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Automated Data Cleaning Library with a Rust compute backend

Project description

AutomatedCleaning

AutomatedCleaning is a Python library for automated data cleaning, now powered by a Rust compute backend. It preprocesses and analyzes datasets โ€” handling missing values, outliers, spelling corrections, text cleaning, PII masking and more โ€” while the CPU-heavy work runs in compiled Rust for speed and true (GIL-free) parallelism.

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Why Rust + Python?

The library is a hybrid: a friendly Python API on top, a fast Rust engine underneath.

  • ๐Ÿ Python frontend โ€” the API you call, plus everything that leans on the Python ecosystem (Polars I/O, scikit-learn imputation, Plotly dashboards, Presidio PII, Claude AI).
  • ๐Ÿฆ€ Rust backend (automatedcleaning._rustcore) โ€” the number-crunching and per-row string work: text preprocessing, symbol stripping, IQR outliers, skewness, correlation, multicollinearity and JSON detection.

You install one wheel and write normal Python โ€” the Rust is invisible.

โ”Œโ”€โ”€โ”€โ”€โ”€โ”€โ”€โ”€โ”€โ”€โ”€โ”€โ”€โ”€โ”€โ”€โ”€โ”€โ”€โ”€โ”€โ”€โ”€โ”€โ”€โ”€โ”€ your code โ”€โ”€โ”€โ”€โ”€โ”€โ”€โ”€โ”€โ”€โ”€โ”€โ”€โ”€โ”€โ”€โ”€โ”€โ”€โ”€โ”€โ”€โ”€โ”€โ”€โ”€โ”€โ”
โ”‚  import automatedcleaning as ac                                  โ”‚
โ”‚  df = ac.load_data("data.csv"); ac.clean_data(df)                โ”‚
โ””โ”€โ”€โ”€โ”€โ”€โ”€โ”€โ”€โ”€โ”€โ”€โ”€โ”€โ”€โ”€โ”€โ”€โ”€โ”€โ”€โ”€โ”€โ”€โ”€โ”€โ”€โ”€โ”€โ”€โ”€โ”ฌโ”€โ”€โ”€โ”€โ”€โ”€โ”€โ”€โ”€โ”€โ”€โ”€โ”€โ”€โ”€โ”€โ”€โ”€โ”€โ”€โ”€โ”€โ”€โ”€โ”€โ”€โ”€โ”€โ”€โ”€โ”€โ”€โ”€โ”€โ”˜
                               โ”‚ calls
โ”Œโ”€โ”€โ”€โ”€โ”€โ”€โ”€โ”€โ”€โ”€โ”€โ”€โ”€โ”€โ”€โ”€โ”€โ”€โ”€โ”€โ”€โ”€โ”€โ”€โ”€โ”€โ”€โ”€โ”€โ”€โ–ผโ”€โ”€โ”€โ”€โ”€โ”€โ”€โ”€โ”€โ”€โ”€โ”€โ”€โ”€โ”€โ”€โ”€โ”€โ”€โ”€โ”€โ”€โ”€โ”€โ”€โ”€โ”€โ”€โ”€โ”€โ”€โ”€โ”€โ”€โ”
โ”‚  Python frontend  (automatedcleaning/cleaning.py)                โ”‚
โ”‚    Polars โ€ข scikit-learn โ€ข Plotly โ€ข Presidio โ€ข LangChain         โ”‚
โ””โ”€โ”€โ”€โ”€โ”€โ”€โ”€โ”€โ”€โ”€โ”€โ”€โ”€โ”€โ”€โ”€โ”€โ”€โ”€โ”€โ”€โ”€โ”€โ”€โ”€โ”€โ”€โ”€โ”€โ”€โ”ฌโ”€โ”€โ”€โ”€โ”€โ”€โ”€โ”€โ”€โ”€โ”€โ”€โ”€โ”€โ”€โ”€โ”€โ”€โ”€โ”€โ”€โ”€โ”€โ”€โ”€โ”€โ”€โ”€โ”€โ”€โ”€โ”€โ”€โ”€โ”˜
                               โ”‚ delegates hot loops
โ”Œโ”€โ”€โ”€โ”€โ”€โ”€โ”€โ”€โ”€โ”€โ”€โ”€โ”€โ”€โ”€โ”€โ”€โ”€โ”€โ”€โ”€โ”€โ”€โ”€โ”€โ”€โ”€โ”€โ”€โ”€โ–ผโ”€โ”€โ”€โ”€โ”€โ”€โ”€โ”€โ”€โ”€โ”€โ”€โ”€โ”€โ”€โ”€โ”€โ”€โ”€โ”€โ”€โ”€โ”€โ”€โ”€โ”€โ”€โ”€โ”€โ”€โ”€โ”€โ”€โ”€โ”
โ”‚  ๐Ÿฆ€ Rust backend  (_rustcore, built with PyO3 + rayon)           โ”‚
โ”‚    text cleaning โ€ข skewness โ€ข IQR โ€ข correlation โ€ข JSON detect     โ”‚
โ””โ”€โ”€โ”€โ”€โ”€โ”€โ”€โ”€โ”€โ”€โ”€โ”€โ”€โ”€โ”€โ”€โ”€โ”€โ”€โ”€โ”€โ”€โ”€โ”€โ”€โ”€โ”€โ”€โ”€โ”€โ”€โ”€โ”€โ”€โ”€โ”€โ”€โ”€โ”€โ”€โ”€โ”€โ”€โ”€โ”€โ”€โ”€โ”€โ”€โ”€โ”€โ”€โ”€โ”€โ”€โ”€โ”€โ”€โ”€โ”€โ”€โ”€โ”€โ”€โ”€โ”€โ”˜

Benchmark โ€” text preprocessing over 50,000 rows: ~3.8ร— faster than the pure-Python path, with the GIL released so it scales across cores.


Features

  • Supports both large (100+ GB) and small datasets
  • Detects and handles missing values and duplicate records
  • Identifies and corrects spelling errors in categorical values
  • Detects and removes outliers (IQR)
  • Detects and fixes data imbalance
  • Identifies and corrects skewness in numerical data
  • Checks for correlation and detects multicollinearity
  • Analyzes cardinality in categorical columns
  • Identifies and cleans text columns
  • Detects JSON-type columns
  • Detects and masks PII columns
  • Performs univariate, bivariate, and multivariate analysis (interactive dashboard)

Installation

From PyPI (recommended)

pip install AutomatedCleaning

Prebuilt abi3 wheels are published for Linux, macOS and Windows and work on CPython 3.11+ โ€” no Rust toolchain needed to install. The import name is also automatedcleaning (import automatedcleaning as ac).

From source

Building from source requires the Rust toolchain (because the backend is compiled):

# 1. Install Rust (https://rustup.rs) and maturin
pip install maturin

# 2. Clone and build
git clone https://github.com/DataSpoof/dataspoof-data-cleaning.git
cd dataspoof-data-cleaning

# Build & install into the current environment
pip install .

# --- or, for development (needs an active virtualenv) ---
python -m venv .venv && source .venv/bin/activate   # Windows: .venv\Scripts\activate
maturin develop --release

Quick start

import automatedcleaning as ac

# Load any CSV / TSV / JSON / Parquet file (via Polars)
df = ac.load_data("dataset.csv")

# Run the full interactive cleaning pipeline
df_cleaned = ac.clean_data(df, background_image_path="assets/gradient.png")

clean_data() walks the dataset through the whole pipeline and asks a few interactive questions (column spelling fixes, categorical corrections, target column for imbalance). It writes cleaned_data.csv and an EDA dashboard to output/eda/dashboard.html.


Using individual steps

Every stage is also a standalone function you can call directly โ€” useful for scripting or building your own non-interactive pipeline. These delegate to the Rust backend:

import polars as pl
import automatedcleaning as ac

df = ac.load_data("dataset.csv")

df = ac.detect_column_types_and_process_text(df)  # classify + clean text columns (Rust)
df = ac.handle_negative_values(df)                # negatives -> absolute values (Rust)
df = ac.replace_symbols(df)                       # strip $ โ‚น , - โ€ข  (Rust)
df = ac.handle_missing_values(df)                 # KNN impute + mode fill (Python/sklearn)
df = ac.handle_duplicates(df)                     # drop duplicate rows (Polars)
df = ac.remove_outliers(df)                       # IQR outlier removal (Rust)
df = ac.fix_skewness(df)                          # log-transform skewed columns (Rust)
df = ac.check_multicollinearity(df, threshold=0.7)# drop correlated features (Rust)
df, cardinality = ac.check_cardinality(df)        # report + drop constant columns
df = ac.fix_json_columns(df)                      # expand JSON columns (Rust detection)
df = ac.detect_and_mask_pii_polars(df)            # detect + mask PII (Presidio)
ac.generate_dashboard(df)                         # Plotly EDA dashboard
ac.save_cleaned_data(df, "cleaned_data.csv")

Text preprocessing on its own

ac.preprocess_text("I can't wait!! Visit https://x.co @bob ๐Ÿ˜€ it's GR8")
# -> 'cannot wait visit'

Additional cleaning steps (automatedcleaning.steps)

Beyond the core pipeline, ~45 focused, composable steps are available directly on ac.*. String-heavy ones (whitespace, Unicode NFKC, mojibake, disguised-missing, booleans) run in the Rust backend.

df = ac.standardize_column_names(df)          # trim/lowercase/snake_case/de-dupe
df = ac.drop_empty_rows_and_columns(df)
df = ac.drop_high_missing_columns(df, 0.5)
df = ac.remove_duplicate_columns(df)
df = ac.drop_id_like_columns(df)
df = ac.replace_disguised_missing(df, numeric_sentinels=[999, -1])  # "NA","?"โ€ฆ -> null (Rust)
df = ac.add_missing_indicators(df)
df = ac.impute_missing(df, numeric_strategy="mice")   # mean|median|knn|mice|interpolate|ffill|bfill
df = ac.normalize_whitespace(df)              # Rust
df = ac.normalize_unicode(df)                 # NFKC + control-char strip (Rust)
df = ac.fix_mojibake(df)                       # "รƒยฉ" -> "รฉ" (Rust)
df = ac.standardize_casing(df, {"name": "title"})
df = ac.parse_dates(df, ["signup"])           # -> native datetime
df = ac.extract_date_parts(df, ["signup"])    # year/month/day/weekday/quarter
df = ac.normalize_booleans(df, ["active"])    # yes/no/Y/N/1/0 -> bool (Rust)
df = ac.downcast_numeric(df)                  # int64->int32, etc.
df = ac.group_rare_categories(df, 0.01)
df = ac.fuzzy_cluster_categories(df)          # merge "New York"/"newyork" (rapidfuzz)
df = ac.encode_categorical(df, "onehot")      # onehot|label|frequency|ordinal|target
df = ac.remove_outliers_zscore(df)            # + _mad, _isolation_forest, _by_group
df = ac.winsorize(df)                          # cap instead of drop
df = ac.fuzzy_deduplicate(df, ["name","email"])
df = ac.scale_numeric(df, "standard")         # minmax|standard|robust
df = ac.bin_numeric(df, ["age"], bins=5)
df = ac.apply_range_rules(df, {"age": (0, 120)}, action="clip")
df = ac.validate_formats(df, {"email": "email", "phone": "phone"})
df = ac.normalize_phone_numbers(df, ["phone"], region="US")   # -> E.164
df = ac.normalize_emails(df, ["email"]); df = ac.canonicalize_urls(df, ["site"])

Steps that need optional libraries (detect_language, redact_profanity, correct_spelling_text) are installed via the extra:

pip install "AutomatedCleaning[text]"

Supported file formats

load_data() reads .csv, .tsv, .json, and .parquet (Excel must be converted first).


Requirements

  • Python โ‰ฅ 3.11
  • Key runtime deps (installed automatically): polars, pandas, numpy, pyarrow, nltk, scikit-learn, matplotlib, seaborn, missingno, plotly, pyfiglet, langchain-anthropic, presidio-analyzer, presidio-anonymizer
  • The automatic categorical spell-correction step optionally uses the Anthropic Claude API (you'll be prompted for a key); you can skip it or correct values manually.

Building & contributing

The project uses maturin as its build backend (pyproject.toml). See BUILD.md for the full architecture and build/publish guide.

Cargo.toml            # Rust crate config
src/
  lib.rs              # PyO3 module โ€” functions exposed to Python
  text.rs             # text preprocessing (contractions, regex, stopwords)
  stats.rs            # skewness, IQR, correlation, multicollinearity
automatedcleaning/    # Python frontend package

Cross-platform wheels are built and published to PyPI automatically via GitHub Actions (.github/workflows/CI.yml) on every tagged release (vX.Y.Z).


License

MIT ยฉ Abhishek Kumar Singh / DataSpoof

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