| name | tooling-and-dependencies |
| description | Use when running repo scripts, adding or changing dependencies, editing package.json files, installing packages, publishing packages, or deciding when pnpm package operations versus Bun runtime commands should be invoked. |
Tooling and Dependencies
Toolchain (proto)
- Tool versions (bun, pnpm, node, moon, gh) are pinned in
.prototools and
managed by proto; its shims put the pinned
versions on PATH inside the repo. proto use installs everything after a pin
changes.
- Bump a tool by editing
.prototools only — never install tools globally or
pin versions elsewhere. moon's version is additionally enforced by
versionConstraint in .moon/workspace.yml and mirrored as the
@moonrepo/cli catalog entry (for Vercel builders without proto); keep all
three in sync.
- CI and local shells resolve the same toolchain: CI installs it with
moonrepo/setup-toolchain, which runs proto install against the same
.prototools.
Package Manager and Runtime
- Use
pnpm for package operations: install, add, remove, dedupe, lockfile,
package-runner, and publish work.
- Do not use
bun, npm, yarn, npx, or other package runners for package
operations unless there is a specific documented reason.
- Bun remains the direct TypeScript runtime and Bun test runner where current
moon tasks use it. Local scripts may still be
.ts files without a separate
compile step.
Dependency Catalog
This monorepo uses the catalog in pnpm-workspace.yaml.
- Never add a version directly to an individual package's
package.json by
default.
- To add a dependency:
- Add the exact version to
pnpm-workspace.yaml under catalog, for example
"new-package": "1.2.3".
- Reference it from the package with
"new-package": "catalog:".
- Do not run
pnpm add <package> inside a package directory; it writes direct
versions and breaks the catalog pattern unless you manually normalize them.
- Published packages may intentionally use ranges for end-user compatibility.
apps/docs should use catalog versions; published packages such as
packages/diffs may use ranges only when that is intentional.
Tasks
- All build/dev/test/lint entrypoints are moon tasks; package.json scripts exist
only for npm lifecycle hooks (
prepublishOnly). Never add task scripts back
to a package.json.
- Tasks are defined in
.moon/tasks/*.yml (inherited) and each project's
moon.yml. Repo-wide tooling (format, lint, icons, clean) lives on the root
project.
- Run tasks from anywhere in the repo:
moon run <project>:<task>
moonx <project>:<task>
moonx <project>:<task> -- --flags
moon run :test
moon tasks <project>
moon run and moonx (an alias binary for moon exec) execute the same action
pipeline: identical dependency resolution, caching, and affected support. Use
them interchangeably; docs write moon run for canonical commands and moonx
in interactive examples. The one practical difference: moonx/moon exec
exposes CI-behavior overrides (--ignore-ci-checks, --ci <bool>) that
moon run lacks. moon ci is a third thing — the affected-aware orchestrator
used only by .github/workflows/ci.yml; never reach for it locally.
moon builds dependency projects first (deps: ['^:build']), caches outputs, and
skips tasks whose inputs have not changed. Local-only tasks set explicit options
instead of moon presets (presets force runInCI: skip, which moon refuses to
run in CI-detected shells; agent harnesses export CI=1):
- No graph edges at all (formatters, benchmarks, wt, servers spawned by
playwright): use
runInCI: 'always' — runnable everywhere, and never in the
CI pipeline because a task with no deps or dependents is never affected
through the graph.
- Connected to the build graph (dev/prod, e2e variants, publish guards): keep
runInCI: 'skip' — moon ci --include-relations runs affected
runInCI-enabled tasks even when unrequested, which would pull them into CI.
Run them in CI-marked shells with moonx <target> --ignore-ci-checks (works
regardless of the shell's CI env). For non-moon commands that CI-gate
themselves, unset the var instead: CI= pnpm publish --dry-run.