harvard-art-museums-data-engineering-pipeline
Build end-to-end data engineering pipelines with Harvard Art Museums API, ETL, SQL analytics, and Streamlit dashboards
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This skill provides a data engineering pipeline for the Harvard Art Museums API. It involves cloning a GitHub repository from an unverified third-party source and performing database operations using Python and SQL.
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What does this agent skill do?
Harvard Art Museums Data Engineering Pipeline
Skill by ara.so — Data Skills collection.
What This Project Does
The Harvard-Artifacts-Collection-Data-Engineering-Analytics-App is a complete data engineering solution that demonstrates:
- API Integration: Fetching artifact data from Harvard Art Museums API with pagination and rate limiting
- ETL Pipeline: Extracting, transforming, and loading nested JSON into normalized SQL tables
- Database Design: Multi-table relational schema with proper foreign keys
- SQL Analytics: 20+ predefined analytical queries for insights
- Interactive Visualization: Streamlit dashboards with Plotly charts
This project serves as a reference architecture for building production-grade data pipelines.
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:
streamlit
pandas
requests
mysql-connector-python
plotly
python-dotenv
Configuration
Environment Variables
Create a .env file in the project root:
# Harvard Art Museums API
HARVARD_API_KEY=your_api_key_here
# Database Configuration
DB_HOST=your_db_host
DB_PORT=3306
DB_USER=your_db_user
DB_PASSWORD=your_db_password
DB_NAME=harvard_artifacts
Getting Harvard API Key
- Visit https://www.harvardartmuseums.org/collections/api
- Request an API key (free for non-commercial use)
- Add to
.envfile
Database Setup
The application supports MySQL and TiDB Cloud. Create the database:
CREATE DATABASE harvard_artifacts;
USE harvard_artifacts;
Tables are created automatically by the ETL pipeline.
Running the Application
# Start Streamlit dashboard
streamlit run app.py
The app will be available at http://localhost:8501
Core Components
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 Art Museums API"""
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)
response.raise_for_status()
data = response.json()
return data['records'], data['info']
# Fetch multiple pages with pagination
all_artifacts = []
page = 1
max_pages = 5
while page <= max_pages:
records, info = fetch_artifacts(page=page)
all_artifacts.extend(records)
print(f"Fetched page {page}/{info['pages']}")
page += 1
2. ETL Pipeline
Extract and Transform:
import pandas as pd
def transform_artifact_metadata(artifacts):
"""Transform artifact JSON to normalized metadata table"""
metadata = []
for artifact in artifacts:
metadata.append({
'objectid': artifact.get('objectid'),
'title': artifact.get('title'),
'culture': artifact.get('culture'),
'period': artifact.get('period'),
'century': artifact.get('century'),
'classification': artifact.get('classification'),
'medium': artifact.get('medium'),
'dimensions': artifact.get('dimensions'),
'dated': artifact.get('dated'),
'department': artifact.get('department'),
'division': artifact.get('division'),
'creditline': artifact.get('creditline'),
'accessionyear': artifact.get('accessionyear')
})
return pd.DataFrame(metadata)
def transform_artifact_media(artifacts):
"""Transform media/images into separate table"""
media = []
for artifact in artifacts:
objectid = artifact.get('objectid')
images = artifact.get('images', [])
for img in images:
media.append({
'objectid': objectid,
'imageid': img.get('imageid'),
'baseimageurl': img.get('baseimageurl'),
'width': img.get('width'),
'height': img.get('height'),
'format': img.get('format')
})
return pd.DataFrame(media)
def transform_artifact_colors(artifacts):
"""Transform color data into separate table"""
colors = []
for artifact in artifacts:
objectid = artifact.get('objectid')
color_list = artifact.get('colors', [])
for color in color_list:
colors.append({
'objectid': objectid,
'color': color.get('color'),
'spectrum': color.get('spectrum'),
'hue': color.get('hue'),
'percent': color.get('percent')
})
return pd.DataFrame(colors)
Load to Database:
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=os.getenv('DB_PORT'),
user=os.getenv('DB_USER'),
password=os.getenv('DB_PASSWORD'),
database=os.getenv('DB_NAME')
)
def create_tables(connection):
"""Create database schema"""
cursor = connection.cursor()
# Artifact metadata table
cursor.execute("""
CREATE TABLE IF NOT EXISTS artifactmetadata (
objectid INT PRIMARY KEY,
title TEXT,
culture VARCHAR(255),
period VARCHAR(255),
century VARCHAR(100),
classification VARCHAR(255),
medium TEXT,
dimensions TEXT,
dated VARCHAR(255),
department VARCHAR(255),
division VARCHAR(255),
creditline TEXT,
accessionyear INT
)
""")
# Media table
cursor.execute("""
CREATE TABLE IF NOT EXISTS artifactmedia (
id INT AUTO_INCREMENT PRIMARY KEY,
objectid INT,
imageid INT,
baseimageurl TEXT,
width INT,
height INT,
format VARCHAR(50),
FOREIGN KEY (objectid) REFERENCES artifactmetadata(objectid)
)
""")
# Colors table
cursor.execute("""
CREATE TABLE IF NOT EXISTS artifactcolors (
id INT AUTO_INCREMENT PRIMARY KEY,
objectid INT,
color VARCHAR(50),
spectrum VARCHAR(50),
hue VARCHAR(50),
percent FLOAT,
FOREIGN KEY (objectid) REFERENCES artifactmetadata(objectid)
)
""")
connection.commit()
def load_dataframe_to_sql(df, table_name, connection):
"""Batch insert DataFrame into SQL table"""
cursor = connection.cursor()
cols = ','.join(df.columns)
placeholders = ','.join(['%s'] * len(df.columns))
insert_query = f"INSERT IGNORE INTO {table_name} ({cols}) VALUES ({placeholders})"
data_tuples = [tuple(row) for row in df.values]
cursor.executemany(insert_query, data_tuples)
connection.commit()
print(f"Loaded {cursor.rowcount} rows into {table_name}")
3. Complete ETL Execution
def run_etl_pipeline():
"""Execute complete ETL pipeline"""
# Extract
print("Extracting data from API...")
all_artifacts = []
for page in range(1, 6): # Fetch 5 pages
records, _ = fetch_artifacts(page=page)
all_artifacts.extend(records)
# Transform
print("Transforming data...")
df_metadata = transform_artifact_metadata(all_artifacts)
df_media = transform_artifact_media(all_artifacts)
df_colors = transform_artifact_colors(all_artifacts)
# Load
print("Loading to database...")
connection = get_db_connection()
create_tables(connection)
load_dataframe_to_sql(df_metadata, 'artifactmetadata', connection)
load_dataframe_to_sql(df_media, 'artifactmedia', connection)
load_dataframe_to_sql(df_colors, 'artifactcolors', connection)
connection.close()
print("ETL pipeline complete!")
if __name__ == "__main__":
run_etl_pipeline()
4. SQL Analytics Queries
def execute_analytics_query(query_name):
"""Execute predefined analytics queries"""
queries = {
'top_cultures': """
SELECT culture, COUNT(*) as artifact_count
FROM artifactmetadata
WHERE culture IS NOT NULL
GROUP BY culture
ORDER BY artifact_count DESC
LIMIT 10
""",
'artifacts_by_century': """
SELECT century, COUNT(*) as count
FROM artifactmetadata
WHERE century IS NOT NULL
GROUP BY century
ORDER BY count DESC
""",
'media_availability': """
SELECT
COUNT(DISTINCT am.objectid) as artifacts_with_media,
(SELECT COUNT(*) FROM artifactmetadata) as total_artifacts,
ROUND(COUNT(DISTINCT am.objectid) * 100.0 /
(SELECT COUNT(*) FROM artifactmetadata), 2) as percentage
FROM artifactmedia am
""",
'top_colors': """
SELECT color, COUNT(*) as usage_count, AVG(percent) as avg_percent
FROM artifactcolors
WHERE color IS NOT NULL
GROUP BY color
ORDER BY usage_count DESC
LIMIT 15
""",
'department_distribution': """
SELECT department, COUNT(*) as count
FROM artifactmetadata
WHERE department IS NOT NULL
GROUP BY department
ORDER BY count DESC
""",
'artifacts_with_accession_year': """
SELECT accessionyear, COUNT(*) as count
FROM artifactmetadata
WHERE accessionyear IS NOT NULL
GROUP BY accessionyear
ORDER BY accessionyear DESC
LIMIT 20
"""
}
connection = get_db_connection()
cursor = connection.cursor(dictionary=True)
cursor.execute(queries[query_name])
results = cursor.fetchall()
connection.close()
return pd.DataFrame(results)
5. Streamlit Dashboard
import streamlit as st
import plotly.express as px
def main():
st.title("🏛️ Harvard Art Museums Analytics Dashboard")
# Sidebar navigation
page = st.sidebar.selectbox(
"Select Page",
["ETL Pipeline", "SQL Analytics", "Visualizations"]
)
if page == "ETL Pipeline":
st.header("Extract, Transform, Load")
if st.button("Run ETL Pipeline"):
with st.spinner("Running ETL..."):
run_etl_pipeline()
st.success("ETL completed successfully!")
elif page == "SQL Analytics":
st.header("SQL Query Analytics")
query_options = {
"Top Cultures": "top_cultures",
"Artifacts by Century": "artifacts_by_century",
"Media Availability": "media_availability",
"Top Colors": "top_colors",
"Department Distribution": "department_distribution"
}
selected_query = st.selectbox("Select Query", list(query_options.keys()))
if st.button("Execute Query"):
df_results = execute_analytics_query(query_options[selected_query])
st.dataframe(df_results)
# Auto-generate visualization
if len(df_results.columns) >= 2:
fig = px.bar(
df_results,
x=df_results.columns[0],
y=df_results.columns[1],
title=selected_query
)
st.plotly_chart(fig)
elif page == "Visualizations":
st.header("Interactive Visualizations")
# Culture distribution
df_cultures = execute_analytics_query('top_cultures')
fig1 = px.pie(
df_cultures,
values='artifact_count',
names='culture',
title='Artifact Distribution by Culture'
)
st.plotly_chart(fig1)
# Color analysis
df_colors = execute_analytics_query('top_colors')
fig2 = px.bar(
df_colors,
x='color',
y='usage_count',
color='avg_percent',
title='Most Common Colors in Artifacts'
)
st.plotly_chart(fig2)
if __name__ == "__main__":
main()
Common Patterns
Rate Limiting API Requests
import time
def fetch_with_rate_limit(page, delay=0.5):
"""Fetch data with rate limiting"""
records, info = fetch_artifacts(page=page)
time.sleep(delay) # Respect API rate limits
return records, info
Incremental Data Loading
def get_latest_objectid(connection):
"""Get the latest objectid in database"""
cursor = connection.cursor()
cursor.execute("SELECT MAX(objectid) FROM artifactmetadata")
result = cursor.fetchone()
return result[0] if result[0] else 0
def incremental_etl(connection):
"""Load only new artifacts"""
latest_id = get_latest_objectid(connection)
# Fetch only artifacts with objectid > latest_id
# Process and load new records
pass
Error Handling in ETL
def safe_etl_pipeline():
"""ETL with error handling and logging"""
try:
connection = get_db_connection()
all_artifacts = []
for page in range(1, 6):
try:
records, _ = fetch_artifacts(page=page)
all_artifacts.extend(records)
except requests.exceptions.RequestException as e:
print(f"Error fetching page {page}: {e}")
continue
df_metadata = transform_artifact_metadata(all_artifacts)
load_dataframe_to_sql(df_metadata, 'artifactmetadata', connection)
except Error as e:
print(f"Database error: {e}")
finally:
if connection.is_connected():
connection.close()
Troubleshooting
API Key Issues
# Verify API key is loaded
import os
from dotenv import load_dotenv
load_dotenv()
api_key = os.getenv('HARVARD_API_KEY')
if not api_key:
raise ValueError("HARVARD_API_KEY not found in environment variables")
Database Connection Errors
# Test database connection
def test_db_connection():
try:
connection = get_db_connection()
if connection.is_connected():
print("✓ Database connection successful")
connection.close()
except Error as e:
print(f"✗ Database connection failed: {e}")
Missing Dependencies
# If import errors occur
pip install --upgrade streamlit pandas mysql-connector-python plotly requests python-dotenv
Streamlit Port Already in Use
# Run on different port
streamlit run app.py --server.port 8502
Large Dataset Memory Issues
# Use chunked processing
def chunked_etl(chunk_size=100):
"""Process data in chunks to manage memory"""
connection = get_db_connection()
for page in range(1, 50):
records, _ = fetch_artifacts(page=page, size=chunk_size)
df = transform_artifact_metadata(records)
load_dataframe_to_sql(df, 'artifactmetadata', connection)
connection.close()
This skill enables AI agents to help developers build complete data engineering pipelines using the Harvard Art Museums API, from data extraction through visualization.
How can the creator link this skill?
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.
<a href="https://skillzs.dev/skills/aradotso/data-skills/harvard-art-museums-data-engineering-pipeline">View harvard-art-museums-data-engineering-pipeline on skillZs</a>