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harvard-art-museum-data-engineering

ETL pipeline and analytics app for Harvard Art Museums API using Python, SQL, and Streamlit

How do I install this agent skill?

npx skills add https://github.com/aradotso/data-skills --skill harvard-art-museum-data-engineering
view source ↗

Is this agent skill safe to install?

  • Gen Agent Trust Hubpass

    This skill implements an end-to-end data engineering pipeline for the Harvard Art Museums API using Python, SQL, and Streamlit. It follows security best practices by recommending the use of environment variables for sensitive credentials and utilizes standard, well-known libraries for its data processing and visualization tasks.

  • Socketwarn

    1 alert: gptSecurity

  • Snykwarn

    Risk: MEDIUM · 1 issue

What does this agent skill do?

Harvard Art Museum Data Engineering Skill

Skill by ara.so — Data Skills collection.

Overview

This project provides an end-to-end data engineering solution for the Harvard Art Museums API. It implements a complete ETL pipeline that extracts artifact data, transforms it into relational tables, loads it into SQL databases (MySQL/TiDB), and provides interactive analytics dashboards using Streamlit.

Architecture Flow: API → ETL → SQL → Analytics → Visualization

Installation

# Clone the repository
git clone https://github.com/Manali0711/Harvard-Artifacts-Collection-Data-Engineering-Analytics-App.git
cd Harvard-Artifacts-Collection-Data-Engineering-Analytics-App

# Install dependencies
pip install -r requirements.txt

# Required packages
pip install streamlit pandas requests mysql-connector-python plotly python-dotenv

Configuration

Environment Variables

Create a .env file in the project root:

# Harvard API Configuration
HARVARD_API_KEY=your_api_key_here

# Database Configuration
DB_HOST=your_database_host
DB_PORT=3306
DB_USER=your_username
DB_PASSWORD=your_password
DB_NAME=harvard_artifacts

Getting Harvard API Key

  1. Visit: https://docs.api.harvardartmuseums.org/
  2. Register for a free API key
  3. Store it in your .env file

Database Schema

The project uses three main tables with relational structure:

-- Artifact Metadata Table
CREATE TABLE artifactmetadata (
    artifact_id INT PRIMARY KEY,
    title VARCHAR(500),
    culture VARCHAR(200),
    century VARCHAR(100),
    classification VARCHAR(200),
    department VARCHAR(200),
    division VARCHAR(200),
    technique VARCHAR(300),
    period VARCHAR(200),
    people VARCHAR(500),
    url TEXT,
    last_updated DATETIME
);

-- Artifact Media Table
CREATE TABLE artifactmedia (
    media_id INT AUTO_INCREMENT PRIMARY KEY,
    artifact_id INT,
    image_url TEXT,
    media_type VARCHAR(50),
    FOREIGN KEY (artifact_id) REFERENCES artifactmetadata(artifact_id)
);

-- Artifact Colors Table
CREATE TABLE artifactcolors (
    color_id INT AUTO_INCREMENT PRIMARY KEY,
    artifact_id INT,
    color_hex VARCHAR(10),
    color_percent DECIMAL(5,2),
    FOREIGN KEY (artifact_id) REFERENCES artifactmetadata(artifact_id)
);

Core Usage Patterns

1. API Data Extraction

import requests
import os
from dotenv import load_dotenv

load_dotenv()

def fetch_artifacts(page=1, size=100):
    """Fetch artifacts from Harvard API with pagination"""
    api_key = os.getenv('HARVARD_API_KEY')
    base_url = "https://api.harvardartmuseums.org/object"
    
    params = {
        'apikey': api_key,
        'page': page,
        'size': size,
        'hasimage': 1  # Only artifacts with images
    }
    
    response = requests.get(base_url, params=params)
    
    if response.status_code == 200:
        data = response.json()
        return data['records'], data['info']
    else:
        raise Exception(f"API Error: {response.status_code}")

# Fetch multiple pages
def collect_artifacts(total_records=500):
    """Collect artifacts with pagination handling"""
    all_artifacts = []
    page = 1
    page_size = 100
    
    while len(all_artifacts) < total_records:
        records, info = fetch_artifacts(page=page, size=page_size)
        all_artifacts.extend(records)
        
        if page >= info['pages']:
            break
        page += 1
    
    return all_artifacts[:total_records]

2. ETL Pipeline Implementation

import pandas as pd
from datetime import datetime

def transform_artifacts(raw_data):
    """Transform API JSON to relational DataFrames"""
    
    # Metadata transformation
    metadata_list = []
    media_list = []
    colors_list = []
    
    for artifact in raw_data:
        # Extract metadata
        metadata_list.append({
            'artifact_id': artifact.get('id'),
            'title': artifact.get('title', '')[:500],
            'culture': artifact.get('culture', '')[:200],
            'century': artifact.get('century', '')[:100],
            'classification': artifact.get('classification', '')[:200],
            'department': artifact.get('department', '')[:200],
            'division': artifact.get('division', '')[:200],
            'technique': artifact.get('technique', '')[:300],
            'period': artifact.get('period', '')[:200],
            'people': str(artifact.get('people', []))[:500],
            'url': artifact.get('url', ''),
            'last_updated': datetime.now()
        })
        
        # Extract media/images
        if 'images' in artifact and artifact['images']:
            for img in artifact['images']:
                media_list.append({
                    'artifact_id': artifact.get('id'),
                    'image_url': img.get('baseimageurl', ''),
                    'media_type': 'image'
                })
        
        # Extract colors
        if 'colors' in artifact and artifact['colors']:
            for color in artifact['colors']:
                colors_list.append({
                    'artifact_id': artifact.get('id'),
                    'color_hex': color.get('hex', ''),
                    'color_percent': color.get('percent', 0)
                })
    
    return (
        pd.DataFrame(metadata_list),
        pd.DataFrame(media_list),
        pd.DataFrame(colors_list)
    )

3. Database Loading

import mysql.connector
from mysql.connector import Error

def get_db_connection():
    """Create database connection"""
    return mysql.connector.connect(
        host=os.getenv('DB_HOST'),
        port=int(os.getenv('DB_PORT', 3306)),
        user=os.getenv('DB_USER'),
        password=os.getenv('DB_PASSWORD'),
        database=os.getenv('DB_NAME')
    )

def load_to_database(metadata_df, media_df, colors_df):
    """Batch insert data into SQL database"""
    
    conn = get_db_connection()
    cursor = conn.cursor()
    
    try:
        # Load metadata (with REPLACE to handle duplicates)
        metadata_query = """
        REPLACE INTO artifactmetadata 
        (artifact_id, title, culture, century, classification, 
         department, division, technique, period, people, url, last_updated)
        VALUES (%s, %s, %s, %s, %s, %s, %s, %s, %s, %s, %s, %s)
        """
        cursor.executemany(metadata_query, metadata_df.values.tolist())
        
        # Load media
        media_query = """
        INSERT INTO artifactmedia (artifact_id, image_url, media_type)
        VALUES (%s, %s, %s)
        """
        cursor.executemany(media_query, media_df.values.tolist())
        
        # Load colors
        colors_query = """
        INSERT INTO artifactcolors (artifact_id, color_hex, color_percent)
        VALUES (%s, %s, %s)
        """
        cursor.executemany(colors_query, colors_df.values.tolist())
        
        conn.commit()
        print(f"Loaded {len(metadata_df)} artifacts successfully")
        
    except Error as e:
        print(f"Database error: {e}")
        conn.rollback()
    finally:
        cursor.close()
        conn.close()

4. Analytics Queries

def execute_analytics_query(query):
    """Execute analytical SQL query and return DataFrame"""
    conn = get_db_connection()
    
    try:
        df = pd.read_sql(query, conn)
        return df
    except Error as e:
        print(f"Query error: {e}")
        return None
    finally:
        conn.close()

# Example analytics queries
ANALYTICS_QUERIES = {
    "Artifacts by Culture": """
        SELECT culture, COUNT(*) as artifact_count
        FROM artifactmetadata
        WHERE culture IS NOT NULL AND culture != ''
        GROUP BY culture
        ORDER BY artifact_count DESC
        LIMIT 15
    """,
    
    "Artifacts by Century": """
        SELECT century, COUNT(*) as count
        FROM artifactmetadata
        WHERE century IS NOT NULL AND century != ''
        GROUP BY century
        ORDER BY count DESC
        LIMIT 20
    """,
    
    "Department Distribution": """
        SELECT department, COUNT(*) as total_artifacts
        FROM artifactmetadata
        GROUP BY department
        ORDER BY total_artifacts DESC
    """,
    
    "Most Common Colors": """
        SELECT color_hex, COUNT(*) as usage_count,
               AVG(color_percent) as avg_percent
        FROM artifactcolors
        GROUP BY color_hex
        ORDER BY usage_count DESC
        LIMIT 20
    """,
    
    "Artifacts with Multiple Images": """
        SELECT m.title, m.culture, COUNT(media.media_id) as image_count
        FROM artifactmetadata m
        JOIN artifactmedia media ON m.artifact_id = media.artifact_id
        GROUP BY m.artifact_id, m.title, m.culture
        HAVING image_count > 1
        ORDER BY image_count DESC
        LIMIT 20
    """
}

5. Streamlit Dashboard

import streamlit as st
import plotly.express as px

def create_dashboard():
    """Main Streamlit dashboard application"""
    
    st.title("🏛️ Harvard Art Museums Analytics Dashboard")
    st.markdown("End-to-end data engineering and analytics application")
    
    # Sidebar for query selection
    st.sidebar.header("Analytics Options")
    query_name = st.sidebar.selectbox(
        "Select Analysis",
        list(ANALYTICS_QUERIES.keys())
    )
    
    # Execute query
    if st.sidebar.button("Run Analysis"):
        with st.spinner("Executing query..."):
            query = ANALYTICS_QUERIES[query_name]
            df = execute_analytics_query(query)
            
            if df is not None and not df.empty:
                st.success(f"Retrieved {len(df)} records")
                
                # Display table
                st.subheader("Query Results")
                st.dataframe(df)
                
                # Auto-generate visualization
                if len(df.columns) >= 2:
                    st.subheader("Visualization")
                    fig = px.bar(
                        df.head(20), 
                        x=df.columns[0], 
                        y=df.columns[1],
                        title=query_name
                    )
                    st.plotly_chart(fig, use_container_width=True)
                
                # Download option
                csv = df.to_csv(index=False)
                st.download_button(
                    label="Download CSV",
                    data=csv,
                    file_name=f"{query_name.replace(' ', '_')}.csv",
                    mime="text/csv"
                )

if __name__ == "__main__":
    create_dashboard()

Running the Application

# Start the Streamlit dashboard
streamlit run app.py

# Access at http://localhost:8501

Complete ETL Workflow

def run_complete_etl(num_artifacts=500):
    """Execute full ETL pipeline"""
    
    print("Step 1: Extracting data from Harvard API...")
    raw_data = collect_artifacts(total_records=num_artifacts)
    
    print("Step 2: Transforming data...")
    metadata_df, media_df, colors_df = transform_artifacts(raw_data)
    
    print("Step 3: Loading to database...")
    load_to_database(metadata_df, media_df, colors_df)
    
    print("ETL Pipeline completed successfully!")
    print(f"Loaded {len(metadata_df)} artifacts")
    print(f"Loaded {len(media_df)} media records")
    print(f"Loaded {len(colors_df)} color records")

# Run the pipeline
if __name__ == "__main__":
    run_complete_etl(num_artifacts=1000)

Common Troubleshooting

API Rate Limiting

import time

def fetch_with_retry(page, max_retries=3):
    """Fetch with exponential backoff"""
    for attempt in range(max_retries):
        try:
            return fetch_artifacts(page=page)
        except Exception as e:
            if attempt < max_retries - 1:
                wait_time = 2 ** attempt
                print(f"Retry {attempt + 1} after {wait_time}s...")
                time.sleep(wait_time)
            else:
                raise e

Database Connection Issues

def test_db_connection():
    """Test database connectivity"""
    try:
        conn = get_db_connection()
        cursor = conn.cursor()
        cursor.execute("SELECT 1")
        result = cursor.fetchone()
        print("✓ Database connection successful")
        conn.close()
        return True
    except Error as e:
        print(f"✗ Database connection failed: {e}")
        return False

Handling Missing Data

def safe_extract(artifact, field, default=''):
    """Safely extract nested fields"""
    try:
        value = artifact.get(field, default)
        return value if value is not None else default
    except (AttributeError, TypeError):
        return default

Best Practices

  1. Always use environment variables for sensitive credentials
  2. Implement pagination when fetching large datasets
  3. Use batch inserts for better database performance
  4. Handle API rate limits with retry logic
  5. Validate data before loading to database
  6. Create indexes on frequently queried columns
  7. Log ETL operations for debugging and monitoring

Add the canonical catalog link to the repository README so users can inspect current installs and available audits. The publishing guide covers the complete discovery path.

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