Merge pull request 'Implement base missing values strategies' (#3) from feature/missing-values into main

Reviewed-on: #3 Reviewed-by: Bastien OLLIER <bastien.ollier@noreply.codefirst.iut.uca.fr>
10 months ago · e255c67972
parent c1f5e55a0b 6dcca29cbd
commit e255c67972
4 changed files with 172 additions and 0 deletions
--- a/.gitignore
+++ b/.gitignore
@ -0,0 +1 @@
 __pycache__
--- a/frontend/exploration.py
+++ b/frontend/exploration.py
@ -13,6 +13,7 @@ uploaded_file = st.file_uploader("Upload your CSV file", type=["csv"])
 if uploaded_file is not None:
    st.session_state.data = pd.read_csv(uploaded_file)
    st.session_state.original_data = st.session_state.data
    st.success("File loaded successfully!")
--- a/frontend/normstrategy.py
+++ b/frontend/normstrategy.py
@ -0,0 +1,138 @@
 from abc import ABC, abstractmethod
 from pandas import DataFrame, Series
 from pandas.api.types import is_numeric_dtype
 from typing import Any, Union
 class DataFrameFunction(ABC):
    """A command that may be applied in-place to a dataframe."""
    @abstractmethod
    def apply(self, df: DataFrame, label: str, series: Series) -> DataFrame:
        """Apply the current function to the given dataframe, in-place.
        The series is described by its label and dataframe."""
        return df
 class MVStrategy(DataFrameFunction):
    """A way to handle missing values in a dataframe."""
    @staticmethod
    def list_available(df: DataFrame, series: Series) -> list['MVStrategy']:
        """Get all the strategies that can be used."""
        choices = [DropStrategy(), ModeStrategy()]
        if is_numeric_dtype(series):
            choices.extend((MeanStrategy(), MedianStrategy(), LinearRegressionStrategy()))
        return choices
 class ScalingStrategy(DataFrameFunction):
    """A way to handle missing values in a dataframe."""
    @staticmethod
    def list_available(df: DataFrame, series: Series) -> list['MVStrategy']:
        """Get all the strategies that can be used."""
        choices = [KeepStrategy()]
        if is_numeric_dtype(series):
            choices.extend((MinMaxStrategy(), ZScoreStrategy()))
            if series.sum() != 0:
                choices.append(UnitLengthStrategy())
        return choices
 class DropStrategy(MVStrategy):
    #@typing.override
    def apply(self, df: DataFrame, label: str, series: Series) -> DataFrame:
        df.dropna(subset=label, inplace=True)
        return df
    def __str__(self) -> str:
        return "Drop"
 class PositionStrategy(MVStrategy):
    #@typing.override
    def apply(self, df: DataFrame, label: str, series: Series) -> DataFrame:
        series.fillna(self.get_value(series), inplace=True)
        return df
    @abstractmethod
    def get_value(self, series: Series) -> Any:
        pass
 class MeanStrategy(PositionStrategy):
    #@typing.override
    def get_value(self, series: Series) -> Union[int, float]:
        return series.mean()
    def __str__(self) -> str:
        return "Use mean"
 class MedianStrategy(PositionStrategy):
    #@typing.override
    def get_value(self, series: Series) -> Union[int, float]:
        return series.median()
    def __str__(self) -> str:
        return "Use median"
 class ModeStrategy(PositionStrategy):
    #@typing.override
    def get_value(self, series: Series) -> Any:
        return series.mode()[0]
    def __str__(self) -> str:
        return "Use mode"
 class LinearRegressionStrategy(MVStrategy):
    def apply(self, df: DataFrame, label: str, series: Series) -> DataFrame:
        series.interpolate(inplace=True)
        return df
    def __str__(self) -> str:
        return "Use linear regression"
 class KeepStrategy(ScalingStrategy):
    #@typing.override
    def apply(self, df: DataFrame, label: str, series: Series) -> DataFrame:
        return df
    def __str__(self) -> str:
        return "No-op"
 class MinMaxStrategy(ScalingStrategy):
    #@typing.override
    def apply(self, df: DataFrame, label: str, series: Series) -> DataFrame:
        minimum = series.min()
        maximum = series.max()
        df[label] = (series - minimum) / (maximum - minimum)
        return df
    def __str__(self) -> str:
        return "Min-max"
 class ZScoreStrategy(ScalingStrategy):
    #@typing.override
    def apply(self, df: DataFrame, label: str, series: Series) -> DataFrame:
        df[label] = (series - series.mean()) / series.std()
        return df
    def __str__(self) -> str:
        return "Z-Score"
 class UnitLengthStrategy(ScalingStrategy):
    #@typing.override
    def apply(self, df: DataFrame, label: str, series: Series) -> DataFrame:
        df[label] = series / series.sum()
        return df
    def __str__(self) -> str:
        return "Unit length"
--- a/frontend/pages/normalization.py
+++ b/frontend/pages/normalization.py
@ -0,0 +1,32 @@
 import streamlit as st
 from normstrategy import MVStrategy, ScalingStrategy
 if "data" in st.session_state:
    data = st.session_state.original_data
    st.session_state.original_data = data.copy()
    for column, series in data.items():
        col1, col2 = st.columns(2)
        missing_count = series.isna().sum()
        choices = MVStrategy.list_available(data, series)
        option = col1.selectbox(
            f"Missing values of {column} ({missing_count})",
            choices,
            index=1,
            key=f"mv-{column}",
        )
        # Always re-get the series to avoid reusing an invalidated series pointer
        data = option.apply(data, column, data[column])
        choices = ScalingStrategy.list_available(data, series)
        option = col2.selectbox(
            "Scaling",
            choices,
            key=f"scaling-{column}",
        )
        data = option.apply(data, column, data[column])
    st.write(data)
    st.session_state.data = data
 else:
    st.error("file not loaded")