# bd - Beads Issue Tracker 🔗 [![Go Version](https://img.shields.io/github/go-mod/go-version/steveyegge/beads)](https://go.dev/) [![Release](https://img.shields.io/github/v/release/steveyegge/beads)](https://github.com/steveyegge/beads/releases) [![npm version](https://img.shields.io/npm/v/@beads/bd)](https://www.npmjs.com/package/@beads/bd) [![CI](https://img.shields.io/github/actions/workflow/status/steveyegge/beads/ci.yml?branch=main&label=tests)](https://github.com/steveyegge/beads/actions/workflows/ci.yml) [![Go Report Card](https://goreportcard.com/badge/github.com/steveyegge/beads)](https://goreportcard.com/report/github.com/steveyegge/beads) [![License](https://img.shields.io/github/license/steveyegge/beads)](LICENSE) [![PyPI](https://img.shields.io/pypi/v/beads-mcp)](https://pypi.org/project/beads-mcp/) **Give your coding agent a memory upgrade** > ## 🎉 **v0.20.1: Multi-Worker Support Unlocked!** 🎉 > > **Hash-based IDs eliminate merge conflicts and collision issues!** > > Previous versions used sequential IDs (bd-1, bd-2, bd-3...) which caused frequent collisions when multiple agents or branches created issues concurrently. Version 0.20.1 switches to **hash-based IDs** (bd-a1b2, bd-f14c, bd-3e7a...) that are collision-resistant and merge-friendly. > > **What's new:** ✅ Multi-clone, multi-branch, multi-agent workflows now work reliably > **What changed:** Issue IDs are now short hashes instead of sequential numbers > **Migration:** Run `bd migrate` to upgrade existing databases (optional - old DBs still work) > > Hash IDs use progressive length scaling (4/5/6 characters) with birthday paradox math to keep collisions extremely rare while maintaining human readability. See "Hash-Based Issue IDs" section below for details. > **⚠️ Alpha Status**: This project is in active development. The core features work well, but expect API changes before 1.0. Use for development/internal projects first. Beads is a lightweight memory system for coding agents, using a graph-based issue tracker. Four kinds of dependencies work to chain your issues together like beads, making them easy for agents to follow for long distances, and reliably perform complex task streams in the right order. Drop Beads into any project where you're using a coding agent, and you'll enjoy an instant upgrade in organization, focus, and your agent's ability to handle long-horizon tasks over multiple compaction sessions. Your agents will use issue tracking with proper epics, rather than creating a swamp of rotten half-implemented markdown plans. Instant start: ```bash curl -fsSL https://raw.githubusercontent.com/steveyegge/beads/main/scripts/install.sh | bash ``` Then tell your coding agent to start using the `bd` tool instead of markdown for all new work, somewhere in your `AGENTS.md` or `CLAUDE.md`. That's all there is to it! You don't use Beads directly as a human. Your coding agent will file and manage issues on your behalf. They'll file things they notice automatically, and you can ask them at any time to add or update issues for you. Beads gives agents unprecedented long-term planning capability, solving their amnesia when dealing with complex nested plans. They can trivially query the ready work, orient themselves, and land on their feet as soon as they boot up. Agents using Beads will no longer silently pass over problems they notice due to lack of context space -- instead, they will automatically file issues for newly-discovered work as they go. No more lost work, ever. Beads issues are backed by git, but through a clever design it manages to act like a managed, centrally hosted SQL database shared by all of the agents working on a project (repo), even across machines. Beads even improves work auditability. The issue tracker has a sophisticated audit trail, which agents can use to reconstruct complex operations that may have spanned multiple sessions. Agents report that they enjoy working with Beads, and they will use it spontaneously for both recording new work and reasoning about your project in novel ways. Whether you are a human or an AI, Beads lets you have more fun and less stress with agentic coding. ![AI Agent using Beads](https://raw.githubusercontent.com/steveyegge/beads/main/.github/images/agent-using-beads.jpg) ## Features - ✨ **Zero setup** - `bd init` creates project-local database (and your agent will do it) - 🔗 **Dependency tracking** - Four dependency types (blocks, related, parent-child, discovered-from) - 📋 **Ready work detection** - Automatically finds issues with no open blockers - 🤖 **Agent-friendly** - `--json` flags for programmatic integration - 📦 **Git-versioned** - JSONL records stored in git, synced across machines - 🌍 **Distributed by design** - Agents on multiple machines share one logical database via git - 🔐 **Protected branch support** - Works with GitHub/GitLab protected branches via separate sync branch - 🏗️ **Extensible** - Add your own tables to the SQLite database - 🔍 **Multi-project isolation** - Each project gets its own database, auto-discovered by directory - 🌲 **Dependency trees** - Visualize full dependency graphs - 🎨 **Beautiful CLI** - Colored output for humans, JSON for bots - 💾 **Full audit trail** - Every change is logged - ⚡ **High performance** - Batch operations for bulk imports (1000 issues in ~950ms) - 🗜️ **Memory decay** - Semantic compaction gracefully reduces old closed issues ## Installation **npm (Node.js environments, Claude Code for Web):** ```bash npm install -g @beads/bd ``` **Quick install (all platforms):** ```bash curl -fsSL https://raw.githubusercontent.com/steveyegge/beads/main/scripts/install.sh | bash ``` **Homebrew (macOS/Linux):** ```bash brew tap steveyegge/beads brew install bd ``` **Other platforms and methods:** See [INSTALLING.md](INSTALLING.md) for Windows, Arch Linux, and manual installation. **IDE Integration:** See [INSTALLING.md](INSTALLING.md) for Claude Code plugin and MCP server setup. **Claude Code for Web:** See [npm-package/CLAUDE_CODE_WEB.md](npm-package/CLAUDE_CODE_WEB.md) for SessionStart hook setup. ## Quick Start ### For Humans Beads is designed for **AI coding agents** to use on your behalf. Setup takes 30 seconds: **You run this once (humans only):** ```bash # In your project root: bd init # For OSS contributors (fork workflow): bd init --contributor # For team members (branch workflow): bd init --team # For protected branches (GitHub/GitLab): bd init --branch beads-metadata # bd will: # - Create .beads/ directory with database # - Import existing issues from git (if any) # - Prompt to install git hooks (recommended: say yes) # - Prompt to configure git merge driver (recommended: say yes) # - Auto-start daemon for sync # Then tell your agent about bd: echo "BEFORE ANYTHING ELSE: run 'bd onboard' and follow the instructions" >> AGENTS.md ``` **Protected branches?** If your `main` branch is protected, use `bd init --branch beads-metadata` to commit issue updates to a separate branch. See [docs/PROTECTED_BRANCHES.md](docs/PROTECTED_BRANCHES.md) for details. **Your agent does the rest:** Next time your agent starts, it will: 1. Run `bd onboard` and receive integration instructions 2. Add bd workflow documentation to AGENTS.md 3. Update CLAUDE.md with a note (if present) 4. Remove the bootstrap instruction **For agents setting up repos:** Use `bd init --quiet` for non-interactive setup (auto-installs git hooks and merge driver, no prompts). **For new repo clones:** Run `bd init` (or `bd init --quiet` for agents) to import existing issues from `.beads/issues.jsonl` automatically. **Git merge driver:** During `bd init`, beads configures git to use `bd merge` for intelligent JSONL merging. This prevents conflicts when multiple branches modify issues. Skip with `--skip-merge-driver` if needed. To configure manually later: ```bash git config merge.beads.driver "bd merge %A %O %L %R" git config merge.beads.name "bd JSONL merge driver" echo ".beads/beads.jsonl merge=beads" >> .gitattributes ``` **Using devcontainers?** Open the repository in a devcontainer (GitHub Codespaces or VS Code Remote Containers) and bd will be automatically installed with git hooks configured. See [.devcontainer/README.md](.devcontainer/README.md) for details. Most tasks will be created and managed by agents during conversations. You can check on things with: ```bash bd list # See what's being tracked bd show # Review a specific issue bd ready # See what's ready to work on bd dep tree # Visualize dependencies ``` ### For AI Agents Run the interactive guide to learn the full workflow: ```bash bd quickstart ``` Quick reference for agent workflows: ```bash # Find ready work bd ready --json | jq '.[0]' # Create issues during work bd create "Discovered bug" -t bug -p 0 --json # Link discovered work back to parent bd dep add --type discovered-from # Update status bd update --status in_progress --json # Complete work bd close --reason "Implemented" --json ``` ## Configuring Your Own AGENTS.md **Recommendation for project maintainers:** Add a session-ending protocol to your project's `AGENTS.md` file to ensure agents properly manage issue tracking and sync the database before finishing work. This pattern has proven invaluable for maintaining database hygiene and preventing lost work. Here's what to include (adapt for your workflow): **1. File/update issues for remaining work** - Agents should proactively create issues for discovered bugs, TODOs, and follow-up tasks - Close completed issues and update status for in-progress work **2. Run quality gates (if applicable)** - Tests, linters, builds - only if code changes were made - File P0 issues if builds are broken **3. Sync the issue tracker carefully** - Work methodically to ensure local and remote issues merge safely - Handle git conflicts thoughtfully (sometimes accepting remote and re-importing) - Goal: clean reconciliation where no issues are lost **4. Verify clean state** - All changes committed and pushed - No untracked files remain **5. Choose next work** - Provide a formatted prompt for the next session with context See the ["Landing the Plane"](AGENTS.md#landing-the-plane) section in this project's `AGENTS.md` for a complete example you can adapt. The key insight: explicitly reminding agents to maintain issue tracker hygiene prevents the common problem of agents creating issues during work but forgetting to sync them at session end. ## The Magic: Distributed Database via Git Here's the crazy part: **bd acts like a centralized database, but it's actually distributed via git.** When you install bd on any machine with your project repo, you get: - ✅ Full query capabilities (dependencies, ready work, etc.) - ✅ Fast local operations (<100ms via SQLite) - ✅ Shared state across all machines (via git) - ✅ No server, no daemon required, no configuration - ✅ AI-assisted merge conflict resolution **How it works:** Each machine has a local SQLite cache (`.beads/*.db`, gitignored). Source of truth is JSONL (`.beads/issues.jsonl`, committed to git). Auto-sync keeps them in sync: SQLite → JSONL after CRUD operations (5-second debounce), JSONL → SQLite when JSONL is newer (e.g., after `git pull`). **The result:** Agents on your laptop, your desktop, and your coworker's machine all query and update what *feels* like a single shared database, but it's really just git doing what git does best - syncing text files across machines. No PostgreSQL instance. No MySQL server. No hosted service. Just install bd, clone the repo, and you're connected to the "database." ### Git Workflow & Auto-Sync bd automatically syncs your local database with git: **Making changes (auto-export):** ```bash bd create "Fix bug" -p 1 bd update bd-a1b2 --status in_progress # bd automatically exports to .beads/issues.jsonl after 5 seconds git add .beads/issues.jsonl git commit -m "Working on bd-a1b2" git push ``` **Pulling changes (auto-import):** ```bash git pull # bd automatically detects JSONL is newer and imports on next command bd ready # Fresh data from git! bd list # Shows issues from other machines ``` **Manual sync (optional):** ```bash bd sync # Immediately flush pending changes and import latest JSONL ``` **For zero-lag sync**, install the git hooks: ```bash cd examples/git-hooks && ./install.sh ``` This adds: - **pre-commit** - Immediate flush before commit (no 5-second wait) - **post-merge** - Guaranteed import after `git pull` or `git merge` **Disable auto-sync** if needed: ```bash bd --no-auto-flush create "Issue" # Skip auto-export bd --no-auto-import list # Skip auto-import check ``` ## Hash-Based Issue IDs **Version 0.20.1 introduces collision-resistant hash-based IDs** to enable reliable multi-worker and multi-branch workflows. ### ID Format Issue IDs now use short hexadecimal hashes instead of sequential numbers: - **Before (v0.20.0):** `bd-1`, `bd-2`, `bd-152` (sequential numbers) - **After (v0.20.1):** `bd-a1b2`, `bd-f14c`, `bd-3e7a` (4-6 character hashes) Hash IDs use **progressive length scaling** based on database size: - **0-500 issues:** 4-character hashes (e.g., `bd-a1b2`) - **500-1,500 issues:** 5-character hashes (e.g., `bd-f14c3`) - **1,500-10,000 issues:** 6-character hashes (e.g., `bd-3e7a5b`) ### Why Hash IDs? **The problem with sequential IDs:** When multiple agents or branches create issues concurrently, sequential IDs collide: - Agent A creates `bd-10` on branch `feature-auth` - Agent B creates `bd-10` on branch `feature-payments` - Git merge creates duplicate IDs → collision resolution required **How hash IDs solve this:** Hash IDs are generated from random data, making concurrent creation collision-free: - Agent A creates `bd-a1b2` (hash of random UUID) - Agent B creates `bd-f14c` (different hash, different UUID) - Git merge succeeds cleanly → no collision resolution needed ### Birthday Paradox Math Hash IDs use **birthday paradox probability** to determine length: | Hash Length | Total Space | 50% Collision at N Issues | 1% Collision at N Issues | |-------------|-------------|---------------------------|--------------------------| | 4 chars | 65,536 | ~304 issues | ~38 issues | | 5 chars | 1,048,576 | ~1,217 issues | ~153 issues | | 6 chars | 16,777,216 | ~4,869 issues | ~612 issues | **Our thresholds are conservative:** We switch from 4→5 chars at 500 issues (way before the 1% collision point at ~1,217) and from 5→6 chars at 1,500 issues. **Progressive extension on collision:** If a hash collision does occur, bd automatically extends the hash to 7 or 8 characters instead of remapping to a new ID. ### Migration **Existing databases continue to work** - no forced migration. Run `bd migrate` when ready: ```bash # Inspect migration plan (for AI agents) bd migrate --inspect --json # Check schema and config state bd info --schema --json # Preview migration bd migrate --dry-run # Migrate database schema (removes obsolete issue_counters table) bd migrate # Show current database info bd info ``` **AI-supervised migrations:** The `--inspect` flag provides migration plan analysis for AI agents. The system verifies data integrity invariants (required config keys, foreign key constraints, issue counts) before committing migrations. **Note:** Hash IDs require schema version 9+. The `bd migrate` command detects old schemas and upgrades automatically. ### Hierarchical Child IDs Hash IDs support **hierarchical children** for natural work breakdown structures. Child IDs use dot notation: ``` bd-a3f8e9 [epic] Auth System bd-a3f8e9.1 [task] Design login UI bd-a3f8e9.2 [task] Backend validation bd-a3f8e9.3 [epic] Password Reset bd-a3f8e9.3.1 [task] Email templates bd-a3f8e9.3.2 [task] Reset flow tests ``` **Benefits:** - **Collision-free**: Parent hash ensures unique namespace - **Human-readable**: Clear parent-child relationships - **Flexible depth**: Up to 3 levels of nesting - **No coordination needed**: Each epic owns its child ID space **Common patterns:** - 1 level: Epic → tasks (most projects) - 2 levels: Epic → features → tasks (large projects) - 3 levels: Epic → features → stories → tasks (complex projects) **Example workflow:** ```bash # Create parent epic (generates hash ID automatically) bd create "Auth System" -t epic -p 1 # Returns: bd-a3f8e9 # Create child tasks bd create "Design login UI" -p 1 # Auto-assigned: bd-a3f8e9.1 bd create "Backend validation" -p 1 # Auto-assigned: bd-a3f8e9.2 # Create nested epic with its own children bd create "Password Reset" -t epic -p 1 # Auto-assigned: bd-a3f8e9.3 bd create "Email templates" -p 1 # Auto-assigned: bd-a3f8e9.3.1 ``` **Note:** Child IDs are automatically assigned sequentially within each parent's namespace. No need to specify parent manually - bd tracks context from git branch/working directory. ## Usage ### Health Check Check installation health: `bd doctor` validates your `.beads/` setup, database version, ID format, and CLI version. Provides actionable fixes for any issues found. ### Creating Issues ```bash bd create "Fix bug" -d "Description" -p 1 -t bug bd create "Add feature" --description "Long description" --priority 2 --type feature bd create "Task" -l "backend,urgent" --assignee alice # Get JSON output for programmatic use bd create "Fix bug" -d "Description" --json # Create from templates (built-in: epic, bug, feature) bd create --from-template epic "Q4 Platform Improvements" bd create --from-template bug "Auth token validation fails" bd create --from-template feature "Add OAuth support" # Override template defaults bd create --from-template bug "Critical issue" -p 0 # Override priority # Create multiple issues from a markdown file bd create -f feature-plan.md ``` Options: - `-f, --file` - Create multiple issues from markdown file - `--from-template` - Use template (epic, bug, feature, or custom) - `-d, --description` - Issue description - `-p, --priority` - Priority (0-4, 0=highest, default=2) - `-t, --type` - Type (bug|feature|task|epic|chore, default=task) - `-a, --assignee` - Assign to user - `-l, --labels` - Comma-separated labels - `--id` - Explicit issue ID (e.g., `worker1-100` for ID space partitioning) - `--json` - Output in JSON format See `bd template list` for available templates and `bd help template` for managing custom templates. ### Viewing Issues ```bash bd info # Show database path and daemon status bd show bd-a1b2 # Show full details bd list # List all issues bd list --status open # Filter by status bd list --priority 1 # Filter by priority bd list --assignee alice # Filter by assignee bd list --label=backend,urgent # Filter by labels (AND) bd list --label-any=frontend,backend # Filter by labels (OR) # Advanced filters bd list --title-contains "auth" # Search title bd list --desc-contains "implement" # Search description bd list --notes-contains "TODO" # Search notes bd list --id bd-123,bd-456 # Specific IDs (comma-separated) # Date range filters (YYYY-MM-DD or RFC3339) bd list --created-after 2024-01-01 # Created after date bd list --created-before 2024-12-31 # Created before date bd list --updated-after 2024-06-01 # Updated after date bd list --updated-before 2024-12-31 # Updated before date bd list --closed-after 2024-01-01 # Closed after date bd list --closed-before 2024-12-31 # Closed before date # Empty/null checks bd list --empty-description # Issues with no description bd list --no-assignee # Unassigned issues bd list --no-labels # Issues with no labels # Priority ranges bd list --priority-min 0 --priority-max 1 # P0 and P1 only bd list --priority-min 2 # P2 and below # Combine multiple filters bd list --status open --priority 1 --label-any urgent,critical --no-assignee # JSON output for agents bd info --json bd list --json bd show bd-a1b2 --json ``` ### Updating Issues ```bash bd update bd-a1b2 --status in_progress bd update bd-a1b2 --priority 2 bd update bd-a1b2 --assignee bob bd close bd-a1b2 --reason "Completed" bd close bd-a1b2 bd-f14c bd-3e7a # Close multiple # JSON output bd update bd-a1b2 --status in_progress --json ``` ### Dependencies ```bash # Add dependency (bd-f14c depends on bd-a1b2) bd dep add bd-f14c bd-a1b2 bd dep add bd-3e7a bd-a1b2 --type blocks # Remove dependency bd dep remove bd-f14c bd-a1b2 # Show dependency tree bd dep tree bd-f14c # Detect cycles bd dep cycles ``` #### Dependency Types - **blocks**: Hard blocker (default) - issue cannot start until blocker is resolved - **related**: Soft relationship - issues are connected but not blocking - **parent-child**: Hierarchical relationship (child depends on parent) - **discovered-from**: Issue discovered during work on another issue (automatically inherits parent's `source_repo`) Only `blocks` dependencies affect ready work detection. > **Note:** Issues created with `discovered-from` dependencies automatically inherit the parent's `source_repo` field, ensuring discovered work stays in the same repository as the parent task. ### Finding Work ```bash # Show ready work (no blockers) bd ready bd ready --limit 20 bd ready --priority 1 bd ready --assignee alice # Sort policies (hybrid is default) bd ready --sort priority # Strict priority order (P0, P1, P2, P3) bd ready --sort oldest # Oldest issues first (backlog clearing) bd ready --sort hybrid # Recent by priority, old by age (default) # Show blocked issues bd blocked # Statistics bd stats # JSON output for agents bd ready --json ``` ### Labels Add flexible metadata to issues for filtering and organization: ```bash # Add labels during creation bd create "Fix auth bug" -t bug -p 1 -l auth,backend,urgent # Add/remove labels bd label add bd-a1b2 security bd label remove bd-a1b2 urgent # List labels bd label list bd-a1b2 # Labels on one issue bd label list-all # All labels with counts # Filter by labels bd list --label backend,auth # AND: must have ALL labels bd list --label-any frontend,ui # OR: must have AT LEAST ONE ``` **See [LABELS.md](LABELS.md) for complete label documentation and best practices.** ### Deleting Issues ```bash # Single issue deletion (preview mode) bd delete bd-a1b2 # Force single deletion bd delete bd-a1b2 --force # Batch deletion bd delete bd-a1b2 bd-f14c bd-3e7a --force # Delete from file (one ID per line) bd delete --from-file deletions.txt --force # Cascade deletion (recursively delete dependents) bd delete bd-a1b2 --cascade --force ``` The delete operation removes all dependency links, updates text references to `[deleted:ID]`, and removes the issue from database and JSONL. ### Configuration Manage per-project configuration for external integrations: ```bash # Set configuration bd config set jira.url "https://company.atlassian.net" bd config set jira.project "PROJ" # Get configuration bd config get jira.url # List all configuration bd config list --json # Unset configuration bd config unset jira.url ``` **See [CONFIG.md](CONFIG.md) for complete configuration documentation.** ### Compaction (Memory Decay) Beads uses AI to compress old closed issues, keeping databases lightweight as they age: ```bash bd compact --dry-run --all # Preview candidates bd compact --days 90 # Compact closed issues older than 90 days ``` This is agentic memory decay - your database naturally forgets fine-grained details while preserving essential context. ### Export/Import ```bash # Export to JSONL (automatic by default) bd export -o issues.jsonl # Import from JSONL (automatic when JSONL is newer) bd import -i issues.jsonl # Manual sync bd sync ``` **Note:** Auto-sync is enabled by default. Manual export/import is rarely needed. ### Managing Daemons bd runs a background daemon per workspace for auto-sync and RPC operations. Use `bd daemons` to manage multiple daemons: ```bash # List all running daemons bd daemons list # Check health (version mismatches, stale sockets) bd daemons health # Stop a specific daemon bd daemons stop /path/to/workspace bd daemons stop 12345 # By PID # View daemon logs bd daemons logs /path/to/workspace -n 100 bd daemons logs 12345 -f # Follow mode # Stop all daemons bd daemons killall bd daemons killall --force # Force kill if graceful fails ``` **Common use cases:** - **After upgrading bd**: Run `bd daemons health` to check for version mismatches, then `bd daemons killall` to restart all daemons with the new version - **Debugging**: Use `bd daemons logs ` to view daemon logs - **Cleanup**: `bd daemons list` auto-removes stale sockets See [commands/daemons.md](commands/daemons.md) for complete documentation. ## Examples Check out the **[examples/](examples/)** directory for: - **[Python agent](examples/python-agent/)** - Full agent implementation in Python - **[Bash agent](examples/bash-agent/)** - Shell script agent example - **[Git hooks](examples/git-hooks/)** - Automatic export/import on git operations - **[Branch merge workflow](examples/branch-merge/)** - Handle ID collisions when merging branches - **[Claude Desktop MCP](examples/claude-desktop-mcp/)** - MCP server for Claude Desktop - **[Claude Code Plugin](PLUGIN.md)** - One-command installation with slash commands ## Advanced Features For advanced usage, see: - **[ADVANCED.md](ADVANCED.md)** - Prefix renaming, merging duplicates, daemon configuration - **[CONFIG.md](CONFIG.md)** - Configuration system for integrations - **[EXTENDING.md](EXTENDING.md)** - Database extension patterns - **[ADVANCED.md](ADVANCED.md)** - JSONL format and merge strategies ## Documentation - **[README.md](README.md)** - You are here! Core features and quick start - **[INSTALLING.md](INSTALLING.md)** - Complete installation guide for all platforms - **[QUICKSTART.md](QUICKSTART.md)** - Interactive tutorial (`bd quickstart`) - **[docs/MULTI_REPO_MIGRATION.md](docs/MULTI_REPO_MIGRATION.md)** - Multi-repo workflow guide (OSS, teams, multi-phase) - **[docs/MULTI_REPO_AGENTS.md](docs/MULTI_REPO_AGENTS.md)** - Multi-repo patterns for AI agents - **[FAQ.md](FAQ.md)** - Frequently asked questions - **[TROUBLESHOOTING.md](TROUBLESHOOTING.md)** - Common issues and solutions - **[ADVANCED.md](ADVANCED.md)** - Advanced features and use cases - **[LABELS.md](LABELS.md)** - Complete label system guide - **[CONFIG.md](CONFIG.md)** - Configuration system - **[EXTENDING.md](EXTENDING.md)** - Database extension patterns - **[ADVANCED.md](ADVANCED.md)** - JSONL format analysis - **[PLUGIN.md](PLUGIN.md)** - Claude Code plugin documentation - **[CONTRIBUTING.md](CONTRIBUTING.md)** - Contribution guidelines - **[SECURITY.md](SECURITY.md)** - Security policy ## Community & Ecosystem ### Third-Party Tools - **[Beadster](https://apps.apple.com/us/app/beadster-issue-tracking/id6754286462)** - Native macOS app for viewing and managing bd issues across multiple projects. Features a compact, always-on-top window for quick reference during development. Built by [@podviaznikov](https://github.com/podviaznikov). Have you built something cool with bd? [Open an issue](https://github.com/steveyegge/beads/issues) to get it featured here! ## Development ```bash # Run tests go test ./... # Build go build -o bd ./cmd/bd # Run ./bd create "Test issue" # Bump version ./scripts/bump-version.sh 0.9.3 # Update all versions, show diff ./scripts/bump-version.sh 0.9.3 --commit # Update and auto-commit ``` See [scripts/README.md](scripts/README.md) for more development scripts. ## License MIT ## Credits Built with ❤️ by developers who love tracking dependencies and finding ready work. Inspired by the need for a simpler, dependency-aware issue tracker.