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feat: add unit tests (Rust parser+DB, Vitest frontend) and test workflow

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Blomios
2026-04-25 15:11:25 +02:00
parent b42674b22c
commit 8fd71de1aa
15 changed files with 689 additions and 5 deletions
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12
package.json
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@ -7,7 +7,9 @@
"dev": "vite",
"build": "tsc && vite build",
"preview": "vite preview",
"tauri": "tauri"
"tauri": "tauri",
"test": "vitest run",
"test:watch": "vitest"
},
"dependencies": {
"@tanstack/react-query": "^5.99.2",
@ -22,12 +24,18 @@
"devDependencies": {
"@tailwindcss/vite": "^4.2.4",
"@tauri-apps/cli": "^2",
"@testing-library/jest-dom": "^6.0.0",
"@testing-library/react": "^16.0.0",
"@testing-library/user-event": "^14.0.0",
"@types/react": "^19.1.8",
"@types/react-dom": "^19.1.6",
"@vitejs/plugin-react": "^6.0.1",
"@vitest/coverage-v8": "^3.0.0",
"esbuild": "^0.28.0",
"jsdom": "^26.0.0",
"tailwindcss": "^4.2.4",
"typescript": "~5.8.3",
"vite": "^8.0.9"
"vite": "^8.0.9",
"vitest": "^3.0.0"
}
}

4
src-tauri/.claude/agent-memory/tauri-rust-architect/MEMORY.md Normal file
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@ -0,0 +1,4 @@
# Memory Index
- [TougliGui DB Schema](project_db_schema.md) — 7 tables SQLite, conventions migrate() idempotente, structure quest_previews
- [Patterns Rust TougliGui](project_rust_patterns.md) — DbState/Mutex, Result<T,String>, placeholders SQL positionnels, pattern test_db() in-memory

18
src-tauri/.claude/agent-memory/tauri-rust-architect/project_db_schema.md Normal file
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@ -0,0 +1,18 @@
---
name: TougliGui DB Schema
description: Tables SQLite créées par db::migrate() et conventions de la couche base de données
type: project
---
La fonction `db::migrate()` crée 7 tables via `execute_batch` avec `IF NOT EXISTS` (donc idempotente) :
- `profiles` (id TEXT PK, name TEXT UNIQUE, created_at TEXT)
- `guides` (gid TEXT PK, name TEXT, data TEXT, last_synced_at TEXT)
- `quest_completions` (profile_id, quest_name — PK composite, FK → profiles ON DELETE CASCADE)
- `settings` (key TEXT PK, value TEXT)
- `quest_step_progress` (profile_id, quest_name, step_index — PK composite, FK → profiles)
- `resource_inventory` (profile_id, resource_name — PK composite, FK → profiles)
- `quest_previews` (quest_url TEXT PK, indicators_json TEXT, cached_at TEXT DEFAULT datetime('now'))
**Why:** Connaissance nécessaire pour écrire les tests et vérifier les migrations.
**How to apply:** Toute modification de schéma doit passer par `migrate()` avec `IF NOT EXISTS` ou une migration additive.

40
src-tauri/.claude/agent-memory/tauri-rust-architect/project_rust_patterns.md Normal file
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@ -0,0 +1,40 @@
---
name: Patterns Rust observés dans TougliGui
description: Conventions de code Rust/Tauri utilisées dans le projet (state, erreurs, SQL, modules)
type: project
---
## State Tauri
`DbState(pub Mutex<Connection>)` dans `commands.rs` — une seule connexion SQLite partagée via Mutex.
## Propagation d'erreurs
Les commandes Tauri retournent `Result<T, String>` : `.map_err(|e| e.to_string())`. Pas de type d'erreur custom.
## Paramètres SQL positionnels
rusqlite utilise `?1`, `?2`... (positionnels nommés) et non `?` (positionnels ordinals). Les fonctions `get_cached_previews` et `get_cached_urls` construisent dynamiquement les placeholders avec `format!("?{}", i)` pour les `IN (...)` variadic.
## Sérialisation JSON en DB
`quest_previews.indicators_json` stocke un `Vec<CombatIndicator>` sérialisé via `serde_json`. Désérialisé au retour avec `serde_json::from_str`.
## Structure CombatIndicator (parser.rs)
```rust
pub struct CombatIndicator {
pub combat_type: String,
pub count: String,
#[serde(default)] pub label: Option<String>,
#[serde(default)] pub evitable: bool,
}
```
## Pattern tests unitaires DB
```rust
fn test_db() -> Connection {
let conn = Connection::open_in_memory().unwrap();
crate::db::migrate(&conn).unwrap();
conn
}
```
Chaque test crée sa propre DB in-memory → isolation totale, pas de cleanup nécessaire.
**Why:** Conventions observées directement dans le code source.
**How to apply:** Respecter ces patterns dans tous les ajouts futurs pour maintenir la cohérence.

181
src-tauri/src/db.rs
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@ -351,3 +351,184 @@ pub fn set_setting(conn: &Connection, key: &str, value: &str) -> Result<()> {
)?;
Ok(())
}
#[cfg(test)]
mod tests {
use super::*;
use crate::parser::CombatIndicator;
fn test_db() -> Connection {
let conn = Connection::open_in_memory().unwrap();
migrate(&conn).unwrap();
conn
}
fn make_indicator(t: &str, c: &str) -> CombatIndicator {
CombatIndicator {
combat_type: t.to_string(),
count: c.to_string(),
label: None,
evitable: false,
}
}
// ── migrate ──────────────────────────────────────────────────────────────
#[test]
fn test_migrate_creates_all_tables() {
let conn = test_db();
let expected_tables = [
"profiles",
"guides",
"quest_completions",
"settings",
"quest_step_progress",
"resource_inventory",
"quest_previews",
];
for table in &expected_tables {
let count: i64 = conn
.query_row(
"SELECT COUNT(*) FROM sqlite_master WHERE type='table' AND name=?1",
params![table],
|row| row.get(0),
)
.unwrap();
assert_eq!(count, 1, "Table '{}' manquante après migration", table);
}
}
#[test]
fn test_migrate_idempotent() {
let conn = test_db();
// Un second appel ne doit pas paniquer ni retourner d'erreur (IF NOT EXISTS)
migrate(&conn).expect("Le second appel à migrate() ne doit pas échouer");
}
// ── settings ─────────────────────────────────────────────────────────────
#[test]
fn test_set_and_get_setting_roundtrip() {
let conn = test_db();
set_setting(&conn, "theme", "dark").unwrap();
let value = get_setting(&conn, "theme");
assert_eq!(value, Some("dark".to_string()));
}
#[test]
fn test_get_setting_missing_key_returns_none() {
let conn = test_db();
let value = get_setting(&conn, "cle_inexistante");
assert!(value.is_none());
}
#[test]
fn test_set_setting_overwrites_existing_value() {
let conn = test_db();
set_setting(&conn, "theme", "light").unwrap();
set_setting(&conn, "theme", "dark").unwrap();
let value = get_setting(&conn, "theme");
assert_eq!(value, Some("dark".to_string()));
}
// ── upsert_preview / get_cached_previews ─────────────────────────────────
#[test]
fn test_upsert_and_get_cached_previews_roundtrip() {
let conn = test_db();
let url = "https://example.com/quete/test".to_string();
let indicators = vec![
make_indicator("Monstre", "3"),
make_indicator("Boss", "1"),
];
upsert_preview(&conn, &url, &indicators).unwrap();
let result = get_cached_previews(&conn, &[url.clone()]);
assert!(result.contains_key(&url), "L'URL doit être présente dans le résultat");
let retrieved = &result[&url];
assert_eq!(retrieved.len(), 2);
assert_eq!(retrieved[0].combat_type, "Monstre");
assert_eq!(retrieved[0].count, "3");
assert_eq!(retrieved[1].combat_type, "Boss");
assert_eq!(retrieved[1].count, "1");
}
#[test]
fn test_upsert_preview_idempotent() {
let conn = test_db();
let url = "https://example.com/quete/idempotent".to_string();
let indicators_v1 = vec![make_indicator("Monstre", "2")];
let indicators_v2 = vec![make_indicator("Boss", "5")];
upsert_preview(&conn, &url, &indicators_v1).unwrap();
// Deuxième upsert sur la même URL : pas d'erreur de contrainte UNIQUE
upsert_preview(&conn, &url, &indicators_v2).unwrap();
let result = get_cached_previews(&conn, &[url.clone()]);
let retrieved = &result[&url];
// Seul le dernier upsert doit être présent
assert_eq!(retrieved.len(), 1);
assert_eq!(retrieved[0].combat_type, "Boss");
assert_eq!(retrieved[0].count, "5");
}
// ── get_cached_previews — cas limites ────────────────────────────────────
#[test]
fn test_get_cached_previews_partial_hit() {
let conn = test_db();
let url_cached = "https://example.com/quete/en-cache".to_string();
let url_missing = "https://example.com/quete/absente".to_string();
upsert_preview(&conn, &url_cached, &[make_indicator("Monstre", "1")]).unwrap();
let result = get_cached_previews(&conn, &[url_cached.clone(), url_missing.clone()]);
assert!(result.contains_key(&url_cached), "L'URL en cache doit être retournée");
assert!(!result.contains_key(&url_missing), "L'URL absente ne doit pas figurer dans le résultat");
assert_eq!(result.len(), 1);
}
#[test]
fn test_get_cached_previews_empty_input() {
let conn = test_db();
let result = get_cached_previews(&conn, &[]);
assert!(result.is_empty(), "Une liste vide d'URLs doit retourner un HashMap vide");
}
// ── get_cached_urls ───────────────────────────────────────────────────────
#[test]
fn test_get_cached_urls_returns_only_cached() {
let conn = test_db();
let cached: Vec<String> = (1..=3)
.map(|i| format!("https://example.com/quete/{}", i))
.collect();
let extra: Vec<String> = (4..=5)
.map(|i| format!("https://example.com/quete/{}", i))
.collect();
for url in &cached {
upsert_preview(&conn, url, &[make_indicator("Monstre", "1")]).unwrap();
}
let all_urls: Vec<String> = cached.iter().chain(extra.iter()).cloned().collect();
let result = get_cached_urls(&conn, &all_urls);
assert_eq!(result.len(), 3, "Seules les 3 URLs en cache doivent être retournées");
for url in &cached {
assert!(result.contains(url), "URL '{}' attendue dans le HashSet", url);
}
for url in &extra {
assert!(!result.contains(url), "URL '{}' ne doit pas être dans le HashSet", url);
}
}
#[test]
fn test_get_cached_urls_empty_input() {
let conn = test_db();
let result = get_cached_urls(&conn, &[]);
assert!(result.is_empty(), "Une liste vide doit retourner un HashSet vide");
}
}

187
src-tauri/src/parser.rs
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@ -46,7 +46,7 @@ pub struct QuestItem {
pub url: Option<String>,
}
#[derive(Debug, Serialize, Deserialize, Clone)]
#[derive(Debug, Serialize, Deserialize, Clone, PartialEq)]
pub struct CombatIndicator {
pub combat_type: String,
pub count: String,
@ -442,6 +442,191 @@ pub fn parse_guide(gid: &str, name: &str, csv: &str) -> GuideData {
parse_guide_with_links(gid, name, csv, &std::collections::HashMap::new())
}
#[cfg(test)]
mod tests {
use super::*;
// --- Helpers ---------------------------------------------------------------
/// Enveloppe un contenu dans un `<div class="paragraph">` complet pour simuler
/// la structure réelle de dofuspourlesnoobs.com.
fn para(inner: &str) -> String {
format!(r#"<html><body><div class="paragraph">{}</div></body></html>"#, inner)
}
// --- Tests -----------------------------------------------------------------
/// Cas 1 : aucun `<div class="paragraph">` contenant "À prévoir" → Vec vide.
#[test]
fn test_section_absente() {
let html = r#"<html><body><p>Rien ici</p></body></html>"#;
assert_eq!(extract_a_prevoir(html), vec![]);
}
/// Cas 2 : section présente mais `<ul>` vide → Vec vide.
#[test]
fn test_section_vide() {
let html = para(
r#"<strong>À prévoir :</strong>
<ul></ul>
<strong>Prochaine section</strong>"#,
);
assert_eq!(extract_a_prevoir(&html), vec![]);
}
/// Cas 3 : combat solo — `1 x combat seul.`
#[test]
fn test_combat_solo() {
let html = para(
r#"<strong>À prévoir :</strong>
<ul>
<li>1 x combat seul.</li>
</ul>"#,
);
let result = extract_a_prevoir(&html);
assert_eq!(result.len(), 1);
assert_eq!(result[0].combat_type, "solo");
assert_eq!(result[0].count, "1");
assert_eq!(result[0].label, None);
assert!(!result[0].evitable);
}
/// Cas 4 : combat groupe — `2 x combats (réalisable en groupe).`
#[test]
fn test_combat_groupe() {
let html = para(
r#"<strong>À prévoir :</strong>
<ul>
<li>2 x combats (réalisable en groupe).</li>
</ul>"#,
);
let result = extract_a_prevoir(&html);
assert_eq!(result.len(), 1);
assert_eq!(result[0].combat_type, "groupe");
assert_eq!(result[0].count, "2");
assert!(!result[0].evitable);
}
/// Cas 5 : donjon avec label — `1 x Donjon Antre du Dragon Cochon.`
#[test]
fn test_donjon_avec_label() {
let html = para(
r#"<strong>À prévoir :</strong>
<ul>
<li>1 x Donjon Antre du Dragon Cochon.</li>
</ul>"#,
);
let result = extract_a_prevoir(&html);
assert_eq!(result.len(), 1);
assert_eq!(result[0].combat_type, "donjon");
assert_eq!(result[0].count, "1");
assert_eq!(result[0].label, Some("Antre du Dragon Cochon".to_string()));
assert!(!result[0].evitable);
}
/// Cas 6 : item nommé — `1 x Parchemin de Frigost.`
#[test]
fn test_item_nomme() {
let html = para(
r#"<strong>À prévoir :</strong>
<ul>
<li>1 x Parchemin de Frigost.</li>
</ul>"#,
);
let result = extract_a_prevoir(&html);
assert_eq!(result.len(), 1);
assert_eq!(result[0].combat_type, "item");
assert_eq!(result[0].count, "1");
assert_eq!(result[0].label, Some("Parchemin de Frigost".to_string()));
assert!(!result[0].evitable);
}
/// Cas 7 : combat évitable — `1 x combat seul (évitable).`
#[test]
fn test_combat_evitable() {
let html = para(
r#"<strong>À prévoir :</strong>
<ul>
<li>1 x combat seul (évitable).</li>
</ul>"#,
);
let result = extract_a_prevoir(&html);
assert_eq!(result.len(), 1);
assert_eq!(result[0].combat_type, "solo");
assert!(result[0].evitable);
}
/// Cas 8 : quantité "Des" — `Des combats contre des monstres.` → count "?", type "combat_zone"
#[test]
fn test_quantite_des() {
let html = para(
r#"<strong>À prévoir :</strong>
<ul>
<li>Des combats contre des monstres.</li>
</ul>"#,
);
let result = extract_a_prevoir(&html);
assert_eq!(result.len(), 1);
assert_eq!(result[0].count, "?");
assert_eq!(result[0].combat_type, "combat_zone");
}
/// Cas 9 : section "À savoir" présente au lieu de "À prévoir" → Vec vide.
#[test]
fn test_a_savoir_ne_matche_pas() {
let html = para(
r#"<strong>À savoir :</strong>
<ul>
<li>1 x combat seul.</li>
</ul>"#,
);
assert_eq!(extract_a_prevoir(&html), vec![]);
}
/// Cas 10 : plusieurs items dans une même section — vérifier l'ordre et le count.
#[test]
fn test_multiple_items() {
let html = para(
r#"<strong>À prévoir :</strong>
<ul>
<li>1 x combat seul.</li>
<li>2 x combats (réalisable en groupe).</li>
<li>1 x Donjon Antre du Dragon Cochon.</li>
</ul>"#,
);
let result = extract_a_prevoir(&html);
assert_eq!(result.len(), 3);
assert_eq!(result[0].combat_type, "solo");
assert_eq!(result[0].count, "1");
assert_eq!(result[1].combat_type, "groupe");
assert_eq!(result[1].count, "2");
assert_eq!(result[2].combat_type, "donjon");
assert_eq!(result[2].count, "1");
assert_eq!(result[2].label, Some("Antre du Dragon Cochon".to_string()));
}
/// Cas 11 : entités HTML dans inner_html() — `&Agrave; pr&eacute;voir` doit être reconnu.
/// La crate `scraper` produit de l'inner_html avec ces entités non décodées.
/// On injecte la fixture en HTML brut avec entités comme le ferait scraper.
#[test]
fn test_entites_html() {
// On forge un HTML dont le inner_html() contiendra les entités telles quelles.
// scraper::Html::parse_document décode les entités dans .text() mais
// .inner_html() les re-sérialise en entités ASCII pour les caractères non-ASCII.
// Ici on passe directement le HTML avec les entités dans le <strong>.
let html = format!(
r#"<html><body><div class="paragraph"><strong>&Agrave; pr&eacute;voir :</strong><ul><li>1 x combat seul.</li></ul></div></body></html>"#
);
let result = extract_a_prevoir(&html);
assert_eq!(result.len(), 1, "La regex doit reconnaitre &Agrave; pr&eacute;voir");
assert_eq!(result[0].combat_type, "solo");
assert_eq!(result[0].count, "1");
}
}
pub fn parse_guide_with_links(
gid: &str,
name: &str,

1
src/__mocks__/@tauri-apps/api/core.ts Normal file
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@ -0,0 +1 @@
export const invoke = vi.fn().mockResolvedValue(null);

54
src/__tests__/HomeView.test.tsx Normal file
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@ -0,0 +1,54 @@
import { describe, it, expect, vi, beforeEach } from "vitest";
import { render, screen } from "@testing-library/react";
import userEvent from "@testing-library/user-event";
import HomeView from "../components/HomeView";
// État minimal du store pour que HomeView ne plante pas
const baseStoreState = {
guides: [],
profiles: [],
activeProfileId: null,
syncing: false,
openGuide: vi.fn(),
};
vi.mock("../store", () => ({
useStore: vi.fn((selector?: (s: unknown) => unknown) => {
return typeof selector === "function"
? selector(baseStoreState)
: baseStoreState;
}),
}));
describe("HomeView", () => {
beforeEach(() => {
vi.clearAllMocks();
});
it('ne montre pas la bannière "Première utilisation" sans needsSync', () => {
render(<HomeView />);
expect(screen.queryByText("Première utilisation")).not.toBeInTheDocument();
});
it('affiche la bannière "Première utilisation" quand needsSync est true', () => {
render(<HomeView needsSync={true} />);
expect(screen.getByText("Première utilisation")).toBeInTheDocument();
});
it('affiche le bouton "Synchroniser les guides" quand needsSync est true', () => {
render(<HomeView needsSync={true} onSync={vi.fn()} />);
expect(
screen.getByRole("button", { name: /Synchroniser les guides/i })
).toBeInTheDocument();
});
it("appelle onSync au clic sur le bouton de synchronisation", async () => {
const user = userEvent.setup();
const onSync = vi.fn();
render(<HomeView needsSync={true} onSync={onSync} />);
await user.click(screen.getByRole("button", { name: /Synchroniser les guides/i }));
expect(onSync).toHaveBeenCalledOnce();
});
});

52
src/__tests__/ProfileModal.test.tsx Normal file
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@ -0,0 +1,52 @@
import { describe, it, expect, vi, beforeEach } from "vitest";
import { render, screen } from "@testing-library/react";
import ProfileModal from "../components/ProfileModal";
// Mock du store Zustand — on expose des données neutres et des fonctions no-op
vi.mock("../store", () => ({
useStore: vi.fn((selector?: (s: unknown) => unknown) => {
const state = {
profiles: [],
activeProfileId: null,
setActiveProfile: vi.fn(),
createProfile: vi.fn(),
deleteProfile: vi.fn(),
};
// Zustand permet d'appeler useStore avec ou sans sélecteur
return typeof selector === "function" ? selector(state) : state;
}),
}));
const noop = () => {};
describe("ProfileModal", () => {
beforeEach(() => {
vi.clearAllMocks();
});
describe("mode normal (blocking absent)", () => {
it("affiche le bouton de fermeture ✕", () => {
render(<ProfileModal onClose={noop} />);
expect(screen.getByRole("button", { name: "✕" })).toBeInTheDocument();
});
it('affiche le titre "Profils"', () => {
render(<ProfileModal onClose={noop} />);
expect(screen.getByRole("heading", { name: "Profils" })).toBeInTheDocument();
});
});
describe("mode blocking", () => {
it("ne rend pas le bouton de fermeture ✕", () => {
render(<ProfileModal onClose={noop} blocking />);
expect(screen.queryByRole("button", { name: "✕" })).not.toBeInTheDocument();
});
it('affiche le titre "Bienvenue — créez votre profil"', () => {
render(<ProfileModal onClose={noop} blocking />);
expect(
screen.getByRole("heading", { name: "Bienvenue — créez votre profil" })
).toBeInTheDocument();
});
});
});

96
src/__tests__/collectQuestUrls.test.ts Normal file
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@ -0,0 +1,96 @@
import { describe, it, expect } from "vitest";
import { collectQuestUrls } from "../store";
import type { Section } from "../types";
// Helpers pour construire des fixtures lisibles
function makeQuestItem(name: string, url: string | null = null) {
return { name, completed: false, combat_indicators: [], note: null, url };
}
function makeQuestSection(items: Section["items"]): Section {
return { name: "Section test", items };
}
describe("collectQuestUrls", () => {
it("retourne [] pour un tableau de sections vides", () => {
expect(collectQuestUrls([])).toEqual([]);
});
it("retourne [] si la quête n'a pas d'URL", () => {
const sections: Section[] = [
makeQuestSection([{ type: "Quest", ...makeQuestItem("Quête sans URL") }]),
];
expect(collectQuestUrls(sections)).toEqual([]);
});
it("retourne l'URL d'une quête avec URL", () => {
const sections: Section[] = [
makeQuestSection([
{ type: "Quest", ...makeQuestItem("Quête avec URL", "https://example.com/quest/1") },
]),
];
expect(collectQuestUrls(sections)).toEqual(["https://example.com/quest/1"]);
});
it("retourne toutes les URLs d'un Group", () => {
const sections: Section[] = [
makeQuestSection([
{
type: "Group",
note: null,
quests: [
makeQuestItem("Q1", "https://example.com/q1"),
makeQuestItem("Q2", "https://example.com/q2"),
makeQuestItem("Q3 sans URL"),
],
},
]),
];
expect(collectQuestUrls(sections)).toEqual([
"https://example.com/q1",
"https://example.com/q2",
]);
});
it("collecte les URLs de Quest et Group mais pas des Instruction", () => {
const sections: Section[] = [
makeQuestSection([
{ type: "Quest", ...makeQuestItem("Q directe", "https://example.com/direct") },
{
type: "Group",
note: null,
quests: [makeQuestItem("Q groupe", "https://example.com/groupe")],
},
{ type: "Instruction", text: "Allez au point de départ" },
]),
];
expect(collectQuestUrls(sections)).toEqual([
"https://example.com/direct",
"https://example.com/groupe",
]);
});
it("inclut les deux occurrences si la même URL apparaît deux fois (pas de déduplication)", () => {
const url = "https://example.com/shared";
const sections: Section[] = [
makeQuestSection([
{ type: "Quest", ...makeQuestItem("Q1", url) },
{ type: "Quest", ...makeQuestItem("Q2", url) },
]),
];
const result = collectQuestUrls(sections);
expect(result).toEqual([url, url]);
expect(result).toHaveLength(2);
});
it("fonctionne avec plusieurs sections", () => {
const sections: Section[] = [
{ name: "Section A", items: [{ type: "Quest", ...makeQuestItem("QA", "https://example.com/a") }] },
{ name: "Section B", items: [{ type: "Quest", ...makeQuestItem("QB", "https://example.com/b") }] },
];
expect(collectQuestUrls(sections)).toEqual([
"https://example.com/a",
"https://example.com/b",
]);
});
});

37
src/__tests__/combatIcon.test.ts Normal file
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@ -0,0 +1,37 @@
import { describe, it, expect } from "vitest";
import { combatIcon } from "../components/GuideView";
describe("combatIcon", () => {
it('retourne "🗡️" pour "solo"', () => {
expect(combatIcon("solo")).toBe("🗡️");
});
it('retourne "⚔️" pour "groupe"', () => {
expect(combatIcon("groupe")).toBe("⚔️");
});
it('retourne "💀" pour "donjon"', () => {
expect(combatIcon("donjon")).toBe("💀");
});
it('retourne "🗺️" pour "deplacement"', () => {
expect(combatIcon("deplacement")).toBe("🗺️");
});
it('retourne "📦" pour "item"', () => {
expect(combatIcon("item")).toBe("📦");
});
it('retourne "🗡️" pour "combat_vagues" (cas explicite)', () => {
expect(combatIcon("combat_vagues")).toBe("🗡️");
});
it('retourne "🗡️" (fallback) pour une valeur inconnue', () => {
expect(combatIcon("inconnu")).toBe("🗡️");
});
it("est insensible à la casse", () => {
expect(combatIcon("SOLO")).toBe("🗡️");
expect(combatIcon("Groupe")).toBe("⚔️");
});
});

2
src/components/GuideView.tsx
View File

@ -14,7 +14,7 @@ function useWindowWidth() {
return width;
}
function combatIcon(name: string): string {
export function combatIcon(name: string): string {
const l = name.toLowerCase();
if (l === "solo") return "🗡️";
if (l === "groupe") return "⚔️";

2
src/store.ts
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@ -189,7 +189,7 @@ export const useStore = create<AppState>((set, get) => ({
},
}));
function collectQuestUrls(sections: Section[]): string[] {
export function collectQuestUrls(sections: Section[]): string[] {
const urls: string[] = [];
for (const section of sections) {
for (const item of section.items) {

1
src/test-setup.ts Normal file
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@ -0,0 +1 @@
import "@testing-library/jest-dom";

7
vite.config.ts
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@ -1,3 +1,4 @@
/// <reference types="vitest" />
import { defineConfig } from "vite";
import react from "@vitejs/plugin-react";
import tailwindcss from "@tailwindcss/vite";
@ -9,6 +10,12 @@ const host = process.env.TAURI_DEV_HOST;
export default defineConfig(async () => ({
plugins: [react(), tailwindcss()],
test: {
environment: "jsdom",
globals: true,
setupFiles: ["./src/test-setup.ts"],
},
// Vite options tailored for Tauri development and only applied in `tauri dev` or `tauri build`
//
// 1. prevent Vite from obscuring rust errors