| name | rails-tdd-slices |
| license | MIT |
| description | Use when choosing the best first failing RSpec spec or vertical slice for a Ruby on Rails change. Covers request vs model vs service vs job vs engine spec selection, system spec escalation, smallest safe slice planning, and Rails-first TDD sequencing. Trigger words: where to start testing, what test to write first, RSpec, test-driven development, TDD, first failing test.
|
Rails TDD Slices
Use this skill when the hardest part of the task is deciding where TDD should start.
Core principle: Start at the highest-value boundary that proves the behavior with the least unnecessary setup.
Quick Reference
| Change type | First spec | Path | Why |
|---|
| API contract, params, status code, JSON shape | Request spec | spec/requests/ | Proves the real HTTP contract |
| Domain rule on a cohesive record or value object | Model spec | spec/models/ | Fast feedback on domain behavior |
| Multi-step orchestration across collaborators | Service spec | spec/services/ | Focuses on the workflow boundary |
| Enqueue/run/retry/discard behavior | Job spec | spec/jobs/ | Captures async semantics directly |
| Critical Turbo/Stimulus or browser-visible flow | System spec | spec/system/ | Use only when browser interaction is the real risk |
| Engine routing, generators, host integration | Engine spec | spec/requests/ or engine path | Normal app specs miss engine wiring — see rails-engine-testing |
| Bug fix | Reproduction spec | Where the bug is observed | Proves the fix and prevents regression |
| Unsure between layers | Higher boundary first | — | Easier to prove real behavior before drilling down |
HARD-GATE
DO NOT choose the first spec based on convenience alone.
DO NOT start with a lower-level unit if the real risk is request, job, engine, or persistence wiring.
ALWAYS run the chosen spec and verify it fails for the right reason before implementation.
Process
- Name the behavior: State the user-visible outcome or invariant to prove.
- Locate the boundary: Decide where the behavior is observed first: HTTP request, service entry point, model rule, job execution, engine integration, or external adapter.
- Pick the smallest strong slice: Choose the spec type that proves the behavior without dragging in unrelated layers.
- Suggest the path: Name the likely spec path using normal Rails conventions (for example
spec/requests/..., spec/services/..., spec/jobs/..., spec/models/...).
- Write one failing example: Keep it minimal; one example is enough to open the gate.
- Run and validate: Confirm the failure is because the behavior is missing, not because the setup is broken.
- Hand off: Continue with
rspec-best-practices, rspec-service-testing, rails-engine-testing, or the implementation skill that fits the slice.
Examples
Good: New JSON Endpoint
RSpec.describe "POST /orders", type: :request do
let(:user) { create(:user) }
let(:valid_params) { { order: { product_id: create(:product).id, quantity: 1 } } }
before { sign_in user }
it "creates an order and returns 201" do
post orders_path, params: valid_params, as: :json
expect(response).to have_http_status(:created)
expect(response.parsed_body["id"]).to be_present
end
end
Good: New Orchestration Service
RSpec.describe Orders::CreateOrder do
subject(:result) { described_class.call(user: user, product: product, quantity: 1) }
let(:user) { create(:user) }
let(:product) { create(:product, stock: 5) }
it "returns a successful result with the new order" do
expect(result).to be_success
expect(result.order).to be_persisted
end
end
Test Feedback Checkpoint
After writing and running the first failing spec, pause before implementation and present the test for review:
CHECKPOINT: Test Design Review
1. Present: Show the failing spec(s) written
2. Ask:
- Does this test cover the right behavior?
- Is the boundary correct (request vs service vs model)?
- Are the most important edge cases represented?
- Is the failure reason correct (feature missing, not setup error)?
3. Confirm: Only proceed to implementation once test design is approved.
Why this matters: Implementing against a poorly designed test wastes the TDD cycle. A 2-minute review of the test now prevents a full rewrite later.
Hand off: After test design is confirmed → rspec-best-practices for the full TDD gate cycle.
Pitfalls
| Pitfall | What to do |
|---|
| Starting with a PORO spec because it is easy | Easy ≠ high-signal — choose the boundary that proves the real behavior |
| Writing three spec types before running any | Pick one slice, run it, prove the failure, then proceed |
| Defaulting to request specs for everything | Some domain rules are better proven at the model or service layer |
| Defaulting to model specs for controller behavior | Controllers and APIs need request-level proof |
| Using controller specs as the default HTTP entry point | Prefer request specs unless the repo has an existing reason |
| Jumping to system specs too early | Reserve for critical browser flows that lower layers cannot prove |
| "We'll add the request spec later" | The spec is the gate — implement only after the first slice is failing for the right reason |
| First spec requires excessive factory setup | Excessive setup = wrong boundary. Simplify or move the slice. |
Integration
| Skill | When to chain |
|---|
| rspec-best-practices | After choosing the first slice, to enforce the TDD loop correctly |
| rspec-service-testing | When the first slice is a service object spec |
| rails-engine-testing | When the first slice belongs to an engine |
| rails-bug-triage | When the starting point is an existing bug report |
| refactor-safely | When the task is mostly structural and needs characterization tests first |