feat(route-builder): densify + elevate off-trail segments

With "snap to route" off, every waypoint pair shipped as a 2-point
linear segment with no `<ele>` anywhere — the page only enriched
elevations inside the snap path. The resulting GPX had a flat
altitude profile and the build script's gain/loss/min/max metrics
came out all zero.

Two changes:

* New `densifyLinearSegments` (default 25 m, matches Swisstopo's
  coarsest DTM) walks every 2-point segment and seeds intermediate
  vertices along the great circle. Snapped segments (already many
  points from BRouter) are left alone.
* Page reactor now runs the same Swisstopo elevation enrichment in
  the autoSnap-off path, so the GPX carries per-trkpt `<ele>` even
  for fully manual / cross-country routes.

Elevation source unchanged: Swisstopo profile.json (COMB → DTM2 →
DTM25 fallback) is already the highest-resolution provider for our
Swiss-coverage hikes; no point swapping.

Also unifies the snap-path's inline enrichment call into the same
helper so there's one elevation code path instead of two.

package.json

@@ -1,6 +1,6 @@
 {
 	"name": "homepage",
-	"version": "1.75.5",
+	"version": "1.76.0",
 	"private": true,
 	"type": "module",
 	"scripts": {

src/lib/components/hikes/route-builder/builderStore.svelte.ts

@@ -231,6 +231,66 @@ export function reconcileSegments(): void {
 	builder.segmentSources.splice(0, builder.segmentSources.length, ...newSources);
 }
 
+/** Haversine distance in metres between two `[lng, lat]` points.
+ *  Inline so this module can stay client-only (the server helpers live in
+ *  `$lib/server/hikesRouting.ts` and aren't importable here). */
+function haversineMeters(lng1: number, lat1: number, lng2: number, lat2: number): number {
+	const R = 6_371_000;
+	const dLat = ((lat2 - lat1) * Math.PI) / 180;
+	const dLng = ((lng2 - lng1) * Math.PI) / 180;
+	const sinLat = Math.sin(dLat / 2);
+	const sinLng = Math.sin(dLng / 2);
+	const h =
+		sinLat * sinLat +
+		Math.cos((lat1 * Math.PI) / 180) *
+			Math.cos((lat2 * Math.PI) / 180) *
+			sinLng * sinLng;
+	return 2 * R * Math.asin(Math.sqrt(h));
+}
+
+/**
+ * Expand every 2-point linear segment into evenly-spaced intermediate
+ * points so an elevation enrichment pass can capture the terrain profile
+ * between the two waypoints. Snapped segments (already many points from
+ * BRouter/OSRM) are left alone.
+ *
+ * `spacingM` defaults to 25 m — matches the coarsest Swisstopo DTM that
+ * we sample against; finer spacing would just sample the same elevation
+ * value twice. Very short segments (< 30 m) skip densification: the two
+ * endpoints already capture every meaningful elevation step within
+ * Swisstopo's DTM resolution at that distance.
+ *
+ * Returns `true` when at least one segment was densified (caller can use
+ * this to decide whether to fire a fresh elevation request).
+ */
+export function densifyLinearSegments(spacingM = 25): boolean {
+	let densifiedAny = false;
+	for (let i = 0; i < builder.routedSegments.length; i++) {
+		const seg = builder.routedSegments[i];
+		if (seg.length !== 2) continue; // already snapped or already densified
+		const [lngA, latA, altA] = seg[0];
+		const [lngB, latB, altB] = seg[1];
+		const dist = haversineMeters(lngA, latA, lngB, latB);
+		if (dist < 30) continue;
+		// At least 4 sub-segments so even a 30-m linear sample gets a usable
+		// elevation profile; longer segments scale up to keep ~25 m spacing.
+		const n = Math.max(4, Math.ceil(dist / spacingM));
+		const out: Array<[number, number, number?]> = new Array(n + 1);
+		for (let j = 0; j <= n; j++) {
+			const f = j / n;
+			// Endpoints keep whatever altitude the caller supplied (typically
+			// `undefined` here — enrichment fills both ends + everything between);
+			// intermediates are seeded as `undefined` so the enrichment step
+			// knows to fill them.
+			const alt = j === 0 ? altA : j === n ? altB : undefined;
+			out[j] = [lngA + (lngB - lngA) * f, latA + (latB - latA) * f, alt];
+		}
+		builder.routedSegments[i] = out;
+		densifiedAny = true;
+	}
+	return densifiedAny;
+}
+
 export function setElevations(elevations: (number | null)[]): void {
 	// elevations are aligned with the flattened routedSegments points; fold them
 	// back into the per-segment arrays.

src/routes/hikes/route-builder/+page.svelte

@@ -10,13 +10,39 @@
 		setRoutedSegments,
 		setElevations,
 		clearDraft,
-		reconcileSegments
+		reconcileSegments,
+		densifyLinearSegments
 	} from '$lib/components/hikes/route-builder/builderStore.svelte';
 
 	let busy = $state(false);
 	let error = $state<string | null>(null);
 	let routeRequestId = 0;
 
+	/**
+	 * Pull elevations from Swisstopo for every point of the current
+	 * `routedSegments` that lacks one, then fold the values back into the
+	 * segment arrays. Shared by the snap path (where BRouter sometimes
+	 * doesn't return elevations) and the manual / off-trail path (where
+	 * we densify a straight line then need its profile).
+	 *
+	 * Returns silently if every point already has an altitude — handy when
+	 * BRouter snapped the route and embedded elevations inline.
+	 */
+	async function enrichMissingElevations(reqId: number): Promise<void> {
+		const flat = builder.routedSegments.flat();
+		if (flat.length === 0) return;
+		if (!flat.some((p) => typeof p[2] !== 'number')) return;
+		const elevRes = await fetch('/api/hikes/route-builder/elevation', {
+			method: 'POST',
+			headers: { 'Content-Type': 'application/json' },
+			body: JSON.stringify({ coordinates: flat.map((p) => [p[0], p[1]]) })
+		});
+		if (reqId !== routeRequestId) return;
+		if (!elevRes.ok) return;
+		const { elevations } = (await elevRes.json()) as { elevations: (number | null)[] };
+		setElevations(elevations);
+	}
+
 	async function snapToRoute() {
 		const placed = builder.waypoints.filter((w) => !w.unplaced);
 		if (placed.length < 2) {
@@ -46,22 +72,9 @@
 			};
 			if (reqId !== routeRequestId) return;
 			setRoutedSegments(data.segments);
-
-			// If routing didn't return elevations, enrich via Swisstopo.
-			const flat = data.segments.flat();
-			const needsElevation = flat.some((p) => typeof p[2] !== 'number');
-			if (needsElevation) {
-				const elevRes = await fetch('/api/hikes/route-builder/elevation', {
-					method: 'POST',
-					headers: { 'Content-Type': 'application/json' },
-					body: JSON.stringify({ coordinates: flat.map((p) => [p[0], p[1]]) })
-				});
-				if (reqId !== routeRequestId) return;
-				if (elevRes.ok) {
-					const elevData = (await elevRes.json()) as { elevations: (number | null)[] };
-					setElevations(elevData.elevations);
-				}
-			}
+			// BRouter usually embeds elevations inline; OSRM / linear
+			// fallbacks don't. Single helper handles both cases.
+			await enrichMissingElevations(reqId);
 		} catch (err) {
 			if (reqId !== routeRequestId) return;
 			error = (err as Error).message;
@@ -95,10 +108,18 @@
 			if (builder.autoSnap) {
 				snapDebounce = setTimeout(() => snapToRoute(), 250);
 			} else {
-				// Keep whatever was already snapped. Cancel any in-flight request so
-				// a late response doesn't overwrite the linear placeholders we just
-				// reconciled.
-				routeRequestId++;
+				// Manual / off-trail mode: keep already-snapped pairs intact
+				// (reconcileSegments preserved them); but for any fresh
+				// two-point linear placeholder, densify to ~25 m spacing and
+				// pull a Swisstopo elevation profile so the GPX carries
+				// per-trkpt `<ele>` even when the user chose not to snap.
+				// Cancel any in-flight snap request so a late response can't
+				// overwrite what we're about to densify.
+				const reqId = ++routeRequestId;
+				snapDebounce = setTimeout(async () => {
+					densifyLinearSegments(25);
+					await enrichMissingElevations(reqId);
+				}, 250);
 			}
 		});
 	});