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sc/full-world-wrap #6

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steve-admin wants to merge 17 commits from sc/full-world-wrap into main
pull from: sc/full-world-wrap
merge into: ai-zone:main
Conversation 0 Commits 17 Files Changed 16
+242 -130
10 changed files with 242 additions and 130 deletions
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.claude/settings.local.json
+2 -1
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@@ -3,7 +3,8 @@
"allow": [
"Bash(npm test:*)",
"Bash(npm run:*)",
"Bash(npx playwright:*)"
"Bash(npx playwright:*)",
"Bash(node -e ':*)"
]
}
}
CLAUDE.md
+2 -2
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@@ -11,7 +11,7 @@ This file provides guidance to Claude Code (claude.ai/code) when working with co
### Docker (preferred workflow)
```bash
docker-compose up --build # Start all services (frontend :3050, backend :3001, postgres)
docker-compose up --build # Start all services (frontend :3050, backend :3051, postgres)
docker-compose down # Stop all services
docker-compose logs -f # View logs
@@ -25,7 +25,7 @@ docker-compose exec frontend npm run test:e2e
```bash
# Backend
cd backend && npm run dev # Nodemon dev server on :3001
cd backend && npm run dev # Nodemon dev server on :3051
# Frontend
cd frontend && npm run start # Vite dev server on :3050
README.md
+2 -2
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@@ -52,7 +52,7 @@ docker-compose up --build
### 3. Access Application
- **Frontend**: http://localhost:3050
- **Backend API**: http://localhost:3001
- **Backend API**: http://localhost:3051
- **Database**: localhost:5432 (PostgreSQL with PostGIS)
## 🎮 How to Use
@@ -220,7 +220,7 @@ npm run dev
```bash
# Find process using port
lsof -i :3050
lsof -i :3001
lsof -i :3051
# Kill process
kill -9 <PID>
backend/Dockerfile
+1 -1
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@@ -10,7 +10,7 @@ RUN npm install
COPY . .
# Expose port
EXPOSE 3001
EXPOSE 3051
# Start server
CMD ["npm", "start"]
backend/app/server.js
+49 -27
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@@ -4,9 +4,8 @@ const { Pool } = require('pg');
require('dotenv').config();
const app = express();
const PORT = process.env.PORT || 3001;
const PORT = process.env.PORT || 3051;
// Database connection pool
const pool = new Pool({
connectionString: process.env.DATABASE_URL || 'postgresql://line_of_sight:line_of_sight_pass@postgres:5432/line_of_sight'
});
@@ -14,7 +13,6 @@ const pool = new Pool({
app.use(cors());
app.use(express.json());
// Helper to calculate destination point given start, bearing, and distance (km)
const calculateDestination = (lat, lon, bearing, distance) => {
const R = 6371;
const brng = (bearing * Math.PI) / 180;
@@ -39,7 +37,15 @@ const calculateDestination = (lat, lon, bearing, distance) => {
};
};
// Real API endpoint - uses PostGIS for spatial queries
const haversineKm = (lat1, lon1, lat2, lon2) => {
const R = 6371;
const toRad = (d) => d * Math.PI / 180;
const dLat = toRad(lat2 - lat1);
const dLon = toRad(lon2 - lon1);
const a = Math.sin(dLat / 2) ** 2 + Math.cos(toRad(lat1)) * Math.cos(toRad(lat2)) * Math.sin(dLon / 2) ** 2;
return R * 2 * Math.atan2(Math.sqrt(a), Math.sqrt(1 - a));
};
app.get('/api/line-of-sight', async (req, res) => {
const { lat, lon, direction, tolerance } = req.query;
@@ -48,12 +54,11 @@ app.get('/api/line-of-sight', async (req, res) => {
const bearing = parseInt(direction) || 0;
const toleranceKm = parseInt(tolerance) || 50;
console.log(`Processing real request: lat=${startLat}, lon=${startLon}, bearing=${bearing}, tolerance=${toleranceKm}`);
console.log(`Processing request: lat=${startLat}, lon=${startLon}, bearing=${bearing}, tolerance=${toleranceKm}`);
try {
// Generate path points for visualization and spatial query
const pathPoints = [];
const totalDistance = 40074; // Full Earth circumference (km)
const totalDistance = 40074;
const steps = 160;
for (let i = 0; i <= steps; i++) {
@@ -61,8 +66,7 @@ app.get('/api/line-of-sight', async (req, res) => {
pathPoints.push(calculateDestination(startLat, startLon, bearing, dist));
}
// Batch check for 'over water' status for all path points
// We'll consider a point 'over water' if no city is within 500km
// Batch water check: a point is "over water" if no city is within 500 km
const waterChecks = await Promise.all(pathPoints.map(async (p) => {
const checkQuery = `
SELECT EXISTS (
@@ -71,8 +75,8 @@ app.get('/api/line-of-sight', async (req, res) => {
LIMIT 1
) as has_land;
`;
const res = await pool.query(checkQuery, [p.lon, p.lat]);
return !res.rows[0].has_land;
const r = await pool.query(checkQuery, [p.lon, p.lat]);
return !r.rows[0].has_land;
}));
const pathPointsWithWater = pathPoints.map((p, i) => ({
@@ -82,36 +86,55 @@ app.get('/api/line-of-sight', async (req, res) => {
const lineWKT = `LINESTRING(${pathPoints.map(p => `${p.lon} ${p.lat}`).join(',')})`;
// Top 5 cities per 100 km bin, ranked by population descending
const query = `
WITH path AS (
SELECT ST_GeogFromText($1) as route,
ST_MakePoint($3, $4)::geography as start_node
),
candidates AS (
SELECT
id, name, population, country,
ST_Y(geom::geometry) as lat,
ST_X(geom::geometry) as lon,
ST_Distance(geom, (SELECT route FROM path)) / 1000 as distance_off_line_km,
ST_Distance(geom, (SELECT start_node FROM path)) / 1000 as distance_from_start_km,
ST_LineLocatePoint((SELECT route FROM path)::geometry, geom::geometry) as pos_on_line,
FLOOR(ST_Distance(geom, (SELECT start_node FROM path)) / 1000 / 100)::int as bin_100km
FROM cities
WHERE ST_DWithin(geom, (SELECT route FROM path), $2 * 1000)
),
ranked AS (
SELECT *,
ROW_NUMBER() OVER (PARTITION BY bin_100km ORDER BY population DESC NULLS LAST) as rank_in_bin
FROM candidates
)
SELECT
id,
name,
population,
country,
ST_Y(geom::geometry) as lat,
ST_X(geom::geometry) as lon,
ST_Distance(geom, (SELECT route FROM path)) / 1000 as distance_off_line_km,
ST_Distance(geom, (SELECT start_node FROM path)) / 1000 as distance_from_start_km,
ST_LineLocatePoint((SELECT route FROM path)::geometry, geom::geometry) as pos_on_line
FROM cities
WHERE ST_DWithin(geom, (SELECT route FROM path), $2 * 1000)
ORDER BY pos_on_line ASC
LIMIT 200;
SELECT id, name, population, country, lat, lon,
distance_off_line_km, distance_from_start_km, pos_on_line
FROM ranked
WHERE rank_in_bin <= 5
ORDER BY pos_on_line ASC;
`;
const result = await pool.query(query, [lineWKT, toleranceKm, startLon, startLat]);
// Greedy 30 km deduplication: sort by population desc, accept a city only if
// it's at least 30 km from every already-accepted city.
const byPopulation = [...result.rows].sort((a, b) => (b.population || 0) - (a.population || 0));
const accepted = [];
for (const city of byPopulation) {
const tooClose = accepted.some(s => haversineKm(s.lat, s.lon, city.lat, city.lon) < 30);
if (!tooClose) accepted.push(city);
}
accepted.sort((a, b) => a.pos_on_line - b.pos_on_line);
res.json({
success: true,
data: {
start_point: { lat: startLat, lon: startLon },
direction: bearing,
tolerance_km: toleranceKm,
conurbations: result.rows.map(row => ({
conurbations: accepted.map(row => ({
...row,
name: row.name || 'Unknown',
country: row.country || 'Unknown',
@@ -127,7 +150,6 @@ app.get('/api/line-of-sight', async (req, res) => {
}
});
// Health check endpoint
app.get('/api/health', (req, res) => {
res.json({ status: 'ok', timestamp: new Date().toISOString() });
});
docker-compose.yml
+3 -3
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@@ -27,10 +27,10 @@ services:
dockerfile: Dockerfile
container_name: line-of-sight-backend
ports:
- "3001:3001"
- "3051:3051"
environment:
- DATABASE_URL=postgresql://line_of_sight:line_of_sight_pass@postgres:5432/line_of_sight
- PORT=3001
- PORT=3051
depends_on:
postgres:
condition: service_healthy
@@ -46,7 +46,7 @@ services:
ports:
- "3050:3050"
environment:
- VITE_API_URL=http://localhost:3001/api
- VITE_API_URL=http://localhost:3051/api
depends_on:
- backend
volumes:
frontend/Dockerfile
+1 -1
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@@ -13,7 +13,7 @@ COPY . .
EXPOSE 3050
# Set environment variable for API URL
ENV VITE_API_URL=http://localhost:3001/api
ENV VITE_API_URL=http://localhost:3051/api
# Start development server
CMD ["npm", "start"]
frontend/src/App.jsx
+151 -85
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@@ -12,38 +12,47 @@ const APP = () => {
const cityMarkersRef = useRef([]);
const animationRef = useRef(null);
const popupRef = useRef(null);
// Ref mirrors mapProjection state so stale closures (style.load) read the current value
// Refs mirror state so stale closures (e.g. style.load) always read the current value
const mapProjectionRef = useRef('globe');
const selectedPointRef = useRef({ lat: 51.5074, lon: -0.1278 });
const directionRef = useRef(90);
const lineOfSightDataRef = useRef(null);
const flightProgressRef = useRef(0);
const seekRef = useRef(null);
const currentCityIndexRef = useRef(-1);
const [selectedPoint, setSelectedPoint] = useState({ lat: 51.5074, lon: -0.1278 });
const [direction, setDirection] = useState(45);
const [direction, setDirection] = useState(90);
const [lineOfSightData, setLineOfSightData] = useState(null);
const [loading, setLoading] = useState(false);
const [isPlaying, setIsPlaying] = useState(false);
const [flightSpeed, setFlightSpeed] = useState(1.0);
const [mapStyle, setMapStyle] = useState('light');
const [mapStyle, setMapStyle] = useState('basic');
const [mapProjection, setMapProjection] = useState('globe');
const [tolerance, setTolerance] = useState(50);
const [selectedCity, setSelectedCity] = useState(null);
const [isLocked, setIsLocked] = useState(false);
const [currentCityIndex, setCurrentCityIndex] = useState(-1);
// Keep ref in sync with state
// Keep refs in sync with state so stale closures always have current values
useEffect(() => { mapProjectionRef.current = mapProjection; }, [mapProjection]);
useEffect(() => { selectedPointRef.current = selectedPoint; }, [selectedPoint]);
useEffect(() => { directionRef.current = direction; }, [direction]);
useEffect(() => { lineOfSightDataRef.current = lineOfSightData; }, [lineOfSightData]);
// Auto-scroll sidebar to current city during flight
useEffect(() => {
mapProjectionRef.current = mapProjection;
}, [mapProjection]);
if (isPlaying && currentCityIndex >= 0) {
const row = document.getElementById(`city-row-${currentCityIndex}`);
if (row) row.scrollIntoView({ block: 'nearest', behavior: 'smooth' });
}
}, [currentCityIndex, isPlaying]);
// --- Helpers ---
// Build GeoJSON for the line, splitting at the antimeridian for flat projections
const buildLineGeoJSON = (lineCoords, projection) => {
const buildLineGeoJSON = (lineCoords) => {
const coords = lineCoords.map(c => [c.lon, c.lat]);
if (projection === 'globe') {
return {
type: 'Feature',
properties: {},
geometry: { type: 'LineString', coordinates: coords }
};
}
// Split segments wherever consecutive points cross the antimeridian (±180°)
const segments = [];
let current = [coords[0]];
@@ -80,7 +89,8 @@ const APP = () => {
ctx.lineTo(size * 0.78, size * 0.5);
ctx.lineTo(size * 0.2, size * 0.78);
ctx.stroke();
map.addImage('arrow-icon', canvas);
// MapLibre v5 requires ImageData, not a raw canvas element
map.addImage('arrow-icon', ctx.getImageData(0, 0, size, size));
};
// --- Map initialisation (runs once) ---
@@ -92,7 +102,7 @@ const APP = () => {
center: [-0.1278, 51.5074],
zoom: 2,
pitch: 0,
projection: 'globe'
projection: { type: 'globe' }
});
mapRef.current.on('style.load', () => {
@@ -136,10 +146,15 @@ const APP = () => {
map.setTerrain({ source: 'terrain', exaggeration: 1.5 });
}
// Read current values from refs to avoid stale closure problems
const currentPoint = selectedPointRef.current;
const currentDirection = directionRef.current;
const currentLineData = lineOfSightDataRef.current;
// 3. Start marker
if (startMarkerRef.current) startMarkerRef.current.remove();
startMarkerRef.current = new maplibregl.Marker({ color: '#FF6B6B' })
.setLngLat([selectedPoint.lon, selectedPoint.lat])
.setLngLat([currentPoint.lon, currentPoint.lat])
.addTo(map);
// 4. Preview line source and layer
@@ -157,13 +172,13 @@ const APP = () => {
}
// 5. Restore results line and markers if they existed
if (lineOfSightData) {
renderLineOnMap(lineOfSightData);
if (currentLineData) {
renderLineOnMap(currentLineData);
if (map.getLayer('preview-line')) {
map.setLayoutProperty('preview-line', 'visibility', 'none');
}
} else {
updatePreviewLine(selectedPoint, direction);
updatePreviewLine(currentPoint, currentDirection);
}
};
@@ -173,29 +188,38 @@ const APP = () => {
const map = mapRef.current;
if (!map) return;
map.setProjection(mapProjection);
const applyProjection = () => {
map.setProjection({ type: mapProjection });
if (mapProjection === 'globe') {
map.setSky({
'sky-color': '#199EF3',
'sky-horizon-blend': 0.5,
'horizon-color': '#ffffff',
'horizon-fog-blend': 0.5,
'fog-color': '#add8e6',
'fog-ground-blend': 0.5
});
if (map.getSource('terrain')) {
map.setTerrain({ source: 'terrain', exaggeration: 1.5 });
if (mapProjection === 'globe') {
map.setSky({
'sky-color': '#199EF3',
'sky-horizon-blend': 0.5,
'horizon-color': '#ffffff',
'horizon-fog-blend': 0.5,
'fog-color': '#add8e6',
'fog-ground-blend': 0.5
});
if (map.getSource('terrain')) {
map.setTerrain({ source: 'terrain', exaggeration: 1.5 });
}
} else {
map.setTerrain(null);
}
} else {
map.setTerrain(null);
}
// Re-render line with correct antimeridian handling for this projection
if (lineOfSightData && map.getSource('line-of-sight')) {
map.getSource('line-of-sight').setData(
buildLineGeoJSON(lineOfSightData.line_coordinates, mapProjection)
);
// Re-render line with correct antimeridian handling for this projection
if (lineOfSightData && map.getSource('line-of-sight')) {
map.getSource('line-of-sight').setData(
buildLineGeoJSON(lineOfSightData.line_coordinates)
);
}
};
if (map.isStyleLoaded()) {
applyProjection();
} else {
map.once('style.load', applyProjection);
return () => map.off('style.load', applyProjection);
}
}, [mapProjection]); // eslint-disable-line react-hooks/exhaustive-deps
@@ -207,6 +231,8 @@ const APP = () => {
const handleClick = (e) => {
if (isLocked) return;
const { lng, lat } = e.lngLat;
// Update ref immediately (state update is async)
selectedPointRef.current = { lat, lon: lng };
setSelectedPoint({ lat, lon: lng });
if (startMarkerRef.current) {
startMarkerRef.current.setLngLat([lng, lat]);
@@ -218,6 +244,9 @@ const APP = () => {
map.removeLayer('line-of-sight');
map.removeSource('line-of-sight');
}
if (map.getLayer('preview-line')) {
map.setLayoutProperty('preview-line', 'visibility', 'visible');
}
};
mapRef.current.on('click', handleClick);
@@ -322,20 +351,23 @@ const APP = () => {
if (animationRef.current) cancelAnimationFrame(animationRef.current);
setIsPlaying(false);
setFlightSpeed(1.0);
setCurrentCityIndex(-1);
currentCityIndexRef.current = -1;
return;
}
setIsPlaying(true);
setSelectedCity(null);
setCurrentCityIndex(-1);
currentCityIndexRef.current = -1;
if (popupRef.current) popupRef.current.remove();
const coordinates = lineOfSightData.line_coordinates.map(c => [c.lon, c.lat]);
const route = turf.lineString(coordinates);
const routeDistance = turf.length(route);
let lastNearestCityId = null;
let lastFetchedDist = 0;
let currentProgress = 0;
let lastFetchedDist = flightProgressRef.current;
let currentProgress = flightProgressRef.current;
flightProgressRef.current = 0;
let lastTimestamp = performance.now();
let currentSpeedMultiplier = 1.0;
let frameCount = 0;
@@ -343,18 +375,25 @@ const APP = () => {
async function animate(currentTime) {
if (!mapRef.current) return;
// Apply any pending seek
if (seekRef.current !== null) {
currentProgress = seekRef.current;
lastFetchedDist = currentProgress;
lastTimestamp = currentTime;
seekRef.current = null;
}
const deltaTime = currentTime - lastTimestamp;
lastTimestamp = currentTime;
const baseKmPerMs = 0.1; // 100 km/s
const pathPoints = lineOfSightData.line_coordinates;
const baseKmPerMs = 0.1;
const pathPoints = lineOfSightDataRef.current.line_coordinates;
const pointIndex = Math.min(
Math.floor((currentProgress / routeDistance) * pathPoints.length),
pathPoints.length - 1
);
const isOverWater = pathPoints[pointIndex]?.is_over_water;
// Predictive land detection (look ahead 2000 km)
let futureIsOverWater = true;
const lookAheadDistance = 2000;
const lookAheadSteps = 10;
@@ -387,6 +426,8 @@ const APP = () => {
if (phase >= 1) {
setIsPlaying(false);
setFlightSpeed(1.0);
setCurrentCityIndex(-1);
currentCityIndexRef.current = -1;
return;
}
@@ -396,6 +437,20 @@ const APP = () => {
mapRef.current.jumpTo({ center: eye, zoom: 6, pitch: 65, bearing });
// Find nearest city to current position and update sidebar highlight
const cities = lineOfSightDataRef.current.conurbations;
let nearestIdx = -1;
let nearestDist = Infinity;
cities.forEach((city, idx) => {
const d = Math.abs(city.distance_km - currentProgress);
if (d < nearestDist) { nearestDist = d; nearestIdx = idx; }
});
if (nearestDist < 300 && nearestIdx !== currentCityIndexRef.current) {
currentCityIndexRef.current = nearestIdx;
setCurrentCityIndex(nearestIdx);
showCityPopup(cities[nearestIdx]);
}
if (currentProgress - lastFetchedDist > 2000) {
lastFetchedDist = currentProgress;
try {
@@ -422,15 +477,6 @@ const APP = () => {
}
}
const nearestCity = lineOfSightData.conurbations.find(city =>
Math.abs(city.distance_km - currentProgress) < 100
);
if (nearestCity && nearestCity.id !== lastNearestCityId) {
lastNearestCityId = nearestCity.id;
setSelectedCity(nearestCity);
showCityPopup(nearestCity);
}
animationRef.current = requestAnimationFrame(animate);
}
@@ -477,7 +523,7 @@ const APP = () => {
map.addSource('line-of-sight', {
type: 'geojson',
data: buildLineGeoJSON(data.line_coordinates, projection)
data: buildLineGeoJSON(data.line_coordinates)
});
map.addLayer({
@@ -527,10 +573,9 @@ const APP = () => {
path.push(calculateDestination(point.lat, point.lon, brng, dist));
}
map.getSource('preview-line').setData({
type: 'Feature',
geometry: { type: 'LineString', coordinates: path.map(p => [p.lon, p.lat]) }
});
map.getSource('preview-line').setData(
buildLineGeoJSON(path)
);
};
const calculateDestination = (lat, lon, bearing, distance) => {
@@ -578,6 +623,10 @@ const APP = () => {
}]
};
}
if (style === 'map') {
return 'https://tiles.openfreemap.org/styles/liberty';
}
// 'basic' — clean MapLibre demo tiles, no labels
return 'https://demotiles.maplibre.org/style.json';
};
@@ -607,9 +656,7 @@ const APP = () => {
const PROJECTIONS = [
{ id: 'globe', label: 'Globe' },
{ id: 'mercator', label: 'Mercator' },
{ id: 'equalEarth', label: 'Equal Earth' },
{ id: 'naturalEarth', label: 'Natural Earth' },
{ id: 'winkelTripel', label: 'Winkel Tripel' }
{ id: 'vertical-perspective', label: 'Perspective' }
];
return (
@@ -653,8 +700,8 @@ const APP = () => {
<div className="setting-row">
<label>Map Style:</label>
<button className={mapStyle === 'light' ? 'active-style' : ''} onClick={() => setMapStyle('light')}>Light</button>
<button className={mapStyle === 'dark' ? 'active-style' : ''} onClick={() => setMapStyle('dark')}>Dark</button>
<button className={mapStyle === 'basic' ? 'active-style' : ''} onClick={() => setMapStyle('basic')}>Basic</button>
<button className={mapStyle === 'map' ? 'active-style' : ''} onClick={() => setMapStyle('map')}>Map</button>
<button className={mapStyle === 'satellite' ? 'active-style' : ''} onClick={() => setMapStyle('satellite')}>Satellite</button>
</div>
@@ -695,34 +742,53 @@ const APP = () => {
{lineOfSightData && (
<div className="results-panel">
<h3>Conurbations Found ({lineOfSightData.conurbations.length})</h3>
<p className="hint">Click a city for details</p>
<h3>Cities Along Route ({lineOfSightData.conurbations.length})</h3>
{isPlaying && currentCityIndex >= 0 && (
<div className="now-passing">
Now passing: <strong>{lineOfSightData.conurbations[currentCityIndex]?.name}</strong>
</div>
)}
<p className="hint">{isPlaying ? 'Click a city to jump to it' : 'Click a city for details'}</p>
<table>
<thead>
<tr>
<th>#</th>
<th>City</th>
<th>Population</th>
<th>Pop.</th>
<th>Dist.</th>
</tr>
</thead>
<tbody>
{lineOfSightData.conurbations.map((city, index) => (
<tr
key={city.id}
onClick={() => {
setSelectedCity(city);
showCityPopup(city);
mapRef.current.flyTo({ center: [city.lon, city.lat], zoom: 8 });
}}
className={selectedCity?.id === city.id ? 'selected-row' : ''}
>
<td>{index + 1}</td>
<td>{city.name}</td>
<td>{(city.population / 1000).toFixed(0)}k</td>
<td>{city.distance_km}km</td>
</tr>
))}
{lineOfSightData.conurbations.map((city, index) => {
let rowClass = '';
if (isPlaying && currentCityIndex >= 0) {
if (index === currentCityIndex) rowClass = 'current-row';
else if (index < currentCityIndex) rowClass = 'passed-row';
else if (index <= currentCityIndex + 5) rowClass = 'upcoming-row';
} else if (selectedCity?.id === city.id) {
rowClass = 'selected-row';
}
return (
<tr
id={`city-row-${index}`}
key={city.id}
onClick={() => {
setSelectedCity(city);
showCityPopup(city);
mapRef.current.flyTo({ center: [city.lon, city.lat], zoom: 8 });
if (isPlaying) {
seekRef.current = city.distance_km;
}
}}
className={rowClass}
>
<td>{index + 1}</td>
<td>{city.name}</td>
<td>{(city.population / 1000).toFixed(0)}k</td>
<td>{city.distance_km}km</td>
</tr>
);
})}
</tbody>
</table>
</div>
frontend/src/services/api.js
+1 -1
View File
@@ -1,6 +1,6 @@
import axios from 'axios';
const API_BASE_URL = import.meta.env.VITE_API_URL || 'http://localhost:3001/api';
const API_BASE_URL = import.meta.env.VITE_API_URL || 'http://localhost:3051/api';
const api = axios.create({
baseURL: API_BASE_URL,
frontend/src/styles/App.css
+23
View File
@@ -465,3 +465,26 @@
top: auto;
}
}
.results-panel tr.passed-row {
opacity: 0.4;
}
.results-panel tr.current-row {
background: #1abc9c !important;
color: white;
font-weight: bold;
}
.results-panel tr.upcoming-row {
background: #eaf4fb !important;
}
.now-passing {
background: #1abc9c;
color: white;
padding: 6px 10px;
border-radius: 4px;
font-size: 13px;
margin-bottom: 8px;
}