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Found 1,655 Skills
Scaffold a loop directory for automated agent task execution. Use when asked to "create a task loop", "set up a loop", "scaffold a loop directory", "prepare tasks for rl", or "set up automated execution" for a backlog. Takes an existing backlog and generates PROMPT.md (loop contract), run-log.md (execution history), and .gitignore for ephemeral loop-state.md.
Guides implementation of agent memory systems, compares production frameworks (Mem0, Zep/Graphiti, Letta, LangMem, Cognee), and designs persistence architectures for cross-session knowledge retention. Use when the user asks to "implement agent memory", "persist state across sessions", "build knowledge graph for agents", "track entities over time", "add long-term memory", "choose a memory framework", or mentions temporal knowledge graphs, vector stores, entity memory, adaptive memory, dynamic memory, or memory benchmarks (LoCoMo, LongMemEval). A core context engineering skill — also activates when the user mentions "context engineering" or "context-engineering" in the context of durable agent knowledge and cross-session persistence.
Apply social network analysis concepts including nodes, ties, centrality, structural holes, and strong/weak ties to map and analyze relationship structures. Use this skill when the user needs to understand influence patterns in an organization, identify key connectors, analyze information flow, or map stakeholder relationships — even if they say 'who are the influencers', 'how does information spread here', or 'map the relationships in our team'.
Investigates completed flash-loan and atomic DeFi incidents across EVM and Solana from public txs—borrow-execute-repay fingerprints, oracle/pool/governance vectors, full trace reconstruction, impact quantification, and mitigations. Use when the user asks for flash loan exploit analysis, atomic attack post-mortems, large-borrow suspicious tx triage, or evidence-structured case studies from explorer data and read-only simulation—not for designing new attacks on live protocols.
Git Worktrees enables parallel development by maintaining multiple checked-out branches simultaneously in separate directories.
Onboard a new repository or a repository with scattered documents into the easysdd system. Two paths are automatically determined: the empty repository path (no spec-like documents or easysdd/ directory in the repository) builds the skeleton from scratch; the migration path (the repository already has scattered documents or partial easysdd/ structure) first generates an audit report + migration mapping plan, which is confirmed by the user one by one before implementation. This skill only does two things: "build the skeleton" and "organize existing documents". After the skeleton is built, all sub-workflows can run directly. Trigger scenarios: the user says "Use easysdd in this project", "Build easysdd structure", "Initialize easysdd", "Migrate to easysdd".
Write or update external guide documents for the project —— dev-guide (for contributors / integrators / downstream developers) and user-guide (for end users). The output is stored in the project's docs/ directory, maintained alongside the code, and searchable by search tools. Difference from libdoc: guidedoc is task-oriented ("How to do Y with X"), while libdoc is reference-oriented ("What each part of X looks like"). Trigger scenarios: When the user says "write documentation", "developer guide", "user guide", or proactively push when feature-acceptance is completed.
Generate deterministic publication-quality architecture, workflow, and pipeline diagrams from structured JSON (FigureSpec) into editable SVG. Use when user says "架构图", "workflow 图", "pipeline 图", "确定性矢量图", "figure spec", "draw architecture", or needs precise, editable, publication-ready vector diagrams. Preferred over AI illustration for formal architecture/workflow figures.
One-stop skill for the project architecture center — draft new architecture documents, refresh existing architecture documents, or conduct an architecture health check. Automatically determine the mode based on user input: `new` (draft)/ `update` (refresh to the latest code status)/ `check` (view only, generate issue list). The `check` mode has three sub-goals: consistency within a single feature design, alignment between design and code, and consistency among multiple documents under `easysdd/architecture/`. Single-target rule — only modify one document or check one target at a time. Trigger scenarios: User says "fill in an architecture doc", "draft an architecture document", "refresh the architecture directory", "write down the structure of this module", "conduct an architecture check", "is the design internally consistent?", "does the plan match the code?", "are there conflicts among several documents in the architecture folder?", or when it is found in the feature-design / feature-acceptance / implement phase that an architecture action needs to be performed first before proceeding.
Investigate supply chain attack artifacts including trojanized software updates, compromised build pipelines, and sideloaded dependencies to identify intrusion vectors and scope of compromise.
Write or update external guide documents for the project —— dev-guide (for contributors/integrators/downstream developers) and user-guide (for end users). The output is stored in the project's docs/ directory, maintained alongside the code, and searchable by search tools. Difference from libdoc: guidedoc is task-oriented ("How to do Y with X"), while libdoc is reference-oriented ("What each part of X looks like"). Trigger scenarios: When the user says "write documentation", "developer guide", "user guide", or proactively push at the end of feature-acceptance.
One-stop skill for the project architecture center — draft new architecture documents, refresh existing ones, or conduct an architecture health check. Automatically determine the mode based on user input: `new` (draft)/ `update` (refresh to latest code status)/ `check` (review without modification, generate issue list). The `check` mode has three sub-objectives: consistency within a single feature design, alignment between design and code, and consistency among multiple documents under `codestable/architecture/`. Single-target rule — only modify one document or check one target at a time. Trigger scenarios: User says "fill in an architecture doc", "draft an architecture document", "refresh the architecture directory", "write down this module structure", "conduct an architecture check", "is the design internally consistent?", "does the plan match the code?", "are there conflicts among several documents in the architecture folder?", or when an architecture action is required before proceeding during the feature-design / feature-acceptance / implement phases.