Move the two wizard lookups behind application-layer facades so ui/ no longer injects infrastructure adapters directly: - RegistratieLookupStore (BRP address + DUO diplomas): owns the resources, runs the trust-boundary parse, exposes adresStatus/prefillAdres/duoLookup. - IntakePolicyStore (scholing threshold): owns the policy resource, exposes the derived threshold. Add the lint rule ui/ + layout/ ↛ **/infrastructure/** (@typescript-eslint variant so it composes with the base direction rules; stories/specs exempted as test scaffolding). Add the documented showcase sanction (may read every context). Fix the docs' inventory: 6 contexts / 5 layers, +brief, +contracts. Co-Authored-By: Claude Opus 4.8 (1M context) <noreply@anthropic.com>
486 lines
21 KiB
Markdown
486 lines
21 KiB
Markdown
# Architecture guide
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A walkthrough of how this app is organised and, especially, **how state is
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managed** — written for a developer who has _not_ done functional programming
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before. No prior FP knowledge assumed. Where we use an FP idea, we explain it in
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plain language first.
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This is a demo of a Dutch BIG-register self-service portal (a healthcare
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professional logs in, sees their registration, and can apply for
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re-registration — "herregistratie").
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> New to functional programming or The Elm Architecture? Start with the progressive
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> learning guide [`fp-tea-atomic-design.md`](./fp-tea-atomic-design.md), which teaches
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> the concepts (with Elm ↔ this-app examples) and the recipes; this document is the
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> reference deep-dive it points back to.
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---
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## 1. The big picture: six "contexts", five "layers"
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The code is split first by **business area** (a "bounded context" in DDD terms),
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then inside each area by **layer**.
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```
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src/app/
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shared/ things every context reuses (no business logic of its own)
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auth/ logging in / the current session
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registratie/ the user's BIG registration + personal data
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herregistratie/ the re-registration application flow
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brief/ letter-composition teaching slice
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showcase/ a teaching page; not a real feature (may read every context)
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```
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`showcase/` is a **sanctioned exception** to the direction rules: its whole point is
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showing multiple contexts side by side, so it may import any context. Nothing imports
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`showcase`. (Enforced in `eslint.config.mjs`; same precedent as the `debug-state` panel.)
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### The atomic-design hierarchy, visualised
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The UI is built bottom-up: tiny **atoms** combine into **molecules**, which combine
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into **organisms**, which fill **templates**, which become **pages**. Each level only
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ever uses the level(s) below it — so anything you build is reusable by everything above.
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```mermaid
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graph TD
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P["<b>Pages</b><br/>dashboard.page · login.page · intake.page"]
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T["<b>Templates</b><br/>page-shell · shell"]
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O["<b>Organisms</b><br/>login-form · registration-table · intake-wizard"]
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M["<b>Molecules</b><br/>form-field · data-row · async"]
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A["<b>Atoms</b><br/>button · text-input · radio-group · alert · heading"]
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P --> T --> O --> M --> A
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classDef l fill:#e5f1fb,stroke:#007bc7,color:#00567d;
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class P,T,O,M,A l;
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```
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Adding the branching intake wizard needed **one new atom** (`radio-group`) and **one new
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organism** (`intake-wizard`) — everything else (`form-field`, `text-input`, `button`,
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`alert`, `spinner`, the page shell) was reused unchanged. That is the payoff of the
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hierarchy.
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Inside a context you'll see the same five folders. They answer five different
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questions:
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| Layer | Answers… | May import Angular? | Example here |
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| ----------------- | ------------------------------------- | ------------------- | ------------------------------------------- |
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| `domain/` | What are the business rules and data? | **No** (pure TS) | `registration.ts`, `registration.policy.ts` |
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| `application/` | How do we coordinate a task / state? | Yes (signals) | `big-profile.store.ts` |
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| `infrastructure/` | Where does data come from? | Yes (HTTP) | `big-register.adapter.ts`, `brp.adapter.ts` |
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| `contracts/` | What's the FE⇄BE wire shape? | **No** (pure DTOs) | `dashboard-view.dto.ts` |
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| `ui/` | How does it look? | Yes (components) | `dashboard.page.ts` |
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**The one rule that keeps it sane: dependencies only point _inward_.** UI may use
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application, application may use domain, everyone may use `shared`. Never the
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other way around. In particular **`ui/` and `layout/` never import `infrastructure/`
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directly** — they reach data through an application store or command (lint-enforced).
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The `domain/` layer imports nothing from Angular, so the business rules are plain
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functions you can read and test in isolation.
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Allowed direction: `herregistratie → registratie → shared`, `auth → shared`,
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`brief → shared` (`showcase` may read every context; see above).
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### Why the `shared/` kernel is split too
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- `shared/kernel/` — tiny generic helpers (no Angular).
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- `shared/application/` — generic state tools (RemoteData, the store).
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- `shared/ui/` — the atomic-design building blocks (buttons, inputs, the async renderer). These know nothing about BIG-register.
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- `shared/layout/` — page chrome (header, footer, shells).
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- `shared/infrastructure/` — the demo HTTP interceptor.
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Imports use path aliases so they read as direction statements:
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`@shared/*`, `@auth/*`, `@registratie/*`, `@herregistratie/*`, `@brief/*`.
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---
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## 2. The state-management ideas (the important part)
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Most UI bugs come from **state that can lie** — two booleans that disagree, data
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that's shown while an error is also showing, a "submit" that fires while a field
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is invalid. The whole strategy here is: **make those impossible by choosing
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better types.** Three tools do the work.
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### Why not "just signals"?
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You _can_ track a network call with three signals — `isLoading`, `error`, `data`. The
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problem is the **state space**: three booleans is 2³ = **8** combinations, and most are
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nonsense the compiler still lets you write. A single discriminated union has **exactly
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the 4 states that are real** — the illegal ones can't be expressed at all.
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```mermaid
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graph LR
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subgraph bad["3 booleans = 8 states (most illegal)"]
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direction TB
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b1["loading ✓ · error ✗ · data ✗ ✅"]
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b2["loading ✗ · error ✓ · data ✗ ✅"]
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b3["loading ✗ · error ✗ · data ✓ ✅"]
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b4["loading ✓ · error ✓ · data ✓ ❌ nonsense"]
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b5["loading ✓ · error ✗ · data ✓ ❌ nonsense"]
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b6["… 3 more illegal combos ❌"]
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end
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subgraph good["1 union = 4 legal states"]
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direction TB
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g1["Loading"]
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g2["Empty"]
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g3["Failure (carries error)"]
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g4["Success (carries value)"]
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end
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bad -->|"choose a better type"| good
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classDef ok fill:#e8f5e9,stroke:#39870c; classDef no fill:#fdecea,stroke:#d52b1e;
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class b1,b2,b3,g1,g2,g3,g4 ok; class b4,b5,b6 no;
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```
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The same argument applies to forms (a `submitting` boolean that can be true _with_
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validation errors) and to the branching wizard (don't store "which step is next" — it can
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drift out of sync with the answers; **derive** it instead, see §5). Signals are still the
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engine underneath; we just give them types that can't lie.
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### 2a. `RemoteData` — one value instead of three booleans
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The naive way to track a network call:
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```ts
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isLoading = signal(true);
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error = signal<string | null>(null);
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data = signal<Thing | null>(null);
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```
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Three signals = eight combinations, and most are nonsense (loading **and** has
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data **and** has an error?). You end up writing defensive `if`s everywhere.
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Instead we use **one** value that is _exactly one of_ four shapes
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(`shared/application/remote-data.ts`):
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```ts
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type RemoteData<E, T> =
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| { tag: 'Loading' }
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| { tag: 'Empty' }
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| { tag: 'Failure'; error: E } // only this shape has an error
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| { tag: 'Success'; value: T }; // only this shape has a value
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```
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This is called a **discriminated union** (a.k.a. "tagged union" or "sum type"):
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a value that is one of several labelled shapes, where the `tag` tells you which.
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Notice the data lives _on_ the shape — you literally cannot read `.value` unless
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you're in the `Success` case, so "loaded but no data" can't be written down.
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To use it, you handle every case once. The `<app-async>` component
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(`shared/ui/async/async.component.ts`) does this for you: you give it a
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`RemoteData` (or a raw `httpResource`) and four templates, and it shows exactly
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one. There's also `foldRemote(rd, { loading, empty, failure, success })` for
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doing the same in TypeScript — the compiler makes you cover all four.
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```mermaid
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stateDiagram-v2
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[*] --> Loading: fetch starts
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Loading --> Success: data arrived
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Loading --> Empty: arrived, but no rows
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Loading --> Failure: request failed
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Failure --> Loading: reload()
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note right of Success
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value lives ONLY here
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end note
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note right of Failure
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error lives ONLY here
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end note
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```
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`map2` (§2b) combines two of these into one: **Failure if either failed, Loading if either
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is still loading, Success only when both succeeded** — so a page renders one state, never a
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contradictory mix.
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> **FP term:** a _pure function_ is one whose output depends only on its inputs
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> and which changes nothing else (no network, no writing to variables outside
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> it). Pure functions are easy to test and reason about. We push impure things
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> (HTTP, timers) to the edges.
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### 2b. Combining sources with `map2` — two services, one state
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The dashboard needs data from **two** services: the BIG-register (status,
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specialisms) and the BRP (name, address). Each is its own `RemoteData`. Tracking
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both by hand means juggling two loading flags, two errors…
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`map2` folds them into **one** `RemoteData` (`big-profile.store.ts`):
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```ts
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profile = computed(() =>
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map2(
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fromResource(this.registrationRes), // RemoteData from service A
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fromResource(this.personRes), // RemoteData from service B
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(registration, person) => ({ registration, person }), // runs only if BOTH succeeded
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),
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);
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```
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The rule baked into `map2`: the combined result is a **Failure if either
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failed**, **Loading if either is still loading**, and only **Success when both
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succeeded**. So the page renders one state and the combiner callback only runs
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when it's safe. (`map`, `map3`, `andThen` are variations on the same idea.)
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### 2c. The store — "all state changes go through one pure function"
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This is the "Elm-style" pattern. The idea in one sentence:
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> **Keep all state in one value (the _Model_). The only way to change it is to
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> send a _message_ (_Msg_) to a pure function `update(model, msg)` that returns
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> the next Model.**
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Why bother? Because to understand _every_ way the screen can change, you read
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_one_ function. No state is mutated anywhere else.
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```mermaid
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sequenceDiagram
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actor User
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participant View as View (template)
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participant Store as createStore (signal)
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participant Reduce as reduce() — PURE
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User->>View: clicks / types
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View->>Store: dispatch(msg)
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Store->>Reduce: reduce(model, msg)
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Reduce-->>Store: next model
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Store-->>View: signal updates → re-render
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Note over Reduce: the ONLY place state changes;<br/>no HTTP, no timers, no mutation
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```
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Side effects (HTTP) sit _outside_ this loop: a command does the I/O, then `dispatch`es a
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message describing the outcome (§2d). So the reducer stays pure and testable.
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The wizard (`herregistratie/domain/herregistratie.machine.ts`) is the clearest
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example. Its Model is a discriminated union:
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```ts
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type WizardState =
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| { tag: 'Editing'; step: 1 | 2; draft: Draft; errors: {...} }
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| { tag: 'Submitting'; data: Valid } // carries ONLY validated data
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| { tag: 'Submitted'; data: Valid }
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| { tag: 'Failed'; data: Valid; error: string };
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```
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Because `step` and `errors` exist _only_ on `Editing`, and the other states
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carry already-validated `data`, "submitting with validation errors showing" is
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not expressible. The messages and the pure reducer:
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```ts
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type WizardMsg =
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| { tag: 'SetField'; key; value }
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| { tag: 'Next' }
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| { tag: 'Back' }
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| { tag: 'Submit' }
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| { tag: 'Retry' }
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| { tag: 'SubmitConfirmed' }
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| { tag: 'SubmitFailed'; error };
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function reduce(state, msg) {
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/* returns the next state; no side effects */
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}
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```
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The component (`herregistratie-wizard.component.ts`) wires it to a signal with
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the tiny helper in `shared/application/store.ts`:
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```ts
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private store = createStore(initial, reduce);
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state = this.store.model; // a read-only signal of the current Model
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dispatch = this.store.dispatch; // send a Msg
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```
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In the template you don't mutate anything — you send messages:
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`(click)="dispatch({ tag: 'Back' })"`.
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### 2d. Side effects (HTTP) without polluting the reducer
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`reduce` is pure — it must not call the network. So how does a submit happen?
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The component has a small **command** method that does the impure work and then
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sends messages describing the outcome:
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```ts
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async runIfSubmitting() {
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if (this.state().tag !== 'Submitting') return;
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this.profile.beginHerregistratie(); // 1. optimistic (see below)
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const r = await submitHerregistratie(s.data); // 2. the actual call
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if (r.ok) { this.dispatch({ tag: 'SubmitConfirmed' }); this.profile.confirmHerregistratie(); }
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else { this.dispatch({ tag: 'SubmitFailed', error: r.error }); this.profile.rollbackHerregistratie(); }
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}
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```
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So the split is: **reducer = "what the new state is", command = "go do the thing,
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then tell the reducer what happened."**
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### 2e. Optimistic update + rollback, and shared state across pages
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`BigProfileStore` is marked `providedIn: 'root'`, which means Angular creates
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**one** instance for the whole app. Every page that injects it sees the same
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signals. That single shared instance _is_ our cross-page state — no extra
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library needed.
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When the user submits a herregistratie:
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1. **Optimistic:** `beginHerregistratie()` flips a `pendingHerregistratie`
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signal **before** the server answers. The dashboard already reads that
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signal, so it instantly shows "in behandeling" (in progress). The UI feels
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fast.
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2. **On success:** `confirmHerregistratie()` clears the flag and calls
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`resource.reload()` — that re-fetches the registration so the screen shows the
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real, updated server data. ("Invalidation": throw away the stale copy, fetch
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fresh.)
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3. **On failure:** `rollbackHerregistratie()` clears the flag, undoing the
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optimistic guess so the UI matches reality again.
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### 2f. Auth/session + the route guard
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`SessionStore` (`auth/application/session.store.ts`) holds `Session | null`, also
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a root singleton. `login()` is a command that calls the (mock) DigiD adapter and
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stores the result. The route guard (`auth/auth.guard.ts`) just reads
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`store.isAuthenticated()` and redirects to `/login` if you're not signed in.
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Protected routes list `canActivate: [authGuard]` in `app.routes.ts`.
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---
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## 3. "Parse, don't validate" — value objects
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A raw `string` could be anything. After you've checked a postcode is valid, the
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_type_ should remember that. So we have a `Postcode` type that can only be
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created by `parsePostcode`, which returns a `Result` (success-or-error)
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(`registratie/domain/value-objects/`):
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```ts
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const r = parsePostcode(userInput);
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if (r.ok)
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save(r.value); // r.value is a Postcode — guaranteed well-formed
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else showError(r.error); // r.error is the message
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```
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Once something hands you a `Postcode`, you never re-check it. The validity is
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baked into the type. Same idea for `Uren` and `BigNummer`.
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> **FP term:** `Result<E, T>` is "either an error `E` or a value `T`" — a
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> discriminated union with `{ ok: true, value }` or `{ ok: false, error }`. It's
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> how a function reports failure without throwing.
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---
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## 4. How to add a new feature (recipe)
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1. **Domain first.** Add the types and pure rules in the right context's
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`domain/`. No Angular. Write a `.spec.ts` next to it.
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2. **Infrastructure.** If you need data, add an adapter in `infrastructure/`
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returning an `httpResource` (or a command function returning a `Result`).
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3. **Application.** If there's state to coordinate, add/extend a store
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(`providedIn: 'root'` if it must be shared across pages). Model state as a
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discriminated union; change it only through a pure `update`/`reduce`.
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4. **UI last.** Build the page/organism from `shared/ui` atoms. Render async
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state through `<app-async>`. Send messages; don't mutate.
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If you're tempted to add a third boolean to track state — stop and model it as a
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discriminated union instead.
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> **Worked example — the branching intake wizard** (`herregistratie/`). Domain first:
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> `intake.machine.ts` is one tagged union plus a pure `reduce` and a pure
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> `visibleSteps(answers)`. A command `submit-intake.ts` does the I/O. UI last:
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> `intake-wizard.component.ts` (organism) is built from `form-field`, `text-input` and the
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> new `radio-group` atom; `intake.page.ts` assembles it. No new state library, no booleans.
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---
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## 5. Branching by _deriving_, not storing
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The intake wizard (`herregistratie/domain/intake.machine.ts`) shows the most important
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state-management habit: **don't store what you can derive.** Naively you'd track "which
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step is next" in a field and update it by hand on every answer — and the moment an earlier
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answer changes, that field is stale. Instead, the set of steps is a pure function of the
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answers:
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```ts
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function visibleSteps(a: Answers): StepId[] {
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const steps: StepId[] = ['buitenland'];
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if (a.buitenlandGewerkt === 'ja') steps.push('buitenlandDetails'); // branch appears
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steps.push('uren');
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if (lageUren(a)) steps.push('scholing'); // branch appears
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steps.push('punten', 'review');
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return steps;
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}
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```
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The state keeps only the raw `answers` and a numeric `cursor`; the visible step is
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`visibleSteps(answers)[cursor]`. Change "buiten Nederland gewerkt?" to _ja_ and the country
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question simply exists; change it back and it's gone — the cursor is clamped to the new
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list. There's no synchronisation code to get wrong, and `visibleSteps` is a one-line unit
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test. Answers persist to `localStorage` (an `effect` in the component) so a reload resumes
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where the user left off.
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```mermaid
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stateDiagram-v2
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[*] --> Answering
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Answering --> Answering: SetAnswer / Next / Back<br/>(steps re-derived each time)
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Answering --> Submitting: Submit (all answers valid)
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Submitting --> Submitted: ok
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Submitting --> Failed: error
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Failed --> Submitting: Retry
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```
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See it live on `/concepts` (section 5) — the step list and the "stap N van M" counter
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update as you type.
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---
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## 6. Connecting to a .NET backend
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> **Implemented.** No longer hypothetical: a minimal ASP.NET Core backend now hosts
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> the business rules and serves the endpoints; the FE consumes it through an
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> NSwag-generated typed client. See `backend/README.md`. The text below remains as
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> the rationale for _why_ only `infrastructure/` + `contracts/` had to change.
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The adapters used to read static JSON (`mock/*.json`). Because `infrastructure/` is the only
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layer that touches the network — the **anti-corruption boundary** — pointing the app at a
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real ASP.NET API touched _only these files_. Domain, application and UI don't change.
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The one concrete change per adapter: a **DTO** type matching the .NET response, a
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`toDomain` mapper, and a real URL.
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```ts
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// infrastructure/big-register.adapter.ts
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// 1) Shape exactly as ASP.NET serialises it (camelCase via the default JsonSerializer).
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interface RegistrationDto {
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bigNumber: string;
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name: string;
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status: 'Registered' | 'Suspended' | 'StruckOff';
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reregistrationDate?: string;
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// …
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}
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// 2) Map the wire shape to our domain union (this is the anti-corruption layer).
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function toDomain(dto: RegistrationDto): Registration { /* build the tagged union */ }
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|
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// 3) Same httpResource, real endpoint instead of mock/registration.json.
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registrationResource() {
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return httpResource(() => `${environment.apiBaseUrl}/registrations/me`, { parse: toDomain });
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}
|
|
```
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|
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Practical notes, kept lazy:
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|
|
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- **Base URL** via Angular environments (`environment.apiBaseUrl`); `proxy.conf.json` in dev
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|
to avoid CORS, or enable CORS on the .NET side for the SPA origin.
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- **Auth**: send the bearer/cookie with an `HttpInterceptor` (the existing
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`scenario.interceptor.ts` shows the pattern — replace or disable it for the real API).
|
|
- **The contract**: start with **hand-written DTOs** (shown above) — zero tooling. When the
|
|
API surface grows, generate a typed client from the .NET **OpenAPI/Swagger** document
|
|
(e.g. NSwag) so the DTOs stay in sync automatically. Either way, keep `toDomain` as the
|
|
single place the wire format meets our types.
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- Nothing else moves: `<app-async>`, the stores, and every page keep working unchanged.
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|
|
|
---
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## 7. Mini-glossary
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- **Pure function** — output depends only on inputs; no side effects. Easy to test.
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|
- **Discriminated / tagged union (sum type)** — a value that is exactly one of several labelled shapes (`{ tag: 'A'; ... } | { tag: 'B'; ... }`). The `tag` says which; each shape carries only the data that makes sense for it.
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- **`RemoteData`** — a tagged union for an async value: Loading / Empty / Failure / Success.
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- **`Result<E,T>`** — a tagged union for success-or-error.
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- **Value object** — a small type whose validity is guaranteed by its constructor (e.g. `Postcode`).
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- **Reducer (`update`/`reduce`)** — the one pure function that maps `(state, message) → next state`.
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- **Command** — an impure function that does I/O (HTTP, timer) and then dispatches messages with the outcome.
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- **Optimistic update** — show the expected result immediately, then confirm or roll back when the server answers.
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|
- **Bounded context** — a self-contained business area with its own language and folder (`auth`, `registratie`, `herregistratie`).
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- **`signal` / `computed`** — Angular's reactive values; `computed` recalculates automatically when the signals it reads change.
|