SKILL·6A3062

memex-verify

pjt222
更新于 28 days ago
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测试aitestingdesign

关于

The `memex-verify` skill runs a local pre-commit check for the memex repository, performing format checks, strict clippy linting, and unit tests to mirror CI. Use it before committing changes to Rust crates to catch failures early. It can optionally run integration tests if the Postgres container is available, but it's a verification gate, not a replacement for the official CI.

快速安装

Claude Code

推荐
主要方式
npx skills add pjt222/agent-almanac -a claude-code
插件命令备选方式
/plugin add https://github.com/pjt222/agent-almanac
Git 克隆备选方式
git clone https://github.com/pjt222/agent-almanac.git ~/.claude/skills/memex-verify

在 Claude Code 中复制并粘贴此命令以安装该技能

技能文档

Verify the Memex Repo Before Committing

Run memex's three CI gates locally — cargo fmt --check, cargo clippy with warnings denied, and the workspace test suite — so a red CI is caught on your machine before you push. Optionally extend the run with the Postgres-gated integration suite. This complements, and does not replace, memex's own CI (.github/workflows/ci.yml); CI stays the authority.

When to Use

  • Immediately before invoking commit-changes on a memex working tree.
  • After editing any Rust source under crates/ (cli, sync, db, mcp, extract), Cargo.toml, or rust-toolchain.toml.
  • When a memex CI run went red and you want to reproduce the failing gate locally with the same toolchain.
  • Before opening a pull request against pjt222/memex.

Inputs

  • Required: A checkout of the memex repo (a clone of github.com/pjt222/memex) with cwd set to the repo root. The gates read rust-toolchain.toml (pinned 1.96.0 + rustfmt/clippy components), so run from the root, not a subcrate.
  • Required: A Rust toolchain on PATH (rustup provisions the pinned channel via rustup show). Confirm with command -v cargo.
  • Optional (integration gate only): A running Postgres+pgvector on :5433 (the memex-pg container) and a sourced .env supplying MEMEX_TEST_PG_URL (and VOYAGE_API_KEY for embedding-backed tests).

Procedure

Step 1: Confirm the toolchain and working directory

The gates must run from the repo root so rust-toolchain.toml selects the pinned 1.96.0 toolchain — local and CI rustfmt/clippy then match.

# From the memex repo root
test -f rust-toolchain.toml || { echo "not at memex repo root"; exit 1; }
rustup show          # provisions/reports the pinned 1.96.0 toolchain
command -v cargo     # toolchain must be on PATH

Expected: rust-toolchain.toml exists, rustup show reports the active toolchain as 1.96.0, and cargo resolves to a path.

On failure: If you are not at the repo root, cd there first. If cargo is missing, add it to PATH (e.g. export PATH="$HOME/.cargo/bin:$PATH") and re-run.

Step 2: Gate 1 — format check

Mirrors the CI rustfmt job (cargo fmt --all --check). Read-only: it reports formatting drift without rewriting files.

cargo fmt --all --check

Expected: Exit 0 and no diff output — the tree is already formatted.

On failure: Non-zero exit prints the unformatted hunks. Apply the fix with cargo fmt --all, re-stage, and re-run this gate. Mark the overall verify FAIL until this gate is clean.

Step 3: Gate 2 — clippy with warnings denied

Mirrors the CI clippy step (cargo clippy --workspace --all-targets -- -D warnings). --all-targets lints tests and examples too; -D warnings makes any lint a hard error, matching CI exactly.

cargo clippy --workspace --all-targets -- -D warnings

Expected: Exit 0 with no warnings emitted.

On failure: Each warning is promoted to an error and listed with its lint name and source span. Fix the code (or, only when justified, add a scoped #[allow(...)]), then re-run. Mark the overall verify FAIL until clean.

Step 4: Gate 3 — workspace unit tests

Mirrors the CI unit-tests step (cargo test --workspace). This runs the non-ignored suite across every crate.

cargo test --workspace

Expected: Exit 0 and a test result: ok. line for each crate's test binary. The unit count is ~49 at v0.4.0 and grows per milestone (M5 adds watcher tests). Treat the count as informational only — assert on exit 0 / test result: ok, never on a specific number.

On failure: A non-zero exit and test result: FAILED. name the failing tests. Reproduce a single one with cargo test --workspace <test_name> -- --nocapture, fix, and re-run. Mark the overall verify FAIL.

Step 5: Gate 4 (optional) — Postgres-gated integration suite

The #[ignore]-gated integration suite is omitted from CI today (it needs a Postgres+pgvector service and a VOYAGE_API_KEY secret — see docs/CONTINUE_HERE.md §5). Run it locally only when the database and .env are available; skip this gate otherwise without failing verify.

# Only when the memex-pg container is up and .env is sourced:
docker start memex-pg            # idempotent if already running
set -a && . ./.env && set +a     # exports MEMEX_TEST_PG_URL, VOYAGE_API_KEY, ...
MEMEX_TEST_PG_URL="$MEMEX_TEST_PG_URL" cargo test --workspace -- --include-ignored

Expected: Exit 0 with test result: ok. including the integration binaries. The total is ~60 at v0.4.0 (unit + ~11 integration) and also grows per milestone — informational only.

On failure: If the suite fails because Postgres is unreachable or MEMEX_TEST_PG_URL is unset, that is an environment gap — note it as "integration gate skipped" rather than a code FAIL. If it fails with actual test result: FAILED., treat it as a real FAIL and fix.

Step 6: Report per-gate results and the overall verdict

Summarize each gate (PASS/SKIP/FAIL) and the rolled-up verdict.

# Conceptual rollup: overall is non-zero if ANY required gate failed.
echo "fmt: <PASS|FAIL>  clippy: <PASS|FAIL>  unit-tests: <PASS|FAIL>  integration: <PASS|SKIP|FAIL>"

Expected: Gates 1–3 (required) all PASS. The integration gate is PASS or SKIP. Overall verdict PASS.

On failure: Exit non-zero overall if ANY required gate (1–3) or a non-skipped integration run failed. Do not proceed to commit-changes until the verdict is PASS.

Validation

  • Run from the memex repo root (rust-toolchain.toml present; rustup show reports 1.96.0)
  • cargo fmt --all --check exits 0 with no diff
  • cargo clippy --workspace --all-targets -- -D warnings exits 0
  • cargo test --workspace exits 0 with test result: ok. per crate
  • Test counts reported as informational (~49 unit / ~60 total at v0.4.0), never asserted as a pass/fail threshold
  • Integration gate either run (Postgres up + .env sourced) and green, or explicitly recorded as SKIPPED
  • Overall verdict is non-zero if any required gate failed

Common Pitfalls

  • Asserting a fixed test count. Counts grow each milestone; a literal assert 49 turns a healthy run red. Assert exit 0 / test result: ok and report the count as ~N at v0.4.0.
  • Running from a subcrate. Outside the repo root, rust-toolchain.toml is not picked up, so local fmt/clippy can drift from CI's 1.96.0 and give false greens or reds. Always run from the root.
  • Treating a skipped integration gate as a failure. No Postgres / no .env means SKIP, not FAIL. Only test result: FAILED. on a run that actually executed is a real failure.
  • Dropping --all-targets from clippy. Without it, lints in test and example code are missed, so local clippy passes while CI fails. Match CI's --workspace --all-targets -- -D warnings exactly.
  • Treating this as a CI replacement. This is a local early-warning gate. The authority remains .github/workflows/ci.yml; a green local run does not exempt a PR from CI.
  • Forgetting to source .env before the integration gate. A .env-loading gotcha is documented in docs/OBSERVATIONS.md; export the file (set -a && . ./.env && set +a) so MEMEX_TEST_PG_URL reaches the test process.

Related Skills

  • memex — the umbrella skill for agent-native shared memory; this gate guards commits made within its workflow.
  • memex-wrap — session-close ritual; run memex-verify as its pre-commit gate before the wrap commits.
  • memex-init — session-start ritual that pairs with this close-side gate.
  • commit-changes — the next step once all required gates pass.

GitHub 仓库

pjt222/agent-almanac
路径: i18n/de/skills/memex-verify
0
agentsagentskillsai-assisted-developmentclaude-codeskillsteams
FAQ

Frequently asked questions

What is the memex-verify skill?

memex-verify is a Claude Skill by pjt222. Skills package instructions and resources that Claude loads on demand, so Claude can perform memex-verify-related tasks without extra prompting.

How do I install memex-verify?

Use the install commands on this page: add memex-verify to Claude Code as a plugin, or clone its repository into your skills directory, then restart Claude so it picks up the skill.

What category does memex-verify belong to?

memex-verify is in the Testing category, tagged ai, testing and design.

Is memex-verify free to use?

Yes. memex-verify is listed on AIMCP and free to install. It runs inside Claude, so no separate service account is required to use the skill itself.

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