Skills Development F1-Inspired Test Executor and Reporter

F1-Inspired Test Executor and Reporter

v20260701
wjttc-tester
This skill applies rigorous, F1-inspired standards to software quality assurance. It executes comprehensive test plans, classifies failures across five critical tiers (Brake, Engine, Aero, Tyre, Pit), audits Continuous Integration (CI) signal integrity, and generates detailed WJTTC reports. Use it to validate functionality, reproduce complex bugs, or determine the readiness of a release.
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Overview

WJTTC Championship Tester

"We break things so others never have to know they were broken."

Apply F1-inspired standards to software testing. When brakes must work flawlessly at race pace, so must the code in production. This skill executes test plans and files reports โ€” it is the driver, not the engineer. To plan and generate the suite, use wjttc-builder.

When to use this skill

  • Running an existing or just-written test plan and reporting outcomes
  • Reproducing and root-causing a reported bug
  • Edge-case / error-handling / regression validation
  • Auditing whether the suite's CI signal can still be trusted
  • Producing a WJTTC report with a tier verdict

The WJTTC five tiers

Triage every test by blast radius. The first three set severity; Tyre and Pit cover durability and the release gate.

Tier Symbol Meaning Examples
Brake ๐Ÿšจ Life-critical โ€” failure is catastrophic data loss, auth bypass, payment errors, destructive ops without confirm
Engine โšก Performance-critical โ€” wrong results / poor UX API accuracy, data transforms, calculations, format compliance, perf
Aero ๐Ÿ Polish & edge cases โ€” minor inconvenience UI quirks, rare message formatting, optional-feature edges, docs
Tyre ๐Ÿ›ž Durability under load โ€” degradation over time stress/volume, concurrency, memory growth, large inputs
Pit ๐Ÿ”ง Release gate โ€” the stop that lets you go smoke/regression suite, CI green, the WJTTC report filed

Test Brake first. If the brakes don't work, nothing else matters.

Step 0 โ€” Signal Integrity pre-audit (run BEFORE adding/running anything new)

Red CI is a contract: it must always mean "stop, look, fix." A suite with high coverage but flaky reds is less trustworthy than a smaller suite with zero false alarms โ€” because the team has stopped reading the reds. Fix the signal before you add more tests.

Method โ€” classify the last 30 days of CI failures:

Bucket Definition Verdict
Real bug Red mapped to a real defect; fixed by a code change โœ“ Signal worked
Flake Timing/network/concurrency noise; passed on rerun, no code change โœ— Test design defect
Infra Missing secret, runner image change, upstream dep โ€” not the code โœ— Workflow design defect

Signal Integrity Score: SI = Real bugs / (Real bugs + Flakes + Infra) ร— 100

SI % Verdict Action
100% โœช Maintain โ€” exemplary signal
95โ€“99% โ˜… Championship Annotate any flake immediately
85โ€“94% โ—‡ Acceptable Schedule the flake-class fix this sprint
70โ€“84% โ— Eroding Stop adding tests โ€” fix flakes first
<70% โ—‹ Dead signal Block merges until signal restored

Eliminate on sight: hard absolute-time perf asserts on shared runners (expect(t).toBeLessThan(30)) โ†’ move to a non-gating workflow; network calls in the main suite โ†’ mock at the boundary; concurrency tests without explicit ordering; secret-dependent steps that hard-fail when missing โ†’ grey-skip.

The inverse rule: green CI that passes while something is broken is equally a violation. If a real bug shipped despite green, write the regression test BEFORE the fix lands.

The conversation is the real gate. CI is supporting infrastructure for the human + AI audit; flaky CI wastes the audit's bandwidth. Signal Integrity keeps CI worthy of the conversation.

Execution loop

  1. Scope โ€” what should it do? happy path, edges, failure modes, perf targets, tier of each.
  2. Audit signal (Step 0) before trusting or extending the suite.
  3. Run each test: set up, prepare data, execute, observe actual vs expected, record pass/fail/blocked, capture evidence on failure.
  4. Reproduce every failure deterministically; root-cause it; note the fix.
  5. Tier coverage check โ€” confirm every test is tiered:
    faf wjttc --path tests          # audit tier coverage (vendor-neutral)
    faf wjttc --strict --json       # CI gate: non-zero if any test is untiered
    
  6. Report โ€” file the WJTTC report (below), then surface the tier verdict.

WJTTC report format

Save reports to ./wjttc-reports/ in the project under test (or a path the user specifies). Never write to an absolute/personal path. Name files YYYY-MM-DD-{project}-{feature}-tests.yaml.

---
# WJTTC Test Report
project: "project-name"
feature: "feature-being-tested"
date: "2026-06-26"
tier: "Engine"            # Brake | Engine | Aero | Tyre | Pit
result: "PASS"            # PASS | FAIL | BLOCKED
environment: "OS, runtime version, key deps"
---

## Summary
objective: What was tested
totals: { total: 25, passed: 23, failed: 2, blocked: 0, pass_rate: "92%" }

## Failures
- name: "Long-string handling"
  tier: "Engine โšก"
  status: "FAIL"
  steps: ["...", "..."]
  expected: "Handle gracefully"
  actual: "Crash"
  error: "RangeError: ..."
  root_cause: "Unbounded buffer"
  fix: "Cap input length / stream"

## Edge cases
- { case: "Empty string", input: "''", expected: "error", actual: "error", status: "PASS" }
- { case: "Unicode", input: "๐ŸŽ๏ธ", expected: "stored", actual: "stored", status: "PASS" }

## Performance
- { op: "file read",  target: "<50ms", actual: "18ms", status: "PASS" }
- { op: "parse YAML", target: "<50ms", actual: "12ms", status: "PASS" }

## Bugs found
- id: 1
  title: "..."
  severity: "Brake"      # tier doubles as severity
  reproducibility: "Always"
  impact: "Who is affected, how serious"
  fix: "..."

## Coverage
tested:     ["happy path", "edges", "error handling", "perf"]
not_tested: ["concurrent access", "files >100MB"]

## Verdict
tier: "โ—† Silver"          # from the tier table below
to_next: ["Fix 2 failing Engine tests", "Add Tyre concurrency tests"]

Tier verdict

Map the pass rate (or SI score) to the single canonical FAF tier ladder. No second ladder, no medals.

Score Tier Symbol
100% Trophy โœช
99% Gold โ˜…
95% Silver โ—†
85% Bronze โ—‡
70% Green โ—
55% Yellow โ—
1% Red โ—‹
0% White โ™ก

The FAF score is deterministic โ€” same input, same score. A test report should be just as falsifiable: every verdict traces to a reproducible run. FAF doesn't lie.

WJTTC method notes

  • Test with real data, not just sanitized inputs โ€” anonymized production data, messy inputs, production-like volume.
  • Document every failure so it can be reproduced: what failed, how to repro, why it matters, how to fix.
  • Tier before you test โ€” severity is the tier, so triage first; faf wjttc enforces that nothing ships untiered.
  • Wire it into CI with TAF receipts so the report is part of the record, not a one-off:
    faf taf setup --write     # create .github/workflows/taf.yml (test receipts)
    faf score --json          # deterministic score snapshot for the receipt
    

Quick checklist (before release)

  • Signal Integrity audited (SI โ‰ฅ 85%)
  • Brake tests pass โ€” zero tolerance
  • Edges + error handling tested
  • Tyre: behaves under load / concurrency
  • faf wjttc --strict green โ€” every test tiered
  • Regression (Pit) suite passes
  • WJTTC report filed in ./wjttc-reports/
  • Pass rate โ‰ฅ 85% (โ—‡ Bronze, production-ready)

Resources


Made with ๐Ÿงก by wolfejam.dev โ€” "We break things so others never have to know they were broken."

Limitations

  • Use this skill only when the task clearly matches its upstream source and local project context.
  • Verify commands, generated code, dependencies, credentials, and external service behavior before applying changes.
  • Do not treat examples as a substitute for environment-specific tests, security review, or user approval for destructive or costly actions.
Info
Category Development
Name wjttc-tester
Version v20260701
Size 8.55KB
Updated At 2026-07-02
Language