cozy-games/AGENTS.md

11 KiB

AGENTS.md

Guidance for AI coding agents working in this repository.

What this is

Classic Minesweeper as a vanilla web game — no framework, no TypeScript (JSDoc + // @ts-check only). Deployed at mnswpr.com (Netlify) and published to npm as @ayo-run/mnswpr. The game engine has zero runtime dependencies; only the website adds Firebase.

mnswpr is the main test app. It's the reference app for the monorepo and the default target for local runs — .claude/launch.json launches it (dev on :5173, preview on :4173), and it's what you should build/run/preview when verifying changes to the shared packages or tooling.

Commands

Workspace-wide commands run from the root; per-app commands target the app by name with pnpm's -F filter (apps are named <name> — there are no mnswpr-specific root scripts).

pnpm i              # install (pnpm is required — this is a pnpm workspace)
pnpm test           # run the Vitest suite once (jsdom)
pnpm test:watch     # run Vitest in watch mode
pnpm lint           # eslint . (JS + CSS); runs automatically on pre-commit
pnpm lint:fix       # eslint --fix
pnpm build:lib      # build the publishable library -> packages/mnswpr/dist

pnpm -F mnswpr run dev            # Firestore emulator + auto-seed + dev server (emulators:exec) — most common; needs JDK 21+
pnpm -F mnswpr run dev:no-db      # plain vite, no emulator (UI-only work / no JDK)
pnpm -F mnswpr run build          # build the website -> apps/mnswpr/dist
pnpm -F mnswpr run build:preview  # build the app and serve the production preview

Infra (local CLI only — no web dashboards)

Every infra operation — provision, deploy hosting, deploy DB, manage env — is doable from the CLI, and every configuration/schema is codified in-repo. Nothing lives only in a web dashboard. There are two distinct layers, both owned by the app:

1. App infra config — declarative, committed, deployed state. These files ARE the source of truth; deploying just pushes them up. For mnswpr, all under apps/mnswpr/:

File Codifies
firebase.json Firestore + emulator wiring (rules/indexes paths, emulator ports)
.firebaserc Firebase project aliases (default/prod/dev)
firestore.rules Firestore security rules (server-side access control)
firestore.indexes.json Firestore indexes (none needed — documented inline)
netlify.toml Netlify hosting: build command, publish dir, redirects, headers, build env
.env.example The full env-var contract; real prod values are set as Netlify env vars via CLI, never committed

2. App infra tools — the CLIs that act on that config. They are versioned devDependencies of the app (not npx-on-demand, not global installs), so pnpm install pins them and every machine gets the same version. mnswpr depends on firebase-tools and netlify-cli; its scripts call the firebase/netlify binaries directly (pnpm puts the app's node_modules/.bin on PATH). A future app using a different stack (Postgres, a different host) declares its CLIs as its devDependencies and backs the same generic script names — so pnpm -F <name> run deploy:db stays uniform.

Each app owns its infra scripts in its own package.json under generic, tech-agnostic names (deploy:db, not deploy:firestore) — run them by targeting the app with pnpm's -F filter (no root wrapper scripts):

pnpm -F mnswpr run db:start      # local DB emulator (mnswpr -> Firestore), standalone
pnpm -F mnswpr run db:seed       # seed the running local emulator
pnpm -F mnswpr run db:stop       # kill a stray/orphaned Firestore emulator holding :8080
pnpm -F mnswpr run deploy:db     # deploy DB rules/indexes (-> firebase deploy --only firestore)
pnpm -F mnswpr run deploy:site   # build + deploy hosting (-> netlify deploy --prod --dir=dist)

One-time per app / per machine (all CLI, no dashboard):

pnpm -F mnswpr exec firebase login             # auth the Firebase CLI
pnpm -F mnswpr exec netlify login              # auth the Netlify CLI
pnpm -F mnswpr exec netlify link               # bind the app dir to its Netlify site (writes .netlify/, gitignored)

Managing hosting env vars via CLI (keeps prod Firebase keys + VITE_LB_NAMESPACE=mw out of git while still reproducible):

pnpm -F mnswpr exec netlify env:set VITE_LB_NAMESPACE mw   # set one var
pnpm -F mnswpr exec netlify env:import .env.production      # bulk-import from a local (gitignored) env file
pnpm -F mnswpr exec netlify env:list                       # inspect what's set

Non-npm tools get a setup script instead of a devDependency. The Firestore emulator needs Java (it's a JVM program), which isn't an npm package — so pnpm install runs a root postinstall (scripts/ensure-java.mjs) that installs a user-local Temurin JRE 21 into ~/.local without sudo when java is missing — idempotent, non-fatal, and auto-skipped on CI / SKIP_JRE_SETUP / unsupported platforms. Any future infra tool that isn't on npm follows the same pattern (a checked-in setup script), never a manual install step.

Tests are co-located with the package they exercise (packages/utils/test/, packages/mnswpr/test/) and run under Vitest with a jsdom environment (root config in vitest.config.js). They cover the shared utils and drive the engine through real DOM events (mount #app, dispatch mouse events, assert on cell/grid attributes). For anything visual or input-timing related, also verify by running pnpm -F mnswpr run dev and playing.

Node version: .nvmrc pins lts/*.

Repository layout (Cozy Games monorepo, pnpm workspace)

This is the Cozy Games monorepo. Workspaces are declared in pnpm-workspace.yaml as apps/*, packages/*, and sites/*. utils/ is now a real workspace package (@cozy-games/utils), imported by name — no more ../utils relative paths.

  • apps/mnswpr/ — package mnswpr, @ayo-run/mnswpr's host, the mnswpr.com website. Consumes the engine and leaderboard via workspace:* (import mnswpr from '@ayo-run/mnswpr/mnswpr.js') and wires them together in apps/mnswpr/main.js. Owns its Firebase config (firebase.json, firestore.rules, .firebaserc) and app-specific scripts (apps/mnswpr/scripts/). A future app (e.g. sudoku) gets its own apps/<name>/ and its package.json name is just the app name (<name>, unscoped) so it's addressable directly by name (pnpm -F <name> run <script>).
  • packages/mnswpr/@ayo-run/mnswpr, the standalone, framework-free game engine published to npm. packages/mnswpr/mnswpr.js is the whole engine; levels.js defines the four difficulty presets. Depends only on @cozy-games/utils.
  • packages/leaderboard/@cozy-games/leaderboard, a backend-agnostic, time-windowed leaderboard (adapter-injected storage).
  • packages/utils/@cozy-games/utils, shared services with no dependencies, re-exported from index.js: StorageService, TimerService (pretty() time formatting used by both engine and leaderboard), LoggerService, LoadingService, and date-bucket helpers.
  • sites/ — docs (Astro Starlight) and UI demos. Placeholders for now.

Architecture

The engine is decoupled from the app via two hooks. Minesweeper(appId, version, hooks) (packages/mnswpr/mnswpr.js) is a classic constructor function that imperatively builds a <table> grid in the DOM. It knows nothing about Firebase or leaderboards. The app injects behavior through:

  • hooks.levelChanged(setting) — fired when the difficulty level changes; the app uses this to re-fetch and render the leaderboard for that level.
  • hooks.gameDone(game) — fired when a game ends (win or loss) with a game object (time, status, level, time_stamp, isMobile); the app uses this to submit the score.

When adding engine features that the website needs to react to, prefer adding a new hook over reaching into the app — that separation is what keeps the library publishable on its own. (There are already TODO markers in the engine for an afterGridGenerated hook.)

Game state lives in DOM attributes, not a JS model. The grid's overall state is the game-status attribute on the <table> (inactiveactiveover/windone). Each cell carries data-status (default, highlighted, flagged, clicked, empty) and data-value (adjacent mine count). Mine positions are the one exception: kept in minesArray as [row, col] pairs. When changing game logic, read/write these attributes consistently — helpers like getStatus/setStatus, isMine, isFlagged are the intended accessors.

First-click safety: the first clicked cell is never a mine — if it is, transferMine() relocates it to a non-neighboring empty cell before revealing.

Input handling is intricate. Mouse (left/right/middle, plus simultaneous left+right "chording") and touch (long-press to flag) are handled through a state machine of flags (isLeft, isRight, pressed, bothPressed, skip, isBusy) in initializeEventHandlers/initializeTouchEventHandlers. isBusy debounces input (MOBILE_BUSY_DELAY/PC_BUSY_DELAY). Tread carefully here — small changes easily break chording or mobile flagging.

Test mode: set TEST_MODE = true at the top of packages/mnswpr/mnswpr.js to render mine positions as visual hints and enable debug logging.

Leaderboard / Firebase (apps/mnswpr/modules/)

LeaderBoardService (leader-board.js) reads/writes Firestore (firebase/firestore/lite). Structure: top-10 per level in mw-leaders/{level}/games, all sessions in mw-all/{browserId}/games, and remote runtime configuration in mw-config. A score is only offered to the leaderboard when it beats the current 10th place and matches the server-side passingStatus.

The Firebase config in leader-board.js is intentionally public and committed — for a client-only Firebase app the API key is not a secret (access is governed by Firestore security rules), so don't treat it as a leaked credential or try to move it to env vars.

UserService (user.js) derives a non-cryptographic browserId fingerprint from navigator/screen properties to attribute scores without accounts.

Conventions

  • Code style is enforced by ESLint Stylistic, not Prettier: 2-space indent, single quotes, no semicolons, no trailing commas, spaces inside { braces } but not [brackets]. Run pnpm lint:fix before committing. Both **/*.js and **/*.css are linted (CSS via @eslint/css).
  • The engine uses plain functions and var/let closures, not classes; packages/utils/ and apps/mnswpr/modules/ use ES classes. Match the surrounding style of the file you edit.

Release & git hooks (maintainer workflow)

  • Husky hooks: pre-commit runs pnpm lint; post-commit auto-pushes to two extra remotes (git push gh, git push sh). If those remotes aren't configured locally, expect post-commit failures — that's environmental, not a code problem.
  • Releasing (pnpm release) builds the lib, runs bumpp (version bump + tag) in packages/mnswpr/, then scripts/release.js force-pushes a release branch and tags to remotes gh/sh. Pushing a v* tag triggers .github/workflows/release.yml (changelogithub) to publish GitHub release notes. Only run this when explicitly releasing.