networkx
NetworkX is a Python package for creating, manipulating, and analyzing complex networks and graphs.
Documentation
NetworkX
Overview
NetworkX is a Python package for creating, manipulating, and analyzing complex networks and graphs. Use this skill when working with network or graph data structures, including social networks, biological networks, transportation systems, citation networks, knowledge graphs, or any system involving relationships between entities.
When to Use This Skill
Invoke this skill when tasks involve:
- Creating graphs: Building network structures from data, adding nodes and edges with attributes
- Graph analysis: Computing centrality measures, finding shortest paths, detecting communities, measuring clustering
- Graph algorithms: Running standard algorithms like Dijkstra's, PageRank, minimum spanning trees, maximum flow
- Network generation: Creating synthetic networks (random, scale-free, small-world models) for testing or simulation
- Graph I/O: Reading from or writing to various formats (edge lists, GraphML, JSON, CSV, adjacency matrices)
- Visualization: Drawing and customizing network visualizations with matplotlib or interactive libraries
- Network comparison: Checking isomorphism, computing graph metrics, analyzing structural properties
Core Capabilities
1. Graph Creation and Manipulation
NetworkX supports four main graph types:
- Graph: Undirected graphs with single edges
- DiGraph: Directed graphs with one-way connections
- MultiGraph: Undirected graphs allowing multiple edges between nodes
- MultiDiGraph: Directed graphs with multiple edges
Create graphs by:
import networkx as nx
# Create empty graph
G = nx.Graph()
# Add nodes (can be any hashable type)
G.add_node(1)
G.add_nodes_from([2, 3, 4])
G.add_node("protein_A", type='enzyme', weight=1.5)
# Add edges
G.add_edge(1, 2)
G.add_edges_from([(1, 3), (2, 4)])
G.add_edge(1, 4, weight=0.8, relation='interacts')
Reference: See references/graph-basics.md for comprehensive guidance on creating, modifying, examining, and managing graph structures, including working with attributes and subgraphs.
2. Graph Algorithms
NetworkX provides extensive algorithms for network analysis:
Shortest Paths:
# Find shortest path
path = nx.shortest_path(G, source=1, target=5)
length = nx.shortest_path_length(G, source=1, target=5, weight='weight')
Centrality Measures:
# Degree centrality
degree_cent = nx.degree_centrality(G)
# Betweenness centrality
betweenness = nx.betweenness_centrality(G)
# PageRank
pagerank = nx.pagerank(G)
Community Detection:
from networkx.algorithms import community
# Detect communities
communities = community.greedy_modularity_communities(G)
Connectivity:
# Check connectivity
is_connected = nx.is_connected(G)
# Find connected components
components = list(nx.connected_components(G))
Reference: See references/algorithms.md for detailed documentation on all available algorithms including shortest paths, centrality measures, clustering, community detection, flows, matching, tree algorithms, and graph traversal.
3. Graph Generators
Create synthetic networks for testing, simulation, or modeling:
Classic Graphs:
# Complete graph
G = nx.complete_graph(n=10)
# Cycle graph
G = nx.cycle_graph(n=20)
# Known graphs
G = nx.karate_club_graph()
G = nx.petersen_graph()
Random Networks:
# Erdős-Rényi random graph
G = nx.erdos_renyi_graph(n=100, p=0.1, seed=42)
# Barabási-Albert scale-free network
G = nx.barabasi_albert_graph(n=100, m=3, seed=42)
# Watts-Strogatz small-world network
G = nx.watts_strogatz_graph(n=100, k=6, p=0.1, seed=42)
Structured Networks:
# Grid graph
G = nx.grid_2d_graph(m=5, n=7)
# Random tree
G = nx.random_tree(n=100, seed=42)
Reference: See references/generators.md for comprehensive coverage of all graph generators including classic, random, lattice, bipartite, and specialized network models with detailed parameters and use cases.
4. Reading and Writing Graphs
NetworkX supports numerous file formats and data sources:
File Formats:
# Edge list
G = nx.read_edgelist('graph.edgelist')
nx.write_edgelist(G, 'graph.edgelist')
# GraphML (preserves attributes)
G = nx.read_graphml('graph.graphml')
nx.write_graphml(G, 'graph.graphml')
# GML
G = nx.read_gml('graph.gml')
nx.write_gml(G, 'graph.gml')
# JSON
data = nx.node_link_data(G)
G = nx.node_link_graph(data)
Pandas Integration:
import pandas as pd
# From DataFrame
df = pd.DataFrame({'source': [1, 2, 3], 'target': [2, 3, 4], 'weight': [0.5, 1.0, 0.75]})
G = nx.from_pandas_edgelist(df, 'source', 'target', edge_attr='weight')
# To DataFrame
df = nx.to_pandas_edgelist(G)
Matrix Formats:
import numpy as np
# Adjacency matrix
A = nx.to_numpy_array(G)
G = nx.from_numpy_array(A)
# Sparse matrix
A = nx.to_scipy_sparse_array(G)
G = nx.from_scipy_sparse_array(A)
Reference: See
Use Cases
- **Creating graphs**: Building network structures from data, adding nodes and edges with attributes
- **Graph analysis**: Computing centrality measures, finding shortest paths, detecting communities, measuring clustering
- **Graph algorithms**: Running standard algorithms like Dijkstra's, PageRank, minimum spanning trees, maximum flow
- **Network generation**: Creating synthetic networks (random, scale-free, small-world models) for testing or simulation
- **Graph I/O**: Reading from or writing to various formats (edge lists, GraphML, JSON, CSV, adjacency matrices)
Quick Info
- Source
- antigravity
- Category
- Document Processing
- Repository
- View Repo
- Scraped At
- Mar 7, 2026
Tags
Related Skills
007
Security audit, hardening, threat modeling (STRIDE/PASTA), Red/Blue Team, OWASP checks, code review, incident response, and infrastructure security for any project.
10-andruia-skill-smith
Ingeniero de Sistemas de Andru.ia. Diseña, redacta y despliega nuevas habilidades (skills) dentro del repositorio siguiendo el Estándar de Diamante.
2slides-ppt-generator
AI-powered presentation generation via the 2slides API — create slides from text, match a reference image style, summarize documents into decks, add AI voice narration, and export pages/audio. Use for any "make slides", "create a deck", or "slides from this document" request.