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Knowledge Graph - Tigergraph Connector
作者
Muhammad Asif
· GitHub ↗
· v1.0.0
· MIT-0
38
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0
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1
当前安装
1
版本数
在 OpenClaw 中安装
/install knowledge-graph-tigergraph-connector
功能描述
Connect to TigerGraph distributed graph database to query, load, and manage large-scale knowledge graph data using GSQL and REST++ APIs
使用说明 (SKILL.md)
TigerGraph Connector
Purpose
This skill enables comprehensive interaction with TigerGraph graph database for storing, querying, analyzing, and managing large-scale knowledge graph data.
TigerGraph is a high-performance distributed graph database platform optimized for:
- Large-scale graph analytics
- Real-time graph processing
- Advanced graph algorithms
- Distributed graph computing
- Enterprise-grade reliability
Key Capabilities
- Execute GSQL queries on TigerGraph instances
- Load vertices and edges via REST++ APIs
- Run built-in and custom graph algorithms
- Perform real-time graph analytics
- Manage graph schema and data
- Query result mapping to Python objects
- Batch data loading
- Performance optimization
When To Use This Skill
Use this skill when:
- Querying TigerGraph: Executing GSQL queries and algorithms
- Loading Data: Inserting vertices and edges into graph
- Graph Analytics: Running PageRank, community detection, etc.
- Large-Scale Graphs: Processing enterprise-scale knowledge graphs
- Real-Time Analysis: Performing real-time graph computations
- Pattern Matching: Finding complex patterns in graph data
Example Triggers
- "Execute this GSQL query"
- "Run PageRank algorithm"
- "Insert vertices into TigerGraph"
- "Find shortest path between nodes"
- "Detect communities in the graph"
- "Get graph statistics and metrics"
Connection Configuration
Connection Parameters
{
"host": "http://localhost",
"restpp_port": 9000,
"graph_name": "MyGraph",
"api_token": "your-api-token",
"timeout": 30,
"retry_count": 3
}
Configuration Details
| Parameter | Type | Default | Description |
|---|---|---|---|
| host | string | required | TigerGraph server URL |
| restpp_port | integer | 9000 | REST++ API port |
| graph_name | string | required | Graph name to work with |
| api_token | string | required | Authentication token |
| timeout | integer | 30 | Request timeout in seconds |
| retry_count | integer | 3 | Number of retries |
| username | string | optional | Alternative authentication |
| password | string | optional | Alternative authentication |
Authentication Methods
- API Token (preferred)
- Username/Password
- Custom headers
Core Concepts
GSQL (Graph Search Query Language)
- Turing-Complete: Supports complex computations
- Pattern Matching: Efficiently matches graph patterns
- Algorithm Support: Built-in library of graph algorithms
- Vertex/Edge Access: Direct access to graph structure
- Aggregation: Built-in aggregation functions
Example Query:
CREATE QUERY getNeighbors(VERTEX\x3CPerson> person) FOR GRAPH MyGraph {
Start = {person};
Result = SELECT t
FROM Start:s -(KNOWS:e)-> Person:t;
PRINT Result;
}
Graph Schema
Vertex Types
- Define entities in the graph
- Have properties (attributes)
- Can have primary keys
- Support custom data types
Edge Types
- Define relationships between vertices
- Support directional connections
- Have properties
- Can be undirected
Properties
- Store data on vertices/edges
- Multiple data types supported
- Can be indexed
- Support default values
REST++ APIs
- HTTP-based interface
- JSON request/response format
- RESTful endpoint design
- Real-time data loading
- Query execution
GSQL Query Patterns
Basic Query Structure
CREATE QUERY queryName(PARAMETERS) FOR GRAPH graphName {
// Variable declarations
// Pattern matching
// Aggregations
// Output
}
Vertex Pattern Matching
Query Single Vertex Type
Start = {Person.*};
Result = SELECT * FROM Start;
Query Multiple Vertex Types
Start = {Person.* UNION Company.*};
Result = SELECT * FROM Start;
Traversal Patterns
Single-Hop Traversal
Result = SELECT t
FROM Start:s -(KNOWS:e)-> Person:t;
Multi-Hop Traversal
Result = SELECT t
FROM Start:s -(KNOWS:e)-> Person:t -(WORKS_AT:e2)-> Company:c;
Variable-Length Traversal
Result = SELECT t
FROM Start:s -(KNOWS:e)->* Person:t;
Aggregation Patterns
Count Aggregation
Result = SELECT COUNT(DISTINCT t)
FROM Start:s -(KNOWS:e)-> Person:t;
Property Aggregation
Result = SELECT s.name, COUNT(DISTINCT t)
FROM Start:s -(KNOWS:e)-> Person:t
GROUP BY s.name;
Filtering Patterns
Where Clause
Result = SELECT *
FROM Start
WHERE age > 25 AND status == "active";
Having Clause
Result = SELECT s.name, COUNT(DISTINCT t) as cnt
FROM Start:s -(KNOWS:e)-> Person:t
GROUP BY s.name
HAVING cnt > 5;
Data Loading Operations
Insert Vertices
{
"vertices": {
"Person": {
"alice": {
"name": "Alice",
"age": 30,
"email": "[email protected]"
},
"bob": {
"name": "Bob",
"age": 25,
"email": "[email protected]"
}
}
}
}
Insert Edges
{
"edges": {
"Person": {
"alice": {
"KNOWS": {
"Person": {
"bob": {
"since": "2020-01-15"
}
}
}
}
}
}
}
Batch Loading
CSV File Loading
connector.load_from_csv(
file_path="data.csv",
vertex_type="Person",
mapping={"name": "Name", "age": "Age"}
)
Graph Algorithms
Built-In Algorithms
PageRank
RUN QUERY pagerank(max_iterations=100, damping_factor=0.85)
Measures vertex importance in the graph.
Shortest Path
RUN QUERY shortest_path(source_vertex, target_vertex)
Finds shortest path between two vertices.
Community Detection
RUN QUERY louvain_community(resolution=1.0)
Detects communities/clusters in graph.
Centrality Analysis
RUN QUERY betweenness_centrality()
Measures vertex betweenness centrality.
Custom Algorithms
Can be defined using GSQL for specific use cases.
Query Execution Patterns
Simple Query Execution
result = connector.run_query(
query_name="getNeighbors",
parameters={"person": "Alice"}
)
Query with Timeout
result = connector.run_query(
query_name="complexQuery",
parameters={...},
timeout=60
)
Batch Query Execution
results = connector.batch_query(
queries=[
{"name": "query1", "params": {...}},
{"name": "query2", "params": {...}}
]
)
Error Handling
Common Error Scenarios
| Error | Cause | Solution |
|---|---|---|
| Connection refused | Server not running | Start TigerGraph server |
| Unauthorized | Invalid token | Regenerate API token |
| Query not found | Query not installed | Install query definition |
| Timeout | Query too slow | Optimize query, increase timeout |
| Graph not found | Wrong graph name | Verify graph name |
Error Handling Best Practices
- Validate Connections - Check before operations
- Handle Retries - Implement exponential backoff
- Log Errors - Track all errors for debugging
- Graceful Degradation - Handle partial failures
- Timeout Management - Set appropriate timeouts
Best Practices
1. Query Design
✅ Use installed queries for performance
✅ Pre-compile queries instead of dynamic ones
✅ Optimize pattern matching
✅ Use appropriate graph traversal depth
✅ Leverage built-in algorithms
2. Data Loading
✅ Use batch loading for bulk data
✅ Validate data before loading
✅ Use atomic transactions
✅ Monitor loading progress
✅ Handle duplicates appropriately
3. Performance
✅ Create indexes on frequently queried properties
✅ Monitor query execution plans
✅ Use result streaming for large datasets
✅ Cache frequently accessed data
✅ Distribute computation across nodes
4. Schema Management
✅ Design schema for query patterns
✅ Use appropriate data types
✅ Maintain referential integrity
✅ Document schema changes
✅ Version schema updates
5. Analytics
✅ Use built-in graph algorithms
✅ Tune algorithm parameters
✅ Monitor resource usage
✅ Implement incremental updates
✅ Cache algorithm results
6. Scalability
✅ Partition data appropriately
✅ Use distributed loading
✅ Monitor cluster health
✅ Balance load across nodes
✅ Plan capacity growth
7. Security
✅ Protect API tokens
✅ Use HTTPS connections
✅ Implement access control
✅ Audit all operations
✅ Encrypt sensitive data
8. Maintenance
✅ Monitor database health
✅ Regular backups
✅ Update software regularly
✅ Archive old data
✅ Clean up temporary data
Integration with Related Skills
Neo4j Integration
- Alternative property graph database
- Query language: Cypher vs GSQL
- Scale and deployment models differ
JanusGraph Connector
- Distributed graph storage
- Different architecture and use cases
- Complementary strengths
RDF Triple Store Integration
- Semantic web alternative
- Triple-based vs property graph
- Different query languages
Graph Query Optimization
- Optimize GSQL query performance
- Analyze execution plans
- Performance tuning
REST API Wrapper
- Expose TigerGraph via REST API
- Custom endpoint creation
- API documentation
Libraries & Dependencies
Core Libraries
| Library | Purpose |
|---|---|
| pyTigerGraph | Official Python SDK |
| requests | HTTP client |
| json | JSON handling |
Installation
pip install pyTigerGraph requests
Expected Benefits
Using this skill enables:
✅ Performance - High-speed graph processing at scale
✅ Analytics - Advanced graph algorithms and analytics
✅ Scalability - Enterprise-scale knowledge graph processing
✅ Real-Time - Real-time graph computations
✅ Flexibility - Support for complex graph patterns
✅ Reliability - Enterprise-grade reliability and backup
✅ Integration - Easy integration with applications
Quick Reference
Connection & Query
connector = TigerGraphConnector()
connector.connect(config)
result = connector.run_query("queryName", params)
connector.close()
Common Operations
# Insert vertices
connector.insert_vertices(vertex_type, vertices)
# Insert edges
connector.insert_edges(edge_type, edges)
# Run algorithm
connector.run_algorithm("pagerank", params)
# Get statistics
stats = connector.get_statistics()
Data Loading
connector.load_from_csv(file_path, vertex_type, mapping)
connector.batch_insert(vertices, edges)
Related Skills
- Neo4j Integration - Property graph database using Cypher
- JanusGraph Connector - Distributed graph using Gremlin
- RDF Triple Store Integration - SPARQL for RDF
- GraphQL Graph Mapping - GraphQL API interface
- Graph Query Optimization - Query performance tuning
- REST API Wrapper - REST interface for graphs
Resources
Version: 1.0.0
Last Updated: April 12, 2026
安全使用建议
Install only if you treat this as sample or demo material, not as a production TigerGraph connector. Do not rely on its reported query, insert, or CSV-load success until the implementation is replaced with real TigerGraph client calls and tested against a non-production graph. Use scoped tokens, avoid placing secrets in prompts or source files, and require explicit approval before any live data or schema changes.
能力评估
Purpose & Capability
The stated purpose is real TigerGraph querying, loading, and management through GSQL/REST++ APIs, but scripts/tigergraph_connector.py does not use pyTigerGraph, requests, or any network client; connect() flips an internal flag, run_query() returns mock records, insert methods update counters, and load_from_csv() never reads the CSV file.
Instruction Scope
The documentation encourages data loading, schema/data management, and graph algorithms against live TigerGraph instances. Those are purpose-aligned for a connector, but the artifact under-discloses the mock implementation and does not clearly separate read-only from mutating/admin operations or require confirmation for live changes.
Install Mechanism
No installer, autostart hook, background worker, or package execution path is present in the artifacts. The only install guidance is a manual pip install command for pyTigerGraph and requests.
Credentials
Remote database credentials and graph mutation authority are proportionate to the claimed integration purpose, but the code/documentation mismatch could lead users or agents to trust fabricated results or assume data was loaded when no real operation occurred.
Persistence & Privilege
No persistence, privilege escalation, local auth-store access, or broad local indexing was found. The skill does handle API tokens/passwords as configuration values and gives only limited secret-handling guidance.
如何使用
- 确保已安装 OpenClaw(本地或 Docker 部署)
- 在对话框中输入安装命令:
/install knowledge-graph-tigergraph-connector - 安装完成后,直接呼叫该 Skill 的名称或使用
/knowledge-graph-tigergraph-connector触发 - 根据 Skill 的参数说明提供必要输入,即可获得结构化输出
版本历史
v1.0.0
Initial release of TigerGraph Connector skill.
- Connect to TigerGraph distributed graph database using GSQL and REST++ APIs
- Execute complex GSQL queries and run built-in or custom graph algorithms
- Load and manage vertices and edges, including batch and CSV data loading
- Perform real-time graph analytics and pattern matching
- Support for API token and username/password authentication
- Comprehensive error handling and best practices documentation included
元数据
常见问题
Knowledge Graph - Tigergraph Connector 是什么?
Connect to TigerGraph distributed graph database to query, load, and manage large-scale knowledge graph data using GSQL and REST++ APIs. 它是一个面向 Claude Code / OpenClaw 的 AI Agent Skill 插件,目前累计下载 38 次。
如何安装 Knowledge Graph - Tigergraph Connector?
在 OpenClaw 或 Claude Code 对话框中运行命令「/install knowledge-graph-tigergraph-connector」即可一键安装,无需额外配置。
Knowledge Graph - Tigergraph Connector 是免费的吗?
是的,Knowledge Graph - Tigergraph Connector 完全免费,采用 MIT-0 许可证,可自由下载、安装和使用。
Knowledge Graph - Tigergraph Connector 支持哪些平台?
Knowledge Graph - Tigergraph Connector 跨平台运行,可在任意部署了 OpenClaw / Claude Code 的环境中使用(cross-platform)。
谁开发了 Knowledge Graph - Tigergraph Connector?
由 Muhammad Asif(@fisa712)开发并维护,当前版本 v1.0.0。
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