4.3 KiB
4.3 KiB
Markers: HTML Markers, Symbol Layers & Clustering
Choosing the Right Marker Strategy
| Location Count | Strategy | Why |
|---|---|---|
| Fewer than 100 | HTML Markers | Full DOM/CSS control; manageable DOM node count |
| 100–1,000 | Symbol Layer (recommended default) | Renders on the GPU via WebGL — no DOM elements created, so performance stays smooth even with hundreds of points |
| More than 1,000 | Clustering + Symbol Layer | Reduces visual clutter and keeps interaction snappy at large scale |
Key insight: Each HTML Marker creates a real DOM element. At 150+ markers that means 150+ nodes the browser must lay out, paint, and composite every frame. A symbol layer, by contrast, is drawn entirely on the GPU through WebGL — the browser sees only the single
<canvas>element regardless of point count.
Option 1: HTML Markers (fewer than 100 locations)
const markers = {};
stores.features.forEach((store) => {
// Create marker element
const el = document.createElement('div');
el.className = 'marker';
el.style.backgroundImage = 'url(/marker-icon.png)';
el.style.width = '30px';
el.style.height = '40px';
el.style.backgroundSize = 'cover';
el.style.cursor = 'pointer';
// Create marker
const marker = new mapboxgl.Marker(el)
.setLngLat(store.geometry.coordinates)
.setPopup(
new mapboxgl.Popup({ offset: 25 }).setHTML(
`<h3>${store.properties.name}</h3>
<p>${store.properties.address}</p>
<p>${store.properties.phone}</p>`
)
)
.addTo(map);
// Store reference for later access
markers[store.properties.id] = marker;
// Handle marker click
el.addEventListener('click', () => {
flyToStore(store);
createPopup(store);
highlightListing(store.properties.id);
});
});
Option 2: Symbol Layer (100–1,000 locations) — see SKILL.md Step 2 for full implementation.
Option 3: Clustering (more than 1,000 locations)
map.on('load', () => {
map.addSource('stores', {
type: 'geojson',
data: stores,
cluster: true,
clusterMaxZoom: 14,
clusterRadius: 50
});
// Cluster circles
map.addLayer({
id: 'clusters',
type: 'circle',
source: 'stores',
filter: ['has', 'point_count'],
paint: {
'circle-color': ['step', ['get', 'point_count'], '#51bbd6', 10, '#f1f075', 30, '#f28cb1'],
'circle-radius': ['step', ['get', 'point_count'], 20, 10, 30, 30, 40]
}
});
// Cluster count labels
map.addLayer({
id: 'cluster-count',
type: 'symbol',
source: 'stores',
filter: ['has', 'point_count'],
layout: {
'text-field': '{point_count_abbreviated}',
'text-font': ['DIN Offc Pro Medium', 'Arial Unicode MS Bold'],
'text-size': 12
}
});
// Unclustered points
map.addLayer({
id: 'unclustered-point',
type: 'circle',
source: 'stores',
filter: ['!', ['has', 'point_count']],
paint: {
'circle-color': '#11b4da',
'circle-radius': 8,
'circle-stroke-width': 1,
'circle-stroke-color': '#fff'
}
});
// Zoom on cluster click
map.on('click', 'clusters', (e) => {
const features = map.queryRenderedFeatures(e.point, {
layers: ['clusters']
});
const clusterId = features[0].properties.cluster_id;
map.getSource('stores').getClusterExpansionZoom(clusterId, (err, zoom) => {
if (err) return;
map.easeTo({
center: features[0].geometry.coordinates,
zoom: zoom
});
});
});
// Show popup on unclustered point click
map.on('click', 'unclustered-point', (e) => {
const coordinates = e.features[0].geometry.coordinates.slice();
const props = e.features[0].properties;
new mapboxgl.Popup()
.setLngLat(coordinates)
.setHTML(
`<h3>${props.name}</h3>
<p>${props.address}</p>`
)
.addTo(map);
});
});