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| # -*- coding: utf-8 -*- | |
| # | |
| # PROJECT: CognitiveEDA - The AI-Augmented Data Discovery Platform | |
| # | |
| # SETUP: This application has external dependencies. Before running, install | |
| # all required packages using the requirements.txt file: | |
| # $ pip install -r requirements.txt | |
| # | |
| # AUTHOR: An MCP Expert in Data & AI Solutions | |
| # VERSION: 3.2 (Enterprise Edition) | |
| # LAST-UPDATE: 2023-10-28 (Fixed NameError scope issue in main analysis function) | |
| from __future__ import annotations | |
| import warnings | |
| import logging | |
| import os | |
| import sys | |
| import importlib.util | |
| from datetime import datetime | |
| from typing import Any, Dict, List, Optional, Tuple | |
| import gradio as gr | |
| import numpy as np | |
| import pandas as pd | |
| import plotly.express as px | |
| import plotly.graph_objects as go | |
| import google.generativeai as genai | |
| # --- Configuration & Constants --- | |
| # (No changes here) | |
| logging.basicConfig( | |
| level=logging.INFO, | |
| format='%(asctime)s - [%(levelname)s] - (%(filename)s:%(lineno)d) - %(message)s' | |
| ) | |
| warnings.filterwarnings('ignore', category=FutureWarning) | |
| class Config: | |
| APP_TITLE = "π CognitiveEDA: AI-Augmented Data Discovery Platform" | |
| GEMINI_MODEL = 'gemini-1.5-flash-latest' | |
| CORR_THRESHOLD = 0.75 | |
| TOP_N_CATEGORIES = 10 | |
| # --- Core Analysis Engine --- | |
| # (No changes here) | |
| class DataAnalyzer: | |
| def __init__(self, df: pd.DataFrame): | |
| if not isinstance(df, pd.DataFrame): | |
| raise TypeError("Input must be a pandas DataFrame.") | |
| self.df = df | |
| self._metadata: Optional[Dict[str, Any]] = None | |
| logging.info(f"DataAnalyzer instantiated with DataFrame of shape: {self.df.shape}") | |
| def metadata(self) -> Dict[str, Any]: | |
| if self._metadata is None: | |
| logging.info("First access to metadata, performing extraction...") | |
| self._metadata = self._extract_metadata() | |
| return self._metadata | |
| def _extract_metadata(self) -> Dict[str, Any]: | |
| rows, cols = self.df.shape | |
| numeric_cols = self.df.select_dtypes(include=np.number).columns.tolist() | |
| categorical_cols = self.df.select_dtypes(include=['object', 'category']).columns.tolist() | |
| high_corr_pairs = [] | |
| if len(numeric_cols) > 1: | |
| corr_matrix = self.df[numeric_cols].corr().abs() | |
| upper_tri = corr_matrix.where(np.triu(np.ones(corr_matrix.shape), k=1).astype(bool)) | |
| high_corr_series = upper_tri.stack() | |
| high_corr_pairs = ( | |
| high_corr_series[high_corr_series > Config.CORR_THRESHOLD] | |
| .reset_index() | |
| .rename(columns={'level_0': 'Feature 1', 'level_1': 'Feature 2', 0: 'Correlation'}) | |
| .to_dict('records') | |
| ) | |
| return { | |
| 'shape': (rows, cols), 'columns': self.df.columns.tolist(), | |
| 'numeric_cols': numeric_cols, 'categorical_cols': categorical_cols, | |
| 'memory_usage_mb': f"{self.df.memory_usage(deep=True).sum() / 1e6:.2f}", | |
| 'total_missing': int(self.df.isnull().sum().sum()), | |
| 'data_quality_score': round((self.df.notna().sum().sum() / self.df.size) * 100, 2), | |
| 'high_corr_pairs': high_corr_pairs, | |
| } | |
| def get_profiling_tables(self) -> Tuple[pd.DataFrame, pd.DataFrame, pd.DataFrame]: | |
| logging.info("Generating profiling tables for missing, numeric, and categorical data.") | |
| missing = self.df.isnull().sum() | |
| missing_df = pd.DataFrame({ | |
| 'Missing Count': missing, 'Missing Percentage (%)': (missing / len(self.df) * 100).round(2) | |
| }).reset_index().rename(columns={'index': 'Column'}).sort_values('Missing Count', ascending=False) | |
| numeric_stats = self.df[self.metadata['numeric_cols']].describe(percentiles=[.01, .25, .5, .75, .99]).T | |
| numeric_stats_df = numeric_stats.round(3).reset_index().rename(columns={'index': 'Column'}) | |
| cat_stats = self.df[self.metadata['categorical_cols']].describe(include=['object', 'category']).T | |
| cat_stats_df = cat_stats.reset_index().rename(columns={'index': 'Column'}) | |
| return missing_df, numeric_stats_df, cat_stats_df | |
| def get_overview_visuals(self) -> Tuple[go.Figure, go.Figure, go.Figure]: | |
| logging.info("Generating overview visualizations (types, missing data, correlation).") | |
| meta = self.metadata | |
| dtype_counts = self.df.dtypes.astype(str).value_counts() | |
| fig_types = px.pie(values=dtype_counts.values, names=dtype_counts.index, title="<b>π Data Type Composition</b>", hole=0.4, color_discrete_sequence=px.colors.qualitative.Pastel) | |
| fig_types.update_traces(textposition='outside', textinfo='percent+label') | |
| missing_df = self.df.isnull().sum().reset_index(name='count').query('count > 0') | |
| fig_missing = px.bar(missing_df, x='index', y='count', title="<b>π³οΈ Missing Values Distribution</b>", labels={'index': 'Column Name', 'count': 'Number of Missing Values'}).update_xaxes(categoryorder="total descending") | |
| fig_corr = go.Figure() | |
| if len(meta['numeric_cols']) > 1: | |
| corr_matrix = self.df[meta['numeric_cols']].corr() | |
| fig_corr = px.imshow(corr_matrix, text_auto=".2f", aspect="auto", title=f"<b>π Correlation Matrix (Threshold > {Config.CORR_THRESHOLD})</b>", color_continuous_scale='RdBu_r', zmin=-1, zmax=1) | |
| else: | |
| fig_corr.update_layout(title="<b>π Correlation Matrix (Insufficient Numeric Data)</b>") | |
| return fig_types, fig_missing, fig_corr | |
| def generate_ai_narrative(self, api_key: str) -> str: | |
| logging.info("Generating AI narrative with the Gemini API.") | |
| meta = self.metadata | |
| data_snippet_md = self.df.head(5).to_markdown(index=False) | |
| prompt = f""" | |
| As "Cognitive Analyst," an elite AI data scientist, your task is to generate a comprehensive, multi-part data discovery report. | |
| Analyze the following dataset context and produce a professional, insightful, and clear analysis in Markdown format. | |
| **DATASET CONTEXT:** | |
| - **Shape:** {meta['shape'][0]} rows, {meta['shape'][1]} columns. | |
| - **Column Schema:** | |
| - Numeric: {', '.join(meta['numeric_cols']) if meta['numeric_cols'] else 'None'} | |
| - Categorical: {', '.join(meta['categorical_cols']) if meta['categorical_cols'] else 'None'} | |
| - **Data Quality Score:** {meta['data_quality_score']}% (Percentage of non-missing cells) | |
| - **Total Missing Values:** {meta['total_missing']:,} | |
| - **High-Correlation Pairs (>{Config.CORR_THRESHOLD}):** {meta['high_corr_pairs'] if meta['high_corr_pairs'] else 'None detected.'} | |
| - **Data Snippet (First 5 Rows):** | |
| {data_snippet_md} | |
| **REQUIRED REPORT STRUCTURE (Strictly use this Markdown format):** | |
| ... | |
| """ | |
| try: | |
| genai.configure(api_key=api_key) | |
| model = genai.GenerativeModel(Config.GEMINI_MODEL) | |
| response = model.generate_content(prompt) | |
| return response.text | |
| except Exception as e: | |
| logging.error(f"Gemini API call failed: {e}", exc_info=True) | |
| error_message = ("β **AI Report Generation Failed**\n\n" f"**Error Details:** `{str(e)}`\n\n" "**Troubleshooting Steps:**\n" "1. Verify that your Google Gemini API key is correct and active.\n" "2. Check your network connection and firewall settings.\n" "3. Ensure the Gemini API is not experiencing an outage.") | |
| return error_message | |
| # --- Gradio UI & Event Handlers --- | |
| # (No changes here) | |
| def create_ui(): | |
| def create_histogram(analyzer: DataAnalyzer, col: str) -> go.Figure: | |
| if not col or not analyzer: return go.Figure() | |
| return px.histogram(analyzer.df, x=col, title=f"<b>Distribution of {col}</b>", marginal="box", template="plotly_white") | |
| def create_scatterplot(analyzer: DataAnalyzer, x_col: str, y_col:str, color_col:str) -> go.Figure: | |
| if not all([analyzer, x_col, y_col]): return go.Figure() | |
| return px.scatter(analyzer.df, x=x_col, y=y_col, color=color_col, title=f"<b>Scatter Plot: {x_col} vs. {y_col}</b>", template="plotly_white", color_continuous_scale=px.colors.sequential.Viridis) | |
| def analyze_single_column(analyzer: DataAnalyzer, col: str) -> Tuple[str, go.Figure]: | |
| if not col or not analyzer: return "", go.Figure() | |
| series = analyzer.df[col] | |
| stats_md = f"### π **Deep Dive: `{col}`**\n- **Data Type:** `{series.dtype}`\n- **Unique Values:** `{series.nunique()}`\n- **Missing:** `{series.isnull().sum()}` ({series.isnull().mean():.2%})\n" | |
| fig = go.Figure() | |
| if pd.api.types.is_numeric_dtype(series): | |
| stats_md += f"- **Mean:** `{series.mean():.3f}` | **Std Dev:** `{series.std():.3f}`\n- **Median:** `{series.median():.3f}` | **Min:** `{series.min():.3f}` | **Max:** `{series.max():.3f}`\n" | |
| fig = create_histogram(analyzer, col) | |
| else: | |
| top_n = series.value_counts().nlargest(Config.TOP_N_CATEGORIES) | |
| stats_md += f"- **Top Value:** `{top_n.index[0]}` ({top_n.iloc[0]} occurrences)\n" | |
| fig = px.bar(top_n, y=top_n.index, x=top_n.values, orientation='h', title=f"<b>Top {Config.TOP_N_CATEGORIES} Categories in `{col}`</b>", labels={'y': col, 'x': 'Count'}, template="plotly_white").update_yaxes(categoryorder="total ascending") | |
| return stats_md, fig | |
| with gr.Blocks(theme=gr.themes.Soft(primary_hue="blue", secondary_hue="cyan"), title=Config.APP_TITLE) as demo: | |
| state_analyzer = gr.State() | |
| gr.Markdown(f"<h1>{Config.APP_TITLE}</h1>") | |
| gr.Markdown("Upload a CSV file, provide your Gemini API key, and receive an instant, AI-driven analysis of your data.") | |
| with gr.Row(): | |
| upload_button = gr.File(label="1. Upload CSV File", file_types=[".csv"], scale=3) | |
| api_key_input = gr.Textbox(label="2. Enter Google Gemini API Key", type="password", scale=2) | |
| analyze_button = gr.Button("β¨ Generate Analysis", variant="primary", scale=1, min_width=150) | |
| with gr.Tabs(): | |
| with gr.Tab("π€ AI Narrative"): | |
| ai_report_output = gr.Markdown("Your AI-generated report will appear here...") | |
| download_report_button = gr.Button("β¬οΈ Download Full Report", visible=False) | |
| with gr.Tab("Profile"): | |
| profile_missing_df = gr.DataFrame(interactive=False, label="Missing Values") | |
| profile_numeric_df = gr.DataFrame(interactive=False, label="Numeric Stats") | |
| profile_categorical_df = gr.DataFrame(interactive=False, label="Categorical Stats") | |
| with gr.Tab("π Overview Visuals"): | |
| with gr.Row(): | |
| plot_types, plot_missing = gr.Plot(), gr.Plot() | |
| plot_correlation = gr.Plot() | |
| with gr.Tab("π¨ Interactive Explorer"): | |
| with gr.Row(equal_height=False): | |
| with gr.Column(scale=1): | |
| dd_hist_col = gr.Dropdown(label="Select Column for Histogram", visible=False) | |
| with gr.Column(scale=2): | |
| plot_histogram = gr.Plot() | |
| with gr.Row(equal_height=False): | |
| with gr.Column(scale=1): | |
| dd_scatter_x, dd_scatter_y, dd_scatter_color = gr.Dropdown(label="X-Axis (Numeric)", visible=False), gr.Dropdown(label="Y-Axis (Numeric)", visible=False), gr.Dropdown(label="Color By (Optional)", visible=False) | |
| with gr.Column(scale=2): | |
| plot_scatter = gr.Plot() | |
| with gr.Tab("π Column Deep-Dive"): | |
| dd_drilldown_col = gr.Dropdown(label="Select Column to Analyze", visible=False) | |
| with gr.Row(): | |
| md_drilldown_stats, plot_drilldown = gr.Markdown(), gr.Plot() | |
| gr.HTML("""<div style="text-align: center; margin-top: 20px; font-family: sans-serif; color: #777;"><p>π‘ Need an API key? Get one from <a href="https://aistudio.google.com/app/apikey" target="_blank">Google AI Studio</a>.</p><p>CognitiveEDA v3.2 | An MCP Expert System</p></div>""") | |
| outputs_for_main_analysis = [state_analyzer, ai_report_output, download_report_button, profile_missing_df, profile_numeric_df, profile_categorical_df, plot_types, plot_missing, plot_correlation, dd_hist_col, dd_scatter_x, dd_scatter_y, dd_scatter_color, dd_drilldown_col] | |
| analyze_button.click(fn=run_full_analysis, inputs=[upload_button, api_key_input], outputs=outputs_for_main_analysis) | |
| dd_hist_col.change(fn=create_histogram, inputs=[state_analyzer, dd_hist_col], outputs=plot_histogram) | |
| scatter_inputs = [state_analyzer, dd_scatter_x, dd_scatter_y, dd_scatter_color] | |
| for dd in [dd_scatter_x, dd_scatter_y, dd_scatter_color]: | |
| dd.change(fn=create_scatterplot, inputs=scatter_inputs, outputs=plot_scatter) | |
| dd_drilldown_col.change(fn=analyze_single_column, inputs=[state_analyzer, dd_drilldown_col], outputs=[md_drilldown_stats, plot_drilldown]) | |
| download_report_button.click(fn=download_report_file, inputs=[state_analyzer, ai_report_output], outputs=gr.File(label="Download Report")) | |
| return demo | |
| # --- Main Application Logic --- | |
| ### THIS IS THE CORRECTED FUNCTION ### | |
| def run_full_analysis(file_obj: gr.File, api_key: str) -> list: | |
| """ | |
| Orchestrates the entire analysis pipeline upon button click. | |
| Returns a list of values to update all relevant UI components. | |
| """ | |
| if file_obj is None: | |
| raise gr.Error("CRITICAL: No file uploaded. Please select a CSV file.") | |
| if not api_key: | |
| raise gr.Error("CRITICAL: Gemini API key is missing. Please provide your key.") | |
| try: | |
| logging.info(f"Processing uploaded file: {file_obj.name}") | |
| df = pd.read_csv(file_obj.name) | |
| analyzer = DataAnalyzer(df) | |
| ai_report = analyzer.generate_ai_narrative(api_key) | |
| missing_df, num_df, cat_df = analyzer.get_profiling_tables() | |
| fig_types, fig_missing, fig_corr = analyzer.get_overview_visuals() | |
| meta = analyzer.metadata | |
| all_cols, num_cols = meta['columns'], meta['numeric_cols'] | |
| # Return a LIST of values in the same order as the 'outputs' list | |
| return [ | |
| analyzer, | |
| ai_report, | |
| gr.Button(visible=True), | |
| missing_df, | |
| num_df, | |
| cat_df, | |
| fig_types, | |
| fig_missing, | |
| fig_corr, | |
| gr.Dropdown(choices=num_cols, label="Select Numeric Column", visible=True), | |
| gr.Dropdown(choices=num_cols, label="X-Axis (Numeric)", visible=True), | |
| gr.Dropdown(choices=num_cols, label="Y-Axis (Numeric)", visible=True), | |
| gr.Dropdown(choices=all_cols, label="Color By (Optional)", visible=True), | |
| gr.Dropdown(choices=all_cols, label="Select Column to Analyze", visible=True) | |
| ] | |
| except Exception as e: | |
| logging.error(f"A critical error occurred during file processing: {e}", exc_info=True) | |
| raise gr.Error(f"Analysis Failed! The process stopped due to: {str(e)}") | |
| # (No changes to other functions) | |
| def download_report_file(analyzer: DataAnalyzer, ai_report_text: str) -> Optional[str]: | |
| if not analyzer: | |
| logging.warning("Download attempted without a valid analyzer object.") | |
| return None | |
| filename = f"CognitiveEDA_Report_{datetime.now().strftime('%Y%m%d_%H%M%S')}.md" | |
| meta = analyzer.metadata | |
| full_report = f"# CognitiveEDA - Data Discovery Report\n**Generated:** {datetime.now().strftime('%Y-%m-%d %H:%M:%S')}\n\n## Dataset Overview\n- **Shape:** {meta['shape'][0]} rows x {meta['shape'][1]} columns\n- **Memory Footprint:** {meta['memory_usage_mb']} MB\n- **Data Quality Score:** {meta['data_quality_score']}%\n\n---\n\n{ai_report_text}" | |
| with open(filename, "w", encoding="utf-8") as f: | |
| f.write(full_report) | |
| logging.info(f"Report file generated successfully: {filename}") | |
| return filename | |
| def perform_pre_flight_checks(): | |
| logging.info("Performing pre-flight dependency checks...") | |
| required_packages = ["pandas", "gradio", "plotly", "google.generativeai", "tabulate"] | |
| missing_packages = [pkg for pkg in required_packages if importlib.util.find_spec(pkg) is None] | |
| if missing_packages: | |
| logging.critical(f"Missing critical packages: {', '.join(missing_packages)}") | |
| print("\n" + "="*80 + "\nERROR: Your environment is missing critical dependencies.\n" + f"Missing package(s): {', '.join(missing_packages)}\n" + "Please install all required packages using the requirements.txt file:\n" + "pip install -r requirements.txt\n" + "="*80 + "\n") | |
| sys.exit(1) | |
| logging.info("All dependencies are satisfied. Proceeding with launch.") | |
| if __name__ == "__main__": | |
| perform_pre_flight_checks() | |
| app_instance = create_ui() | |
| app_instance.launch(debug=True, server_name="0.0.0.0") |