1                   p1     rec_3  trial_2

While this works well, it is not always what we want. Sometimes, we still want to consider each row a single datapoint, but want to prevent that data of e.g. a single participant and recording is partially put into train- and partially into the test-split. For this, we can use GroupKFold in combination with dataset.create_string_group_labels.

create_string_group_labels generates a unique string identifier for each row/group:

["('p1', 'rec_2')", "('p1', 'rec_3')", "('p1', 'rec_3')", "('p2', 'rec_2')", "('p2', 'rec_3')", "('p2', 'rec_3')"]

They can then be used as the group parameter in GroupKFold (and similar methods). Now the data of the two participants is never split between train and test set.

from sklearn.model_selection import GroupKFold

cv = GroupKFold(n_splits=2)
for train, test in cv.split(final_subset, groups=group_labels):
    # We only print the train set here
    print(final_subset[train], end="\n\n")
CustomDataset [3 groups/rows]

     participant recording    trial
   0          p1     rec_2  trial_1
   1          p1     rec_3  trial_1
   2          p1     rec_3  trial_2

CustomDataset [3 groups/rows]

     participant recording    trial
   0          p2     rec_2  trial_1
   1          p2     rec_3  trial_1
   2          p2     rec_3  trial_2

Creating labels also works for datasets that are already grouped. But, the columns that should be contained in the label must be a subset of the groupby columns in this case.

The number of group labels is 4 in this case, as there are only 4 groups after grouping the datset.

group_labels = final_subset.groupby(["participant", "recording"]).create_string_group_labels("participant")
group_labels
['p1', 'p1', 'p2', 'p2']

Adding Data#

So far we only operated on the index of the dataset. But if we want to run algorithms, we need the actual data (i.e. IMU samples, clinical data, …).

Because the data and the structure of the data can vary widely from dataset to dataset, it is up to you to implement data access. It comes down to documentation to ensure that users access the data in the correct way.

In general we try to follow a couple of conventions to give datasets a consistent feel:

  • Data access should be provided via @property decorator on the dataset objects, loading the data on demand.

  • The names of these properties should follow some the naming scheme (e.g. data for the core sensor data) and should return values using the established datatypes (e.g. pd.DataFrames).

  • The names of values that represent gold standard information (i.e. values you would only have in an evaluation dataset and should never use for training), should have a trailing _, which marks them as result similar how sklearn handles it.

This should look something like this:

class CustomDataset(Dataset):
    @property
    def data(self) -> pd.DataFrame:
        # Some logic to load data from disc
        raise NotImplementedError()

    @property
    def sampling_rate_hz(self) -> float:
        return 204.8

    @property
    def reference_events_(self) -> pd.DataFrame:
        # Some custom logic to load the gold-standard events of this validation dataset.
        # Note the trailing `_` in the name.
        raise NotImplementedError()

    def create_index(self):
        return index

For each of the data-values you need to decide, on which “level” you provide data access. Meaning, do you want/can return data, when there are still multiple participants/recordings in the dataset, or can you only return the data, when there is only a single trial of a single participant left.

Usually, we recommend to always return the data on the lowest logical level (e.g. if you recorded separate IMU sessions per trial, you should provide access only, if there is just a single trail by a single participant left in the dataset). Otherwise, you should throw an error. This pattern can be simplified using the is_single or assert_is_single helper method. These helpers check based on the provided groupby_cols if there is really just a single group/row left with the given groupby settings.

Let’s say data can be accessed on either a recording or a trail level, and segmented_stride_list can only be accessed on a trail level. Then we could do something like this:

class CustomDataset(Dataset):
    @property
    def data(self) -> str:
        # Note that we need to make our checks from the least restrictive to the most restrictive (if there is only a
        # single trail, there is only just a single recording).
        if self.is_single(["participant", "recording"]):
            return "This is the data for participant {} and rec {}".format(*self.group_label)
        # None -> single row
        if self.is_single(None):
            return "This is the data for participant {}, rec {} and trial {}".format(*self.group_label)
        raise ValueError(
            "Data can only be accessed when their is only a single recording of a single participant in the subset"
        )

    @property
    def sampling_rate_hz(self) -> float:
        return 204.8

    @property
    def segmented_stride_list_(self) -> str:
        # We use assert here, as we don't have multiple options.
        # (We could also used `None` for the `groupby_cols` here)
        self.assert_is_single(["participant", "recording", "trial"], "segmented_stride_list_")
        return "This is the segmented stride list for participant {}, rec {} and trial {}".format(*self.group_label)

    def create_index(self):
        return index

If we select a single trial (row), we can get data and the stride list:

test_dataset = CustomDataset()
single_trial = test_dataset[0]
print(single_trial.data)
print(single_trial.segmented_stride_list_)
This is the data for participant p1 and rec rec_1
This is the segmented stride list for participant p1, rec rec_1 and trial trial_1

If we only select a recording, we get an error for the stride list:

# We select only recording 3 here, as it has 2 trials.
single_recording = test_dataset.get_subset(recording="rec_3").groupby(["participant", "recording"])[0]
print(single_recording.data)
try:
    print(single_recording.segmented_stride_list_)
except Exception as e:
    print("ValueError: ", e)
This is the data for participant p1 and rec rec_3
ValueError:  The attribute `segmented_stride_list_` of dataset CustomDataset can only be accessed if there is only a single combination of the columns ['participant', 'recording', 'trial'] left in a data subset,

Custom parameter#

Often it is required to pass some parameters/configuration to the dataset. This could be for example the place where the data is stored or if a specific part of the dataset should be included, if some preprocessing should be applied to the data, … .

Such additional configuration can be provided via a custom __init__ and is then available for all methods to be used. Note that you must assign the configuration values to attributes with the same name and must not forget to call super().__init__

class CustomDatasetWithConfig(Dataset):
    data_folder: str
    custom_config_para: bool

    def __init__(
        self,
        data_folder: str,
        custom_config_para: bool = False,
        *,
        groupby_cols: Optional[Union[list[str], str]] = None,
        subset_index: Optional[pd.DataFrame] = None,
    ):
        self.data_folder = data_folder
        self.custom_config_para = custom_config_para
        super().__init__(groupby_cols=groupby_cols, subset_index=subset_index)

    def create_index(self):
        # Use e.g. `self.data_folder` to load the data.
        return index

Total running time of the script: (0 minutes 4.218 seconds)

Estimated memory usage: 12 MB

Gallery generated by Sphinx-Gallery