---
name: lean-ctx
description: Context Runtime for AI Agents — 57 MCP tools, 10 read modes, 95+ shell patterns, tree-sitter AST for 18 languages. Compresses LLM context by up to 99%. Use when reading files, running shell commands, searching code, or exploring directories. Auto-installs if not present.
---
# LeanCTX — Context Runtime for AI Agents
LeanCTX optimizes LLM context through 57 MCP tools, 95+ shell compression patterns, and tree-sitter AST parsing for 18 languages. It provides adaptive file reading, cross-session memory (CCP), task-conditioned relevance scoring, and a feedback loop for learning optimal compression.
## Setup (run first)
Before using lean-ctx, verify it is installed:
```bash
If the install script is not available locally, install manually:
```bash
After installation, run the one-command setup (installs shell hook + editor wiring + rules + skills):
```bash
lean-ctx setup
```
lean-ctx supports two integration styles:
- **CLI-redirect (preferred when shell access exists)**: no MCP tool schema overhead.
- **MCP (required for some IDE extensions)**: cached reads + tools via MCP.
## When to use lean-ctx
Always prefer `lean-ctx -c <command>` over running commands directly when:
- The command produces verbose output (build logs, git diffs, dependency trees, test results)
- You are reading files and only need the structure or API surface
- You want to check token savings for the current session
## Shell commands (use instead of raw exec)
```bash
lean-ctx -c git status # Compressed git output
lean-ctx -c git diff # Only meaningful diff lines
lean-ctx -c git log --oneline -10
lean-ctx -c npm install # Strips progress bars, noise
lean-ctx -c cargo build
lean-ctx -c cargo test
lean-ctx -c docker ps
lean-ctx -c kubectl get pods
lean-ctx -c aws ec2 describe-instances
lean-ctx -c helm list
lean-ctx -c prisma migrate dev
lean-ctx -c curl -s <url> # JSON schema extraction
lean-ctx -c ls -la <dir> # Grouped directory listing
```
Supported: git, npm, pnpm, yarn, bun, deno, cargo, docker, kubectl, helm, gh, pip, ruff, go, eslint, prettier, tsc, aws, psql, mysql, prisma, swift, zig, cmake, ansible, composer, mix, bazel, systemd, terraform, make, maven, dotnet, flutter, poetry, rubocop, playwright, curl, wget, and more.
## File reading (compressed modes)
```bash
lean-ctx read <file> # Full content with structured header
lean-ctx read <file> -m map # Dependency graph + exports + API (~5-15% tokens)
lean-ctx read <file> -m signatures # Function/class signatures only (~10-20% tokens)
lean-ctx read <file> -m aggressive # Syntax-stripped (~30-50% tokens)
lean-ctx read <file> -m entropy # Shannon entropy filtered (~20-40% tokens)
lean-ctx read <file> -m diff # Only changed lines since last read
```
Use `map` mode when you need to understand what a file does without reading every line.
Use `signatures` mode when you need the API surface of a module (tree-sitter for 18 languages).
Use `full` mode only when you will edit the file.
## AI Tool Integration
```bash
lean-ctx init --global # Install shell aliases
lean-ctx init --agent cursor --mode cli-redirect # CLI-first (no MCP schema overhead)
lean-ctx init --agent claude --mode cli-redirect # CLI-first (Claude Code)
lean-ctx init --agent codex --mode cli-redirect # CLI-first (Codex)
lean-ctx init --agent opencode --mode cli-redirect # CLI-first (OpenCode)
lean-ctx init --agent copilot # MCP (VS Code / Copilot)
lean-ctx init --agent jetbrains # MCP (JetBrains)
lean-ctx init --agent windsurf # MCP/Hybrid (Windsurf)
```
## Multi-Agent & Knowledge (v2.7.0+)
CLI (works in CLI-redirect and MCP setups):
```bash
lean-ctx knowledge remember "value" --category <c> --key <k>
lean-ctx knowledge recall "query"
lean-ctx knowledge search "query"
lean-ctx knowledge export [--format json|jsonl|simple] [--output <path>]
lean-ctx knowledge import <path> [--merge replace|append|skip-existing] [--dry-run]
lean-ctx knowledge remove --category <c> --key <k>
lean-ctx session task "what you're doing"
lean-ctx session finding "what you found"
lean-ctx session decision "what you decided"
lean-ctx session save
```
If MCP is enabled for your IDE, the same capabilities are also available as MCP tools
(`ctx_knowledge`, `ctx_session`, `ctx_agent`, ...).
## Additional Intelligence Tools (v2.19.0)
- `ctx_edit(path, old_string, new_string)` — search-and-replace file editing without native Read/Edit
- `ctx_overview(task)` — task-relevant project map at session start
- `ctx_preload(task)` — proactive context loader, caches task-relevant files
- `ctx_semantic_search(query)` — BM25 code search by meaning across the project
- `ctx_intent` now supports multi-intent detection and complexity classification
- Semantic cache: TF-IDF + cosine similarity for finding similar files across reads
## Session Continuity (CCP)
```bash
lean-ctx sessions list # List all CCP sessions
lean-ctx sessions show # Show latest session state
lean-ctx wrapped # Weekly savings report card
lean-ctx wrapped --month # Monthly savings report card
lean-ctx benchmark run # Real project benchmark (terminal output)
lean-ctx benchmark run --json # Machine-readable JSON output
lean-ctx benchmark report # Shareable Markdown report
```
MCP tools for CCP:
- `ctx_session status` — show current session state (~400 tokens)
- `ctx_session load` — restore previous session (cross-chat memory)
- `ctx_session task "description"` — set current task
- `ctx_session finding "file:line — summary"` — record key finding
- `ctx_session decision "summary"` — record architectural decision
- `ctx_session save` — force persist session to disk
- `ctx_session role` — list/switch agent roles (governance)
- `ctx_session budget` — show budget status vs role limits
- `ctx_session slo` — show SLO status/violations (value=reload|history|clear)
- `ctx_session diff` — compare two sessions (value="<id_a> <id_b> [json]")
- `ctx_session verify` — show output verification statistics
- `ctx_session episodes` — episodic memory (value=record | "search <q>" | "file <path>" | "outcome <label>")
- `ctx_session procedures` — procedural memory (value=detect | "suggest <task>")
- `ctx_intent` — intent classification + model routing (returns dimension/tier/reasoning)
- `ctx_graph build` — index code into unified graph
- `ctx_graph related` — find connected files via graph
- `ctx_graph symbol` — lookup symbol definitions/usages
- `ctx_graph impact` — blast radius analysis
- `ctx_graph enrich` — add commits, tests, knowledge to graph
- `ctx_graph context` — task-based graph query for relevant context
- `ctx_wrapped` — generate savings report card in chat
## Analytics
```bash
lean-ctx gain # Visual token savings dashboard
lean-ctx dashboard # Web dashboard at localhost:3333
lean-ctx session # Adoption statistics
lean-ctx discover # Find uncompressed commands in shell history
```
## Tips
- The output suffix `[lean-ctx: 5029→197 tok, -96%]` shows original vs compressed token count
- For large outputs, lean-ctx automatically truncates while preserving relevant context
- JSON responses from curl/wget are reduced to schema outlines
- Build errors are grouped by type with counts
- Test results show only failures with summary counts
- Cached re-reads cost only ~13 tokens