Project: slicer

A small package for big slicing.

Project Details

Latest version
0.0.7
Home Page
https://github.com/interpretml/slicer
PyPI Page
https://pypi.org/project/slicer/

Project Popularity

PageRank
0.0014724037883103401
Number of downloads
5448692

slicer [alpha]

License Python Version Package Version Build Status Coverage Maintenance

(Equal Contribution) Samuel Jenkins & Harsha Nori & Scott Lundberg

slicer wraps tensor-like objects and provides a uniform slicing interface via __getitem__.


It supports many data types including:

   numpy | pandas | scipy | pytorch | list | tuple | dict

And enables upgraded slicing functionality on its objects:

# Handles non-integer indexes for slicing.
S(df)[:, ["Age", "Income"]]

# Handles nested slicing in one call.
S(nested_list)[..., :5]

It can also simultaneously slice many objects at once:

# Gets first elements of both objects.
S(first=df, second=ar)[0, :]

This package has 0 dependencies. Not even one.

Installation

Python 3.6+ | Linux, Mac, Windows

pip install slicer

Getting Started

Basic anonymous slicing:

from slicer import Slicer as S
li = [[1, 2, 3], [4, 5, 6]]
S(li)[:, 0:2].o
# [[1, 2], [4, 5]]
di = {'x': [1, 2, 3], 'y': [4, 5, 6]}
S(di)[:, 0:2].o
# {'x': [1, 2], 'y': [4, 5]}

Basic named slicing:

import pandas as pd
import numpy as np
df = pd.DataFrame({'A': [1, 3], 'B': [2, 4]})
ar = np.array([[5, 6], [7, 8]])
sliced = S(first=df, second=ar)[0, :]
sliced.first
# A    1
# B    2
# Name: 0, dtype: int64
sliced.second
# array([5, 6])

Real example:

from slicer import Slicer as S
from slicer import Alias as A

data = [[1, 2], [3, 4]]
values = [[5, 6], [7, 8]]
identifiers = ["id1", "id1"]
instance_names = ["r1", "r2"]
feature_names = ["f1", "f2"]
full_name = "A"

slicer = S(
    data=data,
    values=values,
    # Aliases are objects that also function as slicing keys.
    # A(obj, dim) where dim informs what dimension it can be sliced on.
    identifiers=A(identifiers, 0),
    instance_names=A(instance_names, 0),
    feature_names=A(feature_names, 1),
    full_name=full_name,
)

sliced = slicer[:, 1]  # Tensor-like parallel slicing on all objects
assert sliced.data == [2, 4]
assert sliced.instance_names == ["r1", "r2"]
assert sliced.feature_names == "f2"
assert sliced.values == [6, 8]

sliced = slicer["r1", "f2"]  # Example use of aliasing
assert sliced.data == 2
assert sliced.feature_names == "f2"
assert sliced.instance_names == "r1"
assert sliced.values == 6

Contact us

Raise an issue on GitHub, or contact us at interpret@microsoft.com